-- Hoogle documentation, generated by Haddock
-- See Hoogle, http://www.haskell.org/hoogle/


-- | Gdk bindings
--   
--   Bindings for Gdk, autogenerated by haskell-gi.
@package gi-gdk
@version 3.0.29


-- | Build time configuration used during code generation.
module GI.Gdk.Config

-- | Overrides used when generating these bindings.
overrides :: Text


module GI.Gdk.Constants

-- | This is the priority that the idle handler processing window updates
--   is given in the [GLib Main Loop][glib-The-Main-Event-Loop].
pattern PRIORITY_REDRAW :: Int32

-- | A special value, indicating that the background for a window should be
--   inherited from the parent window.
pattern PARENT_RELATIVE :: Int32

-- | <i>No description available in the introspection data.</i>
pattern MINOR_VERSION :: Int32

-- | <i>No description available in the introspection data.</i>
pattern MICRO_VERSION :: Int32

-- | <i>No description available in the introspection data.</i>
pattern MAX_TIMECOORD_AXES :: Int32

-- | <i>No description available in the introspection data.</i>
pattern MAJOR_VERSION :: Int32

-- | <i>No description available in the introspection data.</i>
pattern KEY_zstroke :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_zerosuperior :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_zerosubscript :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_zcaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_zacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_zabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_z :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ytilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_yhook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ygrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_yen :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ydiaeresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ycircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ybelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_yacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_y :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_xabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_x :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_wgrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_wdiaeresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_wcircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_wacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_w :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_vt :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_voicedsound :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_vertconnector :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_vertbar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_variation :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_v :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_utilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_uring :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_uptack :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_upstile :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_upshoe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_uprightcorner :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_upleftcorner :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_upcaret :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_uparrow :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_uogonek :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_union :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_underscore :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_underbar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_umacron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_uhorntilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_uhornhook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_uhorngrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_uhornbelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_uhornacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_uhorn :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_uhook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ugrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_udoubleacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_udiaeresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ucircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ubreve :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ubelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_uacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_u :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_twothirds :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_twosuperior :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_twosubscript :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_twofifths :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_tslash :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_trademarkincircle :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_trademark :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_topvertsummationconnector :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_topt :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_toprightsummation :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_toprightsqbracket :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_toprightparens :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_topleftsummation :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_topleftsqbracket :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_topleftradical :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_topleftparens :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_topintegral :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_tintegral :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_threesuperior :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_threesubscript :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_threequarters :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_threefifths :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_threeeighths :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_thorn :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_thinspace :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_therefore :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_telephonerecorder :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_telephone :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_tcedilla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_tcaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_tabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_t :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_stricteq :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_sterling :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ssharp :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_squareroot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_space :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_soliddiamond :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_slash :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_sixsuperior :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_sixsubscript :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_singlelowquotemark :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_similarequal :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_signifblank :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_signaturemark :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_sevensuperior :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_sevensubscript :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_seveneighths :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_semivoicedsound :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_semicolon :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_section :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_seconds :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_script_switch :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_scircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_schwa :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_scedilla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_scaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_sacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_sabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_s :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_righttack :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_rightt :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_rightsinglequotemark :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_rightshoe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_rightpointer :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_rightopentriangle :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_rightmiddlesummation :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_rightmiddlecurlybrace :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_rightdoublequotemark :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_rightcaret :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_rightarrow :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_rightanglebracket :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_registered :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_rcedilla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_rcaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_radical :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_racute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_r :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_quoteright :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_quoteleft :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_quotedbl :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_questiondown :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_question :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_quad :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_q :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_punctspace :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_prolongedsound :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_prescription :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_plusminus :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_plus :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_phonographcopyright :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_permille :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_periodcentered :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_period :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_percent :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_partialderivative :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_partdifferential :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_parenright :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_parenleft :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_paragraph :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_pabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_p :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_overline :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_overbar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_otilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_oslash :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ordfeminine :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_opentribulletup :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_opentribulletdown :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_openstar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_openrectbullet :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ooblique :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_onethird :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_onesuperior :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_onesubscript :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_onesixth :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_onequarter :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_onehalf :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_onefifth :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_oneeighth :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_omacron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ohorntilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ohornhook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ohorngrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ohornbelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ohornacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ohorn :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ohook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ograve :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ogonek :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_oe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_odoubleacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_odiaeresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ocircumflextilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ocircumflexhook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ocircumflexgrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ocircumflexbelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ocircumflexacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ocircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ocaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_obelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_obarred :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_oacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_o :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_numerosign :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_numbersign :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ntilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_notsign :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_notidentical :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_notequal :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_notelementof :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_notapproxeq :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_nobreakspace :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_nl :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ninesuperior :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ninesubscript :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ncedilla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ncaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_nacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_nabla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_n :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_musicalsharp :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_musicalflat :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_multiply :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_mu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_minutes :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_minus :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_masculine :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_marker :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_maltesecross :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_malesymbol :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_macron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_mabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_m :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_lstroke :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_lowrightcorner :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_lowleftcorner :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_logicalor :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_logicaland :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_lf :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_lessthanequal :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_less :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_lefttack :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_leftt :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_leftsinglequotemark :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_leftshoe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_leftradical :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_leftpointer :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_leftopentriangle :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_leftmiddlecurlybrace :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_leftdoublequotemark :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_leftcaret :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_leftarrow :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_leftanglebracket :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_lcedilla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_lcaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_lbelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_latincross :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_lacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_l :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kra :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kcedilla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kappa :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_yu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_yo :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_ya :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_u :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_tu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_tsu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_switch :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_openingbracket :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_o :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_middledot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_i :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_fullstop :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_e :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_conjunctive :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_comma :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_closingbracket :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_a :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_YU :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_YO :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_YA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_WO :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_WA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_U :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_TU :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_TSU :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_TO :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_TI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_TE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_TA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_SU :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_SO :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_SHI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_SE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_SA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_RU :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_RO :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_RI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_RE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_RA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_O :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_NU :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_NO :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_NI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_NE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_NA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_N :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_MU :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_MO :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_MI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_ME :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_MA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_KU :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_KO :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_KI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_KE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_KA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_I :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_HU :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_HO :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_HI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_HE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_HA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_FU :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_E :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_CHI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_kana_A :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_k :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_jot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_jcircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_j :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_itilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_iogonek :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_intersection :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_integral :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_infinity :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_includes :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_includedin :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_implies :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_imacron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ihook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_igrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ifonlyif :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_idotless :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_idiaeresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_identical :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_icircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ibreve :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ibelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_iacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_iTouch :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_i :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hyphen :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ht :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hstroke :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_horizlinescan9 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_horizlinescan7 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_horizlinescan5 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_horizlinescan3 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_horizlinescan1 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_horizconnector :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hexagram :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_zayin :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_zain :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_zadi :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_zade :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_yod :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_waw :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_teth :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_tet :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_taw :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_taf :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_shin :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_samekh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_samech :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_resh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_qoph :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_pe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_nun :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_mem :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_lamed :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_kuf :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_kaph :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_het :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_he :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_gimmel :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_gimel :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_finalzadi :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_finalzade :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_finalpe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_finalnun :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_finalmem :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_finalkaph :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_doublelowline :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_daleth :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_dalet :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_chet :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_beth :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_bet :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_ayin :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hebrew_aleph :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_heart :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hcircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_hairspace :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_h :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_guillemotright :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_guillemotleft :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_greaterthanequal :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_greater :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_grave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_gcircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_gcedilla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_gcaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_gbreve :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_gabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_g :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_function :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_fourthroot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_foursuperior :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_foursubscript :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_fourfifths :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_fivesuperior :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_fivesubscript :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_fivesixths :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_fiveeighths :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_filledtribulletup :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_filledtribulletdown :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_filledrighttribullet :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_filledrectbullet :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_filledlefttribullet :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_figdash :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ff :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_femalesymbol :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_fabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_f :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ezh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_exclamdown :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_exclam :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_etilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_eth :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_equal :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_eogonek :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_enspace :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_enopensquarebullet :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_enopencircbullet :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_eng :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_enfilledsqbullet :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_enfilledcircbullet :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_endash :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_emspace :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_emptyset :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_emopenrectangle :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_emopencircle :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_emfilledrect :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_emfilledcircle :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_emdash :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_emacron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_em4space :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_em3space :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ellipsis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_elementof :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_eightsuperior :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_eightsubscript :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ehook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_egrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ediaeresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ecircumflextilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ecircumflexhook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ecircumflexgrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ecircumflexbelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ecircumflexacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ecircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ecaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ebelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_eacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_eabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_e :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dstroke :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_downtack :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_downstile :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_downshoe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_downcaret :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_downarrow :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_doublelowquotemark :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_doubledagger :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_doubleacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_doubbaselinedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dollar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_division :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dintegral :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_digitspace :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_diamond :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_diaeresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_degree :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_decimalpoint :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_voiced_sound :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_u :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_tilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_stroke :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_small_schwa :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_semivoiced_sound :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_psili :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_perispomeni :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_ogonek :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_o :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_macron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_lowline :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_longsolidusoverlay :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_iota :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_invertedbreve :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_i :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_horn :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_hook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_greek :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_grave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_e :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_doublegrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_doubleacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_diaeresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_dasia :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_currency :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_circumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_cedilla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_caron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_capital_schwa :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_breve :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_belowverticalline :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_belowtilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_belowring :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_belowmacron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_belowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_belowdiaeresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_belowcomma :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_belowcircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_belowbreve :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_acute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_aboveverticalline :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_abovering :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_abovereversedcomma :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_abovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_abovecomma :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_a :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_U :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_O :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_I :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_E :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dead_A :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dcaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dagger :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_dabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_d :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_cursor :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_currency :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_cuberoot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_crossinglines :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_cr :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_copyright :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_containsas :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_comma :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_colon :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_club :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_circle :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_checkmark :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_checkerboard :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ch :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_cent :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_cedilla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ccircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ccedilla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ccaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_caron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_caret :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_careof :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_cacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_cabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_c_h :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_c :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_brokenbar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_breve :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_8 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_78 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_7 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_68 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_67 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_6 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_58 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_578 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_57 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_568 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_5678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_567 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_56 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_5 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_48 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_478 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_47 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_468 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_4678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_467 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_46 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_458 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_4578 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_457 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_4568 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_45678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_4567 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_456 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_45 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_4 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_38 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_378 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_37 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_368 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_3678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_367 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_36 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_358 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_3578 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_357 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_3568 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_35678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_3567 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_356 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_35 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_348 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_3478 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_347 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_3468 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_34678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_3467 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_346 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_3458 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_34578 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_3457 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_34568 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_345678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_34567 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_3456 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_345 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_34 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_3 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_28 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_278 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_27 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_268 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_267 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_26 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_258 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2578 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_257 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2568 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_25678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2567 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_256 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_25 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_248 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2478 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_247 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2468 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_24678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2467 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_246 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2458 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_24578 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2457 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_24568 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_245678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_24567 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2456 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_245 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_24 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_238 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2378 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_237 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2368 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_23678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2367 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_236 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2358 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_23578 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2357 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_23568 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_235678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_23567 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2356 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_235 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2348 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_23478 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2347 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_23468 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_234678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_23467 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2346 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_23458 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_234578 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_23457 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_234568 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2345678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_234567 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_23456 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2345 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_234 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_23 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_18 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_178 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_17 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_168 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_167 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_16 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_158 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1578 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_157 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1568 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_15678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1567 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_156 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_15 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_148 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1478 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_147 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1468 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_14678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1467 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_146 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1458 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_14578 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1457 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_14568 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_145678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_14567 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1456 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_145 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_14 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_138 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1378 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_137 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1368 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_13678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1367 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_136 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1358 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_13578 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1357 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_13568 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_135678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_13567 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1356 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_135 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1348 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_13478 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1347 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_13468 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_134678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_13467 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1346 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_13458 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_134578 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_13457 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_134568 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1345678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_134567 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_13456 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1345 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_134 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_13 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_128 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1278 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_127 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1268 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1267 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_126 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1258 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12578 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1257 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12568 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_125678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12567 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1256 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_125 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1248 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12478 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1247 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12468 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_124678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12467 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1246 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12458 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_124578 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12457 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_124568 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1245678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_124567 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12456 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1245 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_124 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1238 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12378 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1237 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12368 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_123678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12367 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1236 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12358 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_123578 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12357 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_123568 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1235678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_123567 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12356 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1235 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12348 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_123478 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12347 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_123468 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1234678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_123467 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12346 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_123458 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1234578 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_123457 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1234568 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12345678 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1234567 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_123456 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12345 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1234 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_123 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_12 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dots_1 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dot_9 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dot_8 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dot_7 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dot_6 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dot_5 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dot_4 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dot_3 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dot_2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dot_10 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_dot_1 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braille_blank :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_bracketright :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_bracketleft :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braceright :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_braceleft :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_botvertsummationconnector :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_bott :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_botrightsummation :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_botrightsqbracket :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_botrightparens :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_botleftsummation :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_botleftsqbracket :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_botleftparens :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_botintegral :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_blank :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_because :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_bar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ballotcross :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_backslash :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_babovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_b :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_atilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_at :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_asterisk :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_asciitilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_asciicircum :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_aring :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_approximate :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_approxeq :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_apostrophe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_aogonek :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ampersand :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_amacron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ahook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_agrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ae :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_adiaeresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_acute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_acircumflextilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_acircumflexhook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_acircumflexgrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_acircumflexbelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_acircumflexacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_acircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_abrevetilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_abrevehook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_abrevegrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_abrevebelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_abreveacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_abreve :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_abovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_abelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_aacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_a :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Zstroke :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ZoomOut :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ZoomIn :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Zenkaku_Hankaku :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Zenkaku :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Zen_Koho :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Zcaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Zacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Zabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Z :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ytilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Yhook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ygrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Yellow :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ydiaeresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ycircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ybelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Yacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Y :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Xfer :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Xabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_X :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Word :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_WonSign :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_WindowClear :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_WheelButton :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Wgrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_WebCam :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Wdiaeresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Wcircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_WakeUp :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Wacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_WWW :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_WWAN :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_WLAN :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_W :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_VoidSymbol :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_View :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Video :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_VendorHome :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_V :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Utilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_UserPB :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_User2KB :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_User1KB :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Uring :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Up :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Uogonek :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ungrab :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Undo :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Umacron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ukranian_yi :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ukranian_je :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ukranian_i :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ukranian_YI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ukranian_JE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ukranian_I :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ukrainian_yi :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ukrainian_ie :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ukrainian_i :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ukrainian_ghe_with_upturn :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ukrainian_YI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ukrainian_IE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ukrainian_I :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ukrainian_GHE_WITH_UPTURN :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Uhorntilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Uhornhook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Uhorngrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Uhornbelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Uhornacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Uhorn :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Uhook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ugrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Udoubleacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Udiaeresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ucircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ubreve :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ubelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Uacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_UWB :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_U :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Tslash :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Travel :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Touroku :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_TouchpadToggle :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_TouchpadOn :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_TouchpadOff :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_TopMenu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Tools :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ToDoList :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Time :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thorn :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_yoying :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_yoyak :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_wowaen :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_totao :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_topatak :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_thothung :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_thothong :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_thothan :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_thothahan :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_thophuthao :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_thonangmontho :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_thanthakhat :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_sosua :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_soso :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_sosala :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_sorusi :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_sarauu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_sarauee :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_saraue :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_sarau :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_sarao :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_saraii :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_sarai :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_sarae :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_saraam :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_saraaimaimuan :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_saraaimaimalai :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_saraae :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_saraaa :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_saraa :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_ru :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_rorua :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_popla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_phosamphao :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_phophung :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_phophan :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_phinthu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_paiyannoi :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_oang :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_nonu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_nonen :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_nikhahit :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_ngongu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_moma :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_maiyamok :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_maitri :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_maitho :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_maitaikhu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_maihanakat_maitho :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_maihanakat :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_maiek :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_maichattawa :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_lu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_loling :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_lochula :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_leksun :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_leksong :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_leksi :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_leksam :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_lekpaet :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_leknung :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_lekkao :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_lekhok :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_lekha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_lekchet :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_lakkhangyao :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_kokai :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_khorakhang :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_khokhwai :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_khokhuat :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_khokhon :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_khokhai :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_honokhuk :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_hohip :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_fofan :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_fofa :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_dodek :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_dochada :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_chochoe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_choching :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_chochang :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_chochan :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_bobaimai :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Thai_baht :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Terminate_Server :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Terminal :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Tcedilla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Tcaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_TaskPane :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Tabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Tab :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_THORN :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_T :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sys_Req :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Switch_VT_9 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Switch_VT_8 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Switch_VT_7 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Switch_VT_6 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Switch_VT_5 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Switch_VT_4 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Switch_VT_3 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Switch_VT_2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Switch_VT_12 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Switch_VT_11 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Switch_VT_10 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Switch_VT_1 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Suspend :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Support :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Super_R :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Super_L :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Subtitle :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Stop :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_StickyKeys_Enable :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Start :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Standby :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_SplitScreen :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Spell :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_SlowKeys_Enable :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sleep :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ya :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_va :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_uu2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_uu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_u2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_u :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ttha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_tta :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_thha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_tha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ssha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_sha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_sa :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ruu2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ru2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_rii :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ri :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ra :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_pha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_pa :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_oo2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_oo :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_o2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_o :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_nya :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_nna :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_nja :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_nga :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ng2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ng :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ndha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ndda :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_na :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_mba :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ma :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_luu2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_luu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_lu2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_lu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_lla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_la :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_kunddaliya :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_kha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ka :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_jnya :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_jha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ja :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ii2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ii :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_i2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_i :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_h2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_gha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ga :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_fa :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ee2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ee :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_e2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_e :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_dhha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_dha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ddha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_dda :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_cha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ca :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_bha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ba :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_au2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_au :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_al :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ai2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ai :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_aee2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_aee :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ae2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_ae :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_aa2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_aa :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sinh_a :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_SingleCandidate :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Shop :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Shift_R :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Shift_Lock :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Shift_L :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Serbian_tshe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Serbian_nje :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Serbian_lje :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Serbian_je :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Serbian_dze :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Serbian_dje :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Serbian_TSHE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Serbian_NJE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Serbian_LJE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Serbian_JE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Serbian_DZE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Serbian_DJE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Send :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_SelectButton :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Select :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Search :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Scroll_Lock :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ScrollUp :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ScrollDown :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ScrollClick :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ScreenSaver :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Scircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Scedilla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Scaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Save :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Sabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_SCHWA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_S :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_RupeeSign :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_RotationPB :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_RotationKB :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_RotateWindows :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Romaji :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_RockerUp :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_RockerEnter :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_RockerDown :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Right :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Return :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Reply :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_RepeatKeys_Enable :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Reload :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Refresh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Redo :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Red :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Rcedilla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Rcaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Racute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_RFKill :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_R9 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_R8 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_R7 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_R6 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_R5 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_R4 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_R3 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_R2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_R15 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_R14 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_R13 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_R12 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_R11 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_R10 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_R1 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_R :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Q :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Prior :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Print :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_PreviousCandidate :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Prev_Virtual_Screen :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Prev_VMode :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_PowerOff :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_PowerDown :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_UpRight :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_UpLeft :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_Up :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_Right :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_Left :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_EnableKeys :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_Drag_Dflt :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_Drag5 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_Drag4 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_Drag3 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_Drag2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_Drag1 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_DownRight :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_DownLeft :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_Down :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_DfltBtnPrev :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_DfltBtnNext :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_DblClick_Dflt :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_DblClick5 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_DblClick4 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_DblClick3 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_DblClick2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_DblClick1 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_Button_Dflt :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_Button5 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_Button4 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_Button3 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_Button2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_Button1 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pointer_Accelerate :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pictures :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Phone :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_PesetaSign :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pause :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Paste :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Page_Up :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Page_Down :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Pabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_P :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Overlay2_Enable :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Overlay1_Enable :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Otilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Oslash :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Option :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_OpenURL :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Open :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ooblique :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Omacron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ohorntilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ohornhook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ohorngrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ohornbelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ohornacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ohorn :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ohook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ograve :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_OfficeHome :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Odoubleacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Odiaeresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ocircumflextilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ocircumflexhook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ocircumflexgrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ocircumflexbelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ocircumflexacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ocircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ocaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Obelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Obarred :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Oacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_OE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_O :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Num_Lock :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ntilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Next_Virtual_Screen :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Next_VMode :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Next :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_News :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_NewSheqelSign :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_New :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ncedilla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ncaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_NairaSign :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Nacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_N :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_MySites :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_MyComputer :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Music :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_MultipleCandidate :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Multi_key :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Muhenkan :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_MouseKeys_Enable :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_MouseKeys_Accel_Enable :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_MonBrightnessUp :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_MonBrightnessDown :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Mode_switch :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ModeLock :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_MillSign :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Meta_R :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Meta_L :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Messenger :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_MenuPB :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_MenuKB :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Menu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Memo :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Meeting :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Massyo :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Market :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_MailForward :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Mail :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Mae_Koho :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Macedonia_kje :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Macedonia_gje :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Macedonia_dse :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Macedonia_KJE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Macedonia_GJE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Macedonia_DSE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Mabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_M :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Lstroke :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_LogWindowTree :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_LogOff :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_LogGrabInfo :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_LiraSign :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Linefeed :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_LightBulb :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Left :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Lcedilla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Lcaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Lbelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_LaunchF :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_LaunchE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_LaunchD :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_LaunchC :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_LaunchB :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_LaunchA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Launch9 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Launch8 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Launch7 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Launch6 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Launch5 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Launch4 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Launch3 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Launch2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Launch1 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Launch0 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Last_Virtual_Screen :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Lacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_L9 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_L8 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_L7 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_L6 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_L5 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_L4 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_L3 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_L2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_L10 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_L1 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_L :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Korean_Won :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Keyboard :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Kcedilla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KbdLightOnOff :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KbdBrightnessUp :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KbdBrightnessDown :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Katakana :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Kanji_Bangou :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Kanji :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Kana_Shift :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Kana_Lock :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Up :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Tab :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Subtract :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Space :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Separator :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Right :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Prior :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Page_Up :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Page_Down :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Next :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Multiply :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Left :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Insert :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Home :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_F4 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_F3 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_F2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_F1 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Equal :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Enter :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_End :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Down :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Divide :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Delete :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Decimal :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Begin :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_Add :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_9 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_8 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_7 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_6 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_5 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_4 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_3 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_1 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_KP_0 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_K :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Jcircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_J :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Itilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Iogonek :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Insert :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Imacron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ihook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Igrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Idiaeresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Icircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ibreve :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ibelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Iacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Iabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Set_Margin_Right :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Set_Margin_Left :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Release_Margin_Right :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Release_Margin_Left :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Release_Both_Margins :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Prev_Group_Lock :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Prev_Group :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Partial_Space_Right :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Partial_Space_Left :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Partial_Line_Up :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Partial_Line_Down :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Next_Group_Lock :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Next_Group :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Move_Line_Up :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Move_Line_Down :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Lock :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Level5_Shift :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Level5_Lock :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Level5_Latch :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Level3_Shift :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Level3_Lock :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Level3_Latch :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Level2_Latch :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Left_Tab :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Last_Group_Lock :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Last_Group :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Group_Shift :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Group_Lock :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Group_Latch :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_First_Group_Lock :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_First_Group :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Fast_Cursor_Up :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Fast_Cursor_Right :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Fast_Cursor_Left :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Fast_Cursor_Down :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Enter :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Emphasize :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Discontinuous_Underline :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Continuous_Underline :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ISO_Center_Object :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_I :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hyper_R :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hyper_L :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hstroke :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_HotLinks :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_HomePage :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Home :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_History :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hiragana_Katakana :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hiragana :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hibernate :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Henkan_Mode :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Henkan :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Help :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hebrew_switch :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hcircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hankaku :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_switch :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_YeorinHieuh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_YU :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_YO :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_YI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_YEO :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_YE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_YAE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_YA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_WI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_WEO :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_WE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_WAE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_WA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_U :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Tieut :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_SunkyeongeumPieub :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_SunkyeongeumPhieuf :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_SunkyeongeumMieum :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Start :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_SsangSios :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_SsangPieub :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_SsangKiyeog :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_SsangJieuj :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_SsangDikeud :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Special :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Sios :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_SingleCandidate :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Romaja :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_RieulYeorinHieuh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_RieulTieut :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_RieulSios :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_RieulPieub :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_RieulPhieuf :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_RieulMieum :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_RieulKiyeog :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_RieulHieuh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Rieul :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_PreviousCandidate :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_PreHanja :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_PostHanja :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_PieubSios :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Pieub :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Phieuf :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_PanSios :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_OE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_O :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_NieunJieuj :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_NieunHieuh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Nieun :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_MultipleCandidate :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Mieum :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_KkogjiDalrinIeung :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_KiyeogSios :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Kiyeog :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Khieuq :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Jieuj :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Jeonja :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Jamo :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_YeorinHieuh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_Tieut :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_SsangSios :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_SsangKiyeog :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_Sios :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_RieulTieut :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_RieulSios :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_RieulPieub :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_RieulPhieuf :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_RieulMieum :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_RieulKiyeog :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_RieulHieuh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_Rieul :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_PieubSios :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_Pieub :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_Phieuf :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_PanSios :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_NieunJieuj :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_NieunHieuh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_Nieun :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_Mieum :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_KkogjiDalrinIeung :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_KiyeogSios :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_Kiyeog :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_Khieuq :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_Jieuj :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_Ieung :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_Hieuh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_Dikeud :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_J_Cieuc :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Ieung :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_I :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Hieuh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Hanja :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_End :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_EU :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_EO :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_E :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Dikeud :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Codeinput :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Cieuc :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_Banja :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_AraeAE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_AraeA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_AE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul_A :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Hangul :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_H :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Green :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_zeta :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_xi :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_upsilondieresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_upsilonaccentdieresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_upsilonaccent :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_upsilon :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_theta :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_tau :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_switch :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_sigma :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_rho :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_psi :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_pi :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_phi :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_omicronaccent :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_omicron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_omegaaccent :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_omega :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_nu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_mu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_lamda :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_lambda :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_kappa :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_iotadieresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_iotaaccentdieresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_iotaaccent :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_iota :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_horizbar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_gamma :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_finalsmallsigma :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_etaaccent :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_eta :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_epsilonaccent :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_epsilon :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_delta :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_chi :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_beta :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_alphaaccent :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_alpha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_accentdieresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_ZETA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_XI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_UPSILONdieresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_UPSILONaccent :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_UPSILON :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_THETA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_TAU :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_SIGMA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_RHO :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_PSI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_PI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_PHI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_OMICRONaccent :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_OMICRON :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_OMEGAaccent :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_OMEGA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_NU :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_MU :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_LAMDA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_LAMBDA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_KAPPA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_IOTAdieresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_IOTAdiaeresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_IOTAaccent :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_IOTA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_GAMMA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_ETAaccent :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_ETA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_EPSILONaccent :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_EPSILON :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_DELTA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_CHI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_BETA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_ALPHAaccent :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Greek_ALPHA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Go :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_zhar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_zen :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_xan :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_we :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_vin :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_un :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_tar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_tan :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_shin :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_san :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_rae :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_qar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_phar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_par :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_on :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_nar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_man :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_las :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_khar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_kan :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_jil :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_jhan :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_in :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_hoe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_hie :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_he :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_har :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_hae :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_ghan :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_gan :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_fi :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_en :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_don :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_cil :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_chin :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_char :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_can :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_ban :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Georgian_an :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Gcircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Gcedilla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Gcaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Gbreve :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Game :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Gabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_G :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_FrameForward :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_FrameBack :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Forward :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_First_Virtual_Screen :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Find :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Finance :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Favorites :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Farsi_yeh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Farsi_9 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Farsi_8 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Farsi_7 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Farsi_6 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Farsi_5 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Farsi_4 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Farsi_3 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Farsi_2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Farsi_1 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Farsi_0 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Fabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_FFrancSign :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F9 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F8 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F7 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F6 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F5 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F4 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F35 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F34 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F33 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F32 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F31 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F30 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F3 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F29 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F28 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F27 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F26 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F25 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F24 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F23 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F22 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F21 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F20 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F19 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F18 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F17 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F16 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F15 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F14 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F13 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F12 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F11 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F10 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F1 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_F :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Explorer :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Execute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Excel :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_EuroSign :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Etilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Eth :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Escape :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Eogonek :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_End :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Emacron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Eject :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Eisu_toggle :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Eisu_Shift :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ehook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Egrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ediaeresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_EcuSign :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ecircumflextilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ecircumflexhook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ecircumflexgrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ecircumflexbelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ecircumflexacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ecircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ecaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ebelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Eacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Eabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_EZH :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ETH :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ENG :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_E :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Dstroke :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Down :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_DongSign :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Documents :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Display :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Delete :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Dcaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Dabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_DOS :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_D :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_zhe_descender :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_zhe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_ze :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_yu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_yeru :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_ya :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_ve :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_u_straight_bar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_u_straight :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_u_macron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_u :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_tse :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_te :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_softsign :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_shorti :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_shha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_shcha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_sha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_schwa :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_pe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_o_bar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_o :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_nje :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_lje :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_ka_vertstroke :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_ka_descender :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_ka :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_je :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_io :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_ie :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_i_macron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_i :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_hardsign :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_ha_descender :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_ha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_ghe_bar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_ghe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_es :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_er :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_en_descender :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_en :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_em :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_el :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_ef :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_e :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_dzhe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_de :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_che_vertstroke :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_che_descender :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_che :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_be :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_a :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_ZHE_descender :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_ZHE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_ZE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_YU :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_YERU :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_YA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_VE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_U_straight_bar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_U_straight :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_U_macron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_U :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_TSE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_TE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_SOFTSIGN :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_SHORTI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_SHHA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_SHCHA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_SHA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_SCHWA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_PE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_O_bar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_O :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_NJE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_LJE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_KA_vertstroke :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_KA_descender :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_KA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_JE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_I_macron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_IO :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_IE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_I :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_HA_descender :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_HARDSIGN :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_HA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_GHE_bar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_GHE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_ES :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_ER :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_EN_descender :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_EN :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_EM :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_EL :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_EF :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_E :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_DZHE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_DE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_CHE_vertstroke :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_CHE_descender :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_CHE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_BE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cyrillic_A :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_CycleAngle :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cut :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_CruzeiroSign :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Copy :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Control_R :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Control_L :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ContrastAdjust :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Community :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ColonSign :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Codeinput :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Close :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ClearGrab :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Clear :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ch :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ccircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ccedilla :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ccaron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Caps_Lock :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cancel :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Calendar :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Calculator :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Cabovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_C_h :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_C_H :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_CH :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_CD :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_C :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Byelorussian_shortu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Byelorussian_SHORTU :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_BrightnessAdjust :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Break :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_BounceKeys_Enable :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Book :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Bluetooth :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Blue :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Begin :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Battery :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_BackSpace :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_BackForward :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Back :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Babovedot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_B :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Away :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AudioStop :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AudioRewind :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AudioRepeat :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AudioRecord :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AudioRandomPlay :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AudioRaiseVolume :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AudioPrev :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AudioPreset :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AudioPlay :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AudioPause :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AudioNext :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AudioMute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AudioMicMute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AudioMedia :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AudioLowerVolume :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AudioForward :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AudioCycleTrack :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AudibleBell_Enable :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Atilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_zhe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_za :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_yentamna :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_yech :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_vyun :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_vo :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_vev :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_verjaket :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_tyun :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_tso :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_tsa :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_to :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_tche :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_shesht :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_sha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_separation_mark :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_se :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_re :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_ra :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_question :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_pyur :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_pe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_paruyk :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_o :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_nu :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_men :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_lyun :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_ligature_ew :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_khe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_ken :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_ke :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_je :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_ini :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_hyphen :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_ho :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_hi :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_gim :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_ghat :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_full_stop :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_fe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_exclam :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_e :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_dza :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_da :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_cha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_but :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_ben :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_ayb :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_at :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_apostrophe :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_amanak :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_accent :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_ZHE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_ZA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_YECH :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_VYUN :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_VO :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_VEV :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_TYUN :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_TSO :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_TSA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_TO :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_TCHE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_SHA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_SE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_RE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_RA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_PYUR :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_PE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_O :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_NU :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_MEN :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_LYUN :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_KHE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_KEN :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_KE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_JE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_INI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_HO :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_HI :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_GIM :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_GHAT :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_FE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_E :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_DZA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_DA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_CHA :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_BEN :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_AYB :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Armenian_AT :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Aring :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_zain :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_zah :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_yeh_baree :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_yeh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_waw :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_veh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_tteh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_theh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_thal :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_tehmarbuta :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_teh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_tcheh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_tatweel :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_tah :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_switch :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_superscript_alef :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_sukun :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_sheen :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_shadda :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_semicolon :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_seen :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_sad :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_rreh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_ra :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_question_mark :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_qaf :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_percent :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_peh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_noon_ghunna :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_noon :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_meem :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_maddaonalef :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_madda_above :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_lam :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_khah :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_keheh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_kasratan :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_kasra :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_kaf :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_jeh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_jeem :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_heh_goal :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_heh_doachashmee :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_heh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_hamzaunderalef :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_hamzaonyeh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_hamzaonwaw :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_hamzaonalef :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_hamza_below :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_hamza_above :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_hamza :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_hah :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_ha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_ghain :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_gaf :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_fullstop :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_feh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_fathatan :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_fatha :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_farsi_yeh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_ddal :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_dammatan :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_damma :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_dal :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_dad :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_comma :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_beh :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_alefmaksura :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_alef :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_ain :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_9 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_8 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_7 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_6 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_5 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_4 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_3 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_1 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Arabic_0 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ApplicationRight :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_ApplicationLeft :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Aogonek :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Amacron :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Alt_R :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Alt_L :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Ahook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Agrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Adiaeresis :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AddFavorite :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Acircumflextilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Acircumflexhook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Acircumflexgrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Acircumflexbelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Acircumflexacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Acircumflex :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AccessX_Feedback_Enable :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AccessX_Enable :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Abrevetilde :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Abrevehook :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Abrevegrave :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Abrevebelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Abreveacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Abreve :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Abelowdot :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_Aacute :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_AE :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_A :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_9 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_8 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_7 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_6 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_5 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_4 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_Test :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_Setup :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_Rule :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_Right2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_Reset :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_Record :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_Quit :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_PrintScreen :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_Play :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_PA3 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_PA2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_PA1 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_Left2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_KeyClick :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_Jump :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_Ident :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_FieldMark :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_ExSelect :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_EraseInput :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_EraseEOF :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_Enter :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_Duplicate :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_DeleteWord :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_CursorSelect :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_CursorBlink :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_Copy :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_ChangeScreen :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_BackTab :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_Attn :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3270_AltCursor :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_3 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_2 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_1 :: Word32

-- | <i>No description available in the introspection data.</i>
pattern KEY_0 :: Word32

-- | Use this macro as the return value for stopping the propagation of an
--   event handler.
--   
--   <i>Since: 3.4</i>
pattern EVENT_STOP :: Bool

-- | Use this macro as the return value for continuing the propagation of
--   an event handler.
--   
--   <i>Since: 3.4</i>
pattern EVENT_PROPAGATE :: Bool

-- | Represents the current time, and can be used anywhere a time is
--   expected.
pattern CURRENT_TIME :: Int32

-- | The secondary button. This is typically the right mouse button, or the
--   left button in a left-handed setup.
--   
--   <i>Since: 3.4</i>
pattern BUTTON_SECONDARY :: Int32

-- | The primary button. This is typically the left mouse button, or the
--   right button in a left-handed setup.
--   
--   <i>Since: 3.4</i>
pattern BUTTON_PRIMARY :: Int32

-- | The middle button.
--   
--   <i>Since: 3.4</i>
pattern BUTTON_MIDDLE :: Int32


module GI.Gdk.Enums

-- | An enumeration describing the way in which a device axis (valuator)
--   maps onto the predefined valuator types that GTK+ understands.
--   
--   Note that the X and Y axes are not really needed; pointer devices
--   report their location via the x/y members of events regardless.
--   Whether X and Y are present as axes depends on the GDK backend.
data AxisUse

-- | the axis is ignored.
AxisUseIgnore :: AxisUse

-- | the axis is used as the x axis.
AxisUseX :: AxisUse

-- | the axis is used as the y axis.
AxisUseY :: AxisUse

-- | the axis is used for pressure information.
AxisUsePressure :: AxisUse

-- | the axis is used for x tilt information.
AxisUseXtilt :: AxisUse

-- | the axis is used for y tilt information.
AxisUseYtilt :: AxisUse

-- | the axis is used for wheel information.
AxisUseWheel :: AxisUse

-- | the axis is used for pen/tablet distance information. (Since: 3.22)
AxisUseDistance :: AxisUse

-- | the axis is used for pen rotation information. (Since: 3.22)
AxisUseRotation :: AxisUse

-- | the axis is used for pen slider information. (Since: 3.22)
AxisUseSlider :: AxisUse

-- | a constant equal to the numerically highest axis value.
AxisUseLast :: AxisUse

-- | Catch-all for unknown values
AnotherAxisUse :: Int -> AxisUse

-- | A set of values describing the possible byte-orders for storing pixel
--   values in memory.
data ByteOrder

-- | The values are stored with the least-significant byte first. For
--   instance, the 32-bit value 0xffeecc would be stored in memory as 0xcc,
--   0xee, 0xff, 0x00.
ByteOrderLsbFirst :: ByteOrder

-- | The values are stored with the most-significant byte first. For
--   instance, the 32-bit value 0xffeecc would be stored in memory as 0x00,
--   0xff, 0xee, 0xcc.
ByteOrderMsbFirst :: ByteOrder

-- | Catch-all for unknown values
AnotherByteOrder :: Int -> ByteOrder

-- | Specifies the crossing mode for <a>EventCrossing</a>.
data CrossingMode

-- | crossing because of pointer motion.
CrossingModeNormal :: CrossingMode

-- | crossing because a grab is activated.
CrossingModeGrab :: CrossingMode

-- | crossing because a grab is deactivated.
CrossingModeUngrab :: CrossingMode

-- | crossing because a GTK+ grab is activated.
CrossingModeGtkGrab :: CrossingMode

-- | crossing because a GTK+ grab is deactivated.
CrossingModeGtkUngrab :: CrossingMode

-- | crossing because a GTK+ widget changed state (e.g. sensitivity).
CrossingModeStateChanged :: CrossingMode

-- | crossing because a touch sequence has begun, this event is synthetic
--   as the pointer might have not left the window.
CrossingModeTouchBegin :: CrossingMode

-- | crossing because a touch sequence has ended, this event is synthetic
--   as the pointer might have not left the window.
CrossingModeTouchEnd :: CrossingMode

-- | crossing because of a device switch (i.e. a mouse taking control of
--   the pointer after a touch device), this event is synthetic as the
--   pointer didn’t leave the window.
CrossingModeDeviceSwitch :: CrossingMode

-- | Catch-all for unknown values
AnotherCrossingMode :: Int -> CrossingMode

-- | Predefined cursors.
--   
--   Note that these IDs are directly taken from the X cursor font, and
--   many of these cursors are either not useful, or are not available on
--   other platforms.
--   
--   The recommended way to create cursors is to use
--   <a>cursorNewFromName</a>.
data CursorType

CursorTypeXCursor :: CursorType

CursorTypeArrow :: CursorType

CursorTypeBasedArrowDown :: CursorType

CursorTypeBasedArrowUp :: CursorType

CursorTypeBoat :: CursorType

CursorTypeBogosity :: CursorType

CursorTypeBottomLeftCorner :: CursorType

CursorTypeBottomRightCorner :: CursorType

CursorTypeBottomSide :: CursorType

CursorTypeBottomTee :: CursorType

CursorTypeBoxSpiral :: CursorType

CursorTypeCenterPtr :: CursorType

CursorTypeCircle :: CursorType

CursorTypeClock :: CursorType

CursorTypeCoffeeMug :: CursorType

CursorTypeCross :: CursorType

CursorTypeCrossReverse :: CursorType

CursorTypeCrosshair :: CursorType

CursorTypeDiamondCross :: CursorType

CursorTypeDot :: CursorType

CursorTypeDotbox :: CursorType

CursorTypeDoubleArrow :: CursorType

CursorTypeDraftLarge :: CursorType

CursorTypeDraftSmall :: CursorType

CursorTypeDrapedBox :: CursorType

CursorTypeExchange :: CursorType

CursorTypeFleur :: CursorType

CursorTypeGobbler :: CursorType

CursorTypeGumby :: CursorType

CursorTypeHand1 :: CursorType

CursorTypeHand2 :: CursorType

CursorTypeHeart :: CursorType

CursorTypeIcon :: CursorType

CursorTypeIronCross :: CursorType

CursorTypeLeftPtr :: CursorType

CursorTypeLeftSide :: CursorType

CursorTypeLeftTee :: CursorType

CursorTypeLeftbutton :: CursorType

CursorTypeLlAngle :: CursorType

CursorTypeLrAngle :: CursorType

CursorTypeMan :: CursorType

CursorTypeMiddlebutton :: CursorType

CursorTypeMouse :: CursorType

CursorTypePencil :: CursorType

CursorTypePirate :: CursorType

CursorTypePlus :: CursorType

CursorTypeQuestionArrow :: CursorType

CursorTypeRightPtr :: CursorType

CursorTypeRightSide :: CursorType

CursorTypeRightTee :: CursorType

CursorTypeRightbutton :: CursorType

CursorTypeRtlLogo :: CursorType

CursorTypeSailboat :: CursorType

CursorTypeSbDownArrow :: CursorType

CursorTypeSbHDoubleArrow :: CursorType

CursorTypeSbLeftArrow :: CursorType

CursorTypeSbRightArrow :: CursorType

CursorTypeSbUpArrow :: CursorType

CursorTypeSbVDoubleArrow :: CursorType

CursorTypeShuttle :: CursorType

CursorTypeSizing :: CursorType

CursorTypeSpider :: CursorType

CursorTypeSpraycan :: CursorType

CursorTypeStar :: CursorType

CursorTypeTarget :: CursorType

CursorTypeTcross :: CursorType

CursorTypeTopLeftArrow :: CursorType

CursorTypeTopLeftCorner :: CursorType

CursorTypeTopRightCorner :: CursorType

CursorTypeTopSide :: CursorType

CursorTypeTopTee :: CursorType

CursorTypeTrek :: CursorType

CursorTypeUlAngle :: CursorType

CursorTypeUmbrella :: CursorType

CursorTypeUrAngle :: CursorType

CursorTypeWatch :: CursorType

CursorTypeXterm :: CursorType

-- | last cursor type
CursorTypeLastCursor :: CursorType

-- | Blank cursor. Since 2.16
CursorTypeBlankCursor :: CursorType

-- | type of cursors constructed with <a>cursorNewFromPixbuf</a>
CursorTypeCursorIsPixmap :: CursorType

-- | Catch-all for unknown values
AnotherCursorType :: Int -> CursorType

-- | A pad feature.
data DevicePadFeature

-- | a button
DevicePadFeatureButton :: DevicePadFeature

-- | a ring-shaped interactive area
DevicePadFeatureRing :: DevicePadFeature

-- | a straight interactive area
DevicePadFeatureStrip :: DevicePadFeature

-- | Catch-all for unknown values
AnotherDevicePadFeature :: Int -> DevicePadFeature

-- | Indicates the specific type of tool being used being a tablet. Such as
--   an airbrush, pencil, etc.
--   
--   <i>Since: 3.22</i>
data DeviceToolType

-- | Tool is of an unknown type.
DeviceToolTypeUnknown :: DeviceToolType

-- | Tool is a standard tablet stylus.
DeviceToolTypePen :: DeviceToolType

-- | Tool is standard tablet eraser.
DeviceToolTypeEraser :: DeviceToolType

-- | Tool is a brush stylus.
DeviceToolTypeBrush :: DeviceToolType

-- | Tool is a pencil stylus.
DeviceToolTypePencil :: DeviceToolType

-- | Tool is an airbrush stylus.
DeviceToolTypeAirbrush :: DeviceToolType

-- | Tool is a mouse.
DeviceToolTypeMouse :: DeviceToolType

-- | Tool is a lens cursor.
DeviceToolTypeLens :: DeviceToolType

-- | Catch-all for unknown values
AnotherDeviceToolType :: Int -> DeviceToolType

-- | Indicates the device type. See [above][GdkDeviceManager.description]
--   for more information about the meaning of these device types.
data DeviceType

-- | Device is a master (or virtual) device. There will be an associated
--   focus indicator on the screen.
DeviceTypeMaster :: DeviceType

-- | Device is a slave (or physical) device.
DeviceTypeSlave :: DeviceType

-- | Device is a physical device, currently not attached to any virtual
--   device.
DeviceTypeFloating :: DeviceType

-- | Catch-all for unknown values
AnotherDeviceType :: Int -> DeviceType

-- | Used in <a>DragContext</a> to the reason of a cancelled DND operation.
--   
--   <i>Since: 3.20</i>
data DragCancelReason

-- | There is no suitable drop target.
DragCancelReasonNoTarget :: DragCancelReason

-- | Drag cancelled by the user
DragCancelReasonUserCancelled :: DragCancelReason

-- | Unspecified error.
DragCancelReasonError :: DragCancelReason

-- | Catch-all for unknown values
AnotherDragCancelReason :: Int -> DragCancelReason

-- | Used in <a>DragContext</a> to indicate the protocol according to which
--   DND is done.
data DragProtocol

-- | no protocol.
DragProtocolNone :: DragProtocol

-- | The Motif DND protocol. No longer supported
DragProtocolMotif :: DragProtocol

-- | The Xdnd protocol.
DragProtocolXdnd :: DragProtocol

-- | An extension to the Xdnd protocol for unclaimed root window drops.
DragProtocolRootwin :: DragProtocol

-- | The simple WM_DROPFILES protocol.
DragProtocolWin32Dropfiles :: DragProtocol

-- | The complex OLE2 DND protocol (not implemented).
DragProtocolOle2 :: DragProtocol

-- | Intra-application DND.
DragProtocolLocal :: DragProtocol

-- | Wayland DND protocol.
DragProtocolWayland :: DragProtocol

-- | Catch-all for unknown values
AnotherDragProtocol :: Int -> DragProtocol

-- | Specifies the type of the event.
--   
--   Do not confuse these events with the signals that GTK+ widgets emit.
--   Although many of these events result in corresponding signals being
--   emitted, the events are often transformed or filtered along the way.
--   
--   In some language bindings, the values <a>EventType2buttonPress</a> and
--   <a>EventType3buttonPress</a> would translate into something
--   syntactically invalid (eg <tt>Gdk.EventType.2ButtonPress</tt>, where a
--   symbol is not allowed to start with a number). In that case, the
--   aliases <a>EventTypeDoubleButtonPress</a> and
--   <a>EventTypeTripleButtonPress</a> can be used instead.
data EventType

-- | a special code to indicate a null event.
EventTypeNothing :: EventType

-- | the window manager has requested that the toplevel window be hidden or
--   destroyed, usually when the user clicks on a special icon in the title
--   bar.
EventTypeDelete :: EventType

-- | the window has been destroyed.
EventTypeDestroy :: EventType

-- | all or part of the window has become visible and needs to be redrawn.
EventTypeExpose :: EventType

-- | the pointer (usually a mouse) has moved.
EventTypeMotionNotify :: EventType

-- | a mouse button has been pressed.
EventTypeButtonPress :: EventType

-- | a mouse button has been double-clicked (clicked twice within a short
--   period of time). Note that each click also generates a
--   <a>EventTypeButtonPress</a> event.
EventType2buttonPress :: EventType

-- | alias for <a>EventType2buttonPress</a>, added in 3.6.
EventTypeDoubleButtonPress :: EventType

-- | a mouse button has been clicked 3 times in a short period of time.
--   Note that each click also generates a <a>EventTypeButtonPress</a>
--   event.
EventType3buttonPress :: EventType

-- | alias for <a>EventType3buttonPress</a>, added in 3.6.
EventTypeTripleButtonPress :: EventType

-- | a mouse button has been released.
EventTypeButtonRelease :: EventType

-- | a key has been pressed.
EventTypeKeyPress :: EventType

-- | a key has been released.
EventTypeKeyRelease :: EventType

-- | the pointer has entered the window.
EventTypeEnterNotify :: EventType

-- | the pointer has left the window.
EventTypeLeaveNotify :: EventType

-- | the keyboard focus has entered or left the window.
EventTypeFocusChange :: EventType

-- | the size, position or stacking order of the window has changed. Note
--   that GTK+ discards these events for <a>WindowTypeChild</a> windows.
EventTypeConfigure :: EventType

-- | the window has been mapped.
EventTypeMap :: EventType

-- | the window has been unmapped.
EventTypeUnmap :: EventType

-- | a property on the window has been changed or deleted.
EventTypePropertyNotify :: EventType

-- | the application has lost ownership of a selection.
EventTypeSelectionClear :: EventType

-- | another application has requested a selection.
EventTypeSelectionRequest :: EventType

-- | a selection has been received.
EventTypeSelectionNotify :: EventType

-- | an input device has moved into contact with a sensing surface (e.g. a
--   touchscreen or graphics tablet).
EventTypeProximityIn :: EventType

-- | an input device has moved out of contact with a sensing surface.
EventTypeProximityOut :: EventType

-- | the mouse has entered the window while a drag is in progress.
EventTypeDragEnter :: EventType

-- | the mouse has left the window while a drag is in progress.
EventTypeDragLeave :: EventType

-- | the mouse has moved in the window while a drag is in progress.
EventTypeDragMotion :: EventType

-- | the status of the drag operation initiated by the window has changed.
EventTypeDragStatus :: EventType

-- | a drop operation onto the window has started.
EventTypeDropStart :: EventType

-- | the drop operation initiated by the window has completed.
EventTypeDropFinished :: EventType

-- | a message has been received from another application.
EventTypeClientEvent :: EventType

-- | the window visibility status has changed.
EventTypeVisibilityNotify :: EventType

-- | the scroll wheel was turned
EventTypeScroll :: EventType

-- | the state of a window has changed. See <a>WindowState</a> for the
--   possible window states
EventTypeWindowState :: EventType

-- | a setting has been modified.
EventTypeSetting :: EventType

-- | the owner of a selection has changed. This event type was added in 2.6
EventTypeOwnerChange :: EventType

-- | a pointer or keyboard grab was broken. This event type was added in
--   2.8.
EventTypeGrabBroken :: EventType

-- | the content of the window has been changed. This event type was added
--   in 2.14.
EventTypeDamage :: EventType

-- | A new touch event sequence has just started. This event type was added
--   in 3.4.
EventTypeTouchBegin :: EventType

-- | A touch event sequence has been updated. This event type was added in
--   3.4.
EventTypeTouchUpdate :: EventType

-- | A touch event sequence has finished. This event type was added in 3.4.
EventTypeTouchEnd :: EventType

-- | A touch event sequence has been canceled. This event type was added in
--   3.4.
EventTypeTouchCancel :: EventType

-- | A touchpad swipe gesture event, the current state is determined by its
--   phase field. This event type was added in 3.18.
EventTypeTouchpadSwipe :: EventType

-- | A touchpad pinch gesture event, the current state is determined by its
--   phase field. This event type was added in 3.18.
EventTypeTouchpadPinch :: EventType

-- | A tablet pad button press event. This event type was added in 3.22.
EventTypePadButtonPress :: EventType

-- | A tablet pad button release event. This event type was added in 3.22.
EventTypePadButtonRelease :: EventType

-- | A tablet pad axis event from a "ring". This event type was added in
--   3.22.
EventTypePadRing :: EventType

-- | A tablet pad axis event from a "strip". This event type was added in
--   3.22.
EventTypePadStrip :: EventType

-- | A tablet pad group mode change. This event type was added in 3.22.
EventTypePadGroupMode :: EventType

-- | marks the end of the GdkEventType enumeration. Added in 2.18
EventTypeEventLast :: EventType

-- | Catch-all for unknown values
AnotherEventType :: Int -> EventType

-- | Specifies the result of applying a <a>FilterFunc</a> to a native
--   event.
data FilterReturn

-- | event not handled, continue processing.
FilterReturnContinue :: FilterReturn

-- | native event translated into a GDK event and stored in the
--   <tt>event</tt> structure that was passed in.
FilterReturnTranslate :: FilterReturn

-- | event handled, terminate processing.
FilterReturnRemove :: FilterReturn

-- | Catch-all for unknown values
AnotherFilterReturn :: Int -> FilterReturn

-- | Indicates which monitor (in a multi-head setup) a window should span
--   over when in fullscreen mode.
--   
--   <i>Since: 3.8</i>
data FullscreenMode

-- | Fullscreen on current monitor only.
FullscreenModeCurrentMonitor :: FullscreenMode

-- | Span across all monitors when fullscreen.
FullscreenModeAllMonitors :: FullscreenMode

-- | Catch-all for unknown values
AnotherFullscreenMode :: Int -> FullscreenMode

-- | Error enumeration for <a>GLContext</a>.
--   
--   <i>Since: 3.16</i>
data GLError

-- | OpenGL support is not available
GLErrorNotAvailable :: GLError

-- | The requested visual format is not supported
GLErrorUnsupportedFormat :: GLError

-- | The requested profile is not supported
GLErrorUnsupportedProfile :: GLError

-- | Catch-all for unknown values
AnotherGLError :: Int -> GLError

-- | Catch exceptions of type <a>GLError</a>. This is a specialized version
--   of <a>catchGErrorJustDomain</a>.
catchGLError :: IO a -> (GLError -> GErrorMessage -> IO a) -> IO a

-- | Handle exceptions of type <a>GLError</a>. This is a specialized
--   version of <a>handleGErrorJustDomain</a>.
handleGLError :: (GLError -> GErrorMessage -> IO a) -> IO a -> IO a

-- | Defines how device grabs interact with other devices.
data GrabOwnership

-- | All other devices’ events are allowed.
GrabOwnershipNone :: GrabOwnership

-- | Other devices’ events are blocked for the grab window.
GrabOwnershipWindow :: GrabOwnership

-- | Other devices’ events are blocked for the whole application.
GrabOwnershipApplication :: GrabOwnership

-- | Catch-all for unknown values
AnotherGrabOwnership :: Int -> GrabOwnership

-- | Returned by <a>deviceGrab</a>, <a>pointerGrab</a> and
--   <a>keyboardGrab</a> to indicate success or the reason for the failure
--   of the grab attempt.
data GrabStatus

-- | the resource was successfully grabbed.
GrabStatusSuccess :: GrabStatus

-- | the resource is actively grabbed by another client.
GrabStatusAlreadyGrabbed :: GrabStatus

-- | the resource was grabbed more recently than the specified time.
GrabStatusInvalidTime :: GrabStatus

-- | the grab window or the <i><tt>confineTo</tt></i> window are not
--   viewable.
GrabStatusNotViewable :: GrabStatus

-- | the resource is frozen by an active grab of another client.
GrabStatusFrozen :: GrabStatus

-- | the grab failed for some other reason. Since 3.16
GrabStatusFailed :: GrabStatus

-- | Catch-all for unknown values
AnotherGrabStatus :: Int -> GrabStatus

-- | Defines the reference point of a window and the meaning of coordinates
--   passed to <tt><i>gtk_window_move()</i></tt>. See
--   <tt><i>gtk_window_move()</i></tt> and the "implementation notes"
--   section of the <a>Extended Window Manager Hints</a> specification for
--   more details.
data Gravity

-- | the reference point is at the top left corner.
GravityNorthWest :: Gravity

-- | the reference point is in the middle of the top edge.
GravityNorth :: Gravity

-- | the reference point is at the top right corner.
GravityNorthEast :: Gravity

-- | the reference point is at the middle of the left edge.
GravityWest :: Gravity

-- | the reference point is at the center of the window.
GravityCenter :: Gravity

-- | the reference point is at the middle of the right edge.
GravityEast :: Gravity

-- | the reference point is at the lower left corner.
GravitySouthWest :: Gravity

-- | the reference point is at the middle of the lower edge.
GravitySouth :: Gravity

-- | the reference point is at the lower right corner.
GravitySouthEast :: Gravity

-- | the reference point is at the top left corner of the window itself,
--   ignoring window manager decorations.
GravityStatic :: Gravity

-- | Catch-all for unknown values
AnotherGravity :: Int -> Gravity

-- | An enumeration that describes the mode of an input device.
data InputMode

-- | the device is disabled and will not report any events.
InputModeDisabled :: InputMode

-- | the device is enabled. The device’s coordinate space maps to the
--   entire screen.
InputModeScreen :: InputMode

-- | the device is enabled. The device’s coordinate space is mapped to a
--   single window. The manner in which this window is chosen is undefined,
--   but it will typically be the same way in which the focus window for
--   key events is determined.
InputModeWindow :: InputMode

-- | Catch-all for unknown values
AnotherInputMode :: Int -> InputMode

-- | An enumeration describing the type of an input device in general
--   terms.
data InputSource

-- | the device is a mouse. (This will be reported for the core pointer,
--   even if it is something else, such as a trackball.)
InputSourceMouse :: InputSource

-- | the device is a stylus of a graphics tablet or similar device.
InputSourcePen :: InputSource

-- | the device is an eraser. Typically, this would be the other end of a
--   stylus on a graphics tablet.
InputSourceEraser :: InputSource

-- | the device is a graphics tablet “puck” or similar device.
InputSourceCursor :: InputSource

-- | the device is a keyboard.
InputSourceKeyboard :: InputSource

-- | the device is a direct-input touch device, such as a touchscreen or
--   tablet. This device type has been added in 3.4.
InputSourceTouchscreen :: InputSource

-- | the device is an indirect touch device, such as a touchpad. This
--   device type has been added in 3.4.
InputSourceTouchpad :: InputSource

-- | the device is a trackpoint. This device type has been added in 3.22
InputSourceTrackpoint :: InputSource

-- | the device is a "pad", a collection of buttons, rings and strips found
--   in drawing tablets. This device type has been added in 3.22.
InputSourceTabletPad :: InputSource

-- | Catch-all for unknown values
AnotherInputSource :: Int -> InputSource

-- | This enum is used with <a>keymapGetModifierMask</a> in order to
--   determine what modifiers the currently used windowing system backend
--   uses for particular purposes. For example, on X11/Windows, the Control
--   key is used for invoking menu shortcuts (accelerators), whereas on
--   Apple computers it’s the Command key (which correspond to
--   <a>ModifierTypeControlMask</a> and <a>ModifierTypeMod2Mask</a>,
--   respectively).
--   
--   <i>Since: 3.4</i>
data ModifierIntent

-- | the primary modifier used to invoke menu accelerators.
ModifierIntentPrimaryAccelerator :: ModifierIntent

-- | the modifier used to invoke context menus. Note that mouse button 3
--   always triggers context menus. When this modifier is not 0, it
--   additionally triggers context menus when used with mouse button 1.
ModifierIntentContextMenu :: ModifierIntent

-- | the modifier used to extend selections using <tt>modifier</tt>-click
--   or <tt>modifier</tt>-cursor-key
ModifierIntentExtendSelection :: ModifierIntent

-- | the modifier used to modify selections, which in most cases means
--   toggling the clicked item into or out of the selection.
ModifierIntentModifySelection :: ModifierIntent

-- | when any of these modifiers is pressed, the key event cannot produce a
--   symbol directly. This is meant to be used for input methods, and for
--   use cases like typeahead search.
ModifierIntentNoTextInput :: ModifierIntent

-- | the modifier that switches between keyboard groups (AltGr on
--   X11/Windows and Option/Alt on OS X).
ModifierIntentShiftGroup :: ModifierIntent

-- | The set of modifier masks accepted as modifiers in accelerators.
--   Needed because Command is mapped to MOD2 on OSX, which is widely used,
--   but on X11 MOD2 is NumLock and using that for a mod key is problematic
--   at best. Ref: https://bugzilla.gnome.org/show_bug.cgi?id=736125.
ModifierIntentDefaultModMask :: ModifierIntent

-- | Catch-all for unknown values
AnotherModifierIntent :: Int -> ModifierIntent

-- | Specifies the kind of crossing for <a>EventCrossing</a>.
--   
--   See the X11 protocol specification of LeaveNotify for full details of
--   crossing event generation.
data NotifyType

-- | the window is entered from an ancestor or left towards an ancestor.
NotifyTypeAncestor :: NotifyType

-- | the pointer moves between an ancestor and an inferior of the window.
NotifyTypeVirtual :: NotifyType

-- | the window is entered from an inferior or left towards an inferior.
NotifyTypeInferior :: NotifyType

-- | the window is entered from or left towards a window which is neither
--   an ancestor nor an inferior.
NotifyTypeNonlinear :: NotifyType

-- | the pointer moves between two windows which are not ancestors of each
--   other and the window is part of the ancestor chain between one of
--   these windows and their least common ancestor.
NotifyTypeNonlinearVirtual :: NotifyType

-- | an unknown type of enter/leave event occurred.
NotifyTypeUnknown :: NotifyType

-- | Catch-all for unknown values
AnotherNotifyType :: Int -> NotifyType

-- | Specifies why a selection ownership was changed.
data OwnerChange

-- | some other app claimed the ownership
OwnerChangeNewOwner :: OwnerChange

-- | the window was destroyed
OwnerChangeDestroy :: OwnerChange

-- | the client was closed
OwnerChangeClose :: OwnerChange

-- | Catch-all for unknown values
AnotherOwnerChange :: Int -> OwnerChange

-- | Describes how existing data is combined with new data when using
--   <tt><i>gdk_property_change()</i></tt>.
data PropMode

-- | the new data replaces the existing data.
PropModeReplace :: PropMode

-- | the new data is prepended to the existing data.
PropModePrepend :: PropMode

-- | the new data is appended to the existing data.
PropModeAppend :: PropMode

-- | Catch-all for unknown values
AnotherPropMode :: Int -> PropMode

-- | Specifies the type of a property change for a <a>EventProperty</a>.
data PropertyState

-- | the property value was changed.
PropertyStateNewValue :: PropertyState

-- | the property was deleted.
PropertyStateDelete :: PropertyState

-- | Catch-all for unknown values
AnotherPropertyState :: Int -> PropertyState

-- | Specifies the direction for <a>EventScroll</a>.
data ScrollDirection

-- | the window is scrolled up.
ScrollDirectionUp :: ScrollDirection

-- | the window is scrolled down.
ScrollDirectionDown :: ScrollDirection

-- | the window is scrolled to the left.
ScrollDirectionLeft :: ScrollDirection

-- | the window is scrolled to the right.
ScrollDirectionRight :: ScrollDirection

-- | the scrolling is determined by the delta values in <a>EventScroll</a>.
--   See <a>eventGetScrollDeltas</a>. Since: 3.4
ScrollDirectionSmooth :: ScrollDirection

-- | Catch-all for unknown values
AnotherScrollDirection :: Int -> ScrollDirection

-- | Specifies the kind of modification applied to a setting in a
--   <a>EventSetting</a>.
data SettingAction

-- | a setting was added.
SettingActionNew :: SettingAction

-- | a setting was changed.
SettingActionChanged :: SettingAction

-- | a setting was deleted.
SettingActionDeleted :: SettingAction

-- | Catch-all for unknown values
AnotherSettingAction :: Int -> SettingAction

-- | <i>No description available in the introspection data.</i>
data Status

-- | <i>No description available in the introspection data.</i>
StatusOk :: Status

-- | <i>No description available in the introspection data.</i>
StatusError :: Status

-- | <i>No description available in the introspection data.</i>
StatusErrorParam :: Status

-- | <i>No description available in the introspection data.</i>
StatusErrorFile :: Status

-- | <i>No description available in the introspection data.</i>
StatusErrorMem :: Status

-- | Catch-all for unknown values
AnotherStatus :: Int -> Status

-- | This enumeration describes how the red, green and blue components of
--   physical pixels on an output device are laid out.
--   
--   <i>Since: 3.22</i>
data SubpixelLayout

-- | The layout is not known
SubpixelLayoutUnknown :: SubpixelLayout

-- | Not organized in this way
SubpixelLayoutNone :: SubpixelLayout

-- | The layout is horizontal, the order is RGB
SubpixelLayoutHorizontalRgb :: SubpixelLayout

-- | The layout is horizontal, the order is BGR
SubpixelLayoutHorizontalBgr :: SubpixelLayout

-- | The layout is vertical, the order is RGB
SubpixelLayoutVerticalRgb :: SubpixelLayout

-- | The layout is vertical, the order is BGR
SubpixelLayoutVerticalBgr :: SubpixelLayout

-- | Catch-all for unknown values
AnotherSubpixelLayout :: Int -> SubpixelLayout

-- | Specifies the current state of a touchpad gesture. All gestures are
--   guaranteed to begin with an event with phase
--   <a>TouchpadGesturePhaseBegin</a>, followed by 0 or several events with
--   phase <a>TouchpadGesturePhaseUpdate</a>.
--   
--   A finished gesture may have 2 possible outcomes, an event with phase
--   <a>TouchpadGesturePhaseEnd</a> will be emitted when the gesture is
--   considered successful, this should be used as the hint to perform any
--   permanent changes.
--   
--   Cancelled gestures may be so for a variety of reasons, due to hardware
--   or the compositor, or due to the gesture recognition layers hinting
--   the gesture did not finish resolutely (eg. a 3rd finger being added
--   during a pinch gesture). In these cases, the last event will report
--   the phase <a>TouchpadGesturePhaseCancel</a>, this should be used as a
--   hint to undo any visible/permanent changes that were done throughout
--   the progress of the gesture.
--   
--   See also <a>EventTouchpadSwipe</a> and <a>EventTouchpadPinch</a>.
data TouchpadGesturePhase

-- | The gesture has begun.
TouchpadGesturePhaseBegin :: TouchpadGesturePhase

-- | The gesture has been updated.
TouchpadGesturePhaseUpdate :: TouchpadGesturePhase

-- | The gesture was finished, changes should be permanently applied.
TouchpadGesturePhaseEnd :: TouchpadGesturePhase

-- | The gesture was cancelled, all changes should be undone.
TouchpadGesturePhaseCancel :: TouchpadGesturePhase

-- | Catch-all for unknown values
AnotherTouchpadGesturePhase :: Int -> TouchpadGesturePhase

-- | Specifies the visiblity status of a window for a
--   <a>EventVisibility</a>.
data VisibilityState

-- | the window is completely visible.
VisibilityStateUnobscured :: VisibilityState

-- | the window is partially visible.
VisibilityStatePartial :: VisibilityState

-- | the window is not visible at all.
VisibilityStateFullyObscured :: VisibilityState

-- | Catch-all for unknown values
AnotherVisibilityState :: Int -> VisibilityState

-- | A set of values that describe the manner in which the pixel values for
--   a visual are converted into RGB values for display.
data VisualType

-- | Each pixel value indexes a grayscale value directly.
VisualTypeStaticGray :: VisualType

-- | Each pixel is an index into a color map that maps pixel values into
--   grayscale values. The color map can be changed by an application.
VisualTypeGrayscale :: VisualType

-- | Each pixel value is an index into a predefined, unmodifiable color map
--   that maps pixel values into RGB values.
VisualTypeStaticColor :: VisualType

-- | Each pixel is an index into a color map that maps pixel values into
--   rgb values. The color map can be changed by an application.
VisualTypePseudoColor :: VisualType

-- | Each pixel value directly contains red, green, and blue components.
--   Use <a>visualGetRedPixelDetails</a>, etc, to obtain information about
--   how the components are assembled into a pixel value.
VisualTypeTrueColor :: VisualType

-- | Each pixel value contains red, green, and blue components as for
--   <a>VisualTypeTrueColor</a>, but the components are mapped via a color
--   table into the final output table instead of being converted directly.
VisualTypeDirectColor :: VisualType

-- | Catch-all for unknown values
AnotherVisualType :: Int -> VisualType

-- | Determines a window edge or corner.
data WindowEdge

-- | the top left corner.
WindowEdgeNorthWest :: WindowEdge

-- | the top edge.
WindowEdgeNorth :: WindowEdge

-- | the top right corner.
WindowEdgeNorthEast :: WindowEdge

-- | the left edge.
WindowEdgeWest :: WindowEdge

-- | the right edge.
WindowEdgeEast :: WindowEdge

-- | the lower left corner.
WindowEdgeSouthWest :: WindowEdge

-- | the lower edge.
WindowEdgeSouth :: WindowEdge

-- | the lower right corner.
WindowEdgeSouthEast :: WindowEdge

-- | Catch-all for unknown values
AnotherWindowEdge :: Int -> WindowEdge

-- | Describes the kind of window.
data WindowType

-- | root window; this window has no parent, covers the entire screen, and
--   is created by the window system
WindowTypeRoot :: WindowType

-- | toplevel window (used to implement <tt><i>GtkWindow</i></tt>)
WindowTypeToplevel :: WindowType

-- | child window (used to implement e.g. <tt><i>GtkEntry</i></tt>)
WindowTypeChild :: WindowType

-- | override redirect temporary window (used to implement
--   <tt><i>GtkMenu</i></tt>)
WindowTypeTemp :: WindowType

-- | foreign window (see <tt><i>gdk_window_foreign_new()</i></tt>)
WindowTypeForeign :: WindowType

-- | offscreen window (see [Offscreen Windows][OFFSCREEN-WINDOWS]). Since
--   2.18
WindowTypeOffscreen :: WindowType

-- | subsurface-based window; This window is visually tied to a toplevel,
--   and is moved/stacked with it. Currently this window type is only
--   implemented in Wayland. Since 3.14
WindowTypeSubsurface :: WindowType

-- | Catch-all for unknown values
AnotherWindowType :: Int -> WindowType

-- | These are hints for the window manager that indicate what type of
--   function the window has. The window manager can use this when
--   determining decoration and behaviour of the window. The hint must be
--   set before mapping the window.
--   
--   See the <a>Extended Window Manager Hints</a> specification for more
--   details about window types.
data WindowTypeHint

