h)|m`      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~                                                                                                           !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!"""""""""""""#########$$$$$$%%&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&'''''''''''''''''''''''''''%%%%%%(((((((((()))))))))***++,,--------------------------------------------...////////000122222222222222222222233444556666667777780.26.28 Safe-Inferred"b Safe-Inferred" haskell-giTry asking pkg-config for the version of a given module, and return the package name together with its version. haskell-giGet the pkg-config name and associated installed version of a given gobject-introspection namespace. Since the mapping is not one-to-one some guessing is involved, although in most cases the required information is listed in the GIR file. Safe-Inferred"  haskell-giDefault list of extensions to turn on when compiling the generated code.  haskell-giExtensions that will be used in some modules, but we do not wish to turn on by default.  haskell-gi6Default options for GHC when compiling generated code.  haskell-gi%Default version of the report to use.  haskell-giList of dependencies for all bindings. Notice that base is not included here, since not all bindings use the same base version. haskell-gi and haskell-gi-base are not included either, since the versions to use may change depending on whether we are using old style or new style bindings. haskell-giUnder which category in hackage should the generated bindings be listed.    Safe-Inferred";  haskell-giConstruct the  representation of a showable. haskell-gi3Capitalize the first character of the given string. haskell-gi7Make the first character of the given string lowercase. haskell-giApply the given modification function to the given symbol. If the symbol is qualified the modification will only apply to the last component. haskell-gi:Split a list into sublists delimited by the given element. haskell-giRead a file assuming it is UTF-8 encoded. If decoding fails this calls . haskell-giWrite the given  into an UTF-8 encoded file. haskell-gi+Print a (colored) warning message to stderr haskell-giThrow an error with the given .   Safe-Inferred" haskell-giA path to a module.  haskell-gi9Construct a path into the given GIR namespace. The given  will be split along ".".Examples"dotModulePath (toModulePath "Foo")"Foo"/dotModulePath ("Foo" <> toModulePath "Bar.Baz") "Foo.Bar.Baz"/dotModulePath ("Foo" <> toModulePath "bar.baz") "Foo.Bar.Baz"! haskell-giTurn a module path into the corresponding dotted string. Note that the implementation ensures that the module names start with a capital letter.Examples'dotModulePath ("Foo" /. "Bar" /. "Baz") "Foo.Bar.Baz"'dotModulePath ("foo" /. "bar" /. "baz") "Foo.Bar.Baz"" haskell-gi4Append the given component to the given module path.ExamplesdotModulePath ("Foo" /. "Bar") "Foo.Bar"# haskell-gi Construct a  from a . "! "! Safe-Inferred "1"H) haskell-giExtra info about a field in a struct or union which is not easily determined from the GIR file. (And which we determine by using libgirepository.), haskell-gi Wrapper for  GITypelib5, remembering the originating namespace and version. haskell-gi Wrapper for  GIBaseInfo haskell-giAdd the given directory to the typelib search path, this is a thin wrapper over .- haskell-giA convenience function for setting up the typelib search path from the environment. Note that for efficiency reasons this should only be called once per program run. If the list of paths passed in is empty, the environment variable HASKELL_GI_TYPELIB_SEARCH_PATH will be checked. In either case the system directories will be searched after the passed in directories.. haskell-giEnsure that the given version of the namespace is loaded. If that is not possible we error out. haskell-giFind a given baseinfo by name, or give an error if it cannot be found. haskell-gi.Get the extra information for the given field./ haskell-giFind out the size of a struct, and the map from field names to offsets inside the struct.0 haskell-giFind out the size of a union, and the map from field names to offsets inside the union. haskell-giTry to load a symbol from the dynamic library associated to the given typelib. haskell-giLoad a symbol from the dynamic library associated to the given typelib. If the symbol does not exist this will raise an error.1 haskell-giLoad a GType given the ,, where it lives and the type init function.2 haskell-gi798? :;<=>798? Safe-Inferred")(C haskell-giThis type represents the types found in GObject Introspection interfaces: the types of constants, arguments, etc.E haskell-giGErrorF haskell-giGVariantG haskell-giGValueH haskell-gi GParamSpecI haskell-gi>Zero terminated, Array Fixed Size, Array Length, Element TypeJ haskell-giGArrayK haskell-gi GPtrArrayL haskell-gi GByteArrayM haskell-giGListN haskell-giGSListO haskell-gi GHashTableP haskell-gi,GClosure containing the given API (if known)Q haskell-gi"A reference to some API in the GIRR haskell-giBasic types. These are generally trivial to marshal, and the GIR assumes that they are defined.S haskell-gigbooleanT haskell-gigintU haskell-giguintV haskell-giglongW haskell-gigulongX haskell-gigint8Y haskell-giguint8Z haskell-gigint16[ haskell-giguint16\ haskell-gigint32] haskell-giguint32^ haskell-gigint64_ haskell-giguint64` haskell-gigfloata haskell-gigdoubleb haskell-gigunicharc haskell-giGTyped haskell-gigchar*, encoded as UTF-8e haskell-gigchar*, encoding a filenamef haskell-gigpointerg haskell-gigintptrh haskell-giguintptri haskell-gi,An alias, which is simply (Namespace, name).k haskell-gi*Transfer mode for an argument or property.o haskell-gi"Name for a symbol in the GIR file.0oprqklmnijCQDEFGHIJKLMNOPRSTUVWXYZ[\]^_`abcdefgh0oprqklmnijCQDEFGHIJKLMNOPRSTUVWXYZ[\]^_`abcdefgh  Safe-Inferred",  haskell-giA type constructor. We single out some specific constructors since they have special syntax in their Haskell representation. haskell-giA fully applied type. haskell-gi9Give a valid Haskell source representation of the given . haskell-giReturn a textual representation of the type constructor for the given . haskell-gi,Type constructor applied to the given types. haskell-gi7A shorthand for a type constructor taking no arguments. haskell-gi Embed in the  monad. haskell-giA Ptr to the type. haskell-giA FunPtr to the type. haskell-gi Embed in the  monad./CQDEFGHIJKLMNOPRSTUVWXYZ[\]^_`abcdefgh/CQDEFGHIJKLMNOPRSTUVWXYZ[\]^_`abcdefgh  Safe-Inferred"Yc2 haskell-gi;A parsed representation of gtk-doc formatted documentation. haskell-gi&A reference to some symbol in the API. haskell-gi(The language for an embedded code block. haskell-giAn item in a list, given by a list of lines (not including ending newlines). The list is always non-empty, so we represent it by the first line and then a possibly empty list with the rest of the lines. haskell-giA link to a resource, either offline or a section of the documentation. haskell-giA parsed gtk-doc token. haskell-gi$A section header of the given depth. haskell-gi0Parse the given gtk-doc formatted documentation.ExamplesparseGtkDoc "" GtkDoc []parseGtkDoc "func()"*GtkDoc [SymbolRef (OldFunctionRef "func")]parseGtkDoc "literal"GtkDoc [Literal "literal"]$parseGtkDoc "This is a long literal")GtkDoc [Literal "This is a long literal"])parseGtkDoc "Call foo() for free cookies"GtkDoc [Literal "Call ",SymbolRef (OldFunctionRef "foo"),Literal " for free cookies"]parseGtkDoc "The signal ::activate is related to gtk_button_activate()."GtkDoc [Literal "The signal ",SymbolRef (LocalSignalRef "activate"),Literal " is related to ",SymbolRef (OldFunctionRef "gtk_button_activate"),Literal "."]parseGtkDoc "The signal ##%#GtkButton::activate is related to gtk_button_activate()."GtkDoc [Literal "The signal ##%",SymbolRef (OldSignalRef "GtkButton" "activate"),Literal " is related to ",SymbolRef (OldFunctionRef "gtk_button_activate"),Literal "."]5parseGtkDoc "# A section\n\n## and a subsection ##\n"GtkDoc [SectionHeader 1 (GtkDoc [Literal "A section"]),Literal "\n",SectionHeader 2 (GtkDoc [Literal "and a subsection "])]8parseGtkDoc "Compact list:\n- First item\n- Second item"GtkDoc [Literal "Compact list:\n",List [ListItem (GtkDoc [Literal "First item"]) [],ListItem (GtkDoc [Literal "Second item"]) []]];parseGtkDoc "Spaced list:\n\n- First item\n\n- Second item"GtkDoc [Literal "Spaced list:\n",List [ListItem (GtkDoc [Literal "First item"]) [],ListItem (GtkDoc [Literal "Second item"]) []]]parseGtkDoc "List with urls:\n- [test](http://test)\n- ![](image.png)"GtkDoc [Literal "List with urls:\n",List [ListItem (GtkDoc [ExternalLink (Link {linkName = "test", linkAddress = "http://test"})]) [],ListItem (GtkDoc [Image (Link {linkName = "", linkAddress = "image.png"})]) []]] haskell-gi2 eats the newline before the section header, but  does not, since it only matches at the beginning of the text. This restores the newlines eaten by , so a / returned by the parser can always be assumed not& to have an implicit starting newline. haskell-gi. eats the newline before the list, restore it. haskell-gi6Accumulate consecutive literals into a single literal. haskell-giParser for tokens. haskell-giParse a single token.Examples-parseOnly (parseToken <* endOfInput) "func()")Right (SymbolRef (OldFunctionRef "func")) haskell-gi7Whether the given character is valid in a C identifier. haskell-giSomething that could be a valid C identifier (loosely speaking, we do not need to be too strict here). haskell-giParse a function ref haskell-giParse an unresolved reference to a C symbol in new gtk-doc notation. haskell-giParse a function ref, given by a valid C identifier followed by (), for instance 