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glib/girepository/gibaseinfo.c
Michael Catanzaro 12fcbcfa41 gibaseinfo: fully initialize GTypeInfo before registering it
2024-09-18 01:48:36 +01:00

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/* -*- mode: C; c-file-style: "gnu"; indent-tabs-mode: nil; -*-
* GObject introspection: Base struct implementation
*
* Copyright (C) 2005 Matthias Clasen
* Copyright (C) 2008,2009 Red Hat, Inc.
*
* SPDX-License-Identifier: LGPL-2.1-or-later
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*/
#include "config.h"
#include <stdlib.h>
#include <string.h>
#include <glib.h>
#include <glib-object.h>
#include <gobject/gvaluecollector.h>
#include "gitypelib-internal.h"
#include "girepository-private.h"
#include "gibaseinfo.h"
#include "gibaseinfo-private.h"
#define INVALID_REFCOUNT 0x7FFFFFFF
/* Type registration of BaseInfo. */
#define GI_BASE_INFO_GET_CLASS(obj) (G_TYPE_INSTANCE_GET_CLASS ((obj), GI_TYPE_BASE_INFO, GIBaseInfoClass))
static void
value_base_info_init (GValue *value)
{
value->data[0].v_pointer = NULL;
}
static void
value_base_info_free_value (GValue *value)
{
if (value->data[0].v_pointer != NULL)
gi_base_info_unref (value->data[0].v_pointer);
}
static void
value_base_info_copy_value (const GValue *src,
GValue *dst)
{
if (src->data[0].v_pointer != NULL)
dst->data[0].v_pointer = gi_base_info_ref (src->data[0].v_pointer);
else
dst->data[0].v_pointer = NULL;
}
static void *
value_base_info_peek_pointer (const GValue *value)
{
return value->data[0].v_pointer;
}
static char *
value_base_info_collect_value (GValue *value,
guint n_collect_values,
GTypeCValue *collect_values,
guint collect_flags)
{
GIBaseInfo *info = collect_values[0].v_pointer;
if (info == NULL)
{
value->data[0].v_pointer = NULL;
return NULL;
}
if (info->parent_instance.g_class == NULL)
return g_strconcat ("invalid unclassed GIBaseInfo pointer for "
"value type '",
G_VALUE_TYPE_NAME (value),
"'",
NULL);
value->data[0].v_pointer = gi_base_info_ref (info);
return NULL;
}
static char *
value_base_info_lcopy_value (const GValue *value,
guint n_collect_values,
GTypeCValue *collect_values,
guint collect_flags)
{
GIBaseInfo **node_p = collect_values[0].v_pointer;
if (node_p == NULL)
return g_strconcat ("value location for '",
G_VALUE_TYPE_NAME (value),
"' passed as NULL",
NULL);
if (value->data[0].v_pointer == NULL)
*node_p = NULL;
else if (collect_flags & G_VALUE_NOCOPY_CONTENTS)
*node_p = value->data[0].v_pointer;
else
*node_p = gi_base_info_ref (value->data[0].v_pointer);
return NULL;
}
static void
gi_base_info_finalize (GIBaseInfo *self)
{
if (self->ref_count != INVALID_REFCOUNT &&
self->container && self->container->ref_count != INVALID_REFCOUNT)
gi_base_info_unref (self->container);
}
static void
gi_base_info_class_init (GIBaseInfoClass *klass)
{
klass->info_type = GI_INFO_TYPE_INVALID;
klass->finalize = gi_base_info_finalize;
}
static void
gi_base_info_init (GIBaseInfo *self)
{
/* Initialise a dynamically allocated #GIBaseInfos members.