-- | Normal toplevel window.
WindowTypeHintNormal :: WindowTypeHint

-- | Dialog window.
WindowTypeHintDialog :: WindowTypeHint

-- | Window used to implement a menu; GTK+ uses this hint only for torn-off
--   menus, see <tt><i>GtkTearoffMenuItem</i></tt>.
WindowTypeHintMenu :: WindowTypeHint

-- | Window used to implement toolbars.
WindowTypeHintToolbar :: WindowTypeHint

-- | Window used to display a splash screen during application startup.
WindowTypeHintSplashscreen :: WindowTypeHint

-- | Utility windows which are not detached toolbars or dialogs.
WindowTypeHintUtility :: WindowTypeHint

-- | Used for creating dock or panel windows.
WindowTypeHintDock :: WindowTypeHint

-- | Used for creating the desktop background window.
WindowTypeHintDesktop :: WindowTypeHint

-- | A menu that belongs to a menubar.
WindowTypeHintDropdownMenu :: WindowTypeHint

-- | A menu that does not belong to a menubar, e.g. a context menu.
WindowTypeHintPopupMenu :: WindowTypeHint

-- | A tooltip.
WindowTypeHintTooltip :: WindowTypeHint

-- | A notification - typically a “bubble” that belongs to a status icon.
WindowTypeHintNotification :: WindowTypeHint

-- | A popup from a combo box.
WindowTypeHintCombo :: WindowTypeHint

-- | A window that is used to implement a DND cursor.
WindowTypeHintDnd :: WindowTypeHint

-- | Catch-all for unknown values
AnotherWindowTypeHint :: Int -> WindowTypeHint

-- | <i><tt>gDKINPUTOUTPUT</tt></i> windows are the standard kind of window
--   you might expect. Such windows receive events and are also displayed
--   on screen. <i><tt>gDKINPUTONLY</tt></i> windows are invisible; they
--   are usually placed above other windows in order to trap or filter the
--   events. You can’t draw on <i><tt>gDKINPUTONLY</tt></i> windows.
data WindowWindowClass

-- | window for graphics and events
WindowWindowClassInputOutput :: WindowWindowClass

-- | window for events only
WindowWindowClassInputOnly :: WindowWindowClass

-- | Catch-all for unknown values
AnotherWindowWindowClass :: Int -> WindowWindowClass
instance GHC.Classes.Eq GI.Gdk.Enums.WindowWindowClass
instance GHC.Show.Show GI.Gdk.Enums.WindowWindowClass
instance GHC.Classes.Eq GI.Gdk.Enums.WindowTypeHint
instance GHC.Show.Show GI.Gdk.Enums.WindowTypeHint
instance GHC.Classes.Eq GI.Gdk.Enums.WindowType
instance GHC.Show.Show GI.Gdk.Enums.WindowType
instance GHC.Classes.Eq GI.Gdk.Enums.WindowEdge
instance GHC.Show.Show GI.Gdk.Enums.WindowEdge
instance GHC.Classes.Eq GI.Gdk.Enums.VisualType
instance GHC.Show.Show GI.Gdk.Enums.VisualType
instance GHC.Classes.Eq GI.Gdk.Enums.VisibilityState
instance GHC.Show.Show GI.Gdk.Enums.VisibilityState
instance GHC.Classes.Eq GI.Gdk.Enums.TouchpadGesturePhase
instance GHC.Show.Show GI.Gdk.Enums.TouchpadGesturePhase
instance GHC.Classes.Eq GI.Gdk.Enums.SubpixelLayout
instance GHC.Show.Show GI.Gdk.Enums.SubpixelLayout
instance GHC.Classes.Eq GI.Gdk.Enums.Status
instance GHC.Show.Show GI.Gdk.Enums.Status
instance GHC.Classes.Eq GI.Gdk.Enums.SettingAction
instance GHC.Show.Show GI.Gdk.Enums.SettingAction
instance GHC.Classes.Eq GI.Gdk.Enums.ScrollDirection
instance GHC.Show.Show GI.Gdk.Enums.ScrollDirection
instance GHC.Classes.Eq GI.Gdk.Enums.PropertyState
instance GHC.Show.Show GI.Gdk.Enums.PropertyState
instance GHC.Classes.Eq GI.Gdk.Enums.PropMode
instance GHC.Show.Show GI.Gdk.Enums.PropMode
instance GHC.Classes.Eq GI.Gdk.Enums.OwnerChange
instance GHC.Show.Show GI.Gdk.Enums.OwnerChange
instance GHC.Classes.Eq GI.Gdk.Enums.NotifyType
instance GHC.Show.Show GI.Gdk.Enums.NotifyType
instance GHC.Classes.Eq GI.Gdk.Enums.ModifierIntent
instance GHC.Show.Show GI.Gdk.Enums.ModifierIntent
instance GHC.Classes.Eq GI.Gdk.Enums.InputSource
instance GHC.Show.Show GI.Gdk.Enums.InputSource
instance GHC.Classes.Eq GI.Gdk.Enums.InputMode
instance GHC.Show.Show GI.Gdk.Enums.InputMode
instance GHC.Classes.Eq GI.Gdk.Enums.Gravity
instance GHC.Show.Show GI.Gdk.Enums.Gravity
instance GHC.Classes.Eq GI.Gdk.Enums.GrabStatus
instance GHC.Show.Show GI.Gdk.Enums.GrabStatus
instance GHC.Classes.Eq GI.Gdk.Enums.GrabOwnership
instance GHC.Show.Show GI.Gdk.Enums.GrabOwnership
instance GHC.Classes.Eq GI.Gdk.Enums.GLError
instance GHC.Show.Show GI.Gdk.Enums.GLError
instance GHC.Classes.Eq GI.Gdk.Enums.FullscreenMode
instance GHC.Show.Show GI.Gdk.Enums.FullscreenMode
instance GHC.Classes.Eq GI.Gdk.Enums.FilterReturn
instance GHC.Show.Show GI.Gdk.Enums.FilterReturn
instance GHC.Classes.Eq GI.Gdk.Enums.EventType
instance GHC.Show.Show GI.Gdk.Enums.EventType
instance GHC.Classes.Eq GI.Gdk.Enums.DragProtocol
instance GHC.Show.Show GI.Gdk.Enums.DragProtocol
instance GHC.Classes.Eq GI.Gdk.Enums.DragCancelReason
instance GHC.Show.Show GI.Gdk.Enums.DragCancelReason
instance GHC.Classes.Eq GI.Gdk.Enums.DeviceType
instance GHC.Show.Show GI.Gdk.Enums.DeviceType
instance GHC.Classes.Eq GI.Gdk.Enums.DeviceToolType
instance GHC.Show.Show GI.Gdk.Enums.DeviceToolType
instance GHC.Classes.Eq GI.Gdk.Enums.DevicePadFeature
instance GHC.Show.Show GI.Gdk.Enums.DevicePadFeature
instance GHC.Classes.Eq GI.Gdk.Enums.CursorType
instance GHC.Show.Show GI.Gdk.Enums.CursorType
instance GHC.Classes.Eq GI.Gdk.Enums.CrossingMode
instance GHC.Show.Show GI.Gdk.Enums.CrossingMode
instance GHC.Classes.Eq GI.Gdk.Enums.ByteOrder
instance GHC.Show.Show GI.Gdk.Enums.ByteOrder
instance GHC.Classes.Eq GI.Gdk.Enums.AxisUse
instance GHC.Show.Show GI.Gdk.Enums.AxisUse
instance GHC.Enum.Enum GI.Gdk.Enums.AxisUse
instance GHC.Classes.Ord GI.Gdk.Enums.AxisUse
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.AxisUse
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.AxisUse
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.AxisUse
instance GHC.Enum.Enum GI.Gdk.Enums.ByteOrder
instance GHC.Classes.Ord GI.Gdk.Enums.ByteOrder
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.ByteOrder
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.ByteOrder
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.ByteOrder
instance GHC.Enum.Enum GI.Gdk.Enums.CrossingMode
instance GHC.Classes.Ord GI.Gdk.Enums.CrossingMode
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.CrossingMode
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.CrossingMode
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.CrossingMode
instance GHC.Enum.Enum GI.Gdk.Enums.CursorType
instance GHC.Classes.Ord GI.Gdk.Enums.CursorType
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.CursorType
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.CursorType
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.CursorType
instance GHC.Enum.Enum GI.Gdk.Enums.DevicePadFeature
instance GHC.Classes.Ord GI.Gdk.Enums.DevicePadFeature
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.DevicePadFeature
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.DevicePadFeature
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.DevicePadFeature
instance GHC.Enum.Enum GI.Gdk.Enums.DeviceToolType
instance GHC.Classes.Ord GI.Gdk.Enums.DeviceToolType
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.DeviceToolType
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.DeviceToolType
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.DeviceToolType
instance GHC.Enum.Enum GI.Gdk.Enums.DeviceType
instance GHC.Classes.Ord GI.Gdk.Enums.DeviceType
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.DeviceType
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.DeviceType
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.DeviceType
instance GHC.Enum.Enum GI.Gdk.Enums.DragCancelReason
instance GHC.Classes.Ord GI.Gdk.Enums.DragCancelReason
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.DragCancelReason
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.DragCancelReason
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.DragCancelReason
instance GHC.Enum.Enum GI.Gdk.Enums.DragProtocol
instance GHC.Classes.Ord GI.Gdk.Enums.DragProtocol
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.DragProtocol
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.DragProtocol
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.DragProtocol
instance GHC.Enum.Enum GI.Gdk.Enums.EventType
instance GHC.Classes.Ord GI.Gdk.Enums.EventType
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.EventType
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.EventType
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.EventType
instance GHC.Enum.Enum GI.Gdk.Enums.FilterReturn
instance GHC.Classes.Ord GI.Gdk.Enums.FilterReturn
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.FilterReturn
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.FilterReturn
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.FilterReturn
instance GHC.Enum.Enum GI.Gdk.Enums.FullscreenMode
instance GHC.Classes.Ord GI.Gdk.Enums.FullscreenMode
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.FullscreenMode
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.FullscreenMode
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.FullscreenMode
instance GHC.Enum.Enum GI.Gdk.Enums.GLError
instance GHC.Classes.Ord GI.Gdk.Enums.GLError
instance Data.GI.Base.GError.GErrorClass GI.Gdk.Enums.GLError
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.GLError
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.GLError
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.GLError
instance GHC.Enum.Enum GI.Gdk.Enums.GrabOwnership
instance GHC.Classes.Ord GI.Gdk.Enums.GrabOwnership
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.GrabOwnership
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.GrabOwnership
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.GrabOwnership
instance GHC.Enum.Enum GI.Gdk.Enums.GrabStatus
instance GHC.Classes.Ord GI.Gdk.Enums.GrabStatus
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.GrabStatus
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.GrabStatus
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.GrabStatus
instance GHC.Enum.Enum GI.Gdk.Enums.Gravity
instance GHC.Classes.Ord GI.Gdk.Enums.Gravity
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.Gravity
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.Gravity
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.Gravity
instance GHC.Enum.Enum GI.Gdk.Enums.InputMode
instance GHC.Classes.Ord GI.Gdk.Enums.InputMode
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.InputMode
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.InputMode
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.InputMode
instance GHC.Enum.Enum GI.Gdk.Enums.InputSource
instance GHC.Classes.Ord GI.Gdk.Enums.InputSource
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.InputSource
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.InputSource
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.InputSource
instance GHC.Enum.Enum GI.Gdk.Enums.ModifierIntent
instance GHC.Classes.Ord GI.Gdk.Enums.ModifierIntent
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.ModifierIntent
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.ModifierIntent
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.ModifierIntent
instance GHC.Enum.Enum GI.Gdk.Enums.NotifyType
instance GHC.Classes.Ord GI.Gdk.Enums.NotifyType
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.NotifyType
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.NotifyType
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.NotifyType
instance GHC.Enum.Enum GI.Gdk.Enums.OwnerChange
instance GHC.Classes.Ord GI.Gdk.Enums.OwnerChange
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.OwnerChange
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.OwnerChange
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.OwnerChange
instance GHC.Enum.Enum GI.Gdk.Enums.PropMode
instance GHC.Classes.Ord GI.Gdk.Enums.PropMode
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.PropMode
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.PropMode
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.PropMode
instance GHC.Enum.Enum GI.Gdk.Enums.PropertyState
instance GHC.Classes.Ord GI.Gdk.Enums.PropertyState
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.PropertyState
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.PropertyState
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.PropertyState
instance GHC.Enum.Enum GI.Gdk.Enums.ScrollDirection
instance GHC.Classes.Ord GI.Gdk.Enums.ScrollDirection
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.ScrollDirection
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.ScrollDirection
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.ScrollDirection
instance GHC.Enum.Enum GI.Gdk.Enums.SettingAction
instance GHC.Classes.Ord GI.Gdk.Enums.SettingAction
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.SettingAction
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.SettingAction
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.SettingAction
instance GHC.Enum.Enum GI.Gdk.Enums.Status
instance GHC.Classes.Ord GI.Gdk.Enums.Status
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.Status
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.Status
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.Status
instance GHC.Enum.Enum GI.Gdk.Enums.SubpixelLayout
instance GHC.Classes.Ord GI.Gdk.Enums.SubpixelLayout
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.SubpixelLayout
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.SubpixelLayout
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.SubpixelLayout
instance GHC.Enum.Enum GI.Gdk.Enums.TouchpadGesturePhase
instance GHC.Classes.Ord GI.Gdk.Enums.TouchpadGesturePhase
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.TouchpadGesturePhase
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.TouchpadGesturePhase
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.TouchpadGesturePhase
instance GHC.Enum.Enum GI.Gdk.Enums.VisibilityState
instance GHC.Classes.Ord GI.Gdk.Enums.VisibilityState
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.VisibilityState
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.VisibilityState
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.VisibilityState
instance GHC.Enum.Enum GI.Gdk.Enums.VisualType
instance GHC.Classes.Ord GI.Gdk.Enums.VisualType
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.VisualType
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.VisualType
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.VisualType
instance GHC.Enum.Enum GI.Gdk.Enums.WindowEdge
instance GHC.Classes.Ord GI.Gdk.Enums.WindowEdge
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.WindowEdge
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.WindowEdge
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.WindowEdge
instance GHC.Enum.Enum GI.Gdk.Enums.WindowType
instance GHC.Classes.Ord GI.Gdk.Enums.WindowType
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.WindowType
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.WindowType
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.WindowType
instance GHC.Enum.Enum GI.Gdk.Enums.WindowTypeHint
instance GHC.Classes.Ord GI.Gdk.Enums.WindowTypeHint
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.WindowTypeHint
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.WindowTypeHint
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.WindowTypeHint
instance GHC.Enum.Enum GI.Gdk.Enums.WindowWindowClass
instance GHC.Classes.Ord GI.Gdk.Enums.WindowWindowClass
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Enums.WindowWindowClass
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Enums.WindowWindowClass
instance Data.GI.Base.BasicTypes.BoxedEnum GI.Gdk.Enums.WindowWindowClass


module GI.Gdk.Flags

-- | Positioning hints for aligning a window relative to a rectangle.
--   
--   These hints determine how the window should be positioned in the case
--   that the window would fall off-screen if placed in its ideal position.
--   
--   For example, <a>AnchorHintsFlipX</a> will replace
--   <a>GravityNorthWest</a> with <a>GravityNorthEast</a> and vice versa if
--   the window extends beyond the left or right edges of the monitor.
--   
--   If <a>AnchorHintsSlideX</a> is set, the window can be shifted
--   horizontally to fit on-screen. If <a>AnchorHintsResizeX</a> is set,
--   the window can be shrunken horizontally to fit.
--   
--   In general, when multiple flags are set, flipping should take
--   precedence over sliding, which should take precedence over resizing.
--   
--   <i>Since: 3.22</i>
data AnchorHints

-- | allow flipping anchors horizontally
AnchorHintsFlipX :: AnchorHints

-- | allow flipping anchors vertically
AnchorHintsFlipY :: AnchorHints

-- | allow sliding window horizontally
AnchorHintsSlideX :: AnchorHints

-- | allow sliding window vertically
AnchorHintsSlideY :: AnchorHints

-- | allow resizing window horizontally
AnchorHintsResizeX :: AnchorHints

-- | allow resizing window vertically
AnchorHintsResizeY :: AnchorHints

-- | allow flipping anchors on both axes
AnchorHintsFlip :: AnchorHints

-- | allow sliding window on both axes
AnchorHintsSlide :: AnchorHints

-- | allow resizing window on both axes
AnchorHintsResize :: AnchorHints

-- | Catch-all for unknown values
AnotherAnchorHints :: Int -> AnchorHints

-- | Flags describing the current capabilities of a device/tool.
--   
--   <i>Since: 3.22</i>
data AxisFlags

-- | X axis is present
AxisFlagsX :: AxisFlags

-- | Y axis is present
AxisFlagsY :: AxisFlags

-- | Pressure axis is present
AxisFlagsPressure :: AxisFlags

-- | X tilt axis is present
AxisFlagsXtilt :: AxisFlags

-- | Y tilt axis is present
AxisFlagsYtilt :: AxisFlags

-- | Wheel axis is present
AxisFlagsWheel :: AxisFlags

-- | Distance axis is present
AxisFlagsDistance :: AxisFlags

-- | Z-axis rotation is present
AxisFlagsRotation :: AxisFlags

-- | Slider axis is present
AxisFlagsSlider :: AxisFlags

-- | Catch-all for unknown values
AnotherAxisFlags :: Int -> AxisFlags

-- | Used in <a>DragContext</a> to indicate what the destination should do
--   with the dropped data.
data DragAction

-- | Means nothing, and should not be used.
DragActionDefault :: DragAction

-- | Copy the data.
DragActionCopy :: DragAction

-- | Move the data, i.e. first copy it, then delete it from the source
--   using the DELETE target of the X selection protocol.
DragActionMove :: DragAction

-- | Add a link to the data. Note that this is only useful if source and
--   destination agree on what it means.
DragActionLink :: DragAction

-- | Special action which tells the source that the destination will do
--   something that the source doesn’t understand.
DragActionPrivate :: DragAction

-- | Ask the user what to do with the data.
DragActionAsk :: DragAction

-- | Catch-all for unknown values
AnotherDragAction :: Int -> DragAction

-- | A set of bit-flags to indicate which events a window is to receive.
--   Most of these masks map onto one or more of the <a>EventType</a> event
--   types above.
--   
--   See the [input handling overview][chap-input-handling] for details of
--   [event masks][event-masks] and [event propagation][event-propagation].
--   
--   <a>EventMaskPointerMotionHintMask</a> is deprecated. It is a special
--   mask to reduce the number of <a>EventTypeMotionNotify</a> events
--   received. When using <a>EventMaskPointerMotionHintMask</a>, fewer
--   <a>EventTypeMotionNotify</a> events will be sent, some of which are
--   marked as a hint (the is_hint member is <a>True</a>). To receive more
--   motion events after a motion hint event, the application needs to asks
--   for more, by calling <a>eventRequestMotions</a>.
--   
--   Since GTK 3.8, motion events are already compressed by default,
--   independent of this mechanism. This compression can be disabled with
--   <a>windowSetEventCompression</a>. See the documentation of that
--   function for details.
--   
--   If <a>EventMaskTouchMask</a> is enabled, the window will receive touch
--   events from touch-enabled devices. Those will come as sequences of
--   <a>EventTouch</a> with type <a>EventTypeTouchUpdate</a>, enclosed by
--   two events with type <a>EventTypeTouchBegin</a> and
--   <a>EventTypeTouchEnd</a> (or <a>EventTypeTouchCancel</a>).
--   <a>eventGetEventSequence</a> returns the event sequence for these
--   events, so different sequences may be distinguished.
data EventMask

-- | receive expose events
EventMaskExposureMask :: EventMask

-- | receive all pointer motion events
EventMaskPointerMotionMask :: EventMask

-- | deprecated. see the explanation above
EventMaskPointerMotionHintMask :: EventMask

-- | receive pointer motion events while any button is pressed
EventMaskButtonMotionMask :: EventMask

-- | receive pointer motion events while 1 button is pressed
EventMaskButton1MotionMask :: EventMask

-- | receive pointer motion events while 2 button is pressed
EventMaskButton2MotionMask :: EventMask

-- | receive pointer motion events while 3 button is pressed
EventMaskButton3MotionMask :: EventMask

-- | receive button press events
EventMaskButtonPressMask :: EventMask

-- | receive button release events
EventMaskButtonReleaseMask :: EventMask

-- | receive key press events
EventMaskKeyPressMask :: EventMask

-- | receive key release events
EventMaskKeyReleaseMask :: EventMask

-- | receive window enter events
EventMaskEnterNotifyMask :: EventMask

-- | receive window leave events
EventMaskLeaveNotifyMask :: EventMask

-- | receive focus change events
EventMaskFocusChangeMask :: EventMask

-- | receive events about window configuration change
EventMaskStructureMask :: EventMask

-- | receive property change events
EventMaskPropertyChangeMask :: EventMask

-- | receive visibility change events
EventMaskVisibilityNotifyMask :: EventMask

-- | receive proximity in events
EventMaskProximityInMask :: EventMask

-- | receive proximity out events
EventMaskProximityOutMask :: EventMask

-- | receive events about window configuration changes of child windows
EventMaskSubstructureMask :: EventMask

-- | receive scroll events
EventMaskScrollMask :: EventMask

-- | receive touch events. Since 3.4
EventMaskTouchMask :: EventMask

-- | receive smooth scrolling events. Since 3.4
EventMaskSmoothScrollMask :: EventMask

-- | receive touchpad gesture events. Since 3.18
EventMaskTouchpadGestureMask :: EventMask

-- | receive tablet pad events. Since 3.22
EventMaskTabletPadMask :: EventMask

-- | the combination of all the above event masks.
EventMaskAllEventsMask :: EventMask

-- | Catch-all for unknown values
AnotherEventMask :: Int -> EventMask

-- | <a>FrameClockPhase</a> is used to represent the different paint clock
--   phases that can be requested. The elements of the enumeration
--   correspond to the signals of <a>FrameClock</a>.
--   
--   <i>Since: 3.8</i>
data FrameClockPhase

-- | no phase
FrameClockPhaseNone :: FrameClockPhase

-- | corresponds to GdkFrameClock<a>flushEvents</a>. Should not be handled
--   by applications.
FrameClockPhaseFlushEvents :: FrameClockPhase

-- | corresponds to GdkFrameClock<a>beforePaint</a>. Should not be handled
--   by applications.
FrameClockPhaseBeforePaint :: FrameClockPhase

-- | corresponds to GdkFrameClock<a>update</a>.
FrameClockPhaseUpdate :: FrameClockPhase

-- | corresponds to GdkFrameClock<a>layout</a>.
FrameClockPhaseLayout :: FrameClockPhase

-- | corresponds to GdkFrameClock<a>paint</a>.
FrameClockPhasePaint :: FrameClockPhase

-- | corresponds to GdkFrameClock<a>resumeEvents</a>. Should not be handled
--   by applications.
FrameClockPhaseResumeEvents :: FrameClockPhase

-- | corresponds to GdkFrameClock<a>afterPaint</a>. Should not be handled
--   by applications.
FrameClockPhaseAfterPaint :: FrameClockPhase

-- | Catch-all for unknown values
AnotherFrameClockPhase :: Int -> FrameClockPhase

-- | A set of bit-flags to indicate the state of modifier keys and mouse
--   buttons in various event types. Typical modifier keys are Shift,
--   Control, Meta, Super, Hyper, Alt, Compose, Apple, CapsLock or
--   ShiftLock.
--   
--   Like the X Window System, GDK supports 8 modifier keys and 5 mouse
--   buttons.
--   
--   Since 2.10, GDK recognizes which of the Meta, Super or Hyper keys are
--   mapped to Mod2 - Mod5, and indicates this by setting
--   <a>ModifierTypeSuperMask</a>, <a>ModifierTypeHyperMask</a> or
--   <a>ModifierTypeMetaMask</a> in the state field of key events.
--   
--   Note that GDK may add internal values to events which include reserved
--   values such as <a>ModifierTypeModifierReserved13Mask</a>. Your code
--   should preserve and ignore them. You can use
--   <a>ModifierTypeModifierMask</a> to remove all reserved values.
--   
--   Also note that the GDK X backend interprets button press events for
--   button 4-7 as scroll events, so <a>ModifierTypeButton4Mask</a> and
--   <a>ModifierTypeButton5Mask</a> will never be set.
data ModifierType

-- | the Shift key.
ModifierTypeShiftMask :: ModifierType

-- | a Lock key (depending on the modifier mapping of the X server this may
--   either be CapsLock or ShiftLock).
ModifierTypeLockMask :: ModifierType

-- | the Control key.
ModifierTypeControlMask :: ModifierType

-- | the fourth modifier key (it depends on the modifier mapping of the X
--   server which key is interpreted as this modifier, but normally it is
--   the Alt key).
ModifierTypeMod1Mask :: ModifierType

-- | the fifth modifier key (it depends on the modifier mapping of the X
--   server which key is interpreted as this modifier).
ModifierTypeMod2Mask :: ModifierType

-- | the sixth modifier key (it depends on the modifier mapping of the X
--   server which key is interpreted as this modifier).
ModifierTypeMod3Mask :: ModifierType

-- | the seventh modifier key (it depends on the modifier mapping of the X
--   server which key is interpreted as this modifier).
ModifierTypeMod4Mask :: ModifierType

-- | the eighth modifier key (it depends on the modifier mapping of the X
--   server which key is interpreted as this modifier).
ModifierTypeMod5Mask :: ModifierType

-- | the first mouse button.
ModifierTypeButton1Mask :: ModifierType

-- | the second mouse button.
ModifierTypeButton2Mask :: ModifierType

-- | the third mouse button.
ModifierTypeButton3Mask :: ModifierType

-- | the fourth mouse button.
ModifierTypeButton4Mask :: ModifierType

-- | the fifth mouse button.
ModifierTypeButton5Mask :: ModifierType

-- | A reserved bit flag; do not use in your own code
ModifierTypeModifierReserved13Mask :: ModifierType

-- | A reserved bit flag; do not use in your own code
ModifierTypeModifierReserved14Mask :: ModifierType

-- | A reserved bit flag; do not use in your own code
ModifierTypeModifierReserved15Mask :: ModifierType

-- | A reserved bit flag; do not use in your own code
ModifierTypeModifierReserved16Mask :: ModifierType

-- | A reserved bit flag; do not use in your own code
ModifierTypeModifierReserved17Mask :: ModifierType

-- | A reserved bit flag; do not use in your own code
ModifierTypeModifierReserved18Mask :: ModifierType

-- | A reserved bit flag; do not use in your own code
ModifierTypeModifierReserved19Mask :: ModifierType

-- | A reserved bit flag; do not use in your own code
ModifierTypeModifierReserved20Mask :: ModifierType

-- | A reserved bit flag; do not use in your own code
ModifierTypeModifierReserved21Mask :: ModifierType

-- | A reserved bit flag; do not use in your own code
ModifierTypeModifierReserved22Mask :: ModifierType

-- | A reserved bit flag; do not use in your own code
ModifierTypeModifierReserved23Mask :: ModifierType

-- | A reserved bit flag; do not use in your own code
ModifierTypeModifierReserved24Mask :: ModifierType

-- | A reserved bit flag; do not use in your own code
ModifierTypeModifierReserved25Mask :: ModifierType

-- | the Super modifier. Since 2.10
ModifierTypeSuperMask :: ModifierType

-- | the Hyper modifier. Since 2.10
ModifierTypeHyperMask :: ModifierType

-- | the Meta modifier. Since 2.10
ModifierTypeMetaMask :: ModifierType

-- | A reserved bit flag; do not use in your own code
ModifierTypeModifierReserved29Mask :: ModifierType

-- | not used in GDK itself. GTK+ uses it to differentiate between (keyval,
--   modifiers) pairs from key press and release events.
ModifierTypeReleaseMask :: ModifierType

-- | a mask covering all modifier types.
ModifierTypeModifierMask :: ModifierType

-- | Catch-all for unknown values
AnotherModifierType :: Int -> ModifierType

-- | Flags describing the seat capabilities.
--   
--   <i>Since: 3.20</i>
data SeatCapabilities

-- | No input capabilities
SeatCapabilitiesNone :: SeatCapabilities

-- | The seat has a pointer (e.g. mouse)
SeatCapabilitiesPointer :: SeatCapabilities

-- | The seat has touchscreen(s) attached
SeatCapabilitiesTouch :: SeatCapabilities

-- | The seat has drawing tablet(s) attached
SeatCapabilitiesTabletStylus :: SeatCapabilities

-- | The seat has keyboard(s) attached
SeatCapabilitiesKeyboard :: SeatCapabilities

-- | The union of all pointing capabilities
SeatCapabilitiesAllPointing :: SeatCapabilities

-- | The union of all capabilities
SeatCapabilitiesAll :: SeatCapabilities

-- | Catch-all for unknown values
AnotherSeatCapabilities :: Int -> SeatCapabilities

-- | These are hints originally defined by the Motif toolkit. The window
--   manager can use them when determining how to decorate the window. The
--   hint must be set before mapping the window.
data WMDecoration

-- | all decorations should be applied.
WMDecorationAll :: WMDecoration

-- | a frame should be drawn around the window.
WMDecorationBorder :: WMDecoration

-- | the frame should have resize handles.
WMDecorationResizeh :: WMDecoration

-- | a titlebar should be placed above the window.
WMDecorationTitle :: WMDecoration

-- | a button for opening a menu should be included.
WMDecorationMenu :: WMDecoration

-- | a minimize button should be included.
WMDecorationMinimize :: WMDecoration

-- | a maximize button should be included.
WMDecorationMaximize :: WMDecoration

-- | Catch-all for unknown values
AnotherWMDecoration :: Int -> WMDecoration

-- | These are hints originally defined by the Motif toolkit. The window
--   manager can use them when determining the functions to offer for the
--   window. The hint must be set before mapping the window.
data WMFunction

-- | all functions should be offered.
WMFunctionAll :: WMFunction

-- | the window should be resizable.
WMFunctionResize :: WMFunction

-- | the window should be movable.
WMFunctionMove :: WMFunction

-- | the window should be minimizable.
WMFunctionMinimize :: WMFunction

-- | the window should be maximizable.
WMFunctionMaximize :: WMFunction

-- | the window should be closable.
WMFunctionClose :: WMFunction

-- | Catch-all for unknown values
AnotherWMFunction :: Int -> WMFunction

-- | Used to indicate which fields in the <a>WindowAttr</a> struct should
--   be honored. For example, if you filled in the “cursor” and “x” fields
--   of <a>WindowAttr</a>, pass “<i><tt>gDKWAX</tt></i> |
--   <i><tt>gDKWACURSOR</tt></i>” to <a>windowNew</a>. Fields in
--   <a>WindowAttr</a> not covered by a bit in this enum are required; for
--   example, the <i><tt>width</tt></i>/<i><tt>height</tt></i>,
--   <i><tt>wclass</tt></i>, and <i><tt>windowType</tt></i> fields are
--   required, they have no corresponding flag in
--   <a>WindowAttributesType</a>.
data WindowAttributesType

-- | Honor the title field
WindowAttributesTypeTitle :: WindowAttributesType

-- | Honor the X coordinate field
WindowAttributesTypeX :: WindowAttributesType

-- | Honor the Y coordinate field
WindowAttributesTypeY :: WindowAttributesType

-- | Honor the cursor field
WindowAttributesTypeCursor :: WindowAttributesType

-- | Honor the visual field
WindowAttributesTypeVisual :: WindowAttributesType

-- | Honor the wmclass_class and wmclass_name fields
WindowAttributesTypeWmclass :: WindowAttributesType

-- | Honor the override_redirect field
WindowAttributesTypeNoredir :: WindowAttributesType

-- | Honor the type_hint field
WindowAttributesTypeTypeHint :: WindowAttributesType

-- | Catch-all for unknown values
AnotherWindowAttributesType :: Int -> WindowAttributesType

-- | Used to indicate which fields of a <a>Geometry</a> struct should be
--   paid attention to. Also, the presence/absence of
--   <i><tt>gDKHINTPOS</tt></i>, <i><tt>gDKHINTUSERPOS</tt></i>, and
--   <i><tt>gDKHINTUSERSIZE</tt></i> is significant, though they don't
--   directly refer to <a>Geometry</a> fields.
--   <i><tt>gDKHINTUSERPOS</tt></i> will be set automatically by
--   <tt><i>GtkWindow</i></tt> if you call
--   <tt><i>gtk_window_move()</i></tt>. <i><tt>gDKHINTUSERPOS</tt></i> and
--   <i><tt>gDKHINTUSERSIZE</tt></i> should be set if the user specified a
--   size/position using a --geometry command-line argument;
--   <tt><i>gtk_window_parse_geometry()</i></tt> automatically sets these
--   flags.
data WindowHints

-- | indicates that the program has positioned the window
WindowHintsPos :: WindowHints

-- | min size fields are set
WindowHintsMinSize :: WindowHints

-- | max size fields are set
WindowHintsMaxSize :: WindowHints

-- | base size fields are set
WindowHintsBaseSize :: WindowHints

-- | aspect ratio fields are set
WindowHintsAspect :: WindowHints

-- | resize increment fields are set
WindowHintsResizeInc :: WindowHints

-- | window gravity field is set
WindowHintsWinGravity :: WindowHints

-- | indicates that the window’s position was explicitly set by the user
WindowHintsUserPos :: WindowHints

-- | indicates that the window’s size was explicitly set by the user
WindowHintsUserSize :: WindowHints

-- | Catch-all for unknown values
AnotherWindowHints :: Int -> WindowHints

-- | Specifies the state of a toplevel window.
data WindowState

-- | the window is not shown.
WindowStateWithdrawn :: WindowState

-- | the window is minimized.
WindowStateIconified :: WindowState

-- | the window is maximized.
WindowStateMaximized :: WindowState

-- | the window is sticky.
WindowStateSticky :: WindowState

-- | the window is maximized without decorations.
WindowStateFullscreen :: WindowState

-- | the window is kept above other windows.
WindowStateAbove :: WindowState

-- | the window is kept below other windows.
WindowStateBelow :: WindowState

-- | the window is presented as focused (with active decorations).
WindowStateFocused :: WindowState

-- | the window is in a tiled state, Since 3.10. Since 3.22.23, this is
--   deprecated in favor of per-edge information.
WindowStateTiled :: WindowState

-- | whether the top edge is tiled, Since 3.22.23
WindowStateTopTiled :: WindowState

-- | whether the top edge is resizable, Since 3.22.23
WindowStateTopResizable :: WindowState

-- | whether the right edge is tiled, Since 3.22.23
WindowStateRightTiled :: WindowState

-- | whether the right edge is resizable, Since 3.22.23
WindowStateRightResizable :: WindowState

-- | whether the bottom edge is tiled, Since 3.22.23
WindowStateBottomTiled :: WindowState

-- | whether the bottom edge is resizable, Since 3.22.23
WindowStateBottomResizable :: WindowState

-- | whether the left edge is tiled, Since 3.22.23
WindowStateLeftTiled :: WindowState

-- | whether the left edge is resizable, Since 3.22.23
WindowStateLeftResizable :: WindowState

-- | Catch-all for unknown values
AnotherWindowState :: Int -> WindowState
instance GHC.Classes.Eq GI.Gdk.Flags.WindowState
instance GHC.Show.Show GI.Gdk.Flags.WindowState
instance GHC.Classes.Eq GI.Gdk.Flags.WindowHints
instance GHC.Show.Show GI.Gdk.Flags.WindowHints
instance GHC.Classes.Eq GI.Gdk.Flags.WindowAttributesType
instance GHC.Show.Show GI.Gdk.Flags.WindowAttributesType
instance GHC.Classes.Eq GI.Gdk.Flags.WMFunction
instance GHC.Show.Show GI.Gdk.Flags.WMFunction
instance GHC.Classes.Eq GI.Gdk.Flags.WMDecoration
instance GHC.Show.Show GI.Gdk.Flags.WMDecoration
instance GHC.Classes.Eq GI.Gdk.Flags.SeatCapabilities
instance GHC.Show.Show GI.Gdk.Flags.SeatCapabilities
instance GHC.Classes.Eq GI.Gdk.Flags.ModifierType
instance GHC.Show.Show GI.Gdk.Flags.ModifierType
instance GHC.Classes.Eq GI.Gdk.Flags.FrameClockPhase
instance GHC.Show.Show GI.Gdk.Flags.FrameClockPhase
instance GHC.Classes.Eq GI.Gdk.Flags.EventMask
instance GHC.Show.Show GI.Gdk.Flags.EventMask
instance GHC.Classes.Eq GI.Gdk.Flags.DragAction
instance GHC.Show.Show GI.Gdk.Flags.DragAction
instance GHC.Classes.Eq GI.Gdk.Flags.AxisFlags
instance GHC.Show.Show GI.Gdk.Flags.AxisFlags
instance GHC.Classes.Eq GI.Gdk.Flags.AnchorHints
instance GHC.Show.Show GI.Gdk.Flags.AnchorHints
instance GHC.Enum.Enum GI.Gdk.Flags.AnchorHints
instance GHC.Classes.Ord GI.Gdk.Flags.AnchorHints
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Flags.AnchorHints
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Flags.AnchorHints
instance Data.GI.Base.BasicTypes.BoxedFlags GI.Gdk.Flags.AnchorHints
instance Data.GI.Base.BasicTypes.IsGFlag GI.Gdk.Flags.AnchorHints
instance GHC.Enum.Enum GI.Gdk.Flags.AxisFlags
instance GHC.Classes.Ord GI.Gdk.Flags.AxisFlags
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Flags.AxisFlags
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Flags.AxisFlags
instance Data.GI.Base.BasicTypes.BoxedFlags GI.Gdk.Flags.AxisFlags
instance Data.GI.Base.BasicTypes.IsGFlag GI.Gdk.Flags.AxisFlags
instance GHC.Enum.Enum GI.Gdk.Flags.DragAction
instance GHC.Classes.Ord GI.Gdk.Flags.DragAction
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Flags.DragAction
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Flags.DragAction
instance Data.GI.Base.BasicTypes.BoxedFlags GI.Gdk.Flags.DragAction
instance Data.GI.Base.BasicTypes.IsGFlag GI.Gdk.Flags.DragAction
instance GHC.Enum.Enum GI.Gdk.Flags.EventMask
instance GHC.Classes.Ord GI.Gdk.Flags.EventMask
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Flags.EventMask
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Flags.EventMask
instance Data.GI.Base.BasicTypes.BoxedFlags GI.Gdk.Flags.EventMask
instance Data.GI.Base.BasicTypes.IsGFlag GI.Gdk.Flags.EventMask
instance GHC.Enum.Enum GI.Gdk.Flags.FrameClockPhase
instance GHC.Classes.Ord GI.Gdk.Flags.FrameClockPhase
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Flags.FrameClockPhase
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Flags.FrameClockPhase
instance Data.GI.Base.BasicTypes.BoxedFlags GI.Gdk.Flags.FrameClockPhase
instance Data.GI.Base.BasicTypes.IsGFlag GI.Gdk.Flags.FrameClockPhase
instance GHC.Enum.Enum GI.Gdk.Flags.ModifierType
instance GHC.Classes.Ord GI.Gdk.Flags.ModifierType
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Flags.ModifierType
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Flags.ModifierType
instance Data.GI.Base.BasicTypes.BoxedFlags GI.Gdk.Flags.ModifierType
instance Data.GI.Base.BasicTypes.IsGFlag GI.Gdk.Flags.ModifierType
instance GHC.Enum.Enum GI.Gdk.Flags.SeatCapabilities
instance GHC.Classes.Ord GI.Gdk.Flags.SeatCapabilities
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Flags.SeatCapabilities
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Flags.SeatCapabilities
instance Data.GI.Base.BasicTypes.BoxedFlags GI.Gdk.Flags.SeatCapabilities
instance Data.GI.Base.BasicTypes.IsGFlag GI.Gdk.Flags.SeatCapabilities
instance GHC.Enum.Enum GI.Gdk.Flags.WMDecoration
instance GHC.Classes.Ord GI.Gdk.Flags.WMDecoration
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Flags.WMDecoration
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Flags.WMDecoration
instance Data.GI.Base.BasicTypes.BoxedFlags GI.Gdk.Flags.WMDecoration
instance Data.GI.Base.BasicTypes.IsGFlag GI.Gdk.Flags.WMDecoration
instance GHC.Enum.Enum GI.Gdk.Flags.WMFunction
instance GHC.Classes.Ord GI.Gdk.Flags.WMFunction
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Flags.WMFunction
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Flags.WMFunction
instance Data.GI.Base.BasicTypes.BoxedFlags GI.Gdk.Flags.WMFunction
instance Data.GI.Base.BasicTypes.IsGFlag GI.Gdk.Flags.WMFunction
instance GHC.Enum.Enum GI.Gdk.Flags.WindowAttributesType
instance GHC.Classes.Ord GI.Gdk.Flags.WindowAttributesType
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Flags.WindowAttributesType
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Flags.WindowAttributesType
instance Data.GI.Base.BasicTypes.BoxedFlags GI.Gdk.Flags.WindowAttributesType
instance Data.GI.Base.BasicTypes.IsGFlag GI.Gdk.Flags.WindowAttributesType
instance GHC.Enum.Enum GI.Gdk.Flags.WindowHints
instance GHC.Classes.Ord GI.Gdk.Flags.WindowHints
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Flags.WindowHints
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Flags.WindowHints
instance Data.GI.Base.BasicTypes.BoxedFlags GI.Gdk.Flags.WindowHints
instance Data.GI.Base.BasicTypes.IsGFlag GI.Gdk.Flags.WindowHints
instance GHC.Enum.Enum GI.Gdk.Flags.WindowState
instance GHC.Classes.Ord GI.Gdk.Flags.WindowState
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Flags.WindowState
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Flags.WindowState
instance Data.GI.Base.BasicTypes.BoxedFlags GI.Gdk.Flags.WindowState
instance Data.GI.Base.BasicTypes.IsGFlag GI.Gdk.Flags.WindowState


-- | <i>No description available in the introspection data.</i>
module GI.Gdk.Objects.DeviceTool

-- | Memory-managed wrapper type.
newtype DeviceTool
DeviceTool :: ManagedPtr DeviceTool -> DeviceTool

-- | Type class for types which can be safely cast to <a>DeviceTool</a>,
--   for instance with <a>toDeviceTool</a>.
class (GObject o, IsDescendantOf DeviceTool o) => IsDeviceTool o

-- | Cast to <a>DeviceTool</a>, for types for which this is known to be
--   safe. For general casts, use <a>castTo</a>.
toDeviceTool :: (MonadIO m, IsDeviceTool o) => o -> m DeviceTool

-- | Gets the hardware ID of this tool, or 0 if it's not known. When
--   non-zero, the identificator is unique for the given tool model,
--   meaning that two identical tools will share the same
--   <i><tt>hardwareId</tt></i>, but will have different serial numbers
--   (see <a>deviceToolGetSerial</a>).
--   
--   This is a more concrete (and device specific) method to identify a
--   <a>DeviceTool</a> than <a>deviceToolGetToolType</a>, as a tablet may
--   support multiple devices with the same <a>DeviceToolType</a>, but
--   having different hardware identificators.
--   
--   <i>Since: 3.22</i>
deviceToolGetHardwareId :: (HasCallStack, MonadIO m, IsDeviceTool a) => a -> m Word64

-- | Gets the serial of this tool, this value can be used to identify a
--   physical tool (eg. a tablet pen) across program executions.
--   
--   <i>Since: 3.22</i>
deviceToolGetSerial :: (HasCallStack, MonadIO m, IsDeviceTool a) => a -> m Word64

-- | Gets the <a>DeviceToolType</a> of the tool.
--   
--   <i>Since: 3.22</i>
deviceToolGetToolType :: (HasCallStack, MonadIO m, IsDeviceTool a) => a -> m DeviceToolType

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>axes</tt>” property. This is rarely needed directly, but it is
--   used by <a>new</a>.
constructDeviceToolAxes :: (IsDeviceTool o, MonadIO m) => [AxisFlags] -> m (GValueConstruct o)

-- | Get the value of the “<tt>axes</tt>” property. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> deviceTool #axes
--   </pre>
getDeviceToolAxes :: (MonadIO m, IsDeviceTool o) => o -> m [AxisFlags]

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>hardware-id</tt>” property. This is rarely needed directly, but
--   it is used by <a>new</a>.
constructDeviceToolHardwareId :: (IsDeviceTool o, MonadIO m) => Word64 -> m (GValueConstruct o)

-- | Get the value of the “<tt>hardware-id</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> deviceTool #hardwareId
--   </pre>
getDeviceToolHardwareId :: (MonadIO m, IsDeviceTool o) => o -> m Word64

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>serial</tt>” property. This is rarely needed directly, but it is
--   used by <a>new</a>.
constructDeviceToolSerial :: (IsDeviceTool o, MonadIO m) => Word64 -> m (GValueConstruct o)

-- | Get the value of the “<tt>serial</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> deviceTool #serial
--   </pre>
getDeviceToolSerial :: (MonadIO m, IsDeviceTool o) => o -> m Word64

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>tool-type</tt>” property. This is rarely needed directly, but it
--   is used by <a>new</a>.
constructDeviceToolToolType :: (IsDeviceTool o, MonadIO m) => DeviceToolType -> m (GValueConstruct o)

-- | Get the value of the “<tt>tool-type</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> deviceTool #toolType
--   </pre>
getDeviceToolToolType :: (MonadIO m, IsDeviceTool o) => o -> m DeviceToolType
instance GHC.Classes.Eq GI.Gdk.Objects.DeviceTool.DeviceTool
instance (Data.GI.Base.BasicTypes.GObject o, Data.GI.Base.Overloading.IsDescendantOf GI.Gdk.Objects.DeviceTool.DeviceTool o) => GI.Gdk.Objects.DeviceTool.IsDeviceTool o
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Objects.DeviceTool.DeviceTool
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Objects.DeviceTool.DeviceTool
instance Data.GI.Base.BasicTypes.GObject GI.Gdk.Objects.DeviceTool.DeviceTool
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Objects.DeviceTool.DeviceTool
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Objects.DeviceTool.DeviceTool)


-- | An opaque type representing a string as an index into a table of
--   strings on the X server.
module GI.Gdk.Structs.Atom

-- | Memory-managed wrapper type.
newtype Atom
Atom :: ManagedPtr Atom -> Atom

-- | Finds or creates an atom corresponding to a given string.
atomIntern :: (HasCallStack, MonadIO m) => Text -> Bool -> m Atom

-- | Finds or creates an atom corresponding to a given string.
--   
--   Note that this function is identical to <a>atomIntern</a> except that
--   if a new <a>Atom</a> is created the string itself is used rather than
--   a copy. This saves memory, but can only be used if the string will
--   always exist. It can be used with statically allocated strings in the
--   main program, but not with statically allocated memory in dynamically
--   loaded modules, if you expect to ever unload the module again (e.g. do
--   not use this function in GTK+ theme engines).
--   
--   <i>Since: 2.10</i>
atomInternStaticString :: (HasCallStack, MonadIO m) => Text -> m Atom

-- | Determines the string corresponding to an atom.
atomName :: (HasCallStack, MonadIO m) => Atom -> m Text
instance GHC.Classes.Eq GI.Gdk.Structs.Atom.Atom
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.Atom.Atom
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.Atom.Atom


-- | A <a>Color</a> is used to describe a color, similar to the XColor
--   struct used in the X11 drawing API.
module GI.Gdk.Structs.Color

-- | Memory-managed wrapper type.
newtype Color
Color :: ManagedPtr Color -> Color

-- | Construct a <a>Color</a> struct initialized to zero.
newZeroColor :: MonadIO m => m Color

-- | Makes a copy of a <a>Color</a>.
--   
--   The result must be freed using <a>colorFree</a>.

-- | <i>Deprecated: (Since version 3.14)Use <a>RGBA</a></i>
colorCopy :: (HasCallStack, MonadIO m) => Color -> m Color

-- | Compares two colors.

-- | <i>Deprecated: (Since version 3.14)Use <a>RGBA</a></i>
colorEqual :: (HasCallStack, MonadIO m) => Color -> Color -> m Bool

-- | Frees a <a>Color</a> created with <a>colorCopy</a>.

-- | <i>Deprecated: (Since version 3.14)Use <a>RGBA</a></i>
colorFree :: (HasCallStack, MonadIO m) => Color -> m ()

-- | A hash function suitable for using for a hash table that stores
--   <tt><i>GdkColors</i></tt>.

-- | <i>Deprecated: (Since version 3.14)Use <a>RGBA</a></i>
colorHash :: (HasCallStack, MonadIO m) => Color -> m Word32

-- | Parses a textual specification of a color and fill in the
--   <i><tt>red</tt></i>, <i><tt>green</tt></i>, and <i><tt>blue</tt></i>
--   fields of a <a>Color</a>.
--   
--   The string can either one of a large set of standard names (taken from
--   the X11 <tt>rgb.txt</tt> file), or it can be a hexadecimal value in
--   the form “#rgb” “#rrggbb”, “#rrrgggbbb” or “#rrrrggggbbbb” where “r”,
--   “g” and “b” are hex digits of the red, green, and blue components of
--   the color, respectively. (White in the four forms is “#fff”,
--   “#ffffff”, “#fffffffff” and “#ffffffffffff”).

-- | <i>Deprecated: (Since version 3.14)Use <a>RGBA</a></i>
colorParse :: (HasCallStack, MonadIO m) => Text -> m (Bool, Color)

-- | Returns a textual specification of <i><tt>color</tt></i> in the
--   hexadecimal form “#rrrrggggbbbb” where “r”, “g” and “b” are hex digits
--   representing the red, green and blue components respectively.
--   
--   The returned string can be parsed by <a>colorParse</a>.
--   
--   <i>Since: 2.12</i>

-- | <i>Deprecated: (Since version 3.14)Use <a>RGBA</a></i>
colorToString :: (HasCallStack, MonadIO m) => Color -> m Text

-- | Get the value of the “<tt>blue</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> color #blue
--   </pre>
getColorBlue :: MonadIO m => Color -> m Word16

-- | Set the value of the “<tt>blue</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> color [ #blue <a>:=</a> value ]
--   </pre>
setColorBlue :: MonadIO m => Color -> Word16 -> m ()

-- | Get the value of the “<tt>green</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> color #green
--   </pre>
getColorGreen :: MonadIO m => Color -> m Word16

-- | Set the value of the “<tt>green</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> color [ #green <a>:=</a> value ]
--   </pre>
setColorGreen :: MonadIO m => Color -> Word16 -> m ()

-- | Get the value of the “<tt>pixel</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> color #pixel
--   </pre>
getColorPixel :: MonadIO m => Color -> m Word32

-- | Set the value of the “<tt>pixel</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> color [ #pixel <a>:=</a> value ]
--   </pre>
setColorPixel :: MonadIO m => Color -> Word32 -> m ()

-- | Get the value of the “<tt>red</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> color #red
--   </pre>
getColorRed :: MonadIO m => Color -> m Word16

-- | Set the value of the “<tt>red</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> color [ #red <a>:=</a> value ]
--   </pre>
setColorRed :: MonadIO m => Color -> Word16 -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.Color.Color
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.Color.Color
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Structs.Color.Color
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Structs.Color.Color
instance Data.GI.Base.BasicTypes.GBoxed GI.Gdk.Structs.Color.Color
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Structs.Color.Color)
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.Color.Color tag


-- | <i>No description available in the introspection data.</i>
module GI.Gdk.Structs.EventSequence

-- | Memory-managed wrapper type.
newtype EventSequence
EventSequence :: ManagedPtr EventSequence -> EventSequence
instance GHC.Classes.Eq GI.Gdk.Structs.EventSequence.EventSequence
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventSequence.EventSequence
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Structs.EventSequence.EventSequence
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Structs.EventSequence.EventSequence
instance Data.GI.Base.BasicTypes.GBoxed GI.Gdk.Structs.EventSequence.EventSequence
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Structs.EventSequence.EventSequence)


-- | A <a>FrameTimings</a> object holds timing information for a single
--   frame of the application’s displays. To retrieve <a>FrameTimings</a>
--   objects, use <a>frameClockGetTimings</a> or
--   <a>frameClockGetCurrentTimings</a>. The information in
--   <a>FrameTimings</a> is useful for precise synchronization of video
--   with the event or audio streams, and for measuring quality metrics for
--   the application’s display, such as latency and jitter.
module GI.Gdk.Structs.FrameTimings

-- | Memory-managed wrapper type.
newtype FrameTimings
FrameTimings :: ManagedPtr FrameTimings -> FrameTimings

-- | The timing information in a <a>FrameTimings</a> is filled in
--   incrementally as the frame as drawn and passed off to the window
--   system for processing and display to the user. The accessor functions
--   for <a>FrameTimings</a> can return 0 to indicate an unavailable value
--   for two reasons: either because the information is not yet available,
--   or because it isn't available at all. Once
--   <a>frameTimingsGetComplete</a> returns <a>True</a> for a frame, you
--   can be certain that no further values will become available and be
--   stored in the <a>FrameTimings</a>.
--   
--   <i>Since: 3.8</i>
frameTimingsGetComplete :: (HasCallStack, MonadIO m) => FrameTimings -> m Bool

-- | Gets the frame counter value of the <a>FrameClock</a> when this this
--   frame was drawn.
--   
--   <i>Since: 3.8</i>
frameTimingsGetFrameCounter :: (HasCallStack, MonadIO m) => FrameTimings -> m Int64

-- | Returns the frame time for the frame. This is the time value that is
--   typically used to time animations for the frame. See
--   <a>frameClockGetFrameTime</a>.
frameTimingsGetFrameTime :: (HasCallStack, MonadIO m) => FrameTimings -> m Int64

-- | Gets the predicted time at which this frame will be displayed.
--   Although no predicted time may be available, if one is available, it
--   will be available while the frame is being generated, in contrast to
--   <a>frameTimingsGetPresentationTime</a>, which is only available after
--   the frame has been presented. In general, if you are simply animating,
--   you should use <a>frameClockGetFrameTime</a> rather than this
--   function, but this function is useful for applications that want exact
--   control over latency. For example, a movie player may want this
--   information for Audio/Video synchronization.
--   
--   <i>Since: 3.8</i>
frameTimingsGetPredictedPresentationTime :: (HasCallStack, MonadIO m) => FrameTimings -> m Int64

-- | Reurns the presentation time. This is the time at which the frame
--   became visible to the user.
--   
--   <i>Since: 3.8</i>
frameTimingsGetPresentationTime :: (HasCallStack, MonadIO m) => FrameTimings -> m Int64

-- | Gets the natural interval between presentation times for the display
--   that this frame was displayed on. Frame presentation usually happens
--   during the “vertical blanking interval”.
--   
--   <i>Since: 3.8</i>
frameTimingsGetRefreshInterval :: (HasCallStack, MonadIO m) => FrameTimings -> m Int64

-- | Increases the reference count of <i><tt>timings</tt></i>.
--   
--   <i>Since: 3.8</i>
frameTimingsRef :: (HasCallStack, MonadIO m) => FrameTimings -> m FrameTimings

-- | Decreases the reference count of <i><tt>timings</tt></i>. If
--   <i><tt>timings</tt></i> is no longer referenced, it will be freed.
--   
--   <i>Since: 3.8</i>
frameTimingsUnref :: (HasCallStack, MonadIO m) => FrameTimings -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.FrameTimings.FrameTimings
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.FrameTimings.FrameTimings
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Structs.FrameTimings.FrameTimings
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Structs.FrameTimings.FrameTimings
instance Data.GI.Base.BasicTypes.GBoxed GI.Gdk.Structs.FrameTimings.FrameTimings
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Structs.FrameTimings.FrameTimings)


-- | A <a>FrameClock</a> tells the application when to update and repaint a
--   window. This may be synced to the vertical refresh rate of the
--   monitor, for example. Even when the frame clock uses a simple timer
--   rather than a hardware-based vertical sync, the frame clock helps
--   because it ensures everything paints at the same time (reducing the
--   total number of frames). The frame clock can also automatically stop
--   painting when it knows the frames will not be visible, or scale back
--   animation framerates.
--   
--   <a>FrameClock</a> is designed to be compatible with an OpenGL-based
--   implementation or with mozRequestAnimationFrame in Firefox, for
--   example.
--   
--   A frame clock is idle until someone requests a frame with
--   <a>frameClockRequestPhase</a>. At some later point that makes sense
--   for the synchronization being implemented, the clock will process a
--   frame and emit signals for each phase that has been requested. (See
--   the signals of the <a>FrameClock</a> class for documentation of the
--   phases. <a>FrameClockPhaseUpdate</a> and the <a>FrameClock::update</a>
--   signal are most interesting for application writers, and are used to
--   update the animations, using the frame time given by
--   <a>frameClockGetFrameTime</a>.
--   
--   The frame time is reported in microseconds and generally in the same
--   timescale as <a>getMonotonicTime</a>, however, it is not the same as
--   <a>getMonotonicTime</a>. The frame time does not advance during the
--   time a frame is being painted, and outside of a frame, an attempt is
--   made so that all calls to <a>frameClockGetFrameTime</a> that are
--   called at a “similar” time get the same value. This means that if
--   different animations are timed by looking at the difference in time
--   between an initial value from <a>frameClockGetFrameTime</a> and the
--   value inside the <a>FrameClock::update</a> signal of the clock, they
--   will stay exactly synchronized.
module GI.Gdk.Objects.FrameClock

-- | Memory-managed wrapper type.
newtype FrameClock
FrameClock :: ManagedPtr FrameClock -> FrameClock

-- | Type class for types which can be safely cast to <a>FrameClock</a>,
--   for instance with <a>toFrameClock</a>.
class (GObject o, IsDescendantOf FrameClock o) => IsFrameClock o

-- | Cast to <a>FrameClock</a>, for types for which this is known to be
--   safe. For general casts, use <a>castTo</a>.
toFrameClock :: (MonadIO m, IsFrameClock o) => o -> m FrameClock

-- | Starts updates for an animation. Until a matching call to
--   <a>frameClockEndUpdating</a> is made, the frame clock will continually
--   request a new frame with the <a>FrameClockPhaseUpdate</a> phase. This
--   function may be called multiple times and frames will be requested
--   until <a>frameClockEndUpdating</a> is called the same number of times.
--   
--   <i>Since: 3.8</i>
frameClockBeginUpdating :: (HasCallStack, MonadIO m, IsFrameClock a) => a -> m ()

-- | Stops updates for an animation. See the documentation for
--   <a>frameClockBeginUpdating</a>.
--   
--   <i>Since: 3.8</i>
frameClockEndUpdating :: (HasCallStack, MonadIO m, IsFrameClock a) => a -> m ()

-- | Gets the frame timings for the current frame.
--   
--   <i>Since: 3.8</i>
frameClockGetCurrentTimings :: (HasCallStack, MonadIO m, IsFrameClock a) => a -> m (Maybe FrameTimings)

-- | A <a>FrameClock</a> maintains a 64-bit counter that increments for
--   each frame drawn.
--   
--   <i>Since: 3.8</i>
frameClockGetFrameCounter :: (HasCallStack, MonadIO m, IsFrameClock a) => a -> m Int64

-- | Gets the time that should currently be used for animations. Inside the
--   processing of a frame, it’s the time used to compute the animation
--   position of everything in a frame. Outside of a frame, it's the time
--   of the conceptual “previous frame,” which may be either the actual
--   previous frame time, or if that’s too old, an updated time.
--   
--   <i>Since: 3.8</i>
frameClockGetFrameTime :: (HasCallStack, MonadIO m, IsFrameClock a) => a -> m Int64

-- | <a>FrameClock</a> internally keeps a history of <a>FrameTimings</a>
--   objects for recent frames that can be retrieved with
--   <a>frameClockGetTimings</a>. The set of stored frames is the set from
--   the counter values given by <a>frameClockGetHistoryStart</a> and
--   <a>frameClockGetFrameCounter</a>, inclusive.
--   
--   <i>Since: 3.8</i>
frameClockGetHistoryStart :: (HasCallStack, MonadIO m, IsFrameClock a) => a -> m Int64

-- | Using the frame history stored in the frame clock, finds the last
--   known presentation time and refresh interval, and assuming that
--   presentation times are separated by the refresh interval, predicts a
--   presentation time that is a multiple of the refresh interval after the
--   last presentation time, and later than <i><tt>baseTime</tt></i>.
--   
--   <i>Since: 3.8</i>
frameClockGetRefreshInfo :: (HasCallStack, MonadIO m, IsFrameClock a) => a -> Int64 -> m (Int64, Int64)

-- | Retrieves a <a>FrameTimings</a> object holding timing information for
--   the current frame or a recent frame. The <a>FrameTimings</a> object
--   may not yet be complete: see <a>frameTimingsGetComplete</a>.
--   
--   <i>Since: 3.8</i>
frameClockGetTimings :: (HasCallStack, MonadIO m, IsFrameClock a) => a -> Int64 -> m (Maybe FrameTimings)

-- | Asks the frame clock to run a particular phase. The signal
--   corresponding the requested phase will be emitted the next time the
--   frame clock processes. Multiple calls to <a>frameClockRequestPhase</a>
--   will be combined together and only one frame processed. If you are
--   displaying animated content and want to continually request the
--   <a>FrameClockPhaseUpdate</a> phase for a period of time, you should
--   use <a>frameClockBeginUpdating</a> instead, since this allows GTK+ to
--   adjust system parameters to get maximally smooth animations.
--   
--   <i>Since: 3.8</i>
frameClockRequestPhase :: (HasCallStack, MonadIO m, IsFrameClock a) => a -> [FrameClockPhase] -> m ()

-- | This signal ends processing of the frame. Applications should
--   generally not handle this signal.
type FrameClockAfterPaintCallback = IO ()

-- | Connect a signal handler for the <a>afterPaint</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> frameClock #afterPaint callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterFrameClockAfterPaint :: (IsFrameClock a, MonadIO m) => a -> ((?self :: a) => FrameClockAfterPaintCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>afterPaint</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> frameClock #afterPaint callback
--   </pre>
onFrameClockAfterPaint :: (IsFrameClock a, MonadIO m) => a -> ((?self :: a) => FrameClockAfterPaintCallback) -> m SignalHandlerId

-- | This signal begins processing of the frame. Applications should
--   generally not handle this signal.
type FrameClockBeforePaintCallback = IO ()

-- | Connect a signal handler for the <a>beforePaint</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> frameClock #beforePaint callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterFrameClockBeforePaint :: (IsFrameClock a, MonadIO m) => a -> ((?self :: a) => FrameClockBeforePaintCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>beforePaint</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> frameClock #beforePaint callback
--   </pre>
onFrameClockBeforePaint :: (IsFrameClock a, MonadIO m) => a -> ((?self :: a) => FrameClockBeforePaintCallback) -> m SignalHandlerId

-- | This signal is used to flush pending motion events that are being
--   batched up and compressed together. Applications should not handle
--   this signal.
type FrameClockFlushEventsCallback = IO ()

-- | Connect a signal handler for the <a>flushEvents</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> frameClock #flushEvents callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterFrameClockFlushEvents :: (IsFrameClock a, MonadIO m) => a -> ((?self :: a) => FrameClockFlushEventsCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>flushEvents</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> frameClock #flushEvents callback
--   </pre>
onFrameClockFlushEvents :: (IsFrameClock a, MonadIO m) => a -> ((?self :: a) => FrameClockFlushEventsCallback) -> m SignalHandlerId

-- | This signal is emitted as the second step of toolkit and application
--   processing of the frame. Any work to update sizes and positions of
--   application elements should be performed. GTK+ normally handles this
--   internally.
type FrameClockLayoutCallback = IO ()

-- | Connect a signal handler for the <a>layout</a> signal, to be run after
--   the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> frameClock #layout callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterFrameClockLayout :: (IsFrameClock a, MonadIO m) => a -> ((?self :: a) => FrameClockLayoutCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>layout</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> frameClock #layout callback
--   </pre>
onFrameClockLayout :: (IsFrameClock a, MonadIO m) => a -> ((?self :: a) => FrameClockLayoutCallback) -> m SignalHandlerId

-- | This signal is emitted as the third step of toolkit and application
--   processing of the frame. The frame is repainted. GDK normally handles
--   this internally and produces expose events, which are turned into GTK+
--   <tt><i>GtkWidget::draw</i></tt> signals.
type FrameClockPaintCallback = IO ()

-- | Connect a signal handler for the <a>paint</a> signal, to be run after
--   the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> frameClock #paint callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterFrameClockPaint :: (IsFrameClock a, MonadIO m) => a -> ((?self :: a) => FrameClockPaintCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>paint</a> signal, to be run before
--   the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>on</a> frameClock #paint callback
--   </pre>
onFrameClockPaint :: (IsFrameClock a, MonadIO m) => a -> ((?self :: a) => FrameClockPaintCallback) -> m SignalHandlerId

-- | This signal is emitted after processing of the frame is finished, and
--   is handled internally by GTK+ to resume normal event processing.
--   Applications should not handle this signal.
type FrameClockResumeEventsCallback = IO ()

-- | Connect a signal handler for the <a>resumeEvents</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> frameClock #resumeEvents callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterFrameClockResumeEvents :: (IsFrameClock a, MonadIO m) => a -> ((?self :: a) => FrameClockResumeEventsCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>resumeEvents</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> frameClock #resumeEvents callback
--   </pre>
onFrameClockResumeEvents :: (IsFrameClock a, MonadIO m) => a -> ((?self :: a) => FrameClockResumeEventsCallback) -> m SignalHandlerId

-- | This signal is emitted as the first step of toolkit and application
--   processing of the frame. Animations should be updated using
--   <a>frameClockGetFrameTime</a>. Applications can connect directly to
--   this signal, or use <tt><i>gtk_widget_add_tick_callback()</i></tt> as
--   a more convenient interface.
type FrameClockUpdateCallback = IO ()

-- | Connect a signal handler for the <a>update</a> signal, to be run after
--   the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> frameClock #update callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterFrameClockUpdate :: (IsFrameClock a, MonadIO m) => a -> ((?self :: a) => FrameClockUpdateCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>update</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> frameClock #update callback
--   </pre>
onFrameClockUpdate :: (IsFrameClock a, MonadIO m) => a -> ((?self :: a) => FrameClockUpdateCallback) -> m SignalHandlerId
instance GHC.Classes.Eq GI.Gdk.Objects.FrameClock.FrameClock
instance (Data.GI.Base.BasicTypes.GObject o, Data.GI.Base.Overloading.IsDescendantOf GI.Gdk.Objects.FrameClock.FrameClock o) => GI.Gdk.Objects.FrameClock.IsFrameClock o
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Objects.FrameClock.FrameClock
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Objects.FrameClock.FrameClock
instance Data.GI.Base.BasicTypes.GObject GI.Gdk.Objects.FrameClock.FrameClock
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Objects.FrameClock.FrameClock
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Objects.FrameClock.FrameClock)


-- | The <a>Geometry</a> struct gives the window manager information about
--   a window’s geometry constraints. Normally you would set these on the
--   GTK+ level using <tt><i>gtk_window_set_geometry_hints()</i></tt>.
--   <tt><i>GtkWindow</i></tt> then sets the hints on the <a>Window</a> it
--   creates.
--   
--   <a>windowSetGeometryHints</a> expects the hints to be fully valid
--   already and simply passes them to the window manager; in contrast,
--   <tt><i>gtk_window_set_geometry_hints()</i></tt> performs some
--   interpretation. For example, <tt><i>GtkWindow</i></tt> will apply the
--   hints to the geometry widget instead of the toplevel window, if you
--   set a geometry widget. Also, the
--   <i><tt>minWidth</tt></i>/<i><tt>minHeight</tt></i>/<i><tt>maxWidth</tt></i>/<i><tt>maxHeight</tt></i>
--   fields may be set to -1, and <tt><i>GtkWindow</i></tt> will substitute
--   the size request of the window or geometry widget. If the minimum size
--   hint is not provided, <tt><i>GtkWindow</i></tt> will use its
--   requisition as the minimum size. If the minimum size is provided and a
--   geometry widget is set, <tt><i>GtkWindow</i></tt> will take the
--   minimum size as the minimum size of the geometry widget rather than
--   the entire window. The base size is treated similarly.
--   
--   The canonical use-case for
--   <tt><i>gtk_window_set_geometry_hints()</i></tt> is to get a terminal
--   widget to resize properly. Here, the terminal text area should be the
--   geometry widget; <tt><i>GtkWindow</i></tt> will then automatically set
--   the base size to the size of other widgets in the terminal window,
--   such as the menubar and scrollbar. Then, the <i><tt>widthInc</tt></i>
--   and <i><tt>heightInc</tt></i> fields should be set to the size of one
--   character in the terminal. Finally, the base size should be set to the
--   size of one character. The net effect is that the minimum size of the
--   terminal will have a 1x1 character terminal area, and only terminal
--   sizes on the “character grid” will be allowed.
--   
--   Here’s an example of how the terminal example would be implemented,
--   assuming a terminal area widget called “terminal” and a toplevel
--   window “toplevel”:
--   
--   <h3><i>C code</i></h3>
--   
--   <pre>
--   GdkGeometry hints;
--   
--   hints.base_width = terminal-&gt;char_width;
--          hints.base_height = terminal-&gt;char_height;
--          hints.min_width = terminal-&gt;char_width;
--          hints.min_height = terminal-&gt;char_height;
--          hints.width_inc = terminal-&gt;char_width;
--          hints.height_inc = terminal-&gt;char_height;
--   
--   gtk_window_set_geometry_hints (GTK_WINDOW (toplevel),
--                                  GTK_WIDGET (terminal),
--                                  &amp;hints,
--                                  GDK_HINT_RESIZE_INC |
--                                  GDK_HINT_MIN_SIZE |
--                                  GDK_HINT_BASE_SIZE);
--   </pre>
--   
--   The other useful fields are the <i><tt>minAspect</tt></i> and
--   <i><tt>maxAspect</tt></i> fields; these contain a width/height ratio
--   as a floating point number. If a geometry widget is set, the aspect
--   applies to the geometry widget rather than the entire window. The most
--   common use of these hints is probably to set <i><tt>minAspect</tt></i>
--   and <i><tt>maxAspect</tt></i> to the same value, thus forcing the
--   window to keep a constant aspect ratio.
module GI.Gdk.Structs.Geometry

