/* -*- mode: C; c-file-style: "gnu"; indent-tabs-mode: nil; -*-
* GObject introspection: Typelib creation
*
* 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 "girnode-private.h"
#include "girepository-private.h"
#include "gitypelib-internal.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#ifdef _MSC_VER
#define strtoll _strtoi64
#define strtoull _strtoui64
#endif
static gulong string_count = 0;
static gulong unique_string_count = 0;
static gulong string_size = 0;
static gulong unique_string_size = 0;
static gulong types_count = 0;
static gulong unique_types_count = 0;
void
gi_ir_node_init_stats (void)
{
string_count = 0;
unique_string_count = 0;
string_size = 0;
unique_string_size = 0;
types_count = 0;
unique_types_count = 0;
}
void
gi_ir_node_dump_stats (void)
{
g_message ("%lu strings (%lu before sharing), %lu bytes (%lu before sharing)",
unique_string_count, string_count, unique_string_size, string_size);
g_message ("%lu types (%lu before sharing)", unique_types_count, types_count);
}
#define DO_ALIGNED_COPY(dest_addr, value, type) \
do { \
type tmp_var; \
tmp_var = value; \
memcpy(dest_addr, &tmp_var, sizeof(type)); \
} while(0)
#define ALIGN_VALUE(this, boundary) \
(( ((unsigned long)(this)) + (((unsigned long)(boundary)) -1)) & (~(((unsigned long)(boundary))-1)))
const char *
gi_ir_node_type_to_string (GIIrNodeTypeId type)
{
switch (type)
{
case GI_IR_NODE_FUNCTION:
return "function";
case GI_IR_NODE_CALLBACK:
return "callback";
case GI_IR_NODE_PARAM:
return "param";
case GI_IR_NODE_TYPE:
return "type";
case GI_IR_NODE_OBJECT:
return "object";
case GI_IR_NODE_INTERFACE:
return "interface";
case GI_IR_NODE_SIGNAL:
return "signal";
case GI_IR_NODE_PROPERTY:
return "property";
case GI_IR_NODE_VFUNC:
return "vfunc";
case GI_IR_NODE_FIELD:
return "field";
case GI_IR_NODE_ENUM:
return "enum";
case GI_IR_NODE_FLAGS:
return "flags";
case GI_IR_NODE_BOXED:
return "boxed";
case GI_IR_NODE_STRUCT:
return "struct";
case GI_IR_NODE_VALUE:
return "value";
case GI_IR_NODE_CONSTANT:
return "constant";
case GI_IR_NODE_XREF:
return "xref";
case GI_IR_NODE_UNION:
return "union";
default:
return "unknown";
}
}
GIIrNode *
gi_ir_node_new (GIIrNodeTypeId type,
GIIrModule *module)
{
GIIrNode *node = NULL;
switch (type)
{
case GI_IR_NODE_FUNCTION:
case GI_IR_NODE_CALLBACK:
node = g_malloc0 (sizeof (GIIrNodeFunction));
break;
case GI_IR_NODE_PARAM:
node = g_malloc0 (sizeof (GIIrNodeParam));
break;
case GI_IR_NODE_TYPE:
node = g_malloc0 (sizeof (GIIrNodeType));
break;
case GI_IR_NODE_OBJECT:
case GI_IR_NODE_INTERFACE:
node = g_malloc0 (sizeof (GIIrNodeInterface));
break;
case GI_IR_NODE_SIGNAL:
node = g_malloc0 (sizeof (GIIrNodeSignal));
break;
case GI_IR_NODE_PROPERTY:
node = g_malloc0 (sizeof (GIIrNodeProperty));
break;
case GI_IR_NODE_VFUNC:
node = g_malloc0 (sizeof (GIIrNodeFunction));
break;
case GI_IR_NODE_FIELD:
node = g_malloc0 (sizeof (GIIrNodeField));
break;
case GI_IR_NODE_ENUM:
case GI_IR_NODE_FLAGS:
node = g_malloc0 (sizeof (GIIrNodeEnum));
break;
case GI_IR_NODE_BOXED:
node = g_malloc0 (sizeof (GIIrNodeBoxed));
break;
case GI_IR_NODE_STRUCT:
node = g_malloc0 (sizeof (GIIrNodeStruct));
break;
case GI_IR_NODE_VALUE:
node = g_malloc0 (sizeof (GIIrNodeValue));
break;
case GI_IR_NODE_CONSTANT:
node = g_malloc0 (sizeof (GIIrNodeConstant));
break;
case GI_IR_NODE_XREF:
node = g_malloc0 (sizeof (GIIrNodeXRef));
break;
case GI_IR_NODE_UNION:
node = g_malloc0 (sizeof (GIIrNodeUnion));
break;
default:
g_error ("Unhandled node type %d", type);
break;
}
node->type = type;
node->module = module;
node->offset = 0;
node->attributes = g_hash_table_new_full (g_str_hash, g_str_equal,
g_free, g_free);
return node;
}
void
gi_ir_node_free (GIIrNode *node)
{
GList *l;
if (node == NULL)
return;
switch (node->type)
{
case GI_IR_NODE_FUNCTION:
case GI_IR_NODE_CALLBACK:
{
GIIrNodeFunction *function = (GIIrNodeFunction *)node;
g_free (node->name);
g_free (function->symbol);
g_free (function->property);
g_free (function->async_func);
g_free (function->sync_func);
g_free (function->finish_func);
gi_ir_node_free ((GIIrNode *)function->result);
for (l = function->parameters; l; l = l->next)
gi_ir_node_free ((GIIrNode *)l->data);
g_list_free (function->parameters);
}
break;
case GI_IR_NODE_TYPE:
{
GIIrNodeType *type = (GIIrNodeType *)node;
g_free (node->name);
gi_ir_node_free ((GIIrNode *)type->parameter_type1);
gi_ir_node_free ((GIIrNode *)type->parameter_type2);
g_free (type->giinterface);
g_strfreev (type->errors);
g_free (type->unparsed);
}
break;
case GI_IR_NODE_PARAM:
{
GIIrNodeParam *param = (GIIrNodeParam *)node;
g_free (node->name);
gi_ir_node_free ((GIIrNode *)param->type);
}
break;
case GI_IR_NODE_PROPERTY:
{
GIIrNodeProperty *property = (GIIrNodeProperty *)node;
g_free (node->name);
g_free (property->setter);
g_free (property->getter);
gi_ir_node_free ((GIIrNode *)property->type);
}
break;
case GI_IR_NODE_SIGNAL:
{
GIIrNodeSignal *signal = (GIIrNodeSignal *)node;
g_free (node->name);
for (l = signal->parameters; l; l = l->next)
gi_ir_node_free ((GIIrNode *)l->data);
g_list_free (signal->parameters);
gi_ir_node_free ((GIIrNode *)signal->result);
}
break;
case GI_IR_NODE_VFUNC:
{
GIIrNodeVFunc *vfunc = (GIIrNodeVFunc *)node;
g_free (node->name);
g_free (vfunc->async_func);
g_free (vfunc->sync_func);
g_free (vfunc->finish_func);
g_free (vfunc->invoker);
for (l = vfunc->parameters; l; l = l->next)
gi_ir_node_free ((GIIrNode *)l->data);
g_list_free (vfunc->parameters);
gi_ir_node_free ((GIIrNode *)vfunc->result);
}
break;
case GI_IR_NODE_FIELD:
{
GIIrNodeField *field = (GIIrNodeField *)node;
g_free (node->name);
gi_ir_node_free ((GIIrNode *)field->type);
gi_ir_node_free ((GIIrNode *)field->callback);
}
break;
case GI_IR_NODE_OBJECT:
case GI_IR_NODE_INTERFACE:
{
GIIrNodeInterface *iface = (GIIrNodeInterface *)node;
g_free (node->name);
g_free (iface->gtype_name);
g_free (iface->gtype_init);
g_free (iface->ref_func);
g_free (iface->unref_func);
g_free (iface->set_value_func);
g_free (iface->get_value_func);
g_free (iface->glib_type_struct);
g_free (iface->parent);
for (l = iface->interfaces; l; l = l->next)
g_free ((GIIrNode *)l->data);
g_list_free (iface->interfaces);
g_list_free_full (iface->prerequisites, g_free);
for (l = iface->members; l; l = l->next)
gi_ir_node_free ((GIIrNode *)l->data);
g_list_free (iface->members);
}
break;
case GI_IR_NODE_VALUE:
{
g_free (node->name);
}
break;
case GI_IR_NODE_ENUM:
case GI_IR_NODE_FLAGS:
{
GIIrNodeEnum *enum_ = (GIIrNodeEnum *)node;
g_free (node->name);
g_free (enum_->gtype_name);
g_free (enum_->gtype_init);
g_free (enum_->error_domain);
for (l = enum_->values; l; l = l->next)
gi_ir_node_free ((GIIrNode *)l->data);
g_list_free (enum_->values);
for (l = enum_->methods; l; l = l->next)
gi_ir_node_free ((GIIrNode *)l->data);
g_list_free (enum_->methods);
}
break;
case GI_IR_NODE_BOXED:
{
GIIrNodeBoxed *boxed = (GIIrNodeBoxed *)node;
g_free (node->name);
g_free (boxed->gtype_name);
g_free (boxed->gtype_init);
for (l = boxed->members; l; l = l->next)
gi_ir_node_free ((GIIrNode *)l->data);
g_list_free (boxed->members);
}
break;
case GI_IR_NODE_STRUCT:
{
GIIrNodeStruct *struct_ = (GIIrNodeStruct *)node;
g_free (node->name);
g_free (struct_->gtype_name);
g_free (struct_->gtype_init);
g_free (struct_->copy_func);
g_free (struct_->free_func);
for (l = struct_->members; l; l = l->next)
gi_ir_node_free ((GIIrNode *)l->data);
g_list_free (struct_->members);
}
break;
case GI_IR_NODE_CONSTANT:
{
GIIrNodeConstant *constant = (GIIrNodeConstant *)node;
g_free (node->name);
g_free (constant->value);