*
* This function *must* be kept in sync with gi_info_init(). */
g_atomic_ref_count_init (&self->ref_count);
}
GType
gi_base_info_get_type (void)
{
static GType base_info_type = 0;
if (g_once_init_enter_pointer (&base_info_type))
{
static const GTypeFundamentalInfo finfo = {
(G_TYPE_FLAG_CLASSED |
G_TYPE_FLAG_INSTANTIATABLE |
G_TYPE_FLAG_DERIVABLE |
G_TYPE_FLAG_DEEP_DERIVABLE),
};
static const GTypeValueTable value_table = {
value_base_info_init,
value_base_info_free_value,
value_base_info_copy_value,
value_base_info_peek_pointer,
"p",
value_base_info_collect_value,
"p",
value_base_info_lcopy_value,
};
const GTypeInfo type_info = {
/* Class */
sizeof (GIBaseInfoClass),
(GBaseInitFunc) NULL,
(GBaseFinalizeFunc) NULL,
(GClassInitFunc) gi_base_info_class_init,
(GClassFinalizeFunc) NULL,
NULL,
/* Instance */
sizeof (GIBaseInfo),
0,
(GInstanceInitFunc) gi_base_info_init,
/* GValue */
&value_table,
};
GType _base_info_type =
g_type_register_fundamental (g_type_fundamental_next (),
g_intern_static_string ("GIBaseInfo"),
&type_info, &finfo,
G_TYPE_FLAG_ABSTRACT);
g_once_init_leave_pointer (&base_info_type, _base_info_type);
}
return base_info_type;
}
/*< private >
* gi_base_info_type_register_static:
* @type_name: the name of the type
* @instance_size: size (in bytes) of the types instance struct
* @class_init: class init function for the type
* @parent_type: [type@GObject.Type] for the parent type; this will typically be
* `GI_TYPE_BASE_INFO`
* @type_flags: flags for the type
*
* Registers a new [type@GIRepository.BaseInfo] type for the given @type_name
* using the type information provided.
*
* Returns: the newly registered [type@GObject.Type]
* Since: 2.80
*/
GType
gi_base_info_type_register_static (const char *type_name,
size_t instance_size,
GClassInitFunc class_init,
GType parent_type,
GTypeFlags type_flags)
{
GTypeInfo info;
g_assert (instance_size <= G_MAXUINT16);
info.class_size = sizeof (GIBaseInfoClass);
info.base_init = NULL;
info.base_finalize = NULL;
info.class_init = class_init;
info.class_finalize = NULL;
info.class_data = NULL;
info.instance_size = (guint16) instance_size;
info.n_preallocs = 0;
info.instance_init = NULL;
info.value_table = NULL;
return g_type_register_static (parent_type, type_name, &info, type_flags);
}
static GType gi_base_info_types[GI_INFO_TYPE_N_TYPES];
#define GI_DEFINE_BASE_INFO_TYPE(type_name, TYPE_ENUM_VALUE) \
GType \
type_name ## _get_type (void) \
{ \
gi_base_info_init_types (); \
g_assert (gi_base_info_types[TYPE_ENUM_VALUE] != G_TYPE_INVALID); \
return gi_base_info_types[TYPE_ENUM_VALUE]; \
}
GI_DEFINE_BASE_INFO_TYPE (gi_callable_info, GI_INFO_TYPE_CALLABLE)
GI_DEFINE_BASE_INFO_TYPE (gi_function_info, GI_INFO_TYPE_FUNCTION)
GI_DEFINE_BASE_INFO_TYPE (gi_callback_info, GI_INFO_TYPE_CALLBACK)
GI_DEFINE_BASE_INFO_TYPE (gi_registered_type_info, GI_INFO_TYPE_REGISTERED_TYPE)
GI_DEFINE_BASE_INFO_TYPE (gi_struct_info, GI_INFO_TYPE_STRUCT)
GI_DEFINE_BASE_INFO_TYPE (gi_union_info, GI_INFO_TYPE_UNION)
GI_DEFINE_BASE_INFO_TYPE (gi_enum_info, GI_INFO_TYPE_ENUM)
GI_DEFINE_BASE_INFO_TYPE (gi_flags_info, GI_INFO_TYPE_FLAGS)
GI_DEFINE_BASE_INFO_TYPE (gi_object_info, GI_INFO_TYPE_OBJECT)
GI_DEFINE_BASE_INFO_TYPE (gi_interface_info, GI_INFO_TYPE_INTERFACE)
GI_DEFINE_BASE_INFO_TYPE (gi_constant_info, GI_INFO_TYPE_CONSTANT)
GI_DEFINE_BASE_INFO_TYPE (gi_value_info, GI_INFO_TYPE_VALUE)
GI_DEFINE_BASE_INFO_TYPE (gi_signal_info, GI_INFO_TYPE_SIGNAL)
GI_DEFINE_BASE_INFO_TYPE (gi_vfunc_info, GI_INFO_TYPE_VFUNC)
GI_DEFINE_BASE_INFO_TYPE (gi_property_info, GI_INFO_TYPE_PROPERTY)