-- | Memory-managed wrapper type.
newtype Geometry
Geometry :: ManagedPtr Geometry -> Geometry

-- | Construct a <a>Geometry</a> struct initialized to zero.
newZeroGeometry :: MonadIO m => m Geometry

-- | Get the value of the “<tt>base_height</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> geometry #baseHeight
--   </pre>
getGeometryBaseHeight :: MonadIO m => Geometry -> m Int32

-- | Set the value of the “<tt>base_height</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> geometry [ #baseHeight <a>:=</a> value ]
--   </pre>
setGeometryBaseHeight :: MonadIO m => Geometry -> Int32 -> m ()

-- | Get the value of the “<tt>base_width</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> geometry #baseWidth
--   </pre>
getGeometryBaseWidth :: MonadIO m => Geometry -> m Int32

-- | Set the value of the “<tt>base_width</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> geometry [ #baseWidth <a>:=</a> value ]
--   </pre>
setGeometryBaseWidth :: MonadIO m => Geometry -> Int32 -> m ()

-- | Get the value of the “<tt>height_inc</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> geometry #heightInc
--   </pre>
getGeometryHeightInc :: MonadIO m => Geometry -> m Int32

-- | Set the value of the “<tt>height_inc</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> geometry [ #heightInc <a>:=</a> value ]
--   </pre>
setGeometryHeightInc :: MonadIO m => Geometry -> Int32 -> m ()

-- | Get the value of the “<tt>max_aspect</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> geometry #maxAspect
--   </pre>
getGeometryMaxAspect :: MonadIO m => Geometry -> m Double

-- | Set the value of the “<tt>max_aspect</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> geometry [ #maxAspect <a>:=</a> value ]
--   </pre>
setGeometryMaxAspect :: MonadIO m => Geometry -> Double -> m ()

-- | Get the value of the “<tt>max_height</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> geometry #maxHeight
--   </pre>
getGeometryMaxHeight :: MonadIO m => Geometry -> m Int32

-- | Set the value of the “<tt>max_height</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> geometry [ #maxHeight <a>:=</a> value ]
--   </pre>
setGeometryMaxHeight :: MonadIO m => Geometry -> Int32 -> m ()

-- | Get the value of the “<tt>max_width</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> geometry #maxWidth
--   </pre>
getGeometryMaxWidth :: MonadIO m => Geometry -> m Int32

-- | Set the value of the “<tt>max_width</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> geometry [ #maxWidth <a>:=</a> value ]
--   </pre>
setGeometryMaxWidth :: MonadIO m => Geometry -> Int32 -> m ()

-- | Get the value of the “<tt>min_aspect</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> geometry #minAspect
--   </pre>
getGeometryMinAspect :: MonadIO m => Geometry -> m Double

-- | Set the value of the “<tt>min_aspect</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> geometry [ #minAspect <a>:=</a> value ]
--   </pre>
setGeometryMinAspect :: MonadIO m => Geometry -> Double -> m ()

-- | Get the value of the “<tt>min_height</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> geometry #minHeight
--   </pre>
getGeometryMinHeight :: MonadIO m => Geometry -> m Int32

-- | Set the value of the “<tt>min_height</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> geometry [ #minHeight <a>:=</a> value ]
--   </pre>
setGeometryMinHeight :: MonadIO m => Geometry -> Int32 -> m ()

-- | Get the value of the “<tt>min_width</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> geometry #minWidth
--   </pre>
getGeometryMinWidth :: MonadIO m => Geometry -> m Int32

-- | Set the value of the “<tt>min_width</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> geometry [ #minWidth <a>:=</a> value ]
--   </pre>
setGeometryMinWidth :: MonadIO m => Geometry -> Int32 -> m ()

-- | Get the value of the “<tt>width_inc</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> geometry #widthInc
--   </pre>
getGeometryWidthInc :: MonadIO m => Geometry -> m Int32

-- | Set the value of the “<tt>width_inc</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> geometry [ #widthInc <a>:=</a> value ]
--   </pre>
setGeometryWidthInc :: MonadIO m => Geometry -> Int32 -> m ()

-- | Get the value of the “<tt>win_gravity</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> geometry #winGravity
--   </pre>
getGeometryWinGravity :: MonadIO m => Geometry -> m Gravity

-- | Set the value of the “<tt>win_gravity</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> geometry [ #winGravity <a>:=</a> value ]
--   </pre>
setGeometryWinGravity :: MonadIO m => Geometry -> Gravity -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.Geometry.Geometry
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.Geometry.Geometry
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.Geometry.Geometry
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.Geometry.Geometry
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.Geometry.Geometry tag


-- | A <a>KeymapKey</a> is a hardware key that can be mapped to a keyval.
module GI.Gdk.Structs.KeymapKey

-- | Memory-managed wrapper type.
newtype KeymapKey
KeymapKey :: ManagedPtr KeymapKey -> KeymapKey

-- | Construct a <a>KeymapKey</a> struct initialized to zero.
newZeroKeymapKey :: MonadIO m => m KeymapKey

-- | Get the value of the “<tt>group</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> keymapKey #group
--   </pre>
getKeymapKeyGroup :: MonadIO m => KeymapKey -> m Int32

-- | Set the value of the “<tt>group</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> keymapKey [ #group <a>:=</a> value ]
--   </pre>
setKeymapKeyGroup :: MonadIO m => KeymapKey -> Int32 -> m ()

-- | Get the value of the “<tt>keycode</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> keymapKey #keycode
--   </pre>
getKeymapKeyKeycode :: MonadIO m => KeymapKey -> m Word32

-- | Set the value of the “<tt>keycode</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> keymapKey [ #keycode <a>:=</a> value ]
--   </pre>
setKeymapKeyKeycode :: MonadIO m => KeymapKey -> Word32 -> m ()

-- | Get the value of the “<tt>level</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> keymapKey #level
--   </pre>
getKeymapKeyLevel :: MonadIO m => KeymapKey -> m Int32

-- | Set the value of the “<tt>level</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> keymapKey [ #level <a>:=</a> value ]
--   </pre>
setKeymapKeyLevel :: MonadIO m => KeymapKey -> Int32 -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.KeymapKey.KeymapKey
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.KeymapKey.KeymapKey
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.KeymapKey.KeymapKey
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.KeymapKey.KeymapKey
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.KeymapKey.KeymapKey tag


-- | Defines the x and y coordinates of a point.
module GI.Gdk.Structs.Point

-- | Memory-managed wrapper type.
newtype Point
Point :: ManagedPtr Point -> Point

-- | Construct a <a>Point</a> struct initialized to zero.
newZeroPoint :: MonadIO m => m Point

-- | Get the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> point #x
--   </pre>
getPointX :: MonadIO m => Point -> m Int32

-- | Set the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> point [ #x <a>:=</a> value ]
--   </pre>
setPointX :: MonadIO m => Point -> Int32 -> m ()

-- | Get the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> point #y
--   </pre>
getPointY :: MonadIO m => Point -> m Int32

-- | Set the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> point [ #y <a>:=</a> value ]
--   </pre>
setPointY :: MonadIO m => Point -> Int32 -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.Point.Point
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.Point.Point
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.Point.Point
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.Point.Point
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.Point.Point tag


-- | A <a>RGBA</a> is used to represent a (possibly translucent) color, in
--   a way that is compatible with cairo’s notion of color.
module GI.Gdk.Structs.RGBA

-- | Memory-managed wrapper type.
newtype RGBA
RGBA :: ManagedPtr RGBA -> RGBA

-- | Construct a <a>RGBA</a> struct initialized to zero.
newZeroRGBA :: MonadIO m => m RGBA

-- | Makes a copy of a <a>RGBA</a>.
--   
--   The result must be freed through <a>rGBAFree</a>.
--   
--   <i>Since: 3.0</i>
rGBACopy :: (HasCallStack, MonadIO m) => RGBA -> m RGBA

-- | Compares two RGBA colors.
--   
--   <i>Since: 3.0</i>
rGBAEqual :: (HasCallStack, MonadIO m) => RGBA -> RGBA -> m Bool

-- | Frees a <a>RGBA</a> created with <a>rGBACopy</a>
--   
--   <i>Since: 3.0</i>
rGBAFree :: (HasCallStack, MonadIO m) => RGBA -> m ()

-- | A hash function suitable for using for a hash table that stores
--   <tt><i>GdkRGBAs</i></tt>.
--   
--   <i>Since: 3.0</i>
rGBAHash :: (HasCallStack, MonadIO m) => RGBA -> m Word32

-- | Parses a textual representation of a color, filling in the
--   <i><tt>red</tt></i>, <i><tt>green</tt></i>, <i><tt>blue</tt></i> and
--   <i><tt>alpha</tt></i> fields of the <i><tt>rgba</tt></i> <a>RGBA</a>.
--   
--   The string can be either one of:
--   
--   <ul>
--   <li>A standard name (Taken from the X11 rgb.txt file).</li>
--   <li>A hexadecimal value in the form “#rgb”, “#rrggbb”, “#rrrgggbbb” or
--   ”#rrrrggggbbbb”</li>
--   <li>A RGB color in the form “rgb(r,g,b)” (In this case the color will
--   have full opacity)</li>
--   <li>A RGBA color in the form “rgba(r,g,b,a)”</li>
--   </ul>
--   
--   Where “r”, “g”, “b” and “a” are respectively the red, green, blue and
--   alpha color values. In the last two cases, “r”, “g”, and “b” are
--   either integers in the range 0 to 255 or percentage values in the
--   range 0% to 100%, and a is a floating point value in the range 0 to 1.
--   
--   <i>Since: 3.0</i>
rGBAParse :: (HasCallStack, MonadIO m) => RGBA -> Text -> m Bool

-- | Returns a textual specification of <i><tt>rgba</tt></i> in the form
--   <tt>rgb(r,g,b)</tt> or <tt>rgba(r g,b,a)</tt>, where “r”, “g”, “b” and
--   “a” represent the red, green, blue and alpha values respectively. “r”,
--   “g”, and “b” are represented as integers in the range 0 to 255, and
--   “a” is represented as a floating point value in the range 0 to 1.
--   
--   These string forms are string forms that are supported by the CSS3
--   colors module, and can be parsed by <a>rGBAParse</a>.
--   
--   Note that this string representation may lose some precision, since
--   “r”, “g” and “b” are represented as 8-bit integers. If this is a
--   concern, you should use a different representation.
--   
--   <i>Since: 3.0</i>
rGBAToString :: (HasCallStack, MonadIO m) => RGBA -> m Text

-- | Get the value of the “<tt>alpha</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> rGBA #alpha
--   </pre>
getRGBAAlpha :: MonadIO m => RGBA -> m Double

-- | Set the value of the “<tt>alpha</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> rGBA [ #alpha <a>:=</a> value ]
--   </pre>
setRGBAAlpha :: MonadIO m => RGBA -> Double -> m ()

-- | Get the value of the “<tt>blue</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> rGBA #blue
--   </pre>
getRGBABlue :: MonadIO m => RGBA -> m Double

-- | Set the value of the “<tt>blue</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> rGBA [ #blue <a>:=</a> value ]
--   </pre>
setRGBABlue :: MonadIO m => RGBA -> Double -> m ()

-- | Get the value of the “<tt>green</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> rGBA #green
--   </pre>
getRGBAGreen :: MonadIO m => RGBA -> m Double

-- | Set the value of the “<tt>green</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> rGBA [ #green <a>:=</a> value ]
--   </pre>
setRGBAGreen :: MonadIO m => RGBA -> Double -> m ()

-- | Get the value of the “<tt>red</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> rGBA #red
--   </pre>
getRGBARed :: MonadIO m => RGBA -> m Double

-- | Set the value of the “<tt>red</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> rGBA [ #red <a>:=</a> value ]
--   </pre>
setRGBARed :: MonadIO m => RGBA -> Double -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.RGBA.RGBA
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.RGBA.RGBA
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Structs.RGBA.RGBA
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Structs.RGBA.RGBA
instance Data.GI.Base.BasicTypes.GBoxed GI.Gdk.Structs.RGBA.RGBA
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Structs.RGBA.RGBA)
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.RGBA.RGBA tag


-- | Defines the position and size of a rectangle. It is identical to
--   <a>RectangleInt</a>.
module GI.Gdk.Structs.Rectangle

-- | Memory-managed wrapper type.
newtype Rectangle
Rectangle :: ManagedPtr Rectangle -> Rectangle

-- | Construct a <a>Rectangle</a> struct initialized to zero.
newZeroRectangle :: MonadIO m => m Rectangle

-- | Checks if the two given rectangles are equal.
--   
--   <i>Since: 3.20</i>
rectangleEqual :: (HasCallStack, MonadIO m) => Rectangle -> Rectangle -> m Bool

-- | Calculates the intersection of two rectangles. It is allowed for
--   <i><tt>dest</tt></i> to be the same as either <i><tt>src1</tt></i> or
--   <i><tt>src2</tt></i>. If the rectangles do not intersect,
--   <i><tt>dest</tt></i>’s width and height is set to 0 and its x and y
--   values are undefined. If you are only interested in whether the
--   rectangles intersect, but not in the intersecting area itself, pass
--   <a>Nothing</a> for <i><tt>dest</tt></i>.
rectangleIntersect :: (HasCallStack, MonadIO m) => Rectangle -> Rectangle -> m (Bool, Rectangle)

-- | Calculates the union of two rectangles. The union of rectangles
--   <i><tt>src1</tt></i> and <i><tt>src2</tt></i> is the smallest
--   rectangle which includes both <i><tt>src1</tt></i> and
--   <i><tt>src2</tt></i> within it. It is allowed for <i><tt>dest</tt></i>
--   to be the same as either <i><tt>src1</tt></i> or <i><tt>src2</tt></i>.
--   
--   Note that this function does not ignore 'empty' rectangles (ie. with
--   zero width or height).
rectangleUnion :: (HasCallStack, MonadIO m) => Rectangle -> Rectangle -> m Rectangle

-- | Get the value of the “<tt>height</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> rectangle #height
--   </pre>
getRectangleHeight :: MonadIO m => Rectangle -> m Int32

-- | Set the value of the “<tt>height</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> rectangle [ #height <a>:=</a> value ]
--   </pre>
setRectangleHeight :: MonadIO m => Rectangle -> Int32 -> m ()

-- | Get the value of the “<tt>width</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> rectangle #width
--   </pre>
getRectangleWidth :: MonadIO m => Rectangle -> m Int32

-- | Set the value of the “<tt>width</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> rectangle [ #width <a>:=</a> value ]
--   </pre>
setRectangleWidth :: MonadIO m => Rectangle -> Int32 -> m ()

-- | Get the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> rectangle #x
--   </pre>
getRectangleX :: MonadIO m => Rectangle -> m Int32

-- | Set the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> rectangle [ #x <a>:=</a> value ]
--   </pre>
setRectangleX :: MonadIO m => Rectangle -> Int32 -> m ()

-- | Get the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> rectangle #y
--   </pre>
getRectangleY :: MonadIO m => Rectangle -> m Int32

-- | Set the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> rectangle [ #y <a>:=</a> value ]
--   </pre>
setRectangleY :: MonadIO m => Rectangle -> Int32 -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.Rectangle.Rectangle
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.Rectangle.Rectangle
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Structs.Rectangle.Rectangle
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Structs.Rectangle.Rectangle
instance Data.GI.Base.BasicTypes.GBoxed GI.Gdk.Structs.Rectangle.Rectangle
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Structs.Rectangle.Rectangle)
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.Rectangle.Rectangle tag


-- | A <a>TimeCoord</a> stores a single event in a motion history.
module GI.Gdk.Structs.TimeCoord

-- | Memory-managed wrapper type.
newtype TimeCoord
TimeCoord :: ManagedPtr TimeCoord -> TimeCoord

-- | Construct a <a>TimeCoord</a> struct initialized to zero.
newZeroTimeCoord :: MonadIO m => m TimeCoord

-- | Get the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> timeCoord #time
--   </pre>
getTimeCoordTime :: MonadIO m => TimeCoord -> m Word32

-- | Set the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> timeCoord [ #time <a>:=</a> value ]
--   </pre>
setTimeCoordTime :: MonadIO m => TimeCoord -> Word32 -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.TimeCoord.TimeCoord
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.TimeCoord.TimeCoord
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.TimeCoord.TimeCoord
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.TimeCoord.TimeCoord
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.TimeCoord.TimeCoord tag


-- | <i>No description available in the introspection data.</i>
module GI.Gdk.Structs.WindowRedirect

-- | Memory-managed wrapper type.
newtype WindowRedirect
WindowRedirect :: ManagedPtr WindowRedirect -> WindowRedirect
instance GHC.Classes.Eq GI.Gdk.Structs.WindowRedirect.WindowRedirect
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.WindowRedirect.WindowRedirect
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.WindowRedirect.WindowRedirect


module GI.Gdk.Callbacks

-- | Type for the callback on the (unwrapped) C side.
type C_EventFunc = Ptr Event -> Ptr () -> IO ()

-- | Specifies the type of function passed to <a>eventHandlerSet</a> to
--   handle all GDK events.
type EventFunc = -- | /@event@/: the t'GI.Gdk.Unions.Event.Event' to process. Event -> IO ()

-- | Specifies the type of function passed to <a>eventHandlerSet</a> to
--   handle all GDK events.
type EventFunc_WithClosures = -- | /@event@/: the t'GI.Gdk.Unions.Event.Event' to process. Event -> -- | /@data@/: user data set when the event handler was installed with --   'GI.Gdk.Functions.eventHandlerSet'. Ptr () -> IO ()

-- | A simple wrapper that ignores the closure arguments.
drop_closures_EventFunc :: EventFunc -> EventFunc_WithClosures

-- | Given a pointer to a foreign C function, wrap it into a function
--   callable from Haskell.
dynamic_EventFunc :: (HasCallStack, MonadIO m) => FunPtr C_EventFunc -> Event -> Ptr () -> m ()

-- | Wrap the callback into a <a>GClosure</a>.
genClosure_EventFunc :: MonadIO m => EventFunc -> m (GClosure C_EventFunc)

-- | Generate a function pointer callable from C code, from a
--   <a>C_EventFunc</a>.
mk_EventFunc :: C_EventFunc -> IO (FunPtr C_EventFunc)

-- | A convenience synonym for <tt><a>Nothing</a> :: <a>Maybe</a>
--   <a>EventFunc</a></tt>.
noEventFunc :: Maybe EventFunc

-- | A convenience synonym for <tt><a>Nothing</a> :: <a>Maybe</a>
--   <a>EventFunc_WithClosures</a></tt>.
noEventFunc_WithClosures :: Maybe EventFunc_WithClosures

-- | Wrap a <a>EventFunc</a> into a <a>C_EventFunc</a>.
wrap_EventFunc :: Maybe (Ptr (FunPtr C_EventFunc)) -> EventFunc_WithClosures -> C_EventFunc

-- | Type for the callback on the (unwrapped) C side.
type C_FilterFunc = Ptr () -> Ptr Event -> Ptr () -> IO CUInt

-- | Specifies the type of function used to filter native events before
--   they are converted to GDK events.
--   
--   When a filter is called, <i><tt>event</tt></i> is unpopulated, except
--   for <tt>event-&gt;window</tt>. The filter may translate the native
--   event to a GDK event and store the result in <i><tt>event</tt></i>, or
--   handle it without translation. If the filter translates the event and
--   processing should continue, it should return
--   <a>FilterReturnTranslate</a>.
type FilterFunc = -- | /@xevent@/: the native event to filter. Ptr () -> -- | /@event@/: the GDK event to which the X event will be translated. Event -> -- | __Returns:__ a t'GI.Gdk.Enums.FilterReturn' value. IO FilterReturn

-- | Specifies the type of function used to filter native events before
--   they are converted to GDK events.
--   
--   When a filter is called, <i><tt>event</tt></i> is unpopulated, except
--   for <tt>event-&gt;window</tt>. The filter may translate the native
--   event to a GDK event and store the result in <i><tt>event</tt></i>, or
--   handle it without translation. If the filter translates the event and
--   processing should continue, it should return
--   <a>FilterReturnTranslate</a>.
type FilterFunc_WithClosures = -- | /@xevent@/: the native event to filter. Ptr () -> -- | /@event@/: the GDK event to which the X event will be translated. Event -> -- | /@data@/: user data set when the filter was installed. Ptr () -> -- | __Returns:__ a t'GI.Gdk.Enums.FilterReturn' value. IO FilterReturn

-- | A simple wrapper that ignores the closure arguments.
drop_closures_FilterFunc :: FilterFunc -> FilterFunc_WithClosures

-- | Given a pointer to a foreign C function, wrap it into a function
--   callable from Haskell.
dynamic_FilterFunc :: (HasCallStack, MonadIO m) => FunPtr C_FilterFunc -> Ptr () -> Event -> Ptr () -> m FilterReturn

-- | Wrap the callback into a <a>GClosure</a>.
genClosure_FilterFunc :: MonadIO m => FilterFunc -> m (GClosure C_FilterFunc)

-- | Generate a function pointer callable from C code, from a
--   <a>C_FilterFunc</a>.
mk_FilterFunc :: C_FilterFunc -> IO (FunPtr C_FilterFunc)

-- | A convenience synonym for <tt><a>Nothing</a> :: <a>Maybe</a>
--   <a>FilterFunc</a></tt>.
noFilterFunc :: Maybe FilterFunc

-- | A convenience synonym for <tt><a>Nothing</a> :: <a>Maybe</a>
--   <a>FilterFunc_WithClosures</a></tt>.
noFilterFunc_WithClosures :: Maybe FilterFunc_WithClosures

-- | Wrap a <a>FilterFunc</a> into a <a>C_FilterFunc</a>.
wrap_FilterFunc :: Maybe (Ptr (FunPtr C_FilterFunc)) -> FilterFunc_WithClosures -> C_FilterFunc

-- | Type for the callback on the (unwrapped) C side.
type C_SeatGrabPrepareFunc = Ptr Seat -> Ptr Window -> Ptr () -> IO ()

-- | Type of the callback used to set up <i><tt>window</tt></i> so it can
--   be grabbed. A typical action would be ensuring the window is visible,
--   although there's room for other initialization actions.
--   
--   <i>Since: 3.20</i>
type SeatGrabPrepareFunc = -- | /@seat@/: the t'GI.Gdk.Objects.Seat.Seat' being grabbed Seat -> -- | /@window@/: the t'GI.Gdk.Objects.Window.Window' being grabbed Window -> IO ()

-- | Type of the callback used to set up <i><tt>window</tt></i> so it can
--   be grabbed. A typical action would be ensuring the window is visible,
--   although there's room for other initialization actions.
--   
--   <i>Since: 3.20</i>
type SeatGrabPrepareFunc_WithClosures = -- | /@seat@/: the t'GI.Gdk.Objects.Seat.Seat' being grabbed Seat -> -- | /@window@/: the t'GI.Gdk.Objects.Window.Window' being grabbed Window -> -- | /@userData@/: user data passed in 'GI.Gdk.Objects.Seat.seatGrab' Ptr () -> IO ()

-- | A simple wrapper that ignores the closure arguments.
drop_closures_SeatGrabPrepareFunc :: SeatGrabPrepareFunc -> SeatGrabPrepareFunc_WithClosures

-- | Given a pointer to a foreign C function, wrap it into a function
--   callable from Haskell.
dynamic_SeatGrabPrepareFunc :: (HasCallStack, MonadIO m, IsSeat a, IsWindow b) => FunPtr C_SeatGrabPrepareFunc -> a -> b -> Ptr () -> m ()

-- | Wrap the callback into a <a>GClosure</a>.
genClosure_SeatGrabPrepareFunc :: MonadIO m => SeatGrabPrepareFunc -> m (GClosure C_SeatGrabPrepareFunc)

-- | Generate a function pointer callable from C code, from a
--   <a>C_SeatGrabPrepareFunc</a>.
mk_SeatGrabPrepareFunc :: C_SeatGrabPrepareFunc -> IO (FunPtr C_SeatGrabPrepareFunc)

-- | A convenience synonym for <tt><a>Nothing</a> :: <a>Maybe</a>
--   <a>SeatGrabPrepareFunc</a></tt>.
noSeatGrabPrepareFunc :: Maybe SeatGrabPrepareFunc

-- | A convenience synonym for <tt><a>Nothing</a> :: <a>Maybe</a>
--   <a>SeatGrabPrepareFunc_WithClosures</a></tt>.
noSeatGrabPrepareFunc_WithClosures :: Maybe SeatGrabPrepareFunc_WithClosures

-- | Wrap a <a>SeatGrabPrepareFunc</a> into a <a>C_SeatGrabPrepareFunc</a>.
wrap_SeatGrabPrepareFunc :: Maybe (Ptr (FunPtr C_SeatGrabPrepareFunc)) -> SeatGrabPrepareFunc_WithClosures -> C_SeatGrabPrepareFunc

-- | Type for the callback on the (unwrapped) C side.
type C_WindowChildFunc = Ptr Window -> Ptr () -> IO CInt

-- | A function of this type is passed to
--   <a>windowInvalidateMaybeRecurse</a>. It gets called for each child of
--   the window to determine whether to recursively invalidate it or now.
type WindowChildFunc = -- | /@window@/: a t'GI.Gdk.Objects.Window.Window' Window -> -- | __Returns:__ 'P.True' to invalidate /@window@/ recursively IO Bool

-- | A function of this type is passed to
--   <a>windowInvalidateMaybeRecurse</a>. It gets called for each child of
--   the window to determine whether to recursively invalidate it or now.
type WindowChildFunc_WithClosures = -- | /@window@/: a t'GI.Gdk.Objects.Window.Window' Window -> -- | /@userData@/: user data Ptr () -> -- | __Returns:__ 'P.True' to invalidate /@window@/ recursively IO Bool

-- | A simple wrapper that ignores the closure arguments.
drop_closures_WindowChildFunc :: WindowChildFunc -> WindowChildFunc_WithClosures

-- | Given a pointer to a foreign C function, wrap it into a function
--   callable from Haskell.
dynamic_WindowChildFunc :: (HasCallStack, MonadIO m, IsWindow a) => FunPtr C_WindowChildFunc -> a -> Ptr () -> m Bool

-- | Wrap the callback into a <a>GClosure</a>.
genClosure_WindowChildFunc :: MonadIO m => WindowChildFunc -> m (GClosure C_WindowChildFunc)

-- | Generate a function pointer callable from C code, from a
--   <a>C_WindowChildFunc</a>.
mk_WindowChildFunc :: C_WindowChildFunc -> IO (FunPtr C_WindowChildFunc)

-- | A convenience synonym for <tt><a>Nothing</a> :: <a>Maybe</a>
--   <a>WindowChildFunc</a></tt>.
noWindowChildFunc :: Maybe WindowChildFunc

-- | A convenience synonym for <tt><a>Nothing</a> :: <a>Maybe</a>
--   <a>WindowChildFunc_WithClosures</a></tt>.
noWindowChildFunc_WithClosures :: Maybe WindowChildFunc_WithClosures

-- | Wrap a <a>WindowChildFunc</a> into a <a>C_WindowChildFunc</a>.
wrap_WindowChildFunc :: Maybe (Ptr (FunPtr C_WindowChildFunc)) -> WindowChildFunc_WithClosures -> C_WindowChildFunc

-- | Type for the callback on the (unwrapped) C side.
type C_WindowInvalidateHandlerFunc = Ptr Window -> Ptr Region -> IO ()

-- | Whenever some area of the window is invalidated (directly in the
--   window or in a child window) this gets called with
--   <i><tt>region</tt></i> in the coordinate space of
--   <i><tt>window</tt></i>. You can use <i><tt>region</tt></i> to just
--   keep track of the dirty region, or you can actually change
--   <i><tt>region</tt></i> in case you are doing display tricks like
--   showing a child in multiple places.
--   
--   <i>Since: 3.10</i>
type WindowInvalidateHandlerFunc = -- | /@window@/: a t'GI.Gdk.Objects.Window.Window' Window -> -- | /@region@/: a t'GI.Cairo.Structs.Region.Region' Region -> IO ()

-- | Given a pointer to a foreign C function, wrap it into a function
--   callable from Haskell.
dynamic_WindowInvalidateHandlerFunc :: (HasCallStack, MonadIO m, IsWindow a) => FunPtr C_WindowInvalidateHandlerFunc -> a -> Region -> m ()

-- | Wrap the callback into a <a>GClosure</a>.
genClosure_WindowInvalidateHandlerFunc :: MonadIO m => WindowInvalidateHandlerFunc -> m (GClosure C_WindowInvalidateHandlerFunc)

-- | Generate a function pointer callable from C code, from a
--   <a>C_WindowInvalidateHandlerFunc</a>.
mk_WindowInvalidateHandlerFunc :: C_WindowInvalidateHandlerFunc -> IO (FunPtr C_WindowInvalidateHandlerFunc)

-- | A convenience synonym for <tt><a>Nothing</a> :: <a>Maybe</a>
--   <a>WindowInvalidateHandlerFunc</a></tt>.
noWindowInvalidateHandlerFunc :: Maybe WindowInvalidateHandlerFunc

-- | Wrap a <a>WindowInvalidateHandlerFunc</a> into a
--   <a>C_WindowInvalidateHandlerFunc</a>.
wrap_WindowInvalidateHandlerFunc :: Maybe (Ptr (FunPtr C_WindowInvalidateHandlerFunc)) -> WindowInvalidateHandlerFunc -> C_WindowInvalidateHandlerFunc


-- | A <a>Event</a> contains a union of all of the event types, and allows
--   access to the data fields in a number of ways.
--   
--   The event type is always the first field in all of the event types,
--   and can always be accessed with the following code, no matter what
--   type of event it is:
--   
--   <h3><i>C code</i></h3>
--   
--   <pre>
--   GdkEvent *event;
--   GdkEventType type;
--   
--   type = event-&gt;type;
--   </pre>
--   
--   To access other fields of the event, the pointer to the event can be
--   cast to the appropriate event type, or the union member name can be
--   used. For example if the event type is <a>EventTypeButtonPress</a>
--   then the x coordinate of the button press can be accessed with:
--   
--   <h3><i>C code</i></h3>
--   
--   <pre>
--   GdkEvent *event;
--   gdouble x;
--   
--   x = ((GdkEventButton*)event)-&gt;x;
--   </pre>
--   
--   or:
--   
--   <h3><i>C code</i></h3>
--   
--   <pre>
--   GdkEvent *event;
--   gdouble x;
--   
--   x = event-&gt;button.x;
--   </pre>
module GI.Gdk.Unions.Event

-- | Memory-managed wrapper type.
newtype Event
Event :: ManagedPtr Event -> Event

-- | Construct a <a>Event</a> struct initialized to zero.
newZeroEvent :: MonadIO m => m Event

-- | Copies a <a>Event</a>, copying or incrementing the reference count of
--   the resources associated with it (e.g. <a>Window</a>’s and strings).
eventCopy :: (HasCallStack, MonadIO m) => Event -> m Event

-- | Frees a <a>Event</a>, freeing or decrementing any resources associated
--   with it. Note that this function should only be called with events
--   returned from functions such as <a>eventPeek</a>, <a>eventGet</a>,
--   <a>eventCopy</a> and <a>eventNew</a>.
eventFree :: (HasCallStack, MonadIO m) => Event -> m ()

-- | Checks all open displays for a <a>Event</a> to process,to be processed
--   on, fetching events from the windowing system if necessary. See
--   <a>displayGetEvent</a>.
eventGet :: (HasCallStack, MonadIO m) => m (Maybe Event)

-- | Extract the axis value for a particular axis use from an event
--   structure.
eventGetAxis :: (HasCallStack, MonadIO m) => Event -> AxisUse -> m (Bool, Double)

-- | Extract the button number from an event.
--   
--   <i>Since: 3.2</i>
eventGetButton :: (HasCallStack, MonadIO m) => Event -> m (Bool, Word32)

-- | Extracts the click count from an event.
--   
--   <i>Since: 3.2</i>
eventGetClickCount :: (HasCallStack, MonadIO m) => Event -> m (Bool, Word32)

-- | Extract the event window relative x/y coordinates from an event.
eventGetCoords :: (HasCallStack, MonadIO m) => Event -> m (Bool, Double, Double)

-- | If the event contains a “device” field, this function will return it,
--   else it will return <a>Nothing</a>.
--   
--   <i>Since: 3.0</i>
eventGetDevice :: (HasCallStack, MonadIO m) => Event -> m (Maybe Device)

-- | If the event was generated by a device that supports different tools
--   (eg. a tablet), this function will return a <a>DeviceTool</a>
--   representing the tool that caused the event. Otherwise, <a>Nothing</a>
--   will be returned.
--   
--   Note: the <a>DeviceTool</a>s will be constant during the application
--   lifetime, if settings must be stored persistently across runs, see
--   <a>deviceToolGetSerial</a>
--   
--   <i>Since: 3.22</i>
eventGetDeviceTool :: (HasCallStack, MonadIO m) => Event -> m DeviceTool

-- | If <i><tt>event</tt></i> if of type <a>EventTypeTouchBegin</a>,
--   <a>EventTypeTouchUpdate</a>, <a>EventTypeTouchEnd</a> or
--   <a>EventTypeTouchCancel</a>, returns the <a>EventSequence</a> to which
--   the event belongs. Otherwise, return <a>Nothing</a>.
--   
--   <i>Since: 3.4</i>
eventGetEventSequence :: (HasCallStack, MonadIO m) => Event -> m EventSequence

-- | Retrieves the type of the event.
--   
--   <i>Since: 3.10</i>
eventGetEventType :: (HasCallStack, MonadIO m) => Event -> m EventType

-- | Extracts the hardware keycode from an event.
--   
--   Also see <a>eventGetScancode</a>.
--   
--   <i>Since: 3.2</i>
eventGetKeycode :: (HasCallStack, MonadIO m) => Event -> m (Bool, Word16)

-- | Extracts the keyval from an event.
--   
--   <i>Since: 3.2</i>
eventGetKeyval :: (HasCallStack, MonadIO m) => Event -> m (Bool, Word32)

-- | <tt><i>event</i></tt>: a <a>Event</a> Returns whether this event is an
--   'emulated' pointer event (typically from a touch event), as opposed to
--   a real one.
--   
--   <i>Since: 3.22</i>
eventGetPointerEmulated :: (HasCallStack, MonadIO m) => Event -> m Bool

-- | Extract the root window relative x/y coordinates from an event.
eventGetRootCoords :: (HasCallStack, MonadIO m) => Event -> m (Bool, Double, Double)

-- | Gets the keyboard low-level scancode of a key event.
--   
--   This is usually hardware_keycode. On Windows this is the high word of
--   WM_KEY{DOWN,UP} lParam which contains the scancode and some extended
--   flags.
--   
--   <i>Since: 3.22</i>
eventGetScancode :: (HasCallStack, MonadIO m) => Event -> m Int32

-- | Returns the screen for the event. The screen is typically the screen
--   for <tt>event-&gt;any.window</tt>, but for events such as mouse
--   events, it is the screen where the pointer was when the event occurs -
--   that is, the screen which has the root window to which
--   <tt>event-&gt;motion.x_root</tt> and <tt>event-&gt;motion.y_root</tt>
--   are relative.
--   
--   <i>Since: 2.2</i>
eventGetScreen :: (HasCallStack, MonadIO m) => Event -> m Screen

-- | Retrieves the scroll deltas from a <a>Event</a>
--   
--   See also: <a>eventGetScrollDirection</a>
--   
--   <i>Since: 3.4</i>
eventGetScrollDeltas :: (HasCallStack, MonadIO m) => Event -> m (Bool, Double, Double)

-- | Extracts the scroll direction from an event.
--   
--   If <i><tt>event</tt></i> is not of type <a>EventTypeScroll</a>, the
--   contents of <i><tt>direction</tt></i> are undefined.
--   
--   If you wish to handle both discrete and smooth scrolling, you should
--   check the return value of this function, or of
--   <a>eventGetScrollDeltas</a>; for instance:
--   
--   <h3><i>C code</i></h3>
--   
--   <pre>
--   GdkScrollDirection direction;
--   double vscroll_factor = 0.0;
--   double x_scroll, y_scroll;
--   
--   if (gdk_event_get_scroll_direction (event, &amp;direction))
--     {
--       // Handle discrete scrolling with a known constant delta;
--       const double delta = 12.0;
--   
--       switch (direction)
--         {
--         case GDK_SCROLL_UP:
--           vscroll_factor = -delta;
--           break;
--         case GDK_SCROLL_DOWN:
--           vscroll_factor = delta;
--           break;
--         default:
--           // no scrolling
--           break;
--         }
--     }
--   else if (gdk_event_get_scroll_deltas (event, &amp;x_scroll, &amp;y_scroll))
--     {
--       // Handle smooth scrolling directly
--       vscroll_factor = y_scroll;
--     }
--   </pre>
--   
--   <i>Since: 3.2</i>
eventGetScrollDirection :: (HasCallStack, MonadIO m) => Event -> m (Bool, ScrollDirection)

-- | Returns the <a>Seat</a> this event was generated for.
--   
--   <i>Since: 3.20</i>
eventGetSeat :: (HasCallStack, MonadIO m) => Event -> m Seat

-- | This function returns the hardware (slave) <a>Device</a> that has
--   triggered the event, falling back to the virtual (master) device (as
--   in <a>eventGetDevice</a>) if the event wasn’t caused by interaction
--   with a hardware device. This may happen for example in synthesized
--   crossing events after a <a>Window</a> updates its geometry or a grab
--   is acquired/released.
--   
--   If the event does not contain a device field, this function will
--   return <a>Nothing</a>.
--   
--   <i>Since: 3.0</i>
eventGetSourceDevice :: (HasCallStack, MonadIO m) => Event -> m (Maybe Device)

-- | If the event contains a “state” field, puts that field in
--   <i><tt>state</tt></i>. Otherwise stores an empty state (0). Returns
--   <a>True</a> if there was a state field in the event.
--   <i><tt>event</tt></i> may be <a>Nothing</a>, in which case it’s
--   treated as if the event had no state field.
eventGetState :: (HasCallStack, MonadIO m) => Maybe Event -> m (Bool, [ModifierType])

-- | Returns the time stamp from <i><tt>event</tt></i>, if there is one;
--   otherwise returns <a>CURRENT_TIME</a>. If <i><tt>event</tt></i> is
--   <a>Nothing</a>, returns <a>CURRENT_TIME</a>.
eventGetTime :: (HasCallStack, MonadIO m) => Event -> m Word32

-- | Extracts the <a>Window</a> associated with an event.
--   
--   <i>Since: 3.10</i>
eventGetWindow :: (HasCallStack, MonadIO m) => Event -> m Window

-- | Sets the function to call to handle all events from GDK.
--   
--   Note that GTK+ uses this to install its own event handler, so it is
--   usually not useful for GTK+ applications. (Although an application can
--   call this function then call <tt><i>gtk_main_do_event()</i></tt> to
--   pass events to GTK+.)
eventHandlerSet :: (HasCallStack, MonadIO m) => EventFunc -> m ()

-- | Check whether a scroll event is a stop scroll event. Scroll sequences
--   with smooth scroll information may provide a stop scroll event once
--   the interaction with the device finishes, e.g. by lifting a finger.
--   This stop scroll event is the signal that a widget may trigger kinetic
--   scrolling based on the current velocity.
--   
--   Stop scroll events always have a a delta of 0/0.
--   
--   <i>Since: 3.20</i>
eventIsScrollStopEvent :: (HasCallStack, MonadIO m) => Event -> m Bool

-- | Creates a new event of the given type. All fields are set to 0.
--   
--   <i>Since: 2.2</i>
eventNew :: (HasCallStack, MonadIO m) => EventType -> m Event

-- | If there is an event waiting in the event queue of some open display,
--   returns a copy of it. See <a>displayPeekEvent</a>.
eventPeek :: (HasCallStack, MonadIO m) => m (Maybe Event)

-- | Appends a copy of the given event onto the front of the event queue
--   for event-&gt;any.window’s display, or the default event queue if
--   event-&gt;any.window is <a>Nothing</a>. See <a>displayPutEvent</a>.
eventPut :: (HasCallStack, MonadIO m) => Event -> m ()

-- | Request more motion notifies if <i><tt>event</tt></i> is a motion
--   notify hint event.
--   
--   This function should be used instead of <a>windowGetPointer</a> to
--   request further motion notifies, because it also works for extension
--   events where motion notifies are provided for devices other than the
--   core pointer. Coordinate extraction, processing and requesting more
--   motion events from a <a>EventTypeMotionNotify</a> event usually works
--   like this:
--   
--   <h3><i>C code</i></h3>
--   
--   <pre>
--   {
--     // motion_event handler
--     x = motion_event-&gt;x;
--     y = motion_event-&gt;y;
--     // handle (x,y) motion
--     gdk_event_request_motions (motion_event); // handles is_hint events
--   }
--   </pre>
--   
--   <i>Since: 2.12</i>
eventRequestMotions :: (HasCallStack, MonadIO m) => EventMotion -> m ()

-- | Sets the device for <i><tt>event</tt></i> to <i><tt>device</tt></i>.
--   The event must have been allocated by GTK+, for instance, by
--   <a>eventCopy</a>.
--   
--   <i>Since: 3.0</i>
eventSetDevice :: (HasCallStack, MonadIO m, IsDevice a) => Event -> a -> m ()

-- | Sets the device tool for this event, should be rarely used.
--   
--   <i>Since: 3.22</i>
eventSetDeviceTool :: (HasCallStack, MonadIO m, IsDeviceTool a) => Event -> Maybe a -> m ()

-- | Sets the screen for <i><tt>event</tt></i> to <i><tt>screen</tt></i>.
--   The event must have been allocated by GTK+, for instance, by
--   <a>eventCopy</a>.
--   
--   <i>Since: 2.2</i>
eventSetScreen :: (HasCallStack, MonadIO m, IsScreen a) => Event -> a -> m ()

-- | Sets the slave device for <i><tt>event</tt></i> to
--   <i><tt>device</tt></i>.
--   
--   The event must have been allocated by GTK+, for instance by
--   <a>eventCopy</a>.
--   
--   <i>Since: 3.0</i>
eventSetSourceDevice :: (HasCallStack, MonadIO m, IsDevice a) => Event -> a -> m ()

-- | This function returns whether a <a>EventButton</a> should trigger a
--   context menu, according to platform conventions. The right mouse
--   button always triggers context menus. Additionally, if
--   <a>keymapGetModifierMask</a> returns a non-0 mask for
--   <a>ModifierIntentContextMenu</a>, then the left mouse button will also
--   trigger a context menu if this modifier is pressed.
--   
--   This function should always be used instead of simply checking for
--   event-&gt;button == <a>BUTTON_SECONDARY</a>.
--   
--   <i>Since: 3.4</i>
eventTriggersContextMenu :: (HasCallStack, MonadIO m) => Event -> m Bool

-- | Get the value of the “<tt>any</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #any
--   </pre>
getEventAny :: MonadIO m => Event -> m EventAny

-- | Get the value of the “<tt>button</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #button
--   </pre>
getEventButton :: MonadIO m => Event -> m EventButton

-- | Get the value of the “<tt>configure</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #configure
--   </pre>
getEventConfigure :: MonadIO m => Event -> m EventConfigure

-- | Get the value of the “<tt>crossing</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #crossing
--   </pre>
getEventCrossing :: MonadIO m => Event -> m EventCrossing

-- | Get the value of the “<tt>dnd</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #dnd
--   </pre>
getEventDnd :: MonadIO m => Event -> m EventDND

-- | Get the value of the “<tt>expose</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #expose
--   </pre>
getEventExpose :: MonadIO m => Event -> m EventExpose

-- | Get the value of the “<tt>focus_change</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #focusChange
--   </pre>
getEventFocusChange :: MonadIO m => Event -> m EventFocus

-- | Get the value of the “<tt>grab_broken</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #grabBroken
--   </pre>
getEventGrabBroken :: MonadIO m => Event -> m EventGrabBroken

-- | Get the value of the “<tt>key</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #key
--   </pre>
getEventKey :: MonadIO m => Event -> m EventKey

-- | Get the value of the “<tt>motion</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #motion
--   </pre>
getEventMotion :: MonadIO m => Event -> m EventMotion

-- | Get the value of the “<tt>owner_change</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #ownerChange
--   </pre>
getEventOwnerChange :: MonadIO m => Event -> m EventOwnerChange

-- | Get the value of the “<tt>pad_axis</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #padAxis
--   </pre>
getEventPadAxis :: MonadIO m => Event -> m EventPadAxis

-- | Get the value of the “<tt>pad_button</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #padButton
--   </pre>
getEventPadButton :: MonadIO m => Event -> m EventPadButton

-- | Get the value of the “<tt>pad_group_mode</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #padGroupMode
--   </pre>
getEventPadGroupMode :: MonadIO m => Event -> m EventPadGroupMode

-- | Get the value of the “<tt>property</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #property
--   </pre>
getEventProperty :: MonadIO m => Event -> m EventProperty

-- | Get the value of the “<tt>proximity</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #proximity
--   </pre>
getEventProximity :: MonadIO m => Event -> m EventProximity

-- | Get the value of the “<tt>scroll</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #scroll
--   </pre>
getEventScroll :: MonadIO m => Event -> m EventScroll

-- | Get the value of the “<tt>selection</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #selection
--   </pre>
getEventSelection :: MonadIO m => Event -> m EventSelection

-- | Get the value of the “<tt>setting</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #setting
--   </pre>
getEventSetting :: MonadIO m => Event -> m EventSetting

-- | Get the value of the “<tt>touch</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #touch
--   </pre>
getEventTouch :: MonadIO m => Event -> m EventTouch

-- | Get the value of the “<tt>touchpad_pinch</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #touchpadPinch
--   </pre>
getEventTouchpadPinch :: MonadIO m => Event -> m EventTouchpadPinch

-- | Get the value of the “<tt>touchpad_swipe</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #touchpadSwipe
--   </pre>
getEventTouchpadSwipe :: MonadIO m => Event -> m EventTouchpadSwipe

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #type
--   </pre>
getEventType :: MonadIO m => Event -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> event [ #type <a>:=</a> value ]
--   </pre>
setEventType :: MonadIO m => Event -> EventType -> m ()

-- | Get the value of the “<tt>visibility</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #visibility
--   </pre>
getEventVisibility :: MonadIO m => Event -> m EventVisibility

-- | Get the value of the “<tt>window_state</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> event #windowState
--   </pre>
getEventWindowState :: MonadIO m => Event -> m EventWindowState
instance GHC.Classes.Eq GI.Gdk.Unions.Event.Event
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Unions.Event.Event
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Unions.Event.Event
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Unions.Event.Event
instance Data.GI.Base.BasicTypes.GBoxed GI.Gdk.Unions.Event.Event
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Unions.Event.Event)
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Unions.Event.Event tag


module GI.Gdk.Unions


-- | Attributes to use for a newly-created window.
module GI.Gdk.Structs.WindowAttr

-- | Memory-managed wrapper type.
newtype WindowAttr
WindowAttr :: ManagedPtr WindowAttr -> WindowAttr

-- | Construct a <a>WindowAttr</a> struct initialized to zero.
newZeroWindowAttr :: MonadIO m => m WindowAttr

-- | Set the value of the “<tt>cursor</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #cursor
--   </pre>
clearWindowAttrCursor :: MonadIO m => WindowAttr -> m ()

-- | Get the value of the “<tt>cursor</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> windowAttr #cursor
--   </pre>
getWindowAttrCursor :: MonadIO m => WindowAttr -> m (Maybe Cursor)

-- | Set the value of the “<tt>cursor</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> windowAttr [ #cursor <a>:=</a> value ]
--   </pre>
setWindowAttrCursor :: MonadIO m => WindowAttr -> Ptr Cursor -> m ()

-- | Get the value of the “<tt>event_mask</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> windowAttr #eventMask
--   </pre>
getWindowAttrEventMask :: MonadIO m => WindowAttr -> m Int32

-- | Set the value of the “<tt>event_mask</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> windowAttr [ #eventMask <a>:=</a> value ]
--   </pre>
setWindowAttrEventMask :: MonadIO m => WindowAttr -> Int32 -> m ()

-- | Get the value of the “<tt>height</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> windowAttr #height
--   </pre>
getWindowAttrHeight :: MonadIO m => WindowAttr -> m Int32

-- | Set the value of the “<tt>height</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> windowAttr [ #height <a>:=</a> value ]
--   </pre>
setWindowAttrHeight :: MonadIO m => WindowAttr -> Int32 -> m ()

-- | Get the value of the “<tt>override_redirect</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> windowAttr #overrideRedirect
--   </pre>
getWindowAttrOverrideRedirect :: MonadIO m => WindowAttr -> m Bool

-- | Set the value of the “<tt>override_redirect</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> windowAttr [ #overrideRedirect <a>:=</a> value ]
--   </pre>
setWindowAttrOverrideRedirect :: MonadIO m => WindowAttr -> Bool -> m ()

-- | Set the value of the “<tt>title</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #title
--   </pre>
clearWindowAttrTitle :: MonadIO m => WindowAttr -> m ()

-- | Get the value of the “<tt>title</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> windowAttr #title
--   </pre>
getWindowAttrTitle :: MonadIO m => WindowAttr -> m (Maybe Text)

-- | Set the value of the “<tt>title</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> windowAttr [ #title <a>:=</a> value ]
--   </pre>
setWindowAttrTitle :: MonadIO m => WindowAttr -> CString -> m ()

-- | Get the value of the “<tt>type_hint</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> windowAttr #typeHint
--   </pre>
getWindowAttrTypeHint :: MonadIO m => WindowAttr -> m WindowTypeHint

-- | Set the value of the “<tt>type_hint</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> windowAttr [ #typeHint <a>:=</a> value ]
--   </pre>
setWindowAttrTypeHint :: MonadIO m => WindowAttr -> WindowTypeHint -> m ()

-- | Set the value of the “<tt>visual</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #visual
--   </pre>
clearWindowAttrVisual :: MonadIO m => WindowAttr -> m ()

-- | Get the value of the “<tt>visual</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> windowAttr #visual
--   </pre>
getWindowAttrVisual :: MonadIO m => WindowAttr -> m (Maybe Visual)

-- | Set the value of the “<tt>visual</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> windowAttr [ #visual <a>:=</a> value ]
--   </pre>
setWindowAttrVisual :: MonadIO m => WindowAttr -> Ptr Visual -> m ()

-- | Get the value of the “<tt>wclass</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> windowAttr #wclass
--   </pre>
getWindowAttrWclass :: MonadIO m => WindowAttr -> m WindowWindowClass

-- | Set the value of the “<tt>wclass</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> windowAttr [ #wclass <a>:=</a> value ]
--   </pre>
setWindowAttrWclass :: MonadIO m => WindowAttr -> WindowWindowClass -> m ()

-- | Get the value of the “<tt>width</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> windowAttr #width
--   </pre>
getWindowAttrWidth :: MonadIO m => WindowAttr -> m Int32

-- | Set the value of the “<tt>width</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> windowAttr [ #width <a>:=</a> value ]
--   </pre>
setWindowAttrWidth :: MonadIO m => WindowAttr -> Int32 -> m ()

-- | Get the value of the “<tt>window_type</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> windowAttr #windowType
--   </pre>
getWindowAttrWindowType :: MonadIO m => WindowAttr -> m WindowType

-- | Set the value of the “<tt>window_type</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> windowAttr [ #windowType <a>:=</a> value ]
--   </pre>
setWindowAttrWindowType :: MonadIO m => WindowAttr -> WindowType -> m ()

-- | Set the value of the “<tt>wmclass_class</tt>” field to <a>Nothing</a>.
--   When <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #wmclassClass
--   </pre>
clearWindowAttrWmclassClass :: MonadIO m => WindowAttr -> m ()

-- | Get the value of the “<tt>wmclass_class</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> windowAttr #wmclassClass
--   </pre>
getWindowAttrWmclassClass :: MonadIO m => WindowAttr -> m (Maybe Text)

-- | Set the value of the “<tt>wmclass_class</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> windowAttr [ #wmclassClass <a>:=</a> value ]
--   </pre>
setWindowAttrWmclassClass :: MonadIO m => WindowAttr -> CString -> m ()

-- | Set the value of the “<tt>wmclass_name</tt>” field to <a>Nothing</a>.
--   When <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #wmclassName
--   </pre>
clearWindowAttrWmclassName :: MonadIO m => WindowAttr -> m ()

-- | Get the value of the “<tt>wmclass_name</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> windowAttr #wmclassName
--   </pre>
getWindowAttrWmclassName :: MonadIO m => WindowAttr -> m (Maybe Text)

-- | Set the value of the “<tt>wmclass_name</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> windowAttr [ #wmclassName <a>:=</a> value ]
--   </pre>
setWindowAttrWmclassName :: MonadIO m => WindowAttr -> CString -> m ()

-- | Get the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> windowAttr #x
--   </pre>
getWindowAttrX :: MonadIO m => WindowAttr -> m Int32

-- | Set the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> windowAttr [ #x <a>:=</a> value ]
--   </pre>
setWindowAttrX :: MonadIO m => WindowAttr -> Int32 -> m ()

-- | Get the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> windowAttr #y
--   </pre>
getWindowAttrY :: MonadIO m => WindowAttr -> m Int32

-- | Set the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> windowAttr [ #y <a>:=</a> value ]
--   </pre>
setWindowAttrY :: MonadIO m => WindowAttr -> Int32 -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.WindowAttr.WindowAttr
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.WindowAttr.WindowAttr
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.WindowAttr.WindowAttr
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.WindowAttr.WindowAttr
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.WindowAttr.WindowAttr tag


-- | Generated when the state of a toplevel window changes.
module GI.Gdk.Structs.EventWindowState

-- | Memory-managed wrapper type.
newtype EventWindowState
EventWindowState :: ManagedPtr EventWindowState -> EventWindowState

-- | Construct a <a>EventWindowState</a> struct initialized to zero.
newZeroEventWindowState :: MonadIO m => m EventWindowState

-- | Get the value of the “<tt>changed_mask</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventWindowState #changedMask
--   </pre>
getEventWindowStateChangedMask :: MonadIO m => EventWindowState -> m [WindowState]

-- | Set the value of the “<tt>changed_mask</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventWindowState [ #changedMask <a>:=</a> value ]
--   </pre>
setEventWindowStateChangedMask :: MonadIO m => EventWindowState -> [WindowState] -> m ()

-- | Get the value of the “<tt>new_window_state</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventWindowState #newWindowState
--   </pre>
getEventWindowStateNewWindowState :: MonadIO m => EventWindowState -> m [WindowState]

-- | Set the value of the “<tt>new_window_state</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventWindowState [ #newWindowState <a>:=</a> value ]
--   </pre>
setEventWindowStateNewWindowState :: MonadIO m => EventWindowState -> [WindowState] -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventWindowState #sendEvent
--   </pre>
getEventWindowStateSendEvent :: MonadIO m => EventWindowState -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventWindowState [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventWindowStateSendEvent :: MonadIO m => EventWindowState -> Int8 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventWindowState #type
--   </pre>
getEventWindowStateType :: MonadIO m => EventWindowState -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventWindowState [ #type <a>:=</a> value ]
--   </pre>
setEventWindowStateType :: MonadIO m => EventWindowState -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventWindowStateWindow :: MonadIO m => EventWindowState -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventWindowState #window
--   </pre>
getEventWindowStateWindow :: MonadIO m => EventWindowState -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventWindowState [ #window <a>:=</a> value ]
--   </pre>
setEventWindowStateWindow :: MonadIO m => EventWindowState -> Ptr Window -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventWindowState.EventWindowState
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventWindowState.EventWindowState
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventWindowState.EventWindowState
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventWindowState.EventWindowState
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventWindowState.EventWindowState tag


-- | Generated when the window visibility status has changed.
module GI.Gdk.Structs.EventVisibility

-- | Memory-managed wrapper type.
newtype EventVisibility
EventVisibility :: ManagedPtr EventVisibility -> EventVisibility

-- | Construct a <a>EventVisibility</a> struct initialized to zero.
newZeroEventVisibility :: MonadIO m => m EventVisibility

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventVisibility #sendEvent
--   </pre>
getEventVisibilitySendEvent :: MonadIO m => EventVisibility -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventVisibility [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventVisibilitySendEvent :: MonadIO m => EventVisibility -> Int8 -> m ()

-- | Get the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventVisibility #state
--   </pre>
getEventVisibilityState :: MonadIO m => EventVisibility -> m VisibilityState

-- | Set the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventVisibility [ #state <a>:=</a> value ]
--   </pre>
setEventVisibilityState :: MonadIO m => EventVisibility -> VisibilityState -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventVisibility #type
--   </pre>
getEventVisibilityType :: MonadIO m => EventVisibility -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventVisibility [ #type <a>:=</a> value ]
--   </pre>
setEventVisibilityType :: MonadIO m => EventVisibility -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventVisibilityWindow :: MonadIO m => EventVisibility -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventVisibility #window
--   </pre>
getEventVisibilityWindow :: MonadIO m => EventVisibility -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventVisibility [ #window <a>:=</a> value ]
--   </pre>
setEventVisibilityWindow :: MonadIO m => EventVisibility -> Ptr Window -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventVisibility.EventVisibility
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventVisibility.EventVisibility
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventVisibility.EventVisibility
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventVisibility.EventVisibility
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventVisibility.EventVisibility tag


-- | Generated during touchpad swipe gestures.
module GI.Gdk.Structs.EventTouchpadSwipe

-- | Memory-managed wrapper type.
newtype EventTouchpadSwipe
EventTouchpadSwipe :: ManagedPtr EventTouchpadSwipe -> EventTouchpadSwipe

-- | Construct a <a>EventTouchpadSwipe</a> struct initialized to zero.
newZeroEventTouchpadSwipe :: MonadIO m => m EventTouchpadSwipe

-- | Get the value of the “<tt>dx</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadSwipe #dx
--   </pre>
getEventTouchpadSwipeDx :: MonadIO m => EventTouchpadSwipe -> m Double

-- | Set the value of the “<tt>dx</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadSwipe [ #dx <a>:=</a> value ]
--   </pre>
setEventTouchpadSwipeDx :: MonadIO m => EventTouchpadSwipe -> Double -> m ()

-- | Get the value of the “<tt>dy</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadSwipe #dy
--   </pre>
getEventTouchpadSwipeDy :: MonadIO m => EventTouchpadSwipe -> m Double

-- | Set the value of the “<tt>dy</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadSwipe [ #dy <a>:=</a> value ]
--   </pre>
setEventTouchpadSwipeDy :: MonadIO m => EventTouchpadSwipe -> Double -> m ()

-- | Get the value of the “<tt>n_fingers</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadSwipe #nFingers
--   </pre>
getEventTouchpadSwipeNFingers :: MonadIO m => EventTouchpadSwipe -> m Int8

-- | Set the value of the “<tt>n_fingers</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadSwipe [ #nFingers <a>:=</a> value ]
--   </pre>
setEventTouchpadSwipeNFingers :: MonadIO m => EventTouchpadSwipe -> Int8 -> m ()

-- | Get the value of the “<tt>phase</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadSwipe #phase
--   </pre>
getEventTouchpadSwipePhase :: MonadIO m => EventTouchpadSwipe -> m Int8

-- | Set the value of the “<tt>phase</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadSwipe [ #phase <a>:=</a> value ]
--   </pre>
setEventTouchpadSwipePhase :: MonadIO m => EventTouchpadSwipe -> Int8 -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadSwipe #sendEvent
--   </pre>
getEventTouchpadSwipeSendEvent :: MonadIO m => EventTouchpadSwipe -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadSwipe [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventTouchpadSwipeSendEvent :: MonadIO m => EventTouchpadSwipe -> Int8 -> m ()

-- | Get the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadSwipe #state
--   </pre>
getEventTouchpadSwipeState :: MonadIO m => EventTouchpadSwipe -> m [ModifierType]

-- | Set the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadSwipe [ #state <a>:=</a> value ]
--   </pre>
setEventTouchpadSwipeState :: MonadIO m => EventTouchpadSwipe -> [ModifierType] -> m ()

-- | Get the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadSwipe #time
--   </pre>
getEventTouchpadSwipeTime :: MonadIO m => EventTouchpadSwipe -> m Word32

-- | Set the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadSwipe [ #time <a>:=</a> value ]
--   </pre>
setEventTouchpadSwipeTime :: MonadIO m => EventTouchpadSwipe -> Word32 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadSwipe #type
--   </pre>
getEventTouchpadSwipeType :: MonadIO m => EventTouchpadSwipe -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadSwipe [ #type <a>:=</a> value ]
--   </pre>
setEventTouchpadSwipeType :: MonadIO m => EventTouchpadSwipe -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventTouchpadSwipeWindow :: MonadIO m => EventTouchpadSwipe -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadSwipe #window
--   </pre>
getEventTouchpadSwipeWindow :: MonadIO m => EventTouchpadSwipe -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadSwipe [ #window <a>:=</a> value ]
--   </pre>
setEventTouchpadSwipeWindow :: MonadIO m => EventTouchpadSwipe -> Ptr Window -> m ()

-- | Get the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadSwipe #x
--   </pre>
getEventTouchpadSwipeX :: MonadIO m => EventTouchpadSwipe -> m Double

-- | Set the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadSwipe [ #x <a>:=</a> value ]
--   </pre>
setEventTouchpadSwipeX :: MonadIO m => EventTouchpadSwipe -> Double -> m ()

-- | Get the value of the “<tt>x_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadSwipe #xRoot
--   </pre>
getEventTouchpadSwipeXRoot :: MonadIO m => EventTouchpadSwipe -> m Double

-- | Set the value of the “<tt>x_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadSwipe [ #xRoot <a>:=</a> value ]
--   </pre>
setEventTouchpadSwipeXRoot :: MonadIO m => EventTouchpadSwipe -> Double -> m ()

-- | Get the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadSwipe #y
--   </pre>
getEventTouchpadSwipeY :: MonadIO m => EventTouchpadSwipe -> m Double

-- | Set the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadSwipe [ #y <a>:=</a> value ]
--   </pre>
setEventTouchpadSwipeY :: MonadIO m => EventTouchpadSwipe -> Double -> m ()

-- | Get the value of the “<tt>y_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadSwipe #yRoot
--   </pre>
getEventTouchpadSwipeYRoot :: MonadIO m => EventTouchpadSwipe -> m Double

-- | Set the value of the “<tt>y_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadSwipe [ #yRoot <a>:=</a> value ]
--   </pre>
setEventTouchpadSwipeYRoot :: MonadIO m => EventTouchpadSwipe -> Double -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventTouchpadSwipe.EventTouchpadSwipe
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventTouchpadSwipe.EventTouchpadSwipe
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventTouchpadSwipe.EventTouchpadSwipe
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventTouchpadSwipe.EventTouchpadSwipe
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventTouchpadSwipe.EventTouchpadSwipe tag


-- | Generated during touchpad swipe gestures.
module GI.Gdk.Structs.EventTouchpadPinch

-- | Memory-managed wrapper type.
newtype EventTouchpadPinch
EventTouchpadPinch :: ManagedPtr EventTouchpadPinch -> EventTouchpadPinch

-- | Construct a <a>EventTouchpadPinch</a> struct initialized to zero.
newZeroEventTouchpadPinch :: MonadIO m => m EventTouchpadPinch

-- | Get the value of the “<tt>angle_delta</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadPinch #angleDelta
--   </pre>
getEventTouchpadPinchAngleDelta :: MonadIO m => EventTouchpadPinch -> m Double

-- | Set the value of the “<tt>angle_delta</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadPinch [ #angleDelta <a>:=</a> value ]
--   </pre>
setEventTouchpadPinchAngleDelta :: MonadIO m => EventTouchpadPinch -> Double -> m ()

-- | Get the value of the “<tt>dx</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadPinch #dx
--   </pre>
getEventTouchpadPinchDx :: MonadIO m => EventTouchpadPinch -> m Double

-- | Set the value of the “<tt>dx</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadPinch [ #dx <a>:=</a> value ]
--   </pre>
setEventTouchpadPinchDx :: MonadIO m => EventTouchpadPinch -> Double -> m ()

-- | Get the value of the “<tt>dy</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadPinch #dy
--   </pre>
getEventTouchpadPinchDy :: MonadIO m => EventTouchpadPinch -> m Double

-- | Set the value of the “<tt>dy</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadPinch [ #dy <a>:=</a> value ]
--   </pre>
setEventTouchpadPinchDy :: MonadIO m => EventTouchpadPinch -> Double -> m ()

-- | Get the value of the “<tt>n_fingers</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadPinch #nFingers
--   </pre>
getEventTouchpadPinchNFingers :: MonadIO m => EventTouchpadPinch -> m Int8

-- | Set the value of the “<tt>n_fingers</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadPinch [ #nFingers <a>:=</a> value ]
--   </pre>
setEventTouchpadPinchNFingers :: MonadIO m => EventTouchpadPinch -> Int8 -> m ()

-- | Get the value of the “<tt>phase</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadPinch #phase
--   </pre>
getEventTouchpadPinchPhase :: MonadIO m => EventTouchpadPinch -> m Int8

-- | Set the value of the “<tt>phase</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadPinch [ #phase <a>:=</a> value ]
--   </pre>
setEventTouchpadPinchPhase :: MonadIO m => EventTouchpadPinch -> Int8 -> m ()

-- | Get the value of the “<tt>scale</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadPinch #scale
--   </pre>
getEventTouchpadPinchScale :: MonadIO m => EventTouchpadPinch -> m Double

-- | Set the value of the “<tt>scale</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadPinch [ #scale <a>:=</a> value ]
--   </pre>
setEventTouchpadPinchScale :: MonadIO m => EventTouchpadPinch -> Double -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadPinch #sendEvent
--   </pre>
getEventTouchpadPinchSendEvent :: MonadIO m => EventTouchpadPinch -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadPinch [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventTouchpadPinchSendEvent :: MonadIO m => EventTouchpadPinch -> Int8 -> m ()

-- | Get the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadPinch #state
--   </pre>
getEventTouchpadPinchState :: MonadIO m => EventTouchpadPinch -> m [ModifierType]

-- | Set the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadPinch [ #state <a>:=</a> value ]
--   </pre>
setEventTouchpadPinchState :: MonadIO m => EventTouchpadPinch -> [ModifierType] -> m ()

-- | Get the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadPinch #time
--   </pre>
getEventTouchpadPinchTime :: MonadIO m => EventTouchpadPinch -> m Word32

-- | Set the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadPinch [ #time <a>:=</a> value ]
--   </pre>
setEventTouchpadPinchTime :: MonadIO m => EventTouchpadPinch -> Word32 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadPinch #type
--   </pre>
getEventTouchpadPinchType :: MonadIO m => EventTouchpadPinch -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadPinch [ #type <a>:=</a> value ]
--   </pre>
setEventTouchpadPinchType :: MonadIO m => EventTouchpadPinch -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventTouchpadPinchWindow :: MonadIO m => EventTouchpadPinch -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadPinch #window
--   </pre>
getEventTouchpadPinchWindow :: MonadIO m => EventTouchpadPinch -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadPinch [ #window <a>:=</a> value ]
--   </pre>
setEventTouchpadPinchWindow :: MonadIO m => EventTouchpadPinch -> Ptr Window -> m ()

-- | Get the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadPinch #x
--   </pre>
getEventTouchpadPinchX :: MonadIO m => EventTouchpadPinch -> m Double

-- | Set the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadPinch [ #x <a>:=</a> value ]
--   </pre>
setEventTouchpadPinchX :: MonadIO m => EventTouchpadPinch -> Double -> m ()

-- | Get the value of the “<tt>x_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadPinch #xRoot
--   </pre>
getEventTouchpadPinchXRoot :: MonadIO m => EventTouchpadPinch -> m Double

-- | Set the value of the “<tt>x_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadPinch [ #xRoot <a>:=</a> value ]
--   </pre>
setEventTouchpadPinchXRoot :: MonadIO m => EventTouchpadPinch -> Double -> m ()

-- | Get the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadPinch #y
--   </pre>
getEventTouchpadPinchY :: MonadIO m => EventTouchpadPinch -> m Double

-- | Set the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadPinch [ #y <a>:=</a> value ]
--   </pre>
setEventTouchpadPinchY :: MonadIO m => EventTouchpadPinch -> Double -> m ()

-- | Get the value of the “<tt>y_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouchpadPinch #yRoot
--   </pre>
getEventTouchpadPinchYRoot :: MonadIO m => EventTouchpadPinch -> m Double