gi_ir_node_free ((GIIrNode *)constant->type);
}
break;
case GI_IR_NODE_XREF:
{
GIIrNodeXRef *xref = (GIIrNodeXRef *)node;
g_free (node->name);
g_free (xref->namespace);
}
break;
case GI_IR_NODE_UNION:
{
GIIrNodeUnion *union_ = (GIIrNodeUnion *)node;
g_free (node->name);
g_free (union_->gtype_name);
g_free (union_->gtype_init);
g_free (union_->copy_func);
g_free (union_->free_func);
gi_ir_node_free ((GIIrNode *)union_->discriminator_type);
g_clear_list (&union_->members, (GDestroyNotify) gi_ir_node_free);
g_clear_list (&union_->discriminators, (GDestroyNotify) gi_ir_node_free);
}
break;
default:
g_error ("Unhandled node type %d", node->type);
break;
}
g_hash_table_destroy (node->attributes);
g_free (node);
}
/* returns the fixed size of the blob */
uint32_t
gi_ir_node_get_size (GIIrNode *node)
{
GList *l;
size_t size, n;
switch (node->type)
{
case GI_IR_NODE_CALLBACK:
size = sizeof (CallbackBlob);
break;
case GI_IR_NODE_FUNCTION:
size = sizeof (FunctionBlob);
break;
case GI_IR_NODE_PARAM:
/* See the comment in the GI_IR_NODE_PARAM/ArgBlob writing below */
size = sizeof (ArgBlob) - sizeof (SimpleTypeBlob);
break;
case GI_IR_NODE_TYPE:
size = sizeof (SimpleTypeBlob);
break;
case GI_IR_NODE_OBJECT:
{
GIIrNodeInterface *iface = (GIIrNodeInterface *)node;
n = g_list_length (iface->interfaces);
size = sizeof (ObjectBlob) + 2 * (n + (n % 2));
for (l = iface->members; l; l = l->next)
size += gi_ir_node_get_size ((GIIrNode *)l->data);
}
break;
case GI_IR_NODE_INTERFACE:
{
GIIrNodeInterface *iface = (GIIrNodeInterface *)node;
n = g_list_length (iface->prerequisites);
size = sizeof (InterfaceBlob) + 2 * (n + (n % 2));
for (l = iface->members; l; l = l->next)
size += gi_ir_node_get_size ((GIIrNode *)l->data);
}
break;
case GI_IR_NODE_ENUM:
case GI_IR_NODE_FLAGS:
{
GIIrNodeEnum *enum_ = (GIIrNodeEnum *)node;
size = sizeof (EnumBlob);
for (l = enum_->values; l; l = l->next)
size += gi_ir_node_get_size ((GIIrNode *)l->data);
for (l = enum_->methods; l; l = l->next)
size += gi_ir_node_get_size ((GIIrNode *)l->data);
}
break;
case GI_IR_NODE_VALUE:
size = sizeof (ValueBlob);
break;
case GI_IR_NODE_STRUCT:
{
GIIrNodeStruct *struct_ = (GIIrNodeStruct *)node;
size = sizeof (StructBlob);
for (l = struct_->members; l; l = l->next)
size += gi_ir_node_get_size ((GIIrNode *)l->data);
}
break;
case GI_IR_NODE_BOXED:
{
GIIrNodeBoxed *boxed = (GIIrNodeBoxed *)node;
size = sizeof (StructBlob);
for (l = boxed->members; l; l = l->next)
size += gi_ir_node_get_size ((GIIrNode *)l->data);
}
break;
case GI_IR_NODE_PROPERTY:
size = sizeof (PropertyBlob);
break;
case GI_IR_NODE_SIGNAL:
size = sizeof (SignalBlob);
break;
case GI_IR_NODE_VFUNC:
size = sizeof (VFuncBlob);
break;
case GI_IR_NODE_FIELD:
{
GIIrNodeField *field = (GIIrNodeField *)node;
size = sizeof (FieldBlob);
if (field->callback)
size += gi_ir_node_get_size ((GIIrNode *)field->callback);
}
break;
case GI_IR_NODE_CONSTANT:
size = sizeof (ConstantBlob);
break;
case GI_IR_NODE_XREF:
size = 0;
break;
case GI_IR_NODE_UNION:
{
GIIrNodeUnion *union_ = (GIIrNodeUnion *)node;
size = sizeof (UnionBlob);
for (l = union_->members; l; l = l->next)
size += gi_ir_node_get_size ((GIIrNode *)l->data);
for (l = union_->discriminators; l; l = l->next)
size += gi_ir_node_get_size ((GIIrNode *)l->data);
}
break;
default:
g_error ("Unhandled node type '%s'", gi_ir_node_type_to_string (node->type));
size = 0;
}
g_debug ("node %p type '%s' size %zu", node,
gi_ir_node_type_to_string (node->type), size);
g_assert (size <= G_MAXUINT32);
return (guint32) size;
}
static void
add_attribute_size (gpointer key, gpointer value, gpointer data)
{
const char *key_str = key;
const char *value_str = value;
size_t *size_p = data;
*size_p += sizeof (AttributeBlob);
*size_p += ALIGN_VALUE (strlen (key_str) + 1, 4);
*size_p += ALIGN_VALUE (strlen (value_str) + 1, 4);
}
/* returns the full size of the blob including variable-size parts (including attributes) */
static uint32_t
gi_ir_node_get_full_size_internal (GIIrNode *parent,
GIIrNode *node)
{
GList *l;
size_t size, n;
g_assert (node != NULL);
g_debug ("node %p type '%s'", node,
gi_ir_node_type_to_string (node->type));
switch (node->type)
{
case GI_IR_NODE_CALLBACK:
{
GIIrNodeFunction *function = (GIIrNodeFunction *)node;
size = sizeof (CallbackBlob);
size += ALIGN_VALUE (strlen (node->name) + 1, 4);
for (l = function->parameters; l; l = l->next)
{
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)l->data);
}
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)function->result);
}
break;
case GI_IR_NODE_FUNCTION:
{
GIIrNodeFunction *function = (GIIrNodeFunction *)node;
size = sizeof (FunctionBlob);
size += ALIGN_VALUE (strlen (node->name) + 1, 4);
size += ALIGN_VALUE (strlen (function->symbol) + 1, 4);
for (l = function->parameters; l; l = l->next)
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)l->data);
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)function->result);
}
break;
case GI_IR_NODE_PARAM:
{
GIIrNodeParam *param = (GIIrNodeParam *)node;
/* See the comment in the GI_IR_NODE_PARAM/ArgBlob writing below */
size = sizeof (ArgBlob) - sizeof (SimpleTypeBlob);
if (node->name)
size += ALIGN_VALUE (strlen (node->name) + 1, 4);
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)param->type);
}
break;
case GI_IR_NODE_TYPE:
{
GIIrNodeType *type = (GIIrNodeType *)node;
size = sizeof (SimpleTypeBlob);
if (!GI_TYPE_TAG_IS_BASIC (type->tag))
{
g_debug ("node %p type tag '%s'", node,
gi_type_tag_to_string (type->tag));
switch (type->tag)
{
case GI_TYPE_TAG_ARRAY:
size = sizeof (ArrayTypeBlob);
if (type->parameter_type1)
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)type->parameter_type1);
break;
case GI_TYPE_TAG_INTERFACE:
size += sizeof (InterfaceTypeBlob);
break;
case GI_TYPE_TAG_GLIST:
case GI_TYPE_TAG_GSLIST:
size += sizeof (ParamTypeBlob);
if (type->parameter_type1)
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)type->parameter_type1);
break;
case GI_TYPE_TAG_GHASH:
size += sizeof (ParamTypeBlob) * 2;
if (type->parameter_type1)
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)type->parameter_type1);
if (type->parameter_type2)
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)type->parameter_type2);
break;
case GI_TYPE_TAG_ERROR:
size += sizeof (ErrorTypeBlob);
break;
default:
g_error ("Unknown type tag %d", type->tag);
break;
}
}
}
break;
case GI_IR_NODE_OBJECT:
{
GIIrNodeInterface *iface = (GIIrNodeInterface *)node;
n = g_list_length (iface->interfaces);
size = sizeof(ObjectBlob);
if (iface->parent)
size += ALIGN_VALUE (strlen (iface->parent) + 1, 4);
if (iface->glib_type_struct)
size += ALIGN_VALUE (strlen (iface->glib_type_struct) + 1, 4);
size += ALIGN_VALUE (strlen (node->name) + 1, 4);
size += ALIGN_VALUE (strlen (iface->gtype_name) + 1, 4);
if (iface->gtype_init)
size += ALIGN_VALUE (strlen (iface->gtype_init) + 1, 4);
if (iface->ref_func)
size += ALIGN_VALUE (strlen (iface->ref_func) + 1, 4);
if (iface->unref_func)
size += ALIGN_VALUE (strlen (iface->unref_func) + 1, 4);
if (iface->set_value_func)
size += ALIGN_VALUE (strlen (iface->set_value_func) + 1, 4);
if (iface->get_value_func)
size += ALIGN_VALUE (strlen (iface->get_value_func) + 1, 4);
size += 2 * (n + (n % 2));
for (l = iface->members; l; l = l->next)
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)l->data);
}
break;
case GI_IR_NODE_INTERFACE:
{
GIIrNodeInterface *iface = (GIIrNodeInterface *)node;
n = g_list_length (iface->prerequisites);
size = sizeof (InterfaceBlob);
size += ALIGN_VALUE (strlen (node->name) + 1, 4);
size += ALIGN_VALUE (strlen (iface->gtype_name) + 1, 4);