'gtk_widget_show()'. If the identifier is not followed by "()", return it as a literal instead.Examples8parseOnly (parseFunctionRef <* endOfInput) "test_func()".Right (SymbolRef (OldFunctionRef "test_func"))7parseOnly (parseFunctionRef <* endOfInput) "not_a_func"Right (Literal "not_a_func") haskell-giParse a function name in new style, of the form > [func@Namespace.c_func_name]Examples [method@Namespace.Object.c_func_name]ExamplesparseOnly (parseMethod <* endOfInput) "[method@Gtk.Button.set_child]"Right (SymbolRef (MethodRef (Name {namespace = "Gtk", name = "Button"}) "set_child")) haskell-giParse a reference to a constructor, of the form > [ctor@Namespace.Object.c_func_name]ExamplesparseOnly (parseConstructor <* endOfInput) "[ctor@Gtk.Builder.new_from_file]"Right (SymbolRef (MethodRef (Name {namespace = "Gtk", name = "Builder"}) "new_from_file")) haskell-gi2Parse a reference to a type, of the form > [class3Namespace.Name] an interface of the form > [iface:Namespace.Name] or an enum type: > [enum@Namespace.Name]Examples9parseOnly (parseClass <* endOfInput) "[class@Gtk.Dialog]"Right (SymbolRef (TypeRef (Name {namespace = "Gtk", name = "Dialog"})));parseOnly (parseClass <* endOfInput) "[iface@Gtk.Editable]"Right (SymbolRef (TypeRef (Name {namespace = "Gtk", name = "Editable"})))parseOnly (parseClass <* endOfInput) "[enum@Gtk.SizeRequestMode]"Right (SymbolRef (TypeRef (Name {namespace = "Gtk", name = "SizeRequestMode"}))) haskell-gi>Parse an old style signal name, of the form > #Object::signalExamples?parseOnly (parseOldSignal <* endOfInput) "#GtkButton::activate"7Right (SymbolRef (OldSignalRef "GtkButton" "activate")) haskell-giParse a new style signal ref, of the form > [signal@Namespace.Object::signal-name]ExamplesparseOnly (parseNewSignal <* endOfInput) "[signal@Gtk.AboutDialog::activate-link]"Right (SymbolRef (SignalRef (Name {namespace = "Gtk", name = "AboutDialog"}) "activate-link")) haskell-giParse a reference to a signal defined in the current module, of the form > ::signalExamples7parseOnly (parseLocalSignal <* endOfInput) "::activate"-Right (SymbolRef (LocalSignalRef "activate")) haskell-giParse a property name in the old style, of the form > #Object:propertyExamplesparseOnly (parseOldProperty <* endOfInput) "#GtkButton:always-show-image"Right (SymbolRef (OldPropertyRef "GtkButton" "always-show-image")) haskell-giParse a property name in the new style: > [property@Namespace.Object:property-name]ExamplesparseOnly (parseNewProperty <* endOfInput) "[property@Gtk.ProgressBar:show-text]"Right (SymbolRef (PropertyRef (Name {namespace = "Gtk", name = "ProgressBar"}) "show-text")) haskell-giParse a property haskell-gi%Parse an xml comment, of the form >  !-- comment --' Note that this function keeps spaces.Examples9parseOnly (parseComment <* endOfInput) ""Right (Comment " comment ") haskell-giParse an old style reference to a virtual method, of the form > #Struct.method()Examples6parseOnly (parseOldVMethod <* endOfInput) "#Foo.bar()"*Right (SymbolRef (VMethodRef "Foo" "bar")) haskell-giParse a new style reference to a virtual function, of the form > [vfunc@Namespace.Object.vfunc_name]parseOnly (parseVFunc <* endOfInput) "[vfunc@Gtk.Widget.get_request_mode]"Right (SymbolRef (VFuncRef (Name {namespace = "Gtk", name = "Widget"}) "get_request_mode")) haskell-gi%Parse a reference to a virtual method haskell-giParse a reference to a struct field, of the form > #Struct.fieldExamples5parseOnly (parseStructField <* endOfInput) "#Foo.bar".Right (SymbolRef (StructFieldRef "Foo" "bar")) haskell-gi3Parse a reference to a C type, of the form > #TypeExamples+parseOnly (parseCType <* endOfInput) "#Foo""Right (SymbolRef (CTypeRef "Foo")) haskell-gi/Parse a constant, of the form > %CONSTANT_NAMEExamples8parseOnly (parseConstant <* endOfInput) "%TEST_CONSTANT"/Right (SymbolRef (ConstantRef "TEST_CONSTANT")) haskell-gi @param_nameExamples2parseOnly (parseParam <* endOfInput) "@test_param")Right (SymbolRef (ParamRef "test_param")) haskell-giName of a signal or property name. Similar to a C identifier, but hyphens are allowed too. haskell-gi8Parse a escaped special character, i.e. one preceded by '\'. haskell-giParse a literal, i.e. anything without a known special meaning. Note that this parser always consumes the first character, regardless of what it is. haskell-giList of special characters from the point of view of the parser (in the sense that they may be the beginning of something with a special interpretation). haskell-gi7Parse a verbatim string, of the form > `verbatim text`Examples:parseOnly (parseVerbatim <* endOfInput) "`Example quote!`"!Right (Verbatim "Example quote!") haskell-gi/Parse a URL in Markdown syntax, of the form > urlnameExamplesparseOnly (parseUrl <* endOfInput) "[haskell](http://haskell.org)"Right (ExternalLink (Link {linkName = "haskell", linkAddress = "http://haskell.org"})) haskell-gi)Parse an image reference, of the form > urllabelExamples7parseOnly (parseImage <* endOfInput) "![](diagram.png)"Right (Image (Link {linkName = "", linkAddress = "diagram.png"})) haskell-gi1Parse a code block embedded in the documentation. haskell-giParse a new style code block, of the form > ```c > some c code > ```ExamplesparseOnly (parseNewStyleCodeBlock <* endOfInput) "```c\nThis is C code\n```"8Right (CodeBlock (Just (Language "c")) "This is C code") haskell-gi0Parse an old style code block, of the form > |[ !--language="C" -- code ]|ExamplesparseOnly (parseOldStyleCodeBlock <* endOfInput) "|[this is code]|"(Right (CodeBlock Nothing "this is code")parseOnly (parseOldStyleCodeBlock <* endOfInput) "|[this is C code]|"8Right (CodeBlock (Just (Language "C")) "this is C code") haskell-gi;Parse the language of a code block, specified as a comment. haskell-giParse a section header, given by a number of hash symbols, and then ordinary text. Note that this parser "eats" the newline before and after the section header. haskell-giParse a section header at the beginning of the text. I.e. this is the same as 7, but we do not expect a newline as a first character.ExamplesparseOnly (parseInitialSectionHeader <* endOfInput) "### Hello! ###\n"4Right (SectionHeader 3 (GtkDoc [Literal "Hello! "]))parseOnly (parseInitialSectionHeader <* endOfInput) "# Hello!\n"3Right (SectionHeader 1 (GtkDoc [Literal "Hello!"])) haskell-giParse a list header. Note that the newline before the start of the list is "eaten" by this parser, but is restored later by .ExamplesparseOnly (parseList <* endOfInput) "\n- First item\n- Second item"Right (List [ListItem (GtkDoc [Literal "First item"]) [],ListItem (GtkDoc [Literal "Second item"]) []])parseOnly (parseList <* endOfInput) "\n\n- Two line\n item\n\n- Second item,\n also two lines"Right (List [ListItem (GtkDoc [Literal "Two line"]) [GtkDoc [Literal "item"]],ListItem (GtkDoc [Literal "Second item,"]) [GtkDoc [Literal "also two lines"]]])%%  Safe-Inferred"] haskell-gi:Split a list into sublists delimited by the given element. haskell-gi-Return the paths where to look for gir files. haskell-gi:Construct the GIR search path, possibly looking into the HASKELL_GI_GIR_SEARCH_PATH environment variable if no explicit list of extra paths is given. In either case the system data dirs are also searched if nothing can be found in the explicitly passed paths, or in the contents of HASKELL_GI_GIR_SEARCH_PATH. haskell-giSearch for an appropriate .gir file in the search path. haskell-giTry to load the `.gir` file corresponding to the given repository haskell-giverbose haskell-giname haskell-giversion haskell-gi searchPath  Safe-Inferred"`  haskell-giGIR namespaces we know about. haskell-gi>Turn a node into an element (if it is indeed an element node). haskell-giFind all children of the given element which are XML Elements themselves. haskell-giThe local name of an element. haskell-gi,Restrict to those with the given local name. haskell-gi"Restrict to those with given name. haskell-gi1Find the first child element with the given name. haskell-gi1Get the content of a given element, if it exists. haskell-gi4Lookup an attribute for an element (with no prefix). haskell-gi;Return the text representation of the known GIR namespaces. haskell-giLookup an attribute for an element, given the namespace where it lives. haskell-gi Construct a  by only giving the local name. haskell-gi Construct a  specifying a namespace too. Safe-Inferred"bR haskell-giDocumentation for a given element. The documentation text is typically encoded in the gtk-doc format, see  +https://developer.gnome.org/gtk-doc-manual/ . This can be parsed with 9:. haskell-giParse the documentation node for the given element of the GIR file. Safe-Inferred"c% haskell-gi$Deprecation information on a symbol. haskell-giParse the deprecation information for the given element of the GIR file.  