Another defs file draft
- From: Havoc Pennington <hp redhat com>
- To: gtk-devel-list redhat com
- Subject: Another defs file draft
- Date: 01 Feb 2000 14:51:11 -0500
Hi,
I forget which draft number we are on.
Havoc
ChangeLog:
- for enums, use "nick" instead of "name" attribute
- default can-return-null to #t
- types have "parametric" attribute specifying a container type
- function parameters have "type-parameter" attribute specifying
the type of contained objects
The overall syntax is:
(type-of-thing-being-defined name-used-to-refer-to-this-thing
(attribute-name attribute-value-depending-on-the-attribute)
(attribute-name attribute-value-depending-on-the-attribute)
(attribute-name attribute-value-depending-on-the-attribute))
Some definitions can have a c-declaration field that gives the C code
we parsed to arrive at the definition. The c-declaration is a quoted
string because it can contain parentheses and such.
Defined types and their attributes:
===
(module module-name
(submodule-of module-name)) ;; submodule is optional
Ex: (module Gtk)
Ex: (module Rgb
(submodule-of Gdk))
modules are later referred to with a list of module names, like
(Gdk Rgb) or (Gtk)
Object and boxed type definitions automatically create a submodule.
For example, GtkCList creates the module (module CList (submodule-of
(Gtk))) which is referred to as module (Gtk CList).
===
(type
(alias some-unique-identifier)
(in-module module-name) ;; optional, gchar* is not in a module
(gtk-type-id gtk-type-system-id) ;; optional, absent if this is not
;; in the type system
(is-parametric boolean) ;; optional default to #f
(in-c-name name-of-symbol-in-C)
(out-c-name name-of-symbol-in-C)
(inout-c-name name-of-symbol-in-C))
Ex: (type
(alias string)
(gtk-type-id GTK_TYPE_STRING)
(in-c-name "const gchar*")
(out-c-name "gchar**") ;; actually I'm not sure how strings work out/inout
(inout-c-name "gchar*"))
(type
(alias list)
(gtk-type-id GTK_TYPE_POINTER)
(is-parametric #t)
(in-c-name "GList*")
(out-c-name "GList**")
(inout-c-name "GList**"))
;; This one would be implied by the (object) def for GtkWidget I
;; think - (type) is only required for types that are not implied
;; by other definitions, such as int/boolean/etc.
(type
(alias GtkWidget)
(in-module (Gtk))
(gtk-type-id GTK_TYPE_WIDGET)
(in-c-name "GtkWidget*")
(inout-c-name "GtkWidget*")
(out-c-name "GtkWidget**"))
"Type" bindings are automatically assumed for objects, boxed types,
etc. as defined below.
The alias field is used to refer to the type later on.
Whenever a type alias can be used, it is also possible to use the
keyword "native", which implies that the type in question is too
C-specific to represent. Then a c-declaration will typically be
available for use.
C types containing [] or () are function pointers or arrays. For
arrays that don't specify a size, we just treat them as pointers. For
function pointers, we need special (type) syntax/attributes of some
kind, but since there basically aren't any of these right now in the
libs we care about we can just ignore them. For arrays that specify a
size ditto, you would handle them by adding an (array-size) attribute
or something or using the "native" keyword and skipping the (type)
stuff.
===
(object object-name
(in-module module-name-list)
(parent object-name optional-module-name-if-different)
(abstract boolean-is-abstract-class) ;; omit for default of #f
(c-name name-of-the-object-in-C)
(field (type-and-name type-alias-of-struct-field name-of-struct-field)
(access read-or-write-or-readwrite)))
Ex: (object Widget
(in-module (Gtk))
(parent Object) ;; could say (parent Object (Gtk))
(abstract #t)
(c-name GtkWidget)
(field (type-and-name GdkWindow* window) (access read)))
An "object" declaration automatically implies the type definition:
(type
(alias concat-module-elements-and-object-name)
(in-c-name pointer-to-c-name)
(out-c-name pointer-to-pointer-to-c-name)
(inout-c-name pointer-to-c-name))
Ex:
(type (alias GtkWidget)
(in-c-name GtkWidget*)
(out-c-name GtkWidget**)
(inout-c-name GtkWidget*))
It also implies a module that is the name broken into parts:
(module CTree
(submodule-of Gtk))
===
(function function-name
(in-module module-name-list) ;; "static methods" go in their
;; object's module
(is-constructor-of object-type-alias) ;; optional, marks a constructor
(c-name function-name)
(return-type return-value-type) ;; defaults to void
(caller-owns-return boolean-value) ;; defaults to #f
(can-return-null boolean-value) ;; defaults to #t
(parameter in-or-out-or-inout
(type-and-name parameter-type-alias parameter-name)
(type-parameter name-of-contained-type) ;; optional, requires parametric type
(c-declaration "c-type-and-name")) ;; c-declaration only required
;; if the type alias is "native"
(varargs #t) ;; has varargs at the end
)
Ex:
(function init
(in-module (Gdk Rgb)
(c-name gdk_rgb_init)))
Ex:
(function new
(in-module (Gdk Rgb Cmap))
(is-constructor-of GdkRgbCmap)
(c-name gdk_rgb_cmap_new)
(return-type GdkRgbCmap)
(caller-owns-return #t) ;; perhaps this could be implied by is-constructor-of
(parameter in (type-and-name array-of-guint32 colors))
(parameter in (type-and-name gint n_colors)))
Ex:
(function config_set_set_handler
(in-module (Gnome))
(c-name gnome_config_set_set_handler)
(parameter in (type-and-name native func)
(c-declaration "void (*func)(void*)"))
(parameter in (type-and-name gpointer data)))
===
(method method-name
(of-object object-name module-name)
;; retval/arg attributes as for (function), but with first parameter
;; omitted for non-constructors
)
Ex:
(method set_text
(of-object Label (Gtk))
(parameter (type-and-name const-gchar* str)))
===
(object-argument arg-name
(of-object object-we-are-an-argument-of optional-objects-module)
(type-id argument-type) ;; GTK_TYPE_OBJECT etc.