size += ALIGN_VALUE (strlen (iface->gtype_init) + 1, 4);
size += 2 * (n + (n % 2));
for (l = iface->members; l; l = l->next)
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)l->data);
}
break;
case GI_IR_NODE_ENUM:
case GI_IR_NODE_FLAGS:
{
GIIrNodeEnum *enum_ = (GIIrNodeEnum *)node;
size = sizeof (EnumBlob);
size += ALIGN_VALUE (strlen (node->name) + 1, 4);
if (enum_->gtype_name)
{
size += ALIGN_VALUE (strlen (enum_->gtype_name) + 1, 4);
size += ALIGN_VALUE (strlen (enum_->gtype_init) + 1, 4);
}
if (enum_->error_domain)
size += ALIGN_VALUE (strlen (enum_->error_domain) + 1, 4);
for (l = enum_->values; l; l = l->next)
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)l->data);
for (l = enum_->methods; l; l = l->next)
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)l->data);
}
break;
case GI_IR_NODE_VALUE:
{
size = sizeof (ValueBlob);
size += ALIGN_VALUE (strlen (node->name) + 1, 4);
}
break;
case GI_IR_NODE_STRUCT:
{
GIIrNodeStruct *struct_ = (GIIrNodeStruct *)node;
size = sizeof (StructBlob);
size += ALIGN_VALUE (strlen (node->name) + 1, 4);
if (struct_->gtype_name)
size += ALIGN_VALUE (strlen (struct_->gtype_name) + 1, 4);
if (struct_->gtype_init)
size += ALIGN_VALUE (strlen (struct_->gtype_init) + 1, 4);
if (struct_->copy_func)
size += ALIGN_VALUE (strlen (struct_->copy_func) + 1, 4);
if (struct_->free_func)
size += ALIGN_VALUE (strlen (struct_->free_func) + 1, 4);
for (l = struct_->members; l; l = l->next)
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)l->data);
}
break;
case GI_IR_NODE_BOXED:
{
GIIrNodeBoxed *boxed = (GIIrNodeBoxed *)node;
size = sizeof (StructBlob);
size += ALIGN_VALUE (strlen (node->name) + 1, 4);
if (boxed->gtype_name)
{
size += ALIGN_VALUE (strlen (boxed->gtype_name) + 1, 4);
size += ALIGN_VALUE (strlen (boxed->gtype_init) + 1, 4);
}
for (l = boxed->members; l; l = l->next)
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)l->data);
}
break;
case GI_IR_NODE_PROPERTY:
{
GIIrNodeProperty *prop = (GIIrNodeProperty *)node;
size = sizeof (PropertyBlob);
size += ALIGN_VALUE (strlen (node->name) + 1, 4);
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)prop->type);
}
break;
case GI_IR_NODE_SIGNAL:
{
GIIrNodeSignal *signal = (GIIrNodeSignal *)node;
size = sizeof (SignalBlob);
size += ALIGN_VALUE (strlen (node->name) + 1, 4);
for (l = signal->parameters; l; l = l->next)
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)l->data);
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)signal->result);
}
break;
case GI_IR_NODE_VFUNC:
{
GIIrNodeVFunc *vfunc = (GIIrNodeVFunc *)node;
size = sizeof (VFuncBlob);
size += ALIGN_VALUE (strlen (node->name) + 1, 4);
for (l = vfunc->parameters; l; l = l->next)
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)l->data);
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)vfunc->result);
}
break;
case GI_IR_NODE_FIELD:
{
GIIrNodeField *field = (GIIrNodeField *)node;
size = sizeof (FieldBlob);
size += ALIGN_VALUE (strlen (node->name) + 1, 4);
if (field->callback)
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)field->callback);
else
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)field->type);
}
break;
case GI_IR_NODE_CONSTANT:
{
GIIrNodeConstant *constant = (GIIrNodeConstant *)node;
size = sizeof (ConstantBlob);
size += ALIGN_VALUE (strlen (node->name) + 1, 4);
/* FIXME non-string values */
size += ALIGN_VALUE (strlen (constant->value) + 1, 4);
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)constant->type);
}
break;
case GI_IR_NODE_XREF:
{
GIIrNodeXRef *xref = (GIIrNodeXRef *)node;
size = 0;
size += ALIGN_VALUE (strlen (node->name) + 1, 4);
size += ALIGN_VALUE (strlen (xref->namespace) + 1, 4);
}
break;
case GI_IR_NODE_UNION:
{
GIIrNodeUnion *union_ = (GIIrNodeUnion *)node;
size = sizeof (UnionBlob);
size += ALIGN_VALUE (strlen (node->name) + 1, 4);
if (union_->gtype_name)
size += ALIGN_VALUE (strlen (union_->gtype_name) + 1, 4);
if (union_->gtype_init)
size += ALIGN_VALUE (strlen (union_->gtype_init) + 1, 4);
if (union_->copy_func)
size += ALIGN_VALUE (strlen (union_->copy_func) + 1, 4);
if (union_->free_func)
size += ALIGN_VALUE (strlen (union_->free_func) + 1, 4);
for (l = union_->members; l; l = l->next)
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)l->data);
for (l = union_->discriminators; l; l = l->next)
size += gi_ir_node_get_full_size_internal (node, (GIIrNode *)l->data);
}
break;
default:
g_error ("Unknown type tag %d", node->type);
size = 0;
}
g_debug ("node %s%s%s%p type '%s' full size %zu",
node->name ? "'" : "",
node->name ? node->name : "",
node->name ? "' " : "",
node, gi_ir_node_type_to_string (node->type), size);
g_hash_table_foreach (node->attributes, add_attribute_size, &size);
g_assert (size <= G_MAXUINT32);
return size;
}
uint32_t
gi_ir_node_get_full_size (GIIrNode *node)
{
return gi_ir_node_get_full_size_internal (NULL, node);
}
int
gi_ir_node_cmp (GIIrNode *node,
GIIrNode *other)
{
if (node->type < other->type)
return -1;
else if (node->type > other->type)
return 1;
else
return strcmp (node->name, other->name);
}
gboolean
gi_ir_node_can_have_member (GIIrNode *node)
{
switch (node->type)
{
case GI_IR_NODE_OBJECT:
case GI_IR_NODE_INTERFACE:
case GI_IR_NODE_BOXED:
case GI_IR_NODE_STRUCT:
case GI_IR_NODE_UNION:
return TRUE;
/* list others individually rather than with default: so that compiler
* warns if new node types are added without adding them to the switch
*/
case GI_IR_NODE_INVALID:
case GI_IR_NODE_FUNCTION:
case GI_IR_NODE_CALLBACK:
case GI_IR_NODE_ENUM:
case GI_IR_NODE_FLAGS:
case GI_IR_NODE_CONSTANT:
case GI_IR_NODE_INVALID_0:
case GI_IR_NODE_PARAM:
case GI_IR_NODE_TYPE:
case GI_IR_NODE_PROPERTY:
case GI_IR_NODE_SIGNAL:
case GI_IR_NODE_VALUE:
case GI_IR_NODE_VFUNC:
case GI_IR_NODE_FIELD:
case GI_IR_NODE_XREF:
return FALSE;
default:
g_assert_not_reached ();
};
return FALSE;
}
void
gi_ir_node_add_member (GIIrNode *node,
GIIrNodeFunction *member)
{
g_return_if_fail (node != NULL);
g_return_if_fail (member != NULL);
switch (node->type)
{
case GI_IR_NODE_OBJECT:
case GI_IR_NODE_INTERFACE:
{
GIIrNodeInterface *iface = (GIIrNodeInterface *)node;
iface->members =
g_list_insert_sorted (iface->members, member,
(GCompareFunc) gi_ir_node_cmp);
break;
}
case GI_IR_NODE_BOXED:
{
GIIrNodeBoxed *boxed = (GIIrNodeBoxed *)node;
boxed->members =
g_list_insert_sorted (boxed->members, member,
(GCompareFunc) gi_ir_node_cmp);
break;
}
case GI_IR_NODE_STRUCT:
{
GIIrNodeStruct *struct_ = (GIIrNodeStruct *)node;
struct_->members =
g_list_insert_sorted (struct_->members, member,
(GCompareFunc) gi_ir_node_cmp);
break;
}
case GI_IR_NODE_UNION:
{
GIIrNodeUnion *union_ = (GIIrNodeUnion *)node;
union_->members =
g_list_insert_sorted (union_->members, member,
(GCompareFunc) gi_ir_node_cmp);
break;
}
default:
g_error ("Cannot add a member to unknown type tag type %d",
node->type);
break;
}
}
const char *
gi_ir_node_param_direction_string (GIIrNodeParam * node)
{
if (node->out)
{
if (node->in)
return "in-out";
else
return "out";
}
return "in";
}
static int64_t
parse_int_value (const char *str)
{
return g_ascii_strtoll (str, NULL, 0);
}
static uint64_t
parse_uint_value (const char *str)
{
return g_ascii_strtoull (str, NULL, 0);
}
static double
parse_float_value (const char *str)
{
return g_ascii_strtod (str, NULL);
}
static gboolean
parse_boolean_value (const char *str)
{
if (g_ascii_strcasecmp (str, "TRUE") == 0)
return TRUE;
if (g_ascii_strcasecmp (str, "FALSE") == 0)
return FALSE;
return parse_int_value (str) ? TRUE : FALSE;
}
static GIIrNode *
find_entry_node (GIIrTypelibBuild *build,
const char *name,
uint16_t *idx)
{