Safe-Inferred"k\ haskell-giMonad where parsers live: we carry a context around, and can throw errors that abort the parsing. haskell-giMark whether the methods can be resolved in the given typelib. haskell-giCheck that the symbol the function refers to is actually present in the dynamic library. haskell-gi6Load and parse a GIR file, including its dependencies. haskell-giGiven a XML document containing GIR data, apply the given overrides. haskell-giLooks for the given path in the given subelements of the given element. If the path is empty apply the corresponding rule, otherwise return the element ummodified. haskell-giSet an attribute for the child element specified by the given path. haskell-giDelete an attribute for the child element specified by the given path, if the attribute exists. haskell-gi:Add the given subnode to any nodes matching the given path haskell-gi)Delete any nodes matching the given path. haskell-giLookup the given attribute and if present see if it matches the given regex. haskell-gi798?oprqklmn:;<=>798?" Safe-Inferred"(K2 haskell-giKnown operating systems. haskell-giWe have a bit of context (the current namespace), and can fail, encode this in a monad. haskell-gi"The state of the overrides parser. haskell-giThe current namespace. haskell-giThe contents of the override file will be ignored if there is any  value here. if( primitive push (prepend) values here, endif pop them. haskell-gi Ignored elements of a given API. haskell-gi?Ignored APIs (all elements in this API will just be discarded). haskell-gi9Structs for which accessors should not be auto-generated. haskell-gi-Explicit calloc/copy/free for structs/unions. haskell-gi;Mapping from GObject Introspection namespaces to pkg-config haskell-gi0Version number for the generated .cabal package. haskell-gi"Prefered version of the namespace. haskell-giFixups for the GIR data. haskell-gi&Known places where to find the C docs. haskell-gi*Construct the generic config for a module. haskell-gi$Addition of overrides is meaningful. haskell-giDefault, empty, parser state. haskell-giGet the current namespace. haskell-gi8Run the given parser only if the flags can be satisfied. haskell-giParse the given overrides, filling in the configuration as needed. In case the parsing fails we return a description of the error instead. haskell-giParse a single line of the config file, modifying the configuration as appropriate. haskell-giIgnored elements. haskell-giSealed structures. haskell-gi.Explicit allocation info for wrapped pointers. haskell-gi:Parse a explicit key=value pair into a (key, value) tuple. haskell-gi. haskell-giCheck that the given pkg-config package has a version compatible with the given constraint. haskell-giParse a 'if' directive. haskell-gi Parse an endif directive. haskell-giParse the given overrides file, and merge into the given context. haskell-giFilter a set of named objects based on a lookup list of names to ignore. haskell-giGiven the previous allocation info, and a new allocation info, replace those entries in the old allocation info which are specified in the new info. haskell-gi-Filter one API according to the given config. haskell-gi?Given a list of APIs modify them according to the given config. haskell-giLoad a given API, applying filtering. Load also any necessary dependencies. haskell-giThere is a sensible notion of zero and addition of Overridess, encode this so that we can view the parser as a writer monad of configs. haskell-giThere is a sensible notion of zero and addition of Overridess, encode this so that we can view the parser as a writer monad of configs.# Safe-Inferred"L haskell-gi;GIR name of the module being generated (Gtk, GObject, ...). haskell-giVersion of the GIR API for the package being generated ("3.0", "2.0", ...). haskell-gi:Haskell package being generated (gi-gtk, gi-gobject, ...). haskell-gi9Version of the haskell package ("3.0.35", "2.0.21", ...). haskell-giWhether to print extra info. haskell-gi0List of loaded overrides for the code generator.$ Safe-Inferred" haskell-gi7Remove functions and methods annotated with "moved-to". haskell-giDrop the moved methods. haskell-giGObject-introspection does not currently support nullability annotations, so we try to guess the nullability from the nullability annotations of the curresponding get/set methods, which in principle should be reliable. haskell-gi2Guess nullability for the properties of an object. haskell-gi5Guess nullability for the properties of an interface. haskell-giGuess the nullability for a property, given the list of methods for the object/interface. haskell-giGuess whether "get" on the given property may return NULL, based on the corresponding "get_prop_name" method, if it exists. haskell-giGuess whether "set" on the given property may return NULL, based on the corresponding "set_prop_name" method, if it exists. haskell-gi2Find the first method with the given name, if any. haskell-giNot every interface that provides signals/properties is marked as requiring GObject, but this is necessarily the case, so fix the introspection data accordingly. haskell-giDrop any fields whose name coincides with that of a previous element. Note that this function keeps ordering. haskell-gi?Some libraries include duplicated flags by mistake, drop those. haskell-giSometimes arguments are marked as being a user_data destructor, but there is no associated user_data argument. In this case we drop the annotation. haskell-giIf any argument for the callable has a associated destroyer for the user_data, but no associated user_data, drop the destroyer annotation. haskell-giSome symbols have names that are not valid Haskell identifiers, fix that here. haskell-giMake sure that the given name is a valid Haskell identifier in patterns.Examples!fixConstantName (Name "IBus" "0")'Name {namespace = "IBus", name = "C'0"}!fixConstantName (Name "IBus" "a")'Name {namespace = "IBus", name = "C'a"}!fixConstantName (Name "IBus" "A")%Name {namespace = "IBus", name = "A"}& Safe-Inferred"٢ haskell-gi0A subsection name, with an optional anchor name. haskell-gi"Possible features to test via CPP. haskell-giEnable overloading haskell-gi0Require a specific version of the given package. haskell-gi&Code generators that can throw errors. haskell-giThe base type for the code generator monad. Generators that cannot throw errors are parametric in the exception type excType. haskell-giThe name for a type variable. haskell-gi!A single variable type variable: a, b, etc... haskell-giAn indexed type variable: a17, key1, ... haskell-gi'Temporaty state for the code generator. haskell-gi4Active CPP conditionals, outermost condition first. haskell-giNext unused type variable. haskell-gi%Set of errors for the code generator. haskell-gi#Information for the code generator. haskell-giAmbient config. haskell-gi APIs available to the generator. haskell-gi*Map from C references to Haskell symbols. haskell-gi4Minimal version of base supported by a given module. haskell-gi 7.0 haskell-gi 8.0 haskell-gi!Flags for module code generation. haskell-giUse the standard prelude, instead of the haskell-gi-base short one. haskell-gi"Information on a generated module. haskell-giFull module name: [Gtk, Label]. haskell-giGenerated code for the module. haskell-gi(Interfaces going into the .hs-boot file. haskell-gi%Indexed by the relative module name. haskell-gi$Set of dependencies for this module. haskell-giExports for the module. haskell-giQualified (source) imports. haskell-gi'Set of language pragmas for the module. haskell-gi%GHC options for compiling the module. haskell-giFlags for the module. haskell-gi9Documentation for the different sections in the module. haskell-gi1Minimal version of base the module will work on. haskell-giPossible types of exports. haskell-gi(An export in the given haddock section. haskell-giA type declaration. haskell-giReexport of a whole module. haskell-giPossible exports for a given module. Every export type constructor has two parameters: the section of the haddocks where it should appear, and the symbol name to export in the export list of the module. haskell-giWhich kind of export. haskell-giActual symbol to export. haskell-gi3Protect the export by the given CPP export guards. haskell-giSymbol to export. haskell-giKnown subsections. The ordering here is the ordering in which they will appear in the haddocks. haskell-giSubsection of the haddock documentation where the export should be located, or alternatively the toplevel section. haskell-giPossible code tokens. haskell-gi/A single line, indented to current indentation. haskell-giIndented region. haskell-giA grouped set of lines haskell-giA (possibly multi line) comment haskell-giIncrease the indentation for the rest of the lines in the group. haskell-gi5A block of code guarded by the given CPP conditional haskell-giThe generated  is a sequence of s. haskell-gi9Set of CPP conditionals understood by the code generator. haskell-gi#if Foo haskell-gi/Initializes a code block to the empty sequence. haskell-gi-Checks whether the given code block is empty. haskell-gi-A block of code consisting of a single token. haskell-giA 0 representation of the given base version bound. haskell-giGenerate the empty module. haskell-giClean slate for . haskell-giRun a  with given  and initial state, returning either the resulting exception, or the result and final module info. haskell-gi4This is useful when we plan run a subgenerator, and - the result to the original structure later. haskell-giRun the given code generator using the state and config of an ambient CodeGen, but without adding the generated code to ", instead returning it explicitly. haskell-giLike , but we allow for explicitly setting the state of the inner code generator. haskell-giLike , giving explicitly the set of loaded APIs and C to Haskell map for the subgenerator. haskell-gi:Merge everything but the generated code for the two given . haskell-gi$Merge the infos, including code too. haskell-giAdd the given submodule to the list of submodules of the current module. haskell-giRun the given CodeGen in order to generate a single submodule of the current module. Note that we do not generate the submodule if the code generator generated no code and the module does not have submodules. haskell-giRun the given CodeGen in order to generate a submodule (specified an an ordered list) of the current module. haskell-giTry running the given action, and if it fails run fallback instead. haskell-gi0Return the currently loaded set of dependencies. haskell-gi8Return the ambient configuration for the code generator. haskell-gi&Return the name of the current