GI_DEFINE_BASE_INFO_TYPE (gi_field_info, GI_INFO_TYPE_FIELD)
GI_DEFINE_BASE_INFO_TYPE (gi_arg_info, GI_INFO_TYPE_ARG)
GI_DEFINE_BASE_INFO_TYPE (gi_type_info, GI_INFO_TYPE_TYPE)
GI_DEFINE_BASE_INFO_TYPE (gi_unresolved_info, GI_INFO_TYPE_UNRESOLVED)
void
gi_base_info_init_types (void)
{
static size_t register_types_once = 0;
if (g_once_init_enter (&register_types_once))
{
const struct
{
GIInfoType info_type;
const char *type_name;
size_t instance_size;
GClassInitFunc class_init;
GIInfoType parent_info_type; /* 0 for GIBaseInfo */
GTypeFlags type_flags;
}
types[] =
{
{ GI_INFO_TYPE_CALLABLE, "GICallableInfo", sizeof (GICallableInfo), gi_callable_info_class_init, 0, G_TYPE_FLAG_ABSTRACT },
{ GI_INFO_TYPE_FUNCTION, "GIFunctionInfo", sizeof (GIFunctionInfo), gi_function_info_class_init, GI_INFO_TYPE_CALLABLE, G_TYPE_FLAG_NONE },
{ GI_INFO_TYPE_CALLBACK, "GICallbackInfo", sizeof (GICallbackInfo), gi_callback_info_class_init, GI_INFO_TYPE_CALLABLE, G_TYPE_FLAG_NONE },
{ GI_INFO_TYPE_REGISTERED_TYPE, "GIRegisteredTypeInfo", sizeof (GIRegisteredTypeInfo), gi_registered_type_info_class_init, 0, G_TYPE_FLAG_ABSTRACT },
{ GI_INFO_TYPE_STRUCT, "GIStructInfo", sizeof (GIStructInfo), gi_struct_info_class_init, GI_INFO_TYPE_REGISTERED_TYPE, G_TYPE_FLAG_NONE },
{ GI_INFO_TYPE_UNION, "GIUnionInfo", sizeof (GIUnionInfo), gi_union_info_class_init, GI_INFO_TYPE_REGISTERED_TYPE, G_TYPE_FLAG_NONE },
{ GI_INFO_TYPE_ENUM, "GIEnumInfo", sizeof (GIEnumInfo), gi_enum_info_class_init, GI_INFO_TYPE_REGISTERED_TYPE, G_TYPE_FLAG_NONE },
{ GI_INFO_TYPE_FLAGS, "GIFlagsInfo", sizeof (GIFlagsInfo), gi_flags_info_class_init, GI_INFO_TYPE_ENUM, G_TYPE_FLAG_NONE },
{ GI_INFO_TYPE_OBJECT, "GIObjectInfo", sizeof (GIObjectInfo), gi_object_info_class_init, GI_INFO_TYPE_REGISTERED_TYPE, G_TYPE_FLAG_NONE },
{ GI_INFO_TYPE_INTERFACE, "GIInterfaceInfo", sizeof (GIInterfaceInfo), gi_interface_info_class_init, GI_INFO_TYPE_REGISTERED_TYPE, G_TYPE_FLAG_NONE },
{ GI_INFO_TYPE_CONSTANT, "GIConstantInfo", sizeof (GIConstantInfo), gi_constant_info_class_init, 0, G_TYPE_FLAG_NONE },
{ GI_INFO_TYPE_VALUE, "GIValueInfo", sizeof (GIValueInfo), gi_value_info_class_init, 0, G_TYPE_FLAG_NONE },
{ GI_INFO_TYPE_SIGNAL, "GISignalInfo", sizeof (GISignalInfo), gi_signal_info_class_init, GI_INFO_TYPE_CALLABLE, G_TYPE_FLAG_NONE },
{ GI_INFO_TYPE_VFUNC, "GIVFuncInfo", sizeof (GIVFuncInfo), gi_vfunc_info_class_init, GI_INFO_TYPE_CALLABLE, G_TYPE_FLAG_NONE },
{ GI_INFO_TYPE_PROPERTY, "GIPropertyInfo", sizeof (GIPropertyInfo), gi_property_info_class_init, 0, G_TYPE_FLAG_NONE },
{ GI_INFO_TYPE_FIELD, "GIFieldInfo", sizeof (GIFieldInfo), gi_field_info_class_init, 0, G_TYPE_FLAG_NONE },
{ GI_INFO_TYPE_ARG, "GIArgInfo", sizeof (GIArgInfo), gi_arg_info_class_init, 0, G_TYPE_FLAG_NONE },
{ GI_INFO_TYPE_TYPE, "GITypeInfo", sizeof (GITypeInfo), gi_type_info_class_init, 0, G_TYPE_FLAG_NONE },
{ GI_INFO_TYPE_UNRESOLVED, "GIUnresolvedInfo", sizeof (GIUnresolvedInfo), gi_unresolved_info_class_init, 0, G_TYPE_FLAG_NONE },
};
for (size_t i = 0; i < G_N_ELEMENTS (types); i++)
{
GType registered_type, parent_type;
parent_type = (types[i].parent_info_type == 0) ? GI_TYPE_BASE_INFO : gi_base_info_types[types[i].parent_info_type];
g_assert (parent_type != G_TYPE_INVALID);
registered_type = gi_base_info_type_register_static (g_intern_static_string (types[i].type_name),
types[i].instance_size,
types[i].class_init,
parent_type,
types[i].type_flags);
gi_base_info_types[types[i].info_type] = registered_type;
}
g_once_init_leave (&register_types_once, 1);
}
}
/* info creation */
GIBaseInfo *
gi_info_new_full (GIInfoType type,
GIRepository *repository,