GIIrModule *module = build->module;
GList *l;
size_t i;
unsigned int n_names;
char **names;
GIIrNode *result = NULL;
g_assert (name != NULL);
g_assert (strlen (name) > 0);
names = g_strsplit (name, ".", 0);
n_names = g_strv_length (names);
if (n_names > 2)
g_error ("Too many name parts");
for (l = module->entries, i = 1; l; l = l->next, i++)
{
GIIrNode *node = (GIIrNode *)l->data;
if (n_names > 1)
{
if (node->type != GI_IR_NODE_XREF)
continue;
if (((GIIrNodeXRef *)node)->namespace == NULL ||
strcmp (((GIIrNodeXRef *)node)->namespace, names[0]) != 0)
continue;
}
if (strcmp (node->name, names[n_names - 1]) == 0)
{
if (idx)
*idx = i;
result = node;
goto out;
}
}
if (n_names > 1)
{
GIIrNode *node = gi_ir_node_new (GI_IR_NODE_XREF, module);
((GIIrNodeXRef *)node)->namespace = g_strdup (names[0]);
node->name = g_strdup (names[1]);
module->entries = g_list_append (module->entries, node);
if (idx)
*idx = g_list_length (module->entries);
result = node;
g_debug ("Creating XREF: %s %s", names[0], names[1]);
goto out;
}
gi_ir_module_fatal (build, 0, "type reference '%s' not found", name);
out:
g_strfreev (names);
return result;
}
static uint16_t
find_entry (GIIrTypelibBuild *build,
const char *name)
{
uint16_t idx = 0;
find_entry_node (build, name, &idx);
return idx;
}
static GIIrModule *
find_namespace (GIIrModule *module,
const char *name)
{
GIIrModule *target;
GList *l;
if (strcmp (module->name, name) == 0)
return module;
for (l = module->include_modules; l; l = l->next)
{
GIIrModule *submodule = l->data;
if (strcmp (submodule->name, name) == 0)
return submodule;
target = find_namespace (submodule, name);
if (target)
return target;
}
return NULL;
}
GIIrNode *
gi_ir_find_node (GIIrTypelibBuild *build,
GIIrModule *src_module,
const char *name)
{
GList *l;
GIIrNode *return_node = NULL;
char **names = g_strsplit (name, ".", 0);
unsigned n_names = g_strv_length (names);
const char *target_name;
GIIrModule *target_module;
if (n_names == 1)
{
target_module = src_module;
target_name = name;
}
else
{
target_module = find_namespace (build->module, names[0]);
target_name = names[1];
}
/* find_namespace() may return NULL. */
if (target_module == NULL)
goto done;
for (l = target_module->entries; l; l = l->next)
{
GIIrNode *node = (GIIrNode *)l->data;
if (strcmp (node->name, target_name) == 0)
{
return_node = node;
break;
}
}
done:
g_strfreev (names);
return return_node;
}
static int
get_index_of_member_type (GIIrNodeInterface *node,
GIIrNodeTypeId type,
const char *name)
{
int index = -1;
GList *l;
for (l = node->members; l; l = l->next)
{
GIIrNode *member_node = l->data;
if (member_node->type != type)
continue;
index++;
if (strcmp (member_node->name, name) == 0)
break;
}
return index;
}
static int
get_index_for_function (GIIrTypelibBuild *build,
GIIrNode *parent,
const char *name)
{
if (parent == NULL)
{
uint16_t index = find_entry (build, name);
if (index == 0)
return -1;
return index;
}
int index = get_index_of_member_type ((GIIrNodeInterface *) parent, GI_IR_NODE_FUNCTION, name);
if (index != -1)
return index;
return -1;
}
static void
serialize_type (GIIrTypelibBuild *build,
GIIrNodeType *node,
GString *str)
{
size_t i;
if (GI_TYPE_TAG_IS_BASIC (node->tag))
{
g_string_append_printf (str, "%s%s", gi_type_tag_to_string (node->tag),
node->is_pointer ? "*" : "");
}
else if (node->tag == GI_TYPE_TAG_ARRAY)
{
if (node->array_type == GI_ARRAY_TYPE_C)
{
serialize_type (build, node->parameter_type1, str);
g_string_append (str, "[");
if (node->has_length)
g_string_append_printf (str, "length=%d", node->length);
else if (node->has_size)
g_string_append_printf (str, "fixed-size=%" G_GSIZE_FORMAT, node->size);
if (node->zero_terminated)
g_string_append_printf (str, "%szero-terminated=1",
node->has_length ? "," : "");
g_string_append (str, "]");
if (node->is_pointer)
g_string_append (str, "*");
}
else if (node->array_type == GI_ARRAY_TYPE_BYTE_ARRAY)
{
/* We on purpose skip serializing parameter_type1, which should
always be void*
*/
g_string_append (str, "GByteArray");
}
else
{
if (node->array_type == GI_ARRAY_TYPE_ARRAY)
g_string_append (str, "GArray");
else
g_string_append (str, "GPtrArray");
if (node->parameter_type1)
{
g_string_append (str, "<");
serialize_type (build, node->parameter_type1, str);
g_string_append (str, ">");
}
}
}
else if (node->tag == GI_TYPE_TAG_INTERFACE)
{
GIIrNode *iface;
char *name;
iface = find_entry_node (build, node->giinterface, NULL);
if (iface)
{
if (iface->type == GI_IR_NODE_XREF)
g_string_append_printf (str, "%s.", ((GIIrNodeXRef *)iface)->namespace);
name = iface->name;
}
else
{
g_warning ("Interface for type reference %s not found", node->giinterface);
name = node->giinterface;
}
g_string_append_printf (str, "%s%s", name,
node->is_pointer ? "*" : "");
}
else if (node->tag == GI_TYPE_TAG_GLIST)
{
g_string_append (str, "GList");
if (node->parameter_type1)
{
g_string_append (str, "<");
serialize_type (build, node->parameter_type1, str);
g_string_append (str, ">");
}
}
else if (node->tag == GI_TYPE_TAG_GSLIST)
{
g_string_append (str, "GSList");
if (node->parameter_type1)
{
g_string_append (str, "<");
serialize_type (build, node->parameter_type1, str);
g_string_append (str, ">");
}
}
else if (node->tag == GI_TYPE_TAG_GHASH)
{
g_string_append (str, "GHashTable");
if (node->parameter_type1)
{
g_string_append (str, "<");
serialize_type (build, node->parameter_type1, str);
g_string_append (str, ",");
serialize_type (build, node->parameter_type2, str);
g_string_append (str, ">");
}
}
else if (node->tag == GI_TYPE_TAG_ERROR)
{
g_string_append (str, "GError");
if (node->errors)
{
g_string_append (str, "<");
for (i = 0; node->errors[i]; i++)
{
if (i > 0)
g_string_append (str, ",");
g_string_append (str, node->errors[i]);
}
g_string_append (str, ">");
}
}
}
static void
gi_ir_node_build_members (GList **members,
GIIrNodeTypeId type,
uint16_t *count,
GIIrNode *parent,
GIIrTypelibBuild *build,
uint32_t *offset,
uint32_t *offset2,
uint16_t *count2)
{
GList *l = *members;
while (l)
{
GIIrNode *member = (GIIrNode *)l->data;
GList *next = l->next;
if (member->type == type)
{
(*count)++;
gi_ir_node_build_typelib (member, parent, build, offset, offset2, count2);
*members = g_list_delete_link (*members, l);
}
l = next;
}
}
static void
gi_ir_node_check_unhandled_members (GList **members,
GIIrNodeTypeId container_type)
{
#if 0
if (*members)
{
GList *l;
for (l = *members; l; l = l->next)
{
GIIrNode *member = (GIIrNode *)l->data;
g_printerr ("Unhandled '%s' member '%s' type '%s'\n",
gi_ir_node_type_to_string (container_type),
member->name,
gi_ir_node_type_to_string (member->type));
}
g_list_free (*members);
*members = NULL;
g_error ("Unhandled members. Aborting.");
}
#else
g_list_free (*members);
*members = NULL;
#endif
}
void
gi_ir_node_build_typelib (GIIrNode *node,
GIIrNode *parent,
GIIrTypelibBuild *build,
uint32_t *offset,
uint32_t *offset2,
uint16_t *count2)
{
gboolean appended_stack;
GHashTable *strings = build->strings;
GHashTable *types = build->types;
uint8_t *data = build->data;
GList *l;
uint32_t old_offset = *offset;
uint32_t old_offset2 = *offset2;
g_assert (node != NULL);
g_debug ("build_typelib: %s%s(%s)",
node->name ? node->name : "",
node->name ? " " : "",
gi_ir_node_type_to_string (node->type));
if (build->stack)
appended_stack = node != (GIIrNode*)build->stack->data;
else
appended_stack = TRUE;
if (appended_stack)
build->stack = g_list_prepend (build->stack, node);
gi_ir_node_compute_offsets (build, node);
/* We should only be building each node once. If we do a typelib expansion, we also
* reset the offset in girmodule.c.