module. haskell-gi3Return the list of APIs available to the generator. haskell-gi3Return the C -> Haskell available to the generator. haskell-gi Due to the forall in the definition of , if we want to run the monad transformer stack until we get a result, our only option is ignoring the possible error code from . This is perfectly safe, since there is no way to construct a computation in the > monad that throws an exception, due to the higher rank type. haskell-giRun a code generator, and return the information for the generated module together with the return value of the generator. haskell-giLike ), but discard the resulting output value. haskell-gi0Mark the given dependency as used by the module. haskell-giReturn the transitive set of dependencies, i.e. the union of those of the module and (transitively) its submodules. haskell-giGiven a module name and a symbol in the module (including a proper namespace), return a qualified name for the symbol. haskell-giImport the given module name qualified (as a source import if the namespace is the same as the current one), and return the name under which the module was imported. haskell-giConstruct a simplified version of the module name, suitable for a qualified import. haskell-giReturn the minimal base version supported by the module and all its submodules. haskell-giPrint, as a comment, a friendly textual description of the error. haskell-gi0Get a type variable unused in the current scope. haskell-giIntroduce a new scope for type variable naming: the next fresh variable will be called a. haskell-gi;Try to find the API associated with a given type, if known. haskell-giFind the API associated with a given type. If the API cannot be found this raises an . haskell-gi'Add some code to the current generator. haskell-gi&Print out a (newline-terminated) line. haskell-giPrint out the given line both to the normal module, and to the HsBoot file. haskell-gi A blank line haskell-gi6A (possibly multi line) comment, separated by newlines haskell-gi.Increase the indent level for code generation. haskell-giIncrease the indentation level for the rest of the lines in the current group. haskell-giGroup a set of related code. haskell-giGuard a block of code with #if. haskell-giGuard a code block with CPP code, such that it is included only if the specified feature is enabled. haskell-giWrite the given code into the .hs-boot file for the current module. haskell-gi#Add a export to the current module. haskell-giReexport a whole module. haskell-gi&Add a type declaration-related export. haskell-gi0Export a symbol in the given haddock subsection. haskell-gi0Set the language pragmas for the current module. haskell-gi-Add a language pragma for the current module. haskell-giSet the GHC options for compiling this module (in a OPTIONS_GHC pragma). haskell-gi#Set the given flags for the module. haskell-gi=Set the minimum base version supported by the current module. haskell-gi&Add documentation for a given section. haskell-gi:Prepend documentation at the beginning of a given section. haskell-giFormat a CPP conditional. haskell-gi$Return a text representation of the . haskell-giPad a line to the given number of leading tabs (with one tab equal to four spaces), and add a newline at the end. haskell-giPad a set of lines to the given number of leading tabs (with one tab equal to four spaces), and add a newline at the end of each line. haskell-gi,Put a (padded) comma at the end of the text. haskell-giFormat the given export symbol. haskell-gi$Format the list of exported modules. haskell-gi%Format the toplevel exported symbols. haskell-gi%Format the type declarations section. haskell-gi3A subsection with an anchor given by the title and  prefix:title& anchor, and the given documentation. haskell-giReturn a qualified form of the function mapping instances of IsX to haskell values of type X. haskell-giSame as ;, but applicable directly to a type. The type should be a Q$, otherwise an error will be raised. haskell-giForeign type associated with a callback type. It can be passed in qualified. haskell-giHaskell type exposing the closure arguments, which are generally elided. haskell-giThe name of the dynamic wrapper for the given callback type. It can be passed in qualified. haskell-giThe name of the Haskell to foreign wrapper for the given callback type. It can be passed in qualified. haskell-giThe name of the Haskell to foreign wrapper for the given callback type, keeping the closure arguments (we usually elide them). The callback type can be passed in qualified. haskell-giThe name of a function which takes a callback without closure arguments, and generates a function which does accep the closures, but simply ignores them. haskell-gi,The name for the foreign wrapper allocator (foreign import "wrapper" ...>) for the given callback type. It can be passed in qualified. haskell-giThe name for the closure generator for the given callback type. It can be passed in qualified. haskell-gi$Move leading underscores to the end.Examplessanitize "_Value_Data_Union""Value_Data_Union_" haskell-giSame as , but accepts a o4. The namespace part of the name will be discarded.Examples"lowerName (Name "Gtk" "main_quit") "mainQuit" haskell-giTurn the given identifier into camelCase, starting with a lowercase letter.ExampleslowerSymbol "main_quit" "mainQuit" haskell-giTurn the given o0 into CamelCase, starting with a capital letter.Examples upperName (Name "Foo" "bar_baz")"BarBaz" haskell-giConstruct the submodule path where the given API element will live. This is the path relative to the root for the corresponding namespace. I.e. the GI.Gtk part is not prepended. haskell-gi;Obtain the absolute location of the module where the given  lives. haskell-giConstruct the Haskell version of the name associated to the given API. haskell-giReturn an identifier for the given interface type valid in the current module. haskell-gi>Construct an identifier for the given symbol in the given API. haskell-gi3Turn a hyphen-separated identifier into camel case.Examples&hyphensToCamelCase "one-sample-string""OneSampleString" haskell-gi Similarly to , turn a name separated_by_underscores into CamelCase. We preserve final and initial underscores, and n>1 consecutive underscores are transformed into n-1 underscores.Examples"underscoresToCamelCase "sample_id" "SampleId"&underscoresToCamelCase "_internal_id_""_InternalId_"/underscoresToCamelCase "multiple___underscores""Multiple__Underscores" haskell-giName for the given argument, making sure it is a valid Haskell argument name (and escaping it if not). haskell-giReserved symbols, either because they are Haskell syntax or because the clash with symbols in scope for the generated bindings. haskell-giQualified name for the "(sigName, info)" tag for a given signal. haskell-giReturn the name for the signal in Haskell CamelCase conventions. haskell-giReturn a link to the hackage package for the given name. Note that the generated link will only be valid if the name belongs to the binding which is currently being generated. haskell-gi(Prefix in Haddock for the signal anchor. haskell-gi+Prefix in Haddock for the attribute anchor.% Safe-Inferred" haskell-gi#Link to an identifier, module, etc. haskell-giGiven a set of APIs, build a Map that given a Text corresponding to a certain C identifier returns the corresponding Haskell element in the bindings. For instance, gtk_widget_show will get mapped to ?@. haskell-giAn identifier at the value level: functions, data constructors, ... haskell-gi An identifier at the type level. haskell-giLink to a module. haskell-giLink to an anchor inside a given module, with an optional label. haskell-gi6Obtain the fully qualified symbol pointing to a value. haskell-gi5Obtain the fully qualified symbol pointing to a type. haskell-giExtract the C name of a constant. These are often referred to as types, so we allow that too. haskell-gi!Extract the C name of a function. haskell-giExtract the C names of the fields in an enumeration/flags, and the name of the type itself. haskell-gi&Refs to the methods for a given owner. haskell-gi&Refs to the signals for a given owner. haskell-gi)Refs to the properties for a given owner. haskell-giGiven an optional C type and the API constructor construct the list of associated refs. haskell-gi!Extract the C name of a callback. haskell-gi%Extract the C references in a struct. haskell-gi$Extract the C references in a union. haskell-gi)Extract the C references in an interface. haskell-gi&Extract the C references in an object.( Safe-Inferred"Z  haskell-giFind the parent of a given object when building the instanceTree. For the purposes of the binding we do not need to distinguish between GObject.Object and GObject.InitiallyUnowned. haskell-gi"formatHaddock M.empty "a" (GtkDoc [List [ListItem (GtkDoc [Image (Link "test" "test.png")]) []]])"\n* <>\n" haskell-gi Format a + whose Haskell representation is not known. haskell-gi&Formatting for an unknown C reference. haskell-gi Format a  into plain . haskell-gi,Format a code block in a specified language. haskell-giQualify the given address with the docBase, if it is not an absolute address. haskell-gi(Format a link to some external resource. haskell-giFormat an embedded image. haskell-giFormat a section header of the given level and with the given text. Note that the level will be truncated to 2, if it is larger than that. haskell-giFormat a list of items. haskell-gi2Escape the reserved Haddock characters in a given .Examples escape "\"""\\\""escape "foo@bar.com""foo\\@bar.com"escape "C:\\Applications""C:\\\\Applications" haskell-giGet the base url for the online C language documentation for the module being currently generated. haskell-gi+Write the deprecation pragma for the given  , if not . haskell-giFormat the given documentation into a set of lines. Note that this does include the opening or ending comment delimiters. haskell-gi2Write the given documentation into generated code. haskell-giLike , but allows us to pass explicitly the Haddock comment to write. haskell-gi/Write the documentation for the given argument. haskell-gi3Write the documentation for the given return value. haskell-giAdd the given text to the documentation for the section being generated.  * Safe-Inferred" haskell-gi3Check whether the given type descends from GObject. haskell-gi3Check whether the given name descends from GObject. haskell-gi2Check whether the given API descends from GObject.+ Safe-Inferred" haskell-gi/Signal instances for (GObject-derived) objects. haskell-gi Signal instances for interfaces., Safe-Inferred" haskell-giGiven a list of named enum members, filter out those that have the same value as a previous entry in the list. haskell-giVery similar to enums, but we also declare ourselves as members of the IsGFlag typeclass. haskell-gi,Support for enums encapsulating error codes.- Safe-Inferred"8 haskell-gi#Distinct types of foreign pointers. haskell-gi Ordinary Ptr. haskell-giFunPtr. haskell-giInformation on how to allocate a type: allocator function and size of the struct. haskell-giWhether to expose closures and the associated destroy notify handlers in the Haskell wrapper. haskell-giThe free monad. haskell-gi$Lift some command to the Free monad. haskell-giGiven an array, together with its type, return the code for reading its length. haskell-giTry to find the hash and equal functions appropriate for the given type, when used as a key in a GHashTable. haskell-gi GHashTable tries to fit every type into a pointer, the following function tries to find the appropriate (destroy,packer,unpacker) for the given type. haskell-giSomewhat like , but with slightly different borrowing semantics: in the case of l< we wrap incoming pointers to boxed structs into transient  ManagedPtr s (every other case behaves as  ). These are  ManagedPtrs for which we do not make a copy, and which will be disowned when the function exists, instead of making a copy that the GC will collect eventually.This is necessary in order to get the semantics of callbacks and signals right: in some cases making a copy of the object does not simply increase the refcount, but rather makes a full copy. In this cases modification of the original object is not possible, but this is sometimes useful, see for example 2https://github.com/haskell-gi/haskell-gi/issues/97Another situation where making a copy of incoming arguments is problematic is when the underlying library is not thread-safe. When running under the threaded GHC runtime it can happen that the GC runs on a different OS thread than the thread where the object was created, and this leads to rather mysterious bugs, see for example 2https://github.com/haskell-gi/haskell-gi/issues/962This case is particularly nasty, since it affects  onWidgetDraw, which is very common. haskell-giWrap the given transient. haskell-giGiven a type find the typeclasses the type belongs to, and return the representation of the type in the function signature and the list of typeclass constraints for the type. haskell-giThis translates GI types to the types used for generated Haskell code. haskell-giWhether the callable has closure arguments (i.e. "user_data" style arguments). haskell-gi7Check whether the given type corresponds to a callback. haskell-giBasically like , but for types which admit a "isomorphic" version of the Haskell type distinct from the usual Haskell type. Generally the Haskell type we expose is isomorphic to the foreign type, but in some cases, such as callbacks with closure arguments, this does not hold, as we omit the closure arguments. This function returns a type which is actually isomorphic. There is another case this function deals with: for convenience untyped P types have a type variable on the Haskell side when they are arguments to functions, but we do not want this when they appear as arguments to callbacks/signals, or return types of properties, as it would force the type synonym/type family to depend on the type variable. haskell-gi6Foreign (C) type associated to one of the basic types. haskell-gi5Whether the give type corresponds to an enum or flag. haskell-gi8Information on how to allocate the given type, if known. haskell-gi0Returns whether the given type corresponds to a  ManagedPtr" instance (a thin wrapper over a  ForeignPtr). haskell-giReturns whether the given type is represented by a pointer on the C side. haskell-giFor those types represented by pointers on the C side, return the type of pointer which represents them on the Haskell FFI. haskell-giIf the passed in type is nullable, return the conversion function between the FFI pointer type (may be a Ptr or a FunPtr) and the corresponding  type. haskell-giAn appropriate NULL value for the given type, for types which are represented by pointers on the C side. haskell-gi;Returns whether the given type should be represented by a  type on the Haskell side. This applies to all properties which have a C representation in terms of pointers, except for G(S)Lists, for which NULL is a valid G(S)List, and raw pointers, which we just pass through to the Haskell side. Notice that introspection annotations can override this. haskell-giIf the given type maps to a list in Haskell, return the type of the elements, and the function that maps over them."". Safe-Inferred" haskell-giFree a container and/or the contained elements, depending on the transfer mode. haskell-giGiven an input argument to a C callable, and its label in the code, return the list of actions relevant to freeing the memory allocated for the argument (if appropriate, depending on the ownership transfer semantics of the callable). haskell-giSame thing as freeInArg, but called in case the call to C didn't succeed. We thus free everything we allocated in preparation for the call, including args that would have been transferred to C./ Safe-Inferred"'G! haskell-gi8Whether (not) to generate bindings for the given struct. haskell-gi8Whether the given type corresponds to an ignored struct. haskell-giCanonical name for the type of a callback type embedded in a struct field. haskell-giFix the interface names of callback fields in the struct to correspond to the ones that we are going to generate. haskell-giFix the interface names of callback fields in an APIStruct to correspond to the ones that we are going to generate. If something other than an APIStruct is passed in we don't touch it. haskell-giExtract the callback types embedded in the fields of structs, and at the same time fix the type of the corresponding fields. Returns the list of APIs associated to this struct, not including the struct itself. haskell-giThe name of the type encoding the information for a field in a struct/union. haskell-gi2Whether a given field is an embedded struct/union. haskell-giName for the getter function haskell-gi,Generate documentation for the given getter. haskell-giExtract a field from a struct. haskell-giName for the setter function haskell-gi,Generate documentation for the given setter. haskell-giWrite a field into a struct. Note that, since we cannot know for sure who will be deallocating the fields in the struct, we leave any conversions that involve pointers to the caller. What this means in practice is that scalar fields will get marshalled to/from Haskell, while anything that involves pointers will be returned in the C representation. haskell-giName for the clear function haskell-giDocumentation for the clear method. haskell-giWrite a NULL" into a field of a struct of type Ptr. haskell-giReturn whether the given type corresponds to a callback that does not throw exceptions. See [Note: Callables that throw] for the reason why we do not try to wrap callbacks that throw exceptions. haskell-giThe types accepted by the allocating set function 'Data.GI.Base.Attributes.(:&=)'. haskell-giThe type generated by AB0 for this field. This type should satisfy the CD for the type. haskell-giGenerate the field transfer function, which marshals Haskell values to types that we can set, even if we need to allocate memory. haskell-giHaskell name for the field haskell-giLabel associated to the field. haskell-giSupport for modifying fields as attributes. Returns a tuple with the name of the overloaded label to be used for the field, and the associated info type. haskell-giBuild code for a single field. haskell-gi+Generate code for the given list of fields. haskell-giGenerate a constructor for a zero-filled struct/union of the given type, using the boxed (or GLib, for unboxed types) allocator. haskell-giSpecialization for structs of . haskell-giSpecialization for unions of . haskell-gi)Construct a import with the given prefix. haskell-giGenerate a GValue instance for GBoxed objects. haskell-gi4Allocation and deallocation for types registered as GBoxed in the GLib type system. haskell-giGenerate the typeclass with information for how to allocate/deallocate a given type which is not a GBoxed.0 Safe-Inferred"/ haskell-giSome types need casting to a concrete type before we can set or construct properties. For example, for non-GObject object properties we accept any instance of IsX for convenience, but instance resolution of the IsGValueSetter requires a concrete type. The following code implements the cast on the given variable, if needed, and returns the name of the new variable of concrete type. haskell-gi8The constraint for setting the given type in properties. haskell-gi?The constraint for transferring the