-- | Set the value of the “<tt>y_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouchpadPinch [ #yRoot <a>:=</a> value ]
--   </pre>
setEventTouchpadPinchYRoot :: MonadIO m => EventTouchpadPinch -> Double -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventTouchpadPinch.EventTouchpadPinch
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventTouchpadPinch.EventTouchpadPinch
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventTouchpadPinch.EventTouchpadPinch
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventTouchpadPinch.EventTouchpadPinch
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventTouchpadPinch.EventTouchpadPinch tag


-- | Used for touch events. <i><tt>type</tt></i> field will be one of
--   <a>EventTypeTouchBegin</a>, <a>EventTypeTouchUpdate</a>,
--   <a>EventTypeTouchEnd</a> or <a>EventTypeTouchCancel</a>.
--   
--   Touch events are grouped into sequences by means of the
--   <i><tt>sequence</tt></i> field, which can also be obtained with
--   <a>eventGetEventSequence</a>. Each sequence begins with a
--   <a>EventTypeTouchBegin</a> event, followed by any number of
--   <a>EventTypeTouchUpdate</a> events, and ends with a
--   <a>EventTypeTouchEnd</a> (or <a>EventTypeTouchCancel</a>) event. With
--   multitouch devices, there may be several active sequences at the same
--   time.
module GI.Gdk.Structs.EventTouch

-- | Memory-managed wrapper type.
newtype EventTouch
EventTouch :: ManagedPtr EventTouch -> EventTouch

-- | Construct a <a>EventTouch</a> struct initialized to zero.
newZeroEventTouch :: MonadIO m => m EventTouch

-- | Get the value of the “<tt>axes</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouch #axes
--   </pre>
getEventTouchAxes :: MonadIO m => EventTouch -> m Double

-- | Set the value of the “<tt>axes</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouch [ #axes <a>:=</a> value ]
--   </pre>
setEventTouchAxes :: MonadIO m => EventTouch -> Double -> m ()

-- | Set the value of the “<tt>device</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #device
--   </pre>
clearEventTouchDevice :: MonadIO m => EventTouch -> m ()

-- | Get the value of the “<tt>device</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouch #device
--   </pre>
getEventTouchDevice :: MonadIO m => EventTouch -> m (Maybe Device)

-- | Set the value of the “<tt>device</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouch [ #device <a>:=</a> value ]
--   </pre>
setEventTouchDevice :: MonadIO m => EventTouch -> Ptr Device -> m ()

-- | Get the value of the “<tt>emulating_pointer</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouch #emulatingPointer
--   </pre>
getEventTouchEmulatingPointer :: MonadIO m => EventTouch -> m Bool

-- | Set the value of the “<tt>emulating_pointer</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouch [ #emulatingPointer <a>:=</a> value ]
--   </pre>
setEventTouchEmulatingPointer :: MonadIO m => EventTouch -> Bool -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouch #sendEvent
--   </pre>
getEventTouchSendEvent :: MonadIO m => EventTouch -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouch [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventTouchSendEvent :: MonadIO m => EventTouch -> Int8 -> m ()

-- | Set the value of the “<tt>sequence</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #sequence
--   </pre>
clearEventTouchSequence :: MonadIO m => EventTouch -> m ()

-- | Get the value of the “<tt>sequence</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouch #sequence
--   </pre>
getEventTouchSequence :: MonadIO m => EventTouch -> m (Maybe EventSequence)

-- | Set the value of the “<tt>sequence</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouch [ #sequence <a>:=</a> value ]
--   </pre>
setEventTouchSequence :: MonadIO m => EventTouch -> Ptr EventSequence -> m ()

-- | Get the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouch #state
--   </pre>
getEventTouchState :: MonadIO m => EventTouch -> m [ModifierType]

-- | Set the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouch [ #state <a>:=</a> value ]
--   </pre>
setEventTouchState :: MonadIO m => EventTouch -> [ModifierType] -> m ()

-- | Get the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouch #time
--   </pre>
getEventTouchTime :: MonadIO m => EventTouch -> m Word32

-- | Set the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouch [ #time <a>:=</a> value ]
--   </pre>
setEventTouchTime :: MonadIO m => EventTouch -> Word32 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouch #type
--   </pre>
getEventTouchType :: MonadIO m => EventTouch -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouch [ #type <a>:=</a> value ]
--   </pre>
setEventTouchType :: MonadIO m => EventTouch -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventTouchWindow :: MonadIO m => EventTouch -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouch #window
--   </pre>
getEventTouchWindow :: MonadIO m => EventTouch -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouch [ #window <a>:=</a> value ]
--   </pre>
setEventTouchWindow :: MonadIO m => EventTouch -> Ptr Window -> m ()

-- | Get the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouch #x
--   </pre>
getEventTouchX :: MonadIO m => EventTouch -> m Double

-- | Set the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouch [ #x <a>:=</a> value ]
--   </pre>
setEventTouchX :: MonadIO m => EventTouch -> Double -> m ()

-- | Get the value of the “<tt>x_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouch #xRoot
--   </pre>
getEventTouchXRoot :: MonadIO m => EventTouch -> m Double

-- | Set the value of the “<tt>x_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouch [ #xRoot <a>:=</a> value ]
--   </pre>
setEventTouchXRoot :: MonadIO m => EventTouch -> Double -> m ()

-- | Get the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouch #y
--   </pre>
getEventTouchY :: MonadIO m => EventTouch -> m Double

-- | Set the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouch [ #y <a>:=</a> value ]
--   </pre>
setEventTouchY :: MonadIO m => EventTouch -> Double -> m ()

-- | Get the value of the “<tt>y_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventTouch #yRoot
--   </pre>
getEventTouchYRoot :: MonadIO m => EventTouch -> m Double

-- | Set the value of the “<tt>y_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventTouch [ #yRoot <a>:=</a> value ]
--   </pre>
setEventTouchYRoot :: MonadIO m => EventTouch -> Double -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventTouch.EventTouch
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventTouch.EventTouch
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventTouch.EventTouch
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventTouch.EventTouch
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventTouch.EventTouch tag


-- | Generated when a setting is modified.
module GI.Gdk.Structs.EventSetting

-- | Memory-managed wrapper type.
newtype EventSetting
EventSetting :: ManagedPtr EventSetting -> EventSetting

-- | Construct a <a>EventSetting</a> struct initialized to zero.
newZeroEventSetting :: MonadIO m => m EventSetting

-- | Get the value of the “<tt>action</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventSetting #action
--   </pre>
getEventSettingAction :: MonadIO m => EventSetting -> m SettingAction

-- | Set the value of the “<tt>action</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventSetting [ #action <a>:=</a> value ]
--   </pre>
setEventSettingAction :: MonadIO m => EventSetting -> SettingAction -> m ()

-- | Set the value of the “<tt>name</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #name
--   </pre>
clearEventSettingName :: MonadIO m => EventSetting -> m ()

-- | Get the value of the “<tt>name</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventSetting #name
--   </pre>
getEventSettingName :: MonadIO m => EventSetting -> m (Maybe Text)

-- | Set the value of the “<tt>name</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventSetting [ #name <a>:=</a> value ]
--   </pre>
setEventSettingName :: MonadIO m => EventSetting -> CString -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventSetting #sendEvent
--   </pre>
getEventSettingSendEvent :: MonadIO m => EventSetting -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventSetting [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventSettingSendEvent :: MonadIO m => EventSetting -> Int8 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventSetting #type
--   </pre>
getEventSettingType :: MonadIO m => EventSetting -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventSetting [ #type <a>:=</a> value ]
--   </pre>
setEventSettingType :: MonadIO m => EventSetting -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventSettingWindow :: MonadIO m => EventSetting -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventSetting #window
--   </pre>
getEventSettingWindow :: MonadIO m => EventSetting -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventSetting [ #window <a>:=</a> value ]
--   </pre>
setEventSettingWindow :: MonadIO m => EventSetting -> Ptr Window -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventSetting.EventSetting
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventSetting.EventSetting
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventSetting.EventSetting
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventSetting.EventSetting
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventSetting.EventSetting tag


-- | Generated when a selection is requested or ownership of a selection is
--   taken over by another client application.
module GI.Gdk.Structs.EventSelection

-- | Memory-managed wrapper type.
newtype EventSelection
EventSelection :: ManagedPtr EventSelection -> EventSelection

-- | Construct a <a>EventSelection</a> struct initialized to zero.
newZeroEventSelection :: MonadIO m => m EventSelection

-- | Get the value of the “<tt>property</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventSelection #property
--   </pre>
getEventSelectionProperty :: MonadIO m => EventSelection -> m Atom

-- | Set the value of the “<tt>requestor</tt>” field to <a>Nothing</a>.
--   When <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #requestor
--   </pre>
clearEventSelectionRequestor :: MonadIO m => EventSelection -> m ()

-- | Get the value of the “<tt>requestor</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventSelection #requestor
--   </pre>
getEventSelectionRequestor :: MonadIO m => EventSelection -> m (Maybe Window)

-- | Set the value of the “<tt>requestor</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventSelection [ #requestor <a>:=</a> value ]
--   </pre>
setEventSelectionRequestor :: MonadIO m => EventSelection -> Ptr Window -> m ()

-- | Get the value of the “<tt>selection</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventSelection #selection
--   </pre>
getEventSelectionSelection :: MonadIO m => EventSelection -> m Atom

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventSelection #sendEvent
--   </pre>
getEventSelectionSendEvent :: MonadIO m => EventSelection -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventSelection [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventSelectionSendEvent :: MonadIO m => EventSelection -> Int8 -> m ()

-- | Get the value of the “<tt>target</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventSelection #target
--   </pre>
getEventSelectionTarget :: MonadIO m => EventSelection -> m Atom

-- | Get the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventSelection #time
--   </pre>
getEventSelectionTime :: MonadIO m => EventSelection -> m Word32

-- | Set the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventSelection [ #time <a>:=</a> value ]
--   </pre>
setEventSelectionTime :: MonadIO m => EventSelection -> Word32 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventSelection #type
--   </pre>
getEventSelectionType :: MonadIO m => EventSelection -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventSelection [ #type <a>:=</a> value ]
--   </pre>
setEventSelectionType :: MonadIO m => EventSelection -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventSelectionWindow :: MonadIO m => EventSelection -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventSelection #window
--   </pre>
getEventSelectionWindow :: MonadIO m => EventSelection -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventSelection [ #window <a>:=</a> value ]
--   </pre>
setEventSelectionWindow :: MonadIO m => EventSelection -> Ptr Window -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventSelection.EventSelection
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventSelection.EventSelection
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventSelection.EventSelection
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventSelection.EventSelection
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventSelection.EventSelection tag


-- | Generated from button presses for the buttons 4 to 7. Wheel mice are
--   usually configured to generate button press events for buttons 4 and 5
--   when the wheel is turned.
--   
--   Some GDK backends can also generate “smooth” scroll events, which can
--   be recognized by the <a>ScrollDirectionSmooth</a> scroll direction.
--   For these, the scroll deltas can be obtained with
--   <a>eventGetScrollDeltas</a>.
module GI.Gdk.Structs.EventScroll

-- | Memory-managed wrapper type.
newtype EventScroll
EventScroll :: ManagedPtr EventScroll -> EventScroll

-- | Construct a <a>EventScroll</a> struct initialized to zero.
newZeroEventScroll :: MonadIO m => m EventScroll

-- | Get the value of the “<tt>delta_x</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventScroll #deltaX
--   </pre>
getEventScrollDeltaX :: MonadIO m => EventScroll -> m Double

-- | Set the value of the “<tt>delta_x</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventScroll [ #deltaX <a>:=</a> value ]
--   </pre>
setEventScrollDeltaX :: MonadIO m => EventScroll -> Double -> m ()

-- | Get the value of the “<tt>delta_y</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventScroll #deltaY
--   </pre>
getEventScrollDeltaY :: MonadIO m => EventScroll -> m Double

-- | Set the value of the “<tt>delta_y</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventScroll [ #deltaY <a>:=</a> value ]
--   </pre>
setEventScrollDeltaY :: MonadIO m => EventScroll -> Double -> m ()

-- | Set the value of the “<tt>device</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #device
--   </pre>
clearEventScrollDevice :: MonadIO m => EventScroll -> m ()

-- | Get the value of the “<tt>device</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventScroll #device
--   </pre>
getEventScrollDevice :: MonadIO m => EventScroll -> m (Maybe Device)

-- | Set the value of the “<tt>device</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventScroll [ #device <a>:=</a> value ]
--   </pre>
setEventScrollDevice :: MonadIO m => EventScroll -> Ptr Device -> m ()

-- | Get the value of the “<tt>direction</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventScroll #direction
--   </pre>
getEventScrollDirection :: MonadIO m => EventScroll -> m ScrollDirection

-- | Set the value of the “<tt>direction</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventScroll [ #direction <a>:=</a> value ]
--   </pre>
setEventScrollDirection :: MonadIO m => EventScroll -> ScrollDirection -> m ()

-- | Get the value of the “<tt>is_stop</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventScroll #isStop
--   </pre>
getEventScrollIsStop :: MonadIO m => EventScroll -> m Word32

-- | Set the value of the “<tt>is_stop</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventScroll [ #isStop <a>:=</a> value ]
--   </pre>
setEventScrollIsStop :: MonadIO m => EventScroll -> Word32 -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventScroll #sendEvent
--   </pre>
getEventScrollSendEvent :: MonadIO m => EventScroll -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventScroll [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventScrollSendEvent :: MonadIO m => EventScroll -> Int8 -> m ()

-- | Get the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventScroll #state
--   </pre>
getEventScrollState :: MonadIO m => EventScroll -> m [ModifierType]

-- | Set the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventScroll [ #state <a>:=</a> value ]
--   </pre>
setEventScrollState :: MonadIO m => EventScroll -> [ModifierType] -> m ()

-- | Get the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventScroll #time
--   </pre>
getEventScrollTime :: MonadIO m => EventScroll -> m Word32

-- | Set the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventScroll [ #time <a>:=</a> value ]
--   </pre>
setEventScrollTime :: MonadIO m => EventScroll -> Word32 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventScroll #type
--   </pre>
getEventScrollType :: MonadIO m => EventScroll -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventScroll [ #type <a>:=</a> value ]
--   </pre>
setEventScrollType :: MonadIO m => EventScroll -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventScrollWindow :: MonadIO m => EventScroll -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventScroll #window
--   </pre>
getEventScrollWindow :: MonadIO m => EventScroll -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventScroll [ #window <a>:=</a> value ]
--   </pre>
setEventScrollWindow :: MonadIO m => EventScroll -> Ptr Window -> m ()

-- | Get the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventScroll #x
--   </pre>
getEventScrollX :: MonadIO m => EventScroll -> m Double

-- | Set the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventScroll [ #x <a>:=</a> value ]
--   </pre>
setEventScrollX :: MonadIO m => EventScroll -> Double -> m ()

-- | Get the value of the “<tt>x_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventScroll #xRoot
--   </pre>
getEventScrollXRoot :: MonadIO m => EventScroll -> m Double

-- | Set the value of the “<tt>x_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventScroll [ #xRoot <a>:=</a> value ]
--   </pre>
setEventScrollXRoot :: MonadIO m => EventScroll -> Double -> m ()

-- | Get the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventScroll #y
--   </pre>
getEventScrollY :: MonadIO m => EventScroll -> m Double

-- | Set the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventScroll [ #y <a>:=</a> value ]
--   </pre>
setEventScrollY :: MonadIO m => EventScroll -> Double -> m ()

-- | Get the value of the “<tt>y_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventScroll #yRoot
--   </pre>
getEventScrollYRoot :: MonadIO m => EventScroll -> m Double

-- | Set the value of the “<tt>y_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventScroll [ #yRoot <a>:=</a> value ]
--   </pre>
setEventScrollYRoot :: MonadIO m => EventScroll -> Double -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventScroll.EventScroll
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventScroll.EventScroll
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventScroll.EventScroll
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventScroll.EventScroll
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventScroll.EventScroll tag


-- | Proximity events are generated when using GDK’s wrapper for the XInput
--   extension. The XInput extension is an add-on for standard X that
--   allows you to use nonstandard devices such as graphics tablets. A
--   proximity event indicates that the stylus has moved in or out of
--   contact with the tablet, or perhaps that the user’s finger has moved
--   in or out of contact with a touch screen.
--   
--   This event type will be used pretty rarely. It only is important for
--   XInput aware programs that are drawing their own cursor.
module GI.Gdk.Structs.EventProximity

-- | Memory-managed wrapper type.
newtype EventProximity
EventProximity :: ManagedPtr EventProximity -> EventProximity

-- | Construct a <a>EventProximity</a> struct initialized to zero.
newZeroEventProximity :: MonadIO m => m EventProximity

-- | Set the value of the “<tt>device</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #device
--   </pre>
clearEventProximityDevice :: MonadIO m => EventProximity -> m ()

-- | Get the value of the “<tt>device</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventProximity #device
--   </pre>
getEventProximityDevice :: MonadIO m => EventProximity -> m (Maybe Device)

-- | Set the value of the “<tt>device</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventProximity [ #device <a>:=</a> value ]
--   </pre>
setEventProximityDevice :: MonadIO m => EventProximity -> Ptr Device -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventProximity #sendEvent
--   </pre>
getEventProximitySendEvent :: MonadIO m => EventProximity -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventProximity [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventProximitySendEvent :: MonadIO m => EventProximity -> Int8 -> m ()

-- | Get the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventProximity #time
--   </pre>
getEventProximityTime :: MonadIO m => EventProximity -> m Word32

-- | Set the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventProximity [ #time <a>:=</a> value ]
--   </pre>
setEventProximityTime :: MonadIO m => EventProximity -> Word32 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventProximity #type
--   </pre>
getEventProximityType :: MonadIO m => EventProximity -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventProximity [ #type <a>:=</a> value ]
--   </pre>
setEventProximityType :: MonadIO m => EventProximity -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventProximityWindow :: MonadIO m => EventProximity -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventProximity #window
--   </pre>
getEventProximityWindow :: MonadIO m => EventProximity -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventProximity [ #window <a>:=</a> value ]
--   </pre>
setEventProximityWindow :: MonadIO m => EventProximity -> Ptr Window -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventProximity.EventProximity
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventProximity.EventProximity
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventProximity.EventProximity
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventProximity.EventProximity
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventProximity.EventProximity tag


-- | Describes a property change on a window.
module GI.Gdk.Structs.EventProperty

-- | Memory-managed wrapper type.
newtype EventProperty
EventProperty :: ManagedPtr EventProperty -> EventProperty

-- | Construct a <a>EventProperty</a> struct initialized to zero.
newZeroEventProperty :: MonadIO m => m EventProperty

-- | Get the value of the “<tt>atom</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventProperty #atom
--   </pre>
getEventPropertyAtom :: MonadIO m => EventProperty -> m Atom

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventProperty #sendEvent
--   </pre>
getEventPropertySendEvent :: MonadIO m => EventProperty -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventProperty [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventPropertySendEvent :: MonadIO m => EventProperty -> Int8 -> m ()

-- | Get the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventProperty #state
--   </pre>
getEventPropertyState :: MonadIO m => EventProperty -> m PropertyState

-- | Set the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventProperty [ #state <a>:=</a> value ]
--   </pre>
setEventPropertyState :: MonadIO m => EventProperty -> PropertyState -> m ()

-- | Get the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventProperty #time
--   </pre>
getEventPropertyTime :: MonadIO m => EventProperty -> m Word32

-- | Set the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventProperty [ #time <a>:=</a> value ]
--   </pre>
setEventPropertyTime :: MonadIO m => EventProperty -> Word32 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventProperty #type
--   </pre>
getEventPropertyType :: MonadIO m => EventProperty -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventProperty [ #type <a>:=</a> value ]
--   </pre>
setEventPropertyType :: MonadIO m => EventProperty -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventPropertyWindow :: MonadIO m => EventProperty -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventProperty #window
--   </pre>
getEventPropertyWindow :: MonadIO m => EventProperty -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventProperty [ #window <a>:=</a> value ]
--   </pre>
setEventPropertyWindow :: MonadIO m => EventProperty -> Ptr Window -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventProperty.EventProperty
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventProperty.EventProperty
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventProperty.EventProperty
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventProperty.EventProperty
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventProperty.EventProperty tag


-- | Generated during <a>InputSourceTabletPad</a> mode switches in a group.
--   
--   <i>Since: 3.22</i>
module GI.Gdk.Structs.EventPadGroupMode

-- | Memory-managed wrapper type.
newtype EventPadGroupMode
EventPadGroupMode :: ManagedPtr EventPadGroupMode -> EventPadGroupMode

-- | Construct a <a>EventPadGroupMode</a> struct initialized to zero.
newZeroEventPadGroupMode :: MonadIO m => m EventPadGroupMode

-- | Get the value of the “<tt>group</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadGroupMode #group
--   </pre>
getEventPadGroupModeGroup :: MonadIO m => EventPadGroupMode -> m Word32

-- | Set the value of the “<tt>group</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadGroupMode [ #group <a>:=</a> value ]
--   </pre>
setEventPadGroupModeGroup :: MonadIO m => EventPadGroupMode -> Word32 -> m ()

-- | Get the value of the “<tt>mode</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadGroupMode #mode
--   </pre>
getEventPadGroupModeMode :: MonadIO m => EventPadGroupMode -> m Word32

-- | Set the value of the “<tt>mode</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadGroupMode [ #mode <a>:=</a> value ]
--   </pre>
setEventPadGroupModeMode :: MonadIO m => EventPadGroupMode -> Word32 -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadGroupMode #sendEvent
--   </pre>
getEventPadGroupModeSendEvent :: MonadIO m => EventPadGroupMode -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadGroupMode [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventPadGroupModeSendEvent :: MonadIO m => EventPadGroupMode -> Int8 -> m ()

-- | Get the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadGroupMode #time
--   </pre>
getEventPadGroupModeTime :: MonadIO m => EventPadGroupMode -> m Word32

-- | Set the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadGroupMode [ #time <a>:=</a> value ]
--   </pre>
setEventPadGroupModeTime :: MonadIO m => EventPadGroupMode -> Word32 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadGroupMode #type
--   </pre>
getEventPadGroupModeType :: MonadIO m => EventPadGroupMode -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadGroupMode [ #type <a>:=</a> value ]
--   </pre>
setEventPadGroupModeType :: MonadIO m => EventPadGroupMode -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventPadGroupModeWindow :: MonadIO m => EventPadGroupMode -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadGroupMode #window
--   </pre>
getEventPadGroupModeWindow :: MonadIO m => EventPadGroupMode -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadGroupMode [ #window <a>:=</a> value ]
--   </pre>
setEventPadGroupModeWindow :: MonadIO m => EventPadGroupMode -> Ptr Window -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventPadGroupMode.EventPadGroupMode
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventPadGroupMode.EventPadGroupMode
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventPadGroupMode.EventPadGroupMode
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventPadGroupMode.EventPadGroupMode
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventPadGroupMode.EventPadGroupMode tag


-- | Generated during <a>InputSourceTabletPad</a> button presses and
--   releases.
--   
--   <i>Since: 3.22</i>
module GI.Gdk.Structs.EventPadButton

-- | Memory-managed wrapper type.
newtype EventPadButton
EventPadButton :: ManagedPtr EventPadButton -> EventPadButton

-- | Construct a <a>EventPadButton</a> struct initialized to zero.
newZeroEventPadButton :: MonadIO m => m EventPadButton

-- | Get the value of the “<tt>button</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadButton #button
--   </pre>
getEventPadButtonButton :: MonadIO m => EventPadButton -> m Word32

-- | Set the value of the “<tt>button</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadButton [ #button <a>:=</a> value ]
--   </pre>
setEventPadButtonButton :: MonadIO m => EventPadButton -> Word32 -> m ()

-- | Get the value of the “<tt>group</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadButton #group
--   </pre>
getEventPadButtonGroup :: MonadIO m => EventPadButton -> m Word32

-- | Set the value of the “<tt>group</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadButton [ #group <a>:=</a> value ]
--   </pre>
setEventPadButtonGroup :: MonadIO m => EventPadButton -> Word32 -> m ()

-- | Get the value of the “<tt>mode</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadButton #mode
--   </pre>
getEventPadButtonMode :: MonadIO m => EventPadButton -> m Word32

-- | Set the value of the “<tt>mode</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadButton [ #mode <a>:=</a> value ]
--   </pre>
setEventPadButtonMode :: MonadIO m => EventPadButton -> Word32 -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadButton #sendEvent
--   </pre>
getEventPadButtonSendEvent :: MonadIO m => EventPadButton -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadButton [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventPadButtonSendEvent :: MonadIO m => EventPadButton -> Int8 -> m ()

-- | Get the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadButton #time
--   </pre>
getEventPadButtonTime :: MonadIO m => EventPadButton -> m Word32

-- | Set the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadButton [ #time <a>:=</a> value ]
--   </pre>
setEventPadButtonTime :: MonadIO m => EventPadButton -> Word32 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadButton #type
--   </pre>
getEventPadButtonType :: MonadIO m => EventPadButton -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadButton [ #type <a>:=</a> value ]
--   </pre>
setEventPadButtonType :: MonadIO m => EventPadButton -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventPadButtonWindow :: MonadIO m => EventPadButton -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadButton #window
--   </pre>
getEventPadButtonWindow :: MonadIO m => EventPadButton -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadButton [ #window <a>:=</a> value ]
--   </pre>
setEventPadButtonWindow :: MonadIO m => EventPadButton -> Ptr Window -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventPadButton.EventPadButton
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventPadButton.EventPadButton
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventPadButton.EventPadButton
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventPadButton.EventPadButton
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventPadButton.EventPadButton tag


-- | Generated during <a>InputSourceTabletPad</a> interaction with tactile
--   sensors.
--   
--   <i>Since: 3.22</i>
module GI.Gdk.Structs.EventPadAxis

-- | Memory-managed wrapper type.
newtype EventPadAxis
EventPadAxis :: ManagedPtr EventPadAxis -> EventPadAxis

-- | Construct a <a>EventPadAxis</a> struct initialized to zero.
newZeroEventPadAxis :: MonadIO m => m EventPadAxis

-- | Get the value of the “<tt>group</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadAxis #group
--   </pre>
getEventPadAxisGroup :: MonadIO m => EventPadAxis -> m Word32

-- | Set the value of the “<tt>group</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadAxis [ #group <a>:=</a> value ]
--   </pre>
setEventPadAxisGroup :: MonadIO m => EventPadAxis -> Word32 -> m ()

-- | Get the value of the “<tt>index</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadAxis #index
--   </pre>
getEventPadAxisIndex :: MonadIO m => EventPadAxis -> m Word32

-- | Set the value of the “<tt>index</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadAxis [ #index <a>:=</a> value ]
--   </pre>
setEventPadAxisIndex :: MonadIO m => EventPadAxis -> Word32 -> m ()

-- | Get the value of the “<tt>mode</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadAxis #mode
--   </pre>
getEventPadAxisMode :: MonadIO m => EventPadAxis -> m Word32

-- | Set the value of the “<tt>mode</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadAxis [ #mode <a>:=</a> value ]
--   </pre>
setEventPadAxisMode :: MonadIO m => EventPadAxis -> Word32 -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadAxis #sendEvent
--   </pre>
getEventPadAxisSendEvent :: MonadIO m => EventPadAxis -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadAxis [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventPadAxisSendEvent :: MonadIO m => EventPadAxis -> Int8 -> m ()

-- | Get the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadAxis #time
--   </pre>
getEventPadAxisTime :: MonadIO m => EventPadAxis -> m Word32

-- | Set the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadAxis [ #time <a>:=</a> value ]
--   </pre>
setEventPadAxisTime :: MonadIO m => EventPadAxis -> Word32 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadAxis #type
--   </pre>
getEventPadAxisType :: MonadIO m => EventPadAxis -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadAxis [ #type <a>:=</a> value ]
--   </pre>
setEventPadAxisType :: MonadIO m => EventPadAxis -> EventType -> m ()

-- | Get the value of the “<tt>value</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadAxis #value
--   </pre>
getEventPadAxisValue :: MonadIO m => EventPadAxis -> m Double

-- | Set the value of the “<tt>value</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadAxis [ #value <a>:=</a> value ]
--   </pre>
setEventPadAxisValue :: MonadIO m => EventPadAxis -> Double -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventPadAxisWindow :: MonadIO m => EventPadAxis -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventPadAxis #window
--   </pre>
getEventPadAxisWindow :: MonadIO m => EventPadAxis -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventPadAxis [ #window <a>:=</a> value ]
--   </pre>
setEventPadAxisWindow :: MonadIO m => EventPadAxis -> Ptr Window -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventPadAxis.EventPadAxis
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventPadAxis.EventPadAxis
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventPadAxis.EventPadAxis
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventPadAxis.EventPadAxis
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventPadAxis.EventPadAxis tag


-- | Generated when the owner of a selection changes. On X11, this
--   information is only available if the X server supports the XFIXES
--   extension.
--   
--   <i>Since: 2.6</i>
module GI.Gdk.Structs.EventOwnerChange

-- | Memory-managed wrapper type.
newtype EventOwnerChange
EventOwnerChange :: ManagedPtr EventOwnerChange -> EventOwnerChange

-- | Construct a <a>EventOwnerChange</a> struct initialized to zero.
newZeroEventOwnerChange :: MonadIO m => m EventOwnerChange

-- | Set the value of the “<tt>owner</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #owner
--   </pre>
clearEventOwnerChangeOwner :: MonadIO m => EventOwnerChange -> m ()

-- | Get the value of the “<tt>owner</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventOwnerChange #owner
--   </pre>
getEventOwnerChangeOwner :: MonadIO m => EventOwnerChange -> m (Maybe Window)

-- | Set the value of the “<tt>owner</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventOwnerChange [ #owner <a>:=</a> value ]
--   </pre>
setEventOwnerChangeOwner :: MonadIO m => EventOwnerChange -> Ptr Window -> m ()

-- | Get the value of the “<tt>reason</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventOwnerChange #reason
--   </pre>
getEventOwnerChangeReason :: MonadIO m => EventOwnerChange -> m OwnerChange

-- | Set the value of the “<tt>reason</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventOwnerChange [ #reason <a>:=</a> value ]
--   </pre>
setEventOwnerChangeReason :: MonadIO m => EventOwnerChange -> OwnerChange -> m ()

-- | Get the value of the “<tt>selection</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventOwnerChange #selection
--   </pre>
getEventOwnerChangeSelection :: MonadIO m => EventOwnerChange -> m Atom

-- | Get the value of the “<tt>selection_time</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventOwnerChange #selectionTime
--   </pre>
getEventOwnerChangeSelectionTime :: MonadIO m => EventOwnerChange -> m Word32

-- | Set the value of the “<tt>selection_time</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventOwnerChange [ #selectionTime <a>:=</a> value ]
--   </pre>
setEventOwnerChangeSelectionTime :: MonadIO m => EventOwnerChange -> Word32 -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventOwnerChange #sendEvent
--   </pre>
getEventOwnerChangeSendEvent :: MonadIO m => EventOwnerChange -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventOwnerChange [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventOwnerChangeSendEvent :: MonadIO m => EventOwnerChange -> Int8 -> m ()

-- | Get the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventOwnerChange #time
--   </pre>
getEventOwnerChangeTime :: MonadIO m => EventOwnerChange -> m Word32

-- | Set the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventOwnerChange [ #time <a>:=</a> value ]
--   </pre>
setEventOwnerChangeTime :: MonadIO m => EventOwnerChange -> Word32 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventOwnerChange #type
--   </pre>
getEventOwnerChangeType :: MonadIO m => EventOwnerChange -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventOwnerChange [ #type <a>:=</a> value ]
--   </pre>
setEventOwnerChangeType :: MonadIO m => EventOwnerChange -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventOwnerChangeWindow :: MonadIO m => EventOwnerChange -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventOwnerChange #window
--   </pre>
getEventOwnerChangeWindow :: MonadIO m => EventOwnerChange -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventOwnerChange [ #window <a>:=</a> value ]
--   </pre>
setEventOwnerChangeWindow :: MonadIO m => EventOwnerChange -> Ptr Window -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventOwnerChange.EventOwnerChange
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventOwnerChange.EventOwnerChange
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventOwnerChange.EventOwnerChange
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventOwnerChange.EventOwnerChange
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventOwnerChange.EventOwnerChange tag


-- | Generated when the pointer moves.
module GI.Gdk.Structs.EventMotion

-- | Memory-managed wrapper type.
newtype EventMotion
EventMotion :: ManagedPtr EventMotion -> EventMotion

-- | Construct a <a>EventMotion</a> struct initialized to zero.
newZeroEventMotion :: MonadIO m => m EventMotion

-- | Get the value of the “<tt>axes</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventMotion #axes
--   </pre>
getEventMotionAxes :: MonadIO m => EventMotion -> m Double

-- | Set the value of the “<tt>axes</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventMotion [ #axes <a>:=</a> value ]
--   </pre>
setEventMotionAxes :: MonadIO m => EventMotion -> Double -> m ()

-- | Set the value of the “<tt>device</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #device
--   </pre>
clearEventMotionDevice :: MonadIO m => EventMotion -> m ()

-- | Get the value of the “<tt>device</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventMotion #device
--   </pre>
getEventMotionDevice :: MonadIO m => EventMotion -> m (Maybe Device)

-- | Set the value of the “<tt>device</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventMotion [ #device <a>:=</a> value ]
--   </pre>
setEventMotionDevice :: MonadIO m => EventMotion -> Ptr Device -> m ()

-- | Get the value of the “<tt>is_hint</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventMotion #isHint
--   </pre>
getEventMotionIsHint :: MonadIO m => EventMotion -> m Int16

-- | Set the value of the “<tt>is_hint</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventMotion [ #isHint <a>:=</a> value ]
--   </pre>
setEventMotionIsHint :: MonadIO m => EventMotion -> Int16 -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventMotion #sendEvent
--   </pre>
getEventMotionSendEvent :: MonadIO m => EventMotion -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventMotion [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventMotionSendEvent :: MonadIO m => EventMotion -> Int8 -> m ()

-- | Get the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventMotion #state
--   </pre>
getEventMotionState :: MonadIO m => EventMotion -> m [ModifierType]

-- | Set the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventMotion [ #state <a>:=</a> value ]
--   </pre>
setEventMotionState :: MonadIO m => EventMotion -> [ModifierType] -> m ()

-- | Get the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventMotion #time
--   </pre>
getEventMotionTime :: MonadIO m => EventMotion -> m Word32

-- | Set the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventMotion [ #time <a>:=</a> value ]
--   </pre>
setEventMotionTime :: MonadIO m => EventMotion -> Word32 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventMotion #type
--   </pre>
getEventMotionType :: MonadIO m => EventMotion -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventMotion [ #type <a>:=</a> value ]
--   </pre>
setEventMotionType :: MonadIO m => EventMotion -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventMotionWindow :: MonadIO m => EventMotion -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventMotion #window
--   </pre>
getEventMotionWindow :: MonadIO m => EventMotion -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventMotion [ #window <a>:=</a> value ]
--   </pre>
setEventMotionWindow :: MonadIO m => EventMotion -> Ptr Window -> m ()

-- | Get the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventMotion #x
--   </pre>
getEventMotionX :: MonadIO m => EventMotion -> m Double

-- | Set the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventMotion [ #x <a>:=</a> value ]
--   </pre>
setEventMotionX :: MonadIO m => EventMotion -> Double -> m ()

-- | Get the value of the “<tt>x_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventMotion #xRoot
--   </pre>
getEventMotionXRoot :: MonadIO m => EventMotion -> m Double

-- | Set the value of the “<tt>x_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventMotion [ #xRoot <a>:=</a> value ]
--   </pre>
setEventMotionXRoot :: MonadIO m => EventMotion -> Double -> m ()

-- | Get the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventMotion #y
--   </pre>
getEventMotionY :: MonadIO m => EventMotion -> m Double

-- | Set the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventMotion [ #y <a>:=</a> value ]
--   </pre>
setEventMotionY :: MonadIO m => EventMotion -> Double -> m ()

-- | Get the value of the “<tt>y_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventMotion #yRoot
--   </pre>
getEventMotionYRoot :: MonadIO m => EventMotion -> m Double

-- | Set the value of the “<tt>y_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventMotion [ #yRoot <a>:=</a> value ]
--   </pre>
setEventMotionYRoot :: MonadIO m => EventMotion -> Double -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventMotion.EventMotion
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventMotion.EventMotion
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventMotion.EventMotion
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventMotion.EventMotion
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventMotion.EventMotion tag


-- | Describes a key press or key release event.
module GI.Gdk.Structs.EventKey

-- | Memory-managed wrapper type.
newtype EventKey
EventKey :: ManagedPtr EventKey -> EventKey

-- | Construct a <a>EventKey</a> struct initialized to zero.
newZeroEventKey :: MonadIO m => m EventKey

-- | Get the value of the “<tt>group</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventKey #group
--   </pre>
getEventKeyGroup :: MonadIO m => EventKey -> m Word8

-- | Set the value of the “<tt>group</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventKey [ #group <a>:=</a> value ]
--   </pre>
setEventKeyGroup :: MonadIO m => EventKey -> Word8 -> m ()

-- | Get the value of the “<tt>hardware_keycode</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventKey #hardwareKeycode
--   </pre>
getEventKeyHardwareKeycode :: MonadIO m => EventKey -> m Word16

-- | Set the value of the “<tt>hardware_keycode</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventKey [ #hardwareKeycode <a>:=</a> value ]
--   </pre>
setEventKeyHardwareKeycode :: MonadIO m => EventKey -> Word16 -> m ()

-- | Get the value of the “<tt>is_modifier</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventKey #isModifier
--   </pre>
getEventKeyIsModifier :: MonadIO m => EventKey -> m Word32

-- | Set the value of the “<tt>is_modifier</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventKey [ #isModifier <a>:=</a> value ]
--   </pre>
setEventKeyIsModifier :: MonadIO m => EventKey -> Word32 -> m ()

-- | Get the value of the “<tt>keyval</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventKey #keyval
--   </pre>
getEventKeyKeyval :: MonadIO m => EventKey -> m Word32

-- | Set the value of the “<tt>keyval</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventKey [ #keyval <a>:=</a> value ]
--   </pre>
setEventKeyKeyval :: MonadIO m => EventKey -> Word32 -> m ()

-- | Get the value of the “<tt>length</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventKey #length
--   </pre>
getEventKeyLength :: MonadIO m => EventKey -> m Int32

-- | Set the value of the “<tt>length</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventKey [ #length <a>:=</a> value ]
--   </pre>
setEventKeyLength :: MonadIO m => EventKey -> Int32 -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventKey #sendEvent
--   </pre>
getEventKeySendEvent :: MonadIO m => EventKey -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventKey [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventKeySendEvent :: MonadIO m => EventKey -> Int8 -> m ()

-- | Get the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventKey #state
--   </pre>
getEventKeyState :: MonadIO m => EventKey -> m [ModifierType]

-- | Set the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventKey [ #state <a>:=</a> value ]
--   </pre>
setEventKeyState :: MonadIO m => EventKey -> [ModifierType] -> m ()

-- | Set the value of the “<tt>string</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #string
--   </pre>
clearEventKeyString :: MonadIO m => EventKey -> m ()

-- | Get the value of the “<tt>string</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventKey #string
--   </pre>
getEventKeyString :: MonadIO m => EventKey -> m (Maybe Text)

-- | Set the value of the “<tt>string</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventKey [ #string <a>:=</a> value ]
--   </pre>
setEventKeyString :: MonadIO m => EventKey -> CString -> m ()

-- | Get the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventKey #time
--   </pre>
getEventKeyTime :: MonadIO m => EventKey -> m Word32

-- | Set the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventKey [ #time <a>:=</a> value ]
--   </pre>
setEventKeyTime :: MonadIO m => EventKey -> Word32 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventKey #type
--   </pre>
getEventKeyType :: MonadIO m => EventKey -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventKey [ #type <a>:=</a> value ]
--   </pre>
setEventKeyType :: MonadIO m => EventKey -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventKeyWindow :: MonadIO m => EventKey -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventKey #window
--   </pre>
getEventKeyWindow :: MonadIO m => EventKey -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventKey [ #window <a>:=</a> value ]
--   </pre>
setEventKeyWindow :: MonadIO m => EventKey -> Ptr Window -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventKey.EventKey
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventKey.EventKey
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventKey.EventKey
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventKey.EventKey
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventKey.EventKey tag


-- | Generated when a pointer or keyboard grab is broken. On X11, this
--   happens when the grab window becomes unviewable (i.e. it or one of its
--   ancestors is unmapped), or if the same application grabs the pointer
--   or keyboard again. Note that implicit grabs (which are initiated by
--   button presses) can also cause <a>EventGrabBroken</a> events.
--   
--   <i>Since: 2.8</i>
module GI.Gdk.Structs.EventGrabBroken

-- | Memory-managed wrapper type.
newtype EventGrabBroken
EventGrabBroken :: ManagedPtr EventGrabBroken -> EventGrabBroken

-- | Construct a <a>EventGrabBroken</a> struct initialized to zero.
newZeroEventGrabBroken :: MonadIO m => m EventGrabBroken

-- | Set the value of the “<tt>grab_window</tt>” field to <a>Nothing</a>.
--   When <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #grabWindow
--   </pre>
clearEventGrabBrokenGrabWindow :: MonadIO m => EventGrabBroken -> m ()

-- | Get the value of the “<tt>grab_window</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventGrabBroken #grabWindow
--   </pre>
getEventGrabBrokenGrabWindow :: MonadIO m => EventGrabBroken -> m (Maybe Window)

-- | Set the value of the “<tt>grab_window</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventGrabBroken [ #grabWindow <a>:=</a> value ]
--   </pre>
setEventGrabBrokenGrabWindow :: MonadIO m => EventGrabBroken -> Ptr Window -> m ()

-- | Get the value of the “<tt>implicit</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventGrabBroken #implicit
--   </pre>
getEventGrabBrokenImplicit :: MonadIO m => EventGrabBroken -> m Bool

-- | Set the value of the “<tt>implicit</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventGrabBroken [ #implicit <a>:=</a> value ]
--   </pre>
setEventGrabBrokenImplicit :: MonadIO m => EventGrabBroken -> Bool -> m ()

-- | Get the value of the “<tt>keyboard</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventGrabBroken #keyboard
--   </pre>
getEventGrabBrokenKeyboard :: MonadIO m => EventGrabBroken -> m Bool

-- | Set the value of the “<tt>keyboard</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventGrabBroken [ #keyboard <a>:=</a> value ]
--   </pre>
setEventGrabBrokenKeyboard :: MonadIO m => EventGrabBroken -> Bool -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventGrabBroken #sendEvent
--   </pre>
getEventGrabBrokenSendEvent :: MonadIO m => EventGrabBroken -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventGrabBroken [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventGrabBrokenSendEvent :: MonadIO m => EventGrabBroken -> Int8 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventGrabBroken #type
--   </pre>
getEventGrabBrokenType :: MonadIO m => EventGrabBroken -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventGrabBroken [ #type <a>:=</a> value ]
--   </pre>
setEventGrabBrokenType :: MonadIO m => EventGrabBroken -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventGrabBrokenWindow :: MonadIO m => EventGrabBroken -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventGrabBroken #window
--   </pre>
getEventGrabBrokenWindow :: MonadIO m => EventGrabBroken -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventGrabBroken [ #window <a>:=</a> value ]
--   </pre>
setEventGrabBrokenWindow :: MonadIO m => EventGrabBroken -> Ptr Window -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventGrabBroken.EventGrabBroken
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventGrabBroken.EventGrabBroken
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventGrabBroken.EventGrabBroken
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventGrabBroken.EventGrabBroken
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventGrabBroken.EventGrabBroken tag


-- | Describes a change of keyboard focus.
module GI.Gdk.Structs.EventFocus

-- | Memory-managed wrapper type.
newtype EventFocus
EventFocus :: ManagedPtr EventFocus -> EventFocus

-- | Construct a <a>EventFocus</a> struct initialized to zero.
newZeroEventFocus :: MonadIO m => m EventFocus

-- | Get the value of the “<tt>in</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventFocus #in
--   </pre>
getEventFocusIn :: MonadIO m => EventFocus -> m Int16

-- | Set the value of the “<tt>in</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventFocus [ #in <a>:=</a> value ]
--   </pre>
setEventFocusIn :: MonadIO m => EventFocus -> Int16 -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventFocus #sendEvent
--   </pre>
getEventFocusSendEvent :: MonadIO m => EventFocus -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventFocus [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventFocusSendEvent :: MonadIO m => EventFocus -> Int8 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventFocus #type
--   </pre>
getEventFocusType :: MonadIO m => EventFocus -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventFocus [ #type <a>:=</a> value ]
--   </pre>
setEventFocusType :: MonadIO m => EventFocus -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventFocusWindow :: MonadIO m => EventFocus -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventFocus #window
--   </pre>
getEventFocusWindow :: MonadIO m => EventFocus -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventFocus [ #window <a>:=</a> value ]
--   </pre>
setEventFocusWindow :: MonadIO m => EventFocus -> Ptr Window -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventFocus.EventFocus
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventFocus.EventFocus
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventFocus.EventFocus
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventFocus.EventFocus
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventFocus.EventFocus tag


-- | Generated when all or part of a window becomes visible and needs to be
--   redrawn.
module GI.Gdk.Structs.EventExpose

-- | Memory-managed wrapper type.
newtype EventExpose
EventExpose :: ManagedPtr EventExpose -> EventExpose

-- | Construct a <a>EventExpose</a> struct initialized to zero.
newZeroEventExpose :: MonadIO m => m EventExpose

-- | Get the value of the “<tt>area</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventExpose #area
--   </pre>
getEventExposeArea :: MonadIO m => EventExpose -> m Rectangle

-- | Get the value of the “<tt>count</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventExpose #count
--   </pre>
getEventExposeCount :: MonadIO m => EventExpose -> m Int32

-- | Set the value of the “<tt>count</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventExpose [ #count <a>:=</a> value ]
--   </pre>
setEventExposeCount :: MonadIO m => EventExpose -> Int32 -> m ()

-- | Set the value of the “<tt>region</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #region
--   </pre>
clearEventExposeRegion :: MonadIO m => EventExpose -> m ()

-- | Get the value of the “<tt>region</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventExpose #region
--   </pre>
getEventExposeRegion :: MonadIO m => EventExpose -> m (Maybe Region)

-- | Set the value of the “<tt>region</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventExpose [ #region <a>:=</a> value ]
--   </pre>
setEventExposeRegion :: MonadIO m => EventExpose -> Ptr Region -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventExpose #sendEvent
--   </pre>
getEventExposeSendEvent :: MonadIO m => EventExpose -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventExpose [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventExposeSendEvent :: MonadIO m => EventExpose -> Int8 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventExpose #type
--   </pre>
getEventExposeType :: MonadIO m => EventExpose -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventExpose [ #type <a>:=</a> value ]
--   </pre>
setEventExposeType :: MonadIO m => EventExpose -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventExposeWindow :: MonadIO m => EventExpose -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventExpose #window
--   </pre>
getEventExposeWindow :: MonadIO m => EventExpose -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventExpose [ #window <a>:=</a> value ]
--   </pre>
setEventExposeWindow :: MonadIO m => EventExpose -> Ptr Window -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventExpose.EventExpose
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventExpose.EventExpose
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventExpose.EventExpose
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventExpose.EventExpose
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventExpose.EventExpose tag


-- | Generated during DND operations.
module GI.Gdk.Structs.EventDND

-- | Memory-managed wrapper type.
newtype EventDND
EventDND :: ManagedPtr EventDND -> EventDND

-- | Construct a <a>EventDND</a> struct initialized to zero.
newZeroEventDND :: MonadIO m => m EventDND

-- | Set the value of the “<tt>context</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #context
--   </pre>
clearEventDNDContext :: MonadIO m => EventDND -> m ()

-- | Get the value of the “<tt>context</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventDND #context
--   </pre>
getEventDNDContext :: MonadIO m => EventDND -> m (Maybe DragContext)

-- | Set the value of the “<tt>context</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventDND [ #context <a>:=</a> value ]
--   </pre>
setEventDNDContext :: MonadIO m => EventDND -> Ptr DragContext -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventDND #sendEvent
--   </pre>
getEventDNDSendEvent :: MonadIO m => EventDND -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventDND [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventDNDSendEvent :: MonadIO m => EventDND -> Int8 -> m ()

-- | Get the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventDND #time
--   </pre>
getEventDNDTime :: MonadIO m => EventDND -> m Word32

-- | Set the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventDND [ #time <a>:=</a> value ]
--   </pre>
setEventDNDTime :: MonadIO m => EventDND -> Word32 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventDND #type
--   </pre>
getEventDNDType :: MonadIO m => EventDND -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventDND [ #type <a>:=</a> value ]
--   </pre>
setEventDNDType :: MonadIO m => EventDND -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventDNDWindow :: MonadIO m => EventDND -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventDND #window
--   </pre>
getEventDNDWindow :: MonadIO m => EventDND -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventDND [ #window <a>:=</a> value ]
--   </pre>
setEventDNDWindow :: MonadIO m => EventDND -> Ptr Window -> m ()

-- | Get the value of the “<tt>x_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventDND #xRoot
--   </pre>
getEventDNDXRoot :: MonadIO m => EventDND -> m CShort

-- | Set the value of the “<tt>x_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventDND [ #xRoot <a>:=</a> value ]
--   </pre>
setEventDNDXRoot :: MonadIO m => EventDND -> CShort -> m ()

-- | Get the value of the “<tt>y_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventDND #yRoot
--   </pre>
getEventDNDYRoot :: MonadIO m => EventDND -> m CShort

-- | Set the value of the “<tt>y_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventDND [ #yRoot <a>:=</a> value ]
--   </pre>
setEventDNDYRoot :: MonadIO m => EventDND -> CShort -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventDND.EventDND
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventDND.EventDND
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventDND.EventDND
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventDND.EventDND
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventDND.EventDND tag


-- | Generated when the pointer enters or leaves a window.
module GI.Gdk.Structs.EventCrossing

-- | Memory-managed wrapper type.
newtype EventCrossing
EventCrossing :: ManagedPtr EventCrossing -> EventCrossing

-- | Construct a <a>EventCrossing</a> struct initialized to zero.
newZeroEventCrossing :: MonadIO m => m EventCrossing

-- | Get the value of the “<tt>detail</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventCrossing #detail
--   </pre>
getEventCrossingDetail :: MonadIO m => EventCrossing -> m NotifyType

-- | Set the value of the “<tt>detail</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventCrossing [ #detail <a>:=</a> value ]
--   </pre>
setEventCrossingDetail :: MonadIO m => EventCrossing -> NotifyType -> m ()

-- | Get the value of the “<tt>focus</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventCrossing #focus
--   </pre>
getEventCrossingFocus :: MonadIO m => EventCrossing -> m Bool

-- | Set the value of the “<tt>focus</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventCrossing [ #focus <a>:=</a> value ]
--   </pre>
setEventCrossingFocus :: MonadIO m => EventCrossing -> Bool -> m ()

-- | Get the value of the “<tt>mode</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventCrossing #mode
--   </pre>
getEventCrossingMode :: MonadIO m => EventCrossing -> m CrossingMode

-- | Set the value of the “<tt>mode</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventCrossing [ #mode <a>:=</a> value ]
--   </pre>
setEventCrossingMode :: MonadIO m => EventCrossing -> CrossingMode -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventCrossing #sendEvent
--   </pre>
getEventCrossingSendEvent :: MonadIO m => EventCrossing -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventCrossing [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventCrossingSendEvent :: MonadIO m => EventCrossing -> Int8 -> m ()

-- | Get the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventCrossing #state
--   </pre>
getEventCrossingState :: MonadIO m => EventCrossing -> m [ModifierType]

-- | Set the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventCrossing [ #state <a>:=</a> value ]
--   </pre>
setEventCrossingState :: MonadIO m => EventCrossing -> [ModifierType] -> m ()

-- | Set the value of the “<tt>subwindow</tt>” field to <a>Nothing</a>.
--   When <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #subwindow
--   </pre>
clearEventCrossingSubwindow :: MonadIO m => EventCrossing -> m ()

-- | Get the value of the “<tt>subwindow</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventCrossing #subwindow
--   </pre>
getEventCrossingSubwindow :: MonadIO m => EventCrossing -> m (Maybe Window)

-- | Set the value of the “<tt>subwindow</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventCrossing [ #subwindow <a>:=</a> value ]
--   </pre>
setEventCrossingSubwindow :: MonadIO m => EventCrossing -> Ptr Window -> m ()

-- | Get the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventCrossing #time
--   </pre>
getEventCrossingTime :: MonadIO m => EventCrossing -> m Word32

-- | Set the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventCrossing [ #time <a>:=</a> value ]
--   </pre>
setEventCrossingTime :: MonadIO m => EventCrossing -> Word32 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventCrossing #type
--   </pre>
getEventCrossingType :: MonadIO m => EventCrossing -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventCrossing [ #type <a>:=</a> value ]
--   </pre>
setEventCrossingType :: MonadIO m => EventCrossing -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventCrossingWindow :: MonadIO m => EventCrossing -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventCrossing #window
--   </pre>
getEventCrossingWindow :: MonadIO m => EventCrossing -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventCrossing [ #window <a>:=</a> value ]
--   </pre>
setEventCrossingWindow :: MonadIO m => EventCrossing -> Ptr Window -> m ()

-- | Get the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventCrossing #x
--   </pre>
getEventCrossingX :: MonadIO m => EventCrossing -> m Double

-- | Set the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventCrossing [ #x <a>:=</a> value ]
--   </pre>
setEventCrossingX :: MonadIO m => EventCrossing -> Double -> m ()

-- | Get the value of the “<tt>x_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventCrossing #xRoot
--   </pre>
getEventCrossingXRoot :: MonadIO m => EventCrossing -> m Double

-- | Set the value of the “<tt>x_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventCrossing [ #xRoot <a>:=</a> value ]
--   </pre>
setEventCrossingXRoot :: MonadIO m => EventCrossing -> Double -> m ()

-- | Get the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventCrossing #y
--   </pre>
getEventCrossingY :: MonadIO m => EventCrossing -> m Double

-- | Set the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventCrossing [ #y <a>:=</a> value ]
--   </pre>
setEventCrossingY :: MonadIO m => EventCrossing -> Double -> m ()

-- | Get the value of the “<tt>y_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventCrossing #yRoot
--   </pre>
getEventCrossingYRoot :: MonadIO m => EventCrossing -> m Double

-- | Set the value of the “<tt>y_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventCrossing [ #yRoot <a>:=</a> value ]
--   </pre>
setEventCrossingYRoot :: MonadIO m => EventCrossing -> Double -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventCrossing.EventCrossing
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventCrossing.EventCrossing
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventCrossing.EventCrossing
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventCrossing.EventCrossing
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventCrossing.EventCrossing tag


-- | Generated when a window size or position has changed.
module GI.Gdk.Structs.EventConfigure

-- | Memory-managed wrapper type.
newtype EventConfigure
EventConfigure :: ManagedPtr EventConfigure -> EventConfigure

-- | Construct a <a>EventConfigure</a> struct initialized to zero.
newZeroEventConfigure :: MonadIO m => m EventConfigure

-- | Get the value of the “<tt>height</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventConfigure #height
--   </pre>
getEventConfigureHeight :: MonadIO m => EventConfigure -> m Int32

-- | Set the value of the “<tt>height</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventConfigure [ #height <a>:=</a> value ]
--   </pre>
setEventConfigureHeight :: MonadIO m => EventConfigure -> Int32 -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventConfigure #sendEvent
--   </pre>
getEventConfigureSendEvent :: MonadIO m => EventConfigure -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventConfigure [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventConfigureSendEvent :: MonadIO m => EventConfigure -> Int8 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventConfigure #type
--   </pre>
getEventConfigureType :: MonadIO m => EventConfigure -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventConfigure [ #type <a>:=</a> value ]
--   </pre>
setEventConfigureType :: MonadIO m => EventConfigure -> EventType -> m ()

-- | Get the value of the “<tt>width</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventConfigure #width
--   </pre>
getEventConfigureWidth :: MonadIO m => EventConfigure -> m Int32

-- | Set the value of the “<tt>width</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventConfigure [ #width <a>:=</a> value ]
--   </pre>
setEventConfigureWidth :: MonadIO m => EventConfigure -> Int32 -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventConfigureWindow :: MonadIO m => EventConfigure -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventConfigure #window
--   </pre>
getEventConfigureWindow :: MonadIO m => EventConfigure -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventConfigure [ #window <a>:=</a> value ]
--   </pre>
setEventConfigureWindow :: MonadIO m => EventConfigure -> Ptr Window -> m ()

-- | Get the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventConfigure #x
--   </pre>
getEventConfigureX :: MonadIO m => EventConfigure -> m Int32

-- | Set the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventConfigure [ #x <a>:=</a> value ]
--   </pre>
setEventConfigureX :: MonadIO m => EventConfigure -> Int32 -> m ()

-- | Get the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventConfigure #y
--   </pre>
getEventConfigureY :: MonadIO m => EventConfigure -> m Int32

-- | Set the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventConfigure [ #y <a>:=</a> value ]
--   </pre>
setEventConfigureY :: MonadIO m => EventConfigure -> Int32 -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventConfigure.EventConfigure
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventConfigure.EventConfigure
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventConfigure.EventConfigure
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventConfigure.EventConfigure
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventConfigure.EventConfigure tag


-- | Used for button press and button release events. The
--   <i><tt>type</tt></i> field will be one of <a>EventTypeButtonPress</a>,
--   <a>EventType2buttonPress</a>, <a>EventType3buttonPress</a> or
--   <a>EventTypeButtonRelease</a>,
--   
--   Double and triple-clicks result in a sequence of events being
--   received. For double-clicks the order of events will be:
--   
--   <ul>
--   <li><a>EventTypeButtonPress</a></li>
--   <li><a>EventTypeButtonRelease</a></li>
--   <li><a>EventTypeButtonPress</a></li>
--   <li><a>EventType2buttonPress</a></li>
--   <li><a>EventTypeButtonRelease</a></li>
--   </ul>
--   
--   Note that the first click is received just like a normal button press,
--   while the second click results in a <a>EventType2buttonPress</a> being
--   received just after the <a>EventTypeButtonPress</a>.
--   
--   Triple-clicks are very similar to double-clicks, except that
--   <a>EventType3buttonPress</a> is inserted after the third click. The
--   order of the events is:
--   
--   <ul>
--   <li><a>EventTypeButtonPress</a></li>
--   <li><a>EventTypeButtonRelease</a></li>
--   <li><a>EventTypeButtonPress</a></li>
--   <li><a>EventType2buttonPress</a></li>
--   <li><a>EventTypeButtonRelease</a></li>
--   <li><a>EventTypeButtonPress</a></li>
--   <li><a>EventType3buttonPress</a></li>
--   <li><a>EventTypeButtonRelease</a></li>
--   </ul>
--   
--   For a double click to occur, the second button press must occur within
--   1/4 of a second of the first. For a triple click to occur, the third
--   button press must also occur within 1/2 second of the first button
--   press.
module GI.Gdk.Structs.EventButton

-- | Memory-managed wrapper type.
newtype EventButton
EventButton :: ManagedPtr EventButton -> EventButton

-- | Construct a <a>EventButton</a> struct initialized to zero.
newZeroEventButton :: MonadIO m => m EventButton

-- | Get the value of the “<tt>axes</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventButton #axes
--   </pre>
getEventButtonAxes :: MonadIO m => EventButton -> m Double

-- | Set the value of the “<tt>axes</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventButton [ #axes <a>:=</a> value ]
--   </pre>
setEventButtonAxes :: MonadIO m => EventButton -> Double -> m ()

-- | Get the value of the “<tt>button</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventButton #button
--   </pre>
getEventButtonButton :: MonadIO m => EventButton -> m Word32

-- | Set the value of the “<tt>button</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventButton [ #button <a>:=</a> value ]
--   </pre>
setEventButtonButton :: MonadIO m => EventButton -> Word32 -> m ()

-- | Set the value of the “<tt>device</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #device
--   </pre>
clearEventButtonDevice :: MonadIO m => EventButton -> m ()

-- | Get the value of the “<tt>device</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventButton #device
--   </pre>
getEventButtonDevice :: MonadIO m => EventButton -> m (Maybe Device)

-- | Set the value of the “<tt>device</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventButton [ #device <a>:=</a> value ]
--   </pre>
setEventButtonDevice :: MonadIO m => EventButton -> Ptr Device -> m ()

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventButton #sendEvent
--   </pre>
getEventButtonSendEvent :: MonadIO m => EventButton -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventButton [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventButtonSendEvent :: MonadIO m => EventButton -> Int8 -> m ()

-- | Get the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventButton #state
--   </pre>
getEventButtonState :: MonadIO m => EventButton -> m [ModifierType]

-- | Set the value of the “<tt>state</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventButton [ #state <a>:=</a> value ]
--   </pre>
setEventButtonState :: MonadIO m => EventButton -> [ModifierType] -> m ()

-- | Get the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventButton #time
--   </pre>
getEventButtonTime :: MonadIO m => EventButton -> m Word32

-- | Set the value of the “<tt>time</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventButton [ #time <a>:=</a> value ]
--   </pre>
setEventButtonTime :: MonadIO m => EventButton -> Word32 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventButton #type
--   </pre>
getEventButtonType :: MonadIO m => EventButton -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventButton [ #type <a>:=</a> value ]
--   </pre>
setEventButtonType :: MonadIO m => EventButton -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventButtonWindow :: MonadIO m => EventButton -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventButton #window
--   </pre>
getEventButtonWindow :: MonadIO m => EventButton -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventButton [ #window <a>:=</a> value ]
--   </pre>
setEventButtonWindow :: MonadIO m => EventButton -> Ptr Window -> m ()

-- | Get the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventButton #x
--   </pre>
getEventButtonX :: MonadIO m => EventButton -> m Double

-- | Set the value of the “<tt>x</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventButton [ #x <a>:=</a> value ]
--   </pre>
setEventButtonX :: MonadIO m => EventButton -> Double -> m ()

-- | Get the value of the “<tt>x_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventButton #xRoot
--   </pre>
getEventButtonXRoot :: MonadIO m => EventButton -> m Double

-- | Set the value of the “<tt>x_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventButton [ #xRoot <a>:=</a> value ]
--   </pre>
setEventButtonXRoot :: MonadIO m => EventButton -> Double -> m ()

-- | Get the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventButton #y
--   </pre>
getEventButtonY :: MonadIO m => EventButton -> m Double

-- | Set the value of the “<tt>y</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventButton [ #y <a>:=</a> value ]
--   </pre>
setEventButtonY :: MonadIO m => EventButton -> Double -> m ()

-- | Get the value of the “<tt>y_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventButton #yRoot
--   </pre>
getEventButtonYRoot :: MonadIO m => EventButton -> m Double

-- | Set the value of the “<tt>y_root</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventButton [ #yRoot <a>:=</a> value ]
--   </pre>
setEventButtonYRoot :: MonadIO m => EventButton -> Double -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventButton.EventButton
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventButton.EventButton
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventButton.EventButton
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventButton.EventButton
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventButton.EventButton tag


-- | Contains the fields which are common to all event structs. Any event
--   pointer can safely be cast to a pointer to a <a>EventAny</a> to access
--   these fields.
module GI.Gdk.Structs.EventAny

-- | Memory-managed wrapper type.
newtype EventAny
EventAny :: ManagedPtr EventAny -> EventAny

-- | Construct a <a>EventAny</a> struct initialized to zero.
newZeroEventAny :: MonadIO m => m EventAny

-- | Get the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventAny #sendEvent
--   </pre>
getEventAnySendEvent :: MonadIO m => EventAny -> m Int8

-- | Set the value of the “<tt>send_event</tt>” field. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventAny [ #sendEvent <a>:=</a> value ]
--   </pre>
setEventAnySendEvent :: MonadIO m => EventAny -> Int8 -> m ()

-- | Get the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventAny #type
--   </pre>
getEventAnyType :: MonadIO m => EventAny -> m EventType

-- | Set the value of the “<tt>type</tt>” field. When <a>overloading</a> is
--   enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventAny [ #type <a>:=</a> value ]
--   </pre>
setEventAnyType :: MonadIO m => EventAny -> EventType -> m ()

-- | Set the value of the “<tt>window</tt>” field to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #window
--   </pre>
clearEventAnyWindow :: MonadIO m => EventAny -> m ()

-- | Get the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> eventAny #window
--   </pre>
getEventAnyWindow :: MonadIO m => EventAny -> m (Maybe Window)

-- | Set the value of the “<tt>window</tt>” field. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> eventAny [ #window <a>:=</a> value ]
--   </pre>
setEventAnyWindow :: MonadIO m => EventAny -> Ptr Window -> m ()
instance GHC.Classes.Eq GI.Gdk.Structs.EventAny.EventAny
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Structs.EventAny.EventAny
instance Data.GI.Base.BasicTypes.BoxedPtr GI.Gdk.Structs.EventAny.EventAny
instance Data.GI.Base.BasicTypes.CallocPtr GI.Gdk.Structs.EventAny.EventAny
instance (tag GHC.Types.~ 'Data.GI.Base.Attributes.AttrSet) => Data.GI.Base.Constructible.Constructible GI.Gdk.Structs.EventAny.EventAny tag


module GI.Gdk.Structs


-- | <i>No description available in the introspection data.</i>
module GI.Gdk.Objects.Window

-- | Memory-managed wrapper type.
newtype Window
Window :: ManagedPtr Window -> Window

-- | Type class for types which can be safely cast to <a>Window</a>, for
--   instance with <a>toWindow</a>.
class (GObject o, IsDescendantOf Window o) => IsWindow o

-- | Cast to <a>Window</a>, for types for which this is known to be safe.
--   For general casts, use <a>castTo</a>.
toWindow :: (MonadIO m, IsWindow o) => o -> m Window

-- | Obtains the window underneath the mouse pointer, returning the
--   location of that window in <i><tt>winX</tt></i>, <i><tt>winY</tt></i>.
--   Returns <a>Nothing</a> if the window under the mouse pointer is not
--   known to GDK (if the window belongs to another application and a
--   <a>Window</a> hasn’t been created for it with
--   <tt><i>gdk_window_foreign_new()</i></tt>)
--   
--   NOTE: For multihead-aware widgets or applications use
--   <a>displayGetWindowAtPointer</a> instead.

-- | <i>Deprecated: (Since version 3.0)Use <a>deviceGetWindowAtPosition</a>
--   instead.</i>
windowAtPointer :: (HasCallStack, MonadIO m) => m (Window, Int32, Int32)

-- | Emits a short beep associated to <i><tt>window</tt></i> in the
--   appropriate display, if supported. Otherwise, emits a short beep on
--   the display just as <a>displayBeep</a>.
--   
--   <i>Since: 2.12</i>
windowBeep :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Indicates that you are beginning the process of redrawing
--   <i><tt>region</tt></i> on <i><tt>window</tt></i>, and provides you
--   with a <a>DrawingContext</a>.
--   
--   If <i><tt>window</tt></i> is a top level <a>Window</a>, backed by a
--   native window implementation, a backing store (offscreen buffer) large
--   enough to contain <i><tt>region</tt></i> will be created. The backing
--   store will be initialized with the background color or background
--   surface for <i><tt>window</tt></i>. Then, all drawing operations
--   performed on <i><tt>window</tt></i> will be diverted to the backing
--   store. When you call <tt><i>gdk_window_end_frame()</i></tt>, the
--   contents of the backing store will be copied to
--   <i><tt>window</tt></i>, making it visible on screen. Only the part of
--   <i><tt>window</tt></i> contained in <i><tt>region</tt></i> will be
--   modified; that is, drawing operations are clipped to
--   <i><tt>region</tt></i>.
--   
--   The net result of all this is to remove flicker, because the user sees
--   the finished product appear all at once when you call
--   <a>windowEndDrawFrame</a>. If you draw to <i><tt>window</tt></i>
--   directly without calling <a>windowBeginDrawFrame</a>, the user may see
--   flicker as individual drawing operations are performed in sequence.
--   
--   When using GTK+, the widget system automatically places calls to
--   <a>windowBeginDrawFrame</a> and <a>windowEndDrawFrame</a> around
--   emissions of the <tt>GtkWidget::draw</tt> signal. That is, if you’re
--   drawing the contents of the widget yourself, you can assume that the
--   widget has a cleared background, is already set as the clip region,
--   and already has a backing store. Therefore in most cases, application
--   code in GTK does not need to call <a>windowBeginDrawFrame</a>
--   explicitly.
--   
--   <i>Since: 3.22</i>
windowBeginDrawFrame :: (HasCallStack, MonadIO m, IsWindow a) => a -> Region -> m DrawingContext

-- | Begins a window move operation (for a toplevel window).
--   
--   This function assumes that the drag is controlled by the client
--   pointer device, use <a>windowBeginMoveDragForDevice</a> to begin a
--   drag with a different device.
windowBeginMoveDrag :: (HasCallStack, MonadIO m, IsWindow a) => a -> Int32 -> Int32 -> Int32 -> Word32 -> m ()

-- | Begins a window move operation (for a toplevel window). You might use
--   this function to implement a “window move grip,” for example. The
--   function works best with window managers that support the <a>Extended
--   Window Manager Hints</a> but has a fallback implementation for other
--   window managers.
--   
--   <i>Since: 3.4</i>
windowBeginMoveDragForDevice :: (HasCallStack, MonadIO m, IsWindow a, IsDevice b) => a -> b -> Int32 -> Int32 -> Int32 -> Word32 -> m ()

-- | A convenience wrapper around <a>windowBeginPaintRegion</a> which
--   creates a rectangular region for you. See
--   <a>windowBeginPaintRegion</a> for details.