*/
g_assert (node->offset == 0);
node->offset = *offset;
build->nodes_with_attributes = g_list_prepend (build->nodes_with_attributes, node);
build->n_attributes += g_hash_table_size (node->attributes);
switch (node->type)
{
case GI_IR_NODE_TYPE:
{
GIIrNodeType *type = (GIIrNodeType *)node;
SimpleTypeBlob *blob = (SimpleTypeBlob *)&data[*offset];
*offset += sizeof (SimpleTypeBlob);
if (GI_TYPE_TAG_IS_BASIC (type->tag))
{
blob->flags.reserved = 0;
blob->flags.reserved2 = 0;
blob->flags.pointer = type->is_pointer;
blob->flags.reserved3 = 0;
blob->flags.tag = type->tag;
}
else
{
GString *str;
gpointer value;
str = g_string_new (0);
serialize_type (build, type, str);
types_count += 1;
value = g_hash_table_lookup (types, str->str);
if (value)
{
blob->offset = GPOINTER_TO_UINT (value);
g_string_free (g_steal_pointer (&str), TRUE);
}
else
{
unique_types_count += 1;
g_hash_table_insert (types, g_string_free_and_steal (g_steal_pointer (&str)),
GUINT_TO_POINTER(*offset2));
blob->offset = *offset2;
switch (type->tag)
{
case GI_TYPE_TAG_ARRAY:
{
ArrayTypeBlob *array = (ArrayTypeBlob *)&data[*offset2];
uint32_t pos;
array->pointer = type->is_pointer;
array->reserved = 0;
array->tag = type->tag;
array->zero_terminated = type->zero_terminated;
array->has_length = type->has_length;
array->has_size = type->has_size;
array->array_type = type->array_type;
array->reserved2 = 0;
if (array->has_length)
array->dimensions.length = type->length;
else if (array->has_size)
array->dimensions.size = type->size;
else
array->dimensions.length = -1;
pos = *offset2 + G_STRUCT_OFFSET (ArrayTypeBlob, type);
*offset2 += sizeof (ArrayTypeBlob);
gi_ir_node_build_typelib ((GIIrNode *)type->parameter_type1,
node, build, &pos, offset2, NULL);
}
break;
case GI_TYPE_TAG_INTERFACE:
{
InterfaceTypeBlob *iface = (InterfaceTypeBlob *)&data[*offset2];
*offset2 += sizeof (InterfaceTypeBlob);
iface->pointer = type->is_pointer;
iface->reserved = 0;
iface->tag = type->tag;
iface->reserved2 = 0;
iface->interface = find_entry (build, type->giinterface);
}
break;
case GI_TYPE_TAG_GLIST:
case GI_TYPE_TAG_GSLIST:
{
ParamTypeBlob *param = (ParamTypeBlob *)&data[*offset2];
uint32_t pos;
param->pointer = 1;
param->reserved = 0;
param->tag = type->tag;
param->reserved2 = 0;
param->n_types = 1;
pos = *offset2 + G_STRUCT_OFFSET (ParamTypeBlob, type);
*offset2 += sizeof (ParamTypeBlob) + sizeof (SimpleTypeBlob);
gi_ir_node_build_typelib ((GIIrNode *)type->parameter_type1,
node, build, &pos, offset2, NULL);
}
break;
case GI_TYPE_TAG_GHASH:
{
ParamTypeBlob *param = (ParamTypeBlob *)&data[*offset2];
uint32_t pos;
param->pointer = 1;
param->reserved = 0;
param->tag = type->tag;
param->reserved2 = 0;
param->n_types = 2;
pos = *offset2 + G_STRUCT_OFFSET (ParamTypeBlob, type);
*offset2 += sizeof (ParamTypeBlob) + sizeof (SimpleTypeBlob)*2;
gi_ir_node_build_typelib ((GIIrNode *)type->parameter_type1,
node, build, &pos, offset2, NULL);
gi_ir_node_build_typelib ((GIIrNode *)type->parameter_type2,
node, build, &pos, offset2, NULL);
}
break;
case GI_TYPE_TAG_ERROR:
{
ErrorTypeBlob *error_blob = (ErrorTypeBlob *)&data[*offset2];
error_blob->pointer = 1;
error_blob->reserved = 0;
error_blob->tag = type->tag;
error_blob->reserved2 = 0;
error_blob->n_domains = 0;
*offset2 += sizeof (ErrorTypeBlob);
}
break;
default:
g_error ("Unknown type tag %d", type->tag);
break;
}
}
}
}
break;
case GI_IR_NODE_FIELD:
{
GIIrNodeField *field = (GIIrNodeField *)node;
FieldBlob *blob;
blob = (FieldBlob *)&data[*offset];
blob->name = gi_ir_write_string (node->name, strings, data, offset2);
blob->readable = field->readable;
blob->writable = field->writable;
blob->reserved = 0;
blob->bits = 0;
if (field->offset_state == GI_IR_OFFSETS_COMPUTED)
blob->struct_offset = field->offset;
else
blob->struct_offset = 0xFFFF; /* mark as unknown */
if (field->callback)
{
blob->has_embedded_type = TRUE;
blob->type.offset = GI_INFO_TYPE_CALLBACK;
*offset += sizeof (FieldBlob);
gi_ir_node_build_typelib ((GIIrNode *)field->callback,
node, build, offset, offset2, NULL);
/* Fields with callbacks are bigger than normal, update count2
* as an extra hint which represents the number of fields which are
* callbacks. This allows us to gain constant time performance in the
* repository for skipping over the fields section.
*/
if (count2)
(*count2)++;
}
else
{
blob->has_embedded_type = FALSE;
/* We handle the size member specially below, so subtract it */
*offset += sizeof (FieldBlob) - sizeof (SimpleTypeBlob);
gi_ir_node_build_typelib ((GIIrNode *)field->type,
node, build, offset, offset2, NULL);
}
}
break;
case GI_IR_NODE_PROPERTY:
{
GIIrNodeProperty *prop = (GIIrNodeProperty *)node;
PropertyBlob *blob = (PropertyBlob *)&data[*offset];
/* We handle the size member specially below, so subtract it */
*offset += sizeof (PropertyBlob) - sizeof (SimpleTypeBlob);
blob->name = gi_ir_write_string (node->name, strings, data, offset2);
blob->deprecated = prop->deprecated;
blob->readable = prop->readable;
blob->writable = prop->writable;
blob->construct = prop->construct;
blob->construct_only = prop->construct_only;
blob->transfer_ownership = prop->transfer;
blob->transfer_container_ownership = prop->shallow_transfer;
blob->reserved = 0;
if (prop->setter != NULL)
{
int index = get_index_of_member_type ((GIIrNodeInterface*)parent,
GI_IR_NODE_FUNCTION,
prop->setter);
if (index == -1)
{
g_error ("Unknown setter %s for property %s:%s", prop->setter, parent->name, node->name);
}
blob->setter = (uint16_t) index;
}
else
blob->setter = ACCESSOR_SENTINEL;
if (prop->getter != NULL)
{
int index = get_index_of_member_type ((GIIrNodeInterface*)parent,
GI_IR_NODE_FUNCTION,
prop->getter);
if (index == -1)
{
g_error ("Unknown getter %s for property %s:%s", prop->getter, parent->name, node->name);
}
blob->getter = (uint16_t) index;
}
else
blob->getter = ACCESSOR_SENTINEL;
gi_ir_node_build_typelib ((GIIrNode *)prop->type,
node, build, offset, offset2, NULL);
}
break;
case GI_IR_NODE_FUNCTION:
{
FunctionBlob *blob = (FunctionBlob *)&data[*offset];
SignatureBlob *blob2 = (SignatureBlob *)&data[*offset2];
GIIrNodeFunction *function = (GIIrNodeFunction *)node;
uint32_t signature;
unsigned int n;
signature = *offset2;
n = g_list_length (function->parameters);
*offset += sizeof (FunctionBlob);
*offset2 += sizeof (SignatureBlob) + n * sizeof (ArgBlob);
blob->blob_type = BLOB_TYPE_FUNCTION;
blob->deprecated = function->deprecated;
blob->is_static = !function->is_method;
blob->setter = FALSE;
blob->getter = FALSE;
blob->constructor = function->is_constructor;
blob->wraps_vfunc = function->wraps_vfunc;
blob->throws = function->throws; /* Deprecated. Also stored in SignatureBlob. */
blob->index = 0;
blob->name = gi_ir_write_string (node->name, strings, data, offset2);
blob->symbol = gi_ir_write_string (function->symbol, strings, data, offset2);
blob->signature = signature;
blob->finish = ASYNC_SENTINEL;
blob->sync_or_async = ASYNC_SENTINEL;
blob->is_async = function->is_async;
if (function->is_async)
{
if (function->sync_func != NULL)
{
int sync_index =
get_index_for_function (build,
parent,
function->sync_func);
if (sync_index == -1)
{
g_error ("Unknown sync function %s:%s",
parent->name, function->sync_func);
}
blob->sync_or_async = (uint16_t) sync_index;
}
if (function->finish_func != NULL)
{
int finish_index =
get_index_for_function (build,
parent,
function->finish_func);
if (finish_index == -1)
{
g_error ("Unknown finish function %s:%s", parent->name, function->finish_func);
}
blob->finish = (uint16_t) finish_index;
}
}
else
{
if (function->async_func != NULL)
{
int async_index =
get_index_for_function (build,
parent,
function->async_func);
if (async_index == -1)
{
g_error ("Unknown async function %s:%s", parent->name, function->async_func);