GIBaseInfo *container,
GITypelib *typelib,
uint32_t offset)
{
GIRealInfo *info;
g_return_val_if_fail (container != NULL || repository != NULL, NULL);
g_return_val_if_fail (GI_IS_REPOSITORY (repository), NULL);
g_return_val_if_fail (offset <= G_MAXUINT32, NULL);
gi_base_info_init_types ();
g_assert (gi_base_info_types[type] != G_TYPE_INVALID);
info = (GIRealInfo *) g_type_create_instance (gi_base_info_types[type]);
info->typelib = typelib;
info->offset = offset;
if (container)
info->container = container;
if (container && container->ref_count != INVALID_REFCOUNT)
gi_base_info_ref (info->container);
/* Dont keep a strong ref, since the repository keeps a cache of #GIBaseInfos
* and holds refs on them. If we kept a ref here, thered be a cycle.
* Dont keep a weak ref either, as that would make creating/destroying a
* #GIBaseInfo noticeably more expensive, and infos are performance critical
* for bindings.
* As stated in the documentation, the mitigation here is to require the user
* to keep the #GIRepository alive longer than any of its #GIBaseInfos. */
info->repository = repository;
return (GIBaseInfo*)info;
}
/**
* gi_base_info_new:
* @type: type of the info to create
* @container: (nullable): info which contains this one
* @typelib: typelib containing the info
* @offset: offset of the info within @typelib, in bytes
*
* Create a new #GIBaseInfo representing an object of the given @type from
* @offset of @typelib.
*
* Returns: (transfer full): The new #GIBaseInfo, unref with
* [method@GIRepository.BaseInfo.unref]
* Since: 2.80
*/
GIBaseInfo *
gi_base_info_new (GIInfoType type,
GIBaseInfo *container,
GITypelib *typelib,
size_t offset)
{
return gi_info_new_full (type, ((GIRealInfo*)container)->repository, container, typelib, offset);
}
/*< private >
* gi_info_init:
* @info: (out caller-allocates): caller-allocated #GIRealInfo to populate
* @type: type of the info to create
* @repository: repository the info is in
* @container: (nullable): info which contains this one
* @typelib: typelib containing the info
* @offset: offset of the info within @typelib, in bytes
*
* Initialise a stack-allocated #GIBaseInfo representing an object of the given
* @type from @offset of @typelib.
*
* Since: 2.80
*/
void
gi_info_init (GIRealInfo *info,
GType type,
GIRepository *repository,
GIBaseInfo *container,
GITypelib *typelib,
uint32_t offset)
{
memset (info, 0, sizeof (GIRealInfo));
/* Evil setup of a stack allocated #GTypeInstance. This is not something its
* really designed to do.
*
* This function *must* be kept in sync with gi_base_info_init(), which is
* the equivalent function for dynamically allocated types. */
info->parent_instance.g_class = g_type_class_ref (type);
/* g_type_create_instance() calls the #GInstanceInitFunc for each of the
* parent types, down to (and including) @type. We dont need to do that, as
* #GIBaseInfo is fundamental so doesnt have a parent type, the instance init
* function for #GIBaseInfo is gi_base_info_init() (which only sets the
* refcount, which we already do here), and subtypes of #GIBaseInfo dont have
* instance init functions (see gi_base_info_type_register_static()). */
/* Invalid refcount used to flag stack-allocated infos */
info->ref_count = INVALID_REFCOUNT;
info->typelib = typelib;
info->offset = offset;
if (container)
info->container = container;
g_assert (GI_IS_REPOSITORY (repository));
info->repository = repository;
}
/**
* gi_base_info_clear:
* @info: (type GIRepository.BaseInfo): a #GIBaseInfo
*
* Clears memory allocated internally by a stack-allocated
* [type@GIRepository.BaseInfo].