-- | <i>Deprecated: (Since version 3.22)Use <a>windowBeginDrawFrame</a>
--   instead</i>
windowBeginPaintRect :: (HasCallStack, MonadIO m, IsWindow a) => a -> Rectangle -> m ()

-- | Indicates that you are beginning the process of redrawing
--   <i><tt>region</tt></i>. A backing store (offscreen buffer) large
--   enough to contain <i><tt>region</tt></i> will be created. The backing
--   store will be initialized with the background color or background
--   surface for <i><tt>window</tt></i>. Then, all drawing operations
--   performed on <i><tt>window</tt></i> will be diverted to the backing
--   store. When you call <a>windowEndPaint</a>, the backing store will be
--   copied to <i><tt>window</tt></i>, making it visible onscreen. Only the
--   part of <i><tt>window</tt></i> contained in <i><tt>region</tt></i>
--   will be modified; that is, drawing operations are clipped to
--   <i><tt>region</tt></i>.
--   
--   The net result of all this is to remove flicker, because the user sees
--   the finished product appear all at once when you call
--   <a>windowEndPaint</a>. If you draw to <i><tt>window</tt></i> directly
--   without calling <a>windowBeginPaintRegion</a>, the user may see
--   flicker as individual drawing operations are performed in sequence.
--   The clipping and background-initializing features of
--   <a>windowBeginPaintRegion</a> are conveniences for the programmer, so
--   you can avoid doing that work yourself.
--   
--   When using GTK+, the widget system automatically places calls to
--   <a>windowBeginPaintRegion</a> and <a>windowEndPaint</a> around
--   emissions of the expose_event signal. That is, if you’re writing an
--   expose event handler, you can assume that the exposed area in
--   <a>EventExpose</a> has already been cleared to the window background,
--   is already set as the clip region, and already has a backing store.
--   Therefore in most cases, application code need not call
--   <a>windowBeginPaintRegion</a>. (You can disable the automatic calls
--   around expose events on a widget-by-widget basis by calling
--   <tt><i>gtk_widget_set_double_buffered()</i></tt>.)
--   
--   If you call this function multiple times before calling the matching
--   <a>windowEndPaint</a>, the backing stores are pushed onto a stack.
--   <a>windowEndPaint</a> copies the topmost backing store onscreen,
--   subtracts the topmost region from all other regions in the stack, and
--   pops the stack. All drawing operations affect only the topmost backing
--   store in the stack. One matching call to <a>windowEndPaint</a> is
--   required for each call to <a>windowBeginPaintRegion</a>.

-- | <i>Deprecated: (Since version 3.22)Use <a>windowBeginDrawFrame</a>
--   instead</i>
windowBeginPaintRegion :: (HasCallStack, MonadIO m, IsWindow a) => a -> Region -> m ()

-- | Begins a window resize operation (for a toplevel window).
--   
--   This function assumes that the drag is controlled by the client
--   pointer device, use <a>windowBeginResizeDragForDevice</a> to begin a
--   drag with a different device.
windowBeginResizeDrag :: (HasCallStack, MonadIO m, IsWindow a) => a -> WindowEdge -> Int32 -> Int32 -> Int32 -> Word32 -> m ()

-- | Begins a window resize operation (for a toplevel window). You might
--   use this function to implement a “window resize grip,” for example; in
--   fact <tt><i>GtkStatusbar</i></tt> uses it. The function works best
--   with window managers that support the <a>Extended Window Manager
--   Hints</a> but has a fallback implementation for other window managers.
--   
--   <i>Since: 3.4</i>
windowBeginResizeDragForDevice :: (HasCallStack, MonadIO m, IsWindow a, IsDevice b) => a -> WindowEdge -> b -> Int32 -> Int32 -> Int32 -> Word32 -> m ()

-- | Does nothing, present only for compatiblity.
--   
--   <i>Since: 2.6</i>

-- | <i>Deprecated: (Since version 3.8)this function is no longer
--   needed</i>
windowConfigureFinished :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Constrains a desired width and height according to a set of geometry
--   hints (such as minimum and maximum size).
windowConstrainSize :: (HasCallStack, MonadIO m) => Geometry -> [WindowHints] -> Int32 -> Int32 -> m (Int32, Int32)

-- | Transforms window coordinates from a parent window to a child window,
--   where the parent window is the normal parent as returned by
--   <a>windowGetParent</a> for normal windows, and the window's embedder
--   as returned by <a>offscreenWindowGetEmbedder</a> for offscreen
--   windows.
--   
--   For normal windows, calling this function is equivalent to subtracting
--   the return values of <a>windowGetPosition</a> from the parent
--   coordinates. For offscreen windows however (which can be arbitrarily
--   transformed), this function calls the GdkWindow<a>fromEmbedder</a>:
--   signal to translate the coordinates.
--   
--   You should always use this function when writing generic code that
--   walks down a window hierarchy.
--   
--   See also: <a>windowCoordsToParent</a>
--   
--   <i>Since: 2.22</i>
windowCoordsFromParent :: (HasCallStack, MonadIO m, IsWindow a) => a -> Double -> Double -> m (Double, Double)

-- | Transforms window coordinates from a child window to its parent
--   window, where the parent window is the normal parent as returned by
--   <a>windowGetParent</a> for normal windows, and the window's embedder
--   as returned by <a>offscreenWindowGetEmbedder</a> for offscreen
--   windows.
--   
--   For normal windows, calling this function is equivalent to adding the
--   return values of <a>windowGetPosition</a> to the child coordinates.
--   For offscreen windows however (which can be arbitrarily transformed),
--   this function calls the GdkWindow<a>toEmbedder</a>: signal to
--   translate the coordinates.
--   
--   You should always use this function when writing generic code that
--   walks up a window hierarchy.
--   
--   See also: <a>windowCoordsFromParent</a>
--   
--   <i>Since: 2.22</i>
windowCoordsToParent :: (HasCallStack, MonadIO m, IsWindow a) => a -> Double -> Double -> m (Double, Double)

-- | Creates a new <a>GLContext</a> matching the framebuffer format to the
--   visual of the <a>Window</a>. The context is disconnected from any
--   particular window or surface.
--   
--   If the creation of the <a>GLContext</a> failed, <i><tt>error</tt></i>
--   will be set.
--   
--   Before using the returned <a>GLContext</a>, you will need to call
--   <a>gLContextMakeCurrent</a> or <a>gLContextRealize</a>.
--   
--   <i>Since: 3.16</i>
windowCreateGlContext :: (HasCallStack, MonadIO m, IsWindow a) => a -> m GLContext

-- | Create a new image surface that is efficient to draw on the given
--   <i><tt>window</tt></i>.
--   
--   Initially the surface contents are all 0 (transparent if contents have
--   transparency, black otherwise.)
--   
--   The <i><tt>width</tt></i> and <i><tt>height</tt></i> of the new
--   surface are not affected by the scaling factor of the
--   <i><tt>window</tt></i>, or by the <i><tt>scale</tt></i> argument; they
--   are the size of the surface in device pixels. If you wish to create an
--   image surface capable of holding the contents of
--   <i><tt>window</tt></i> you can use:
--   
--   <h3><i>C code</i></h3>
--   
--   <pre>
--   int scale = gdk_window_get_scale_factor (window);
--   int width = gdk_window_get_width (window) * scale;
--   int height = gdk_window_get_height (window) * scale;
--   
--   // format is set elsewhere
--   cairo_surface_t *surface =
--     gdk_window_create_similar_image_surface (window,
--                                              format,
--                                              width, height,
--                                              scale);
--   </pre>
--   
--   Note that unlike <tt><i>cairo_surface_create_similar_image()</i></tt>,
--   the new surface's device scale is set to <i><tt>scale</tt></i>, or to
--   the scale factor of <i><tt>window</tt></i> if <i><tt>scale</tt></i> is
--   0.
--   
--   <i>Since: 3.10</i>
windowCreateSimilarImageSurface :: (HasCallStack, MonadIO m, IsWindow a) => Maybe a -> Format -> Int32 -> Int32 -> Int32 -> m Surface

-- | Create a new surface that is as compatible as possible with the given
--   <i><tt>window</tt></i>. For example the new surface will have the same
--   fallback resolution and font options as <i><tt>window</tt></i>.
--   Generally, the new surface will also use the same backend as
--   <i><tt>window</tt></i>, unless that is not possible for some reason.
--   The type of the returned surface may be examined with
--   <tt><i>cairo_surface_get_type()</i></tt>.
--   
--   Initially the surface contents are all 0 (transparent if contents have
--   transparency, black otherwise.)
--   
--   <i>Since: 2.22</i>
windowCreateSimilarSurface :: (HasCallStack, MonadIO m, IsWindow a) => a -> Content -> Int32 -> Int32 -> m Surface

-- | Attempt to deiconify (unminimize) <i><tt>window</tt></i>. On X11 the
--   window manager may choose to ignore the request to deiconify. When
--   using GTK+, use <tt><i>gtk_window_deiconify()</i></tt> instead of the
--   <a>Window</a> variant. Or better yet, you probably want to use
--   <tt><i>gtk_window_present_with_time()</i></tt>, which raises the
--   window, focuses it, unminimizes it, and puts it on the current
--   desktop.
windowDeiconify :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Destroys the window system resources associated with
--   <i><tt>window</tt></i> and decrements <i><tt>window</tt></i>'s
--   reference count. The window system resources for all children of
--   <i><tt>window</tt></i> are also destroyed, but the children’s
--   reference counts are not decremented.
--   
--   Note that a window will not be destroyed automatically when its
--   reference count reaches zero. You must call this function yourself
--   before that happens.
windowDestroy :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | <i>No description available in the introspection data.</i>
windowDestroyNotify :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Does nothing, present only for compatiblity.
--   
--   <i>Since: 2.6</i>

-- | <i>Deprecated: (Since version 3.8)this function is no longer
--   needed</i>
windowEnableSynchronizedConfigure :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Indicates that the drawing of the contents of <i><tt>window</tt></i>
--   started with <tt><i>gdk_window_begin_frame()</i></tt> has been
--   completed.
--   
--   This function will take care of destroying the <a>DrawingContext</a>.
--   
--   It is an error to call this function without a matching
--   <tt><i>gdk_window_begin_frame()</i></tt> first.
--   
--   <i>Since: 3.22</i>
windowEndDrawFrame :: (HasCallStack, MonadIO m, IsWindow a, IsDrawingContext b) => a -> b -> m ()

-- | Indicates that the backing store created by the most recent call to
--   <a>windowBeginPaintRegion</a> should be copied onscreen and deleted,
--   leaving the next-most-recent backing store or no backing store at all
--   as the active paint region. See <a>windowBeginPaintRegion</a> for full
--   details.
--   
--   It is an error to call this function without a matching
--   <a>windowBeginPaintRegion</a> first.
windowEndPaint :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Tries to ensure that there is a window-system native window for this
--   GdkWindow. This may fail in some situations, returning <a>False</a>.
--   
--   Offscreen window and children of them can never have native windows.
--   
--   Some backends may not support native child windows.
--   
--   <i>Since: 2.18</i>
windowEnsureNative :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Bool

-- | This function does nothing.
--   
--   <i>Since: 2.18</i>

-- | <i>Deprecated: (Since version 3.14)</i>
windowFlush :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Sets keyboard focus to <i><tt>window</tt></i>. In most cases,
--   <tt><i>gtk_window_present_with_time()</i></tt> should be used on a
--   <tt><i>GtkWindow</i></tt>, rather than calling this function.
windowFocus :: (HasCallStack, MonadIO m, IsWindow a) => a -> Word32 -> m ()

-- | Temporarily freezes a window and all its descendants such that it
--   won't receive expose events. The window will begin receiving expose
--   events again when <a>windowThawToplevelUpdatesLibgtkOnly</a> is
--   called. If <a>windowFreezeToplevelUpdatesLibgtkOnly</a> has been
--   called more than once, <a>windowThawToplevelUpdatesLibgtkOnly</a> must
--   be called an equal number of times to begin processing exposes.
--   
--   This function is not part of the GDK public API and is only for use by
--   GTK+.

-- | <i>Deprecated: (Since version 3.16)This symbol was never meant to be
--   used outside of GTK+</i>
windowFreezeToplevelUpdatesLibgtkOnly :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Temporarily freezes a window such that it won’t receive expose events.
--   The window will begin receiving expose events again when
--   <a>windowThawUpdates</a> is called. If <a>windowFreezeUpdates</a> has
--   been called more than once, <a>windowThawUpdates</a> must be called an
--   equal number of times to begin processing exposes.
windowFreezeUpdates :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Moves the window into fullscreen mode. This means the window covers
--   the entire screen and is above any panels or task bars.
--   
--   If the window was already fullscreen, then this function does nothing.
--   
--   On X11, asks the window manager to put <i><tt>window</tt></i> in a
--   fullscreen state, if the window manager supports this operation. Not
--   all window managers support this, and some deliberately ignore it or
--   don’t have a concept of “fullscreen”; so you can’t rely on the
--   fullscreenification actually happening. But it will happen with most
--   standard window managers, and GDK makes a best effort to get it to
--   happen.
--   
--   <i>Since: 2.2</i>
windowFullscreen :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Moves the window into fullscreen mode on the given monitor. This means
--   the window covers the entire screen and is above any panels or task
--   bars.
--   
--   If the window was already fullscreen, then this function does nothing.
windowFullscreenOnMonitor :: (HasCallStack, MonadIO m, IsWindow a) => a -> Int32 -> m ()

-- | This function informs GDK that the geometry of an embedded offscreen
--   window has changed. This is necessary for GDK to keep track of which
--   offscreen window the pointer is in.
--   
--   <i>Since: 2.18</i>
windowGeometryChanged :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Determines whether or not the desktop environment shuld be hinted that
--   the window does not want to receive input focus.
--   
--   <i>Since: 2.22</i>
windowGetAcceptFocus :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Bool

-- | Gets the pattern used to clear the background on
--   <i><tt>window</tt></i>.
--   
--   <i>Since: 2.22</i>

-- | <i>Deprecated: (Since version 3.22)Don't use this function</i>
windowGetBackgroundPattern :: (HasCallStack, MonadIO m, IsWindow a) => a -> m (Maybe Pattern)

-- | Gets the list of children of <i><tt>window</tt></i> known to GDK. This
--   function only returns children created via GDK, so for example it’s
--   useless when used with the root window; it only returns windows an
--   application created itself.
--   
--   The returned list must be freed, but the elements in the list need not
--   be.
windowGetChildren :: (HasCallStack, MonadIO m, IsWindow a) => a -> m [Window]

-- | Gets the list of children of <i><tt>window</tt></i> known to GDK with
--   a particular <i><tt>userData</tt></i> set on it.
--   
--   The returned list must be freed, but the elements in the list need not
--   be.
--   
--   The list is returned in (relative) stacking order, i.e. the lowest
--   window is first.
--   
--   <i>Since: 3.10</i>
windowGetChildrenWithUserData :: (HasCallStack, MonadIO m, IsWindow a) => a -> Ptr () -> m [Window]

-- | Computes the region of a window that potentially can be written to by
--   drawing primitives. This region may not take into account other
--   factors such as if the window is obscured by other windows, but no
--   area outside of this region will be affected by drawing primitives.
windowGetClipRegion :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Region

-- | Determines whether <i><tt>window</tt></i> is composited.
--   
--   See <a>windowSetComposited</a>.
--   
--   <i>Since: 2.22</i>

-- | <i>Deprecated: (Since version 3.16)Compositing is an outdated
--   technology that only ever worked on X11.</i>
windowGetComposited :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Bool

-- | Retrieves a <a>Cursor</a> pointer for the cursor currently set on the
--   specified <a>Window</a>, or <a>Nothing</a>. If the return value is
--   <a>Nothing</a> then there is no custom cursor set on the specified
--   window, and it is using the cursor for its parent window.
--   
--   <i>Since: 2.18</i>
windowGetCursor :: (HasCallStack, MonadIO m, IsWindow a) => a -> m (Maybe Cursor)

-- | Returns the decorations set on the GdkWindow with
--   <a>windowSetDecorations</a>.
windowGetDecorations :: (HasCallStack, MonadIO m, IsWindow a) => a -> m (Bool, [WMDecoration])

-- | Retrieves a <a>Cursor</a> pointer for the <i><tt>device</tt></i>
--   currently set on the specified <a>Window</a>, or <a>Nothing</a>. If
--   the return value is <a>Nothing</a> then there is no custom cursor set
--   on the specified window, and it is using the cursor for its parent
--   window.
--   
--   <i>Since: 3.0</i>
windowGetDeviceCursor :: (HasCallStack, MonadIO m, IsWindow a, IsDevice b) => a -> b -> m (Maybe Cursor)

-- | Returns the event mask for <i><tt>window</tt></i> corresponding to an
--   specific device.
--   
--   <i>Since: 3.0</i>
windowGetDeviceEvents :: (HasCallStack, MonadIO m, IsWindow a, IsDevice b) => a -> b -> m [EventMask]

-- | Obtains the current device position and modifier state. The position
--   is given in coordinates relative to the upper left corner of
--   <i><tt>window</tt></i>.
--   
--   Use <a>windowGetDevicePositionDouble</a> if you need subpixel
--   precision.
--   
--   <i>Since: 3.0</i>
windowGetDevicePosition :: (HasCallStack, MonadIO m, IsWindow a, IsDevice b) => a -> b -> m (Maybe Window, Int32, Int32, [ModifierType])

-- | Obtains the current device position in doubles and modifier state. The
--   position is given in coordinates relative to the upper left corner of
--   <i><tt>window</tt></i>.
--   
--   <i>Since: 3.10</i>
windowGetDevicePositionDouble :: (HasCallStack, MonadIO m, IsWindow a, IsDevice b) => a -> b -> m (Maybe Window, Double, Double, [ModifierType])

-- | Gets the <a>Display</a> associated with a <a>Window</a>.
--   
--   <i>Since: 2.24</i>
windowGetDisplay :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Display

-- | Finds out the DND protocol supported by a window.
--   
--   <i>Since: 3.0</i>
windowGetDragProtocol :: (HasCallStack, MonadIO m, IsWindow a) => a -> m (DragProtocol, Window)

-- | Obtains the parent of <i><tt>window</tt></i>, as known to GDK. Works
--   like <a>windowGetParent</a> for normal windows, but returns the
--   window’s embedder for offscreen windows.
--   
--   See also: <a>offscreenWindowGetEmbedder</a>
--   
--   <i>Since: 2.22</i>
windowGetEffectiveParent :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Window

-- | Gets the toplevel window that’s an ancestor of <i><tt>window</tt></i>.
--   
--   Works like <a>windowGetToplevel</a>, but treats an offscreen window's
--   embedder as its parent, using <a>windowGetEffectiveParent</a>.
--   
--   See also: <a>offscreenWindowGetEmbedder</a>
--   
--   <i>Since: 2.22</i>
windowGetEffectiveToplevel :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Window

-- | Get the current event compression setting for this window.
--   
--   <i>Since: 3.12</i>
windowGetEventCompression :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Bool

-- | Gets the event mask for <i><tt>window</tt></i> for all master input
--   devices. See <a>windowSetEvents</a>.
windowGetEvents :: (HasCallStack, MonadIO m, IsWindow a) => a -> m [EventMask]

-- | Determines whether or not the desktop environment should be hinted
--   that the window does not want to receive input focus when it is
--   mapped.
--   
--   <i>Since: 2.22</i>
windowGetFocusOnMap :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Bool

-- | Gets the frame clock for the window. The frame clock for a window
--   never changes unless the window is reparented to a new toplevel
--   window.
--   
--   <i>Since: 3.8</i>
windowGetFrameClock :: (HasCallStack, MonadIO m, IsWindow a) => a -> m FrameClock

-- | Obtains the bounding box of the window, including window manager
--   titlebar/borders if any. The frame position is given in root window
--   coordinates. To get the position of the window itself (rather than the
--   frame) in root window coordinates, use <a>windowGetOrigin</a>.
windowGetFrameExtents :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Rectangle

-- | Obtains the <a>FullscreenMode</a> of the <i><tt>window</tt></i>.
--   
--   <i>Since: 3.8</i>
windowGetFullscreenMode :: (HasCallStack, MonadIO m, IsWindow a) => a -> m FullscreenMode

-- | Any of the return location arguments to this function may be
--   <a>Nothing</a>, if you aren’t interested in getting the value of that
--   field.
--   
--   The X and Y coordinates returned are relative to the parent window of
--   <i><tt>window</tt></i>, which for toplevels usually means relative to
--   the window decorations (titlebar, etc.) rather than relative to the
--   root window (screen-size background window).
--   
--   On the X11 platform, the geometry is obtained from the X server, so
--   reflects the latest position of <i><tt>window</tt></i>; this may be
--   out-of-sync with the position of <i><tt>window</tt></i> delivered in
--   the most-recently-processed <a>EventConfigure</a>.
--   <a>windowGetPosition</a> in contrast gets the position from the most
--   recent configure event.
--   
--   Note: If <i><tt>window</tt></i> is not a toplevel, it is much better
--   to call <a>windowGetPosition</a>, <a>windowGetWidth</a> and
--   <a>windowGetHeight</a> instead, because it avoids the roundtrip to the
--   X server and because these functions support the full 32-bit
--   coordinate space, whereas <a>windowGetGeometry</a> is restricted to
--   the 16-bit coordinates of X11.
windowGetGeometry :: (HasCallStack, MonadIO m, IsWindow a) => a -> m (Int32, Int32, Int32, Int32)

-- | Returns the group leader window for <i><tt>window</tt></i>. See
--   <a>windowSetGroup</a>.
--   
--   <i>Since: 2.4</i>
windowGetGroup :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Window

-- | Returns the height of the given <i><tt>window</tt></i>.
--   
--   On the X11 platform the returned size is the size reported in the
--   most-recently-processed configure event, rather than the current size
--   on the X server.
--   
--   <i>Since: 2.24</i>
windowGetHeight :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Int32

-- | Determines whether or not the window manager is hinted that
--   <i><tt>window</tt></i> has modal behaviour.
--   
--   <i>Since: 2.22</i>
windowGetModalHint :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Bool

-- | Obtains the position of a window in root window coordinates. (Compare
--   with <a>windowGetPosition</a> and <a>windowGetGeometry</a> which
--   return the position of a window relative to its parent window.)
windowGetOrigin :: (HasCallStack, MonadIO m, IsWindow a) => a -> m (Int32, Int32, Int32)

-- | Obtains the parent of <i><tt>window</tt></i>, as known to GDK. Does
--   not query the X server; thus this returns the parent as passed to
--   <a>windowNew</a>, not the actual parent. This should never matter
--   unless you’re using Xlib calls mixed with GDK calls on the X11
--   platform. It may also matter for toplevel windows, because the window
--   manager may choose to reparent them.
--   
--   Note that you should use <a>windowGetEffectiveParent</a> when writing
--   generic code that walks up a window hierarchy, because
--   <a>windowGetParent</a> will most likely not do what you expect if
--   there are offscreen windows in the hierarchy.
windowGetParent :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Window

-- | Returns whether input to the window is passed through to the window
--   below.
--   
--   See <a>windowSetPassThrough</a> for details
--   
--   <i>Since: 3.18</i>
windowGetPassThrough :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Bool

-- | Obtains the current pointer position and modifier state. The position
--   is given in coordinates relative to the upper left corner of
--   <i><tt>window</tt></i>.

-- | <i>Deprecated: (Since version 3.0)Use <a>windowGetDevicePosition</a>
--   instead.</i>
windowGetPointer :: (HasCallStack, MonadIO m, IsWindow a) => a -> m (Maybe Window, Int32, Int32, [ModifierType])

-- | Obtains the position of the window as reported in the
--   most-recently-processed <a>EventConfigure</a>. Contrast with
--   <a>windowGetGeometry</a> which queries the X server for the current
--   window position, regardless of which events have been received or
--   processed.
--   
--   The position coordinates are relative to the window’s parent window.
windowGetPosition :: (HasCallStack, MonadIO m, IsWindow a) => a -> m (Int32, Int32)

-- | Obtains the position of a window position in root window coordinates.
--   This is similar to <a>windowGetOrigin</a> but allows you to pass in
--   any position in the window, not just the origin.
--   
--   <i>Since: 2.18</i>
windowGetRootCoords :: (HasCallStack, MonadIO m, IsWindow a) => a -> Int32 -> Int32 -> m (Int32, Int32)

-- | Obtains the top-left corner of the window manager frame in root window
--   coordinates.
windowGetRootOrigin :: (HasCallStack, MonadIO m, IsWindow a) => a -> m (Int32, Int32)

-- | Returns the internal scale factor that maps from window coordiantes to
--   the actual device pixels. On traditional systems this is 1, but on
--   very high density outputs this can be a higher value (often 2).
--   
--   A higher value means that drawing is automatically scaled up to a
--   higher resolution, so any code doing drawing will automatically look
--   nicer. However, if you are supplying pixel-based data the scale value
--   can be used to determine whether to use a pixel resource with higher
--   resolution data.
--   
--   The scale of a window may change during runtime, if this happens a
--   configure event will be sent to the toplevel window.
--   
--   <i>Since: 3.10</i>
windowGetScaleFactor :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Int32

-- | Gets the <a>Screen</a> associated with a <a>Window</a>.
--   
--   <i>Since: 2.24</i>
windowGetScreen :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Screen

-- | Returns the event mask for <i><tt>window</tt></i> corresponding to the
--   device class specified by <i><tt>source</tt></i>.
windowGetSourceEvents :: (HasCallStack, MonadIO m, IsWindow a) => a -> InputSource -> m [EventMask]

-- | Gets the bitwise OR of the currently active window state flags, from
--   the <a>WindowState</a> enumeration.
windowGetState :: (HasCallStack, MonadIO m, IsWindow a) => a -> m [WindowState]

-- | Returns <a>True</a> if the window is aware of the existence of
--   multiple devices.
--   
--   <i>Since: 3.0</i>
windowGetSupportMultidevice :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Bool

-- | Gets the toplevel window that’s an ancestor of <i><tt>window</tt></i>.
--   
--   Any window type but <a>WindowTypeChild</a> is considered a toplevel
--   window, as is a <a>WindowTypeChild</a> window that has a root window
--   as parent.
--   
--   Note that you should use <a>windowGetEffectiveToplevel</a> when you
--   want to get to a window’s toplevel as seen on screen, because
--   <a>windowGetToplevel</a> will most likely not do what you expect if
--   there are offscreen windows in the hierarchy.
windowGetToplevel :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Window

-- | This function returns the type hint set for a window.
--   
--   <i>Since: 2.10</i>
windowGetTypeHint :: (HasCallStack, MonadIO m, IsWindow a) => a -> m WindowTypeHint

-- | Transfers ownership of the update area from <i><tt>window</tt></i> to
--   the caller of the function. That is, after calling this function,
--   <i><tt>window</tt></i> will no longer have an invalid/dirty region;
--   the update area is removed from <i><tt>window</tt></i> and handed to
--   you. If a window has no update area, <a>windowGetUpdateArea</a>
--   returns <a>Nothing</a>. You are responsible for calling
--   <tt><i>cairo_region_destroy()</i></tt> on the returned region if it’s
--   non-<a>Nothing</a>.
windowGetUpdateArea :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Region

-- | Retrieves the user data for <i><tt>window</tt></i>, which is normally
--   the widget that <i><tt>window</tt></i> belongs to. See
--   <a>windowSetUserData</a>.
windowGetUserData :: (HasCallStack, MonadIO m, IsWindow a) => a -> m (Ptr ())

-- | Computes the region of the <i><tt>window</tt></i> that is potentially
--   visible. This does not necessarily take into account if the window is
--   obscured by other windows, but no area outside of this region is
--   visible.
windowGetVisibleRegion :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Region

-- | Gets the <a>Visual</a> describing the pixel format of
--   <i><tt>window</tt></i>.
--   
--   <i>Since: 2.24</i>
windowGetVisual :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Visual

-- | Returns the width of the given <i><tt>window</tt></i>.
--   
--   On the X11 platform the returned size is the size reported in the
--   most-recently-processed configure event, rather than the current size
--   on the X server.
--   
--   <i>Since: 2.24</i>
windowGetWidth :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Int32

-- | Gets the type of the window. See <a>WindowType</a>.
windowGetWindowType :: (HasCallStack, MonadIO m, IsWindow a) => a -> m WindowType

-- | Checks whether the window has a native window or not. Note that you
--   can use <a>windowEnsureNative</a> if a native window is needed.
--   
--   <i>Since: 2.22</i>
windowHasNative :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Bool

-- | For toplevel windows, withdraws them, so they will no longer be known
--   to the window manager; for all windows, unmaps them, so they won’t be
--   displayed. Normally done automatically as part of
--   <tt><i>gtk_widget_hide()</i></tt>.
windowHide :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Asks to iconify (minimize) <i><tt>window</tt></i>. The window manager
--   may choose to ignore the request, but normally will honor it. Using
--   <tt><i>gtk_window_iconify()</i></tt> is preferred, if you have a
--   <tt><i>GtkWindow</i></tt> widget.
--   
--   This function only makes sense when <i><tt>window</tt></i> is a
--   toplevel window.
windowIconify :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Like <a>windowShapeCombineRegion</a>, but the shape applies only to
--   event handling. Mouse events which happen while the pointer position
--   corresponds to an unset bit in the mask will be passed on the window
--   below <i><tt>window</tt></i>.
--   
--   An input shape is typically used with RGBA windows. The alpha channel
--   of the window defines which pixels are invisible and allows for nicely
--   antialiased borders, and the input shape controls where the window is
--   “clickable”.
--   
--   On the X11 platform, this requires version 1.1 of the shape extension.
--   
--   On the Win32 platform, this functionality is not present and the
--   function does nothing.
--   
--   <i>Since: 2.10</i>
windowInputShapeCombineRegion :: (HasCallStack, MonadIO m, IsWindow a) => a -> Region -> Int32 -> Int32 -> m ()

-- | Adds <i><tt>region</tt></i> to the update area for
--   <i><tt>window</tt></i>. The update area is the region that needs to be
--   redrawn, or “dirty region.” The call <a>windowProcessUpdates</a> sends
--   one or more expose events to the window, which together cover the
--   entire update area. An application would normally redraw the contents
--   of <i><tt>window</tt></i> in response to those expose events.
--   
--   GDK will call <a>windowProcessAllUpdates</a> on your behalf whenever
--   your program returns to the main loop and becomes idle, so normally
--   there’s no need to do that manually, you just need to invalidate
--   regions that you know should be redrawn.
--   
--   The <i><tt>childFunc</tt></i> parameter controls whether the region of
--   each child window that intersects <i><tt>region</tt></i> will also be
--   invalidated. Only children for which <i><tt>childFunc</tt></i> returns
--   <tt><i>TRUE</i></tt> will have the area invalidated.
windowInvalidateMaybeRecurse :: (HasCallStack, MonadIO m, IsWindow a) => a -> Region -> Maybe WindowChildFunc -> m ()

-- | A convenience wrapper around <a>windowInvalidateRegion</a> which
--   invalidates a rectangular region. See <a>windowInvalidateRegion</a>
--   for details.
windowInvalidateRect :: (HasCallStack, MonadIO m, IsWindow a) => a -> Maybe Rectangle -> Bool -> m ()

-- | Adds <i><tt>region</tt></i> to the update area for
--   <i><tt>window</tt></i>. The update area is the region that needs to be
--   redrawn, or “dirty region.” The call <a>windowProcessUpdates</a> sends
--   one or more expose events to the window, which together cover the
--   entire update area. An application would normally redraw the contents
--   of <i><tt>window</tt></i> in response to those expose events.
--   
--   GDK will call <a>windowProcessAllUpdates</a> on your behalf whenever
--   your program returns to the main loop and becomes idle, so normally
--   there’s no need to do that manually, you just need to invalidate
--   regions that you know should be redrawn.
--   
--   The <i><tt>invalidateChildren</tt></i> parameter controls whether the
--   region of each child window that intersects <i><tt>region</tt></i>
--   will also be invalidated. If <a>False</a>, then the update area for
--   child windows will remain unaffected. See
--   gdk_window_invalidate_maybe_recurse if you need fine grained control
--   over which children are invalidated.
windowInvalidateRegion :: (HasCallStack, MonadIO m, IsWindow a) => a -> Region -> Bool -> m ()

-- | Check to see if a window is destroyed..
--   
--   <i>Since: 2.18</i>
windowIsDestroyed :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Bool

-- | Determines whether or not the window is an input only window.
--   
--   <i>Since: 2.22</i>
windowIsInputOnly :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Bool

-- | Determines whether or not the window is shaped.
--   
--   <i>Since: 2.22</i>
windowIsShaped :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Bool

-- | Check if the window and all ancestors of the window are mapped. (This
--   is not necessarily "viewable" in the X sense, since we only check as
--   far as we have GDK window parents, not to the root window.)
windowIsViewable :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Bool

-- | Checks whether the window has been mapped (with <a>windowShow</a> or
--   <a>windowShowUnraised</a>).
windowIsVisible :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Bool

-- | Lowers <i><tt>window</tt></i> to the bottom of the Z-order (stacking
--   order), so that other windows with the same parent window appear above
--   <i><tt>window</tt></i>. This is true whether or not the other windows
--   are visible.
--   
--   If <i><tt>window</tt></i> is a toplevel, the window manager may choose
--   to deny the request to move the window in the Z-order,
--   <a>windowLower</a> only requests the restack, does not guarantee it.
--   
--   Note that <a>windowShow</a> raises the window again, so don’t call
--   this function before <a>windowShow</a>. (Try
--   <a>windowShowUnraised</a>.)
windowLower :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | If you call this during a paint (e.g. between
--   <a>windowBeginPaintRegion</a> and <a>windowEndPaint</a> then GDK will
--   mark the current clip region of the window as being drawn. This is
--   required when mixing GL rendering via <a>cairoDrawFromGl</a> and cairo
--   rendering, as otherwise GDK has no way of knowing when something
--   paints over the GL-drawn regions.
--   
--   This is typically called automatically by GTK+ and you don't need to
--   care about this.
--   
--   <i>Since: 3.16</i>
windowMarkPaintFromClip :: (HasCallStack, MonadIO m, IsWindow a) => a -> Context -> m ()

-- | Maximizes the window. If the window was already maximized, then this
--   function does nothing.
--   
--   On X11, asks the window manager to maximize <i><tt>window</tt></i>, if
--   the window manager supports this operation. Not all window managers
--   support this, and some deliberately ignore it or don’t have a concept
--   of “maximized”; so you can’t rely on the maximization actually
--   happening. But it will happen with most standard window managers, and
--   GDK makes a best effort to get it to happen.
--   
--   On Windows, reliably maximizes the window.
windowMaximize :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Merges the input shape masks for any child windows into the input
--   shape mask for <i><tt>window</tt></i>. i.e. the union of all input
--   masks for <i><tt>window</tt></i> and its children will become the new
--   input mask for <i><tt>window</tt></i>. See
--   <a>windowInputShapeCombineRegion</a>.
--   
--   This function is distinct from <a>windowSetChildInputShapes</a>
--   because it includes <i><tt>window</tt></i>’s input shape mask in the
--   set of shapes to be merged.
--   
--   <i>Since: 2.10</i>
windowMergeChildInputShapes :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Merges the shape masks for any child windows into the shape mask for
--   <i><tt>window</tt></i>. i.e. the union of all masks for
--   <i><tt>window</tt></i> and its children will become the new mask for
--   <i><tt>window</tt></i>. See <a>windowShapeCombineRegion</a>.
--   
--   This function is distinct from <a>windowSetChildShapes</a> because it
--   includes <i><tt>window</tt></i>’s shape mask in the set of shapes to
--   be merged.
windowMergeChildShapes :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Repositions a window relative to its parent window. For toplevel
--   windows, window managers may ignore or modify the move; you should
--   probably use <tt><i>gtk_window_move()</i></tt> on a
--   <tt><i>GtkWindow</i></tt> widget anyway, instead of using GDK
--   functions. For child windows, the move will reliably succeed.
--   
--   If you’re also planning to resize the window, use
--   <a>windowMoveResize</a> to both move and resize simultaneously, for a
--   nicer visual effect.
windowMove :: (HasCallStack, MonadIO m, IsWindow a) => a -> Int32 -> Int32 -> m ()

-- | Move the part of <i><tt>window</tt></i> indicated by
--   <i><tt>region</tt></i> by <i><tt>dy</tt></i> pixels in the Y direction
--   and <i><tt>dx</tt></i> pixels in the X direction. The portions of
--   <i><tt>region</tt></i> that not covered by the new position of
--   <i><tt>region</tt></i> are invalidated.
--   
--   Child windows are not moved.
--   
--   <i>Since: 2.8</i>
windowMoveRegion :: (HasCallStack, MonadIO m, IsWindow a) => a -> Region -> Int32 -> Int32 -> m ()

-- | Equivalent to calling <a>windowMove</a> and <a>windowResize</a>,
--   except that both operations are performed at once, avoiding strange
--   visual effects. (i.e. the user may be able to see the window first
--   move, then resize, if you don’t use <a>windowMoveResize</a>.)
windowMoveResize :: (HasCallStack, MonadIO m, IsWindow a) => a -> Int32 -> Int32 -> Int32 -> Int32 -> m ()

-- | Moves <i><tt>window</tt></i> to <i><tt>rect</tt></i>, aligning their
--   anchor points.
--   
--   <i><tt>rect</tt></i> is relative to the top-left corner of the window
--   that <i><tt>window</tt></i> is transient for.
--   <i><tt>rectAnchor</tt></i> and <i><tt>windowAnchor</tt></i> determine
--   anchor points on <i><tt>rect</tt></i> and <i><tt>window</tt></i> to
--   pin together. <i><tt>rect</tt></i>'s anchor point can optionally be
--   offset by <i><tt>rectAnchorDx</tt></i> and
--   <i><tt>rectAnchorDy</tt></i>, which is equivalent to offsetting the
--   position of <i><tt>window</tt></i>.
--   
--   <i><tt>anchorHints</tt></i> determines how <i><tt>window</tt></i> will
--   be moved if the anchor points cause it to move off-screen. For
--   example, <a>AnchorHintsFlipX</a> will replace <a>GravityNorthWest</a>
--   with <a>GravityNorthEast</a> and vice versa if <i><tt>window</tt></i>
--   extends beyond the left or right edges of the monitor.
--   
--   Connect to the <a>Window::movedToRect</a> signal to find out how it
--   was actually positioned.
--   
--   <i>Since: 3.24</i>
windowMoveToRect :: (HasCallStack, MonadIO m, IsWindow a) => a -> Rectangle -> Gravity -> Gravity -> [AnchorHints] -> Int32 -> Int32 -> m ()

-- | Creates a new <a>Window</a> using the attributes from
--   <i><tt>attributes</tt></i>. See <a>WindowAttr</a> and
--   <a>WindowAttributesType</a> for more details. Note: to use this on
--   displays other than the default display, <i><tt>parent</tt></i> must
--   be specified.
windowNew :: (HasCallStack, MonadIO m, IsWindow a) => Maybe a -> WindowAttr -> [WindowAttributesType] -> m Window

-- | Like <a>windowGetChildren</a>, but does not copy the list of children,
--   so the list does not need to be freed.
windowPeekChildren :: (HasCallStack, MonadIO m, IsWindow a) => a -> m [Window]

-- | Calls <a>windowProcessUpdates</a> for all windows (see <a>Window</a>)
--   in the application.

-- | <i>Deprecated: (Since version 3.22)</i>
windowProcessAllUpdates :: (HasCallStack, MonadIO m) => m ()

-- | Sends one or more expose events to <i><tt>window</tt></i>. The areas
--   in each expose event will cover the entire update area for the window
--   (see <a>windowInvalidateRegion</a> for details). Normally GDK calls
--   <a>windowProcessAllUpdates</a> on your behalf, so there’s no need to
--   call this function unless you want to force expose events to be
--   delivered immediately and synchronously (vs. the usual case, where GDK
--   delivers them in an idle handler). Occasionally this is useful to
--   produce nicer scrolling behavior, for example.

-- | <i>Deprecated: (Since version 3.22)</i>
windowProcessUpdates :: (HasCallStack, MonadIO m, IsWindow a) => a -> Bool -> m ()

-- | Raises <i><tt>window</tt></i> to the top of the Z-order (stacking
--   order), so that other windows with the same parent window appear below
--   <i><tt>window</tt></i>. This is true whether or not the windows are
--   visible.
--   
--   If <i><tt>window</tt></i> is a toplevel, the window manager may choose
--   to deny the request to move the window in the Z-order,
--   <a>windowRaise</a> only requests the restack, does not guarantee it.
windowRaise :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Registers a window as a potential drop destination.
windowRegisterDnd :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Reparents <i><tt>window</tt></i> into the given
--   <i><tt>newParent</tt></i>. The window being reparented will be
--   unmapped as a side effect.
windowReparent :: (HasCallStack, MonadIO m, IsWindow a, IsWindow b) => a -> b -> Int32 -> Int32 -> m ()

-- | Resizes <i><tt>window</tt></i>; for toplevel windows, asks the window
--   manager to resize the window. The window manager may not allow the
--   resize. When using GTK+, use <tt><i>gtk_window_resize()</i></tt>
--   instead of this low-level GDK function.
--   
--   Windows may not be resized below 1x1.
--   
--   If you’re also planning to move the window, use
--   <a>windowMoveResize</a> to both move and resize simultaneously, for a
--   nicer visual effect.
windowResize :: (HasCallStack, MonadIO m, IsWindow a) => a -> Int32 -> Int32 -> m ()

-- | Changes the position of <i><tt>window</tt></i> in the Z-order
--   (stacking order), so that it is above <i><tt>sibling</tt></i> (if
--   <i><tt>above</tt></i> is <a>True</a>) or below <i><tt>sibling</tt></i>
--   (if <i><tt>above</tt></i> is <a>False</a>).
--   
--   If <i><tt>sibling</tt></i> is <a>Nothing</a>, then this either raises
--   (if <i><tt>above</tt></i> is <a>True</a>) or lowers the window.
--   
--   If <i><tt>window</tt></i> is a toplevel, the window manager may choose
--   to deny the request to move the window in the Z-order,
--   <a>windowRestack</a> only requests the restack, does not guarantee it.
--   
--   <i>Since: 2.18</i>
windowRestack :: (HasCallStack, MonadIO m, IsWindow a, IsWindow b) => a -> Maybe b -> Bool -> m ()

-- | Scroll the contents of <i><tt>window</tt></i>, both pixels and
--   children, by the given amount. <i><tt>window</tt></i> itself does not
--   move. Portions of the window that the scroll operation brings in from
--   offscreen areas are invalidated. The invalidated region may be bigger
--   than what would strictly be necessary.
--   
--   For X11, a minimum area will be invalidated if the window has no
--   subwindows, or if the edges of the window’s parent do not extend
--   beyond the edges of the window. In other cases, a multi-step process
--   is used to scroll the window which may produce temporary visual
--   artifacts and unnecessary invalidations.
windowScroll :: (HasCallStack, MonadIO m, IsWindow a) => a -> Int32 -> Int32 -> m ()

-- | Setting <i><tt>acceptFocus</tt></i> to <a>False</a> hints the desktop
--   environment that the window doesn’t want to receive input focus.
--   
--   On X, it is the responsibility of the window manager to interpret this
--   hint. ICCCM-compliant window manager usually respect it.
--   
--   <i>Since: 2.4</i>
windowSetAcceptFocus :: (HasCallStack, MonadIO m, IsWindow a) => a -> Bool -> m ()

-- | Sets the background color of <i><tt>window</tt></i>.
--   
--   However, when using GTK+, influence the background of a widget using a
--   style class or CSS — if you’re an application — or with
--   <tt><i>gtk_style_context_set_background()</i></tt> — if you're
--   implementing a custom widget.

-- | <i>Deprecated: (Since version 3.4)Don't use this function</i>
windowSetBackground :: (HasCallStack, MonadIO m, IsWindow a) => a -> Color -> m ()

-- | Sets the background of <i><tt>window</tt></i>.
--   
--   A background of <a>Nothing</a> means that the window won't have any
--   background. On the X11 backend it's also possible to inherit the
--   background from the parent window using
--   <tt><i>gdk_x11_get_parent_relative_pattern()</i></tt>.
--   
--   The windowing system will normally fill a window with its background
--   when the window is obscured then exposed.

-- | <i>Deprecated: (Since version 3.22)Don't use this function</i>
windowSetBackgroundPattern :: (HasCallStack, MonadIO m, IsWindow a) => a -> Maybe Pattern -> m ()

-- | Sets the background color of <i><tt>window</tt></i>.
--   
--   See also <a>windowSetBackgroundPattern</a>.

-- | <i>Deprecated: (Since version 3.22)Don't use this function</i>
windowSetBackgroundRgba :: (HasCallStack, MonadIO m, IsWindow a) => a -> RGBA -> m ()

-- | Sets the input shape mask of <i><tt>window</tt></i> to the union of
--   input shape masks for all children of <i><tt>window</tt></i>, ignoring
--   the input shape mask of <i><tt>window</tt></i> itself. Contrast with
--   <a>windowMergeChildInputShapes</a> which includes the input shape mask
--   of <i><tt>window</tt></i> in the masks to be merged.
--   
--   <i>Since: 2.10</i>
windowSetChildInputShapes :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Sets the shape mask of <i><tt>window</tt></i> to the union of shape
--   masks for all children of <i><tt>window</tt></i>, ignoring the shape
--   mask of <i><tt>window</tt></i> itself. Contrast with
--   <a>windowMergeChildShapes</a> which includes the shape mask of
--   <i><tt>window</tt></i> in the masks to be merged.
windowSetChildShapes :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Sets a <a>Window</a> as composited, or unsets it. Composited windows
--   do not automatically have their contents drawn to the screen. Drawing
--   is redirected to an offscreen buffer and an expose event is emitted on
--   the parent of the composited window. It is the responsibility of the
--   parent’s expose handler to manually merge the off-screen content onto
--   the screen in whatever way it sees fit.
--   
--   It only makes sense for child windows to be composited; see
--   <a>windowSetOpacity</a> if you need translucent toplevel windows.
--   
--   An additional effect of this call is that the area of this window is
--   no longer clipped from regions marked for invalidation on its parent.
--   Draws done on the parent window are also no longer clipped by the
--   child.
--   
--   This call is only supported on some systems (currently, only X11 with
--   new enough Xcomposite and Xdamage extensions). You must call
--   <a>displaySupportsComposite</a> to check if setting a window as
--   composited is supported before attempting to do so.
--   
--   <i>Since: 2.12</i>

-- | <i>Deprecated: (Since version 3.16)Compositing is an outdated
--   technology that only ever worked on X11.</i>
windowSetComposited :: (HasCallStack, MonadIO m, IsWindow a) => a -> Bool -> m ()

-- | Sets the default mouse pointer for a <a>Window</a>.
--   
--   Note that <i><tt>cursor</tt></i> must be for the same display as
--   <i><tt>window</tt></i>.
--   
--   Use <a>cursorNewForDisplay</a> or <a>cursorNewFromPixbuf</a> to create
--   the cursor. To make the cursor invisible, use
--   <a>CursorTypeBlankCursor</a>. Passing <a>Nothing</a> for the
--   <i><tt>cursor</tt></i> argument to <a>windowSetCursor</a> means that
--   <i><tt>window</tt></i> will use the cursor of its parent window. Most
--   windows should use this default.
windowSetCursor :: (HasCallStack, MonadIO m, IsWindow a, IsCursor b) => a -> Maybe b -> m ()

-- | With update debugging enabled, calls to <a>windowInvalidateRegion</a>
--   clear the invalidated region of the screen to a noticeable color, and
--   GDK pauses for a short time before sending exposes to windows during
--   <a>windowProcessUpdates</a>. The net effect is that you can see the
--   invalid region for each window and watch redraws as they occur. This
--   allows you to diagnose inefficiencies in your application.
--   
--   In essence, because the GDK rendering model prevents all flicker, if
--   you are redrawing the same region 400 times you may never notice,
--   aside from noticing a speed problem. Enabling update debugging causes
--   GTK to flicker slowly and noticeably, so you can see exactly what’s
--   being redrawn when, in what order.
--   
--   The --gtk-debug=updates command line option passed to GTK+ programs
--   enables this debug option at application startup time. That's usually
--   more useful than calling <a>windowSetDebugUpdates</a> yourself, though
--   you might want to use this function to enable updates sometime after
--   application startup time.

-- | <i>Deprecated: (Since version 3.22)</i>
windowSetDebugUpdates :: (HasCallStack, MonadIO m) => Bool -> m ()

-- | “Decorations” are the features the window manager adds to a toplevel
--   <a>Window</a>. This function sets the traditional Motif window manager
--   hints that tell the window manager which decorations you would like
--   your window to have. Usually you should use
--   <tt><i>gtk_window_set_decorated()</i></tt> on a
--   <tt><i>GtkWindow</i></tt> instead of using the GDK function directly.
--   
--   The <i><tt>decorations</tt></i> argument is the logical OR of the
--   fields in the <a>WMDecoration</a> enumeration. If
--   <tt><i>GDK_DECOR_ALL</i></tt> is included in the mask, the other bits
--   indicate which decorations should be turned off. If
--   <tt><i>GDK_DECOR_ALL</i></tt> is not included, then the other bits
--   indicate which decorations should be turned on.
--   
--   Most window managers honor a decorations hint of 0 to disable all
--   decorations, but very few honor all possible combinations of bits.
windowSetDecorations :: (HasCallStack, MonadIO m, IsWindow a) => a -> [WMDecoration] -> m ()

-- | Sets a specific <a>Cursor</a> for a given device when it gets inside
--   <i><tt>window</tt></i>. Use <a>cursorNewForDisplay</a> or
--   <a>cursorNewFromPixbuf</a> to create the cursor. To make the cursor
--   invisible, use <a>CursorTypeBlankCursor</a>. Passing <a>Nothing</a>
--   for the <i><tt>cursor</tt></i> argument to <a>windowSetCursor</a>
--   means that <i><tt>window</tt></i> will use the cursor of its parent
--   window. Most windows should use this default.
--   
--   <i>Since: 3.0</i>
windowSetDeviceCursor :: (HasCallStack, MonadIO m, IsWindow a, IsDevice b, IsCursor c) => a -> b -> c -> m ()

-- | Sets the event mask for a given device (Normally a floating device,
--   not attached to any visible pointer) to <i><tt>window</tt></i>. For
--   example, an event mask including <tt><i>GDK_BUTTON_PRESS_MASK</i></tt>
--   means the window should report button press events. The event mask is
--   the bitwise OR of values from the <a>EventMask</a> enumeration.
--   
--   See the [input handling overview][event-masks] for details.
--   
--   <i>Since: 3.0</i>
windowSetDeviceEvents :: (HasCallStack, MonadIO m, IsWindow a, IsDevice b) => a -> b -> [EventMask] -> m ()

-- | Determines whether or not extra unprocessed motion events in the event
--   queue can be discarded. If <a>True</a> only the most recent event will
--   be delivered.
--   
--   Some types of applications, e.g. paint programs, need to see all
--   motion events and will benefit from turning off event compression.
--   
--   By default, event compression is enabled.
--   
--   <i>Since: 3.12</i>
windowSetEventCompression :: (HasCallStack, MonadIO m, IsWindow a) => a -> Bool -> m ()

-- | The event mask for a window determines which events will be reported
--   for that window from all master input devices. For example, an event
--   mask including <tt><i>GDK_BUTTON_PRESS_MASK</i></tt> means the window
--   should report button press events. The event mask is the bitwise OR of
--   values from the <a>EventMask</a> enumeration.
--   
--   See the [input handling overview][event-masks] for details.
windowSetEvents :: (HasCallStack, MonadIO m, IsWindow a) => a -> [EventMask] -> m ()

-- | Setting <i><tt>focusOnMap</tt></i> to <a>False</a> hints the desktop
--   environment that the window doesn’t want to receive input focus when
--   it is mapped. focus_on_map should be turned off for windows that
--   aren’t triggered interactively (such as popups from network activity).
--   
--   On X, it is the responsibility of the window manager to interpret this
--   hint. Window managers following the freedesktop.org window manager
--   extension specification should respect it.
--   
--   <i>Since: 2.6</i>
windowSetFocusOnMap :: (HasCallStack, MonadIO m, IsWindow a) => a -> Bool -> m ()

-- | Specifies whether the <i><tt>window</tt></i> should span over all
--   monitors (in a multi-head setup) or only the current monitor when in
--   fullscreen mode.
--   
--   The <i><tt>mode</tt></i> argument is from the <a>FullscreenMode</a>
--   enumeration. If <tt><i>GDK_FULLSCREEN_ON_ALL_MONITORS</i></tt> is
--   specified, the fullscreen <i><tt>window</tt></i> will span over all
--   monitors from the <a>Screen</a>.
--   
--   On X11, searches through the list of monitors from the <a>Screen</a>
--   the ones which delimit the 4 edges of the entire <a>Screen</a> and
--   will ask the window manager to span the <i><tt>window</tt></i> over
--   these monitors.
--   
--   If the XINERAMA extension is not available or not usable, this
--   function has no effect.
--   
--   Not all window managers support this, so you can’t rely on the
--   fullscreen window to span over the multiple monitors when
--   <tt><i>GDK_FULLSCREEN_ON_ALL_MONITORS</i></tt> is specified.
--   
--   <i>Since: 3.8</i>
windowSetFullscreenMode :: (HasCallStack, MonadIO m, IsWindow a) => a -> FullscreenMode -> m ()

-- | Sets hints about the window management functions to make available via
--   buttons on the window frame.
--   
--   On the X backend, this function sets the traditional Motif window
--   manager hint for this purpose. However, few window managers do
--   anything reliable or interesting with this hint. Many ignore it
--   entirely.
--   
--   The <i><tt>functions</tt></i> argument is the logical OR of values
--   from the <a>WMFunction</a> enumeration. If the bitmask includes
--   <tt><i>GDK_FUNC_ALL</i></tt>, then the other bits indicate which
--   functions to disable; if it doesn’t include
--   <tt><i>GDK_FUNC_ALL</i></tt>, it indicates which functions to enable.
windowSetFunctions :: (HasCallStack, MonadIO m, IsWindow a) => a -> [WMFunction] -> m ()

-- | Sets the geometry hints for <i><tt>window</tt></i>. Hints flagged in
--   <i><tt>geomMask</tt></i> are set, hints not flagged in
--   <i><tt>geomMask</tt></i> are unset. To unset all hints, use a
--   <i><tt>geomMask</tt></i> of 0 and a <i><tt>geometry</tt></i> of
--   <a>Nothing</a>.
--   
--   This function provides hints to the windowing system about acceptable
--   sizes for a toplevel window. The purpose of this is to constrain user
--   resizing, but the windowing system will typically (but is not required
--   to) also constrain the current size of the window to the provided
--   values and constrain programatic resizing via <a>windowResize</a> or
--   <a>windowMoveResize</a>.
--   
--   Note that on X11, this effect has no effect on windows of type
--   <a>WindowTypeTemp</a> or windows where override redirect has been
--   turned on via <a>windowSetOverrideRedirect</a> since these windows are
--   not resizable by the user.
--   
--   Since you can’t count on the windowing system doing the constraints
--   for programmatic resizes, you should generally call
--   <a>windowConstrainSize</a> yourself to determine appropriate sizes.
windowSetGeometryHints :: (HasCallStack, MonadIO m, IsWindow a) => a -> Geometry -> [WindowHints] -> m ()

-- | Sets the group leader window for <i><tt>window</tt></i>. By default,
--   GDK sets the group leader for all toplevel windows to a global window
--   implicitly created by GDK. With this function you can override this
--   default.
--   
--   The group leader window allows the window manager to distinguish all
--   windows that belong to a single application. It may for example allow
--   users to minimize/unminimize all windows belonging to an application
--   at once. You should only set a non-default group window if your
--   application pretends to be multiple applications.
windowSetGroup :: (HasCallStack, MonadIO m, IsWindow a, IsWindow b) => a -> Maybe b -> m ()

-- | Sets a list of icons for the window. One of these will be used to
--   represent the window when it has been iconified. The icon is usually
--   shown in an icon box or some sort of task bar. Which icon size is
--   shown depends on the window manager. The window manager can scale the
--   icon but setting several size icons can give better image quality
--   since the window manager may only need to scale the icon by a small
--   amount or not at all.
--   
--   Note that some platforms don't support window icons.
windowSetIconList :: (HasCallStack, MonadIO m, IsWindow a, IsPixbuf b) => a -> [b] -> m ()

-- | Windows may have a name used while minimized, distinct from the name
--   they display in their titlebar. Most of the time this is a bad idea
--   from a user interface standpoint. But you can set such a name with
--   this function, if you like.
--   
--   After calling this with a non-<a>Nothing</a> <i><tt>name</tt></i>,
--   calls to <a>windowSetTitle</a> will not update the icon title.
--   
--   Using <a>Nothing</a> for <i><tt>name</tt></i> unsets the icon title;
--   further calls to <a>windowSetTitle</a> will again update the icon
--   title as well.
--   
--   Note that some platforms don't support window icons.
windowSetIconName :: (HasCallStack, MonadIO m, IsWindow a) => a -> Maybe Text -> m ()

-- | Set if <i><tt>window</tt></i> must be kept above other windows. If the
--   window was already above, then this function does nothing.
--   
--   On X11, asks the window manager to keep <i><tt>window</tt></i> above,
--   if the window manager supports this operation. Not all window managers
--   support this, and some deliberately ignore it or don’t have a concept
--   of “keep above”; so you can’t rely on the window being kept above. But
--   it will happen with most standard window managers, and GDK makes a
--   best effort to get it to happen.
--   
--   <i>Since: 2.4</i>
windowSetKeepAbove :: (HasCallStack, MonadIO m, IsWindow a) => a -> Bool -> m ()

-- | Set if <i><tt>window</tt></i> must be kept below other windows. If the
--   window was already below, then this function does nothing.
--   
--   On X11, asks the window manager to keep <i><tt>window</tt></i> below,
--   if the window manager supports this operation. Not all window managers
--   support this, and some deliberately ignore it or don’t have a concept
--   of “keep below”; so you can’t rely on the window being kept below. But
--   it will happen with most standard window managers, and GDK makes a
--   best effort to get it to happen.
--   
--   <i>Since: 2.4</i>
windowSetKeepBelow :: (HasCallStack, MonadIO m, IsWindow a) => a -> Bool -> m ()

-- | The application can use this hint to tell the window manager that a
--   certain window has modal behaviour. The window manager can use this
--   information to handle modal windows in a special way.
--   
--   You should only use this on windows for which you have previously
--   called <a>windowSetTransientFor</a>
windowSetModalHint :: (HasCallStack, MonadIO m, IsWindow a) => a -> Bool -> m ()

-- | Set <i><tt>window</tt></i> to render as partially transparent, with
--   opacity 0 being fully transparent and 1 fully opaque. (Values of the
--   opacity parameter are clamped to the [0,1] range.)
--   
--   For toplevel windows this depends on support from the windowing system
--   that may not always be there. For instance, On X11, this works only on
--   X screens with a compositing manager running. On Wayland, there is no
--   per-window opacity value that the compositor would apply. Instead, use
--   <tt>gdk_window_set_opaque_region (window, NULL)</tt> to tell the
--   compositor that the entire window is (potentially) non-opaque, and
--   draw your content with alpha, or use
--   <tt><i>gtk_widget_set_opacity()</i></tt> to set an overall opacity for
--   your widgets.
--   
--   For child windows this function only works for non-native windows.
--   
--   For setting up per-pixel alpha topelevels, see
--   <a>screenGetRgbaVisual</a>, and for non-toplevels, see
--   <a>windowSetComposited</a>.
--   
--   Support for non-toplevel windows was added in 3.8.
--   
--   <i>Since: 2.12</i>
windowSetOpacity :: (HasCallStack, MonadIO m, IsWindow a) => a -> Double -> m ()

-- | For optimisation purposes, compositing window managers may like to not
--   draw obscured regions of windows, or turn off blending during for
--   these regions. With RGB windows with no transparency, this is just the
--   shape of the window, but with ARGB32 windows, the compositor does not
--   know what regions of the window are transparent or not.
--   
--   This function only works for toplevel windows.
--   
--   GTK+ will update this property automatically if the
--   <i><tt>window</tt></i> background is opaque, as we know where the
--   opaque regions are. If your window background is not opaque, please
--   update this property in your <tt><i>GtkWidget::style-updated</i></tt>
--   handler.
--   
--   <i>Since: 3.10</i>
windowSetOpaqueRegion :: (HasCallStack, MonadIO m, IsWindow a) => a -> Maybe Region -> m ()

-- | An override redirect window is not under the control of the window
--   manager. This means it won’t have a titlebar, won’t be minimizable,
--   etc. - it will be entirely under the control of the application. The
--   window manager can’t see the override redirect window at all.
--   
--   Override redirect should only be used for short-lived temporary
--   windows, such as popup menus. <tt><i>GtkMenu</i></tt> uses an override
--   redirect window in its implementation, for example.
windowSetOverrideRedirect :: (HasCallStack, MonadIO m, IsWindow a) => a -> Bool -> m ()

-- | Sets whether input to the window is passed through to the window
--   below.
--   
--   The default value of this is <a>False</a>, which means that pointer
--   events that happen inside the window are send first to the window, but
--   if the event is not selected by the event mask then the event is sent
--   to the parent window, and so on up the hierarchy.
--   
--   If <i><tt>passThrough</tt></i> is <a>True</a> then such pointer events
--   happen as if the window wasn't there at all, and thus will be sent
--   first to any windows below <i><tt>window</tt></i>. This is useful if
--   the window is used in a transparent fashion. In the terminology of the
--   web this would be called "pointer-events: none".
--   
--   Note that a window with <i><tt>passThrough</tt></i> <a>True</a> can
--   still have a subwindow without pass through, so you can get events on
--   a subset of a window. And in that cases you would get the in-between
--   related events such as the pointer enter/leave events on its way to
--   the destination window.
--   
--   <i>Since: 3.18</i>
windowSetPassThrough :: (HasCallStack, MonadIO m, IsWindow a) => a -> Bool -> m ()

-- | When using GTK+, typically you should use
--   <tt><i>gtk_window_set_role()</i></tt> instead of this low-level
--   function.
--   
--   The window manager and session manager use a window’s role to
--   distinguish it from other kinds of window in the same application.
--   When an application is restarted after being saved in a previous
--   session, all windows with the same title and role are treated as
--   interchangeable. So if you have two windows with the same title that
--   should be distinguished for session management purposes, you should
--   set the role on those windows. It doesn’t matter what string you use
--   for the role, as long as you have a different role for each
--   non-interchangeable kind of window.
windowSetRole :: (HasCallStack, MonadIO m, IsWindow a) => a -> Text -> m ()

-- | Newer GTK+ windows using client-side decorations use extra geometry
--   around their frames for effects like shadows and invisible borders.
--   Window managers that want to maximize windows or snap to edges need to
--   know where the extents of the actual frame lie, so that users don’t
--   feel like windows are snapping against random invisible edges.
--   
--   Note that this property is automatically updated by GTK+, so this
--   function should only be used by applications which do not use GTK+ to
--   create toplevel windows.
--   
--   <i>Since: 3.12</i>
windowSetShadowWidth :: (HasCallStack, MonadIO m, IsWindow a) => a -> Int32 -> Int32 -> Int32 -> Int32 -> m ()

-- | Toggles whether a window should appear in a pager (workspace switcher,
--   or other desktop utility program that displays a small thumbnail
--   representation of the windows on the desktop). If a window’s semantic
--   type as specified with <a>windowSetTypeHint</a> already fully
--   describes the window, this function should not be called in addition,
--   instead you should allow the window to be treated according to
--   standard policy for its semantic type.
--   
--   <i>Since: 2.2</i>
windowSetSkipPagerHint :: (HasCallStack, MonadIO m, IsWindow a) => a -> Bool -> m ()

-- | Toggles whether a window should appear in a task list or window list.
--   If a window’s semantic type as specified with <a>windowSetTypeHint</a>
--   already fully describes the window, this function should not be called
--   in addition, instead you should allow the window to be treated
--   according to standard policy for its semantic type.
--   
--   <i>Since: 2.2</i>
windowSetSkipTaskbarHint :: (HasCallStack, MonadIO m, IsWindow a) => a -> Bool -> m ()

-- | Sets the event mask for any floating device (i.e. not attached to any
--   visible pointer) that has the source defined as
--   <i><tt>source</tt></i>. This event mask will be applied both to
--   currently existing, newly added devices after this call, and devices
--   being attached/detached.
--   
--   <i>Since: 3.0</i>
windowSetSourceEvents :: (HasCallStack, MonadIO m, IsWindow a) => a -> InputSource -> [EventMask] -> m ()

-- | When using GTK+, typically you should use
--   <tt><i>gtk_window_set_startup_id()</i></tt> instead of this low-level
--   function.
--   
--   <i>Since: 2.12</i>
windowSetStartupId :: (HasCallStack, MonadIO m, IsWindow a) => a -> Text -> m ()

-- | Used to set the bit gravity of the given window to static, and flag it
--   so all children get static subwindow gravity. This is used if you are
--   implementing scary features that involve deep knowledge of the
--   windowing system. Don’t worry about it.

-- | <i>Deprecated: (Since version 3.16)static gravities haven't worked on
--   anything but X11 for a long time.</i>
windowSetStaticGravities :: (HasCallStack, MonadIO m, IsWindow a) => a -> Bool -> m Bool

-- | This function will enable multidevice features in
--   <i><tt>window</tt></i>.
--   
--   Multidevice aware windows will need to handle properly multiple, per
--   device enter/leave events, device grabs and grab ownerships.
--   
--   <i>Since: 3.0</i>
windowSetSupportMultidevice :: (HasCallStack, MonadIO m, IsWindow a) => a -> Bool -> m ()

-- | Sets the title of a toplevel window, to be displayed in the titlebar.
--   If you haven’t explicitly set the icon name for the window (using
--   <a>windowSetIconName</a>), the icon name will be set to
--   <i><tt>title</tt></i> as well. <i><tt>title</tt></i> must be in UTF-8
--   encoding (as with all user-readable strings in GDK/GTK+).
--   <i><tt>title</tt></i> may not be <a>Nothing</a>.
windowSetTitle :: (HasCallStack, MonadIO m, IsWindow a) => a -> Text -> m ()

-- | Indicates to the window manager that <i><tt>window</tt></i> is a
--   transient dialog associated with the application window
--   <i><tt>parent</tt></i>. This allows the window manager to do things
--   like center <i><tt>window</tt></i> on <i><tt>parent</tt></i> and keep
--   <i><tt>window</tt></i> above <i><tt>parent</tt></i>.
--   
--   See <tt><i>gtk_window_set_transient_for()</i></tt> if you’re using
--   <tt><i>GtkWindow</i></tt> or <tt><i>GtkDialog</i></tt>.
windowSetTransientFor :: (HasCallStack, MonadIO m, IsWindow a, IsWindow b) => a -> b -> m ()

-- | The application can use this call to provide a hint to the window
--   manager about the functionality of a window. The window manager can
--   use this information when determining the decoration and behaviour of
--   the window.
--   
--   The hint must be set before the window is mapped.
windowSetTypeHint :: (HasCallStack, MonadIO m, IsWindow a) => a -> WindowTypeHint -> m ()

-- | Toggles whether a window needs the user's urgent attention.
--   
--   <i>Since: 2.8</i>
windowSetUrgencyHint :: (HasCallStack, MonadIO m, IsWindow a) => a -> Bool -> m ()

-- | For most purposes this function is deprecated in favor of
--   <a>objectSetData</a>. However, for historical reasons GTK+ stores the
--   <tt><i>GtkWidget</i></tt> that owns a <a>Window</a> as user data on
--   the <a>Window</a>. So, custom widget implementations should use this
--   function for that. If GTK+ receives an event for a <a>Window</a>, and
--   the user data for the window is non-<a>Nothing</a>, GTK+ will assume
--   the user data is a <tt><i>GtkWidget</i></tt>, and forward the event to
--   that widget.
windowSetUserData :: (HasCallStack, MonadIO m, IsWindow a, IsObject b) => a -> Maybe b -> m ()

-- | Makes pixels in <i><tt>window</tt></i> outside
--   <i><tt>shapeRegion</tt></i> be transparent, so that the window may be
--   nonrectangular.
--   
--   If <i><tt>shapeRegion</tt></i> is <a>Nothing</a>, the shape will be
--   unset, so the whole window will be opaque again.
--   <i><tt>offsetX</tt></i> and <i><tt>offsetY</tt></i> are ignored if
--   <i><tt>shapeRegion</tt></i> is <a>Nothing</a>.
--   
--   On the X11 platform, this uses an X server extension which is widely
--   available on most common platforms, but not available on very old X
--   servers, and occasionally the implementation will be buggy. On servers
--   without the shape extension, this function will do nothing.
--   
--   This function works on both toplevel and child windows.
windowShapeCombineRegion :: (HasCallStack, MonadIO m, IsWindow a) => a -> Maybe Region -> Int32 -> Int32 -> m ()

-- | Like <a>windowShowUnraised</a>, but also raises the window to the top
--   of the window stack (moves the window to the front of the Z-order).
--   
--   This function maps a window so it’s visible onscreen. Its opposite is
--   <a>windowHide</a>.
--   
--   When implementing a <tt><i>GtkWidget</i></tt>, you should call this
--   function on the widget's <a>Window</a> as part of the “map” method.
windowShow :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Shows a <a>Window</a> onscreen, but does not modify its stacking
--   order. In contrast, <a>windowShow</a> will raise the window to the top
--   of the window stack.
--   
--   On the X11 platform, in Xlib terms, this function calls
--   <tt><i>XMapWindow()</i></tt> (it also updates some internal GDK state,
--   which means that you can’t really use <tt><i>XMapWindow()</i></tt>
--   directly on a GDK window).
windowShowUnraised :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Asks the windowing system to show the window menu. The window menu is
--   the menu shown when right-clicking the titlebar on traditional windows
--   managed by the window manager. This is useful for windows using
--   client-side decorations, activating it with a right-click on the
--   window decorations.
--   
--   <i>Since: 3.14</i>
windowShowWindowMenu :: (HasCallStack, MonadIO m, IsWindow a) => a -> Event -> m Bool

-- | “Pins” a window such that it’s on all workspaces and does not scroll
--   with viewports, for window managers that have scrollable viewports.
--   (When using <tt><i>GtkWindow</i></tt>,
--   <tt><i>gtk_window_stick()</i></tt> may be more useful.)
--   
--   On the X11 platform, this function depends on window manager support,
--   so may have no effect with many window managers. However, GDK will do
--   the best it can to convince the window manager to stick the window.
--   For window managers that don’t support this operation, there’s nothing
--   you can do to force it to happen.
windowStick :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Thaws a window frozen with
--   <a>windowFreezeToplevelUpdatesLibgtkOnly</a>.
--   
--   This function is not part of the GDK public API and is only for use by
--   GTK+.