}
blob->sync_or_async = (uint16_t) async_index;
}
}
if (function->is_setter || function->is_getter)
{
int index = get_index_of_member_type ((GIIrNodeInterface*)parent,
GI_IR_NODE_PROPERTY,
function->property);
if (index == -1)
{
g_error ("Unknown property %s:%s for accessor %s", parent->name, function->property, function->symbol);
}
blob->setter = function->is_setter;
blob->getter = function->is_getter;
blob->index = (uint16_t) index;
}
/* function->result is special since it doesn't appear in the serialized format but
* we do want the attributes for it to appear
*/
build->nodes_with_attributes = g_list_prepend (build->nodes_with_attributes, function->result);
build->n_attributes += g_hash_table_size (((GIIrNode *) function->result)->attributes);
g_assert (((GIIrNode *) function->result)->offset == 0);
((GIIrNode *) function->result)->offset = signature;
g_debug ("building function '%s'", function->symbol);
gi_ir_node_build_typelib ((GIIrNode *)function->result->type,
node, build, &signature, offset2, NULL);
blob2->may_return_null = function->result->nullable;
blob2->caller_owns_return_value = function->result->transfer;
blob2->caller_owns_return_container = function->result->shallow_transfer;
blob2->skip_return = function->result->skip;
blob2->instance_transfer_ownership = function->instance_transfer_full;
blob2->reserved = 0;
blob2->n_arguments = n;
blob2->throws = function->throws;
signature += 4;
for (l = function->parameters; l; l = l->next)
{
GIIrNode *param = (GIIrNode *)l->data;
gi_ir_node_build_typelib (param, node, build, &signature, offset2, NULL);
}
}
break;
case GI_IR_NODE_CALLBACK:
{
CallbackBlob *blob = (CallbackBlob *)&data[*offset];
SignatureBlob *blob2 = (SignatureBlob *)&data[*offset2];
GIIrNodeFunction *function = (GIIrNodeFunction *)node;
uint32_t signature;
unsigned int n;
signature = *offset2;
n = g_list_length (function->parameters);
*offset += sizeof (CallbackBlob);
*offset2 += sizeof (SignatureBlob) + n * sizeof (ArgBlob);
blob->blob_type = BLOB_TYPE_CALLBACK;
blob->deprecated = function->deprecated;
blob->reserved = 0;
blob->name = gi_ir_write_string (node->name, strings, data, offset2);
blob->signature = signature;
gi_ir_node_build_typelib ((GIIrNode *)function->result->type,
node, build, &signature, offset2, NULL);
blob2->may_return_null = function->result->nullable;
blob2->caller_owns_return_value = function->result->transfer;
blob2->caller_owns_return_container = function->result->shallow_transfer;
blob2->reserved = 0;
blob2->n_arguments = n;
blob2->throws = function->throws;
signature += 4;
for (l = function->parameters; l; l = l->next)
{
GIIrNode *param = (GIIrNode *)l->data;
gi_ir_node_build_typelib (param, node, build, &signature, offset2, NULL);
}
}
break;
case GI_IR_NODE_SIGNAL:
{
SignalBlob *blob = (SignalBlob *)&data[*offset];
SignatureBlob *blob2 = (SignatureBlob *)&data[*offset2];
GIIrNodeSignal *signal = (GIIrNodeSignal *)node;
uint32_t signature;
unsigned int n;
signature = *offset2;
n = g_list_length (signal->parameters);
*offset += sizeof (SignalBlob);
*offset2 += sizeof (SignatureBlob) + n * sizeof (ArgBlob);
blob->deprecated = signal->deprecated;
blob->run_first = signal->run_first;
blob->run_last = signal->run_last;
blob->run_cleanup = signal->run_cleanup;
blob->no_recurse = signal->no_recurse;
blob->detailed = signal->detailed;
blob->action = signal->action;
blob->no_hooks = signal->no_hooks;
blob->has_class_closure = 0; /* FIXME */
blob->true_stops_emit = 0; /* FIXME */
blob->reserved = 0;
blob->class_closure = 0; /* FIXME */
blob->name = gi_ir_write_string (node->name, strings, data, offset2);
blob->signature = signature;
/* signal->result is special since it doesn't appear in the serialized format but
* we do want the attributes for it to appear
*/
build->nodes_with_attributes = g_list_prepend (build->nodes_with_attributes, signal->result);
build->n_attributes += g_hash_table_size (((GIIrNode *) signal->result)->attributes);
g_assert (((GIIrNode *) signal->result)->offset == 0);
((GIIrNode *) signal->result)->offset = signature;
gi_ir_node_build_typelib ((GIIrNode *)signal->result->type,
node, build, &signature, offset2, NULL);
blob2->may_return_null = signal->result->nullable;
blob2->caller_owns_return_value = signal->result->transfer;
blob2->caller_owns_return_container = signal->result->shallow_transfer;
blob2->instance_transfer_ownership = signal->instance_transfer_full;
blob2->reserved = 0;
blob2->n_arguments = n;
signature += 4;
for (l = signal->parameters; l; l = l->next)
{
GIIrNode *param = (GIIrNode *)l->data;
gi_ir_node_build_typelib (param, node, build, &signature, offset2, NULL);
}
}
break;
case GI_IR_NODE_VFUNC:
{
VFuncBlob *blob = (VFuncBlob *)&data[*offset];
SignatureBlob *blob2 = (SignatureBlob *)&data[*offset2];
GIIrNodeVFunc *vfunc = (GIIrNodeVFunc *)node;
uint32_t signature;
unsigned int n;
signature = *offset2;
n = g_list_length (vfunc->parameters);
*offset += sizeof (VFuncBlob);
*offset2 += sizeof (SignatureBlob) + n * sizeof (ArgBlob);
blob->name = gi_ir_write_string (node->name, strings, data, offset2);
blob->must_chain_up = 0; /* FIXME */
blob->must_be_implemented = 0; /* FIXME */
blob->must_not_be_implemented = 0; /* FIXME */
blob->class_closure = 0; /* FIXME */
blob->throws = vfunc->throws; /* Deprecated. Also stored in SignatureBlob. */
blob->reserved = 0;
blob->is_async = vfunc->is_async;
blob->finish = ASYNC_SENTINEL;
blob->sync_or_async = ASYNC_SENTINEL;
if (vfunc->invoker)
{
int index = get_index_of_member_type ((GIIrNodeInterface*)parent, GI_IR_NODE_FUNCTION, vfunc->invoker);
if (index == -1)
{
g_error ("Unknown member function %s for vfunc %s", vfunc->invoker, node->name);
}
blob->invoker = (uint16_t) index;
}
else
blob->invoker = 0x3ff; /* max of 10 bits */
if (vfunc->is_async)
{
if (vfunc->sync_func != NULL)
{
int sync_index =
get_index_of_member_type ((GIIrNodeInterface *) parent,
GI_IR_NODE_VFUNC,
vfunc->sync_func);
if (sync_index == -1)
{
g_error ("Unknown sync vfunc %s:%s for accessor %s",
parent->name, vfunc->sync_func, vfunc->invoker);
}
blob->sync_or_async = (uint16_t) sync_index;
}
if (vfunc->finish_func != NULL)
{
int finish_index =
get_index_of_member_type ((GIIrNodeInterface *) parent,
GI_IR_NODE_VFUNC,
vfunc->finish_func);
if (finish_index == -1)
{
g_error ("Unknown finish vfunc %s:%s for function %s",
parent->name, vfunc->finish_func, vfunc->invoker);
}
blob->finish = (uint16_t) finish_index;
}
}
else
{
if (vfunc->async_func != NULL)
{
int async_index =
get_index_of_member_type ((GIIrNodeInterface *) parent,
GI_IR_NODE_VFUNC,
vfunc->async_func);
if (async_index == -1)
{
g_error ("Unknown async vfunc %s:%s for accessor %s",
parent->name, vfunc->async_func, vfunc->invoker);
}
blob->sync_or_async = (uint16_t) async_index;
}
}
blob->struct_offset = vfunc->offset;
blob->reserved2 = 0;
blob->signature = signature;
gi_ir_node_build_typelib ((GIIrNode *)vfunc->result->type,
node, build, &signature, offset2, NULL);
blob2->may_return_null = vfunc->result->nullable;
blob2->caller_owns_return_value = vfunc->result->transfer;
blob2->caller_owns_return_container = vfunc->result->shallow_transfer;
blob2->instance_transfer_ownership = vfunc->instance_transfer_full;
blob2->reserved = 0;
blob2->n_arguments = n;
blob2->throws = vfunc->throws;
signature += 4;
for (l = vfunc->parameters; l; l = l->next)
{
GIIrNode *param = (GIIrNode *)l->data;
gi_ir_node_build_typelib (param, node, build, &signature, offset2, NULL);
}
}
break;
case GI_IR_NODE_PARAM:
{
ArgBlob *blob = (ArgBlob *)&data[*offset];
GIIrNodeParam *param = (GIIrNodeParam *)node;
/* The offset for this one is smaller than the struct because
* we recursively build the simple type inline here below.
