/* GObject introspection: Typelib creation * * Copyright (C) 2005 Matthias Clasen * * 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 #include #include #include "girmodule.h" #include "girnode.h" #include "gtypelib.h" 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 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 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 ALIGN_VALUE(this, boundary) \ (( ((unsigned long)(this)) + (((unsigned long)(boundary)) -1)) & (~(((unsigned long)(boundary))-1))) const gchar * g_ir_node_type_to_string (GIrNodeTypeId type) { switch (type) { case G_IR_NODE_FUNCTION: return "function"; case G_IR_NODE_CALLBACK: return "callback"; case G_IR_NODE_PARAM: return "param"; case G_IR_NODE_TYPE: return "type"; case G_IR_NODE_OBJECT: return "object"; case G_IR_NODE_INTERFACE: return "interface"; case G_IR_NODE_SIGNAL: return "signal"; case G_IR_NODE_PROPERTY: return "property"; case G_IR_NODE_VFUNC: return "vfunc"; case G_IR_NODE_FIELD: return "field"; case G_IR_NODE_ENUM: return "enum"; case G_IR_NODE_FLAGS: return "flags"; case G_IR_NODE_BOXED: return "boxed"; case G_IR_NODE_STRUCT: return "struct"; case G_IR_NODE_VALUE: return "value"; case G_IR_NODE_CONSTANT: return "constant"; case G_IR_NODE_ERROR_DOMAIN: return "error-domain"; case G_IR_NODE_XREF: return "xref"; case G_IR_NODE_UNION: return "union"; default: return "unknown"; } } GIrNode * g_ir_node_new (GIrNodeTypeId type) { GIrNode *node = NULL; switch (type) { case G_IR_NODE_FUNCTION: case G_IR_NODE_CALLBACK: node = g_malloc0 (sizeof (GIrNodeFunction)); break; case G_IR_NODE_PARAM: node = g_malloc0 (sizeof (GIrNodeParam)); break; case G_IR_NODE_TYPE: node = g_malloc0 (sizeof (GIrNodeType)); break; case G_IR_NODE_OBJECT: case G_IR_NODE_INTERFACE: node = g_malloc0 (sizeof (GIrNodeInterface)); break; case G_IR_NODE_SIGNAL: node = g_malloc0 (sizeof (GIrNodeSignal)); break; case G_IR_NODE_PROPERTY: node = g_malloc0 (sizeof (GIrNodeProperty)); break; case G_IR_NODE_VFUNC: node = g_malloc0 (sizeof (GIrNodeFunction)); break; case G_IR_NODE_FIELD: node = g_malloc0 (sizeof (GIrNodeField)); break; case G_IR_NODE_ENUM: case G_IR_NODE_FLAGS: node = g_malloc0 (sizeof (GIrNodeEnum)); break; case G_IR_NODE_BOXED: node = g_malloc0 (sizeof (GIrNodeBoxed)); break; case G_IR_NODE_STRUCT: node = g_malloc0 (sizeof (GIrNodeStruct)); break; case G_IR_NODE_VALUE: node = g_malloc0 (sizeof (GIrNodeValue)); break; case G_IR_NODE_CONSTANT: node = g_malloc0 (sizeof (GIrNodeConstant)); break; case G_IR_NODE_ERROR_DOMAIN: node = g_malloc0 (sizeof (GIrNodeErrorDomain)); break; case G_IR_NODE_XREF: node = g_malloc0 (sizeof (GIrNodeXRef)); break; case G_IR_NODE_UNION: node = g_malloc0 (sizeof (GIrNodeUnion)); break; default: g_error ("Unhandled node type %d\n", type); break; } node->type = type; return node; } void g_ir_node_free (GIrNode *node) { GList *l; if (node == NULL) return; switch (node->type) { case G_IR_NODE_FUNCTION: case G_IR_NODE_CALLBACK: { GIrNodeFunction *function = (GIrNodeFunction *)node; g_free (node->name); g_free (function->symbol); g_ir_node_free ((GIrNode *)function->result); for (l = function->parameters; l; l = l->next) g_ir_node_free ((GIrNode *)l->data); g_list_free (function->parameters); } break; case G_IR_NODE_TYPE: { GIrNodeType *type = (GIrNodeType *)node; g_free (node->name); g_ir_node_free ((GIrNode *)type->parameter_type1); g_ir_node_free ((GIrNode *)type->parameter_type2); g_free (type->interface); g_strfreev (type->errors); } break; case G_IR_NODE_PARAM: { GIrNodeParam *param = (GIrNodeParam *)node; g_free (node->name); g_ir_node_free ((GIrNode *)param->type); } break; case G_IR_NODE_PROPERTY: { GIrNodeProperty *property = (GIrNodeProperty *)node; g_free (node->name); g_ir_node_free ((GIrNode *)property->type); } break; case G_IR_NODE_SIGNAL: { GIrNodeSignal *signal = (GIrNodeSignal *)node; g_free (node->name); for (l = signal->parameters; l; l = l->next) g_ir_node_free ((GIrNode *)l->data); g_list_free (signal->parameters); g_ir_node_free ((GIrNode *)signal->result); } break; case G_IR_NODE_VFUNC: { GIrNodeVFunc *vfunc = (GIrNodeVFunc *)node; g_free (node->name); for (l = vfunc->parameters; l; l = l->next) g_ir_node_free ((GIrNode *)l->data); g_list_free (vfunc->parameters); g_ir_node_free ((GIrNode *)vfunc->result); } break; case G_IR_NODE_FIELD: { GIrNodeField *field = (GIrNodeField *)node; g_free (node->name); g_ir_node_free ((GIrNode *)field->type); } break; case G_IR_NODE_OBJECT: case G_IR_NODE_INTERFACE: { GIrNodeInterface *iface = (GIrNodeInterface *)node; g_free (node->name); g_free (iface->gtype_name); g_free (iface->gtype_init); g_free (iface->parent); for (l = iface->interfaces; l; l = l->next) g_free ((GIrNode *)l->data); g_list_free (iface->interfaces); for (l = iface->members; l; l = l->next) g_ir_node_free ((GIrNode *)l->data); g_list_free (iface->members); } break; case G_IR_NODE_VALUE: { g_free (node->name); } break; case G_IR_NODE_ENUM: case G_IR_NODE_FLAGS: { GIrNodeEnum *enum_ = (GIrNodeEnum *)node; g_free (node->name); g_free (enum_->gtype_name); g_free (enum_->gtype_init); for (l = enum_->values; l; l = l->next) g_ir_node_free ((GIrNode *)l->data); g_list_free (enum_->values); } break; case G_IR_NODE_BOXED: { GIrNodeBoxed *boxed = (GIrNodeBoxed *)node; g_free (node->name); g_free (boxed->gtype_name); g_free (boxed->gtype_init); for (l = boxed->members; l; l = l->next) g_ir_node_free ((GIrNode *)l->data); g_list_free (boxed->members); } break; case G_IR_NODE_STRUCT: { GIrNodeStruct *struct_ = (GIrNodeStruct *)node; g_free (node->name); g_free (struct_->gtype_name); g_free (struct_->gtype_init); for (l = struct_->members; l; l = l->next) g_ir_node_free ((GIrNode *)l->data); g_list_free (struct_->members); } break; case G_IR_NODE_CONSTANT: { GIrNodeConstant *constant = (GIrNodeConstant *)node; g_free (node->name); g_free (constant->value); g_ir_node_free ((GIrNode *)constant->type); } break; case G_IR_NODE_ERROR_DOMAIN: { GIrNodeErrorDomain *domain = (GIrNodeErrorDomain *)node; g_free (node->name); g_free (domain->getquark); g_free (domain->codes); } break; case G_IR_NODE_XREF: { GIrNodeXRef *xref = (GIrNodeXRef *)node; g_free (node->name); g_free (xref->namespace); } break; case G_IR_NODE_UNION: { GIrNodeUnion *union_ = (GIrNodeUnion *)node; g_free (node->name); g_free (union_->gtype_name); g_free (union_->gtype_init); g_ir_node_free ((GIrNode *)union_->discriminator_type); for (l = union_->members; l; l = l->next) g_ir_node_free ((GIrNode *)l->data); for (l = union_->discriminators; l; l = l->next) g_ir_node_free ((GIrNode *)l->data); } break; default: g_error ("Unhandled node type %d\n", node->type); break; } g_free (node); } /* returns the fixed size of the blob */ guint32 g_ir_node_get_size (GIrNode *node) { GList *l; gint size, n; switch (node->type) { case G_IR_NODE_CALLBACK: size = 12; break; case G_IR_NODE_FUNCTION: size = 16; break; case G_IR_NODE_PARAM: size = 12; break; case G_IR_NODE_TYPE: size = 4; break; case G_IR_NODE_OBJECT: { GIrNodeInterface *iface = (GIrNodeInterface *)node; n = g_list_length (iface->interfaces); size = 32 + 2 * (n + (n % 2)); for (l = iface->members; l; l = l->next) size += g_ir_node_get_size ((GIrNode *)l->data); } break; case G_IR_NODE_INTERFACE: { GIrNodeInterface *iface = (GIrNodeInterface *)node; n = g_list_length (iface->prerequisites); size = 28 + 2 * (n + (n % 2)); for (l = iface->members; l; l = l->next) size += g_ir_node_get_size ((GIrNode *)l->data); } break; case G_IR_NODE_ENUM: case G_IR_NODE_FLAGS: { GIrNodeEnum *enum_ = (GIrNodeEnum *)node; size = 20; for (l = enum_->values; l; l = l->next) size += g_ir_node_get_size ((GIrNode *)l->data); } break; case G_IR_NODE_VALUE: size = 12; break; case G_IR_NODE_STRUCT: { GIrNodeStruct *struct_ = (GIrNodeStruct *)node; size = 20; for (l = struct_->members; l; l = l->next) size += g_ir_node_get_size ((GIrNode *)l->data); } break; case G_IR_NODE_BOXED: { GIrNodeBoxed *boxed = (GIrNodeBoxed *)node; size = 20; for (l = boxed->members; l; l = l->next) size += g_ir_node_get_size ((GIrNode *)l->data); } break; case G_IR_NODE_PROPERTY: size = 12; break; case G_IR_NODE_SIGNAL: size = 12; break; case G_IR_NODE_VFUNC: size = 16; break; case G_IR_NODE_FIELD: size = 12; break; case G_IR_NODE_CONSTANT: size = 20; break; case G_IR_NODE_ERROR_DOMAIN: size = 16; break; case G_IR_NODE_XREF: size = 0; break; case G_IR_NODE_UNION: { GIrNodeUnion *union_ = (GIrNodeUnion *)node; size = 28; for (l = union_->members; l; l = l->next) size += g_ir_node_get_size ((GIrNode *)l->data); for (l = union_->discriminators; l; l = l->next) size += g_ir_node_get_size ((GIrNode *)l->data); } break; default: g_error ("Unhandled node type '%s'\n", g_ir_node_type_to_string (node->type)); size = 0; } g_debug ("node %p type '%s' size %d", node, g_ir_node_type_to_string (node->type), size); return size; } /* returns the full size of the blob including variable-size parts */ static guint32 g_ir_node_get_full_size_internal (GIrNode *parent, GIrNode *node) { GList *l; gint size, n; if (node == NULL && parent != NULL) g_error ("Caught NULL node, parent=%s", parent->name); g_debug ("node %p type '%s'", node, g_ir_node_type_to_string (node->type)); switch (node->type) { case G_IR_NODE_CALLBACK: { GIrNodeFunction *function = (GIrNodeFunction *)node; size = 12; size += ALIGN_VALUE (strlen (node->name) + 1, 4); for (l = function->parameters; l; l = l->next) { size += g_ir_node_get_full_size_internal (node, (GIrNode *)l->data); } size += g_ir_node_get_full_size_internal (node, (GIrNode *)function->result); } break; case G_IR_NODE_FUNCTION: { GIrNodeFunction *function = (GIrNodeFunction *)node; size = 24; 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 += g_ir_node_get_full_size_internal (node, (GIrNode *)l->data); size += g_ir_node_get_full_size_internal (node, (GIrNode *)function->result); } break; case G_IR_NODE_PARAM: { GIrNodeParam *param = (GIrNodeParam *)node; size = 12; if (node->name) size += ALIGN_VALUE (strlen (node->name) + 1, 4); size += g_ir_node_get_full_size_internal (node, (GIrNode *)param->type); } break; case G_IR_NODE_TYPE: { GIrNodeType *type = (GIrNodeType *)node; if (type->tag < GI_TYPE_TAG_ARRAY) size = 4; else { g_debug ("node %p type tag '%s'", node, g_type_tag_to_string (type->tag)); switch (type->tag) { case GI_TYPE_TAG_ARRAY: size = 4 + 4; if (type->parameter_type1) size += g_ir_node_get_full_size_internal (node, (GIrNode *)type->parameter_type1); break; case GI_TYPE_TAG_INTERFACE: size = 4 + 4; break; case GI_TYPE_TAG_GLIST: case GI_TYPE_TAG_GSLIST: size = 4 + 4; if (type->parameter_type1) size += g_ir_node_get_full_size_internal (node, (GIrNode *)type->parameter_type1); break; case GI_TYPE_TAG_GHASH: size = 4 + 4 + 4; if (type->parameter_type1) size += g_ir_node_get_full_size_internal (node, (GIrNode *)type->parameter_type1); if (type->parameter_type2) size += g_ir_node_get_full_size_internal (node, (GIrNode *)type->parameter_type2); break; case GI_TYPE_TAG_ERROR: { gint n; if (type->errors) n = g_strv_length (type->errors); else n = 0; size = 4 + 4 + 2 * (n + n % 2); } break; default: g_error ("Unknown type tag %d\n", type->tag); break; } } } break; case G_IR_NODE_OBJECT: { GIrNodeInterface *iface = (GIrNodeInterface *)node; n = g_list_length (iface->interfaces); size = 32; if (iface->parent) size += ALIGN_VALUE (strlen (iface->parent) + 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); size += ALIGN_VALUE ( + 1, 4); size += 2 * (n + (n % 2)); for (l = iface->members; l; l = l->next) size += g_ir_node_get_full_size_internal (node, (GIrNode *)l->data); } break; case G_IR_NODE_INTERFACE: { GIrNodeInterface *iface = (GIrNodeInterface *)node; n = g_list_length (iface->prerequisites); size = 28; 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 += g_ir_node_get_full_size_internal (node, (GIrNode *)l->data); } break; case G_IR_NODE_ENUM: case G_IR_NODE_FLAGS: { GIrNodeEnum *enum_ = (GIrNodeEnum *)node; size = 20; 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); } for (l = enum_->values; l; l = l->next) size += g_ir_node_get_full_size_internal (node, (GIrNode *)l->data); } break; case G_IR_NODE_VALUE: { size = 12; size += ALIGN_VALUE (strlen (node->name) + 1, 4); } break; case G_IR_NODE_STRUCT: { GIrNodeStruct *struct_ = (GIrNodeStruct *)node; size = 20; 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); for (l = struct_->members; l; l = l->next) size += g_ir_node_get_full_size_internal (node, (GIrNode *)l->data); } break; case G_IR_NODE_BOXED: { GIrNodeBoxed *boxed = (GIrNodeBoxed *)node; size = 20; 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 += g_ir_node_get_full_size_internal (node, (GIrNode *)l->data); } break; case G_IR_NODE_PROPERTY: { GIrNodeProperty *prop = (GIrNodeProperty *)node; size = 12; size += ALIGN_VALUE (strlen (node->name) + 1, 4); size += g_ir_node_get_full_size_internal (node, (GIrNode *)prop->type); } break; case G_IR_NODE_SIGNAL: { GIrNodeSignal *signal = (GIrNodeSignal *)node; size = 12; size += ALIGN_VALUE (strlen (node->name) + 1, 4); for (l = signal->parameters; l; l = l->next) size += g_ir_node_get_full_size_internal (node, (GIrNode *)l->data); size += g_ir_node_get_full_size_internal (node, (GIrNode *)signal->result); } break; case G_IR_NODE_VFUNC: { GIrNodeVFunc *vfunc = (GIrNodeVFunc *)node; size = 16; size += ALIGN_VALUE (strlen (node->name) + 1, 4); for (l = vfunc->parameters; l; l = l->next) size += g_ir_node_get_full_size_internal (node, (GIrNode *)l->data); size += g_ir_node_get_full_size_internal (node, (GIrNode *)vfunc->result); } break; case G_IR_NODE_FIELD: { GIrNodeField *field = (GIrNodeField *)node; size = 12; size += ALIGN_VALUE (strlen (node->name) + 1, 4); size += g_ir_node_get_full_size_internal (node, (GIrNode *)field->type); } break; case G_IR_NODE_CONSTANT: { GIrNodeConstant *constant = (GIrNodeConstant *)node; size = 20; size += ALIGN_VALUE (strlen (node->name) + 1, 4); /* FIXME non-string values */ size += ALIGN_VALUE (strlen (constant->value) + 1, 4); size += g_ir_node_get_full_size_internal (node, (GIrNode *)constant->type); } break; case G_IR_NODE_ERROR_DOMAIN: { GIrNodeErrorDomain *domain = (GIrNodeErrorDomain *)node; size = 16; size += ALIGN_VALUE (strlen (node->name) + 1, 4); size += ALIGN_VALUE (strlen (domain->getquark) + 1, 4); } break; case G_IR_NODE_XREF: { GIrNodeXRef *xref = (GIrNodeXRef *)node; size = 0; size += ALIGN_VALUE (strlen (node->name) + 1, 4); size += ALIGN_VALUE (strlen (xref->namespace) + 1, 4); } break; case G_IR_NODE_UNION: { GIrNodeUnion *union_ = (GIrNodeUnion *)node; size = 28; 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); for (l = union_->members; l; l = l->next) size += g_ir_node_get_full_size_internal (node, (GIrNode *)l->data); for (l = union_->discriminators; l; l = l->next) size += g_ir_node_get_full_size_internal (node, (GIrNode *)l->data); } break; default: g_error ("Unknown type tag %d\n", node->type); size = 0; } g_debug ("node %s%s%s%p type '%s' full size %d", node->name ? "'" : "", node->name ? node->name : "", node->name ? "' " : "", node, g_ir_node_type_to_string (node->type), size); return size; } guint32 g_ir_node_get_full_size (GIrNode *node) { return g_ir_node_get_full_size_internal (NULL, node); } int g_ir_node_cmp (GIrNode *node, GIrNode *other) { if (node->type < other->type) return -1; else if (node->type > other->type) return 1; else return strcmp (node->name, other->name); } gboolean g_ir_node_can_have_member (GIrNode *node) { switch (node->type) { case G_IR_NODE_OBJECT: case G_IR_NODE_INTERFACE: case G_IR_NODE_BOXED: case G_IR_NODE_STRUCT: case G_IR_NODE_UNION: return TRUE; }; return FALSE; } void g_ir_node_add_member (GIrNode *node, GIrNodeFunction *member) { g_return_if_fail (node != NULL); g_return_if_fail (member != NULL); switch (node->type) { case G_IR_NODE_OBJECT: case G_IR_NODE_INTERFACE: { GIrNodeInterface *iface = (GIrNodeInterface *)node; iface->members = g_list_insert_sorted (iface->members, member, (GCompareFunc) g_ir_node_cmp); break; } case G_IR_NODE_BOXED: { GIrNodeBoxed *boxed = (GIrNodeBoxed *)node; boxed->members = g_list_insert_sorted (boxed->members, member, (GCompareFunc) g_ir_node_cmp); break; } case G_IR_NODE_STRUCT: { GIrNodeStruct *struct_ = (GIrNodeStruct *)node; struct_->members = g_list_insert_sorted (struct_->members, member, (GCompareFunc) g_ir_node_cmp); break; } case G_IR_NODE_UNION: { GIrNodeUnion *union_ = (GIrNodeUnion *)node; union_->members = g_list_insert_sorted (union_->members, member, (GCompareFunc) g_ir_node_cmp); break; } default: g_error ("Cannot add a member to unknown type tag type %d\n", node->type); break; } } const gchar * g_ir_node_param_direction_string (GIrNodeParam * node) { if (node->out) { if (node->in) return "in-out"; else return "out"; } return "in"; } static gint64 parse_int_value (const gchar *str) { return strtoll (str, NULL, 0); } static guint64 parse_uint_value (const gchar *str) { return strtoull (str, NULL, 0); } static gdouble parse_float_value (const gchar *str) { return strtod (str, NULL); } static gboolean parse_boolean_value (const gchar *str) { if (strcmp (str, "TRUE") == 0) return TRUE; if (strcmp (str, "FALSE") == 0) return FALSE; return parse_int_value (str) ? TRUE : FALSE; } static GIrNode * find_entry_node (GIrModule *module, GList *modules, const gchar *name, guint16 *idx) { GList *l; gint i; gchar **names; gint n_names; GIrNode *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++) { GIrNode *node = (GIrNode *)l->data; if (n_names > 1) { if (node->type != G_IR_NODE_XREF) continue; if (((GIrNodeXRef *)node)->namespace == NULL || strcmp (((GIrNodeXRef *)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) { GIrNode *node = g_ir_node_new (G_IR_NODE_XREF); ((GIrNodeXRef *)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; } g_warning ("Entry '%s' not found", name); out: g_strfreev (names); return result; } static guint16 find_entry (GIrModule *module, GList *modules, const gchar *name) { guint16 idx = 0; find_entry_node (module, modules, name, &idx); return idx; } static void serialize_type (GIrModule *module, GList *modules, GIrNodeType *node, GString *str) { gint i; const gchar* basic[] = { "void", "boolean", "int8", "uint8", "int16", "uint16", "int32", "uint32", "int64", "uint64", "int", "uint", "long", "ulong", "ssize", "size", "float", "double", "utf8", "filename", "string", "sequence", "any" }; if (node->tag < GI_TYPE_TAG_ARRAY) { g_string_append_printf (str, "%s", basic[node->tag]); } else if (node->tag == GI_TYPE_TAG_ARRAY) { serialize_type (module, modules, node->parameter_type1, str); g_string_append (str, "["); if (node->has_length) g_string_append_printf (str, "length=%d", node->length); if (node->zero_terminated) g_string_append_printf (str, "%szero-terminated=1", node->has_length ? "," : ""); g_string_append (str, "]"); } else if (node->tag == GI_TYPE_TAG_INTERFACE) { GIrNode *iface; gchar *name; iface = find_entry_node (module, modules, node->interface, NULL); if (iface) name = iface->name; else { g_warning ("Interface for type reference %s not found", node->interface); name = node->interface; } g_string_append_printf (str, "%s", name); } else if (node->tag == GI_TYPE_TAG_GLIST) { g_string_append (str, "GList"); if (node->parameter_type1) { g_string_append (str, "<"); serialize_type (module, modules, 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 (module, modules, 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 (module, modules, node->parameter_type1, str); g_string_append (str, ","); serialize_type (module, modules, 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, ">"); } } } void g_ir_node_build_typelib (GIrNode *node, GIrModule *module, GList *modules, GHashTable *strings, GHashTable *types, guchar *data, guint32 *offset, guint32 *offset2) { GList *l; guint32 old_offset = *offset; guint32 old_offset2 = *offset2; g_assert (node != NULL); g_debug ("build_typelib: %s%s(%s)", node->name ? node->name : "", node->name ? " " : "", g_ir_node_type_to_string (node->type)); switch (node->type) { case G_IR_NODE_TYPE: { GIrNodeType *type = (GIrNodeType *)node; SimpleTypeBlob *blob = (SimpleTypeBlob *)&data[*offset]; *offset += 4; if (type->tag < GI_TYPE_TAG_ARRAY || type->tag == GI_TYPE_TAG_UTF8) { blob->reserved = 0; blob->reserved2 = 0; blob->pointer = type->is_pointer; blob->reserved3 = 0; blob->tag = type->tag; } else { GString *str; gchar *s; gpointer value; str = g_string_new (0); serialize_type (module, modules, type, str); s = g_string_free (str, FALSE); types_count += 1; value = g_hash_table_lookup (types, s); if (value) { blob->offset = GPOINTER_TO_UINT (value); g_free (s); } else { unique_types_count += 1; g_hash_table_insert (types, s, GUINT_TO_POINTER(*offset2)); blob->offset = *offset2; switch (type->tag) { case