given type into a property. haskell-gi The type of the return value of  attrTransfer for the given type. haskell-giGiven a value "v" of the given Haskell type, satisfying the constraint generated by , convert it (allocating memory is necessary) to the type given by . haskell-giGiven a property, return the set of constraints on the types, and the type variables for the object and its value. haskell-gi,Generate documentation for the given setter. haskell-gi,Generate documentation for the given getter. haskell-gi1Generate documentation for the given constructor. haskell-gi,Generate documentation for the given setter. haskell-giThe property name as a lexically valid Haskell identifier. Note that this is not escaped, since it is assumed that it will be used with a prefix, so if a property is named "class", for example, this will return "class". haskell-giThe name of the type encoding the information for the property of the object. haskell-giGenerate a placeholder property for those cases in which code generation failed. haskell-giGenerate gtk2hs compatible attribute labels (to ease porting). These are namespaced labels, for examples widgetSensitive. We take the list of methods, since there may be name clashes (an example is Auth::is_for_proxy method in libsoup, and the corresponding Auth::is-for-proxy property). When there is a clash we give priority to the method.1 Safe-Inferred"1 haskell-giData for a bidrectional pattern synonym. It is either a simple one of the form "pattern Name = value :: Type" or an explicit one of the form > pattern Name  -(view -; value) :: Type where > Name = expression value :: Type haskell-giAssign to the given name the given constant value, in a way that can be assigned to the corresponding Haskell type. haskell-giShow a basic type, in a way that can be assigned to the corresponding Haskell type.2 Safe-Inferred"D3  haskell-gi$Information about a dynamic wrapper. haskell-giHaskell dynamic wrapper haskell-giName of the type synonym for the type of the function to be wrapped. haskell-giThe foreign symbol to wrap. It is either a foreign symbol wrapped in a foreign import, in which case we are given the name of the Haskell wrapper, or alternatively the information about a "dynamic" wrapper in scope. haskell-giHaskell symbol in scope. haskell-giInfo about the dynamic wrapper. haskell-giSignature for a callable. haskell-giGenerate a foreign import for the given C symbol. Return the name of the corresponding Haskell identifier. haskell-giMake a wrapper for foreign FunPtrs of the given type. Return the name of the resulting dynamic Haskell wrapper. haskell-giGiven an argument to a function, return whether it should be wrapped in a maybe type (useful for nullable types). We do some sanity checking to make sure that the argument is actually nullable (a relatively common annotation mistake is to mix up (optional) with (nullable)). haskell-giGiven the list of arguments returns the list of constraints and the list of types in the signature. haskell-giWhether to skip the return value in the generated bindings. The C convention is that functions throwing an error and returning a gboolean set the boolean to TRUE iff there is no error, so the information is always implicit in whether we emit an exception or not, so the return value can be omitted from the generated bindings without loss of information (and omitting it gives rise to a nicer API). See 1https://bugzilla.gnome.org/show_bug.cgi?id=649657 haskell-giReturn the list of actions freeing the memory associated with the callable variables. This is run if the call to the C function succeeds, if there is an error freeInArgsOnError below is called instead. haskell-giReturn the list of actions freeing the memory associated with the callable variables. This is run in case there is an error during the call. haskell-gi>Callbacks are a fairly special case, we treat them separately. haskell-gi4Format the signature of the Haskell binding for the . haskell-gi5Name for the first argument in dynamic wrappers (the FunPtr). haskell-giThe Haskell signature for the given callable. It returns a tuple ([constraints], [(type, argname)]). haskell-giIn arguments for the given callable on the Haskell side, together with the omitted arguments. haskell-giOut6 arguments for the given callable on the Haskell side. haskell-gi2Convert the result of the foreign call to Haskell. haskell-giMarshal a foreign out argument to Haskell, returning the name of the variable containing the converted Haskell value. haskell-giConvert the list of out arguments to Haskell, returning the names of the corresponding variables containing the marshaled values. haskell-gi3Invoke the given C function, taking care of errors. haskell-giReturn the result of the call, possibly including out arguments. haskell-gi:Generate a Haskell wrapper for the given foreign function. haskell-giGenerate the body of the Haskell wrapper for the given foreign symbol. haskell-gicaller-allocates arguments are arguments that the caller allocates, and the called function modifies. They are marked as out argumens in the introspection data, we sometimes treat them as inout arguments instead. The semantics are somewhat tricky: for memory management purposes they should be treated as "in" arguments, but from the point of view of the exposed API they should be treated as "out" or "inout". Unfortunately we cannot always just assume that they are purely "out", so in many cases the generated API is somewhat suboptimal (since the initial values are not important): for example for g_io_channel_read_chars the size of the buffer to read is determined by the caller-allocates argument. As a compromise, we assume that we can allocate anything that is not a TCArray of length determined by an argument. haskell-gi!Some debug info for the callable. haskell-gi(Generate a wrapper for a known C symbol. haskell-giFor callbacks we do not need to keep track of which arguments are closures. haskell-giGenerate a wrapper for a dynamic C symbol (i.e. a Haskell function that will invoke its first argument, which should be a FunPtr of the appropriate type). The caller should have created a type synonym with the right type for the foreign symbol.3 Safe-Inferred"J\  haskell-giThe prototype of the callback on the Haskell side (what users of the binding will see)  haskell-giGenerate the type synonym for the prototype of the callback on the C side. Returns the name given to the type synonym.  haskell-gi&Generator for wrappers callable from C  haskell-giWrap the Haskell cb callback into a foreign function of the right type. Returns the name of the wrapped value.  haskell-giGenerator of closures  haskell-gi3A simple wrapper that drops every closure argument.  haskell-gi9The wrapper itself, marshalling to and from Haskell. The  argument is possibly a pointer to a FunPtr to free (via freeHaskellFunPtr) once the callback is run once, or Nothing if the FunPtr will be freed by someone else (the function registering the callback for ScopeTypeCall, or a destroy notifier for ScopeTypeNotified).  haskell-giCreate the newtype wrapping the ManagedPtr for the given type.  haskell-gi Generate wrapper for structures.  haskell-giGenerated wrapper for unions.  haskell-giWhen parsing the GIR file we add the implicit object argument to methods of an object. Since we are prepending an argument we need to adjust the offset of the length arguments of CArrays, and closure and destroyer offsets.  haskell-giGenerate an import for the gvalue getter for the given type. It returns the name of the function on the Haskell side.  haskell-giGenerate an import for the gvalue setter for the given type. It returns the name of the function on the Haskell side.  haskell-gi4Generate the GValue instances for the given GObject.  haskell-giType casting with type checking, returns the function returning the GType for the oject.  haskell-giWrap a given Object. We enforce that every Object that we wrap is a GObject. This is the case for everything except the ParamSpec* set of objects, we deal with these separately.  haskell-gi>Generate the code for a given API in the corresponding module.6 Safe-Inferred"W haskell-giIncluded overrides file. haskell-gi3Tag for the override, for error reporting purposes.  haskell-gi'Generate the code for the given module.  haskell-giWrite a module containing information about the configuration for the package.  haskell-giA convenience helper for  , such that bindings for the given module are generated in the  configure step of cabal. haskell-giThe entry point for Setup.hs files in bindings. haskell-gi Return the list of modules that setupHaskellGIBinding would create, together with the set of dependencies loaded while generating the code.  haskell-giname haskell-giversion haskell-gipkgName haskell-gi pkgVersion haskell-giverbose haskell-giExplicit overrides  haskell-giname haskell-giversion haskell-gipkgName haskell-gi pkgVersion haskell-giverbose haskell-gioverrides file haskell-giother overrides haskell-gi output dir haskell-gi previous   haskell-giname haskell-giversion haskell-gipkgName haskell-gi pkgVersion haskell-giverbose haskell-gioverrides file haskell-giExplicit overrides haskell-gi output dir haskell-giname haskell-giversion haskell-gipkgName haskell-gi pkgVersion haskell-giOverrides file haskell-giOther overrides to loadE Safe-Inferred"W 7 Safe-Inferred"`  haskell-giInfo for a given package.  