*/
*offset += sizeof (ArgBlob) - sizeof (SimpleTypeBlob);
blob->name = gi_ir_write_string (node->name, strings, data, offset2);
blob->in = param->in;
blob->out = param->out;
blob->caller_allocates = param->caller_allocates;
blob->nullable = param->nullable;
blob->skip = param->skip;
blob->optional = param->optional;
blob->transfer_ownership = param->transfer;
blob->transfer_container_ownership = param->shallow_transfer;
blob->return_value = param->retval;
blob->scope = param->scope;
blob->reserved = 0;
blob->closure = param->closure;
blob->destroy = param->destroy;
gi_ir_node_build_typelib ((GIIrNode *)param->type, node, build, offset, offset2, NULL);
}
break;
case GI_IR_NODE_STRUCT:
{
StructBlob *blob = (StructBlob *)&data[*offset];
GIIrNodeStruct *struct_ = (GIIrNodeStruct *)node;
GList *members;
blob->blob_type = BLOB_TYPE_STRUCT;
blob->foreign = struct_->foreign;
blob->deprecated = struct_->deprecated;
blob->is_gtype_struct = struct_->is_gtype_struct;
blob->reserved = 0;
blob->name = gi_ir_write_string (node->name, strings, data, offset2);
blob->alignment = struct_->alignment;
blob->size = struct_->size;
if (struct_->gtype_name)
{
blob->unregistered = FALSE;
blob->gtype_name = gi_ir_write_string (struct_->gtype_name, strings, data, offset2);
blob->gtype_init = gi_ir_write_string (struct_->gtype_init, strings, data, offset2);
}
else
{
blob->unregistered = TRUE;
blob->gtype_name = 0;
blob->gtype_init = 0;
}
if (struct_->copy_func)
blob->copy_func = gi_ir_write_string (struct_->copy_func, strings, data, offset2);
if (struct_->free_func)
blob->free_func = gi_ir_write_string (struct_->free_func, strings, data, offset2);
blob->n_fields = 0;
blob->n_methods = 0;
*offset += sizeof (StructBlob);
members = g_list_copy (struct_->members);
gi_ir_node_build_members (&members, GI_IR_NODE_FIELD, &blob->n_fields,
node, build, offset, offset2, NULL);
gi_ir_node_build_members (&members, GI_IR_NODE_FUNCTION, &blob->n_methods,
node, build, offset, offset2, NULL);
gi_ir_node_check_unhandled_members (&members, node->type);
g_assert (members == NULL);
}
break;
case GI_IR_NODE_BOXED:
{
StructBlob *blob = (StructBlob *)&data[*offset];
GIIrNodeBoxed *boxed = (GIIrNodeBoxed *)node;
GList *members;
blob->blob_type = BLOB_TYPE_BOXED;
blob->deprecated = boxed->deprecated;
blob->unregistered = FALSE;
blob->reserved = 0;
blob->name = gi_ir_write_string (node->name, strings, data, offset2);
blob->gtype_name = gi_ir_write_string (boxed->gtype_name, strings, data, offset2);
blob->gtype_init = gi_ir_write_string (boxed->gtype_init, strings, data, offset2);
blob->alignment = boxed->alignment;
blob->size = boxed->size;
blob->n_fields = 0;
blob->n_methods = 0;
*offset += sizeof (StructBlob);
members = g_list_copy (boxed->members);
gi_ir_node_build_members (&members, GI_IR_NODE_FIELD, &blob->n_fields,
node, build, offset, offset2, NULL);
gi_ir_node_build_members (&members, GI_IR_NODE_FUNCTION, &blob->n_methods,
node, build, offset, offset2, NULL);
gi_ir_node_check_unhandled_members (&members, node->type);
g_assert (members == NULL);
}
break;
case GI_IR_NODE_UNION:
{
UnionBlob *blob = (UnionBlob *)&data[*offset];
GIIrNodeUnion *union_ = (GIIrNodeUnion *)node;
GList *members;
blob->blob_type = BLOB_TYPE_UNION;
blob->deprecated = union_->deprecated;
blob->reserved = 0;
blob->name = gi_ir_write_string (node->name, strings, data, offset2);
blob->alignment = union_->alignment;
blob->size = union_->size;
if (union_->gtype_name)
{
blob->unregistered = FALSE;
blob->gtype_name = gi_ir_write_string (union_->gtype_name, strings, data, offset2);
blob->gtype_init = gi_ir_write_string (union_->gtype_init, strings, data, offset2);
}
else
{
blob->unregistered = TRUE;
blob->gtype_name = 0;
blob->gtype_init = 0;
}
blob->n_fields = 0;
blob->n_functions = 0;
blob->discriminator_offset = union_->discriminator_offset;
if (union_->copy_func)
blob->copy_func = gi_ir_write_string (union_->copy_func, strings, data, offset2);
if (union_->free_func)
blob->free_func = gi_ir_write_string (union_->free_func, strings, data, offset2);
/* We don't support Union discriminators right now. */
/*
if (union_->discriminator_type)
{
*offset += 28;
blob->discriminated = TRUE;
gi_ir_node_build_typelib ((GIIrNode *)union_->discriminator_type,
build, offset, offset2, NULL);
}
else
{
*/
*offset += sizeof (UnionBlob);
blob->discriminated = FALSE;
blob->discriminator_type.offset = 0;
members = g_list_copy (union_->members);
gi_ir_node_build_members (&members, GI_IR_NODE_FIELD, &blob->n_fields,
node, build, offset, offset2, NULL);
gi_ir_node_build_members (&members, GI_IR_NODE_FUNCTION, &blob->n_functions,
node, build, offset, offset2, NULL);
gi_ir_node_check_unhandled_members (&members, node->type);
g_assert (members == NULL);
if (union_->discriminator_type)
{
for (l = union_->discriminators; l; l = l->next)
{
GIIrNode *member = (GIIrNode *)l->data;
gi_ir_node_build_typelib (member, node, build, offset, offset2, NULL);
}
}
}
break;
case GI_IR_NODE_ENUM:
case GI_IR_NODE_FLAGS:
{
EnumBlob *blob = (EnumBlob *)&data[*offset];
GIIrNodeEnum *enum_ = (GIIrNodeEnum *)node;
*offset += sizeof (EnumBlob);
if (node->type == GI_IR_NODE_ENUM)
blob->blob_type = BLOB_TYPE_ENUM;
else
blob->blob_type = BLOB_TYPE_FLAGS;
blob->deprecated = enum_->deprecated;
blob->reserved = 0;
blob->storage_type = enum_->storage_type;
blob->name = gi_ir_write_string (node->name, strings, data, offset2);
if (enum_->gtype_name)
{
blob->unregistered = FALSE;
blob->gtype_name = gi_ir_write_string (enum_->gtype_name, strings, data, offset2);
blob->gtype_init = gi_ir_write_string (enum_->gtype_init, strings, data, offset2);
}
else
{
blob->unregistered = TRUE;
blob->gtype_name = 0;
blob->gtype_init = 0;
}
if (enum_->error_domain)
blob->error_domain = gi_ir_write_string (enum_->error_domain, strings, data, offset2);
else
blob->error_domain = 0;
blob->n_values = 0;
blob->n_methods = 0;
for (l = enum_->values; l; l = l->next)
{
GIIrNode *value = (GIIrNode *)l->data;
blob->n_values++;
gi_ir_node_build_typelib (value, node, build, offset, offset2, NULL);
}
for (l = enum_->methods; l; l = l->next)
{
GIIrNode *method = (GIIrNode *)l->data;
blob->n_methods++;
gi_ir_node_build_typelib (method, node, build, offset, offset2, NULL);
}
}
break;
case GI_IR_NODE_OBJECT:
{
ObjectBlob *blob = (ObjectBlob *)&data[*offset];
GIIrNodeInterface *object = (GIIrNodeInterface *)node;
GList *members;
blob->blob_type = BLOB_TYPE_OBJECT;
blob->abstract = object->abstract;
blob->fundamental = object->fundamental;
blob->final_ = object->final_;
blob->deprecated = object->deprecated;
blob->reserved = 0;
blob->name = gi_ir_write_string (node->name, strings, data, offset2);
blob->gtype_name = gi_ir_write_string (object->gtype_name, strings, data, offset2);
blob->gtype_init = gi_ir_write_string (object->gtype_init, strings, data, offset2);
if (object->ref_func)
blob->ref_func = gi_ir_write_string (object->ref_func, strings, data, offset2);
if (object->unref_func)
blob->unref_func = gi_ir_write_string (object->unref_func, strings, data, offset2);
if (object->set_value_func)
blob->set_value_func = gi_ir_write_string (object->set_value_func, strings, data, offset2);
if (object->get_value_func)
blob->get_value_func = gi_ir_write_string (object->get_value_func, strings, data, offset2);
if (object->parent)
blob->parent = find_entry (build, object->parent);