GI_TYPE_TAG_ARRAY: { ArrayTypeBlob *array = (ArrayTypeBlob *)&data[*offset2]; guint32 pos; array->pointer = 1; array->reserved = 0; array->tag = type->tag; array->zero_terminated = type->zero_terminated; array->has_length = type->has_length; array->reserved2 = 0; array->length = type->length; pos = *offset2 + 4; *offset2 += 8; g_ir_node_build_typelib ((GIrNode *)type->parameter_type1, module, modules, strings, types, data, &pos, offset2); } break; case GI_TYPE_TAG_INTERFACE: { InterfaceTypeBlob *iface = (InterfaceTypeBlob *)&data[*offset2]; *offset2 += 4; iface->pointer = type->is_pointer; iface->reserved = 0; iface->tag = type->tag; iface->reserved2 = 0; iface->interface = find_entry (module, modules, type->interface); } break; case GI_TYPE_TAG_GLIST: case GI_TYPE_TAG_GSLIST: { ParamTypeBlob *param = (ParamTypeBlob *)&data[*offset2]; guint32 pos; param->pointer = 1; param->reserved = 0; param->tag = type->tag; param->reserved2 = 0; param->n_types = 1; pos = *offset2 + 4; *offset2 += 8; g_ir_node_build_typelib ((GIrNode *)type->parameter_type1, module, modules, strings, types, data, &pos, offset2); } break; case GI_TYPE_TAG_GHASH: { ParamTypeBlob *param = (ParamTypeBlob *)&data[*offset2]; guint32 pos; param->pointer = 1; param->reserved = 0; param->tag = type->tag; param->reserved2 = 0; param->n_types = 2; pos = *offset2 + 4; *offset2 += 12; g_ir_node_build_typelib ((GIrNode *)type->parameter_type1, module, modules, strings, types, data, &pos, offset2); g_ir_node_build_typelib ((GIrNode *)type->parameter_type2, module, modules, strings, types, data, &pos, offset2); } break; case GI_TYPE_TAG_ERROR: { ErrorTypeBlob *blob = (ErrorTypeBlob *)&data[*offset2]; gint i; blob->pointer = 1; blob->reserved = 0; blob->tag = type->tag; blob->reserved2 = 0; if (type->errors) blob->n_domains = g_strv_length (type->errors); else blob->n_domains = 0; *offset2 = ALIGN_VALUE (*offset2 + 4 + 2 * blob->n_domains, 4); for (i = 0; i < blob->n_domains; i++) blob->domains[i] = find_entry (module, modules, type->errors[i]); } break; default: g_error ("Unknown type tag %d\n", type->tag); break; } } } } break; case G_IR_NODE_FIELD: { GIrNodeField *field = (GIrNodeField *)node; FieldBlob *blob; blob = (FieldBlob *)&data[*offset]; *offset += 8; blob->name = write_string (node->name, strings, data, offset2); blob->readable = field->readable; blob->writable = field->writable; blob->reserved = 0; blob->bits = 0; blob->struct_offset = field->offset; g_ir_node_build_typelib ((GIrNode *)field->type, module, modules, strings, types, data, offset, offset2); } break; case G_IR_NODE_PROPERTY: { GIrNodeProperty *prop = (GIrNodeProperty *)node; PropertyBlob *blob = (PropertyBlob *)&data[*offset]; *offset += 8; blob->name = 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->reserved = 0; g_ir_node_build_typelib ((GIrNode *)prop->type, module, modules, strings, types, data, offset, offset2); } break; case G_IR_NODE_FUNCTION: { FunctionBlob *blob = (FunctionBlob *)&data[*offset]; SignatureBlob *blob2 = (SignatureBlob *)&data[*offset2]; GIrNodeFunction *function = (GIrNodeFunction *)node; guint32 signature; gint n; signature = *offset2; n = g_list_length (function->parameters); *offset += 16; *offset2 += 8 + n * 12; blob->blob_type = BLOB_TYPE_FUNCTION; blob->deprecated = function->deprecated; blob->setter = function->is_setter; blob->getter = function->is_getter; blob->constructor = function->is_constructor; blob->wraps_vfunc = function->wraps_vfunc; blob->reserved = 0; blob->index = 0; blob->name = write_string (node->name, strings, data, offset2); blob->symbol = write_string (function->symbol, strings, data, offset2); blob->signature = signature; g_debug ("building function '%s'", function->symbol); g_ir_node_build_typelib ((GIrNode *)function->result->type, module, modules, strings, types, data, &signature, offset2); blob2->may_return_null = function->result->null_ok; blob2->caller_owns_return_value = function->result->transfer; blob2->caller_owns_return_container = function->result->shallow_transfer; blob2->reserved = 0; blob2->n_arguments = n; signature += 4; for (l = function->parameters; l; l = l->next) { GIrNode *param = (GIrNode *)l->data; g_ir_node_build_typelib (param, module, modules, strings, types, data, &signature, offset2); } } break; case G_IR_NODE_CALLBACK: { CallbackBlob *blob = (CallbackBlob *)&data[*offset]; SignatureBlob *blob2 = (SignatureBlob *)&data[*offset2]; GIrNodeFunction *function = (GIrNodeFunction *)node; guint32 signature; gint n; signature = *offset2; n = g_list_length (function->parameters); *offset += 12; *offset2 += 8 + n * 12; blob->blob_type = BLOB_TYPE_CALLBACK; blob->deprecated = function->deprecated; blob->reserved = 0; blob->name = write_string (node->name, strings, data, offset2); blob->signature = signature; g_ir_node_build_typelib ((GIrNode *)function->result->type, module, modules, strings, types, data, &signature, offset2); blob2->may_return_null = function->result->null_ok; blob2->caller_owns_return_value = function->result->transfer; blob2->caller_owns_return_container = function->result->shallow_transfer; blob2->reserved = 0; blob2->n_arguments = n; signature += 4; for (l = function->parameters; l; l = l->next) { GIrNode *param = (GIrNode *)l->data; g_ir_node_build_typelib (param, module, modules, strings, types, data, &signature, offset2); } } break; case G_IR_NODE_SIGNAL: { SignalBlob *blob = (SignalBlob *)&data[*offset]; SignatureBlob *blob2 = (SignatureBlob *)&data[*offset2]; GIrNodeSignal *signal = (GIrNodeSignal *)node; guint32 signature; gint n; signature = *offset2; n = g_list_length (signal->parameters); *offset += 12; *offset2 += 8 + n * 12; 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 = write_string (node->name, strings, data, offset2); blob->signature = signature; g_ir_node_build_typelib ((GIrNode *)signal->result->type, module, modules, strings, types, data, &signature, offset2); blob2->may_return_null = signal->result->null_ok; blob2->caller_owns_return_value = signal->result->transfer; blob2->caller_owns_return_container = signal->result->shallow_transfer; blob2->reserved = 0; blob2->n_arguments = n; signature += 4; for (l = signal->parameters; l; l = l->next) { GIrNode *param = (GIrNode *)l->data; g_ir_node_build_typelib (param, module, modules, strings, types, data, &signature, offset2); } } break; case G_IR_NODE_VFUNC: { VFuncBlob *blob = (VFuncBlob *)&data[*offset]; SignatureBlob *blob2 = (SignatureBlob *)&data[*offset2]; GIrNodeVFunc *vfunc = (GIrNodeVFunc *)node; guint32 signature; gint n; signature = *offset2; n = g_list_length (vfunc->parameters); *offset += 16; *offset2 += 8 + n * 12; blob->name = 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->reserved = 0; blob->struct_offset = vfunc->offset; blob->reserved2 = 0; blob->signature = signature; g_ir_node_build_typelib ((GIrNode *)vfunc->result->type, module, modules, strings, types, data, &signature, offset2); blob2->may_return_null = vfunc->result->null_ok; blob2->caller_owns_return_value = vfunc->result->transfer; blob2->caller_owns_return_container = vfunc->result->shallow_transfer; blob2->reserved = 0; blob2->n_arguments = n; signature += 4; for (l = vfunc->parameters; l; l = l->next) { GIrNode *param = (GIrNode *)l->data; g_ir_node_build_typelib (param, module, modules, strings, types, data, &signature, offset2); } } break; case G_IR_NODE_PARAM: { ArgBlob *blob = (ArgBlob *)&data[*offset]; GIrNodeParam *param = (GIrNodeParam *)node; *offset += 8; blob->name = write_string (node->name, strings, data, offset2); blob->in = param->in; blob->out = param->out; blob->dipper = param->dipper; blob->null_ok = param->null_ok; blob->optional = param->optional; blob->transfer_ownership = param->transfer; blob->transfer_container_ownership = param->shallow_transfer; blob->return_value = param->retval; blob->reserved = 0; g_ir_node_build_typelib ((GIrNode *)param->type, module, modules, strings, types, data, offset, offset2); } break; case G_IR_NODE_STRUCT: { StructBlob *blob = (StructBlob *)&data[*offset]; GIrNodeStruct *struct_ = (GIrNodeStruct *)node; blob->blob_type = BLOB_TYPE_STRUCT; blob->deprecated = struct_->deprecated; blob->reserved = 0; blob->name = write_string (node->name, strings, data, offset2); if (struct_->gtype_name) { blob->unregistered = FALSE; blob->gtype_name = write_string (struct_->gtype_name, strings, data, offset2); blob->gtype_init = write_string (struct_->gtype_init, strings, data, offset2); } else { blob->unregistered = TRUE; blob->gtype_name = 0; blob->gtype_init = 0; } blob->n_fields = 0; blob->n_methods = 0; *offset += 20; for (l = struct_->members; l; l = l->next) { GIrNode *member = (GIrNode *)l->data; if (member->type == G_IR_NODE_FIELD) { blob->n_fields++; g_ir_node_build_typelib (member, module, modules, strings, types, data, offset, offset2); } } for (l = struct_->members; l; l = l->next) { GIrNode *member = (GIrNode *)l->data; if (member->type == G_IR_NODE_FUNCTION) { blob->n_methods++; g_ir_node_build_typelib (member, module, modules, strings, types, data, offset, offset2); } } } break; case G_IR_NODE_BOXED: { StructBlob *blob = (StructBlob *)&data[*offset]; GIrNodeBoxed *boxed = (GIrNodeBoxed *)node; blob->blob_type = BLOB_TYPE_BOXED; blob->deprecated = boxed->deprecated; blob->unregistered = FALSE; blob->reserved = 0; blob->name = write_string (node->name, strings, data, offset2); blob->gtype_name = write_string (boxed->gtype_name, strings, data, offset2); blob->gtype_init = write_string (boxed->gtype_init, strings, data, offset2); blob->n_fields = 0; blob->n_methods = 0; *offset += 20; for (l = boxed->members; l; l = l->next) { GIrNode *member = (GIrNode *)l->data; if (member->type == G_IR_NODE_FIELD) { blob->n_fields++; g_ir_node_build_typelib (member, module, modules, strings, types, data, offset, offset2); } } for (l = boxed->members; l; l = l->next) { GIrNode *member = (GIrNode *)l->data; if (member->type == G_IR_NODE_FUNCTION) { blob->n_methods++; g_ir_node_build_typelib (member, module, modules, strings, types, data, offset, offset2); } } } break; case G_IR_NODE_UNION: { UnionBlob *blob = (UnionBlob *)&data[*offset]; GIrNodeUnion *union_ = (GIrNodeUnion *)node; blob->blob_type = BLOB_TYPE_UNION; blob->deprecated = union_->deprecated; blob->reserved = 0; blob->name = write_string (node->name, strings, data, offset2); if (union_->gtype_name) { blob->unregistered = FALSE; blob->gtype_name = write_string (union_->gtype_name, strings, data, offset2); blob->gtype_init = 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_->discriminator_type) { *offset += 24; blob->discriminated = TRUE; g_ir_node_build_typelib ((GIrNode *)union_->discriminator_type, module, modules, strings, types, data, offset, offset2); } else { *offset += 28; blob->discriminated = FALSE; blob->discriminator_type.offset = 0; } for (l = union_->members; l; l = l->next) { GIrNode *member = (GIrNode *)l->data; if (member->type == G_IR_NODE_FIELD) { blob->n_fields++; g_ir_node_build_typelib (member, module, modules, strings, types, data, offset, offset2); } } for (l = union_->members; l; l = l->next) { GIrNode *member = (GIrNode *)l->data; if (member->type == G_IR_NODE_FUNCTION) { blob->n_functions++; g_ir_node_build_typelib (member, module, modules, strings, types, data, offset, offset2); } } if (union_->discriminator_type) { for (l = union_->discriminators; l; l = l->next) { GIrNode *member = (GIrNode *)l->data; g_ir_node_build_typelib (member, module, modules, strings, types, data, offset, offset2); } } } break; case G_IR_NODE_ENUM: case G_IR_NODE_FLAGS: { EnumBlob *blob = (EnumBlob *)&data[*offset]; GIrNodeEnum *enum_ = (GIrNodeEnum *)node; *offset += 20; if (node->type == G_IR_NODE_ENUM) blob->blob_type = BLOB_TYPE_ENUM; else blob->blob_type = BLOB_TYPE_FLAGS; blob->deprecated = enum_->deprecated; blob->reserved = 0; blob->name = write_string (node->name, strings, data, offset2); if (enum_->gtype_name) { blob->unregistered = FALSE; blob->gtype_name = write_string (enum_->gtype_name, strings, data, offset2); blob->gtype_init = write_string (enum_->gtype_init, strings, data, offset2); } else { blob->unregistered = TRUE; blob->gtype_name = 0; blob->gtype_init = 0; } blob->n_values = 0; blob->reserved2 = 0; for (l = enum_->values; l; l = l->next) { GIrNode *value = (GIrNode *)l->data; blob->n_values++; g_ir_node_build_typelib (value, module, modules, strings, types, data, offset, offset2); } } break; case G_IR_NODE_OBJECT: { ObjectBlob *blob = (ObjectBlob *)&data[*offset]; GIrNodeInterface *object = (GIrNodeInterface *)node; blob->blob_type = BLOB_TYPE_OBJECT; blob->deprecated = object->deprecated; blob->reserved = 0; blob->name = write_string (node->name, strings, data, offset2); blob->gtype_name = write_string (object->gtype_name, strings, data, offset2); blob->gtype_init = write_string (object->gtype_init, strings, data, offset2); if (object->parent) blob->parent = find_entry (module, modules, object->parent); else blob->parent = 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; *offset += 32; for (l = object->interfaces; l; l = l->next) { blob->n_interfaces++; *(guint16*)&data[*offset] = find_entry (module, modules, (gchar *)l->data); *offset += 2; } *offset = ALIGN_VALUE (*offset, 4); for (l = object->members; l; l = l->next) { GIrNode *member = (GIrNode *)l->data; if (member->type == G_IR_NODE_FIELD) { blob->n_fields++; g_ir_node_build_typelib (member, module, modules, strings, types, data, offset, offset2); } } *offset = ALIGN_VALUE (*offset, 4); for (l = object->members; l; l = l->next) { GIrNode *member = (GIrNode *)l->data; if (member->type == G_IR_NODE_PROPERTY) { blob->n_properties++; g_ir_node_build_typelib (member, module, modules, strings, types, data, offset, offset2); } } *offset = ALIGN_VALUE (*offset, 4); for (l = object->members; l; l = l->next) { GIrNode *member = (GIrNode *)l->data; if (member->type == G_IR_NODE_FUNCTION) { blob->n_methods++; g_ir_node_build_typelib (member, module, modules, strings, types, data, offset, offset2); } } *offset = ALIGN_VALUE (*offset, 4); for (l = object->members; l; l = l->next) { GIrNode *member = (GIrNode *)l->data; if (member->type == G_IR_NODE_SIGNAL) { blob->n_signals++; g_ir_node_build_typelib (member, module, modules, strings, types, data, offset, offset2); } } *offset = ALIGN_VALUE (*offset, 4); for (l = object->members; l; l = l->next) { GIrNode *member = (GIrNode *)l->data; if (member->type == G_IR_NODE_VFUNC) { blob->n_vfuncs++; g_ir_node_build_typelib (member, module, modules, strings, types, data, offset, offset2); } } *offset = ALIGN_VALUE (*offset, 4); for (l = object->members; l; l = l->next) { GIrNode *member = (GIrNode *)l->data; if (member->type == G_IR_NODE_CONSTANT) { blob->n_constants++; g_ir_node_build_typelib (member, module, modules, strings, types, data, offset, offset2); } } } break; case G_IR_NODE_INTERFACE: { InterfaceBlob *blob = (InterfaceBlob *)&data[*offset]; GIrNodeInterface *iface = (GIrNodeInterface *)node; blob->blob_type = BLOB_TYPE_INTERFACE; blob->deprecated = iface->deprecated; blob->reserved = 0; blob->name = write_string (node->name, strings, data, offset2); blob->gtype_name = write_string (iface->gtype_name, strings, data, offset2); blob->gtype_init = write_string (iface->gtype_init, strings, data, offset2); 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 += 28; for (l = iface->prerequisites; l; l = l->next) { blob->n_prerequisites++; *(guint16*)&data[*offset] = find_entry (module, modules, (gchar *)l->data); *offset += 2; } *offset = ALIGN_VALUE (*offset, 