haskell-giObtain the minor version. That is, if the given version numbers are x.y.z, so branch is [x,y,z], we return y.  haskell-giObtain the haskell-gi minor version. Notice that we only append the minor version here, ignoring revisions. (So if the version is x.y.z, we drop the "z" part.) This gives us a mechanism for releasing bug-fix releases of haskell-gi without increasing the necessary dependency on haskell-gi-base, which only depends on x.y.  haskell-giIf the haskell-gi version is of the form x.y[.z] and the pkgconfig version of the package being wrapped is a.b.c, this gives something of the form x.a.b.y.This strange seeming-rule is so that the packages that we produce follow the PVP, assuming that the package being wrapped follows the usual semantic versioning convention (http://semver.org) that increases in "a" indicate non-backwards compatible changes, increases in "b" backwards compatible additions to the API, and increases in "c" denote API compatible changes (so we do not need to regenerate bindings for these, at least in principle, so we do not encode them in the cabal version).In order to follow the PVP, then everything we need to do in the haskell-gi side is to increase x everytime the generated API changes (for a fixed a.b.c version).In any case, if such "strange" package numbers are undesired, or the wrapped package does not follow semver, it is possible to add an explicit cabal-pkg-version override. This needs to be maintained by hand (including in the list of dependencies of packages depending on this one), so think carefully before using this override!  haskell-giDetermine the next version for which the minor of the package has been bumped. haskell-giDetermine the pkg-config name and installed version (major.minor only) for a given module, or throw an exception if that fails.  haskell-giGiven a string a.b.c..., representing a version number, determine the major and minor versions, i.e. "a" and "b". If successful, return (a,b). haskell-giGenerate the cabal project. FGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdeefghijklmnoppqrstuvwxyz{|}~}                                                :                                                          !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!"""""""""""""#########$$$$$$%%&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&''''''''''''''''''''''<'''''%%%%%%(((((((((()))))))))***++,,--------------------------------------------...////////00012222222222222222222223344455666666777K77                                            `          !!!!!!!!!!!!!!!!!!!!!!!!!"""""""""""""""""""""""""""""""""""""""""$$$$$$$$$$&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&S&&&&&&&&&&&''%%%%%%%%%%%%%%(())))))))))))),,-----------///////////////////// / / / / 0 0 0 0 0 0 000 00 00 1 1 1 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 3 4 4 4 5 5 5 5 5 5 5 5 5 5 6 6 6 E E E E E E E E 7 7 7 7 7 7 haskell-gi-0.26.2-inplaceData.GI.CodeGen.GTypeData.GI.CodeGen.PkgConfigData.GI.CodeGen.ProjectInfoData.GI.CodeGen.UtilData.GI.CodeGen.ModulePathData.GI.CodeGen.LibGIRepositoryData.GI.GIR.AllocationData.GI.GIR.BasicTypesData.GI.CodeGen.TypeData.GI.CodeGen.GtkDocData.GI.GIR.ParserData.GI.GIR.RepositoryData.GI.GIR.XMLUtilsData.GI.GIR.DocumentationData.GI.GIR.DeprecationData.GI.GIR.TypeData.GI.GIR.EnumData.GI.GIR.FlagsData.GI.GIR.ConstantData.GI.GIR.ArgData.GI.GIR.PropertyData.GI.GIR.CallableData.GI.GIR.SignalData.GI.GIR.MethodData.GI.GIR.ObjectData.GI.GIR.InterfaceData.GI.GIR.FunctionData.GI.GIR.CallbackData.GI.GIR.FieldData.GI.GIR.UnionData.GI.GIR.StructData.GI.GIR.AliasData.GI.CodeGen.APIData.GI.CodeGen.OverridesData.GI.CodeGen.ConfigData.GI.CodeGen.FixupsData.GI.CodeGen.CtoHaskellMapData.GI.CodeGen.CodeData.GI.CodeGen.SymbolNamingData.GI.CodeGen.InheritanceData.GI.CodeGen.HaddockData.GI.CodeGen.GObject!Data.GI.CodeGen.OverloadedSignalsData.GI.CodeGen.EnumFlagsData.GI.CodeGen.ConversionsData.GI.CodeGen.TransferData.GI.CodeGen.StructData.GI.CodeGen.PropertiesData.GI.CodeGen.ConstantData.GI.CodeGen.CallableData.GI.CodeGen.Signal!Data.GI.CodeGen.OverloadedMethodsData.GI.CodeGen.CodeGenData.GI.CodeGen.CabalHooksData.GI.CodeGen.Cabal haskell-gi Data.GI.GIR parseGtkDocGI.SymbolNamingescapedArgName Data.VersionVersionGI.Gtk.Objects.Widgetshow Data.GI.Base attrTransferData.GI.Base.AttributesAttrSetTypeConstraintPaths_haskell_gihaskell-gi-base-0.26.3-inplaceData.GI.Base.BasicTypesGTypegtypeIsA gtypeIsBoxed tryPkgConfigpkgConfigGetVersionhomepageauthors maintainerslicensedefaultExtensionsotherExtensions ghcOptionsdefaultLanguage standardDepscategory licenseTextpadTo withCommentprime parenthesizetshowucFirstlcFirstmodifyQualifiedsplitOn utf8ReadFile utf8WriteFile printWarningterror ModulePathmodulePathToList toModulePath dotModulePath/.$fIsStringModulePath$fSemigroupModulePath$fMonoidModulePath$fEqModulePath$fShowModulePath$fOrdModulePath FieldInfofieldInfoOffsetTypelibsetupTypelibSearchPath girRequiregirStructFieldInfogirUnionFieldInfo girLoadGTypegirIsSymbolResolvable$fGBoxedBaseInfo$fTypedObjectBaseInfo$fHasParentTypesBaseInfo $fShowTypelib AllocationOpAllocationOpUnknownAllocationInfo allocCalloc allocCopy allocFreeunknownAllocationInfo$fShowAllocationInfo$fShowAllocationOp$fEqAllocationOpType TBasicTypeTErrorTVariantTGValue TParamSpecTCArrayTGArray TPtrArray TByteArrayTGListTGSListTGHash TGClosure TInterface BasicTypeTBooleanTIntTUIntTLongTULongTInt8TUInt8TInt16TUInt16TInt32TUInt32TInt64TUInt64TFloatTDoubleTUniCharTGTypeTUTF8 TFileNameTPtrTIntPtrTUIntPtrAliasTransferTransferNothingTransferContainerTransferEverythingName namespacename$fEqType $fShowType $fOrdType $fEqBasicType$fShowBasicType$fOrdBasicType $fOrdAlias $fEqAlias $fShowAlias$fShowTransfer $fEqTransfer $fOrdTransfer$fEqName $fOrdName $fShowNameTypeReptypeShow typeConNameconcon0ioptrfunptrmaybeT $fEqTypeRep $fEqTypeConGtkDocCRef FunctionRefOldFunctionRef MethodRefParamRef ConstantRef SignalRef OldSignalRefLocalSignalRef PropertyRefOldPropertyRef VMethodRefVFuncRefStructFieldRefCTypeRefTypeRefLanguageListItemLinklinkName linkAddressTokenLiteralCommentVerbatim CodeBlock ExternalLinkImageList SectionHeader SymbolRef $fShowGtkDoc $fEqGtkDoc $fShowToken $fEqToken$fShowListItem $fEqListItem $fShowCRef$fEqCRef $fOrdCRef$fShowLanguage $fEqLanguage $fShowLink$fEqLinkxml-conduit-1.9.1.1-94db8362e89267ce40747b01fc5d2f18585d4e36e7a5a91ebee9691442a61a75Text.XMLElementreadGiRepositoryGIRXMLNamespace GLibGIRNSCGIRNS CoreGIRNS nodeToElement subelements localNamechildElemsWithLocalNamechildElemsWithNSNamefirstChildWithLocalNamegetElementContent lookupAttrlookupAttrWithNamespace xmlLocalName xmlNSName$fShowGIRXMLNamespace Documentation rawDocText sinceVersionqueryDocumentation$fShowDocumentation$fEqDocumentation$fOrdDocumentationDeprecationInfodeprecatedSinceVersiondeprecationMessagequeryDeprecated$fShowDeprecationInfo$fEqDeprecationInfoParser ParseError ParseContext ctxNamespace treePositioncurrentElement knownAliases parseErrorcurrentNamespaceresolveQualifiedTypeNamegetAttrgetAttrWithNamespace queryAttrqueryAttrWithNamespace optionalAttr qualifyName parseNameparseDeprecationparseDocumentation parseIntegral parseBoolparseChildrenWithLocalNameparseAllChildrenWithLocalNameparseChildrenWithNSName runParser$fShowParseContext queryCType parseCType parseTypeparseOptionalTypequeryElementCTypeEnumerationMemberenumMemberNameenumMemberValue enumMemberCId enumMemberDoc Enumeration enumMembersenumErrorDomain enumTypeInitenumDocumentation enumCTypeenumStorageBytesenumDeprecated parseEnum$fShowEnumeration$fShowEnumerationMemberFlags parseFlags $fShowFlagsConstant constantType constantValue constantCTypeconstantDocumentationconstantDeprecated parseConstant$fShowConstantArgargCNameargType direction mayBeNullargDocargScope argClosure argDestroyargCallerAllocatestransferScopeScopeTypeInvalid ScopeTypeCallScopeTypeAsyncScopeTypeNotified Direction DirectionIn DirectionOutDirectionInout parseTransferparseArg $fShowArg$fEqArg$fOrdArg $fShowScope $fEqScope $fOrdScope$fShowDirection $fEqDirection$fOrdDirectionPropertypropNamepropType propFlagspropReadNullablepropWriteNullable propTransferpropDocpropDeprecated PropertyFlagPropertyReadablePropertyWritablePropertyConstructPropertyConstructOnly parseProperty$fShowProperty $fEqProperty$fShowPropertyFlag$fEqPropertyFlagCallable returnTypereturnMayBeNullreturnTransferreturnDocumentationargs skipReturncallableThrowscallableDeprecatedcallableDocumentationcallableResolvable parseCallable$fShowCallable $fEqCallableSignalsigName sigCallable sigDeprecated sigDetailedsigDoc parseSignal $fShowSignal $fEqSignalMethod methodName methodSymbol methodType methodMovedTomethodCallable MethodType ConstructorMemberFunctionOrdinaryMethod parseMethod $fEqMethod $fShowMethod$fEqMethodType$fShowMethodTypeObject objParent objTypeInit objTypeNameobjCType objRefFunc objUnrefFuncobjSetValueFuncobjGetValueFunc objInterfaces objDeprecatedobjDocumentation objMethods objProperties objSignals parseObject $fShowObject Interface ifTypeInitifCTypeifDocumentationifPrerequisites ifProperties ifSignals ifMethodsifAllocationInfo ifDeprecatedparseInterface$fShowInterfaceFunctionfnSymbol fnMovedTo fnCallable parseFunction$fShowFunctionCallback cbCallablecbCTypecbDocumentation parseCallback$fShowCallback FieldInfoFlagField fieldName fieldVisible fieldTypefieldIsPointer fieldCallback fieldOffset fieldFlagsfieldDocumentationfieldDeprecated parseFields $fShowField$fShowFieldInfoFlagUnion unionIsBoxedunionAllocationInfounionDocumentation unionSize unionTypeInit unionFields unionMethods unionCTypeunionDeprecated parseUnion $fShowUnionStruct structIsBoxedstructAllocationInfostructTypeInit structCType structSizegtypeStructForstructIsDisguisedstructForceVisible structFields structMethodsstructDeprecatedstructDocumentation parseStruct $fShowStructdocumentListAliasesAPIAPIConst APIFunction APICallbackAPIEnumAPIFlags APIInterface APIObject APIStructAPIUnionGIRRule GIRSetAttr GIRDeleteAttr GIRAddNode GIRDeleteNode GIRNameTag GIRPlainNameGIRRegex GIRNodeSpecGIRNamedGIRType