*
* This does not deallocate the [type@GIRepository.BaseInfo] struct itself. It
* does clear the struct to zero so that calling this function subsequent times
* on the same struct is a no-op.
*
* This must only be called on stack-allocated [type@GIRepository.BaseInfo]s.
* Use [method@GIRepository.BaseInfo.unref] for heap-allocated ones.
*
* Since: 2.80
*/
void
gi_base_info_clear (void *info)
{
GIBaseInfo *rinfo = (GIBaseInfo *) info;
/* If @info is zero-filled, do nothing. This allows gi_base_info_clear() to be
* used with g_auto(). */
if (rinfo->ref_count == 0)
return;
g_return_if_fail (GI_IS_BASE_INFO (rinfo));
g_assert (rinfo->ref_count == INVALID_REFCOUNT);
GI_BASE_INFO_GET_CLASS (info)->finalize (rinfo);
g_type_class_unref (rinfo->parent_instance.g_class);
memset (rinfo, 0, sizeof (*rinfo));
}
GIBaseInfo *
gi_info_from_entry (GIRepository *repository,
GITypelib *typelib,
uint16_t index)
{
GIBaseInfo *result;
DirEntry *entry = gi_typelib_get_dir_entry (typelib, index);
if (entry->local)
result = gi_info_new_full (gi_typelib_blob_type_to_info_type (entry->blob_type),
repository, NULL, typelib, entry->offset);
else
{
const char *namespace = gi_typelib_get_string (typelib, entry->offset);
const char *name = gi_typelib_get_string (typelib, entry->name);
result = gi_repository_find_by_name (repository, namespace, name);
if (result == NULL)
{
GIUnresolvedInfo *unresolved;
unresolved = (GIUnresolvedInfo *) gi_info_new_full (GI_INFO_TYPE_UNRESOLVED,
repository,
NULL,
typelib,
entry->offset);
unresolved->name = name;
unresolved->namespace = namespace;
return (GIBaseInfo *)unresolved;
}
return (GIBaseInfo *)result;
}
return (GIBaseInfo *)result;
}
GITypeInfo *
gi_type_info_new (GIBaseInfo *container,
GITypelib *typelib,
uint32_t offset)
{
SimpleTypeBlob *type = (SimpleTypeBlob *)&typelib->data[offset];
return (GITypeInfo *) gi_base_info_new (GI_INFO_TYPE_TYPE, container, typelib,
(type->flags.reserved == 0 && type->flags.reserved2 == 0) ? offset : type->offset);
}
/*< private >
* gi_type_info_init:
* @info: (out caller-allocates): caller-allocated #GITypeInfo to populate
* @container: (nullable): info which contains this one
* @typelib: typelib containing the info
* @offset: offset of the info within @typelib, in bytes
*
* Initialise a stack-allocated #GITypeInfo representing an object of type
* [type@GIRepository.TypeInfo] from @offset of @typelib.
*
* This is a specialised form of [func@GIRepository.info_init] for type
* information.
*
* Since: 2.80
*/
void
gi_type_info_init (GITypeInfo *info,
GIBaseInfo *container,
GITypelib *typelib,
uint32_t offset)
{
GIRealInfo *rinfo = (GIRealInfo*)container;
SimpleTypeBlob *type = (SimpleTypeBlob *)&typelib->data[offset];
gi_info_init ((GIRealInfo*)info, GI_TYPE_TYPE_INFO, rinfo->repository, container, typelib,
(type->flags.reserved == 0 && type->flags.reserved2 == 0) ? offset : type->offset);
}
/* GIBaseInfo functions */
/**
* GIBaseInfo:
*
* `GIBaseInfo` is the common base struct of all other Info structs
* accessible through the [class@GIRepository.Repository] API.
*
* All info structures can be cast to a `GIBaseInfo`, for instance:
*
* ```c
* GIFunctionInfo *function_info = …;
* GIBaseInfo *info = (GIBaseInfo *) function_info;
* ```
*
* Most [class@GIRepository.Repository] APIs returning a `GIBaseInfo` are
* actually creating a new struct; in other words,
* [method@GIRepository.BaseInfo.unref] has to be called when done accessing the
* data.
*
* `GIBaseInfo` structuress are normally accessed by calling either
* [method@GIRepository.Repository.find_by_name],
* [method@GIRepository.Repository.find_by_gtype] or
* [method@GIRepository.get_info].