4); for (l = iface->members; l; l = l->next) { GIrNode *member = (GIrNode *)l->data; if (member->type == G_IR_NODE_PROPERTY) { blob->n_properties++; g_ir_node_build_typelib (member, module, modules, strings, types, data, offset, offset2); } } *offset = ALIGN_VALUE (*offset, 4); for (l = iface->members; l; l = l->next) { GIrNode *member = (GIrNode *)l->data; if (member->type == G_IR_NODE_FUNCTION) { blob->n_methods++; g_ir_node_build_typelib (member, module, modules, strings, types, data, offset, offset2); } } *offset = ALIGN_VALUE (*offset, 4); for (l = iface->members; l; l = l->next) { GIrNode *member = (GIrNode *)l->data; if (member->type == G_IR_NODE_SIGNAL) { blob->n_signals++; g_ir_node_build_typelib (member, module, modules, strings, types, data, offset, offset2); } } *offset = ALIGN_VALUE (*offset, 4); for (l = iface->members; l; l = l->next) { GIrNode *member = (GIrNode *)l->data; if (member->type == G_IR_NODE_VFUNC) { blob->n_vfuncs++; g_ir_node_build_typelib (member, module, modules, strings, types, data, offset, offset2); } } *offset = ALIGN_VALUE (*offset, 4); for (l = iface->members; l; l = l->next) { GIrNode *member = (GIrNode *)l->data; if (member->type == G_IR_NODE_CONSTANT) { blob->n_constants++; g_ir_node_build_typelib (member, module, modules, strings, types, data, offset, offset2); } } } break; case G_IR_NODE_VALUE: { GIrNodeValue *value = (GIrNodeValue *)node; ValueBlob *blob = (ValueBlob *)&data[*offset]; *offset += 12; blob->deprecated = value->deprecated; blob->reserved = 0; blob->name = write_string (node->name, strings, data, offset2); blob->value = value->value; } break; case G_IR_NODE_ERROR_DOMAIN: { GIrNodeErrorDomain *domain = (GIrNodeErrorDomain *)node; ErrorDomainBlob *blob = (ErrorDomainBlob *)&data[*offset]; *offset += 16; blob->blob_type = BLOB_TYPE_ERROR_DOMAIN; blob->deprecated = domain->deprecated; blob->reserved = 0; blob->name = write_string (node->name, strings, data, offset2); blob->get_quark = write_string (domain->getquark, strings, data, offset2); blob->error_codes = find_entry (module, modules, domain->codes); blob->reserved2 = 0; } break; case G_IR_NODE_CONSTANT: { GIrNodeConstant *constant = (GIrNodeConstant *)node; ConstantBlob *blob = (ConstantBlob *)&data[*offset]; guint32 pos; pos = *offset + 8; *offset += 20; blob->blob_type = BLOB_TYPE_CONSTANT; blob->deprecated = constant->deprecated; blob->reserved = 0; blob->name = 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; *(gint8*)&data[blob->offset] = (gint8) parse_int_value (constant->value); break; case GI_TYPE_TAG_UINT8: blob->size = 1; *(guint8*)&data[blob->offset] = (guint8) parse_uint_value (constant->value); break; case GI_TYPE_TAG_INT16: blob->size = 2; *(gint16*)&data[blob->offset] = (gint16) parse_int_value (constant->value); break; case GI_TYPE_TAG_UINT16: blob->size = 2; *(guint16*)&data[blob->offset] = (guint16) parse_uint_value (constant->value); break; case GI_TYPE_TAG_INT32: blob->size = 4; *(gint32*)&data[blob->offset] = (gint32) parse_int_value (constant->value); break; case GI_TYPE_TAG_UINT32: blob->size = 4; *(guint32*)&data[blob->offset] = (guint32) parse_uint_value (constant->value); break; case GI_TYPE_TAG_INT64: blob->size = 8; *(gint64*)&data[blob->offset] = (gint64) parse_int_value (constant->value); break; case GI_TYPE_TAG_UINT64: blob->size = 8; *(guint64*)&data[blob->offset] = (guint64) parse_uint_value (constant->value); break; case GI_TYPE_TAG_INT: blob->size = sizeof (gint); *(gint*)&data[blob->offset] = (gint) parse_int_value (constant->value); break; case GI_TYPE_TAG_UINT: blob->size = sizeof (guint); *(gint*)&data[blob->offset] = (guint) parse_uint_value (constant->value); break; case GI_TYPE_TAG_SSIZE: /* FIXME */ case GI_TYPE_TAG_LONG: blob->size = sizeof (glong); *(glong*)&data[blob->offset] = (glong) parse_int_value (constant->value); break; case GI_TYPE_TAG_SIZE: /* FIXME */ case GI_TYPE_TAG_ULONG: blob->size = sizeof (gulong); *(gulong*)&data[blob->offset] = (gulong) parse_uint_value (constant->value); break; case GI_TYPE_TAG_FLOAT: blob->size = sizeof (gfloat); *(gfloat*)&data[blob->offset] = (gfloat) parse_float_value (constant->value); break; case GI_TYPE_TAG_DOUBLE: blob->size = sizeof (gdouble); *(gdouble*)&data[blob->offset] = (gdouble) parse_float_value (constant->value); 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; } *offset2 += ALIGN_VALUE (blob->size, 4); g_ir_node_build_typelib ((GIrNode *)constant->type, module, modules, strings, types, data, &pos, offset2); } 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, g_ir_node_type_to_string (node->type), old_offset, *offset, old_offset2, *offset2); if (*offset2 - old_offset2 + *offset - old_offset > g_ir_node_get_full_size (node)) g_error ("exceeding space reservation !!"); } /* 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. */ guint32 write_string (const gchar *str, GHashTable *strings, guchar *data, guint32 *offset) { gpointer value; guint32 start; 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, (gpointer)str, GUINT_TO_POINTER (*offset)); start = *offset; *offset = ALIGN_VALUE (start + strlen (str) + 1, 4); strcpy ((gchar*)&data[start], str); return start; }