-- | <i>Deprecated: (Since version 3.16)This symbol was never meant to be
--   used outside of GTK+</i>
windowThawToplevelUpdatesLibgtkOnly :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Thaws a window frozen with <a>windowFreezeUpdates</a>.
windowThawUpdates :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Moves the window out of fullscreen mode. If the window was not
--   fullscreen, does nothing.
--   
--   On X11, asks the window manager to move <i><tt>window</tt></i> out of
--   the fullscreen state, if the window manager supports this operation.
--   Not all window managers support this, and some deliberately ignore it
--   or don’t have a concept of “fullscreen”; so you can’t rely on the
--   unfullscreenification actually happening. But it will happen with most
--   standard window managers, and GDK makes a best effort to get it to
--   happen.
--   
--   <i>Since: 2.2</i>
windowUnfullscreen :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Unmaximizes the window. If the window wasn’t maximized, then this
--   function does nothing.
--   
--   On X11, asks the window manager to unmaximize <i><tt>window</tt></i>,
--   if the window manager supports this operation. Not all window managers
--   support this, and some deliberately ignore it or don’t have a concept
--   of “maximized”; so you can’t rely on the unmaximization actually
--   happening. But it will happen with most standard window managers, and
--   GDK makes a best effort to get it to happen.
--   
--   On Windows, reliably unmaximizes the window.
windowUnmaximize :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Reverse operation for <a>windowStick</a>; see <a>windowStick</a>, and
--   <tt><i>gtk_window_unstick()</i></tt>.
windowUnstick :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Withdraws a window (unmaps it and asks the window manager to forget
--   about it). This function is not really useful as <a>windowHide</a>
--   automatically withdraws toplevel windows before hiding them.
windowWithdraw :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | Set the value of the “<tt>cursor</tt>” property to <a>Nothing</a>.
--   When <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #cursor
--   </pre>
clearWindowCursor :: (MonadIO m, IsWindow o) => o -> m ()

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>cursor</tt>” property. This is rarely needed directly, but it is
--   used by <a>new</a>.
constructWindowCursor :: (IsWindow o, MonadIO m, IsCursor a) => a -> m (GValueConstruct o)

-- | Get the value of the “<tt>cursor</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> window #cursor
--   </pre>
getWindowCursor :: (MonadIO m, IsWindow o) => o -> m (Maybe Cursor)

-- | Set the value of the “<tt>cursor</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> window [ #cursor <a>:=</a> value ]
--   </pre>
setWindowCursor :: (MonadIO m, IsWindow o, IsCursor a) => o -> a -> m ()

-- | The <a>createSurface</a> signal is emitted when an offscreen window
--   needs its surface (re)created, which happens either when the window is
--   first drawn to, or when the window is being resized. The first signal
--   handler that returns a non-<a>Nothing</a> surface will stop any
--   further signal emission, and its surface will be used.
--   
--   Note that it is not possible to access the window's previous surface
--   from within any callback of this signal. Calling
--   <a>offscreenWindowGetSurface</a> will lead to a crash.
--   
--   <i>Since: 3.0</i>
type WindowCreateSurfaceCallback = -- | /@width@/: the width of the offscreen surface to create Int32 -> -- | /@height@/: the height of the offscreen surface to create Int32 -> -- | __Returns:__ the newly created t'GI.Cairo.Structs.Surface.Surface' for the offscreen window IO Surface

-- | Connect a signal handler for the <a>createSurface</a> signal, to be
--   run after the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>after</a> window #createSurface callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterWindowCreateSurface :: (IsWindow a, MonadIO m) => a -> ((?self :: a) => WindowCreateSurfaceCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>createSurface</a> signal, to be
--   run before the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>on</a> window #createSurface callback
--   </pre>
onWindowCreateSurface :: (IsWindow a, MonadIO m) => a -> ((?self :: a) => WindowCreateSurfaceCallback) -> m SignalHandlerId

-- | The <a>fromEmbedder</a> signal is emitted to translate coordinates in
--   the embedder of an offscreen window to the offscreen window.
--   
--   See also <a>Window::toEmbedder</a>.
--   
--   <i>Since: 2.18</i>
type WindowFromEmbedderCallback = -- | /@embedderX@/: x coordinate in the embedder window Double -> -- | /@embedderY@/: y coordinate in the embedder window Double -> IO ((Double, Double))

-- | Connect a signal handler for the <a>fromEmbedder</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> window #fromEmbedder callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterWindowFromEmbedder :: (IsWindow a, MonadIO m) => a -> ((?self :: a) => WindowFromEmbedderCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>fromEmbedder</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> window #fromEmbedder callback
--   </pre>
onWindowFromEmbedder :: (IsWindow a, MonadIO m) => a -> ((?self :: a) => WindowFromEmbedderCallback) -> m SignalHandlerId

-- | Emitted when the position of <i><tt>window</tt></i> is finalized after
--   being moved to a destination rectangle.
--   
--   <i><tt>window</tt></i> might be flipped over the destination rectangle
--   in order to keep it on-screen, in which case <i><tt>flippedX</tt></i>
--   and <i><tt>flippedY</tt></i> will be set to <a>True</a> accordingly.
--   
--   <i><tt>flippedRect</tt></i> is the ideal position of
--   <i><tt>window</tt></i> after any possible flipping, but before any
--   possible sliding. <i><tt>finalRect</tt></i> is
--   <i><tt>flippedRect</tt></i>, but possibly translated in the case that
--   flipping is still ineffective in keeping <i><tt>window</tt></i>
--   on-screen.
--   
--   <i>Since: 3.22</i>
type WindowMovedToRectCallback = -- | /@flippedRect@/: the position of /@window@/ after any possible --                flipping or 'P.Nothing' if the backend can\'t obtain it Ptr () -> -- | /@finalRect@/: the final position of /@window@/ or 'P.Nothing' if the --              backend can\'t obtain it Ptr () -> -- | /@flippedX@/: 'P.True' if the anchors were flipped horizontally Bool -> -- | /@flippedY@/: 'P.True' if the anchors were flipped vertically Bool -> IO ()

-- | Connect a signal handler for the <a>movedToRect</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> window #movedToRect callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterWindowMovedToRect :: (IsWindow a, MonadIO m) => a -> ((?self :: a) => WindowMovedToRectCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>movedToRect</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> window #movedToRect callback
--   </pre>
onWindowMovedToRect :: (IsWindow a, MonadIO m) => a -> ((?self :: a) => WindowMovedToRectCallback) -> m SignalHandlerId

-- | The <a>pickEmbeddedChild</a> signal is emitted to find an embedded
--   child at the given position.
--   
--   <i>Since: 2.18</i>
type WindowPickEmbeddedChildCallback = -- | /@x@/: x coordinate in the window Double -> -- | /@y@/: y coordinate in the window Double -> -- | __Returns:__ the t'GI.Gdk.Objects.Window.Window' of the --     embedded child at /@x@/, /@y@/, or 'P.Nothing' IO (Maybe Window)

-- | Connect a signal handler for the <a>pickEmbeddedChild</a> signal, to
--   be run after the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>after</a> window #pickEmbeddedChild callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterWindowPickEmbeddedChild :: (IsWindow a, MonadIO m) => a -> ((?self :: a) => WindowPickEmbeddedChildCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>pickEmbeddedChild</a> signal, to
--   be run before the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>on</a> window #pickEmbeddedChild callback
--   </pre>
onWindowPickEmbeddedChild :: (IsWindow a, MonadIO m) => a -> ((?self :: a) => WindowPickEmbeddedChildCallback) -> m SignalHandlerId

-- | The <a>toEmbedder</a> signal is emitted to translate coordinates in an
--   offscreen window to its embedder.
--   
--   See also <a>Window::fromEmbedder</a>.
--   
--   <i>Since: 2.18</i>
type WindowToEmbedderCallback = -- | /@offscreenX@/: x coordinate in the offscreen window Double -> -- | /@offscreenY@/: y coordinate in the offscreen window Double -> IO ((Double, Double))

-- | Connect a signal handler for the <a>toEmbedder</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> window #toEmbedder callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterWindowToEmbedder :: (IsWindow a, MonadIO m) => a -> ((?self :: a) => WindowToEmbedderCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>toEmbedder</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> window #toEmbedder callback
--   </pre>
onWindowToEmbedder :: (IsWindow a, MonadIO m) => a -> ((?self :: a) => WindowToEmbedderCallback) -> m SignalHandlerId
instance GHC.Classes.Eq GI.Gdk.Objects.Window.Window
instance (Data.GI.Base.BasicTypes.GObject o, Data.GI.Base.Overloading.IsDescendantOf GI.Gdk.Objects.Window.Window o) => GI.Gdk.Objects.Window.IsWindow o
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Objects.Window.Window
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Objects.Window.Window
instance Data.GI.Base.BasicTypes.GObject GI.Gdk.Objects.Window.Window
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Objects.Window.Window
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Objects.Window.Window)


-- | A <a>Visual</a> contains information about a particular visual.
module GI.Gdk.Objects.Visual

-- | Memory-managed wrapper type.
newtype Visual
Visual :: ManagedPtr Visual -> Visual

-- | Type class for types which can be safely cast to <a>Visual</a>, for
--   instance with <a>toVisual</a>.
class (GObject o, IsDescendantOf Visual o) => IsVisual o

-- | Cast to <a>Visual</a>, for types for which this is known to be safe.
--   For general casts, use <a>castTo</a>.
toVisual :: (MonadIO m, IsVisual o) => o -> m Visual

-- | Get the visual with the most available colors for the default GDK
--   screen. The return value should not be freed.

-- | <i>Deprecated: (Since version 3.22)Visual selection should be done
--   using <a>screenGetSystemVisual</a> and <a>screenGetRgbaVisual</a></i>
visualGetBest :: (HasCallStack, MonadIO m) => m Visual

-- | Get the best available depth for the default GDK screen. “Best” means
--   “largest,” i.e. 32 preferred over 24 preferred over 8 bits per pixel.

-- | <i>Deprecated: (Since version 3.22)Visual selection should be done
--   using <a>screenGetSystemVisual</a> and <a>screenGetRgbaVisual</a></i>
visualGetBestDepth :: (HasCallStack, MonadIO m) => m Int32

-- | Return the best available visual type for the default GDK screen.

-- | <i>Deprecated: (Since version 3.22)Visual selection should be done
--   using <a>screenGetSystemVisual</a> and <a>screenGetRgbaVisual</a></i>
visualGetBestType :: (HasCallStack, MonadIO m) => m VisualType

-- | Combines <a>visualGetBestWithDepth</a> and
--   <a>visualGetBestWithType</a>.

-- | <i>Deprecated: (Since version 3.22)Visual selection should be done
--   using <a>screenGetSystemVisual</a> and <a>screenGetRgbaVisual</a></i>
visualGetBestWithBoth :: (HasCallStack, MonadIO m) => Int32 -> VisualType -> m (Maybe Visual)

-- | Get the best visual with depth <i><tt>depth</tt></i> for the default
--   GDK screen. Color visuals and visuals with mutable colormaps are
--   preferred over grayscale or fixed-colormap visuals. The return value
--   should not be freed. <a>Nothing</a> may be returned if no visual
--   supports <i><tt>depth</tt></i>.

-- | <i>Deprecated: (Since version 3.22)Visual selection should be done
--   using <a>screenGetSystemVisual</a> and <a>screenGetRgbaVisual</a></i>
visualGetBestWithDepth :: (HasCallStack, MonadIO m) => Int32 -> m Visual

-- | Get the best visual of the given <i><tt>visualType</tt></i> for the
--   default GDK screen. Visuals with higher color depths are considered
--   better. The return value should not be freed. <a>Nothing</a> may be
--   returned if no visual has type <i><tt>visualType</tt></i>.

-- | <i>Deprecated: (Since version 3.22)Visual selection should be done
--   using <a>screenGetSystemVisual</a> and <a>screenGetRgbaVisual</a></i>
visualGetBestWithType :: (HasCallStack, MonadIO m) => VisualType -> m Visual

-- | Returns the number of significant bits per red, green and blue value.
--   
--   Not all GDK backend provide a meaningful value for this function.
--   
--   <i>Since: 2.22</i>

-- | <i>Deprecated: (Since version 3.22.)Use
--   <a>visualGetRedPixelDetails</a> and its variants to learn about the
--   pixel layout of TrueColor and DirectColor visuals</i>
visualGetBitsPerRgb :: (HasCallStack, MonadIO m, IsVisual a) => a -> m Int32

-- | Obtains values that are needed to calculate blue pixel values in
--   TrueColor and DirectColor. The “mask” is the significant bits within
--   the pixel. The “shift” is the number of bits left we must shift a
--   primary for it to be in position (according to the "mask"). Finally,
--   "precision" refers to how much precision the pixel value contains for
--   a particular primary.
--   
--   <i>Since: 2.22</i>
visualGetBluePixelDetails :: (HasCallStack, MonadIO m, IsVisual a) => a -> m (Word32, Int32, Int32)

-- | Returns the byte order of this visual.
--   
--   The information returned by this function is only relevant when
--   working with XImages, and not all backends return meaningful
--   information for this.
--   
--   <i>Since: 2.22</i>

-- | <i>Deprecated: (Since version 3.22)This information is not useful</i>
visualGetByteOrder :: (HasCallStack, MonadIO m, IsVisual a) => a -> m ByteOrder

-- | Returns the size of a colormap for this visual.
--   
--   You have to use platform-specific APIs to manipulate colormaps.
--   
--   <i>Since: 2.22</i>

-- | <i>Deprecated: (Since version 3.22)This information is not useful,
--   since GDK does not provide APIs to operate on colormaps.</i>
visualGetColormapSize :: (HasCallStack, MonadIO m, IsVisual a) => a -> m Int32

-- | Returns the bit depth of this visual.
--   
--   <i>Since: 2.22</i>
visualGetDepth :: (HasCallStack, MonadIO m, IsVisual a) => a -> m Int32

-- | Obtains values that are needed to calculate green pixel values in
--   TrueColor and DirectColor. The “mask” is the significant bits within
--   the pixel. The “shift” is the number of bits left we must shift a
--   primary for it to be in position (according to the "mask"). Finally,
--   "precision" refers to how much precision the pixel value contains for
--   a particular primary.
--   
--   <i>Since: 2.22</i>
visualGetGreenPixelDetails :: (HasCallStack, MonadIO m, IsVisual a) => a -> m (Word32, Int32, Int32)

-- | Obtains values that are needed to calculate red pixel values in
--   TrueColor and DirectColor. The “mask” is the significant bits within
--   the pixel. The “shift” is the number of bits left we must shift a
--   primary for it to be in position (according to the "mask"). Finally,
--   "precision" refers to how much precision the pixel value contains for
--   a particular primary.
--   
--   <i>Since: 2.22</i>
visualGetRedPixelDetails :: (HasCallStack, MonadIO m, IsVisual a) => a -> m (Word32, Int32, Int32)

-- | Gets the screen to which this visual belongs
--   
--   <i>Since: 2.2</i>
visualGetScreen :: (HasCallStack, MonadIO m, IsVisual a) => a -> m Screen

-- | Get the system’s default visual for the default GDK screen. This is
--   the visual for the root window of the display. The return value should
--   not be freed.

-- | <i>Deprecated: (Since version 3.22)Use gdk_screen_get_system_visual
--   (gdk_screen_get_default ()).</i>
visualGetSystem :: (HasCallStack, MonadIO m) => m Visual

-- | Returns the type of visual this is (PseudoColor, TrueColor, etc).
--   
--   <i>Since: 2.22</i>
visualGetVisualType :: (HasCallStack, MonadIO m, IsVisual a) => a -> m VisualType
instance GHC.Classes.Eq GI.Gdk.Objects.Visual.Visual
instance (Data.GI.Base.BasicTypes.GObject o, Data.GI.Base.Overloading.IsDescendantOf GI.Gdk.Objects.Visual.Visual o) => GI.Gdk.Objects.Visual.IsVisual o
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Objects.Visual.Visual
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Objects.Visual.Visual
instance Data.GI.Base.BasicTypes.GObject GI.Gdk.Objects.Visual.Visual
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Objects.Visual.Visual
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Objects.Visual.Visual)


-- | The <a>Seat</a> object represents a collection of input devices that
--   belong to a user.
module GI.Gdk.Objects.Seat

-- | Memory-managed wrapper type.
newtype Seat
Seat :: ManagedPtr Seat -> Seat

-- | Type class for types which can be safely cast to <a>Seat</a>, for
--   instance with <a>toSeat</a>.
class (GObject o, IsDescendantOf Seat o) => IsSeat o

-- | Cast to <a>Seat</a>, for types for which this is known to be safe. For
--   general casts, use <a>castTo</a>.
toSeat :: (MonadIO m, IsSeat o) => o -> m Seat

-- | Returns the capabilities this <a>Seat</a> currently has.
--   
--   <i>Since: 3.20</i>
seatGetCapabilities :: (HasCallStack, MonadIO m, IsSeat a) => a -> m [SeatCapabilities]

-- | Returns the <a>Display</a> this seat belongs to.
seatGetDisplay :: (HasCallStack, MonadIO m, IsSeat a) => a -> m Display

-- | Returns the master device that routes keyboard events.
--   
--   <i>Since: 3.20</i>
seatGetKeyboard :: (HasCallStack, MonadIO m, IsSeat a) => a -> m (Maybe Device)

-- | Returns the master device that routes pointer events.
--   
--   <i>Since: 3.20</i>
seatGetPointer :: (HasCallStack, MonadIO m, IsSeat a) => a -> m (Maybe Device)

-- | Returns the slave devices that match the given capabilities.
--   
--   <i>Since: 3.20</i>
seatGetSlaves :: (HasCallStack, MonadIO m, IsSeat a) => a -> [SeatCapabilities] -> m [Device]

-- | Grabs the seat so that all events corresponding to the given
--   <i><tt>capabilities</tt></i> are passed to this application until the
--   seat is ungrabbed with <a>seatUngrab</a>, or the window becomes
--   hidden. This overrides any previous grab on the seat by this client.
--   
--   As a rule of thumb, if a grab is desired over
--   <a>SeatCapabilitiesPointer</a>, all other "pointing" capabilities (eg.
--   <a>SeatCapabilitiesTouch</a>) should be grabbed too, so the user is
--   able to interact with all of those while the grab holds, you should
--   thus use <a>SeatCapabilitiesAllPointing</a> most commonly.
--   
--   Grabs are used for operations which need complete control over the
--   events corresponding to the given capabilities. For example in GTK+
--   this is used for Drag and Drop operations, popup menus and such.
--   
--   Note that if the event mask of a <a>Window</a> has selected both
--   button press and button release events, or touch begin and touch end,
--   then a press event will cause an automatic grab until the button is
--   released, equivalent to a grab on the window with
--   <i><tt>ownerEvents</tt></i> set to <a>True</a>. This is done because
--   most applications expect to receive paired press and release events.
--   
--   If you set up anything at the time you take the grab that needs to be
--   cleaned up when the grab ends, you should handle the
--   <a>EventGrabBroken</a> events that are emitted when the grab ends
--   unvoluntarily.
--   
--   <i>Since: 3.20</i>
seatGrab :: (HasCallStack, MonadIO m, IsSeat a, IsWindow b, IsCursor c) => a -> b -> [SeatCapabilities] -> Bool -> Maybe c -> Maybe Event -> Maybe SeatGrabPrepareFunc -> m GrabStatus

-- | Releases a grab added through <a>seatGrab</a>.
--   
--   <i>Since: 3.20</i>
seatUngrab :: (HasCallStack, MonadIO m, IsSeat a) => a -> m ()

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>display</tt>” property. This is rarely needed directly, but it is
--   used by <a>new</a>.
constructSeatDisplay :: (IsSeat o, MonadIO m, IsDisplay a) => a -> m (GValueConstruct o)

-- | Get the value of the “<tt>display</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> seat #display
--   </pre>
getSeatDisplay :: (MonadIO m, IsSeat o) => o -> m Display

-- | The <a>deviceAdded</a> signal is emitted when a new input device is
--   related to this seat.
--   
--   <i>Since: 3.20</i>
type SeatDeviceAddedCallback = -- | /@device@/: the newly added t'GI.Gdk.Objects.Device.Device'. Device -> IO ()

-- | Connect a signal handler for the <a>deviceAdded</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> seat #deviceAdded callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterSeatDeviceAdded :: (IsSeat a, MonadIO m) => a -> ((?self :: a) => SeatDeviceAddedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>deviceAdded</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> seat #deviceAdded callback
--   </pre>
onSeatDeviceAdded :: (IsSeat a, MonadIO m) => a -> ((?self :: a) => SeatDeviceAddedCallback) -> m SignalHandlerId

-- | The <a>deviceRemoved</a> signal is emitted when an input device is
--   removed (e.g. unplugged).
--   
--   <i>Since: 3.20</i>
type SeatDeviceRemovedCallback = -- | /@device@/: the just removed t'GI.Gdk.Objects.Device.Device'. Device -> IO ()

-- | Connect a signal handler for the <a>deviceRemoved</a> signal, to be
--   run after the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>after</a> seat #deviceRemoved callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterSeatDeviceRemoved :: (IsSeat a, MonadIO m) => a -> ((?self :: a) => SeatDeviceRemovedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>deviceRemoved</a> signal, to be
--   run before the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>on</a> seat #deviceRemoved callback
--   </pre>
onSeatDeviceRemoved :: (IsSeat a, MonadIO m) => a -> ((?self :: a) => SeatDeviceRemovedCallback) -> m SignalHandlerId

-- | The <a>toolAdded</a> signal is emitted whenever a new tool is made
--   known to the seat. The tool may later be assigned to a device (i.e. on
--   proximity with a tablet). The device will emit the
--   <a>Device::toolChanged</a> signal accordingly.
--   
--   A same tool may be used by several devices.
--   
--   <i>Since: 3.22</i>
type SeatToolAddedCallback = -- | /@tool@/: the new t'GI.Gdk.Objects.DeviceTool.DeviceTool' known to the seat DeviceTool -> IO ()

-- | Connect a signal handler for the <a>toolAdded</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> seat #toolAdded callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterSeatToolAdded :: (IsSeat a, MonadIO m) => a -> ((?self :: a) => SeatToolAddedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>toolAdded</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> seat #toolAdded callback
--   </pre>
onSeatToolAdded :: (IsSeat a, MonadIO m) => a -> ((?self :: a) => SeatToolAddedCallback) -> m SignalHandlerId

-- | This signal is emitted whenever a tool is no longer known to this
--   <i><tt>seat</tt></i>.
--   
--   <i>Since: 3.22</i>
type SeatToolRemovedCallback = -- | /@tool@/: the just removed t'GI.Gdk.Objects.DeviceTool.DeviceTool' DeviceTool -> IO ()

-- | Connect a signal handler for the <a>toolRemoved</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> seat #toolRemoved callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterSeatToolRemoved :: (IsSeat a, MonadIO m) => a -> ((?self :: a) => SeatToolRemovedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>toolRemoved</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> seat #toolRemoved callback
--   </pre>
onSeatToolRemoved :: (IsSeat a, MonadIO m) => a -> ((?self :: a) => SeatToolRemovedCallback) -> m SignalHandlerId
instance GHC.Classes.Eq GI.Gdk.Objects.Seat.Seat
instance (Data.GI.Base.BasicTypes.GObject o, Data.GI.Base.Overloading.IsDescendantOf GI.Gdk.Objects.Seat.Seat o) => GI.Gdk.Objects.Seat.IsSeat o
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Objects.Seat.Seat
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Objects.Seat.Seat
instance Data.GI.Base.BasicTypes.GObject GI.Gdk.Objects.Seat.Seat
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Objects.Seat.Seat
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Objects.Seat.Seat)


-- | <a>Screen</a> objects are the GDK representation of the screen on
--   which windows can be displayed and on which the pointer moves. X
--   originally identified screens with physical screens, but nowadays it
--   is more common to have a single <a>Screen</a> which combines several
--   physical monitors (see <a>screenGetNMonitors</a>).
--   
--   GdkScreen is used throughout GDK and GTK+ to specify which screen the
--   top level windows are to be displayed on. it is also used to query the
--   screen specification and default settings such as the default visual
--   (<a>screenGetSystemVisual</a>), the dimensions of the physical
--   monitors (<a>screenGetMonitorGeometry</a>), etc.
module GI.Gdk.Objects.Screen

-- | Memory-managed wrapper type.
newtype Screen
Screen :: ManagedPtr Screen -> Screen

-- | Type class for types which can be safely cast to <a>Screen</a>, for
--   instance with <a>toScreen</a>.
class (GObject o, IsDescendantOf Screen o) => IsScreen o

-- | Cast to <a>Screen</a>, for types for which this is known to be safe.
--   For general casts, use <a>castTo</a>.
toScreen :: (MonadIO m, IsScreen o) => o -> m Screen

-- | Returns the screen’s currently active window.
--   
--   On X11, this is done by inspecting the _NET_ACTIVE_WINDOW property on
--   the root window, as described in the <a>Extended Window Manager
--   Hints</a>. If there is no currently currently active window, or the
--   window manager does not support the _NET_ACTIVE_WINDOW hint, this
--   function returns <a>Nothing</a>.
--   
--   On other platforms, this function may return <a>Nothing</a>, depending
--   on whether it is implementable on that platform.
--   
--   The returned window should be unrefed using <a>objectUnref</a> when no
--   longer needed.
--   
--   <i>Since: 2.10</i>

-- | <i>Deprecated: (Since version 3.22)</i>
screenGetActiveWindow :: (HasCallStack, MonadIO m, IsScreen a) => a -> m (Maybe Window)

-- | Gets the default screen for the default display. (See
--   gdk_display_get_default ()).
--   
--   <i>Since: 2.2</i>
screenGetDefault :: (HasCallStack, MonadIO m) => m (Maybe Screen)

-- | Gets the display to which the <i><tt>screen</tt></i> belongs.
--   
--   <i>Since: 2.2</i>
screenGetDisplay :: (HasCallStack, MonadIO m, IsScreen a) => a -> m Display

-- | Gets any options previously set with <a>screenSetFontOptions</a>.
--   
--   <i>Since: 2.10</i>
screenGetFontOptions :: (HasCallStack, MonadIO m, IsScreen a) => a -> m (Maybe FontOptions)

-- | Gets the height of <i><tt>screen</tt></i> in pixels. The returned size
--   is in ”application pixels”, not in ”device pixels” (see
--   <a>screenGetMonitorScaleFactor</a>).
--   
--   <i>Since: 2.2</i>

-- | <i>Deprecated: (Since version 3.22)Use per-monitor information
--   instead</i>
screenGetHeight :: (HasCallStack, MonadIO m, IsScreen a) => a -> m Int32

-- | Returns the height of <i><tt>screen</tt></i> in millimeters.
--   
--   Note that this value is somewhat ill-defined when the screen has
--   multiple monitors of different resolution. It is recommended to use
--   the monitor dimensions instead.
--   
--   <i>Since: 2.2</i>

-- | <i>Deprecated: (Since version 3.22)Use per-monitor information
--   instead</i>
screenGetHeightMm :: (HasCallStack, MonadIO m, IsScreen a) => a -> m Int32

-- | Returns the monitor number in which the point
--   (<i><tt>x</tt></i>,<i><tt>y</tt></i>) is located.
--   
--   <i>Since: 2.2</i>

-- | <i>Deprecated: (Since version 3.22)Use <a>displayGetMonitorAtPoint</a>
--   instead</i>
screenGetMonitorAtPoint :: (HasCallStack, MonadIO m, IsScreen a) => a -> Int32 -> Int32 -> m Int32

-- | Returns the number of the monitor in which the largest area of the
--   bounding rectangle of <i><tt>window</tt></i> resides.
--   
--   <i>Since: 2.2</i>

-- | <i>Deprecated: (Since version 3.22)Use
--   <a>displayGetMonitorAtWindow</a> instead</i>
screenGetMonitorAtWindow :: (HasCallStack, MonadIO m, IsScreen a, IsWindow b) => a -> b -> m Int32

-- | Retrieves the <a>Rectangle</a> representing the size and position of
--   the individual monitor within the entire screen area. The returned
--   geometry is in ”application pixels”, not in ”device pixels” (see
--   <a>screenGetMonitorScaleFactor</a>).
--   
--   Monitor numbers start at 0. To obtain the number of monitors of
--   <i><tt>screen</tt></i>, use <a>screenGetNMonitors</a>.
--   
--   Note that the size of the entire screen area can be retrieved via
--   <a>screenGetWidth</a> and <a>screenGetHeight</a>.
--   
--   <i>Since: 2.2</i>

-- | <i>Deprecated: (Since version 3.22)Use <a>monitorGetGeometry</a>
--   instead</i>
screenGetMonitorGeometry :: (HasCallStack, MonadIO m, IsScreen a) => a -> Int32 -> m Rectangle

-- | Gets the height in millimeters of the specified monitor.
--   
--   <i>Since: 2.14</i>

-- | <i>Deprecated: (Since version 3.22)Use <a>monitorGetHeightMm</a>
--   instead</i>
screenGetMonitorHeightMm :: (HasCallStack, MonadIO m, IsScreen a) => a -> Int32 -> m Int32

-- | Returns the output name of the specified monitor. Usually something
--   like VGA, DVI, or TV, not the actual product name of the display
--   device.
--   
--   <i>Since: 2.14</i>

-- | <i>Deprecated: (Since version 3.22)Use <a>monitorGetModel</a>
--   instead</i>
screenGetMonitorPlugName :: (HasCallStack, MonadIO m, IsScreen a) => a -> Int32 -> m (Maybe Text)

-- | Returns the internal scale factor that maps from monitor coordinates
--   to the actual device pixels. On traditional systems this is 1, but on
--   very high density outputs this can be a higher value (often 2).
--   
--   This can be used if you want to create pixel based data for a
--   particular monitor, but most of the time you’re drawing to a window
--   where it is better to use <a>windowGetScaleFactor</a> instead.
--   
--   <i>Since: 3.10</i>

-- | <i>Deprecated: (Since version 3.22)Use <a>monitorGetScaleFactor</a>
--   instead</i>
screenGetMonitorScaleFactor :: (HasCallStack, MonadIO m, IsScreen a) => a -> Int32 -> m Int32

-- | Gets the width in millimeters of the specified monitor, if available.
--   
--   <i>Since: 2.14</i>

-- | <i>Deprecated: (Since version 3.22)Use <a>monitorGetWidthMm</a>
--   instead</i>
screenGetMonitorWidthMm :: (HasCallStack, MonadIO m, IsScreen a) => a -> Int32 -> m Int32

-- | Retrieves the <a>Rectangle</a> representing the size and position of
--   the “work area” on a monitor within the entire screen area. The
--   returned geometry is in ”application pixels”, not in ”device pixels”
--   (see <a>screenGetMonitorScaleFactor</a>).
--   
--   The work area should be considered when positioning menus and similar
--   popups, to avoid placing them below panels, docks or other desktop
--   components.
--   
--   Note that not all backends may have a concept of workarea. This
--   function will return the monitor geometry if a workarea is not
--   available, or does not apply.
--   
--   Monitor numbers start at 0. To obtain the number of monitors of
--   <i><tt>screen</tt></i>, use <a>screenGetNMonitors</a>.
--   
--   <i>Since: 3.4</i>

-- | <i>Deprecated: (Since version 3.22)Use <a>monitorGetWorkarea</a>
--   instead</i>
screenGetMonitorWorkarea :: (HasCallStack, MonadIO m, IsScreen a) => a -> Int32 -> m Rectangle

-- | Returns the number of monitors which <i><tt>screen</tt></i> consists
--   of.
--   
--   <i>Since: 2.2</i>

-- | <i>Deprecated: (Since version 3.22)Use <a>displayGetNMonitors</a>
--   instead</i>
screenGetNMonitors :: (HasCallStack, MonadIO m, IsScreen a) => a -> m Int32

-- | Gets the index of <i><tt>screen</tt></i> among the screens in the
--   display to which it belongs. (See <a>screenGetDisplay</a>)
--   
--   <i>Since: 2.2</i>

-- | <i>Deprecated: (Since version 3.22)</i>
screenGetNumber :: (HasCallStack, MonadIO m, IsScreen a) => a -> m Int32

-- | Gets the primary monitor for <i><tt>screen</tt></i>. The primary
--   monitor is considered the monitor where the “main desktop” lives.
--   While normal application windows typically allow the window manager to
--   place the windows, specialized desktop applications such as panels
--   should place themselves on the primary monitor.
--   
--   If no primary monitor is configured by the user, the return value will
--   be 0, defaulting to the first monitor.
--   
--   <i>Since: 2.20</i>

-- | <i>Deprecated: (Since version 3.22)Use <a>displayGetPrimaryMonitor</a>
--   instead</i>
screenGetPrimaryMonitor :: (HasCallStack, MonadIO m, IsScreen a) => a -> m Int32

-- | Gets the resolution for font handling on the screen; see
--   <a>screenSetResolution</a> for full details.
--   
--   <i>Since: 2.10</i>
screenGetResolution :: (HasCallStack, MonadIO m, IsScreen a) => a -> m Double

-- | Gets a visual to use for creating windows with an alpha channel. The
--   windowing system on which GTK+ is running may not support this
--   capability, in which case <a>Nothing</a> will be returned. Even if a
--   non-<a>Nothing</a> value is returned, its possible that the window’s
--   alpha channel won’t be honored when displaying the window on the
--   screen: in particular, for X an appropriate windowing manager and
--   compositing manager must be running to provide appropriate display.
--   
--   This functionality is not implemented in the Windows backend.
--   
--   For setting an overall opacity for a top-level window, see
--   <a>windowSetOpacity</a>.
--   
--   <i>Since: 2.8</i>
screenGetRgbaVisual :: (HasCallStack, MonadIO m, IsScreen a) => a -> m (Maybe Visual)

-- | Gets the root window of <i><tt>screen</tt></i>.
--   
--   <i>Since: 2.2</i>
screenGetRootWindow :: (HasCallStack, MonadIO m, IsScreen a) => a -> m Window

-- | Retrieves a desktop-wide setting such as double-click time for the
--   <a>Screen</a> <i><tt>screen</tt></i>.
--   
--   FIXME needs a list of valid settings here, or a link to more
--   information.
--   
--   <i>Since: 2.2</i>
screenGetSetting :: (HasCallStack, MonadIO m, IsScreen a) => a -> Text -> GValue -> m Bool

-- | Get the system’s default visual for <i><tt>screen</tt></i>. This is
--   the visual for the root window of the display. The return value should
--   not be freed.
--   
--   <i>Since: 2.2</i>
screenGetSystemVisual :: (HasCallStack, MonadIO m, IsScreen a) => a -> m Visual

-- | Obtains a list of all toplevel windows known to GDK on the screen
--   <i><tt>screen</tt></i>. A toplevel window is a child of the root
--   window (see <a>getDefaultRootWindow</a>).
--   
--   The returned list should be freed with <tt><i>g_list_free()</i></tt>,
--   but its elements need not be freed.
--   
--   <i>Since: 2.2</i>
screenGetToplevelWindows :: (HasCallStack, MonadIO m, IsScreen a) => a -> m [Window]

-- | Gets the width of <i><tt>screen</tt></i> in pixels. The returned size
--   is in ”application pixels”, not in ”device pixels” (see
--   <a>screenGetMonitorScaleFactor</a>).
--   
--   <i>Since: 2.2</i>

-- | <i>Deprecated: (Since version 3.22)Use per-monitor information
--   instead</i>
screenGetWidth :: (HasCallStack, MonadIO m, IsScreen a) => a -> m Int32

-- | Gets the width of <i><tt>screen</tt></i> in millimeters.
--   
--   Note that this value is somewhat ill-defined when the screen has
--   multiple monitors of different resolution. It is recommended to use
--   the monitor dimensions instead.
--   
--   <i>Since: 2.2</i>

-- | <i>Deprecated: (Since version 3.22)Use per-monitor information
--   instead</i>
screenGetWidthMm :: (HasCallStack, MonadIO m, IsScreen a) => a -> m Int32

-- | Returns a <a>List</a> of <tt><i>GdkWindows</i></tt> representing the
--   current window stack.
--   
--   On X11, this is done by inspecting the _NET_CLIENT_LIST_STACKING
--   property on the root window, as described in the <a>Extended Window
--   Manager Hints</a>. If the window manager does not support the
--   _NET_CLIENT_LIST_STACKING hint, this function returns <a>Nothing</a>.
--   
--   On other platforms, this function may return <a>Nothing</a>, depending
--   on whether it is implementable on that platform.
--   
--   The returned list is newly allocated and owns references to the
--   windows it contains, so it should be freed using
--   <tt><i>g_list_free()</i></tt> and its windows unrefed using
--   <a>objectUnref</a> when no longer needed.
--   
--   <i>Since: 2.10</i>
screenGetWindowStack :: (HasCallStack, MonadIO m, IsScreen a) => a -> m [Window]

-- | Gets the height of the default screen in pixels. The returned size is
--   in ”application pixels”, not in ”device pixels” (see
--   <a>screenGetMonitorScaleFactor</a>).

-- | <i>Deprecated: (Since version 3.22)Use per-monitor information</i>
screenHeight :: (HasCallStack, MonadIO m) => m Int32

-- | Returns the height of the default screen in millimeters. Note that on
--   many X servers this value will not be correct.

-- | <i>Deprecated: (Since version 3.22)Use per-monitor information</i>
screenHeightMm :: (HasCallStack, MonadIO m) => m Int32

-- | Returns whether windows with an RGBA visual can reasonably be expected
--   to have their alpha channel drawn correctly on the screen.
--   
--   On X11 this function returns whether a compositing manager is
--   compositing <i><tt>screen</tt></i>.
--   
--   <i>Since: 2.10</i>
screenIsComposited :: (HasCallStack, MonadIO m, IsScreen a) => a -> m Bool

-- | Lists the available visuals for the specified <i><tt>screen</tt></i>.
--   A visual describes a hardware image data format. For example, a visual
--   might support 24-bit color, or 8-bit color, and might expect pixels to
--   be in a certain format.
--   
--   Call <tt><i>g_list_free()</i></tt> on the return value when you’re
--   finished with it.
--   
--   <i>Since: 2.2</i>
screenListVisuals :: (HasCallStack, MonadIO m, IsScreen a) => a -> m [Visual]

-- | Determines the name to pass to <a>displayOpen</a> to get a
--   <a>Display</a> with this screen as the default screen.
--   
--   <i>Since: 2.2</i>

-- | <i>Deprecated: (Since version 3.22)</i>
screenMakeDisplayName :: (HasCallStack, MonadIO m, IsScreen a) => a -> m Text

-- | Sets the default font options for the screen. These options will be
--   set on any <a>Context</a>’s newly created with
--   <a>pangoContextGetForScreen</a>. Changing the default set of font
--   options does not affect contexts that have already been created.
--   
--   <i>Since: 2.10</i>
screenSetFontOptions :: (HasCallStack, MonadIO m, IsScreen a) => a -> Maybe FontOptions -> m ()

-- | Sets the resolution for font handling on the screen. This is a scale
--   factor between points specified in a <a>FontDescription</a> and cairo
--   units. The default value is 96, meaning that a 10 point font will be
--   13 units high. (10 * 96. / 72. = 13.3).
--   
--   <i>Since: 2.10</i>
screenSetResolution :: (HasCallStack, MonadIO m, IsScreen a) => a -> Double -> m ()

-- | Gets the width of the default screen in pixels. The returned size is
--   in ”application pixels”, not in ”device pixels” (see
--   <a>screenGetMonitorScaleFactor</a>).

-- | <i>Deprecated: (Since version 3.22)Use per-monitor information</i>
screenWidth :: (HasCallStack, MonadIO m) => m Int32

-- | Returns the width of the default screen in millimeters. Note that on
--   many X servers this value will not be correct.

-- | <i>Deprecated: (Since version 3.22)Use per-monitor information</i>
screenWidthMm :: (HasCallStack, MonadIO m) => m Int32

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>font-options</tt>” property. This is rarely needed directly, but
--   it is used by <a>new</a>.
constructScreenFontOptions :: (IsScreen o, MonadIO m) => Ptr () -> m (GValueConstruct o)

-- | Get the value of the “<tt>font-options</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> screen #fontOptions
--   </pre>
getScreenFontOptions :: (MonadIO m, IsScreen o) => o -> m (Ptr ())

-- | Set the value of the “<tt>font-options</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> screen [ #fontOptions <a>:=</a> value ]
--   </pre>
setScreenFontOptions :: (MonadIO m, IsScreen o) => o -> Ptr () -> m ()

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>resolution</tt>” property. This is rarely needed directly, but it
--   is used by <a>new</a>.
constructScreenResolution :: (IsScreen o, MonadIO m) => Double -> m (GValueConstruct o)

-- | Get the value of the “<tt>resolution</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> screen #resolution
--   </pre>
getScreenResolution :: (MonadIO m, IsScreen o) => o -> m Double

-- | Set the value of the “<tt>resolution</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> screen [ #resolution <a>:=</a> value ]
--   </pre>
setScreenResolution :: (MonadIO m, IsScreen o) => o -> Double -> m ()

-- | The <a>compositedChanged</a> signal is emitted when the composited
--   status of the screen changes
--   
--   <i>Since: 2.10</i>
type ScreenCompositedChangedCallback = IO ()

-- | Connect a signal handler for the <a>compositedChanged</a> signal, to
--   be run after the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>after</a> screen #compositedChanged callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterScreenCompositedChanged :: (IsScreen a, MonadIO m) => a -> ((?self :: a) => ScreenCompositedChangedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>compositedChanged</a> signal, to
--   be run before the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>on</a> screen #compositedChanged callback
--   </pre>
onScreenCompositedChanged :: (IsScreen a, MonadIO m) => a -> ((?self :: a) => ScreenCompositedChangedCallback) -> m SignalHandlerId

-- | The <a>monitorsChanged</a> signal is emitted when the number, size or
--   position of the monitors attached to the screen change.
--   
--   Only for X11 and OS X for now. A future implementation for Win32 may
--   be a possibility.
--   
--   <i>Since: 2.14</i>
type ScreenMonitorsChangedCallback = IO ()

-- | Connect a signal handler for the <a>monitorsChanged</a> signal, to be
--   run after the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>after</a> screen #monitorsChanged callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterScreenMonitorsChanged :: (IsScreen a, MonadIO m) => a -> ((?self :: a) => ScreenMonitorsChangedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>monitorsChanged</a> signal, to be
--   run before the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>on</a> screen #monitorsChanged callback
--   </pre>
onScreenMonitorsChanged :: (IsScreen a, MonadIO m) => a -> ((?self :: a) => ScreenMonitorsChangedCallback) -> m SignalHandlerId

-- | The <a>sizeChanged</a> signal is emitted when the pixel width or
--   height of a screen changes.
--   
--   <i>Since: 2.2</i>
type ScreenSizeChangedCallback = IO ()

-- | Connect a signal handler for the <a>sizeChanged</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> screen #sizeChanged callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterScreenSizeChanged :: (IsScreen a, MonadIO m) => a -> ((?self :: a) => ScreenSizeChangedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>sizeChanged</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> screen #sizeChanged callback
--   </pre>
onScreenSizeChanged :: (IsScreen a, MonadIO m) => a -> ((?self :: a) => ScreenSizeChangedCallback) -> m SignalHandlerId
instance GHC.Classes.Eq GI.Gdk.Objects.Screen.Screen
instance (Data.GI.Base.BasicTypes.GObject o, Data.GI.Base.Overloading.IsDescendantOf GI.Gdk.Objects.Screen.Screen o) => GI.Gdk.Objects.Screen.IsScreen o
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Objects.Screen.Screen
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Objects.Screen.Screen
instance Data.GI.Base.BasicTypes.GObject GI.Gdk.Objects.Screen.Screen
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Objects.Screen.Screen
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Objects.Screen.Screen)


-- | GdkMonitor objects represent the individual outputs that are
--   associated with a <a>Display</a>. GdkDisplay has APIs to enumerate
--   monitors with <a>displayGetNMonitors</a> and <a>displayGetMonitor</a>,
--   and to find particular monitors with <a>displayGetPrimaryMonitor</a>
--   or <a>displayGetMonitorAtWindow</a>.
--   
--   GdkMonitor was introduced in GTK+ 3.22 and supersedes earlier APIs in
--   GdkScreen to obtain monitor-related information.
module GI.Gdk.Objects.Monitor

-- | Memory-managed wrapper type.
newtype Monitor
Monitor :: ManagedPtr Monitor -> Monitor

-- | Type class for types which can be safely cast to <a>Monitor</a>, for
--   instance with <a>toMonitor</a>.
class (GObject o, IsDescendantOf Monitor o) => IsMonitor o

-- | Cast to <a>Monitor</a>, for types for which this is known to be safe.
--   For general casts, use <a>castTo</a>.
toMonitor :: (MonadIO m, IsMonitor o) => o -> m Monitor

-- | Gets the display that this monitor belongs to.
--   
--   <i>Since: 3.22</i>
monitorGetDisplay :: (HasCallStack, MonadIO m, IsMonitor a) => a -> m Display

-- | Retrieves the size and position of an individual monitor within the
--   display coordinate space. The returned geometry is in ”application
--   pixels”, not in ”device pixels” (see <a>monitorGetScaleFactor</a>).
--   
--   <i>Since: 3.22</i>
monitorGetGeometry :: (HasCallStack, MonadIO m, IsMonitor a) => a -> m Rectangle

-- | Gets the height in millimeters of the monitor.
--   
--   <i>Since: 3.22</i>
monitorGetHeightMm :: (HasCallStack, MonadIO m, IsMonitor a) => a -> m Int32

-- | Gets the name or PNP ID of the monitor's manufacturer, if available.
--   
--   Note that this value might also vary depending on actual display
--   backend.
--   
--   PNP ID registry is located at https://uefi.org/pnp_id_list
monitorGetManufacturer :: (HasCallStack, MonadIO m, IsMonitor a) => a -> m (Maybe Text)

-- | Gets the a string identifying the monitor model, if available.
monitorGetModel :: (HasCallStack, MonadIO m, IsMonitor a) => a -> m (Maybe Text)

-- | Gets the refresh rate of the monitor, if available.
--   
--   The value is in milli-Hertz, so a refresh rate of 60Hz is returned as
--   60000.
--   
--   <i>Since: 3.22</i>
monitorGetRefreshRate :: (HasCallStack, MonadIO m, IsMonitor a) => a -> m Int32

-- | Gets the internal scale factor that maps from monitor coordinates to
--   the actual device pixels. On traditional systems this is 1, but on
--   very high density outputs this can be a higher value (often 2).
--   
--   This can be used if you want to create pixel based data for a
--   particular monitor, but most of the time you’re drawing to a window
--   where it is better to use <a>windowGetScaleFactor</a> instead.
--   
--   <i>Since: 3.22</i>
monitorGetScaleFactor :: (HasCallStack, MonadIO m, IsMonitor a) => a -> m Int32

-- | Gets information about the layout of red, green and blue primaries for
--   each pixel in this monitor, if available.
--   
--   <i>Since: 3.22</i>
monitorGetSubpixelLayout :: (HasCallStack, MonadIO m, IsMonitor a) => a -> m SubpixelLayout

-- | Gets the width in millimeters of the monitor.
--   
--   <i>Since: 3.22</i>
monitorGetWidthMm :: (HasCallStack, MonadIO m, IsMonitor a) => a -> m Int32

-- | Retrieves the size and position of the “work area” on a monitor within
--   the display coordinate space. The returned geometry is in ”application
--   pixels”, not in ”device pixels” (see <a>monitorGetScaleFactor</a>).
--   
--   The work area should be considered when positioning menus and similar
--   popups, to avoid placing them below panels, docks or other desktop
--   components.
--   
--   Note that not all backends may have a concept of workarea. This
--   function will return the monitor geometry if a workarea is not
--   available, or does not apply.
--   
--   <i>Since: 3.22</i>
monitorGetWorkarea :: (HasCallStack, MonadIO m, IsMonitor a) => a -> m Rectangle

-- | Gets whether this monitor should be considered primary (see
--   <a>displayGetPrimaryMonitor</a>).
--   
--   <i>Since: 3.22</i>
monitorIsPrimary :: (HasCallStack, MonadIO m, IsMonitor a) => a -> m Bool

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>display</tt>” property. This is rarely needed directly, but it is
--   used by <a>new</a>.
constructMonitorDisplay :: (IsMonitor o, MonadIO m, IsDisplay a) => a -> m (GValueConstruct o)

-- | Get the value of the “<tt>display</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> monitor #display
--   </pre>
getMonitorDisplay :: (MonadIO m, IsMonitor o) => o -> m Display

-- | Get the value of the “<tt>geometry</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> monitor #geometry
--   </pre>
getMonitorGeometry :: (MonadIO m, IsMonitor o) => o -> m (Maybe Rectangle)

-- | Get the value of the “<tt>height-mm</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> monitor #heightMm
--   </pre>
getMonitorHeightMm :: (MonadIO m, IsMonitor o) => o -> m Int32

-- | Get the value of the “<tt>manufacturer</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> monitor #manufacturer
--   </pre>
getMonitorManufacturer :: (MonadIO m, IsMonitor o) => o -> m (Maybe Text)

-- | Get the value of the “<tt>model</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> monitor #model
--   </pre>
getMonitorModel :: (MonadIO m, IsMonitor o) => o -> m (Maybe Text)

-- | Get the value of the “<tt>refresh-rate</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> monitor #refreshRate
--   </pre>
getMonitorRefreshRate :: (MonadIO m, IsMonitor o) => o -> m Int32

-- | Get the value of the “<tt>scale-factor</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> monitor #scaleFactor
--   </pre>
getMonitorScaleFactor :: (MonadIO m, IsMonitor o) => o -> m Int32

-- | Get the value of the “<tt>subpixel-layout</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> monitor #subpixelLayout
--   </pre>
getMonitorSubpixelLayout :: (MonadIO m, IsMonitor o) => o -> m SubpixelLayout

-- | Get the value of the “<tt>width-mm</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> monitor #widthMm
--   </pre>
getMonitorWidthMm :: (MonadIO m, IsMonitor o) => o -> m Int32

-- | Get the value of the “<tt>workarea</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> monitor #workarea
--   </pre>
getMonitorWorkarea :: (MonadIO m, IsMonitor o) => o -> m (Maybe Rectangle)

-- | <i>No description available in the introspection data.</i>
type MonitorInvalidateCallback = IO ()

-- | Connect a signal handler for the <a>invalidate</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> monitor #invalidate callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterMonitorInvalidate :: (IsMonitor a, MonadIO m) => a -> ((?self :: a) => MonitorInvalidateCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>invalidate</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> monitor #invalidate callback
--   </pre>
onMonitorInvalidate :: (IsMonitor a, MonadIO m) => a -> ((?self :: a) => MonitorInvalidateCallback) -> m SignalHandlerId
instance GHC.Classes.Eq GI.Gdk.Objects.Monitor.Monitor
instance (Data.GI.Base.BasicTypes.GObject o, Data.GI.Base.Overloading.IsDescendantOf GI.Gdk.Objects.Monitor.Monitor o) => GI.Gdk.Objects.Monitor.IsMonitor o
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Objects.Monitor.Monitor
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Objects.Monitor.Monitor
instance Data.GI.Base.BasicTypes.GObject GI.Gdk.Objects.Monitor.Monitor
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Objects.Monitor.Monitor
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Objects.Monitor.Monitor)


-- | A <a>Keymap</a> defines the translation from keyboard state (including
--   a hardware key, a modifier mask, and active keyboard group) to a
--   keyval. This translation has two phases. The first phase is to
--   determine the effective keyboard group and level for the keyboard
--   state; the second phase is to look up the keycode/group/level triplet
--   in the keymap and see what keyval it corresponds to.
module GI.Gdk.Objects.Keymap

-- | Memory-managed wrapper type.
newtype Keymap
Keymap :: ManagedPtr Keymap -> Keymap

-- | Type class for types which can be safely cast to <a>Keymap</a>, for
--   instance with <a>toKeymap</a>.
class (GObject o, IsDescendantOf Keymap o) => IsKeymap o

-- | Cast to <a>Keymap</a>, for types for which this is known to be safe.
--   For general casts, use <a>castTo</a>.
toKeymap :: (MonadIO m, IsKeymap o) => o -> m Keymap

-- | Maps the non-virtual modifiers (i.e Mod2, Mod3, ...) which are set in
--   <i><tt>state</tt></i> to the virtual modifiers (i.e. Super, Hyper and
--   Meta) and set the corresponding bits in <i><tt>state</tt></i>.
--   
--   GDK already does this before delivering key events, but for
--   compatibility reasons, it only sets the first virtual modifier it
--   finds, whereas this function sets all matching virtual modifiers.
--   
--   This function is useful when matching key events against accelerators.
--   
--   <i>Since: 2.20</i>
keymapAddVirtualModifiers :: (HasCallStack, MonadIO m, IsKeymap a) => a -> [ModifierType] -> m [ModifierType]

-- | Returns whether the Caps Lock modifer is locked.
--   
--   <i>Since: 2.16</i>
keymapGetCapsLockState :: (HasCallStack, MonadIO m, IsKeymap a) => a -> m Bool

-- | Returns the <a>Keymap</a> attached to the default display.

-- | <i>Deprecated: (Since version 3.22)Use <a>keymapGetForDisplay</a>
--   instead</i>
keymapGetDefault :: (HasCallStack, MonadIO m) => m Keymap

-- | Returns the direction of effective layout of the keymap.
keymapGetDirection :: (HasCallStack, MonadIO m, IsKeymap a) => a -> m Direction

-- | Returns the keyvals bound to <i><tt>hardwareKeycode</tt></i>. The Nth
--   <a>KeymapKey</a> in <i><tt>keys</tt></i> is bound to the Nth keyval in
--   <i><tt>keyvals</tt></i>. Free the returned arrays with <a>free</a>.
--   When a keycode is pressed by the user, the keyval from this list of
--   entries is selected by considering the effective keyboard group and
--   level. See <a>keymapTranslateKeyboardState</a>.
keymapGetEntriesForKeycode :: (HasCallStack, MonadIO m, IsKeymap a) => a -> Word32 -> m (Bool, [KeymapKey], [Word32])

-- | Obtains a list of keycode/group/level combinations that will generate
--   <i><tt>keyval</tt></i>. Groups and levels are two kinds of keyboard
--   mode; in general, the level determines whether the top or bottom
--   symbol on a key is used, and the group determines whether the left or
--   right symbol is used. On US keyboards, the shift key changes the
--   keyboard level, and there are no groups. A group switch key might
--   convert a keyboard between Hebrew to English modes, for example.
--   <a>EventKey</a> contains a <tt><i>group</i></tt> field that indicates
--   the active keyboard group. The level is computed from the modifier
--   mask. The returned array should be freed with <a>free</a>.
keymapGetEntriesForKeyval :: (HasCallStack, MonadIO m, IsKeymap a) => a -> Word32 -> m (Bool, [KeymapKey])

-- | Returns the <a>Keymap</a> attached to <i><tt>display</tt></i>.
--   
--   <i>Since: 2.2</i>
keymapGetForDisplay :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m Keymap

-- | Returns the modifier mask the <i><tt>keymap</tt></i>’s windowing
--   system backend uses for a particular purpose.
--   
--   Note that this function always returns real hardware modifiers, not
--   virtual ones (e.g. it will return <tt><i>GDK_MOD1_MASK</i></tt> rather
--   than <tt><i>GDK_META_MASK</i></tt> if the backend maps MOD1 to META),
--   so there are use cases where the return value of this function has to
--   be transformed by <a>keymapAddVirtualModifiers</a> in order to contain
--   the expected result.
--   
--   <i>Since: 3.4</i>
keymapGetModifierMask :: (HasCallStack, MonadIO m, IsKeymap a) => a -> ModifierIntent -> m [ModifierType]

-- | Returns the current modifier state.
--   
--   <i>Since: 3.4</i>
keymapGetModifierState :: (HasCallStack, MonadIO m, IsKeymap a) => a -> m Word32

-- | Returns whether the Num Lock modifer is locked.
--   
--   <i>Since: 3.0</i>
keymapGetNumLockState :: (HasCallStack, MonadIO m, IsKeymap a) => a -> m Bool

-- | Returns whether the Scroll Lock modifer is locked.
--   
--   <i>Since: 3.18</i>
keymapGetScrollLockState :: (HasCallStack, MonadIO m, IsKeymap a) => a -> m Bool

-- | Determines if keyboard layouts for both right-to-left and
--   left-to-right languages are in use.
--   
--   <i>Since: 2.12</i>
keymapHaveBidiLayouts :: (HasCallStack, MonadIO m, IsKeymap a) => a -> m Bool

-- | Looks up the keyval mapped to a keycode/group/level triplet. If no
--   keyval is bound to <i><tt>key</tt></i>, returns 0. For normal user
--   input, you want to use <a>keymapTranslateKeyboardState</a> instead of
--   this function, since the effective group/level may not be the same as
--   the current keyboard state.
keymapLookupKey :: (HasCallStack, MonadIO m, IsKeymap a) => a -> KeymapKey -> m Word32

-- | Maps the virtual modifiers (i.e. Super, Hyper and Meta) which are set
--   in <i><tt>state</tt></i> to their non-virtual counterparts (i.e. Mod2,
--   Mod3,...) and set the corresponding bits in <i><tt>state</tt></i>.
--   
--   This function is useful when matching key events against accelerators.
--   
--   <i>Since: 2.20</i>
keymapMapVirtualModifiers :: (HasCallStack, MonadIO m, IsKeymap a) => a -> [ModifierType] -> m (Bool, [ModifierType])

-- | Translates the contents of a <a>EventKey</a> into a keyval, effective
--   group, and level. Modifiers that affected the translation and are thus
--   unavailable for application use are returned in
--   <i><tt>consumedModifiers</tt></i>. See [Groups][key-group-explanation]
--   for an explanation of groups and levels. The
--   <i><tt>effectiveGroup</tt></i> is the group that was actually used for
--   the translation; some keys such as Enter are not affected by the
--   active keyboard group. The <i><tt>level</tt></i> is derived from
--   <i><tt>state</tt></i>. For convenience, <a>EventKey</a> already
--   contains the translated keyval, so this function isn’t as useful as
--   you might think.
--   
--   <i><tt>consumedModifiers</tt></i> gives modifiers that should be
--   masked outfrom <i><tt>state</tt></i> when comparing this key press to
--   a hot key. For instance, on a US keyboard, the <tt>plus</tt> symbol is
--   shifted, so when comparing a key press to a
--   <tt>&lt;Control&gt;plus</tt> accelerator <tt>&lt;Shift&gt;</tt> should
--   be masked out.
--   
--   <h3><i>C code</i></h3>
--   
--   <pre>
--   // We want to ignore irrelevant modifiers like ScrollLock
--   #define ALL_ACCELS_MASK (GDK_CONTROL_MASK | GDK_SHIFT_MASK | GDK_MOD1_MASK)
--   gdk_keymap_translate_keyboard_state (keymap, event-&gt;hardware_keycode,
--                                        event-&gt;state, event-&gt;group,
--                                        &amp;keyval, NULL, NULL, &amp;consumed);
--   if (keyval == GDK_PLUS &amp;&amp;
--       (event-&gt;state &amp; ~consumed &amp; ALL_ACCELS_MASK) == GDK_CONTROL_MASK)
--     // Control was pressed
--   </pre>
--   
--   An older interpretation <i><tt>consumedModifiers</tt></i> was that it
--   contained all modifiers that might affect the translation of the key;
--   this allowed accelerators to be stored with irrelevant consumed
--   modifiers, by doing:
--   
--   <h3><i>C code</i></h3>
--   
--   <pre>
--   // XXX Don’t do this XXX
--   if (keyval == accel_keyval &amp;&amp;
--       (event-&gt;state &amp; ~consumed &amp; ALL_ACCELS_MASK) == (accel_mods &amp; ~consumed))
--     // Accelerator was pressed
--   </pre>
--   
--   However, this did not work if multi-modifier combinations were used in
--   the keymap, since, for instance, <tt>&lt;Control&gt;</tt> would be
--   masked out even if only <tt>&lt;Control&gt;&lt;Alt&gt;</tt> was used
--   in the keymap. To support this usage as well as well as possible, all
--   single modifier combinations that could affect the key for any
--   combination of modifiers will be returned in
--   <i><tt>consumedModifiers</tt></i>; multi-modifier combinations are
--   returned only when actually found in <i><tt>state</tt></i>. When you
--   store accelerators, you should always store them with consumed
--   modifiers removed. Store <tt>&lt;Control&gt;plus</tt>, not
--   <tt>&lt;Control&gt;&lt;Shift&gt;plus</tt>,
keymapTranslateKeyboardState :: (HasCallStack, MonadIO m, IsKeymap a) => a -> Word32 -> [ModifierType] -> Int32 -> m (Bool, Word32, Int32, Int32, [ModifierType])

-- | The <a>directionChanged</a> signal gets emitted when the direction of
--   the keymap changes.
--   
--   <i>Since: 2.0</i>
type KeymapDirectionChangedCallback = IO ()

-- | Connect a signal handler for the <a>directionChanged</a> signal, to be
--   run after the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>after</a> keymap #directionChanged callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterKeymapDirectionChanged :: (IsKeymap a, MonadIO m) => a -> ((?self :: a) => KeymapDirectionChangedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>directionChanged</a> signal, to be
--   run before the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>on</a> keymap #directionChanged callback
--   </pre>
onKeymapDirectionChanged :: (IsKeymap a, MonadIO m) => a -> ((?self :: a) => KeymapDirectionChangedCallback) -> m SignalHandlerId

-- | The <a>keysChanged</a> signal is emitted when the mapping represented
--   by <i><tt>keymap</tt></i> changes.
--   
--   <i>Since: 2.2</i>
type KeymapKeysChangedCallback = IO ()

-- | Connect a signal handler for the <a>keysChanged</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> keymap #keysChanged callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterKeymapKeysChanged :: (IsKeymap a, MonadIO m) => a -> ((?self :: a) => KeymapKeysChangedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>keysChanged</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> keymap #keysChanged callback
--   </pre>
onKeymapKeysChanged :: (IsKeymap a, MonadIO m) => a -> ((?self :: a) => KeymapKeysChangedCallback) -> m SignalHandlerId

-- | The <a>stateChanged</a> signal is emitted when the state of the
--   keyboard changes, e.g when Caps Lock is turned on or off. See
--   <a>keymapGetCapsLockState</a>.
--   
--   <i>Since: 2.16</i>
type KeymapStateChangedCallback = IO ()

-- | Connect a signal handler for the <a>stateChanged</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> keymap #stateChanged callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterKeymapStateChanged :: (IsKeymap a, MonadIO m) => a -> ((?self :: a) => KeymapStateChangedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>stateChanged</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> keymap #stateChanged callback
--   </pre>
onKeymapStateChanged :: (IsKeymap a, MonadIO m) => a -> ((?self :: a) => KeymapStateChangedCallback) -> m SignalHandlerId
instance GHC.Classes.Eq GI.Gdk.Objects.Keymap.Keymap
instance (Data.GI.Base.BasicTypes.GObject o, Data.GI.Base.Overloading.IsDescendantOf GI.Gdk.Objects.Keymap.Keymap o) => GI.Gdk.Objects.Keymap.IsKeymap o
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Objects.Keymap.Keymap
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Objects.Keymap.Keymap
instance Data.GI.Base.BasicTypes.GObject GI.Gdk.Objects.Keymap.Keymap
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Objects.Keymap.Keymap
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Objects.Keymap.Keymap)


-- | <a>GLContext</a> is an object representing the platform-specific
--   OpenGL drawing context.
--   
--   <tt><i>GdkGLContexts</i></tt> are created for a <a>Window</a> using
--   <a>windowCreateGlContext</a>, and the context will match the
--   <a>Visual</a> of the window.
--   
--   A <a>GLContext</a> is not tied to any particular normal framebuffer.
--   For instance, it cannot draw to the <a>Window</a> back buffer. The GDK
--   repaint system is in full control of the painting to that. Instead,
--   you can create render buffers or textures and use
--   <a>cairoDrawFromGl</a> in the draw function of your widget to draw
--   them. Then GDK will handle the integration of your rendering with that
--   of other widgets.
--   
--   Support for <a>GLContext</a> is platform-specific, context creation
--   can fail, returning <a>Nothing</a> context.
--   
--   A <a>GLContext</a> has to be made "current" in order to start using
--   it, otherwise any OpenGL call will be ignored.
--   
--   <h2>Creating a new OpenGL context </h2>
--   
--   In order to create a new <a>GLContext</a> instance you need a
--   <a>Window</a>, which you typically get during the realize call of a
--   widget.
--   
--   A <a>GLContext</a> is not realized until either
--   <a>gLContextMakeCurrent</a>, or until it is realized using
--   <a>gLContextRealize</a>. It is possible to specify details of the GL
--   context like the OpenGL version to be used, or whether the GL context
--   should have extra state validation enabled after calling
--   <a>windowCreateGlContext</a> by calling <a>gLContextRealize</a>. If
--   the realization fails you have the option to change the settings of
--   the <a>GLContext</a> and try again.
--   
--   <h2>Using a GdkGLContext </h2>
--   
--   You will need to make the <a>GLContext</a> the current context before
--   issuing OpenGL calls; the system sends OpenGL commands to whichever
--   context is current. It is possible to have multiple contexts, so you
--   always need to ensure that the one which you want to draw with is the
--   current one before issuing commands:
--   
--   <h3><i>C code</i></h3>
--   
--   <pre>
--   gdk_gl_context_make_current (context);
--   </pre>
--   
--   You can now perform your drawing using OpenGL commands.
--   
--   You can check which <a>GLContext</a> is the current one by using
--   <a>gLContextGetCurrent</a>; you can also unset any <a>GLContext</a>
--   that is currently set by calling <a>gLContextClearCurrent</a>.
module GI.Gdk.Objects.GLContext

-- | Memory-managed wrapper type.
newtype GLContext
GLContext :: ManagedPtr GLContext -> GLContext

-- | Type class for types which can be safely cast to <a>GLContext</a>, for
--   instance with <a>toGLContext</a>.
class (GObject o, IsDescendantOf GLContext o) => IsGLContext o

-- | Cast to <a>GLContext</a>, for types for which this is known to be
--   safe. For general casts, use <a>castTo</a>.
toGLContext :: (MonadIO m, IsGLContext o) => o -> m GLContext

-- | Clears the current <a>GLContext</a>.
--   
--   Any OpenGL call after this function returns will be ignored until
--   <a>gLContextMakeCurrent</a> is called.
--   
--   <i>Since: 3.16</i>
gLContextClearCurrent :: (HasCallStack, MonadIO m) => m ()

-- | Retrieves the current <a>GLContext</a>.
--   
--   <i>Since: 3.16</i>
gLContextGetCurrent :: (HasCallStack, MonadIO m) => m (Maybe GLContext)

-- | Retrieves the value set using <a>gLContextSetDebugEnabled</a>.
--   
--   <i>Since: 3.16</i>
gLContextGetDebugEnabled :: (HasCallStack, MonadIO m, IsGLContext a) => a -> m Bool

-- | Retrieves the <a>Display</a> the <i><tt>context</tt></i> is created
--   for
--   
--   <i>Since: 3.16</i>
gLContextGetDisplay :: (HasCallStack, MonadIO m, IsGLContext a) => a -> m (Maybe Display)