*
* ```c
* GIBaseInfo *button_info =
* gi_repository_find_by_name (NULL, "Gtk", "Button");
*
* // use button_info…
*
* gi_base_info_unref (button_info);
* ```
*
* Since: 2.80
*/
/**
* gi_base_info_ref:
* @info: (type GIRepository.BaseInfo): a #GIBaseInfo
*
* Increases the reference count of @info.
*
* Returns: (transfer full): the same @info.
* Since: 2.80
*/
GIBaseInfo *
gi_base_info_ref (void *info)
{
GIRealInfo *rinfo = (GIRealInfo*)info;
g_return_val_if_fail (GI_IS_BASE_INFO (info), NULL);
g_assert (rinfo->ref_count != INVALID_REFCOUNT);
g_atomic_ref_count_inc (&rinfo->ref_count);
return info;
}
/**
* gi_base_info_unref:
* @info: (type GIRepository.BaseInfo) (transfer full): a #GIBaseInfo
*
* Decreases the reference count of @info. When its reference count
* drops to 0, the info is freed.
*
* This must not be called on stack-allocated [type@GIRepository.BaseInfo]s —
* use [method@GIRepository.BaseInfo.clear] for that.
*
* Since: 2.80
*/
void
gi_base_info_unref (void *info)
{
GIRealInfo *rinfo = (GIRealInfo*)info;
g_return_if_fail (GI_IS_BASE_INFO (info));
g_assert (rinfo->ref_count > 0 && rinfo->ref_count != INVALID_REFCOUNT);
if (g_atomic_ref_count_dec (&rinfo->ref_count))
{
GI_BASE_INFO_GET_CLASS (info)->finalize (info);
g_type_free_instance ((GTypeInstance *) info);
}
}
/**
* gi_base_info_get_info_type:
* @info: a #GIBaseInfo
*
* Obtain the info type of the `GIBaseInfo`.
*
* Returns: the info type of @info
* Since: 2.80
*/
GIInfoType
gi_base_info_get_info_type (GIBaseInfo *info)
{
return GI_BASE_INFO_GET_CLASS (info)->info_type;
}
/**
* gi_base_info_get_name:
* @info: a #GIBaseInfo
*
* Obtain the name of the @info.
*
* What the name represents depends on the type of the
* @info. For instance for [class@GIRepository.FunctionInfo] it is the name of
* the function.
*
* Returns: (nullable): the name of @info or `NULL` if it lacks a name.
* Since: 2.80
*/
const char *
gi_base_info_get_name (GIBaseInfo *info)
{
GIRealInfo *rinfo = (GIRealInfo*)info;
g_assert (rinfo->ref_count > 0);
switch (gi_base_info_get_info_type ((GIBaseInfo *) info))
{
case GI_INFO_TYPE_FUNCTION:
case GI_INFO_TYPE_CALLBACK:
case GI_INFO_TYPE_STRUCT:
case GI_INFO_TYPE_ENUM:
case GI_INFO_TYPE_FLAGS:
case GI_INFO_TYPE_OBJECT:
case GI_INFO_TYPE_INTERFACE:
case GI_INFO_TYPE_CONSTANT:
case GI_INFO_TYPE_UNION:
{
CommonBlob *blob = (CommonBlob *)&rinfo->typelib->data[rinfo->offset];
return gi_typelib_get_string (rinfo->typelib, blob->name);
}
break;
case GI_INFO_TYPE_VALUE:
{
ValueBlob *blob = (ValueBlob *)&rinfo->typelib->data[rinfo->offset];
return gi_typelib_get_string (rinfo->typelib, blob->name);
}
break;
case GI_INFO_TYPE_SIGNAL:
{
SignalBlob *blob = (SignalBlob *)&rinfo->typelib->data[rinfo->offset];
return gi_typelib_get_string (rinfo->typelib, blob->name);
}
break;
case GI_INFO_TYPE_PROPERTY:
{
PropertyBlob *blob = (PropertyBlob *)&rinfo->typelib->data[rinfo->offset];
return gi_typelib_get_string (rinfo->typelib, blob->name);
}
break;
case GI_INFO_TYPE_VFUNC:
{
VFuncBlob *blob = (VFuncBlob *)&rinfo->typelib->data[rinfo->offset];
return gi_typelib_get_string (rinfo->typelib, blob->name);
}
break;
case GI_INFO_TYPE_FIELD:
{
FieldBlob *blob = (FieldBlob *)&rinfo->typelib->data[rinfo->offset];
return gi_typelib_get_string (rinfo->typelib, blob->name);
}
break;
case GI_INFO_TYPE_ARG:
{
ArgBlob *blob = (ArgBlob *)&rinfo->typelib->data[rinfo->offset];
return gi_typelib_get_string (rinfo->typelib, blob->name);
}
break;
case GI_INFO_TYPE_UNRESOLVED:
{
GIUnresolvedInfo *unresolved = (GIUnresolvedInfo *)info;
return unresolved->name;
}
break;
case GI_INFO_TYPE_TYPE:
return NULL;
default: ;
g_assert_not_reached ();
/* unnamed */
}
return NULL;
}
/**
* gi_base_info_get_namespace:
* @info: a #GIBaseInfo
*
* Obtain the namespace of @info.