;; flags all default to #f
(readable bool-value)
(writeable bool-value)
(construct-only bool-value))
Ex:
(object-argument label
(of-object Label (Gtk))
(type GTK_TYPE_STRING)
(readable #t)
(writeable #t))
===
(signal signal-name
(run-action bool-value)
(run-first bool-value)
(run-last bool-value)
(of-object object-we-are-a-signal-of optional-objects-module)
;; return value and parameters as for a function, omitting the object
;; and user data parameters
;; what other properties matter for a signal?
)
Ex:
(signal select_row
(of-object CList (Gtk))
(run-first #t)
;; return type defaults to void
(parameter in (type-and-name gint row))
(parameter in (type-and-name gint column))
(parameter in (type-and-name GdkEvent* event)))
===
(enum enum-name
(in-module modname)
(c-name name-in-c)
(value (nick value-name-noprefixes-hyphen-lowercase) (c-name value-c-name)))
Ex:
(enum DirectionType
(in-module Gtk)
(c-name GtkDirectionType)
(value (nick tab-forward) (c-name GTK_DIR_TAB_FORWARD))
(value (nick tab-backward) (c-name GTK_DIR_TAB_BACKWARD))
(value (nick up) (c-name GTK_DIR_UP))
(value (nick down) (c-name GTK_DIR_DOWN))
(value (nick left) (c-name GTK_DIR_LEFT))
(value (nick right) (c-name GTK_DIR_RIGHT)))
(enum Pos
(in-module (Gtk CTree))
(c-name GtkCTreePos)
(value (nick before) (c-name GTK_CTREE_POS_BEFORE))
(value (nick as-child) (c-name GTK_CTREE_POS_AS_CHILD))
(value (nick after) (c-name GTK_CTREE_POS_AFTER)))
===
(flags) is just like enum, but some bindings may wrap enums and flags differently.
===
(boxed boxed-name
(in-module modname)
(c-name c-name)
(ref-func func-to-increase-refcount)
(copy-func func-to-copy)
(release-func func-to-destroy-or-decrement-refcount)
(field (type-and-name type-alias-of-struct-field name-of-struct-field) (access access-rule)))
It is never OK to use memcpy() to copy a boxed type, or use
malloc()/free() to alloc/free one.
Ex:
(boxed Pixmap
(in-module (Gdk))
(c-name GdkPixmap)
(ref-func pixmap_ref)
(release-func pixmap_unref))
An "object" declaration automatically implies the type definition:
(type
(alias concat-module-elements-and-boxed-name)
(in-c-name pointer-to-c-name)
(out-c-name pointer-to-pointer-to-c-name)
(inout-c-name pointer-to-c-name))
Ex:
(type (alias GdkPixmap)
(in-c-name GdkPixmap*)
(out-c-name GdkPixmap**)
(inout-c-name GdkPixmap*))
===
(struct struct-name
(in-module modname)
(c-name c-name)
(field (type-and-name type-alias-of-struct-field name-of-struct-field) (access access-rule)))
Unlike a boxed type, a struct type can be copied with memcpy() and
allocated on the stack or with g_malloc().
Ex:
(struct Rectangle
(in-module (Gdk))
(c-name GdkRectangle)
(field (type-and-name gint16 x) (access readwrite))
(field (type-and-name gint16 y) (access readwrite))
(field (type-and-name guint16 width) (access readwrite))
(field (type-and-name guint16 height) (access readwrite)))
Implies GdkRectangle type alias:
(type (alias GdkRectangle)
(in-c-name GdkRectangle*)
(out-c-name GdkRectangle*) ;; note - not the same as boxed types
(inout-c-name GdkRectangle*))
===
(user-function name
(in-module module)
(c-name c-typedef-name)
;; return-type and parameters as for (function)
)
Ex:
(user-function PrintFunc
(in-module (Gtk))
(parameter in (type-and-name gpointer func_data))
(parameter in (type-and-name gchar* str)))
===
(typedef new-name
(in-module module)
(c-name c-full-name)
(orig-type alias-of-orig-type))
Ex:
(typedef Type
(in-module (Gtk))
(c-name GtkType)
(orig-type guint))
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