else
blob->parent = 0;
if (object->glib_type_struct)
blob->gtype_struct = find_entry (build, object->glib_type_struct);
else
blob->gtype_struct = 0;
blob->n_interfaces = 0;
blob->n_fields = 0;
blob->n_properties = 0;
blob->n_methods = 0;
blob->n_signals = 0;
blob->n_vfuncs = 0;
blob->n_constants = 0;
blob->n_field_callbacks = 0;
*offset += sizeof(ObjectBlob);
for (l = object->interfaces; l; l = l->next)
{
blob->n_interfaces++;
*(uint16_t *)&data[*offset] = find_entry (build, (char *)l->data);
*offset += 2;
}
members = g_list_copy (object->members);
*offset = ALIGN_VALUE (*offset, 4);
gi_ir_node_build_members (&members, GI_IR_NODE_FIELD, &blob->n_fields,
node, build, offset, offset2, &blob->n_field_callbacks);
*offset = ALIGN_VALUE (*offset, 4);
gi_ir_node_build_members (&members, GI_IR_NODE_PROPERTY, &blob->n_properties,
node, build, offset, offset2, NULL);
*offset = ALIGN_VALUE (*offset, 4);
gi_ir_node_build_members (&members, GI_IR_NODE_FUNCTION, &blob->n_methods,
node, build, offset, offset2, NULL);
*offset = ALIGN_VALUE (*offset, 4);
gi_ir_node_build_members (&members, GI_IR_NODE_SIGNAL, &blob->n_signals,
node, build, offset, offset2, NULL);
*offset = ALIGN_VALUE (*offset, 4);
gi_ir_node_build_members (&members, GI_IR_NODE_VFUNC, &blob->n_vfuncs,
node, build, offset, offset2, NULL);
*offset = ALIGN_VALUE (*offset, 4);
gi_ir_node_build_members (&members, GI_IR_NODE_CONSTANT, &blob->n_constants,
node, build, offset, offset2, NULL);
gi_ir_node_check_unhandled_members (&members, node->type);
g_assert (members == NULL);
}
break;
case GI_IR_NODE_INTERFACE:
{
InterfaceBlob *blob = (InterfaceBlob *)&data[*offset];
GIIrNodeInterface *iface = (GIIrNodeInterface *)node;
GList *members;
blob->blob_type = BLOB_TYPE_INTERFACE;
blob->deprecated = iface->deprecated;
blob->reserved = 0;
blob->name = gi_ir_write_string (node->name, strings, data, offset2);
blob->gtype_name = gi_ir_write_string (iface->gtype_name, strings, data, offset2);
blob->gtype_init = gi_ir_write_string (iface->gtype_init, strings, data, offset2);
if (iface->glib_type_struct)
blob->gtype_struct = find_entry (build, iface->glib_type_struct);
else
blob->gtype_struct = 0;
blob->n_prerequisites = 0;
blob->n_properties = 0;
blob->n_methods = 0;
blob->n_signals = 0;
blob->n_vfuncs = 0;
blob->n_constants = 0;
*offset += sizeof (InterfaceBlob);
for (l = iface->prerequisites; l; l = l->next)
{
blob->n_prerequisites++;
*(uint16_t *)&data[*offset] = find_entry (build, (char *)l->data);
*offset += 2;
}
members = g_list_copy (iface->members);
*offset = ALIGN_VALUE (*offset, 4);
gi_ir_node_build_members (&members, GI_IR_NODE_PROPERTY, &blob->n_properties,
node, build, offset, offset2, NULL);
*offset = ALIGN_VALUE (*offset, 4);
gi_ir_node_build_members (&members, GI_IR_NODE_FUNCTION, &blob->n_methods,
node, build, offset, offset2, NULL);
*offset = ALIGN_VALUE (*offset, 4);
gi_ir_node_build_members (&members, GI_IR_NODE_SIGNAL, &blob->n_signals,
node, build, offset, offset2, NULL);
*offset = ALIGN_VALUE (*offset, 4);
gi_ir_node_build_members (&members, GI_IR_NODE_VFUNC, &blob->n_vfuncs,
node, build, offset, offset2, NULL);
*offset = ALIGN_VALUE (*offset, 4);
gi_ir_node_build_members (&members, GI_IR_NODE_CONSTANT, &blob->n_constants,
node, build, offset, offset2, NULL);
gi_ir_node_check_unhandled_members (&members, node->type);
g_assert (members == NULL);
}
break;
case GI_IR_NODE_VALUE:
{
GIIrNodeValue *value = (GIIrNodeValue *)node;
ValueBlob *blob = (ValueBlob *)&data[*offset];
*offset += sizeof (ValueBlob);
blob->deprecated = value->deprecated;
blob->reserved = 0;
blob->unsigned_value = value->value >= 0 ? 1 : 0;
blob->name = gi_ir_write_string (node->name, strings, data, offset2);
blob->value = (int32_t) value->value;
}
break;
case GI_IR_NODE_CONSTANT:
{
GIIrNodeConstant *constant = (GIIrNodeConstant *)node;
ConstantBlob *blob = (ConstantBlob *)&data[*offset];
uint32_t pos;
pos = *offset + G_STRUCT_OFFSET (ConstantBlob, type);
*offset += sizeof (ConstantBlob);
blob->blob_type = BLOB_TYPE_CONSTANT;
blob->deprecated = constant->deprecated;
blob->reserved = 0;
blob->name = gi_ir_write_string (node->name, strings, data, offset2);
blob->offset = *offset2;
switch (constant->type->tag)
{
case GI_TYPE_TAG_BOOLEAN:
blob->size = 4;
*(gboolean*)&data[blob->offset] = parse_boolean_value (constant->value);
break;
case GI_TYPE_TAG_INT8:
blob->size = 1;
*(int8_t *)&data[blob->offset] = (int8_t) parse_int_value (constant->value);
break;
case GI_TYPE_TAG_UINT8:
blob->size = 1;
*(uint8_t *)&data[blob->offset] = (uint8_t) parse_uint_value (constant->value);
break;
case GI_TYPE_TAG_INT16:
blob->size = 2;
*(int16_t *)&data[blob->offset] = (int16_t) parse_int_value (constant->value);
break;
case GI_TYPE_TAG_UINT16:
blob->size = 2;
*(uint16_t *)&data[blob->offset] = (uint16_t) parse_uint_value (constant->value);
break;
case GI_TYPE_TAG_INT32:
blob->size = 4;
*(int32_t *)&data[blob->offset] = (int32_t) parse_int_value (constant->value);
break;
case GI_TYPE_TAG_UINT32:
blob->size = 4;
*(uint32_t*)&data[blob->offset] = (uint32_t) parse_uint_value (constant->value);
break;
case GI_TYPE_TAG_INT64:
blob->size = 8;
DO_ALIGNED_COPY (&data[blob->offset], parse_int_value (constant->value), int64_t);
break;
case GI_TYPE_TAG_UINT64:
blob->size = 8;
DO_ALIGNED_COPY (&data[blob->offset], parse_uint_value (constant->value), uint64_t);
break;
case GI_TYPE_TAG_FLOAT:
blob->size = sizeof (float);
DO_ALIGNED_COPY (&data[blob->offset], (float) parse_float_value (constant->value), float);
break;
case GI_TYPE_TAG_DOUBLE:
blob->size = sizeof (double);
DO_ALIGNED_COPY (&data[blob->offset], parse_float_value (constant->value), double);
break;
case GI_TYPE_TAG_UTF8:
case GI_TYPE_TAG_FILENAME:
blob->size = strlen (constant->value) + 1;
memcpy (&data[blob->offset], constant->value, blob->size);
break;
default:
break;
}
*offset2 += ALIGN_VALUE (blob->size, 4);
gi_ir_node_build_typelib ((GIIrNode *)constant->type, node, build, &pos, offset2, NULL);
}
break;
default:
g_assert_not_reached ();
}
g_debug ("node %s%s%s%p type '%s', offset %d -> %d, offset2 %d -> %d",
node->name ? "'" : "",
node->name ? node->name : "",
node->name ? "' " : "",
node, gi_ir_node_type_to_string (node->type),
old_offset, *offset, old_offset2, *offset2);
if (*offset2 - old_offset2 + *offset - old_offset > gi_ir_node_get_full_size (node))
g_error ("exceeding space reservation; offset: %d (prev %d) offset2: %d (prev %d) nodesize: %d",
*offset, old_offset, *offset2, old_offset2, gi_ir_node_get_full_size (node));
if (appended_stack)
build->stack = g_list_delete_link (build->stack, build->stack);
}
/* if str is already in the pool, return previous location, otherwise write str
* to the typelib at offset, put it in the pool and update offset. If the
* typelib is not large enough to hold the string, reallocate it.
*/
uint32_t
gi_ir_write_string (const char *str,
GHashTable *strings,
uint8_t *data,
uint32_t *offset)
{
uint32_t start;
void *value;
string_count += 1;
string_size += strlen (str);
value = g_hash_table_lookup (strings, str);
if (value)
return GPOINTER_TO_UINT (value);
unique_string_count += 1;
unique_string_size += strlen (str);
g_hash_table_insert (strings, (void *)str, GUINT_TO_POINTER (*offset));
start = *offset;
*offset = ALIGN_VALUE (start + strlen (str) + 1, 4);
strcpy ((char *)&data[start], str);
return start;
}