GIRTypedNameGIRPathGIRInfo girPCPackages girNSName girNSVersiongirAPIs girCTypesloadRawGIRInfo loadGIRInfo $fShowGIRInfo$fShowGIRInfoParse$fShowGIRNamespace $fShowAPI $fShowGIRRule$fShowGIRNodeSpec$fShowGIRNameTag Overrides pkgConfigMapcabalPkgVersionnsChooseVersion girFixups onlineDocsMapparseOverridesfilterAPIsAndDeps$fSemigroupOverrides$fMonoidOverrides $fShowOSType$fShowParserState$fShowOverridesConfigmodName modVersion ghcPkgName ghcPkgVersionverbose overrides $fShowConfigdropMovedItemsguessPropertyNullability detectGObjectdropDuplicatedFieldscheckClosureDestructorsfixSymbolNaming Hyperlink cToHaskellMapCPPGuardCPPOverloading CPPMinVersion ExcCodeGenCodeGenCGError BaseVersionBase47Base48 ModuleFlagImplicitPrelude ModuleInfo moduleCode sectionDocs NamedSection MethodSectionPropertySection SignalSection EnumSection FlagSectionHaddockSectionToplevelSectionSectionNamedSubsectionCodeshowBaseVersionrecurseWithAPIs submodule handleCGExcgetDepsconfig currentModulegetAPIs getC2HMap evalCodeGengenCoderegisterNSDependencytransitiveModuleDeps qualifiedminBaseVersion printCGErrornotImplementedError badIntroErrormissingInfoErrorgetFreshTypeVariableresetTypeVariableScopefindAPIgetAPI findAPIByNamelineblineblankcommentindentincreaseIndentgroupcppIfhsBoot exportModule exportDeclexportsetLanguagePragmasaddLanguagePragma setGHCOptionssetModuleFlagssetModuleMinBaseaddSectionFormattedDocsprependSectionFormattedDocs codeToTextwriteModuleTreelistModuleTree$fEqSubsection$fShowSubsection$fOrdSubsection $fShowCGError$fShowBaseVersion$fEqBaseVersion$fOrdBaseVersion$fShowModuleFlag$fEqModuleFlag$fOrdModuleFlag $fShowExport $fEqExport $fOrdExport$fShowExportType$fEqExportType$fOrdExportType$fShowHaddockSection$fEqHaddockSection$fOrdHaddockSection$fShowNamedSection$fEqNamedSection$fOrdNamedSection $fEqCodeToken$fOrdCodeToken$fShowCodeToken$fSemigroupCode $fMonoidCode$fEqCode $fShowCode $fOrdCode$fEqCPPConditional$fShowCPPConditional$fOrdCPPConditionalclassConstraintsafeCasttypeConstraint callbackCTypecallbackHTypeWithClosurescallbackDynamicWrappercallbackHaskellToForeign$callbackHaskellToForeignWithClosurescallbackDropClosurescallbackWrapperAllocatorcallbackClosureGenerator lowerName lowerSymbol upperNamesubmoduleLocationmoduleLocationnormalizedAPIName qualifiedAPIqualifiedSymbolhyphensToCamelCaseunderscoresToCamelCasesignalInfoNamesignalHaskellNamehackageModuleLinkhaddockSignalAnchorhaddockAttrAnchorValueIdentifierTypeIdentifier ModuleLinkModuleLinkWithAnchor$fShowHyperlink $fEqHyperlink instanceTreefullObjectPropertyListfullInterfacePropertyListfullObjectSignalListfullInterfaceSignalListfullObjectMethodListfullInterfaceMethodList$fInheritableMethod$fInheritableSignal$fInheritablePropertyRelativeDocPositionDocBeforeSymbolDocAfterSymboldeprecatedPragmawriteDocumentation writeHaddockwriteArgDocumentationwriteReturnDocumentationaddSectionDocumentation isGObject nameIsGObject apiIsGObjectgenObjectSignalsgenInterfaceSignalsgenEnumgenFlags TypeAllocInfo TypeAllocExposeClosures WithClosuresWithoutClosuresPMIdapplymapCliteral genConversioncomputeArrayLengthconverthToFfToH transientToH unpackCArray argumentType haskellTypecallableHasClosurestypeIsCallbackisoHaskellType foreignType typeAllocInfo isManaged typeIsPtrmaybeNullConvertnullPtrForTypetypeIsNullableelementTypeAndMap elementType elementMap $fMonadFree$fApplicativeFree $fFunctorFree$fIsStringConstructor$fEqExposeClosures $fShowFExpr$fFunctorFExpr $fShowMap$fEqConstructor$fShowConstructorfreeContainerType freeInArgfreeInArgOnError ignoreStruct fixAPIStructsextractCallbacksInStructgenStructOrUnionFields genZeroStruct genZeroUniongenBoxed genWrappedPtrgenObjectPropertiesgenInterfacePropertiesgenNamespacedPropLabels genConstant ForeignSymbolKnownForeignSymbolDynamicForeignSymbol SignaturesignatureCallablesignatureConstraintssignatureArgTypessignatureReturnTypehOutType wrapMaybeinArgInterfacesarrayLengthsMap arrayLengths skipRetValcallableSignaturecallableHInArgscallableHOutArgsfixupCallerAllocatesgenCCallableWrappergenDynamicCallableWrapper genCallback genSignal genMethodList genMethodInfogenUnsupportedMethodInfo genFunction genModuleTaggedOverride overrideTag overrideText setupBindingconfigureDryRun cabalConfigsetupHsgenCabalProject $fShowPkgInfo text-2.0.1Data.Text.InternalTextbaseGHC.ErrerrorGHC.BaseStringBaseInfogirPrependSearchPath!g_irepository_prepend_search_path girFindByName getFieldInfogirLookupSymbol girSymbolTypeConghc-prim GHC.TypesIO GHC.MaybeMayberestoreSHPreNewlinesparseSectionHeaderparseInitialSectionHeaderrestoreListPreNewline parseListcoalesceLiterals parseTokens parseTokenisCIdent parseCIdentparseFunctionRefparseIdparseOldFunctionRefparseNewFunctionRefparseConstructor parseClassparseOldSignalparseNewSignalparseLocalSignalparseOldPropertyparseNewProperty parseCommentparseOldVMethod parseVFunc parseVMethodparseStructField parseParamsignalOrPropName parseEscapedparseBoringLiteralspecial parseVerbatimparseUrl parseImageparseCodeBlockparseNewStyleCodeBlockparseOldStyleCodeBlock parseLanguage girDataDirsbuildSearchPathgirFile girNamespacexml-types-0.3.8-d12692915d38dfc20f08be7aa3b717764ed74384541a9eb189aa68918775f6bbData.XML.TypeselementDescriptionnameInCurrentNS withElementnameToBasicTypeparseArrayInfoparseCArrayTypeparseHashTable parseClosure parseListTypeparseFundamentalType parseTypeName parseTypeInfoNothingparseTypeElementsparseCTypeNameElements queryTypeparseEnumMemberextractEnumStorageBytesresolveInternalTypepspec_type_init parseFieldnamespaceListAliases parseAliases parseAliasdocumentListIncludesloadDependencies loadGIRFile toGIRInfo fixupGIRInfosgtypeInterfaceListPrereqsfixupInterface fixupStructfixupStructIsBoxedfixupStructSizeAndOffsets fixupUnionfixupUnionSizeAndOffsets fixupFieldfixupMissingSymbolsresolveTypelibfixupMethodMissingSymbolsfixupFunctionSymbolsoverrideGIRDocument overrideGIR girSetAttr girDeleteAttr girAddNodegirDeleteNodeslookupAndMatch specMatchOSType ParserState currentNSflagsFalse ignoredElems ignoredAPIs sealedStructs allocInfodefaultOverridesconcatOverridesemptyParserStategetNS withFlags parseOneLine parseIgnore parseSealparseAllocInfoparseKeyValuePairparsePkgConfigNameparseNsVersionparseCabalPkgVersion parseSetAttrparseDeleteAttrparseAdd parseDelete parseDocsUrl parsePathSpecparseGIRNameTag parseNodeSpec parseXMLNamecheckOS parseVersioncheckPkgConfigVersionparseIf parseEndif parseInclude filterMethodsfilterAllocInfo filterOneAPI filterAPIsfilterMovedMethodsguessObjectPropertyNullability!guessInterfacePropertyNullabilityguessNullabilityguessReadNullabilityguessWriteNullability findMethoddropDuplicatedEnumFieldscheckCallableDestructorsfixConstantName Subsection NamedTyvarSingleCharTyvar IndexedTyvarCGStatecgsCPPConditionalscgsNextAvailableTyvar CodeGenConfighConfig loadedAPIsc2hMap modulePathbootCode submodules moduleDeps moduleExportsqualifiedImports modulePragmas moduleGHCOpts moduleFlags moduleMinBase ExportType ExportSymbolExportTypeDecl ExportModuleExport exportType exportSymbol exportGuards SymbolName CodeTokenLineIndentGroupIncreaseIndentCPPBlockCPPConditionalCPPIf emptyCode isCodeEmpty codeSingleton emptyModule emptyCGState runCodeGen cleanInfomconcat recurseCGrecurseWithStatemergeInfoState mergeInfo addSubmodule submodule' unwrapCodeGentransformers-0.5.6.2Control.Monad.Trans.Except runExceptqualifiedImportqualifiedModuleNametellCode cppIfBlock exportPartial cppCondFormat paddedLine paddedLinescomma formatExportformatExportedModulesformatToplevelformatTypeDeclssubsecWithPrefixmainSectionName formatSectionformatSubsectionExportsformatExportListlanguagePragmas cppMacrosstandardFields moduleHaddockformatHaddockComment modulePrelude importDeps moduleImports dotWithPrefixwriteModuleInfo genHsBootmodulePathToFilePathsanitizeescapeReservedfullyQualifiedValuefullyQualifiedType constRefsfuncRefsenumRefs methodRefs signalRefspropRefs maybeCType callbackRefs structRefs unionRefs ifaceRefs objectRefs getParentremoveDuplicates formatHaddockformatUnknownCRef formatCRefformatHyperlinkformatCodeBlock qualifiedWith formatLink formatImageformatSectionHeader formatListescape getDocBaseformatDocumentationdropDuplicatedgenErrorDomain FFIPtrTypeFFIPtr FFIFunPtrFreeliftFhashTableKeyMappingshashTablePtrPackers wrapTransientforeignBasicTypetypeIsEnumOrFlag typePtrTypeisIgnoredStructTypefieldCallbackTypefixCallbackStructFieldsinfoType isEmbedded fieldGetter getterDocbuildFieldReader fieldSetter setterDocbuildFieldWriter fieldClearclearDocbuildFieldClearisRegularCallbackfieldTransferTypeConstraintfieldTransferTypegenFieldTransferfName labelName genAttrInfobuildFieldAttributes genZeroSUprefixedForeignImportgenBoxedGValueInstancecastProppropSetTypeConstraintpropTransferTypeConstraintpropTransferTypegenPropTransferattrTypeconstructorDoc hPropNamegenPlaceholderPropertyPatternSynonym assignValue showBasicTypeDynamicWrapperdynamicWrapper dynamicTypemkForeignImportmkDynamicImport freeInArgsfreeInArgsOnErrorprepareInCallbackformatHSignaturefunPtr convertResult convertOutArgconvertOutArgsinvokeCFunction returnResultgenHaskellWrappergenWrapperBodygenCallableDebugInfoforgetClosuresgenHaskellCallbackPrototypegenCCallbackPrototypegenCallbackWrapperFactorygenWrappedCallback genClosuregenDropClosuresgenCallbackWrappergenSignalInfoInstanceprocessSignalErrorgenSignalConnectormethodInfoNamegenMethodResolvermethodListDocumentation genNewtype genStructgenUnion fixMethodArgsgenGValueGettergenGValueSettergenGValueInstancegenCasts genObject genAPIModule genModuleCodegenConfigModuleconfCodeGenHook Cabal-3.8.1.0Distribution.Simple.UserHooksconfHookversion getBinDir getLibDir getDynLibDir getDataDir getLibexecDirgetDataFileName getSysconfDirPkgInfo minorVersionhaskellGIMinorgiModuleVersion giNextMinorreadMajorMinor