*
* Returns: the namespace
* Since: 2.80
*/
const char *
gi_base_info_get_namespace (GIBaseInfo *info)
{
GIRealInfo *rinfo = (GIRealInfo*) info;
Header *header = (Header *)rinfo->typelib->data;
g_assert (rinfo->ref_count > 0);
if (gi_base_info_get_info_type (info) == GI_INFO_TYPE_UNRESOLVED)
{
GIUnresolvedInfo *unresolved = (GIUnresolvedInfo *)info;
return unresolved->namespace;
}
return gi_typelib_get_string (rinfo->typelib, header->namespace);
}
/**
* gi_base_info_is_deprecated:
* @info: a #GIBaseInfo
*
* Obtain whether the @info is represents a metadata which is
* deprecated.
*
* Returns: `TRUE` if deprecated
* Since: 2.80
*/
gboolean
gi_base_info_is_deprecated (GIBaseInfo *info)
{
GIRealInfo *rinfo = (GIRealInfo*) info;
switch (gi_base_info_get_info_type ((GIBaseInfo *) info))
{
case GI_INFO_TYPE_FUNCTION:
case GI_INFO_TYPE_CALLBACK:
case GI_INFO_TYPE_STRUCT:
case GI_INFO_TYPE_ENUM:
case GI_INFO_TYPE_FLAGS:
case GI_INFO_TYPE_OBJECT:
case GI_INFO_TYPE_INTERFACE:
case GI_INFO_TYPE_CONSTANT:
{
CommonBlob *blob = (CommonBlob *)&rinfo->typelib->data[rinfo->offset];
return blob->deprecated;
}
break;
case GI_INFO_TYPE_VALUE:
{
ValueBlob *blob = (ValueBlob *)&rinfo->typelib->data[rinfo->offset];
return blob->deprecated;
}
break;
case GI_INFO_TYPE_SIGNAL:
{
SignalBlob *blob = (SignalBlob *)&rinfo->typelib->data[rinfo->offset];
return blob->deprecated;
}
break;
case GI_INFO_TYPE_PROPERTY:
{
PropertyBlob *blob = (PropertyBlob *)&rinfo->typelib->data[rinfo->offset];
return blob->deprecated;
}
break;
case GI_INFO_TYPE_VFUNC:
case GI_INFO_TYPE_FIELD:
case GI_INFO_TYPE_ARG:
case GI_INFO_TYPE_TYPE:
default: ;
/* no deprecation flag for these */
}
return FALSE;
}
/**
* gi_base_info_get_attribute:
* @info: a #GIBaseInfo
* @name: a freeform string naming an attribute
*
* Retrieve an arbitrary attribute associated with this node.
*
* Returns: (nullable): The value of the attribute, or `NULL` if no such
* attribute exists
* Since: 2.80
*/
const char *
gi_base_info_get_attribute (GIBaseInfo *info,
const char *name)
{
GIAttributeIter iter = GI_ATTRIBUTE_ITER_INIT;
const char *curname, *curvalue;
while (gi_base_info_iterate_attributes (info, &iter, &curname, &curvalue))
{
if (strcmp (name, curname) == 0)
return (const char *) curvalue;
}
return NULL;
}
static int
cmp_attribute (const void *av,
const void *bv)
{
const AttributeBlob *a = av;
const AttributeBlob *b = bv;
if (a->offset < b->offset)
return -1;
else if (a->offset == b->offset)
return 0;
else
return 1;
}
/*< private >
* _attribute_blob_find_first:
* @GIBaseInfo: A #GIBaseInfo.
* @blob_offset: The offset for the blob to find the first attribute for.
*
* Searches for the first #AttributeBlob for @blob_offset and returns
* it if found.
*
* Returns: (transfer none): A pointer to #AttributeBlob or `NULL` if not found.