-- | Retrieves the value set using <a>gLContextSetForwardCompatible</a>.
--   
--   <i>Since: 3.16</i>
gLContextGetForwardCompatible :: (HasCallStack, MonadIO m, IsGLContext a) => a -> m Bool

-- | Retrieves the major and minor version requested by calling
--   <a>gLContextSetRequiredVersion</a>.
--   
--   <i>Since: 3.16</i>
gLContextGetRequiredVersion :: (HasCallStack, MonadIO m, IsGLContext a) => a -> m (Int32, Int32)

-- | Retrieves the <a>GLContext</a> that this <i><tt>context</tt></i> share
--   data with.
--   
--   <i>Since: 3.16</i>
gLContextGetSharedContext :: (HasCallStack, MonadIO m, IsGLContext a) => a -> m (Maybe GLContext)

-- | Checks whether the <i><tt>context</tt></i> is using an OpenGL or
--   OpenGL ES profile.
--   
--   <i>Since: 3.22</i>
gLContextGetUseEs :: (HasCallStack, MonadIO m, IsGLContext a) => a -> m Bool

-- | Retrieves the OpenGL version of the <i><tt>context</tt></i>.
--   
--   The <i><tt>context</tt></i> must be realized prior to calling this
--   function.
--   
--   <i>Since: 3.16</i>
gLContextGetVersion :: (HasCallStack, MonadIO m, IsGLContext a) => a -> m (Int32, Int32)

-- | Retrieves the <a>Window</a> used by the <i><tt>context</tt></i>.
--   
--   <i>Since: 3.16</i>
gLContextGetWindow :: (HasCallStack, MonadIO m, IsGLContext a) => a -> m (Maybe Window)

-- | Whether the <a>GLContext</a> is in legacy mode or not.
--   
--   The <a>GLContext</a> must be realized before calling this function.
--   
--   When realizing a GL context, GDK will try to use the OpenGL 3.2 core
--   profile; this profile removes all the OpenGL API that was deprecated
--   prior to the 3.2 version of the specification. If the realization is
--   successful, this function will return <a>False</a>.
--   
--   If the underlying OpenGL implementation does not support core
--   profiles, GDK will fall back to a pre-3.2 compatibility profile, and
--   this function will return <a>True</a>.
--   
--   You can use the value returned by this function to decide which kind
--   of OpenGL API to use, or whether to do extension discovery, or what
--   kind of shader programs to load.
--   
--   <i>Since: 3.20</i>
gLContextIsLegacy :: (HasCallStack, MonadIO m, IsGLContext a) => a -> m Bool

-- | Makes the <i><tt>context</tt></i> the current one.
--   
--   <i>Since: 3.16</i>
gLContextMakeCurrent :: (HasCallStack, MonadIO m, IsGLContext a) => a -> m ()

-- | Realizes the given <a>GLContext</a>.
--   
--   It is safe to call this function on a realized <a>GLContext</a>.
--   
--   <i>Since: 3.16</i>
gLContextRealize :: (HasCallStack, MonadIO m, IsGLContext a) => a -> m ()

-- | Sets whether the <a>GLContext</a> should perform extra validations and
--   run time checking. This is useful during development, but has
--   additional overhead.
--   
--   The <a>GLContext</a> must not be realized or made current prior to
--   calling this function.
--   
--   <i>Since: 3.16</i>
gLContextSetDebugEnabled :: (HasCallStack, MonadIO m, IsGLContext a) => a -> Bool -> m ()

-- | Sets whether the <a>GLContext</a> should be forward compatible.
--   
--   Forward compatibile contexts must not support OpenGL functionality
--   that has been marked as deprecated in the requested version;
--   non-forward compatible contexts, on the other hand, must support both
--   deprecated and non deprecated functionality.
--   
--   The <a>GLContext</a> must not be realized or made current prior to
--   calling this function.
--   
--   <i>Since: 3.16</i>
gLContextSetForwardCompatible :: (HasCallStack, MonadIO m, IsGLContext a) => a -> Bool -> m ()

-- | Sets the major and minor version of OpenGL to request.
--   
--   Setting <i><tt>major</tt></i> and <i><tt>minor</tt></i> to zero will
--   use the default values.
--   
--   The <a>GLContext</a> must not be realized or made current prior to
--   calling this function.
--   
--   <i>Since: 3.16</i>
gLContextSetRequiredVersion :: (HasCallStack, MonadIO m, IsGLContext a) => a -> Int32 -> Int32 -> m ()

-- | Requests that GDK create a OpenGL ES context instead of an OpenGL one,
--   if the platform and windowing system allows it.
--   
--   The <i><tt>context</tt></i> must not have been realized.
--   
--   By default, GDK will attempt to automatically detect whether the
--   underlying GL implementation is OpenGL or OpenGL ES once the
--   <i><tt>context</tt></i> is realized.
--   
--   You should check the return value of <a>gLContextGetUseEs</a> after
--   calling <a>gLContextRealize</a> to decide whether to use the OpenGL or
--   OpenGL ES API, extensions, or shaders.
--   
--   <i>Since: 3.22</i>
gLContextSetUseEs :: (HasCallStack, MonadIO m, IsGLContext a) => a -> Int32 -> m ()

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>display</tt>” property. This is rarely needed directly, but it is
--   used by <a>new</a>.
constructGLContextDisplay :: (IsGLContext o, MonadIO m, IsDisplay a) => a -> m (GValueConstruct o)

-- | Get the value of the “<tt>display</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> gLContext #display
--   </pre>
getGLContextDisplay :: (MonadIO m, IsGLContext o) => o -> m (Maybe Display)

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>shared-context</tt>” property. This is rarely needed directly,
--   but it is used by <a>new</a>.
constructGLContextSharedContext :: (IsGLContext o, MonadIO m, IsGLContext a) => a -> m (GValueConstruct o)

-- | Get the value of the “<tt>shared-context</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> gLContext #sharedContext
--   </pre>
getGLContextSharedContext :: (MonadIO m, IsGLContext o) => o -> m (Maybe GLContext)

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>window</tt>” property. This is rarely needed directly, but it is
--   used by <a>new</a>.
constructGLContextWindow :: (IsGLContext o, MonadIO m, IsWindow a) => a -> m (GValueConstruct o)

-- | Get the value of the “<tt>window</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> gLContext #window
--   </pre>
getGLContextWindow :: (MonadIO m, IsGLContext o) => o -> m (Maybe Window)
instance GHC.Classes.Eq GI.Gdk.Objects.GLContext.GLContext
instance (Data.GI.Base.BasicTypes.GObject o, Data.GI.Base.Overloading.IsDescendantOf GI.Gdk.Objects.GLContext.GLContext o) => GI.Gdk.Objects.GLContext.IsGLContext o
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Objects.GLContext.GLContext
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Objects.GLContext.GLContext
instance Data.GI.Base.BasicTypes.GObject GI.Gdk.Objects.GLContext.GLContext
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Objects.GLContext.GLContext
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Objects.GLContext.GLContext)


-- | <a>DrawingContext</a> is an object that represents the current drawing
--   state of a <a>Window</a>.
--   
--   It's possible to use a <a>DrawingContext</a> to draw on a
--   <a>Window</a> via rendering API like Cairo or OpenGL.
--   
--   A <a>DrawingContext</a> can only be created by calling
--   <a>windowBeginDrawFrame</a> and will be valid until a call to
--   <a>windowEndDrawFrame</a>.
--   
--   <a>DrawingContext</a> is available since GDK 3.22
module GI.Gdk.Objects.DrawingContext

-- | Memory-managed wrapper type.
newtype DrawingContext
DrawingContext :: ManagedPtr DrawingContext -> DrawingContext

-- | Type class for types which can be safely cast to
--   <a>DrawingContext</a>, for instance with <a>toDrawingContext</a>.
class (GObject o, IsDescendantOf DrawingContext o) => IsDrawingContext o

-- | Cast to <a>DrawingContext</a>, for types for which this is known to be
--   safe. For general casts, use <a>castTo</a>.
toDrawingContext :: (MonadIO m, IsDrawingContext o) => o -> m DrawingContext

-- | Retrieves a Cairo context to be used to draw on the <a>Window</a> that
--   created the <a>DrawingContext</a>.
--   
--   The returned context is guaranteed to be valid as long as the
--   <a>DrawingContext</a> is valid, that is between a call to
--   <a>windowBeginDrawFrame</a> and <a>windowEndDrawFrame</a>.
--   
--   <i>Since: 3.22</i>
drawingContextGetCairoContext :: (HasCallStack, MonadIO m, IsDrawingContext a) => a -> m Context

-- | Retrieves a copy of the clip region used when creating the
--   <i><tt>context</tt></i>.
--   
--   <i>Since: 3.22</i>
drawingContextGetClip :: (HasCallStack, MonadIO m, IsDrawingContext a) => a -> m (Maybe Region)

-- | Retrieves the window that created the drawing <i><tt>context</tt></i>.
--   
--   <i>Since: 3.22</i>
drawingContextGetWindow :: (HasCallStack, MonadIO m, IsDrawingContext a) => a -> m Window

-- | Checks whether the given <a>DrawingContext</a> is valid.
--   
--   <i>Since: 3.22</i>
drawingContextIsValid :: (HasCallStack, MonadIO m, IsDrawingContext a) => a -> m Bool

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>clip</tt>” property. This is rarely needed directly, but it is
--   used by <a>new</a>.
constructDrawingContextClip :: (IsDrawingContext o, MonadIO m) => Region -> m (GValueConstruct o)

-- | Get the value of the “<tt>clip</tt>” property. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> drawingContext #clip
--   </pre>
getDrawingContextClip :: (MonadIO m, IsDrawingContext o) => o -> m (Maybe Region)

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>window</tt>” property. This is rarely needed directly, but it is
--   used by <a>new</a>.
constructDrawingContextWindow :: (IsDrawingContext o, MonadIO m, IsWindow a) => a -> m (GValueConstruct o)

-- | Get the value of the “<tt>window</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> drawingContext #window
--   </pre>
getDrawingContextWindow :: (MonadIO m, IsDrawingContext o) => o -> m Window
instance GHC.Classes.Eq GI.Gdk.Objects.DrawingContext.DrawingContext
instance (Data.GI.Base.BasicTypes.GObject o, Data.GI.Base.Overloading.IsDescendantOf GI.Gdk.Objects.DrawingContext.DrawingContext o) => GI.Gdk.Objects.DrawingContext.IsDrawingContext o
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Objects.DrawingContext.DrawingContext
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Objects.DrawingContext.DrawingContext
instance Data.GI.Base.BasicTypes.GObject GI.Gdk.Objects.DrawingContext.DrawingContext
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Objects.DrawingContext.DrawingContext
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Objects.DrawingContext.DrawingContext)


-- | <i>No description available in the introspection data.</i>
module GI.Gdk.Objects.DragContext

-- | Memory-managed wrapper type.
newtype DragContext
DragContext :: ManagedPtr DragContext -> DragContext

-- | Type class for types which can be safely cast to <a>DragContext</a>,
--   for instance with <a>toDragContext</a>.
class (GObject o, IsDescendantOf DragContext o) => IsDragContext o

-- | Cast to <a>DragContext</a>, for types for which this is known to be
--   safe. For general casts, use <a>castTo</a>.
toDragContext :: (MonadIO m, IsDragContext o) => o -> m DragContext

-- | Determines the bitmask of actions proposed by the source if
--   <a>dragContextGetSuggestedAction</a> returns <a>DragActionAsk</a>.
--   
--   <i>Since: 2.22</i>
dragContextGetActions :: (HasCallStack, MonadIO m, IsDragContext a) => a -> m [DragAction]

-- | Returns the destination window for the DND operation.
--   
--   <i>Since: 3.0</i>
dragContextGetDestWindow :: (HasCallStack, MonadIO m, IsDragContext a) => a -> m Window

-- | Returns the <a>Device</a> associated to the drag context.
dragContextGetDevice :: (HasCallStack, MonadIO m, IsDragContext a) => a -> m Device

-- | Returns the window on which the drag icon should be rendered during
--   the drag operation. Note that the window may not be available until
--   the drag operation has begun. GDK will move the window in accordance
--   with the ongoing drag operation. The window is owned by
--   <i><tt>context</tt></i> and will be destroyed when the drag operation
--   is over.
--   
--   <i>Since: 3.20</i>
dragContextGetDragWindow :: (HasCallStack, MonadIO m, IsDragContext a) => a -> m (Maybe Window)

-- | Returns the drag protocol that is used by this context.
--   
--   <i>Since: 3.0</i>
dragContextGetProtocol :: (HasCallStack, MonadIO m, IsDragContext a) => a -> m DragProtocol

-- | Determines the action chosen by the drag destination.
--   
--   <i>Since: 2.22</i>
dragContextGetSelectedAction :: (HasCallStack, MonadIO m, IsDragContext a) => a -> m [DragAction]

-- | Returns the <a>Window</a> where the DND operation started.
--   
--   <i>Since: 2.22</i>
dragContextGetSourceWindow :: (HasCallStack, MonadIO m, IsDragContext a) => a -> m Window

-- | Determines the suggested drag action of the context.
--   
--   <i>Since: 2.22</i>
dragContextGetSuggestedAction :: (HasCallStack, MonadIO m, IsDragContext a) => a -> m [DragAction]

-- | Retrieves the list of targets of the context.
--   
--   <i>Since: 2.22</i>
dragContextListTargets :: (HasCallStack, MonadIO m, IsDragContext a) => a -> m [Atom]

-- | Requests the drag and drop operation to be managed by
--   <i><tt>context</tt></i>. When a drag and drop operation becomes
--   managed, the <a>DragContext</a> will internally handle all input and
--   source-side <a>EventDND</a> events as required by the windowing
--   system.
--   
--   Once the drag and drop operation is managed, the drag context will
--   emit the following signals:
--   
--   <ul>
--   <li>The <a>DragContext::actionChanged</a> signal whenever the final
--   action to be performed by the drag and drop operation changes.</li>
--   <li>The <a>DragContext::dropPerformed</a> signal after the user
--   performs the drag and drop gesture (typically by releasing the mouse
--   button).</li>
--   <li>The <a>DragContext::dndFinished</a> signal after the drag and drop
--   operation concludes (after all <tt><i>GdkSelection</i></tt> transfers
--   happen).</li>
--   <li>The <a>DragContext::cancel</a> signal if the drag and drop
--   operation is finished but doesn't happen over an accepting
--   destination, or is cancelled through other means.</li>
--   </ul>
--   
--   <i>Since: 3.20</i>
dragContextManageDnd :: (HasCallStack, MonadIO m, IsDragContext a, IsWindow b) => a -> b -> [DragAction] -> m Bool

-- | Associates a <a>Device</a> to <i><tt>context</tt></i>, so all Drag and
--   Drop events for <i><tt>context</tt></i> are emitted as if they came
--   from this device.
dragContextSetDevice :: (HasCallStack, MonadIO m, IsDragContext a, IsDevice b) => a -> b -> m ()

-- | Sets the position of the drag window that will be kept under the
--   cursor hotspot. Initially, the hotspot is at the top left corner of
--   the drag window.
--   
--   <i>Since: 3.20</i>
dragContextSetHotspot :: (HasCallStack, MonadIO m, IsDragContext a) => a -> Int32 -> Int32 -> m ()

-- | A new action is being chosen for the drag and drop operation.
--   
--   This signal will only be emitted if the <a>DragContext</a> manages the
--   drag and drop operation. See <a>dragContextManageDnd</a> for more
--   information.
--   
--   <i>Since: 3.20</i>
type DragContextActionChangedCallback = -- | /@action@/: The action currently chosen [DragAction] -> IO ()

-- | Connect a signal handler for the <a>actionChanged</a> signal, to be
--   run after the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>after</a> dragContext #actionChanged callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterDragContextActionChanged :: (IsDragContext a, MonadIO m) => a -> ((?self :: a) => DragContextActionChangedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>actionChanged</a> signal, to be
--   run before the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>on</a> dragContext #actionChanged callback
--   </pre>
onDragContextActionChanged :: (IsDragContext a, MonadIO m) => a -> ((?self :: a) => DragContextActionChangedCallback) -> m SignalHandlerId

-- | The drag and drop operation was cancelled.
--   
--   This signal will only be emitted if the <a>DragContext</a> manages the
--   drag and drop operation. See <a>dragContextManageDnd</a> for more
--   information.
--   
--   <i>Since: 3.20</i>
type DragContextCancelCallback = -- | /@reason@/: The reason the context was cancelled DragCancelReason -> IO ()

-- | Connect a signal handler for the <a>cancel</a> signal, to be run after
--   the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> dragContext #cancel callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterDragContextCancel :: (IsDragContext a, MonadIO m) => a -> ((?self :: a) => DragContextCancelCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>cancel</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> dragContext #cancel callback
--   </pre>
onDragContextCancel :: (IsDragContext a, MonadIO m) => a -> ((?self :: a) => DragContextCancelCallback) -> m SignalHandlerId

-- | The drag and drop operation was finished, the drag destination
--   finished reading all data. The drag source can now free all
--   miscellaneous data.
--   
--   This signal will only be emitted if the <a>DragContext</a> manages the
--   drag and drop operation. See <a>dragContextManageDnd</a> for more
--   information.
--   
--   <i>Since: 3.20</i>
type DragContextDndFinishedCallback = IO ()

-- | Connect a signal handler for the <a>dndFinished</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> dragContext #dndFinished callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterDragContextDndFinished :: (IsDragContext a, MonadIO m) => a -> ((?self :: a) => DragContextDndFinishedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>dndFinished</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> dragContext #dndFinished callback
--   </pre>
onDragContextDndFinished :: (IsDragContext a, MonadIO m) => a -> ((?self :: a) => DragContextDndFinishedCallback) -> m SignalHandlerId

-- | The drag and drop operation was performed on an accepting client.
--   
--   This signal will only be emitted if the <a>DragContext</a> manages the
--   drag and drop operation. See <a>dragContextManageDnd</a> for more
--   information.
--   
--   <i>Since: 3.20</i>
type DragContextDropPerformedCallback = -- | /@time@/: the time at which the drop happened. Int32 -> IO ()

-- | Connect a signal handler for the <a>dropPerformed</a> signal, to be
--   run after the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>after</a> dragContext #dropPerformed callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterDragContextDropPerformed :: (IsDragContext a, MonadIO m) => a -> ((?self :: a) => DragContextDropPerformedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>dropPerformed</a> signal, to be
--   run before the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>on</a> dragContext #dropPerformed callback
--   </pre>
onDragContextDropPerformed :: (IsDragContext a, MonadIO m) => a -> ((?self :: a) => DragContextDropPerformedCallback) -> m SignalHandlerId
instance GHC.Classes.Eq GI.Gdk.Objects.DragContext.DragContext
instance (Data.GI.Base.BasicTypes.GObject o, Data.GI.Base.Overloading.IsDescendantOf GI.Gdk.Objects.DragContext.DragContext o) => GI.Gdk.Objects.DragContext.IsDragContext o
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Objects.DragContext.DragContext
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Objects.DragContext.DragContext
instance Data.GI.Base.BasicTypes.GObject GI.Gdk.Objects.DragContext.DragContext
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Objects.DragContext.DragContext
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Objects.DragContext.DragContext)


-- | The purpose of the <a>DisplayManager</a> singleton object is to offer
--   notification when displays appear or disappear or the default display
--   changes.
--   
--   You can use <a>displayManagerGet</a> to obtain the
--   <a>DisplayManager</a> singleton, but that should be rarely necessary.
--   Typically, initializing GTK+ opens a display that you can work with
--   without ever accessing the <a>DisplayManager</a>.
--   
--   The GDK library can be built with support for multiple backends. The
--   <a>DisplayManager</a> object determines which backend is used at
--   runtime.
--   
--   When writing backend-specific code that is supposed to work with
--   multiple GDK backends, you have to consider both compile time and
--   runtime. At compile time, use the <tt><i>GDK_WINDOWING_X11</i></tt>,
--   <tt><i>GDK_WINDOWING_WIN32</i></tt> macros, etc. to find out which
--   backends are present in the GDK library you are building your
--   application against. At runtime, use type-check macros like
--   <tt><i>GDK_IS_X11_DISPLAY()</i></tt> to find out which backend is in
--   use:
--   
--   ## Backend-specific code ## {<tt><i>backend</i></tt>-specific}
--   
--   <h3><i>C code</i></h3>
--   
--   <pre>
--   #ifdef GDK_WINDOWING_X11
--     if (GDK_IS_X11_DISPLAY (display))
--       {
--         // make X11-specific calls here
--       }
--     else
--   #endif
--   #ifdef GDK_WINDOWING_QUARTZ
--     if (GDK_IS_QUARTZ_DISPLAY (display))
--       {
--         // make Quartz-specific calls here
--       }
--     else
--   #endif
--     g_error ("Unsupported GDK backend");
--   </pre>
module GI.Gdk.Objects.DisplayManager

-- | Memory-managed wrapper type.
newtype DisplayManager
DisplayManager :: ManagedPtr DisplayManager -> DisplayManager

-- | Type class for types which can be safely cast to
--   <a>DisplayManager</a>, for instance with <a>toDisplayManager</a>.
class (GObject o, IsDescendantOf DisplayManager o) => IsDisplayManager o

-- | Cast to <a>DisplayManager</a>, for types for which this is known to be
--   safe. For general casts, use <a>castTo</a>.
toDisplayManager :: (MonadIO m, IsDisplayManager o) => o -> m DisplayManager

-- | Gets the singleton <a>DisplayManager</a> object.
--   
--   When called for the first time, this function consults the
--   <tt>GDK_BACKEND</tt> environment variable to find out which of the
--   supported GDK backends to use (in case GDK has been compiled with
--   multiple backends). Applications can use <a>setAllowedBackends</a> to
--   limit what backends can be used.
--   
--   <i>Since: 2.2</i>
displayManagerGet :: (HasCallStack, MonadIO m) => m DisplayManager

-- | Gets the default <a>Display</a>.
--   
--   <i>Since: 2.2</i>
displayManagerGetDefaultDisplay :: (HasCallStack, MonadIO m, IsDisplayManager a) => a -> m (Maybe Display)

-- | List all currently open displays.
--   
--   <i>Since: 2.2</i>
displayManagerListDisplays :: (HasCallStack, MonadIO m, IsDisplayManager a) => a -> m [Display]

-- | Opens a display.
--   
--   <i>Since: 3.0</i>
displayManagerOpenDisplay :: (HasCallStack, MonadIO m, IsDisplayManager a) => a -> Text -> m (Maybe Display)

-- | Sets <i><tt>display</tt></i> as the default display.
--   
--   <i>Since: 2.2</i>
displayManagerSetDefaultDisplay :: (HasCallStack, MonadIO m, IsDisplayManager a, IsDisplay b) => a -> b -> m ()

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>default-display</tt>” property. This is rarely needed directly,
--   but it is used by <a>new</a>.
constructDisplayManagerDefaultDisplay :: (IsDisplayManager o, MonadIO m, IsDisplay a) => a -> m (GValueConstruct o)

-- | Get the value of the “<tt>default-display</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> displayManager #defaultDisplay
--   </pre>
getDisplayManagerDefaultDisplay :: (MonadIO m, IsDisplayManager o) => o -> m (Maybe Display)

-- | Set the value of the “<tt>default-display</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> displayManager [ #defaultDisplay <a>:=</a> value ]
--   </pre>
setDisplayManagerDefaultDisplay :: (MonadIO m, IsDisplayManager o, IsDisplay a) => o -> a -> m ()

-- | The <a>displayOpened</a> signal is emitted when a display is opened.
--   
--   <i>Since: 2.2</i>
type DisplayManagerDisplayOpenedCallback = -- | /@display@/: the opened display Display -> IO ()

-- | Connect a signal handler for the <a>displayOpened</a> signal, to be
--   run after the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>after</a> displayManager #displayOpened callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterDisplayManagerDisplayOpened :: (IsDisplayManager a, MonadIO m) => a -> ((?self :: a) => DisplayManagerDisplayOpenedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>displayOpened</a> signal, to be
--   run before the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>on</a> displayManager #displayOpened callback
--   </pre>
onDisplayManagerDisplayOpened :: (IsDisplayManager a, MonadIO m) => a -> ((?self :: a) => DisplayManagerDisplayOpenedCallback) -> m SignalHandlerId
instance GHC.Classes.Eq GI.Gdk.Objects.DisplayManager.DisplayManager
instance (Data.GI.Base.BasicTypes.GObject o, Data.GI.Base.Overloading.IsDescendantOf GI.Gdk.Objects.DisplayManager.DisplayManager o) => GI.Gdk.Objects.DisplayManager.IsDisplayManager o
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Objects.DisplayManager.DisplayManager
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Objects.DisplayManager.DisplayManager
instance Data.GI.Base.BasicTypes.GObject GI.Gdk.Objects.DisplayManager.DisplayManager
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Objects.DisplayManager.DisplayManager
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Objects.DisplayManager.DisplayManager)


-- | <a>Display</a> objects purpose are two fold:
--   
--   <ul>
--   <li>To manage and provide information about input devices (pointers
--   and keyboards)</li>
--   <li>To manage and provide information about the available
--   <tt><i>GdkScreens</i></tt></li>
--   </ul>
--   
--   GdkDisplay objects are the GDK representation of an X Display, which
--   can be described as a workstation consisting of a keyboard, a pointing
--   device (such as a mouse) and one or more screens. It is used to open
--   and keep track of various GdkScreen objects currently instantiated by
--   the application. It is also used to access the keyboard(s) and mouse
--   pointer(s) of the display.
--   
--   Most of the input device handling has been factored out into the
--   separate <a>DeviceManager</a> object. Every display has a device
--   manager, which you can obtain using <a>displayGetDeviceManager</a>.
module GI.Gdk.Objects.Display

-- | Memory-managed wrapper type.
newtype Display
Display :: ManagedPtr Display -> Display

-- | Type class for types which can be safely cast to <a>Display</a>, for
--   instance with <a>toDisplay</a>.
class (GObject o, IsDescendantOf Display o) => IsDisplay o

-- | Cast to <a>Display</a>, for types for which this is known to be safe.
--   For general casts, use <a>castTo</a>.
toDisplay :: (MonadIO m, IsDisplay o) => o -> m Display

-- | Emits a short beep on <i><tt>display</tt></i>
--   
--   <i>Since: 2.2</i>
displayBeep :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m ()

-- | Closes the connection to the windowing system for the given display,
--   and cleans up associated resources.
--   
--   <i>Since: 2.2</i>
displayClose :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m ()

-- | Returns <a>True</a> if there is an ongoing grab on
--   <i><tt>device</tt></i> for <i><tt>display</tt></i>.
displayDeviceIsGrabbed :: (HasCallStack, MonadIO m, IsDisplay a, IsDevice b) => a -> b -> m Bool

-- | Flushes any requests queued for the windowing system; this happens
--   automatically when the main loop blocks waiting for new events, but if
--   your application is drawing without returning control to the main
--   loop, you may need to call this function explicitly. A common case
--   where this function needs to be called is when an application is
--   executing drawing commands from a thread other than the thread where
--   the main loop is running.
--   
--   This is most useful for X11. On windowing systems where requests are
--   handled synchronously, this function will do nothing.
--   
--   <i>Since: 2.4</i>
displayFlush :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m ()

-- | Returns a <a>AppLaunchContext</a> suitable for launching applications
--   on the given display.
--   
--   <i>Since: 3.0</i>
displayGetAppLaunchContext :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m AppLaunchContext

-- | Gets the default <a>Display</a>. This is a convenience function for:
--   <tt>gdk_display_manager_get_default_display (gdk_display_manager_get
--   ())</tt>.
--   
--   <i>Since: 2.2</i>
displayGetDefault :: (HasCallStack, MonadIO m) => m (Maybe Display)

-- | Returns the default size to use for cursors on
--   <i><tt>display</tt></i>.
--   
--   <i>Since: 2.4</i>
displayGetDefaultCursorSize :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m Word32

-- | Returns the default group leader window for all toplevel windows on
--   <i><tt>display</tt></i>. This window is implicitly created by GDK. See
--   <a>windowSetGroup</a>.
--   
--   <i>Since: 2.4</i>
displayGetDefaultGroup :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m Window

-- | Get the default <a>Screen</a> for <i><tt>display</tt></i>.
--   
--   <i>Since: 2.2</i>
displayGetDefaultScreen :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m Screen

-- | Returns the default <a>Seat</a> for this display.
--   
--   <i>Since: 3.20</i>
displayGetDefaultSeat :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m Seat

-- | Returns the <a>DeviceManager</a> associated to
--   <i><tt>display</tt></i>.
--   
--   <i>Since: 3.0</i>

-- | <i>Deprecated: (Since version 3.20.)Use <a>displayGetDefaultSeat</a>
--   and <a>Seat</a> operations.</i>
displayGetDeviceManager :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m (Maybe DeviceManager)

-- | Gets the next <a>Event</a> to be processed for
--   <i><tt>display</tt></i>, fetching events from the windowing system if
--   necessary.
--   
--   <i>Since: 2.2</i>
displayGetEvent :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m (Maybe Event)

-- | Gets the maximal size to use for cursors on <i><tt>display</tt></i>.
--   
--   <i>Since: 2.4</i>
displayGetMaximalCursorSize :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m (Word32, Word32)

-- | Gets a monitor associated with this display.
--   
--   <i>Since: 3.22</i>
displayGetMonitor :: (HasCallStack, MonadIO m, IsDisplay a) => a -> Int32 -> m (Maybe Monitor)

-- | Gets the monitor in which the point (<i><tt>x</tt></i>,
--   <i><tt>y</tt></i>) is located, or a nearby monitor if the point is not
--   in any monitor.
--   
--   <i>Since: 3.22</i>
displayGetMonitorAtPoint :: (HasCallStack, MonadIO m, IsDisplay a) => a -> Int32 -> Int32 -> m Monitor

-- | Gets the monitor in which the largest area of <i><tt>window</tt></i>
--   resides, or a monitor close to <i><tt>window</tt></i> if it is outside
--   of all monitors.
--   
--   <i>Since: 3.22</i>
displayGetMonitorAtWindow :: (HasCallStack, MonadIO m, IsDisplay a, IsWindow b) => a -> b -> m Monitor

-- | Gets the number of monitors that belong to <i><tt>display</tt></i>.
--   
--   The returned number is valid until the next emission of the
--   <a>Display::monitorAdded</a> or <a>Display::monitorRemoved</a> signal.
--   
--   <i>Since: 3.22</i>
displayGetNMonitors :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m Int32

-- | Gets the number of screen managed by the <i><tt>display</tt></i>.
--   
--   <i>Since: 2.2</i>

-- | <i>Deprecated: (Since version 3.10)The number of screens is always
--   1.</i>
displayGetNScreens :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m Int32

-- | Gets the name of the display.
--   
--   <i>Since: 2.2</i>
displayGetName :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m Text

-- | Gets the current location of the pointer and the current modifier mask
--   for a given display.
--   
--   <i>Since: 2.2</i>

-- | <i>Deprecated: (Since version 3.0)Use <a>deviceGetPosition</a>
--   instead.</i>
displayGetPointer :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m (Screen, Int32, Int32, [ModifierType])

-- | Gets the primary monitor for the display.
--   
--   The primary monitor is considered the monitor where the “main desktop”
--   lives. While normal application windows typically allow the window
--   manager to place the windows, specialized desktop applications such as
--   panels should place themselves on the primary monitor.
--   
--   <i>Since: 3.22</i>
displayGetPrimaryMonitor :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m (Maybe Monitor)

-- | Returns a screen object for one of the screens of the display.
--   
--   <i>Since: 2.2</i>

-- | <i>Deprecated: (Since version 3.20)There is only one screen; use
--   <a>displayGetDefaultScreen</a> to get it.</i>
displayGetScreen :: (HasCallStack, MonadIO m, IsDisplay a) => a -> Int32 -> m Screen

-- | Obtains the window underneath the mouse pointer, returning the
--   location of the pointer in that window in <i><tt>winX</tt></i>,
--   <i><tt>winY</tt></i> for <i><tt>screen</tt></i>. Returns
--   <a>Nothing</a> if the window under the mouse pointer is not known to
--   GDK (for example, belongs to another application).
--   
--   <i>Since: 2.2</i>

-- | <i>Deprecated: (Since version 3.0)Use <a>deviceGetWindowAtPosition</a>
--   instead.</i>
displayGetWindowAtPointer :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m (Maybe Window, Int32, Int32)

-- | Returns whether the display has events that are waiting to be
--   processed.
--   
--   <i>Since: 3.0</i>
displayHasPending :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m Bool

-- | Finds out if the display has been closed.
--   
--   <i>Since: 2.22</i>
displayIsClosed :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m Bool

-- | Release any keyboard grab
--   
--   <i>Since: 2.2</i>

-- | <i>Deprecated: (Since version 3.0)Use <a>deviceUngrab</a>, together
--   with <a>deviceGrab</a> instead.</i>
displayKeyboardUngrab :: (HasCallStack, MonadIO m, IsDisplay a) => a -> Word32 -> m ()

-- | Returns the list of available input devices attached to
--   <i><tt>display</tt></i>. The list is statically allocated and should
--   not be freed.
--   
--   <i>Since: 2.2</i>

-- | <i>Deprecated: (Since version 3.0)Use <a>deviceManagerListDevices</a>
--   instead.</i>
displayListDevices :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m [Device]

-- | Returns the list of seats known to <i><tt>display</tt></i>.
--   
--   <i>Since: 3.20</i>
displayListSeats :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m [Seat]

-- | Indicates to the GUI environment that the application has finished
--   loading, using a given identifier.
--   
--   GTK+ will call this function automatically for
--   <tt><i>GtkWindow</i></tt> with custom startup-notification identifier
--   unless <tt><i>gtk_window_set_auto_startup_notification()</i></tt> is
--   called to disable that feature.
--   
--   <i>Since: 3.0</i>
displayNotifyStartupComplete :: (HasCallStack, MonadIO m, IsDisplay a) => a -> Text -> m ()

-- | Opens a display.
--   
--   <i>Since: 2.2</i>
displayOpen :: (HasCallStack, MonadIO m) => Text -> m (Maybe Display)

-- | Opens the default display specified by command line arguments or
--   environment variables, sets it as the default display, and returns it.
--   <a>parseArgs</a> must have been called first. If the default display
--   has previously been set, simply returns that. An internal function
--   that should not be used by applications.

-- | <i>Deprecated: (Since version 3.16)This symbol was never meant to be
--   used outside of GTK+</i>
displayOpenDefaultLibgtkOnly :: (HasCallStack, MonadIO m) => m (Maybe Display)

-- | Gets a copy of the first <a>Event</a> in the <i><tt>display</tt></i>’s
--   event queue, without removing the event from the queue. (Note that
--   this function will not get more events from the windowing system. It
--   only checks the events that have already been moved to the GDK event
--   queue.)
--   
--   <i>Since: 2.2</i>
displayPeekEvent :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m (Maybe Event)

-- | Test if the pointer is grabbed.
--   
--   <i>Since: 2.2</i>

-- | <i>Deprecated: (Since version 3.0)Use <a>displayDeviceIsGrabbed</a>
--   instead.</i>
displayPointerIsGrabbed :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m Bool

-- | Release any pointer grab.
--   
--   <i>Since: 2.2</i>

-- | <i>Deprecated: (Since version 3.0)Use <a>deviceUngrab</a>, together
--   with <a>deviceGrab</a> instead.</i>
displayPointerUngrab :: (HasCallStack, MonadIO m, IsDisplay a) => a -> Word32 -> m ()

-- | Appends a copy of the given event onto the front of the event queue
--   for <i><tt>display</tt></i>.
--   
--   <i>Since: 2.2</i>
displayPutEvent :: (HasCallStack, MonadIO m, IsDisplay a) => a -> Event -> m ()

-- | Request <a>EventOwnerChange</a> events for ownership changes of the
--   selection named by the given atom.
--   
--   <i>Since: 2.6</i>
displayRequestSelectionNotification :: (HasCallStack, MonadIO m, IsDisplay a) => a -> Atom -> m Bool

-- | Sets the double click distance (two clicks within this distance count
--   as a double click and result in a <tt><i>GDK_2BUTTON_PRESS</i></tt>
--   event). See also <a>displaySetDoubleClickTime</a>. Applications should
--   not set this, it is a global user-configured setting.
--   
--   <i>Since: 2.4</i>
displaySetDoubleClickDistance :: (HasCallStack, MonadIO m, IsDisplay a) => a -> Word32 -> m ()

-- | Sets the double click time (two clicks within this time interval count
--   as a double click and result in a <tt><i>GDK_2BUTTON_PRESS</i></tt>
--   event). Applications should not set this, it is a global
--   user-configured setting.
--   
--   <i>Since: 2.2</i>
displaySetDoubleClickTime :: (HasCallStack, MonadIO m, IsDisplay a) => a -> Word32 -> m ()

-- | Issues a request to the clipboard manager to store the clipboard data.
--   On X11, this is a special program that works according to the
--   <a>FreeDesktop Clipboard Specification</a>.
--   
--   <i>Since: 2.6</i>
displayStoreClipboard :: (HasCallStack, MonadIO m, IsDisplay a, IsWindow b) => a -> b -> Word32 -> Maybe [Atom] -> m ()

-- | Returns whether the speicifed display supports clipboard persistance;
--   i.e. if it’s possible to store the clipboard data after an application
--   has quit. On X11 this checks if a clipboard daemon is running.
--   
--   <i>Since: 2.6</i>
displaySupportsClipboardPersistence :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m Bool

-- | Returns <a>True</a> if <a>windowSetComposited</a> can be used to
--   redirect drawing on the window using compositing.
--   
--   Currently this only works on X11 with XComposite and XDamage
--   extensions available.
--   
--   <i>Since: 2.12</i>

-- | <i>Deprecated: (Since version 3.16)Compositing is an outdated
--   technology that only ever worked on X11.</i>
displaySupportsComposite :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m Bool

-- | Returns <a>True</a> if cursors can use an 8bit alpha channel on
--   <i><tt>display</tt></i>. Otherwise, cursors are restricted to bilevel
--   alpha (i.e. a mask).
--   
--   <i>Since: 2.4</i>
displaySupportsCursorAlpha :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m Bool

-- | Returns <a>True</a> if multicolored cursors are supported on
--   <i><tt>display</tt></i>. Otherwise, cursors have only a forground and
--   a background color.
--   
--   <i>Since: 2.4</i>
displaySupportsCursorColor :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m Bool

-- | Returns <a>True</a> if
--   <tt><i>gdk_window_input_shape_combine_mask()</i></tt> can be used to
--   modify the input shape of windows on <i><tt>display</tt></i>.
--   
--   <i>Since: 2.10</i>
displaySupportsInputShapes :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m Bool

-- | Returns whether <a>EventOwnerChange</a> events will be sent when the
--   owner of a selection changes.
--   
--   <i>Since: 2.6</i>
displaySupportsSelectionNotification :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m Bool

-- | Returns <a>True</a> if <tt><i>gdk_window_shape_combine_mask()</i></tt>
--   can be used to create shaped windows on <i><tt>display</tt></i>.
--   
--   <i>Since: 2.10</i>
displaySupportsShapes :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m Bool

-- | Flushes any requests queued for the windowing system and waits until
--   all requests have been handled. This is often used for making sure
--   that the display is synchronized with the current state of the
--   program. Calling <a>displaySync</a> before <a>errorTrapPop</a> makes
--   sure that any errors generated from earlier requests are handled
--   before the error trap is removed.
--   
--   This is most useful for X11. On windowing systems where requests are
--   handled synchronously, this function will do nothing.
--   
--   <i>Since: 2.2</i>
displaySync :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m ()

-- | Warps the pointer of <i><tt>display</tt></i> to the point
--   <i><tt>x</tt></i>,<i><tt>y</tt></i> on the screen
--   <i><tt>screen</tt></i>, unless the pointer is confined to a window by
--   a grab, in which case it will be moved as far as allowed by the grab.
--   Warping the pointer creates events as if the user had moved the mouse
--   instantaneously to the destination.
--   
--   Note that the pointer should normally be under the control of the
--   user. This function was added to cover some rare use cases like
--   keyboard navigation support for the color picker in the
--   <tt><i>GtkColorSelectionDialog</i></tt>.
--   
--   <i>Since: 2.8</i>

-- | <i>Deprecated: (Since version 3.0)Use <a>deviceWarp</a> instead.</i>
displayWarpPointer :: (HasCallStack, MonadIO m, IsDisplay a, IsScreen b) => a -> b -> Int32 -> Int32 -> m ()

-- | The <a>closed</a> signal is emitted when the connection to the
--   windowing system for <i><tt>display</tt></i> is closed.
--   
--   <i>Since: 2.2</i>
type DisplayClosedCallback = -- | /@isError@/: 'P.True' if the display was closed due to an error Bool -> IO ()

-- | Connect a signal handler for the <a>closed</a> signal, to be run after
--   the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> display #closed callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterDisplayClosed :: (IsDisplay a, MonadIO m) => a -> ((?self :: a) => DisplayClosedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>closed</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> display #closed callback
--   </pre>
onDisplayClosed :: (IsDisplay a, MonadIO m) => a -> ((?self :: a) => DisplayClosedCallback) -> m SignalHandlerId

-- | The <a>monitorAdded</a> signal is emitted whenever a monitor is added.
--   
--   <i>Since: 3.22</i>
type DisplayMonitorAddedCallback = -- | /@monitor@/: the monitor that was just added Monitor -> IO ()

-- | Connect a signal handler for the <a>monitorAdded</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> display #monitorAdded callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterDisplayMonitorAdded :: (IsDisplay a, MonadIO m) => a -> ((?self :: a) => DisplayMonitorAddedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>monitorAdded</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> display #monitorAdded callback
--   </pre>
onDisplayMonitorAdded :: (IsDisplay a, MonadIO m) => a -> ((?self :: a) => DisplayMonitorAddedCallback) -> m SignalHandlerId

-- | The <a>monitorRemoved</a> signal is emitted whenever a monitor is
--   removed.
--   
--   <i>Since: 3.22</i>
type DisplayMonitorRemovedCallback = -- | /@monitor@/: the monitor that was just removed Monitor -> IO ()

-- | Connect a signal handler for the <a>monitorRemoved</a> signal, to be
--   run after the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>after</a> display #monitorRemoved callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterDisplayMonitorRemoved :: (IsDisplay a, MonadIO m) => a -> ((?self :: a) => DisplayMonitorRemovedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>monitorRemoved</a> signal, to be
--   run before the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>on</a> display #monitorRemoved callback
--   </pre>
onDisplayMonitorRemoved :: (IsDisplay a, MonadIO m) => a -> ((?self :: a) => DisplayMonitorRemovedCallback) -> m SignalHandlerId

-- | The <a>opened</a> signal is emitted when the connection to the
--   windowing system for <i><tt>display</tt></i> is opened.
type DisplayOpenedCallback = IO ()

-- | Connect a signal handler for the <a>opened</a> signal, to be run after
--   the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> display #opened callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterDisplayOpened :: (IsDisplay a, MonadIO m) => a -> ((?self :: a) => DisplayOpenedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>opened</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> display #opened callback
--   </pre>
onDisplayOpened :: (IsDisplay a, MonadIO m) => a -> ((?self :: a) => DisplayOpenedCallback) -> m SignalHandlerId

-- | The <a>seatAdded</a> signal is emitted whenever a new seat is made
--   known to the windowing system.
--   
--   <i>Since: 3.20</i>
type DisplaySeatAddedCallback = -- | /@seat@/: the seat that was just added Seat -> IO ()

-- | Connect a signal handler for the <a>seatAdded</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> display #seatAdded callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterDisplaySeatAdded :: (IsDisplay a, MonadIO m) => a -> ((?self :: a) => DisplaySeatAddedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>seatAdded</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> display #seatAdded callback
--   </pre>
onDisplaySeatAdded :: (IsDisplay a, MonadIO m) => a -> ((?self :: a) => DisplaySeatAddedCallback) -> m SignalHandlerId

-- | The <a>seatRemoved</a> signal is emitted whenever a seat is removed by
--   the windowing system.
--   
--   <i>Since: 3.20</i>
type DisplaySeatRemovedCallback = -- | /@seat@/: the seat that was just removed Seat -> IO ()

-- | Connect a signal handler for the <a>seatRemoved</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> display #seatRemoved callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterDisplaySeatRemoved :: (IsDisplay a, MonadIO m) => a -> ((?self :: a) => DisplaySeatRemovedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>seatRemoved</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> display #seatRemoved callback
--   </pre>
onDisplaySeatRemoved :: (IsDisplay a, MonadIO m) => a -> ((?self :: a) => DisplaySeatRemovedCallback) -> m SignalHandlerId
instance GHC.Classes.Eq GI.Gdk.Objects.Display.Display
instance (Data.GI.Base.BasicTypes.GObject o, Data.GI.Base.Overloading.IsDescendantOf GI.Gdk.Objects.Display.Display o) => GI.Gdk.Objects.Display.IsDisplay o
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Objects.Display.Display
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Objects.Display.Display
instance Data.GI.Base.BasicTypes.GObject GI.Gdk.Objects.Display.Display
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Objects.Display.Display
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Objects.Display.Display)


-- | In addition to a single pointer and keyboard for user interface input,
--   GDK contains support for a variety of input devices, including
--   graphics tablets, touchscreens and multiple pointers/keyboards
--   interacting simultaneously with the user interface. Such input devices
--   often have additional features, such as sub-pixel positioning
--   information and additional device-dependent information.
--   
--   In order to query the device hierarchy and be aware of changes in the
--   device hierarchy (such as virtual devices being created or removed, or
--   physical devices being plugged or unplugged), GDK provides
--   <a>DeviceManager</a>.
--   
--   By default, and if the platform supports it, GDK is aware of multiple
--   keyboard/pointer pairs and multitouch devices. This behavior can be
--   changed by calling <a>disableMultidevice</a> before
--   <a>displayOpen</a>. There should rarely be a need to do that though,
--   since GDK defaults to a compatibility mode in which it will emit just
--   one enter/leave event pair for all devices on a window. To enable
--   per-device enter/leave events and other multi-pointer interaction
--   features, <a>windowSetSupportMultidevice</a> must be called on
--   <tt><i>GdkWindows</i></tt> (or
--   <tt><i>gtk_widget_set_support_multidevice()</i></tt> on widgets).
--   window. See the <a>windowSetSupportMultidevice</a> documentation for
--   more information.
--   
--   On X11, multi-device support is implemented through XInput 2. Unless
--   <a>disableMultidevice</a> is called, the XInput 2 <a>DeviceManager</a>
--   implementation will be used as the input source. Otherwise either the
--   core or XInput 1 implementations will be used.
--   
--   For simple applications that don’t have any special interest in input
--   devices, the so-called “client pointer” provides a reasonable
--   approximation to a simple setup with a single pointer and keyboard.
--   The device that has been set as the client pointer can be accessed via
--   <a>deviceManagerGetClientPointer</a>.
--   
--   Conceptually, in multidevice mode there are 2 device types. Virtual
--   devices (or master devices) are represented by the pointer cursors and
--   keyboard foci that are seen on the screen. Physical devices (or slave
--   devices) represent the hardware that is controlling the virtual
--   devices, and thus have no visible cursor on the screen.
--   
--   Virtual devices are always paired, so there is a keyboard device for
--   every pointer device. Associations between devices may be inspected
--   through <a>deviceGetAssociatedDevice</a>.
--   
--   There may be several virtual devices, and several physical devices
--   could be controlling each of these virtual devices. Physical devices
--   may also be “floating”, which means they are not attached to any
--   virtual device.
--   
--   <h1>Master and slave devices</h1>
--   
--   <pre>
--   carlos@sacarino:~$ xinput list
--   ⎡ Virtual core pointer                          id=2    [master pointer  (3)]
--   ⎜   ↳ Virtual core XTEST pointer                id=4    [slave  pointer  (2)]
--   ⎜   ↳ Wacom ISDv4 E6 Pen stylus                 id=10   [slave  pointer  (2)]
--   ⎜   ↳ Wacom ISDv4 E6 Finger touch               id=11   [slave  pointer  (2)]
--   ⎜   ↳ SynPS/2 Synaptics TouchPad                id=13   [slave  pointer  (2)]
--   ⎜   ↳ TPPS/2 IBM TrackPoint                     id=14   [slave  pointer  (2)]
--   ⎜   ↳ Wacom ISDv4 E6 Pen eraser                 id=16   [slave  pointer  (2)]
--   ⎣ Virtual core keyboard                         id=3    [master keyboard (2)]
--       ↳ Virtual core XTEST keyboard               id=5    [slave  keyboard (3)]
--       ↳ Power Button                              id=6    [slave  keyboard (3)]
--       ↳ Video Bus                                 id=7    [slave  keyboard (3)]
--       ↳ Sleep Button                              id=8    [slave  keyboard (3)]
--       ↳ Integrated Camera                         id=9    [slave  keyboard (3)]
--       ↳ AT Translated Set 2 keyboard              id=12   [slave  keyboard (3)]
--       ↳ ThinkPad Extra Buttons                    id=15   [slave  keyboard (3)]
--   </pre>
--   
--   By default, GDK will automatically listen for events coming from all
--   master devices, setting the <a>Device</a> for all events coming from
--   input devices. Events containing device information are
--   <tt><i>GDK_MOTION_NOTIFY</i></tt>, <tt><i>GDK_BUTTON_PRESS</i></tt>,
--   <tt><i>GDK_2BUTTON_PRESS</i></tt>, <tt><i>GDK_3BUTTON_PRESS</i></tt>,
--   <tt><i>GDK_BUTTON_RELEASE</i></tt>, <tt><i>GDK_SCROLL</i></tt>,
--   <tt><i>GDK_KEY_PRESS</i></tt>, <tt><i>GDK_KEY_RELEASE</i></tt>,
--   <tt><i>GDK_ENTER_NOTIFY</i></tt>, <tt><i>GDK_LEAVE_NOTIFY</i></tt>,
--   <tt><i>GDK_FOCUS_CHANGE</i></tt>, <tt><i>GDK_PROXIMITY_IN</i></tt>,
--   <tt><i>GDK_PROXIMITY_OUT</i></tt>, <tt><i>GDK_DRAG_ENTER</i></tt>,
--   <tt><i>GDK_DRAG_LEAVE</i></tt>, <tt><i>GDK_DRAG_MOTION</i></tt>,
--   <tt><i>GDK_DRAG_STATUS</i></tt>, <tt><i>GDK_DROP_START</i></tt>,
--   <tt><i>GDK_DROP_FINISHED</i></tt> and <tt><i>GDK_GRAB_BROKEN</i></tt>.
--   When dealing with an event on a master device, it is possible to get
--   the source (slave) device that the event originated from via
--   <a>eventGetSourceDevice</a>.
--   
--   On a standard session, all physical devices are connected by default
--   to the "Virtual Core Pointer/Keyboard" master devices, hence routing
--   all events through these. This behavior is only modified by device
--   grabs, where the slave device is temporarily detached for as long as
--   the grab is held, and more permanently by user modifications to the
--   device hierarchy.
--   
--   On certain application specific setups, it may make sense to detach a
--   physical device from its master pointer, and mapping it to an specific
--   window. This can be achieved by the combination of <a>deviceGrab</a>
--   and <a>deviceSetMode</a>.
--   
--   In order to listen for events coming from devices other than a virtual
--   device, <a>windowSetDeviceEvents</a> must be called. Generally, this
--   function can be used to modify the event mask for any given device.
--   
--   Input devices may also provide additional information besides X/Y. For
--   example, graphics tablets may also provide pressure and X/Y tilt
--   information. This information is device-dependent, and may be queried
--   through <tt><i>gdk_device_get_axis()</i></tt>. In multidevice mode,
--   virtual devices will change axes in order to always represent the
--   physical device that is routing events through it. Whenever the
--   physical device changes, the <a>Device:nAxes</a> property will be
--   notified, and <a>deviceListAxes</a> will return the new device axes.
--   
--   Devices may also have associated “keys” or macro buttons. Such keys
--   can be globally set to map into normal X keyboard events. The mapping
--   is set using <a>deviceSetKey</a>.
--   
--   In GTK+ 3.20, a new <a>Seat</a> object has been introduced that
--   supersedes <a>DeviceManager</a> and should be preferred in newly
--   written code.
module GI.Gdk.Objects.DeviceManager

-- | Memory-managed wrapper type.
newtype DeviceManager
DeviceManager :: ManagedPtr DeviceManager -> DeviceManager

-- | Type class for types which can be safely cast to <a>DeviceManager</a>,
--   for instance with <a>toDeviceManager</a>.
class (GObject o, IsDescendantOf DeviceManager o) => IsDeviceManager o

-- | Cast to <a>DeviceManager</a>, for types for which this is known to be
--   safe. For general casts, use <a>castTo</a>.
toDeviceManager :: (MonadIO m, IsDeviceManager o) => o -> m DeviceManager

-- | Returns the client pointer, that is, the master pointer that acts as
--   the core pointer for this application. In X11, window managers may
--   change this depending on the interaction pattern under the presence of
--   several pointers.
--   
--   You should use this function seldomly, only in code that isn’t
--   triggered by a <a>Event</a> and there aren’t other means to get a
--   meaningful <a>Device</a> to operate on.
--   
--   <i>Since: 3.0</i>

-- | <i>Deprecated: (Since version 3.20)Use <a>seatGetPointer</a>
--   instead.</i>
deviceManagerGetClientPointer :: (HasCallStack, MonadIO m, IsDeviceManager a) => a -> m Device

-- | Gets the <a>Display</a> associated to <i><tt>deviceManager</tt></i>.
--   
--   <i>Since: 3.0</i>
deviceManagerGetDisplay :: (HasCallStack, MonadIO m, IsDeviceManager a) => a -> m (Maybe Display)

-- | Returns the list of devices of type <i><tt>type</tt></i> currently
--   attached to <i><tt>deviceManager</tt></i>.
--   
--   <i>Since: 3.0</i>

-- | <i>Deprecated: (Since version 3.20), use <a>seatGetPointer</a>,
--   <a>seatGetKeyboard</a> and <a>seatGetSlaves</a> instead.</i>
deviceManagerListDevices :: (HasCallStack, MonadIO m, IsDeviceManager a) => a -> DeviceType -> m [Device]

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>display</tt>” property. This is rarely needed directly, but it is
--   used by <a>new</a>.
constructDeviceManagerDisplay :: (IsDeviceManager o, MonadIO m, IsDisplay a) => a -> m (GValueConstruct o)

-- | Get the value of the “<tt>display</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> deviceManager #display
--   </pre>
getDeviceManagerDisplay :: (MonadIO m, IsDeviceManager o) => o -> m (Maybe Display)

-- | The <a>deviceAdded</a> signal is emitted either when a new master
--   pointer is created, or when a slave (Hardware) input device is plugged
--   in.
type DeviceManagerDeviceAddedCallback = -- | /@device@/: the newly added t'GI.Gdk.Objects.Device.Device'. Device -> IO ()

-- | Connect a signal handler for the <a>deviceAdded</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> deviceManager #deviceAdded callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterDeviceManagerDeviceAdded :: (IsDeviceManager a, MonadIO m) => a -> ((?self :: a) => DeviceManagerDeviceAddedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>deviceAdded</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> deviceManager #deviceAdded callback
--   </pre>
onDeviceManagerDeviceAdded :: (IsDeviceManager a, MonadIO m) => a -> ((?self :: a) => DeviceManagerDeviceAddedCallback) -> m SignalHandlerId

-- | The <a>deviceChanged</a> signal is emitted whenever a device has
--   changed in the hierarchy, either slave devices being disconnected from
--   their master device or connected to another one, or master devices
--   being added or removed a slave device.
--   
--   If a slave device is detached from all master devices
--   (<a>deviceGetAssociatedDevice</a> returns <a>Nothing</a>), its
--   <a>DeviceType</a> will change to <a>DeviceTypeFloating</a>, if it's
--   attached, it will change to <a>DeviceTypeSlave</a>.
type DeviceManagerDeviceChangedCallback = -- | /@device@/: the t'GI.Gdk.Objects.Device.Device' that changed. Device -> IO ()

-- | Connect a signal handler for the <a>deviceChanged</a> signal, to be
--   run after the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>after</a> deviceManager #deviceChanged callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterDeviceManagerDeviceChanged :: (IsDeviceManager a, MonadIO m) => a -> ((?self :: a) => DeviceManagerDeviceChangedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>deviceChanged</a> signal, to be
--   run before the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>on</a> deviceManager #deviceChanged callback
--   </pre>
onDeviceManagerDeviceChanged :: (IsDeviceManager a, MonadIO m) => a -> ((?self :: a) => DeviceManagerDeviceChangedCallback) -> m SignalHandlerId

-- | The <a>deviceRemoved</a> signal is emitted either when a master
--   pointer is removed, or when a slave (Hardware) input device is
--   unplugged.
type DeviceManagerDeviceRemovedCallback = -- | /@device@/: the just removed t'GI.Gdk.Objects.Device.Device'. Device -> IO ()

-- | Connect a signal handler for the <a>deviceRemoved</a> signal, to be
--   run after the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>after</a> deviceManager #deviceRemoved callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterDeviceManagerDeviceRemoved :: (IsDeviceManager a, MonadIO m) => a -> ((?self :: a) => DeviceManagerDeviceRemovedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>deviceRemoved</a> signal, to be
--   run before the default handler. When <a>overloading</a> is enabled,
--   this is equivalent to
--   
--   <pre>
--   <a>on</a> deviceManager #deviceRemoved callback
--   </pre>
onDeviceManagerDeviceRemoved :: (IsDeviceManager a, MonadIO m) => a -> ((?self :: a) => DeviceManagerDeviceRemovedCallback) -> m SignalHandlerId
instance GHC.Classes.Eq GI.Gdk.Objects.DeviceManager.DeviceManager
instance (Data.GI.Base.BasicTypes.GObject o, Data.GI.Base.Overloading.IsDescendantOf GI.Gdk.Objects.DeviceManager.DeviceManager o) => GI.Gdk.Objects.DeviceManager.IsDeviceManager o
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Objects.DeviceManager.DeviceManager
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Objects.DeviceManager.DeviceManager
instance Data.GI.Base.BasicTypes.GObject GI.Gdk.Objects.DeviceManager.DeviceManager
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Objects.DeviceManager.DeviceManager
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Objects.DeviceManager.DeviceManager)


-- | The <a>Device</a> object represents a single input device, such as a
--   keyboard, a mouse, a touchpad, etc.
--   
--   See the <a>DeviceManager</a> documentation for more information about
--   the various kinds of master and slave devices, and their
--   relationships.
module GI.Gdk.Objects.Device

-- | Memory-managed wrapper type.
newtype Device
Device :: ManagedPtr Device -> Device

-- | Type class for types which can be safely cast to <a>Device</a>, for
--   instance with <a>toDevice</a>.
class (GObject o, IsDescendantOf Device o) => IsDevice o

-- | Cast to <a>Device</a>, for types for which this is known to be safe.
--   For general casts, use <a>castTo</a>.
toDevice :: (MonadIO m, IsDevice o) => o -> m Device

-- | Returns the associated device to <i><tt>device</tt></i>, if
--   <i><tt>device</tt></i> is of type <a>DeviceTypeMaster</a>, it will
--   return the paired pointer or keyboard.
--   
--   If <i><tt>device</tt></i> is of type <a>DeviceTypeSlave</a>, it will
--   return the master device to which <i><tt>device</tt></i> is attached
--   to.
--   
--   If <i><tt>device</tt></i> is of type <a>DeviceTypeFloating</a>,
--   <a>Nothing</a> will be returned, as there is no associated device.
--   
--   <i>Since: 3.0</i>
deviceGetAssociatedDevice :: (HasCallStack, MonadIO m, IsDevice a) => a -> m (Maybe Device)

-- | Returns the axes currently available on the device.
--   
--   <i>Since: 3.22</i>
deviceGetAxes :: (HasCallStack, MonadIO m, IsDevice a) => a -> m [AxisFlags]

-- | Returns the axis use for <i><tt>index_</tt></i>.
--   
--   <i>Since: 2.20</i>
deviceGetAxisUse :: (HasCallStack, MonadIO m, IsDevice a) => a -> Word32 -> m AxisUse

-- | Returns the device type for <i><tt>device</tt></i>.
--   
--   <i>Since: 3.0</i>
deviceGetDeviceType :: (HasCallStack, MonadIO m, IsDevice a) => a -> m DeviceType

-- | Returns the <a>Display</a> to which <i><tt>device</tt></i> pertains.
--   
--   <i>Since: 3.0</i>
deviceGetDisplay :: (HasCallStack, MonadIO m, IsDevice a) => a -> m Display

-- | Determines whether the pointer follows device motion. This is not
--   meaningful for keyboard devices, which don't have a pointer.
--   
--   <i>Since: 2.20</i>
deviceGetHasCursor :: (HasCallStack, MonadIO m, IsDevice a) => a -> m Bool

-- | If <i><tt>index_</tt></i> has a valid keyval, this function will
--   return <a>True</a> and fill in <i><tt>keyval</tt></i> and
--   <i><tt>modifiers</tt></i> with the keyval settings.
--   
--   <i>Since: 2.20</i>
deviceGetKey :: (HasCallStack, MonadIO m, IsDevice a) => a -> Word32 -> m (Bool, Word32, [ModifierType])

-- | Gets information about which window the given pointer device is in,
--   based on events that have been received so far from the display
--   server. If another application has a pointer grab, or this application
--   has a grab with owner_events = <a>False</a>, <a>Nothing</a> may be
--   returned even if the pointer is physically over one of this
--   application's windows.
--   
--   <i>Since: 3.12</i>
deviceGetLastEventWindow :: (HasCallStack, MonadIO m, IsDevice a) => a -> m (Maybe Window)

-- | Determines the mode of the device.
--   
--   <i>Since: 2.20</i>
deviceGetMode :: (HasCallStack, MonadIO m, IsDevice a) => a -> m InputMode

-- | Returns the number of axes the device currently has.
--   
--   <i>Since: 3.0</i>
deviceGetNAxes :: (HasCallStack, MonadIO m, IsDevice a) => a -> m Int32

-- | Returns the number of keys the device currently has.
--   
--   <i>Since: 2.24</i>
deviceGetNKeys :: (HasCallStack, MonadIO m, IsDevice a) => a -> m Int32

-- | Determines the name of the device.
--   
--   <i>Since: 2.20</i>
deviceGetName :: (HasCallStack, MonadIO m, IsDevice a) => a -> m Text

-- | Gets the current location of <i><tt>device</tt></i>. As a slave device
--   coordinates are those of its master pointer, This function may not be
--   called on devices of type <a>DeviceTypeSlave</a>, unless there is an
--   ongoing grab on them, see <a>deviceGrab</a>.
--   
--   <i>Since: 3.0</i>
deviceGetPosition :: (HasCallStack, MonadIO m, IsDevice a) => a -> m (Screen, Int32, Int32)

-- | Gets the current location of <i><tt>device</tt></i> in double
--   precision. As a slave device's coordinates are those of its master
--   pointer, this function may not be called on devices of type
--   <a>DeviceTypeSlave</a>, unless there is an ongoing grab on them. See
--   <a>deviceGrab</a>.
--   
--   <i>Since: 3.10</i>
deviceGetPositionDouble :: (HasCallStack, MonadIO m, IsDevice a) => a -> m (Screen, Double, Double)

-- | Returns the product ID of this device, or <a>Nothing</a> if this
--   information couldn't be obtained. This ID is retrieved from the
--   device, and is thus constant for it. See <a>deviceGetVendorId</a> for
--   more information.
--   
--   <i>Since: 3.16</i>
deviceGetProductId :: (HasCallStack, MonadIO m, IsDevice a) => a -> m (Maybe Text)

-- | Returns the <a>Seat</a> the device belongs to.
--   
--   <i>Since: 3.20</i>
deviceGetSeat :: (HasCallStack, MonadIO m, IsDevice a) => a -> m Seat

-- | Determines the type of the device.
--   
--   <i>Since: 2.20</i>
deviceGetSource :: (HasCallStack, MonadIO m, IsDevice a) => a -> m InputSource

-- | Returns the vendor ID of this device, or <a>Nothing</a> if this
--   information couldn't be obtained. This ID is retrieved from the
--   device, and is thus constant for it.
--   
--   This function, together with <a>deviceGetProductId</a>, can be used to
--   eg. compose <a>Settings</a> paths to store settings for this device.
--   
--   <h3><i>C code</i></h3>
--   
--   <pre>
--   static GSettings *
--   get_device_settings (GdkDevice *device)
--   {
--     const gchar *vendor, *product;
--     GSettings *settings;
--     GdkDevice *device;
--     gchar *path;
--   
--     vendor = gdk_device_get_vendor_id (device);
--     product = gdk_device_get_product_id (device);
--   
--     path = g_strdup_printf ("/org/example/app/devices/%s:%s/", vendor, product);
--     settings = g_settings_new_with_path (DEVICE_SCHEMA, path);
--     g_free (path);
--   
--     return settings;
--   }
--   </pre>
--   
--   <i>Since: 3.16</i>
deviceGetVendorId :: (HasCallStack, MonadIO m, IsDevice a) => a -> m (Maybe Text)

-- | Obtains the window underneath <i><tt>device</tt></i>, returning the
--   location of the device in <i><tt>winX</tt></i> and
--   <i><tt>winY</tt></i>. Returns <a>Nothing</a> if the window tree under
--   <i><tt>device</tt></i> is not known to GDK (for example, belongs to
--   another application).
--   
--   As a slave device coordinates are those of its master pointer, This
--   function may not be called on devices of type <a>DeviceTypeSlave</a>,
--   unless there is an ongoing grab on them, see <a>deviceGrab</a>.
--   
--   <i>Since: 3.0</i>
deviceGetWindowAtPosition :: (HasCallStack, MonadIO m, IsDevice a) => a -> m (Maybe Window, Int32, Int32)

-- | Obtains the window underneath <i><tt>device</tt></i>, returning the
--   location of the device in <i><tt>winX</tt></i> and
--   <i><tt>winY</tt></i> in double precision. Returns <a>Nothing</a> if
--   the window tree under <i><tt>device</tt></i> is not known to GDK (for
--   example, belongs to another application).
--   
--   As a slave device coordinates are those of its master pointer, This
--   function may not be called on devices of type <a>DeviceTypeSlave</a>,
--   unless there is an ongoing grab on them, see <a>deviceGrab</a>.
--   
--   <i>Since: 3.0</i>
deviceGetWindowAtPositionDouble :: (HasCallStack, MonadIO m, IsDevice a) => a -> m (Maybe Window, Double, Double)

-- | Grabs the device so that all events coming from this device are passed
--   to this application until the device is ungrabbed with
--   <a>deviceUngrab</a>, or the window becomes unviewable. This overrides
--   any previous grab on the device by this client.
--   
--   Note that <i><tt>device</tt></i> and <i><tt>window</tt></i> need to be
--   on the same display.
--   
--   Device grabs are used for operations which need complete control over
--   the given device events (either pointer or keyboard). For example in
--   GTK+ this is used for Drag and Drop operations, popup menus and such.
--   
--   Note that if the event mask of an X window has selected both button
--   press and button release events, then a button press event will cause
--   an automatic pointer grab until the button is released. X does this
--   automatically since most applications expect to receive button press
--   and release events in pairs. It is equivalent to a pointer grab on the
--   window with <i><tt>ownerEvents</tt></i> set to <a>True</a>.
--   
--   If you set up anything at the time you take the grab that needs to be
--   cleaned up when the grab ends, you should handle the
--   <a>EventGrabBroken</a> events that are emitted when the grab ends
--   unvoluntarily.
--   
--   <i>Since: 3.0</i>

-- | <i>Deprecated: (Since version 3.20.)Use <a>seatGrab</a> instead.</i>
deviceGrab :: (HasCallStack, MonadIO m, IsDevice a, IsWindow b, IsCursor c) => a -> b -> GrabOwnership -> Bool -> [EventMask] -> Maybe c -> Word32 -> m GrabStatus

-- | Determines information about the current keyboard grab. This is not
--   public API and must not be used by applications.