* Since: 2.80
*/
AttributeBlob *
_attribute_blob_find_first (GIBaseInfo *info,
uint32_t blob_offset)
{
GIRealInfo *rinfo = (GIRealInfo *) info;
Header *header = (Header *)rinfo->typelib->data;
AttributeBlob blob, *first, *res, *previous;
blob.offset = blob_offset;
first = (AttributeBlob *) &rinfo->typelib->data[header->attributes];
res = bsearch (&blob, first, header->n_attributes,
header->attribute_blob_size, cmp_attribute);
if (res == NULL)
return NULL;
previous = res - 1;
while (previous >= first && previous->offset == blob_offset)
{
res = previous;
previous = res - 1;
}
return res;
}
/**
* gi_base_info_iterate_attributes:
* @info: a #GIBaseInfo
* @iterator: (inout): a [type@GIRepository.AttributeIter] structure, must be
* initialized; see below
* @name: (out) (transfer none): Returned name, must not be freed
* @value: (out) (transfer none): Returned name, must not be freed
*
* Iterate over all attributes associated with this node.
*
* The iterator structure is typically stack allocated, and must have its first
* member initialized to `NULL`. Attributes are arbitrary namespaced keyvalue
* pairs which can be attached to almost any item. They are intended for use
* by software higher in the toolchain than bindings, and are distinct from
* normal GIR annotations.
*
* Both the @name and @value should be treated as constants
* and must not be freed.
*
* ```c
* void
* print_attributes (GIBaseInfo *info)
* {
* GIAttributeIter iter = GI_ATTRIBUTE_ITER_INIT;
* const char *name;
* const char *value;
* while (gi_base_info_iterate_attributes (info, &iter, &name, &value))
* {
* g_print ("attribute name: %s value: %s", name, value);
* }
* }
* ```
*
* Returns: `TRUE` if there are more attributes
* Since: 2.80
*/
gboolean
gi_base_info_iterate_attributes (GIBaseInfo *info,
GIAttributeIter *iterator,
const char **name,
const char **value)
{
GIRealInfo *rinfo = (GIRealInfo *)info;
Header *header = (Header *)rinfo->typelib->data;
AttributeBlob *next, *after;
after = (AttributeBlob *) &rinfo->typelib->data[header->attributes +
header->n_attributes * header->attribute_blob_size];
if (iterator->data != NULL)
next = (AttributeBlob *) iterator->data;
else
next = _attribute_blob_find_first (info, rinfo->offset);
if (next == NULL || next->offset != rinfo->offset || next >= after)
return FALSE;
*name = gi_typelib_get_string (rinfo->typelib, next->name);
*value = gi_typelib_get_string (rinfo->typelib, next->value);
iterator->data = next + 1;
return TRUE;
}
/**
* gi_base_info_get_container:
* @info: a #GIBaseInfo
*
* Obtain the container of the @info.
*
* The container is the parent `GIBaseInfo`. For instance, the parent of a
* [class@GIRepository.FunctionInfo] is an [class@GIRepository.ObjectInfo] or
* [class@GIRepository.InterfaceInfo].
*
* Returns: (transfer none): the container
* Since: 2.80
*/
GIBaseInfo *
gi_base_info_get_container (GIBaseInfo *info)
{
return ((GIRealInfo*)info)->container;
}
/**
* gi_base_info_get_typelib:
* @info: a #GIBaseInfo
*
* Obtain the typelib this @info belongs to
*
* Returns: (transfer none): the typelib
* Since: 2.80
*/
GITypelib *
gi_base_info_get_typelib (GIBaseInfo *info)
{
return ((GIRealInfo*)info)->typelib;
}
/**
* gi_base_info_equal:
* @info1: a #GIBaseInfo
* @info2: a #GIBaseInfo
*
* Compare two `GIBaseInfo`s.
*
* Using pointer comparison is not practical since many functions return
* different instances of `GIBaseInfo` that refers to the same part of the
* TypeLib; use this function instead to do `GIBaseInfo` comparisons.
*
* Returns: `TRUE` if and only if @info1 equals @info2.
* Since: 2.80
*/
gboolean
gi_base_info_equal (GIBaseInfo *info1, GIBaseInfo *info2)
{
/* Compare the TypeLib pointers, which are mmapped. */
GIRealInfo *rinfo1 = (GIRealInfo*)info1;
GIRealInfo *rinfo2 = (GIRealInfo*)info2;
return rinfo1->typelib->data + rinfo1->offset == rinfo2->typelib->data + rinfo2->offset;
}
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