-- | <i>Deprecated: (Since version 3.16)The symbol was never meant to be
--   used outside of GTK+</i>
deviceGrabInfoLibgtkOnly :: (HasCallStack, MonadIO m, IsDisplay a, IsDevice b) => a -> b -> m (Bool, Window, Bool)

-- | Returns a <a>List</a> of <tt><i>GdkAtoms</i></tt>, containing the
--   labels for the axes that <i><tt>device</tt></i> currently has.
--   
--   <i>Since: 3.0</i>
deviceListAxes :: (HasCallStack, MonadIO m, IsDevice a) => a -> m [Atom]

-- | If the device if of type <a>DeviceTypeMaster</a>, it will return the
--   list of slave devices attached to it, otherwise it will return
--   <a>Nothing</a>
deviceListSlaveDevices :: (HasCallStack, MonadIO m, IsDevice a) => a -> m [Device]

-- | Specifies how an axis of a device is used.
deviceSetAxisUse :: (HasCallStack, MonadIO m, IsDevice a) => a -> Word32 -> AxisUse -> m ()

-- | Specifies the X key event to generate when a macro button of a device
--   is pressed.
deviceSetKey :: (HasCallStack, MonadIO m, IsDevice a) => a -> Word32 -> Word32 -> [ModifierType] -> m ()

-- | Sets a the mode of an input device. The mode controls if the device is
--   active and whether the device’s range is mapped to the entire screen
--   or to a single window.
--   
--   Note: This is only meaningful for floating devices, master devices
--   (and slaves connected to these) drive the pointer cursor, which is not
--   limited by the input mode.
deviceSetMode :: (HasCallStack, MonadIO m, IsDevice a) => a -> InputMode -> m Bool

-- | Release any grab on <i><tt>device</tt></i>.
--   
--   <i>Since: 3.0</i>

-- | <i>Deprecated: (Since version 3.20.)Use <a>seatUngrab</a> instead.</i>
deviceUngrab :: (HasCallStack, MonadIO m, IsDevice a) => a -> Word32 -> m ()

-- | Warps <i><tt>device</tt></i> in <i><tt>display</tt></i> to the point
--   <i><tt>x</tt></i>,<i><tt>y</tt></i> on the screen
--   <i><tt>screen</tt></i>, unless the device is confined to a window by a
--   grab, in which case it will be moved as far as allowed by the grab.
--   Warping the pointer creates events as if the user had moved the mouse
--   instantaneously to the destination.
--   
--   Note that the pointer should normally be under the control of the
--   user. This function was added to cover some rare use cases like
--   keyboard navigation support for the color picker in the
--   <tt><i>GtkColorSelectionDialog</i></tt>.
--   
--   <i>Since: 3.0</i>
deviceWarp :: (HasCallStack, MonadIO m, IsDevice a, IsScreen b) => a -> b -> Int32 -> Int32 -> m ()

-- | Get the value of the “<tt>associated-device</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> device #associatedDevice
--   </pre>
getDeviceAssociatedDevice :: (MonadIO m, IsDevice o) => o -> m (Maybe Device)

-- | Get the value of the “<tt>axes</tt>” property. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> device #axes
--   </pre>
getDeviceAxes :: (MonadIO m, IsDevice o) => o -> m [AxisFlags]

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>device-manager</tt>” property. This is rarely needed directly,
--   but it is used by <a>new</a>.
constructDeviceDeviceManager :: (IsDevice o, MonadIO m, IsDeviceManager a) => a -> m (GValueConstruct o)

-- | Get the value of the “<tt>device-manager</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> device #deviceManager
--   </pre>
getDeviceDeviceManager :: (MonadIO m, IsDevice o) => o -> m (Maybe DeviceManager)

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>display</tt>” property. This is rarely needed directly, but it is
--   used by <a>new</a>.
constructDeviceDisplay :: (IsDevice o, MonadIO m, IsDisplay a) => a -> m (GValueConstruct o)

-- | Get the value of the “<tt>display</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> device #display
--   </pre>
getDeviceDisplay :: (MonadIO m, IsDevice o) => o -> m Display

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>has-cursor</tt>” property. This is rarely needed directly, but it
--   is used by <a>new</a>.
constructDeviceHasCursor :: (IsDevice o, MonadIO m) => Bool -> m (GValueConstruct o)

-- | Get the value of the “<tt>has-cursor</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> device #hasCursor
--   </pre>
getDeviceHasCursor :: (MonadIO m, IsDevice o) => o -> m Bool

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>input-mode</tt>” property. This is rarely needed directly, but it
--   is used by <a>new</a>.
constructDeviceInputMode :: (IsDevice o, MonadIO m) => InputMode -> m (GValueConstruct o)

-- | Get the value of the “<tt>input-mode</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> device #inputMode
--   </pre>
getDeviceInputMode :: (MonadIO m, IsDevice o) => o -> m InputMode

-- | Set the value of the “<tt>input-mode</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> device [ #inputMode <a>:=</a> value ]
--   </pre>
setDeviceInputMode :: (MonadIO m, IsDevice o) => o -> InputMode -> m ()

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>input-source</tt>” property. This is rarely needed directly, but
--   it is used by <a>new</a>.
constructDeviceInputSource :: (IsDevice o, MonadIO m) => InputSource -> m (GValueConstruct o)

-- | Get the value of the “<tt>input-source</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> device #inputSource
--   </pre>
getDeviceInputSource :: (MonadIO m, IsDevice o) => o -> m InputSource

-- | Get the value of the “<tt>n-axes</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> device #nAxes
--   </pre>
getDeviceNAxes :: (MonadIO m, IsDevice o) => o -> m Word32

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>name</tt>” property. This is rarely needed directly, but it is
--   used by <a>new</a>.
constructDeviceName :: (IsDevice o, MonadIO m) => Text -> m (GValueConstruct o)

-- | Get the value of the “<tt>name</tt>” property. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> device #name
--   </pre>
getDeviceName :: (MonadIO m, IsDevice o) => o -> m Text

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>num-touches</tt>” property. This is rarely needed directly, but
--   it is used by <a>new</a>.
constructDeviceNumTouches :: (IsDevice o, MonadIO m) => Word32 -> m (GValueConstruct o)

-- | Get the value of the “<tt>num-touches</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> device #numTouches
--   </pre>
getDeviceNumTouches :: (MonadIO m, IsDevice o) => o -> m Word32

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>product-id</tt>” property. This is rarely needed directly, but it
--   is used by <a>new</a>.
constructDeviceProductId :: (IsDevice o, MonadIO m) => Text -> m (GValueConstruct o)

-- | Get the value of the “<tt>product-id</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> device #productId
--   </pre>
getDeviceProductId :: (MonadIO m, IsDevice o) => o -> m (Maybe Text)

-- | Set the value of the “<tt>seat</tt>” property to <a>Nothing</a>. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>clear</a> #seat
--   </pre>
clearDeviceSeat :: (MonadIO m, IsDevice o) => o -> m ()

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>seat</tt>” property. This is rarely needed directly, but it is
--   used by <a>new</a>.
constructDeviceSeat :: (IsDevice o, MonadIO m, IsSeat a) => a -> m (GValueConstruct o)

-- | Get the value of the “<tt>seat</tt>” property. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> device #seat
--   </pre>
getDeviceSeat :: (MonadIO m, IsDevice o) => o -> m Seat

-- | Set the value of the “<tt>seat</tt>” property. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>set</a> device [ #seat <a>:=</a> value ]
--   </pre>
setDeviceSeat :: (MonadIO m, IsDevice o, IsSeat a) => o -> a -> m ()

-- | Get the value of the “<tt>tool</tt>” property. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> device #tool
--   </pre>
getDeviceTool :: (MonadIO m, IsDevice o) => o -> m (Maybe DeviceTool)

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>type</tt>” property. This is rarely needed directly, but it is
--   used by <a>new</a>.
constructDeviceType :: (IsDevice o, MonadIO m) => DeviceType -> m (GValueConstruct o)

-- | Get the value of the “<tt>type</tt>” property. When <a>overloading</a>
--   is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> device #type
--   </pre>
getDeviceType :: (MonadIO m, IsDevice o) => o -> m DeviceType

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>vendor-id</tt>” property. This is rarely needed directly, but it
--   is used by <a>new</a>.
constructDeviceVendorId :: (IsDevice o, MonadIO m) => Text -> m (GValueConstruct o)

-- | Get the value of the “<tt>vendor-id</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> device #vendorId
--   </pre>
getDeviceVendorId :: (MonadIO m, IsDevice o) => o -> m (Maybe Text)

-- | The <a>changed</a> signal is emitted either when the <a>Device</a> has
--   changed the number of either axes or keys. For example In X this will
--   normally happen when the slave device routing events through the
--   master device changes (for example, user switches from the USB mouse
--   to a tablet), in that case the master device will change to reflect
--   the new slave device axes and keys.
type DeviceChangedCallback = IO ()

-- | Connect a signal handler for the <a>changed</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> device #changed callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterDeviceChanged :: (IsDevice a, MonadIO m) => a -> ((?self :: a) => DeviceChangedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>changed</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> device #changed callback
--   </pre>
onDeviceChanged :: (IsDevice a, MonadIO m) => a -> ((?self :: a) => DeviceChangedCallback) -> m SignalHandlerId

-- | The <a>toolChanged</a> signal is emitted on pen/eraser
--   <tt><i>GdkDevices</i></tt> whenever tools enter or leave proximity.
--   
--   <i>Since: 3.22</i>
type DeviceToolChangedCallback = -- | /@tool@/: The new current tool DeviceTool -> IO ()

-- | Connect a signal handler for the <a>toolChanged</a> signal, to be run
--   after the default handler. When <a>overloading</a> is enabled, this is
--   equivalent to
--   
--   <pre>
--   <a>after</a> device #toolChanged callback
--   </pre>
--   
--   By default the object invoking the signal is not passed to the
--   callback. If you need to access it, you can use the implit
--   <tt>?self</tt> parameter. Note that this requires activating the
--   <tt>ImplicitParams</tt> GHC extension.
afterDeviceToolChanged :: (IsDevice a, MonadIO m) => a -> ((?self :: a) => DeviceToolChangedCallback) -> m SignalHandlerId

-- | Connect a signal handler for the <a>toolChanged</a> signal, to be run
--   before the default handler. When <a>overloading</a> is enabled, this
--   is equivalent to
--   
--   <pre>
--   <a>on</a> device #toolChanged callback
--   </pre>
onDeviceToolChanged :: (IsDevice a, MonadIO m) => a -> ((?self :: a) => DeviceToolChangedCallback) -> m SignalHandlerId
instance GHC.Classes.Eq GI.Gdk.Objects.Device.Device
instance (Data.GI.Base.BasicTypes.GObject o, Data.GI.Base.Overloading.IsDescendantOf GI.Gdk.Objects.Device.Device o) => GI.Gdk.Objects.Device.IsDevice o
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Objects.Device.Device
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Objects.Device.Device
instance Data.GI.Base.BasicTypes.GObject GI.Gdk.Objects.Device.Device
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Objects.Device.Device
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Objects.Device.Device)


-- | A <a>Cursor</a> represents a cursor. Its contents are private.
module GI.Gdk.Objects.Cursor

-- | Memory-managed wrapper type.
newtype Cursor
Cursor :: ManagedPtr Cursor -> Cursor

-- | Type class for types which can be safely cast to <a>Cursor</a>, for
--   instance with <a>toCursor</a>.
class (GObject o, IsDescendantOf Cursor o) => IsCursor o

-- | Cast to <a>Cursor</a>, for types for which this is known to be safe.
--   For general casts, use <a>castTo</a>.
toCursor :: (MonadIO m, IsCursor o) => o -> m Cursor

-- | Returns the cursor type for this cursor.
--   
--   <i>Since: 2.22</i>
cursorGetCursorType :: (HasCallStack, MonadIO m, IsCursor a) => a -> m CursorType

-- | Returns the display on which the <a>Cursor</a> is defined.
--   
--   <i>Since: 2.2</i>
cursorGetDisplay :: (HasCallStack, MonadIO m, IsCursor a) => a -> m Display

-- | Returns a <a>Pixbuf</a> with the image used to display the cursor.
--   
--   Note that depending on the capabilities of the windowing system and on
--   the cursor, GDK may not be able to obtain the image data. In this
--   case, <a>Nothing</a> is returned.
--   
--   <i>Since: 2.8</i>
cursorGetImage :: (HasCallStack, MonadIO m, IsCursor a) => a -> m (Maybe Pixbuf)

-- | Returns a cairo image surface with the image used to display the
--   cursor.
--   
--   Note that depending on the capabilities of the windowing system and on
--   the cursor, GDK may not be able to obtain the image data. In this
--   case, <a>Nothing</a> is returned.
--   
--   <i>Since: 3.10</i>
cursorGetSurface :: (HasCallStack, MonadIO m, IsCursor a) => a -> m (Maybe Surface, Double, Double)

-- | Creates a new cursor from the set of builtin cursors for the default
--   display. See <a>cursorNewForDisplay</a>.
--   
--   To make the cursor invisible, use <a>CursorTypeBlankCursor</a>.

-- | <i>Deprecated: (Since version 3.16)Use <a>cursorNewForDisplay</a>
--   instead.</i>
cursorNew :: (HasCallStack, MonadIO m) => CursorType -> m Cursor

-- | Creates a new cursor from the set of builtin cursors.
--   
--   <i>Since: 2.2</i>
cursorNewForDisplay :: (HasCallStack, MonadIO m, IsDisplay a) => a -> CursorType -> m (Maybe Cursor)

-- | Creates a new cursor by looking up <i><tt>name</tt></i> in the current
--   cursor theme.
--   
--   A recommended set of cursor names that will work across different
--   platforms can be found in the CSS specification:
--   
--   <ul>
--   <li>"none"</li>
--   <li>"default"</li>
--   <li>"help"</li>
--   <li>"pointer"</li>
--   <li>"context-menu"</li>
--   <li>"progress"</li>
--   <li>"wait"</li>
--   <li>"cell"</li>
--   <li>"crosshair"</li>
--   <li>"text"</li>
--   <li>"vertical-text"</li>
--   <li>"alias"</li>
--   <li>"copy"</li>
--   <li>"no-drop"</li>
--   <li>"move"</li>
--   <li>"not-allowed"</li>
--   <li>"grab"</li>
--   <li>"grabbing"</li>
--   <li>"all-scroll"</li>
--   <li>"col-resize"</li>
--   <li>"row-resize"</li>
--   <li>"n-resize"</li>
--   <li>"e-resize"</li>
--   <li>"s-resize"</li>
--   <li>"w-resize"</li>
--   <li>"ne-resize"</li>
--   <li>"nw-resize"</li>
--   <li>"sw-resize"</li>
--   <li>"se-resize"</li>
--   <li>"ew-resize"</li>
--   <li>"ns-resize"</li>
--   <li>"nesw-resize"</li>
--   <li>"nwse-resize"</li>
--   <li>"zoom-in"</li>
--   <li>"zoom-out"</li>
--   </ul>
--   
--   <i>Since: 2.8</i>
cursorNewFromName :: (HasCallStack, MonadIO m, IsDisplay a) => a -> Text -> m (Maybe Cursor)

-- | Creates a new cursor from a pixbuf.
--   
--   Not all GDK backends support RGBA cursors. If they are not supported,
--   a monochrome approximation will be displayed. The functions
--   <a>displaySupportsCursorAlpha</a> and
--   <a>displaySupportsCursorColor</a> can be used to determine whether
--   RGBA cursors are supported; <a>displayGetDefaultCursorSize</a> and
--   <a>displayGetMaximalCursorSize</a> give information about cursor
--   sizes.
--   
--   If <i><tt>x</tt></i> or <i><tt>y</tt></i> are <tt>-1</tt>, the pixbuf
--   must have options named “x_hot” and “y_hot”, resp., containing integer
--   values between <tt>0</tt> and the width resp. height of the pixbuf.
--   (Since: 3.0)
--   
--   On the X backend, support for RGBA cursors requires a sufficently new
--   version of the X Render extension.
--   
--   <i>Since: 2.4</i>
cursorNewFromPixbuf :: (HasCallStack, MonadIO m, IsDisplay a, IsPixbuf b) => a -> b -> Int32 -> Int32 -> m Cursor

-- | Creates a new cursor from a cairo image surface.
--   
--   Not all GDK backends support RGBA cursors. If they are not supported,
--   a monochrome approximation will be displayed. The functions
--   <a>displaySupportsCursorAlpha</a> and
--   <a>displaySupportsCursorColor</a> can be used to determine whether
--   RGBA cursors are supported; <a>displayGetDefaultCursorSize</a> and
--   <a>displayGetMaximalCursorSize</a> give information about cursor
--   sizes.
--   
--   On the X backend, support for RGBA cursors requires a sufficently new
--   version of the X Render extension.
--   
--   <i>Since: 3.10</i>
cursorNewFromSurface :: (HasCallStack, MonadIO m, IsDisplay a) => a -> Surface -> Double -> Double -> m Cursor

-- | Adds a reference to <i><tt>cursor</tt></i>.

-- | <i>Deprecated: (Since version 3.0)Use <a>objectRef</a> instead</i>
cursorRef :: (HasCallStack, MonadIO m, IsCursor a) => a -> m Cursor

-- | Removes a reference from <i><tt>cursor</tt></i>, deallocating the
--   cursor if no references remain.

-- | <i>Deprecated: (Since version 3.0)Use <a>objectUnref</a> instead</i>
cursorUnref :: (HasCallStack, MonadIO m, IsCursor a) => a -> m ()

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>cursor-type</tt>” property. This is rarely needed directly, but
--   it is used by <a>new</a>.
constructCursorCursorType :: (IsCursor o, MonadIO m) => CursorType -> m (GValueConstruct o)

-- | Get the value of the “<tt>cursor-type</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> cursor #cursorType
--   </pre>
getCursorCursorType :: (MonadIO m, IsCursor o) => o -> m CursorType

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>display</tt>” property. This is rarely needed directly, but it is
--   used by <a>new</a>.
constructCursorDisplay :: (IsCursor o, MonadIO m, IsDisplay a) => a -> m (GValueConstruct o)

-- | Get the value of the “<tt>display</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> cursor #display
--   </pre>
getCursorDisplay :: (MonadIO m, IsCursor o) => o -> m Display
instance GHC.Classes.Eq GI.Gdk.Objects.Cursor.Cursor
instance (Data.GI.Base.BasicTypes.GObject o, Data.GI.Base.Overloading.IsDescendantOf GI.Gdk.Objects.Cursor.Cursor o) => GI.Gdk.Objects.Cursor.IsCursor o
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Objects.Cursor.Cursor
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Objects.Cursor.Cursor
instance Data.GI.Base.BasicTypes.GObject GI.Gdk.Objects.Cursor.Cursor
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Objects.Cursor.Cursor
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Objects.Cursor.Cursor)


-- | GdkAppLaunchContext is an implementation of <a>AppLaunchContext</a>
--   that handles launching an application in a graphical context. It
--   provides startup notification and allows to launch applications on a
--   specific screen or workspace.
--   
--   <h2>Launching an application</h2>
--   
--   <h3><i>C code</i></h3>
--   
--   <pre>
--   GdkAppLaunchContext *context;
--   
--   context = gdk_display_get_app_launch_context (display);
--   
--   gdk_app_launch_context_set_screen (screen);
--   gdk_app_launch_context_set_timestamp (event-&gt;time);
--   
--   if (!g_app_info_launch_default_for_uri ("http://www.gtk.org", context, &amp;error))
--     g_warning ("Launching failed: %s\n", error-&gt;message);
--   
--   g_object_unref (context);
--   </pre>
module GI.Gdk.Objects.AppLaunchContext

-- | Memory-managed wrapper type.
newtype AppLaunchContext
AppLaunchContext :: ManagedPtr AppLaunchContext -> AppLaunchContext

-- | Type class for types which can be safely cast to
--   <a>AppLaunchContext</a>, for instance with <a>toAppLaunchContext</a>.
class (GObject o, IsDescendantOf AppLaunchContext o) => IsAppLaunchContext o

-- | Cast to <a>AppLaunchContext</a>, for types for which this is known to
--   be safe. For general casts, use <a>castTo</a>.
toAppLaunchContext :: (MonadIO m, IsAppLaunchContext o) => o -> m AppLaunchContext

-- | Creates a new <a>AppLaunchContext</a>.
--   
--   <i>Since: 2.14</i>

-- | <i>Deprecated: (Since version 3.0)Use
--   <a>displayGetAppLaunchContext</a> instead</i>
appLaunchContextNew :: (HasCallStack, MonadIO m) => m AppLaunchContext

-- | Sets the workspace on which applications will be launched when using
--   this context when running under a window manager that supports
--   multiple workspaces, as described in the <a>Extended Window Manager
--   Hints</a>.
--   
--   When the workspace is not specified or <i><tt>desktop</tt></i> is set
--   to -1, it is up to the window manager to pick one, typically it will
--   be the current workspace.
--   
--   <i>Since: 2.14</i>
appLaunchContextSetDesktop :: (HasCallStack, MonadIO m, IsAppLaunchContext a) => a -> Int32 -> m ()

-- | Sets the display on which applications will be launched when using
--   this context. See also <a>appLaunchContextSetScreen</a>.
--   
--   <i>Since: 2.14</i>

-- | <i>Deprecated: (Since version 3.0)Use
--   <a>displayGetAppLaunchContext</a> instead</i>
appLaunchContextSetDisplay :: (HasCallStack, MonadIO m, IsAppLaunchContext a, IsDisplay b) => a -> b -> m ()

-- | Sets the icon for applications that are launched with this context.
--   
--   Window Managers can use this information when displaying startup
--   notification.
--   
--   See also <a>appLaunchContextSetIconName</a>.
--   
--   <i>Since: 2.14</i>
appLaunchContextSetIcon :: (HasCallStack, MonadIO m, IsAppLaunchContext a, IsIcon b) => a -> Maybe b -> m ()

-- | Sets the icon for applications that are launched with this context.
--   The <i><tt>iconName</tt></i> will be interpreted in the same way as
--   the Icon field in desktop files. See also
--   <a>appLaunchContextSetIcon</a>.
--   
--   If both <i><tt>icon</tt></i> and <i><tt>iconName</tt></i> are set, the
--   <i><tt>iconName</tt></i> takes priority. If neither
--   <i><tt>icon</tt></i> or <i><tt>iconName</tt></i> is set, the icon is
--   taken from either the file that is passed to launched application or
--   from the <a>AppInfo</a> for the launched application itself.
--   
--   <i>Since: 2.14</i>
appLaunchContextSetIconName :: (HasCallStack, MonadIO m, IsAppLaunchContext a) => a -> Maybe Text -> m ()

-- | Sets the screen on which applications will be launched when using this
--   context. See also <a>appLaunchContextSetDisplay</a>.
--   
--   Note that, typically, a <a>Screen</a> represents a logical screen, not
--   a physical monitor.
--   
--   If both <i><tt>screen</tt></i> and <i><tt>display</tt></i> are set,
--   the <i><tt>screen</tt></i> takes priority. If neither
--   <i><tt>screen</tt></i> or <i><tt>display</tt></i> are set, the default
--   screen and display are used.
--   
--   <i>Since: 2.14</i>
appLaunchContextSetScreen :: (HasCallStack, MonadIO m, IsAppLaunchContext a, IsScreen b) => a -> b -> m ()

-- | Sets the timestamp of <i><tt>context</tt></i>. The timestamp should
--   ideally be taken from the event that triggered the launch.
--   
--   Window managers can use this information to avoid moving the focus to
--   the newly launched application when the user is busy typing in another
--   window. This is also known as 'focus stealing prevention'.
--   
--   <i>Since: 2.14</i>
appLaunchContextSetTimestamp :: (HasCallStack, MonadIO m, IsAppLaunchContext a) => a -> Word32 -> m ()

-- | Construct a <a>GValueConstruct</a> with valid value for the
--   “<tt>display</tt>” property. This is rarely needed directly, but it is
--   used by <a>new</a>.
constructAppLaunchContextDisplay :: (IsAppLaunchContext o, MonadIO m, IsDisplay a) => a -> m (GValueConstruct o)

-- | Get the value of the “<tt>display</tt>” property. When
--   <a>overloading</a> is enabled, this is equivalent to
--   
--   <pre>
--   <a>get</a> appLaunchContext #display
--   </pre>
getAppLaunchContextDisplay :: (MonadIO m, IsAppLaunchContext o) => o -> m (Maybe Display)
instance GHC.Classes.Eq GI.Gdk.Objects.AppLaunchContext.AppLaunchContext
instance (Data.GI.Base.BasicTypes.GObject o, Data.GI.Base.Overloading.IsDescendantOf GI.Gdk.Objects.AppLaunchContext.AppLaunchContext o) => GI.Gdk.Objects.AppLaunchContext.IsAppLaunchContext o
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Objects.AppLaunchContext.AppLaunchContext
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Objects.AppLaunchContext.AppLaunchContext
instance Data.GI.Base.BasicTypes.GObject GI.Gdk.Objects.AppLaunchContext.AppLaunchContext
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Objects.AppLaunchContext.AppLaunchContext
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Objects.AppLaunchContext.AppLaunchContext)


module GI.Gdk.Objects


-- | <a>DevicePad</a> is an interface implemented by devices of type
--   <a>InputSourceTabletPad</a>, it allows querying the features provided
--   by the pad device.
--   
--   Tablet pads may contain one or more groups, each containing a subset
--   of the buttons/rings/strips available. <a>devicePadGetNGroups</a> can
--   be used to obtain the number of groups, <a>devicePadGetNFeatures</a>
--   and <a>devicePadGetFeatureGroup</a> can be combined to find out the
--   number of buttons/rings/strips the device has, and how are they
--   grouped.
--   
--   Each of those groups have different modes, which may be used to map
--   each individual pad feature to multiple actions. Only one mode is
--   effective (current) for each given group, different groups may have
--   different current modes. The number of available modes in a group can
--   be found out through <a>devicePadGetGroupNModes</a>, and the current
--   mode for a given group will be notified through the
--   <a>EventPadGroupMode</a> event.
module GI.Gdk.Interfaces.DevicePad

-- | Memory-managed wrapper type.
newtype DevicePad
DevicePad :: ManagedPtr DevicePad -> DevicePad

-- | Type class for types which can be safely cast to <a>DevicePad</a>, for
--   instance with <a>toDevicePad</a>.
class (GObject o, IsDescendantOf DevicePad o) => IsDevicePad o

-- | Cast to <a>DevicePad</a>, for types for which this is known to be
--   safe. For general casts, use <a>castTo</a>.
toDevicePad :: (MonadIO m, IsDevicePad o) => o -> m DevicePad

-- | Returns the group the given <i><tt>feature</tt></i> and
--   <i><tt>idx</tt></i> belong to, or -1 if feature/index do not exist in
--   <i><tt>pad</tt></i>.
--   
--   <i>Since: 3.22</i>
devicePadGetFeatureGroup :: (HasCallStack, MonadIO m, IsDevicePad a) => a -> DevicePadFeature -> Int32 -> m Int32

-- | Returns the number of modes that <i><tt>group</tt></i> may have.
--   
--   <i>Since: 3.22</i>
devicePadGetGroupNModes :: (HasCallStack, MonadIO m, IsDevicePad a) => a -> Int32 -> m Int32

-- | Returns the number of features a tablet pad has.
--   
--   <i>Since: 3.22</i>
devicePadGetNFeatures :: (HasCallStack, MonadIO m, IsDevicePad a) => a -> DevicePadFeature -> m Int32

-- | Returns the number of groups this pad device has. Pads have at least
--   one group. A pad group is a subcollection of buttons/strip/rings that
--   is affected collectively by a same current mode.
--   
--   <i>Since: 3.22</i>
devicePadGetNGroups :: (HasCallStack, MonadIO m, IsDevicePad a) => a -> m Int32
instance GHC.Classes.Eq GI.Gdk.Interfaces.DevicePad.DevicePad
instance (Data.GI.Base.BasicTypes.GObject o, Data.GI.Base.Overloading.IsDescendantOf GI.Gdk.Interfaces.DevicePad.DevicePad o) => GI.Gdk.Interfaces.DevicePad.IsDevicePad o
instance Data.GI.Base.BasicTypes.ManagedPtrNewtype GI.Gdk.Interfaces.DevicePad.DevicePad
instance Data.GI.Base.BasicTypes.TypedObject GI.Gdk.Interfaces.DevicePad.DevicePad
instance Data.GI.Base.BasicTypes.GObject GI.Gdk.Interfaces.DevicePad.DevicePad
instance Data.GI.Base.Overloading.HasParentTypes GI.Gdk.Interfaces.DevicePad.DevicePad
instance Data.GI.Base.GValue.IsGValue (GHC.Maybe.Maybe GI.Gdk.Interfaces.DevicePad.DevicePad)


module GI.Gdk.Interfaces


module GI.Gdk.Functions

-- | Appends gdk option entries to the passed in option group. This is not
--   public API and must not be used by applications.

-- | <i>Deprecated: (Since version 3.16)This symbol was never meant to be
--   used outside of GTK+</i>
addOptionEntriesLibgtkOnly :: (HasCallStack, MonadIO m) => OptionGroup -> m ()

-- | Emits a short beep on the default display.
beep :: (HasCallStack, MonadIO m) => m ()

-- | Creates a Cairo context for drawing to <i><tt>window</tt></i>.
--   
--   Note that calling <tt><i>cairo_reset_clip()</i></tt> on the resulting
--   <a>Context</a> will produce undefined results, so avoid it at all
--   costs.
--   
--   Typically, this function is used to draw on a <a>Window</a> out of the
--   paint cycle of the toolkit; this should be avoided, as it breaks
--   various assumptions and optimizations.
--   
--   If you are drawing on a native <a>Window</a> in response to a
--   <a>EventTypeExpose</a> event you should use
--   <a>windowBeginDrawFrame</a> and <a>drawingContextGetCairoContext</a>
--   instead. GTK will automatically do this for you when drawing a widget.
--   
--   <i>Since: 2.8</i>

-- | <i>Deprecated: (Since version 3.22)Use <a>windowBeginDrawFrame</a> and
--   <a>drawingContextGetCairoContext</a> instead</i>
cairoCreate :: (HasCallStack, MonadIO m, IsWindow a) => a -> m Context

-- | This is the main way to draw GL content in GTK+. It takes a render
--   buffer ID (<i><tt>sourceType</tt></i> ==
--   <tt><i>GL_RENDERBUFFER</i></tt>) or a texture id
--   (<i><tt>sourceType</tt></i> == <tt><i>GL_TEXTURE</i></tt>) and draws
--   it onto <i><tt>cr</tt></i> with an OVER operation, respecting the
--   current clip. The top left corner of the rectangle specified by
--   <i><tt>x</tt></i>, <i><tt>y</tt></i>, <i><tt>width</tt></i> and
--   <i><tt>height</tt></i> will be drawn at the current (0,0) position of
--   the cairo_t.
--   
--   This will work for *all* cairo_t, as long as <i><tt>window</tt></i> is
--   realized, but the fallback implementation that reads back the pixels
--   from the buffer may be used in the general case. In the case of direct
--   drawing to a window with no special effects applied to
--   <i><tt>cr</tt></i> it will however use a more efficient approach.
--   
--   For <tt><i>GL_RENDERBUFFER</i></tt> the code will always fall back to
--   software for buffers with alpha components, so make sure you use
--   <tt><i>GL_TEXTURE</i></tt> if using alpha.
--   
--   Calling this may change the current GL context.
--   
--   <i>Since: 3.16</i>
cairoDrawFromGl :: (HasCallStack, MonadIO m, IsWindow a) => Context -> a -> Int32 -> Int32 -> Int32 -> Int32 -> Int32 -> Int32 -> Int32 -> m ()

-- | This is a convenience function around
--   <tt><i>cairo_clip_extents()</i></tt>. It rounds the clip extents to
--   integer coordinates and returns a boolean indicating if a clip area
--   exists.
cairoGetClipRectangle :: (HasCallStack, MonadIO m) => Context -> m (Bool, Rectangle)

-- | Retrieves the <a>DrawingContext</a> that created the Cairo context
--   <i><tt>cr</tt></i>.
--   
--   <i>Since: 3.22</i>
cairoGetDrawingContext :: (HasCallStack, MonadIO m) => Context -> m (Maybe DrawingContext)

-- | Adds the given rectangle to the current path of <i><tt>cr</tt></i>.
--   
--   <i>Since: 2.8</i>
cairoRectangle :: (HasCallStack, MonadIO m) => Context -> Rectangle -> m ()

-- | Adds the given region to the current path of <i><tt>cr</tt></i>.
--   
--   <i>Since: 2.8</i>
cairoRegion :: (HasCallStack, MonadIO m) => Context -> Region -> m ()

-- | Creates region that describes covers the area where the given
--   <i><tt>surface</tt></i> is more than 50% opaque.
--   
--   This function takes into account device offsets that might be set with
--   <tt><i>cairo_surface_set_device_offset()</i></tt>.
cairoRegionCreateFromSurface :: (HasCallStack, MonadIO m) => Surface -> m Region

-- | Sets the specified <a>Color</a> as the source color of
--   <i><tt>cr</tt></i>.
--   
--   <i>Since: 2.8</i>

-- | <i>Deprecated: (Since version 3.4)Use <a>cairoSetSourceRgba</a>
--   instead</i>
cairoSetSourceColor :: (HasCallStack, MonadIO m) => Context -> Color -> m ()

-- | Sets the given pixbuf as the source pattern for <i><tt>cr</tt></i>.
--   
--   The pattern has an extend mode of <a>ExtendNone</a> and is aligned so
--   that the origin of <i><tt>pixbuf</tt></i> is <i><tt>pixbufX</tt></i>,
--   <i><tt>pixbufY</tt></i>.
--   
--   <i>Since: 2.8</i>
cairoSetSourcePixbuf :: (HasCallStack, MonadIO m, IsPixbuf a) => Context -> a -> Double -> Double -> m ()

-- | Sets the specified <a>RGBA</a> as the source color of
--   <i><tt>cr</tt></i>.
--   
--   <i>Since: 3.0</i>
cairoSetSourceRgba :: (HasCallStack, MonadIO m) => Context -> RGBA -> m ()

-- | Sets the given window as the source pattern for <i><tt>cr</tt></i>.
--   
--   The pattern has an extend mode of <a>ExtendNone</a> and is aligned so
--   that the origin of <i><tt>window</tt></i> is <i><tt>x</tt></i>,
--   <i><tt>y</tt></i>. The window contains all its subwindows when
--   rendering.
--   
--   Note that the contents of <i><tt>window</tt></i> are undefined outside
--   of the visible part of <i><tt>window</tt></i>, so use this function
--   with care.
--   
--   <i>Since: 2.24</i>
cairoSetSourceWindow :: (HasCallStack, MonadIO m, IsWindow a) => Context -> a -> Double -> Double -> m ()

-- | Creates an image surface with the same contents as the pixbuf.
--   
--   <i>Since: 3.10</i>
cairoSurfaceCreateFromPixbuf :: (HasCallStack, MonadIO m, IsPixbuf a, IsWindow b) => a -> Int32 -> Maybe b -> m Surface

-- | Disables multidevice support in GDK. This call must happen prior to
--   <a>displayOpen</a>, <tt><i>gtk_init()</i></tt>,
--   <tt><i>gtk_init_with_args()</i></tt> or
--   <tt><i>gtk_init_check()</i></tt> in order to take effect.
--   
--   Most common GTK+ applications won’t ever need to call this. Only
--   applications that do mixed GDK/Xlib calls could want to disable
--   multidevice support if such Xlib code deals with input devices in any
--   way and doesn’t observe the presence of XInput 2.
--   
--   <i>Since: 3.0</i>
disableMultidevice :: (HasCallStack, MonadIO m) => m ()

-- | Aborts a drag without dropping.
--   
--   This function is called by the drag source.
--   
--   This function does not need to be called in managed drag and drop
--   operations. See <a>dragContextManageDnd</a> for more information.
dragAbort :: (HasCallStack, MonadIO m, IsDragContext a) => a -> Word32 -> m ()

-- | Starts a drag and creates a new drag context for it. This function
--   assumes that the drag is controlled by the client pointer device, use
--   <a>dragBeginForDevice</a> to begin a drag with a different device.
--   
--   This function is called by the drag source.
dragBegin :: (HasCallStack, MonadIO m, IsWindow a) => a -> [Atom] -> m DragContext

-- | Starts a drag and creates a new drag context for it.
--   
--   This function is called by the drag source.
dragBeginForDevice :: (HasCallStack, MonadIO m, IsWindow a, IsDevice b) => a -> b -> [Atom] -> m DragContext

-- | Starts a drag and creates a new drag context for it.
--   
--   This function is called by the drag source.
--   
--   <i>Since: 3.20</i>
dragBeginFromPoint :: (HasCallStack, MonadIO m, IsWindow a, IsDevice b) => a -> b -> [Atom] -> Int32 -> Int32 -> m DragContext

-- | Drops on the current destination.
--   
--   This function is called by the drag source.
--   
--   This function does not need to be called in managed drag and drop
--   operations. See <a>dragContextManageDnd</a> for more information.
dragDrop :: (HasCallStack, MonadIO m, IsDragContext a) => a -> Word32 -> m ()

-- | Inform GDK if the drop ended successfully. Passing <a>False</a> for
--   <i><tt>success</tt></i> may trigger a drag cancellation animation.
--   
--   This function is called by the drag source, and should be the last
--   call before dropping the reference to the <i><tt>context</tt></i>.
--   
--   The <a>DragContext</a> will only take the first <a>dragDropDone</a>
--   call as effective, if this function is called multiple times, all
--   subsequent calls will be ignored.
--   
--   <i>Since: 3.20</i>
dragDropDone :: (HasCallStack, MonadIO m, IsDragContext a) => a -> Bool -> m ()

-- | Returns whether the dropped data has been successfully transferred.
--   This function is intended to be used while handling a
--   <a>EventTypeDropFinished</a> event, its return value is meaningless at
--   other times.
--   
--   <i>Since: 2.6</i>
dragDropSucceeded :: (HasCallStack, MonadIO m, IsDragContext a) => a -> m Bool

-- | Finds the destination window and DND protocol to use at the given
--   pointer position.
--   
--   This function is called by the drag source to obtain the
--   <i><tt>destWindow</tt></i> and <i><tt>protocol</tt></i> parameters for
--   <a>dragMotion</a>.
--   
--   <i>Since: 2.2</i>
dragFindWindowForScreen :: (HasCallStack, MonadIO m, IsDragContext a, IsWindow b, IsScreen c) => a -> b -> c -> Int32 -> Int32 -> m (Window, DragProtocol)

-- | Returns the selection atom for the current source window.
dragGetSelection :: (HasCallStack, MonadIO m, IsDragContext a) => a -> m Atom

-- | Updates the drag context when the pointer moves or the set of actions
--   changes.
--   
--   This function is called by the drag source.
--   
--   This function does not need to be called in managed drag and drop
--   operations. See <a>dragContextManageDnd</a> for more information.
dragMotion :: (HasCallStack, MonadIO m, IsDragContext a, IsWindow b) => a -> b -> DragProtocol -> Int32 -> Int32 -> [DragAction] -> [DragAction] -> Word32 -> m Bool

-- | Selects one of the actions offered by the drag source.
--   
--   This function is called by the drag destination in response to
--   <a>dragMotion</a> called by the drag source.
dragStatus :: (HasCallStack, MonadIO m, IsDragContext a) => a -> [DragAction] -> Word32 -> m ()

-- | Ends the drag operation after a drop.
--   
--   This function is called by the drag destination.
dropFinish :: (HasCallStack, MonadIO m, IsDragContext a) => a -> Bool -> Word32 -> m ()

-- | Accepts or rejects a drop.
--   
--   This function is called by the drag destination in response to a drop
--   initiated by the drag source.
dropReply :: (HasCallStack, MonadIO m, IsDragContext a) => a -> Bool -> Word32 -> m ()

-- | Removes an error trap pushed with <a>errorTrapPush</a>. May block
--   until an error has been definitively received or not received from the
--   X server. <a>errorTrapPopIgnored</a> is preferred if you don’t need to
--   know whether an error occurred, because it never has to block. If you
--   don't need the return value of <a>errorTrapPop</a>, use
--   <a>errorTrapPopIgnored</a>.
--   
--   Prior to GDK 3.0, this function would not automatically sync for you,
--   so you had to <a>flush</a> if your last call to Xlib was not a
--   blocking round trip.
errorTrapPop :: (HasCallStack, MonadIO m) => m Int32

-- | Removes an error trap pushed with <a>errorTrapPush</a>, but without
--   bothering to wait and see whether an error occurred. If an error
--   arrives later asynchronously that was triggered while the trap was
--   pushed, that error will be ignored.
--   
--   <i>Since: 3.0</i>
errorTrapPopIgnored :: (HasCallStack, MonadIO m) => m ()

-- | This function allows X errors to be trapped instead of the normal
--   behavior of exiting the application. It should only be used if it is
--   not possible to avoid the X error in any other way. Errors are ignored
--   on all <a>Display</a> currently known to the <a>DisplayManager</a>. If
--   you don’t care which error happens and just want to ignore everything,
--   pop with <a>errorTrapPopIgnored</a>. If you need the error code, use
--   <a>errorTrapPop</a> which may have to block and wait for the error to
--   arrive from the X server.
--   
--   This API exists on all platforms but only does anything on X.
--   
--   You can use <tt><i>gdk_x11_display_error_trap_push()</i></tt> to
--   ignore errors on only a single display.
--   
--   <h2>Trapping an X error</h2>
--   
--   <h3><i>C code</i></h3>
--   
--   <pre>
--   gdk_error_trap_push ();
--   
--    // ... Call the X function which may cause an error here ...
--   
--   
--   if (gdk_error_trap_pop ())
--    {
--      // ... Handle the error here ...
--    }
--   </pre>
errorTrapPush :: (HasCallStack, MonadIO m) => m ()

-- | If both events contain X/Y information, this function will return
--   <a>True</a> and return in <i><tt>angle</tt></i> the relative angle
--   from <i><tt>event1</tt></i> to <i><tt>event2</tt></i>. The rotation
--   direction for positive angles is from the positive X axis towards the
--   positive Y axis.
--   
--   <i>Since: 3.0</i>
eventsGetAngle :: (HasCallStack, MonadIO m) => Event -> Event -> m (Bool, Double)

-- | If both events contain X/Y information, the center of both coordinates
--   will be returned in <i><tt>x</tt></i> and <i><tt>y</tt></i>.
--   
--   <i>Since: 3.0</i>
eventsGetCenter :: (HasCallStack, MonadIO m) => Event -> Event -> m (Bool, Double, Double)

-- | If both events have X/Y information, the distance between both
--   coordinates (as in a straight line going from <i><tt>event1</tt></i>
--   to <i><tt>event2</tt></i>) will be returned.
--   
--   <i>Since: 3.0</i>
eventsGetDistance :: (HasCallStack, MonadIO m) => Event -> Event -> m (Bool, Double)

-- | Checks if any events are ready to be processed for any display.
eventsPending :: (HasCallStack, MonadIO m) => m Bool

-- | Flushes the output buffers of all display connections and waits until
--   all requests have been processed. This is rarely needed by
--   applications.
flush :: (HasCallStack, MonadIO m) => m ()

-- | Obtains the root window (parent all other windows are inside) for the
--   default display and screen.
getDefaultRootWindow :: (HasCallStack, MonadIO m) => m Window

-- | Gets the name of the display, which usually comes from the
--   <tt>DISPLAY</tt> environment variable or the <tt>--display</tt>
--   command line option.

-- | <i>Deprecated: (Since version 3.8)Call gdk_display_get_name
--   (gdk_display_get_default ())) instead.</i>
getDisplay :: (HasCallStack, MonadIO m) => m Text

-- | Gets the display name specified in the command line arguments passed
--   to <a>init</a> or <a>parseArgs</a>, if any.
--   
--   <i>Since: 2.2</i>
getDisplayArgName :: (HasCallStack, MonadIO m) => m (Maybe Text)

-- | Gets the program class. Unless the program class has explicitly been
--   set with <a>setProgramClass</a> or with the <tt>--class</tt>
--   commandline option, the default value is the program name (determined
--   with <a>getPrgname</a>) with the first character converted to
--   uppercase.
getProgramClass :: (HasCallStack, MonadIO m) => m Text

-- | Gets whether event debugging output is enabled.
getShowEvents :: (HasCallStack, MonadIO m) => m Bool

-- | Initializes the GDK library and connects to the windowing system. If
--   initialization fails, a warning message is output and the application
--   terminates with a call to <tt>exit(1)</tt>.
--   
--   Any arguments used by GDK are removed from the array and
--   <i><tt>argc</tt></i> and <i><tt>argv</tt></i> are updated accordingly.
--   
--   GTK+ initializes GDK in <tt><i>gtk_init()</i></tt> and so this
--   function is not usually needed by GTK+ applications.
init :: (HasCallStack, MonadIO m) => [Text] -> m [Text]

-- | Initializes the GDK library and connects to the windowing system,
--   returning <a>True</a> on success.
--   
--   Any arguments used by GDK are removed from the array and
--   <i><tt>argc</tt></i> and <i><tt>argv</tt></i> are updated accordingly.
--   
--   GTK+ initializes GDK in <tt><i>gtk_init()</i></tt> and so this
--   function is not usually needed by GTK+ applications.
initCheck :: (HasCallStack, MonadIO m) => [Text] -> m (Bool, [Text])

-- | Grabs the keyboard so that all events are passed to this application
--   until the keyboard is ungrabbed with <a>keyboardUngrab</a>. This
--   overrides any previous keyboard grab by this client.
--   
--   If you set up anything at the time you take the grab that needs to be
--   cleaned up when the grab ends, you should handle the
--   <a>EventGrabBroken</a> events that are emitted when the grab ends
--   unvoluntarily.

-- | <i>Deprecated: (Since version 3.0)Use <a>deviceGrab</a> instead.</i>
keyboardGrab :: (HasCallStack, MonadIO m, IsWindow a) => a -> Bool -> Word32 -> m GrabStatus

-- | Ungrabs the keyboard on the default display, if it is grabbed by this
--   application.

-- | <i>Deprecated: (Since version 3.0)Use <a>deviceUngrab</a>, together
--   with <a>deviceGrab</a> instead.</i>
keyboardUngrab :: (HasCallStack, MonadIO m) => Word32 -> m ()

-- | Obtains the upper- and lower-case versions of the keyval
--   <i><tt>symbol</tt></i>. Examples of keyvals are <a>KEY_a</a>,
--   <tt><i>GDK_KEY_Enter</i></tt>, <a>KEY_F1</a>, etc.
keyvalConvertCase :: (HasCallStack, MonadIO m) => Word32 -> m (Word32, Word32)

-- | Converts a key name to a key value.
--   
--   The names are the same as those in the <tt>gdk/gdkkeysyms.h</tt>
--   header file but without the leading “GDK_KEY_”.
keyvalFromName :: (HasCallStack, MonadIO m) => Text -> m Word32

-- | Returns <a>True</a> if the given key value is in lower case.
keyvalIsLower :: (HasCallStack, MonadIO m) => Word32 -> m Bool

-- | Returns <a>True</a> if the given key value is in upper case.
keyvalIsUpper :: (HasCallStack, MonadIO m) => Word32 -> m Bool

-- | Converts a key value into a symbolic name.
--   
--   The names are the same as those in the <tt>gdk/gdkkeysyms.h</tt>
--   header file but without the leading “GDK_KEY_”.
keyvalName :: (HasCallStack, MonadIO m) => Word32 -> m (Maybe Text)

-- | Converts a key value to lower case, if applicable.
keyvalToLower :: (HasCallStack, MonadIO m) => Word32 -> m Word32

-- | Convert from a GDK key symbol to the corresponding ISO10646 (Unicode)
--   character.
keyvalToUnicode :: (HasCallStack, MonadIO m) => Word32 -> m Word32

-- | Converts a key value to upper case, if applicable.
keyvalToUpper :: (HasCallStack, MonadIO m) => Word32 -> m Word32

-- | Lists the available visuals for the default screen. (See
--   <a>screenListVisuals</a>) A visual describes a hardware image data
--   format. For example, a visual might support 24-bit color, or 8-bit
--   color, and might expect pixels to be in a certain format.
--   
--   Call <tt><i>g_list_free()</i></tt> on the return value when you’re
--   finished with it.

-- | <i>Deprecated: (Since version 3.22)Use gdk_screen_list_visuals
--   (gdk_screen_get_default ()).</i>
listVisuals :: (HasCallStack, MonadIO m) => m [Visual]

-- | Indicates to the GUI environment that the application has finished
--   loading. If the applications opens windows, this function is normally
--   called after opening the application’s initial set of windows.
--   
--   GTK+ will call this function automatically after opening the first
--   <tt><i>GtkWindow</i></tt> unless
--   <tt><i>gtk_window_set_auto_startup_notification()</i></tt> is called
--   to disable that feature.
--   
--   <i>Since: 2.2</i>
notifyStartupComplete :: (HasCallStack, MonadIO m) => m ()

-- | Indicates to the GUI environment that the application has finished
--   loading, using a given identifier.
--   
--   GTK+ will call this function automatically for
--   <tt><i>GtkWindow</i></tt> with custom startup-notification identifier
--   unless <tt><i>gtk_window_set_auto_startup_notification()</i></tt> is
--   called to disable that feature.
--   
--   <i>Since: 2.12</i>
notifyStartupCompleteWithId :: (HasCallStack, MonadIO m) => Text -> m ()

-- | Gets the window that <i><tt>window</tt></i> is embedded in.
--   
--   <i>Since: 2.18</i>
offscreenWindowGetEmbedder :: (HasCallStack, MonadIO m, IsWindow a) => a -> m (Maybe Window)

-- | Gets the offscreen surface that an offscreen window renders into. If
--   you need to keep this around over window resizes, you need to add a
--   reference to it.
offscreenWindowGetSurface :: (HasCallStack, MonadIO m, IsWindow a) => a -> m (Maybe Surface)

-- | Sets <i><tt>window</tt></i> to be embedded in
--   <i><tt>embedder</tt></i>.
--   
--   To fully embed an offscreen window, in addition to calling this
--   function, it is also necessary to handle the
--   <a>Window::pickEmbeddedChild</a> signal on the
--   <i><tt>embedder</tt></i> and the <a>Window::toEmbedder</a> and
--   <a>Window::fromEmbedder</a> signals on <i><tt>window</tt></i>.
--   
--   <i>Since: 2.18</i>
offscreenWindowSetEmbedder :: (HasCallStack, MonadIO m, IsWindow a, IsWindow b) => a -> b -> m ()

-- | Creates a <a>Context</a> for the default GDK screen.
--   
--   The context must be freed when you’re finished with it.
--   
--   When using GTK+, normally you should use
--   <tt><i>gtk_widget_get_pango_context()</i></tt> instead of this
--   function, to get the appropriate context for the widget you intend to
--   render text onto.
--   
--   The newly created context will have the default font options (see
--   <a>FontOptions</a>) for the default screen; if these options change it
--   will not be updated. Using
--   <tt><i>gtk_widget_get_pango_context()</i></tt> is more convenient if
--   you want to keep a context around and track changes to the screen’s
--   font rendering settings.
pangoContextGet :: (HasCallStack, MonadIO m) => m Context

-- | Creates a <a>Context</a> for <i><tt>display</tt></i>.
--   
--   The context must be freed when you’re finished with it.
--   
--   When using GTK+, normally you should use
--   <tt><i>gtk_widget_get_pango_context()</i></tt> instead of this
--   function, to get the appropriate context for the widget you intend to
--   render text onto.
--   
--   The newly created context will have the default font options (see
--   <a>FontOptions</a>) for the display; if these options change it will
--   not be updated. Using <tt><i>gtk_widget_get_pango_context()</i></tt>
--   is more convenient if you want to keep a context around and track
--   changes to the font rendering settings.
--   
--   <i>Since: 3.22</i>
pangoContextGetForDisplay :: (HasCallStack, MonadIO m, IsDisplay a) => a -> m Context

-- | Creates a <a>Context</a> for <i><tt>screen</tt></i>.
--   
--   The context must be freed when you’re finished with it.
--   
--   When using GTK+, normally you should use
--   <tt><i>gtk_widget_get_pango_context()</i></tt> instead of this
--   function, to get the appropriate context for the widget you intend to
--   render text onto.
--   
--   The newly created context will have the default font options (see
--   <a>FontOptions</a>) for the screen; if these options change it will
--   not be updated. Using <tt><i>gtk_widget_get_pango_context()</i></tt>
--   is more convenient if you want to keep a context around and track
--   changes to the screen’s font rendering settings.
--   
--   <i>Since: 2.2</i>
pangoContextGetForScreen :: (HasCallStack, MonadIO m, IsScreen a) => a -> m Context

-- | Parse command line arguments, and store for future use by calls to
--   <a>displayOpen</a>.
--   
--   Any arguments used by GDK are removed from the array and
--   <i><tt>argc</tt></i> and <i><tt>argv</tt></i> are updated accordingly.
--   
--   You shouldn’t call this function explicitly if you are using
--   <tt><i>gtk_init()</i></tt>, <tt><i>gtk_init_check()</i></tt>,
--   <a>init</a>, or <a>initCheck</a>.
--   
--   <i>Since: 2.2</i>
parseArgs :: (HasCallStack, MonadIO m) => [Text] -> m [Text]

-- | Transfers image data from a <a>Surface</a> and converts it to an
--   RGB(A) representation inside a <a>Pixbuf</a>. This allows you to
--   efficiently read individual pixels from cairo surfaces. For
--   <tt><i>GdkWindows</i></tt>, use <a>pixbufGetFromWindow</a> instead.
--   
--   This function will create an RGB pixbuf with 8 bits per channel. The
--   pixbuf will contain an alpha channel if the <i><tt>surface</tt></i>
--   contains one.
pixbufGetFromSurface :: (HasCallStack, MonadIO m) => Surface -> Int32 -> Int32 -> Int32 -> Int32 -> m (Maybe Pixbuf)

-- | Transfers image data from a <a>Window</a> and converts it to an RGB(A)
--   representation inside a <a>Pixbuf</a>.
--   
--   In other words, copies image data from a server-side drawable to a
--   client-side RGB(A) buffer. This allows you to efficiently read
--   individual pixels on the client side.
--   
--   This function will create an RGB pixbuf with 8 bits per channel with
--   the size specified by the <i><tt>width</tt></i> and
--   <i><tt>height</tt></i> arguments scaled by the scale factor of
--   <i><tt>window</tt></i>. The pixbuf will contain an alpha channel if
--   the <i><tt>window</tt></i> contains one.
--   
--   If the window is off the screen, then there is no image data in the
--   obscured/offscreen regions to be placed in the pixbuf. The contents of
--   portions of the pixbuf corresponding to the offscreen region are
--   undefined.
--   
--   If the window you’re obtaining data from is partially obscured by
--   other windows, then the contents of the pixbuf areas corresponding to
--   the obscured regions are undefined.
--   
--   If the window is not mapped (typically because it’s
--   iconified/minimized or not on the current workspace), then
--   <a>Nothing</a> will be returned.
--   
--   If memory can’t be allocated for the return value, <a>Nothing</a> will
--   be returned instead.
--   
--   In short, there are several ways this function can fail, and if it
--   fails it returns <a>Nothing</a>; so check the return value.
--   
--   You should rarely, if ever, need to call this function.
pixbufGetFromWindow :: (HasCallStack, MonadIO m, IsWindow a) => a -> Int32 -> Int32 -> Int32 -> Int32 -> m (Maybe Pixbuf)

-- | Grabs the pointer (usually a mouse) so that all events are passed to
--   this application until the pointer is ungrabbed with
--   <a>pointerUngrab</a>, or the grab window becomes unviewable. This
--   overrides any previous pointer grab by this client.
--   
--   Pointer grabs are used for operations which need complete control over
--   mouse events, even if the mouse leaves the application. For example in
--   GTK+ it is used for Drag and Drop, for dragging the handle in the
--   <tt><i>GtkHPaned</i></tt> and <tt><i>GtkVPaned</i></tt> widgets.
--   
--   Note that if the event mask of an X window has selected both button
--   press and button release events, then a button press event will cause
--   an automatic pointer grab until the button is released. X does this
--   automatically since most applications expect to receive button press
--   and release events in pairs. It is equivalent to a pointer grab on the
--   window with <i><tt>ownerEvents</tt></i> set to <a>True</a>.
--   
--   If you set up anything at the time you take the grab that needs to be
--   cleaned up when the grab ends, you should handle the
--   <a>EventGrabBroken</a> events that are emitted when the grab ends
--   unvoluntarily.

-- | <i>Deprecated: (Since version 3.0)Use <a>deviceGrab</a> instead.</i>
pointerGrab :: (HasCallStack, MonadIO m, IsWindow a, IsWindow b, IsCursor c) => a -> Bool -> [EventMask] -> Maybe b -> Maybe c -> Word32 -> m GrabStatus

-- | Returns <a>True</a> if the pointer on the default display is currently
--   grabbed by this application.
--   
--   Note that this does not take the inmplicit pointer grab on button
--   presses into account.

-- | <i>Deprecated: (Since version 3.0)Use <a>displayDeviceIsGrabbed</a>
--   instead.</i>
pointerIsGrabbed :: (HasCallStack, MonadIO m) => m Bool

-- | Ungrabs the pointer on the default display, if it is grabbed by this
--   application.

-- | <i>Deprecated: (Since version 3.0)Use <a>deviceUngrab</a>, together
--   with <a>deviceGrab</a> instead.</i>
pointerUngrab :: (HasCallStack, MonadIO m) => Word32 -> m ()

-- | Prepare for parsing command line arguments for GDK. This is not public
--   API and should not be used in application code.

-- | <i>Deprecated: (Since version 3.16)This symbol was never meant to be
--   used outside of GTK+</i>
preParseLibgtkOnly :: (HasCallStack, MonadIO m) => m ()

-- | Deletes a property from a window.
propertyDelete :: (HasCallStack, MonadIO m, IsWindow a) => a -> Atom -> m ()

-- | This function returns the available bit depths for the default screen.
--   It’s equivalent to listing the visuals (<a>listVisuals</a>) and then
--   looking at the depth field in each visual, removing duplicates.
--   
--   The array returned by this function should not be freed.

-- | <i>Deprecated: (Since version 3.22)Visual selection should be done
--   using <a>screenGetSystemVisual</a> and <a>screenGetRgbaVisual</a></i>
queryDepths :: (HasCallStack, MonadIO m) => m [Int32]

-- | This function returns the available visual types for the default
--   screen. It’s equivalent to listing the visuals (<a>listVisuals</a>)
--   and then looking at the type field in each visual, removing
--   duplicates.
--   
--   The array returned by this function should not be freed.

-- | <i>Deprecated: (Since version 3.22)Visual selection should be done
--   using <a>screenGetSystemVisual</a> and <a>screenGetRgbaVisual</a></i>
queryVisualTypes :: (HasCallStack, MonadIO m) => m [VisualType]

-- | Retrieves the contents of a selection in a given form.
selectionConvert :: (HasCallStack, MonadIO m, IsWindow a) => a -> Atom -> Atom -> Word32 -> m ()

-- | Determines the owner of the given selection.
selectionOwnerGet :: (HasCallStack, MonadIO m) => Atom -> m (Maybe Window)

-- | Determine the owner of the given selection.
--   
--   Note that the return value may be owned by a different process if a
--   foreign window was previously created for that window, but a new
--   foreign window will never be created by this call.
--   
--   <i>Since: 2.2</i>
selectionOwnerGetForDisplay :: (HasCallStack, MonadIO m, IsDisplay a) => a -> Atom -> m (Maybe Window)

-- | Sets the owner of the given selection.
selectionOwnerSet :: (HasCallStack, MonadIO m, IsWindow a) => Maybe a -> Atom -> Word32 -> Bool -> m Bool

-- | Sets the <a>Window</a> <i><tt>owner</tt></i> as the current owner of
--   the selection <i><tt>selection</tt></i>.
--   
--   <i>Since: 2.2</i>
selectionOwnerSetForDisplay :: (HasCallStack, MonadIO m, IsDisplay a, IsWindow b) => a -> Maybe b -> Atom -> Word32 -> Bool -> m Bool

-- | Sends a response to SelectionRequest event.
selectionSendNotify :: (HasCallStack, MonadIO m, IsWindow a) => a -> Atom -> Atom -> Atom -> Word32 -> m ()

-- | Send a response to SelectionRequest event.
--   
--   <i>Since: 2.2</i>
selectionSendNotifyForDisplay :: (HasCallStack, MonadIO m, IsDisplay a, IsWindow b) => a -> b -> Atom -> Atom -> Atom -> Word32 -> m ()

-- | Sets a list of backends that GDK should try to use.
--   
--   This can be be useful if your application does not work with certain
--   GDK backends.
--   
--   By default, GDK tries all included backends.
--   
--   For example,
--   
--   <h3><i>C code</i></h3>
--   
--   <pre>
--   gdk_set_allowed_backends ("wayland,quartz,*");
--   </pre>
--   
--   instructs GDK to try the Wayland backend first, followed by the Quartz
--   backend, and then all others.
--   
--   If the <tt>GDK_BACKEND</tt> environment variable is set, it determines
--   what backends are tried in what order, while still respecting the set
--   of allowed backends that are specified by this function.
--   
--   The possible backend names are x11, win32, quartz, broadway, wayland.
--   You can also include a * in the list to try all remaining backends.
--   
--   This call must happen prior to <a>displayOpen</a>,
--   <tt><i>gtk_init()</i></tt>, <tt><i>gtk_init_with_args()</i></tt> or
--   <tt><i>gtk_init_check()</i></tt> in order to take effect.
--   
--   <i>Since: 3.10</i>
setAllowedBackends :: (HasCallStack, MonadIO m) => Text -> m ()

-- | Set the double click time for the default display. See
--   <a>displaySetDoubleClickTime</a>. See also
--   <a>displaySetDoubleClickDistance</a>. Applications should not set
--   this, it is a global user-configured setting.
setDoubleClickTime :: (HasCallStack, MonadIO m) => Word32 -> m ()

-- | Sets the program class. The X11 backend uses the program class to set
--   the class name part of the <tt>WM_CLASS</tt> property on toplevel
--   windows; see the ICCCM.
--   
--   The program class can still be overridden with the --class command
--   line option.
setProgramClass :: (HasCallStack, MonadIO m) => Text -> m ()

-- | Sets whether a trace of received events is output. Note that GTK+ must
--   be compiled with debugging (that is, configured using the
--   <tt>--enable-debug</tt> option) to use this option.
setShowEvents :: (HasCallStack, MonadIO m) => Bool -> m ()

-- | Obtains a desktop-wide setting, such as the double-click time, for the
--   default screen. See <a>screenGetSetting</a>.
settingGet :: (HasCallStack, MonadIO m) => Text -> GValue -> m Bool

-- | <i>No description available in the introspection data.</i>
synthesizeWindowState :: (HasCallStack, MonadIO m, IsWindow a) => a -> [WindowState] -> [WindowState] -> m ()

-- | Retrieves a pixel from <i><tt>window</tt></i> to force the windowing
--   system to carry out any pending rendering commands.
--   
--   This function is intended to be used to synchronize with rendering
--   pipelines, to benchmark windowing system rendering operations.
--   
--   <i>Since: 2.14</i>
testRenderSync :: (HasCallStack, MonadIO m, IsWindow a) => a -> m ()

-- | This function is intended to be used in GTK+ test programs. It will
--   warp the mouse pointer to the given
--   (<i><tt>x</tt></i>,<i><tt>y</tt></i>) coordinates within
--   <i><tt>window</tt></i> and simulate a button press or release event.
--   Because the mouse pointer needs to be warped to the target location,
--   use of this function outside of test programs that run in their own
--   virtual windowing system (e.g. Xvfb) is not recommended.
--   
--   Also, <a>testSimulateButton</a> is a fairly low level function, for
--   most testing purposes, <tt><i>gtk_test_widget_click()</i></tt> is the
--   right function to call which will generate a button press event
--   followed by its accompanying button release event.
--   
--   <i>Since: 2.14</i>
testSimulateButton :: (HasCallStack, MonadIO m, IsWindow a) => a -> Int32 -> Int32 -> Word32 -> [ModifierType] -> EventType -> m Bool

-- | This function is intended to be used in GTK+ test programs. If
--   (<i><tt>x</tt></i>,<i><tt>y</tt></i>) are &gt; (-1,-1), it will warp
--   the mouse pointer to the given (<i><tt>x</tt></i>,<i><tt>y</tt></i>)
--   coordinates within <i><tt>window</tt></i> and simulate a key press or
--   release event.
--   
--   When the mouse pointer is warped to the target location, use of this
--   function outside of test programs that run in their own virtual
--   windowing system (e.g. Xvfb) is not recommended. If
--   (<i><tt>x</tt></i>,<i><tt>y</tt></i>) are passed as (-1,-1), the mouse
--   pointer will not be warped and <i><tt>window</tt></i> origin will be
--   used as mouse pointer location for the event.
--   
--   Also, <a>testSimulateKey</a> is a fairly low level function, for most
--   testing purposes, <tt><i>gtk_test_widget_send_key()</i></tt> is the
--   right function to call which will generate a key press event followed
--   by its accompanying key release event.
--   
--   <i>Since: 2.14</i>
testSimulateKey :: (HasCallStack, MonadIO m, IsWindow a) => a -> Int32 -> Int32 -> Word32 -> [ModifierType] -> EventType -> m Bool

-- | Converts a text property in the given encoding to a list of UTF-8
--   strings.
--   
--   <i>Since: 2.2</i>
textPropertyToUtf8ListForDisplay :: (HasCallStack, MonadIO m, IsDisplay a) => a -> Atom -> Int32 -> ByteString -> m (Int32, [Text])

-- | Adds a function to be called whenever there are no higher priority
--   events pending. If the function returns <a>False</a> it is
--   automatically removed from the list of event sources and will not be
--   called again.
--   
--   This variant of <a>idleAdd</a> calls <i><tt>function</tt></i> with the
--   GDK lock held. It can be thought of a MT-safe version for GTK+ widgets
--   for the following use case, where you have to worry about
--   <tt><i>idle_callback()</i></tt> running in thread A and accessing
--   <i><tt>self</tt></i> after it has been finalized in thread B:
--   
--   <h3><i>C code</i></h3>
--   
--   <pre>
--   static gboolean
--   idle_callback (gpointer data)
--   {
--      // gdk_threads_enter(); would be needed for g_idle_add()
--   
--      SomeWidget *self = data;
--      // do stuff with self
--   
--      self-&gt;idle_id = 0;
--   
--      // gdk_threads_leave(); would be needed for g_idle_add()
--      return FALSE;
--   }
--   
--   static void
--   some_widget_do_stuff_later (SomeWidget *self)
--   {
--      self-&gt;idle_id = gdk_threads_add_idle (idle_callback, self)
--      // using g_idle_add() here would require thread protection in the callback
--   }
--   
--   static void
--   some_widget_finalize (GObject *object)
--   {
--      SomeWidget *self = SOME_WIDGET (object);
--      if (self-&gt;idle_id)
--        g_source_remove (self-&gt;idle_id);
--      G_OBJECT_CLASS (parent_class)-&gt;finalize (object);
--   }
--   </pre>
--   
--   <i>Since: 2.12</i>
threadsAddIdle :: (HasCallStack, MonadIO m) => Int32 -> SourceFunc -> m Word32

-- | Sets a function to be called at regular intervals holding the GDK
--   lock, with the given priority. The function is called repeatedly until
--   it returns <a>False</a>, at which point the timeout is automatically
--   destroyed and the function will not be called again. The
--   <i><tt>notify</tt></i> function is called when the timeout is
--   destroyed. The first call to the function will be at the end of the
--   first <i><tt>interval</tt></i>.
--   
--   Note that timeout functions may be delayed, due to the processing of
--   other event sources. Thus they should not be relied on for precise
--   timing. After each call to the timeout function, the time of the next
--   timeout is recalculated based on the current time and the given
--   interval (it does not try to “catch up” time lost in delays).
--   
--   This variant of <a>timeoutAdd</a> can be thought of a MT-safe version
--   for GTK+ widgets for the following use case:
--   
--   <h3><i>C code</i></h3>
--   
--   <pre>
--   static gboolean timeout_callback (gpointer data)
--   {
--      SomeWidget *self = data;
--      
--      // do stuff with self
--      
--      self-&gt;timeout_id = 0;
--      
--      return G_SOURCE_REMOVE;
--   }
--    
--   static void some_widget_do_stuff_later (SomeWidget *self)
--   {
--      self-&gt;timeout_id = g_timeout_add (timeout_callback, self)
--   }
--    
--   static void some_widget_finalize (GObject *object)
--   {
--      SomeWidget *self = SOME_WIDGET (object);
--      
--      if (self-&gt;timeout_id)
--        g_source_remove (self-&gt;timeout_id);
--      
--      G_OBJECT_CLASS (parent_class)-&gt;finalize (object);
--   }
--   </pre>
--   
--   <i>Since: 2.12</i>
threadsAddTimeout :: (HasCallStack, MonadIO m) => Int32 -> Word32 -> SourceFunc -> m Word32

-- | A variant of <a>threadsAddTimeout</a> with second-granularity. See
--   <a>timeoutAddSeconds</a> for a discussion of why it is a good idea to
--   use this function if you don’t need finer granularity.
--   
--   <i>Since: 2.14</i>
threadsAddTimeoutSeconds :: (HasCallStack, MonadIO m) => Int32 -> Word32 -> SourceFunc -> m Word32

-- | This function marks the beginning of a critical section in which GDK
--   and GTK+ functions can be called safely and without causing race
--   conditions. Only one thread at a time can be in such a critial
--   section.

-- | <i>Deprecated: (Since version 3.6)All GDK and GTK+ calls should be
--   made from the main thread</i>
threadsEnter :: (HasCallStack, MonadIO m) => m ()

-- | Initializes GDK so that it can be used from multiple threads in
--   conjunction with <a>threadsEnter</a> and <a>threadsLeave</a>.
--   
--   This call must be made before any use of the main loop from GTK+; to
--   be safe, call it before <tt><i>gtk_init()</i></tt>.

-- | <i>Deprecated: (Since version 3.6)All GDK and GTK+ calls should be
--   made from the main thread</i>
threadsInit :: (HasCallStack, MonadIO m) => m ()

-- | Leaves a critical region begun with <a>threadsEnter</a>.

-- | <i>Deprecated: (Since version 3.6)All GDK and GTK+ calls should be
--   made from the main thread</i>
threadsLeave :: (HasCallStack, MonadIO m) => m ()

-- | Convert from a ISO10646 character to a key symbol.
unicodeToKeyval :: (HasCallStack, MonadIO m) => Word32 -> m Word32

-- | Converts an UTF-8 string into the best possible representation as a
--   STRING. The representation of characters not in STRING is not
--   specified; it may be as pseudo-escape sequences \x{ABCD}, or it may be
--   in some other form of approximation.
utf8ToStringTarget :: (HasCallStack, MonadIO m) => Text -> m (Maybe Text)


module GI.Gdk
