Exemplo n.º 1
0
 def _generate_container_code(self, union_type):
     union_type = union_type.resolve_typedefs(self.typedefs)
     header_template = self.jinja_env.get_template('union_container.h.tmpl')
     cpp_template = self.jinja_env.get_template('union_container.cpp.tmpl')
     template_context = v8_union.container_context(union_type,
                                                   self.info_provider)
     template_context['header_includes'].append(
         self.info_provider.include_path_for_export)
     template_context['header_includes'] = normalize_and_sort_includes(
         template_context['header_includes'],
         self.snake_case_generated_files)
     template_context['cpp_includes'] = normalize_and_sort_includes(
         template_context['cpp_includes'], self.snake_case_generated_files)
     template_context['code_generator'] = self.generator_name
     template_context['exported'] = self.info_provider.specifier_for_export
     snake_base_name = to_snake_case(shorten_union_name(union_type))
     template_context['this_include_header_name'] = snake_base_name
     header_text = render_template(header_template, template_context)
     cpp_text = render_template(cpp_template, template_context)
     header_path = posixpath.join(self.output_dir, '%s.h' % snake_base_name)
     cpp_path = posixpath.join(self.output_dir, '%s.cc' % snake_base_name)
     return (
         (header_path, header_text),
         (cpp_path, cpp_text),
     )
Exemplo n.º 2
0
 def _generate_container_code(self, union_type):
     header_template = self.jinja_env.get_template("union_container.h.tmpl")
     cpp_template = self.jinja_env.get_template("union_container.cpp.tmpl")
     template_context = v8_union.container_context(union_type, self.info_provider.interfaces_info)
     template_context["header_includes"].append(self.info_provider.include_path_for_export)
     template_context["header_includes"] = normalize_and_sort_includes(template_context["header_includes"])
     template_context["code_generator"] = self.generator_name
     template_context["exported"] = self.info_provider.specifier_for_export
     name = shorten_union_name(union_type)
     template_context["this_include_header_name"] = name
     header_text = header_template.render(template_context)
     cpp_text = cpp_template.render(template_context)
     header_path = posixpath.join(self.output_dir, "%s.h" % name)
     cpp_path = posixpath.join(self.output_dir, "%s.cpp" % name)
     return ((header_path, header_text), (cpp_path, cpp_text))
Exemplo n.º 3
0
 def _generate_container_code(self, union_type):
     header_template = self.jinja_env.get_template('union_container.h')
     cpp_template = self.jinja_env.get_template('union_container.cpp')
     template_context = v8_union.container_context(
         union_type, self.info_provider.interfaces_info)
     template_context['header_includes'].append(
         self.info_provider.include_path_for_export)
     template_context['header_includes'] = normalize_and_sort_includes(
         template_context['header_includes'])
     template_context['code_generator'] = module_pyname
     template_context['exported'] = self.info_provider.specifier_for_export
     name = shorten_union_name(union_type)
     template_context['this_include_header_name'] = name
     header_text = header_template.render(template_context)
     cpp_text = cpp_template.render(template_context)
     header_path = posixpath.join(self.output_dir, '%s.h' % name)
     cpp_path = posixpath.join(self.output_dir, '%s.cpp' % name)
     return (
         (header_path, header_text),
         (cpp_path, cpp_text),
     )
 def _generate_container_code(self, union_type):
     header_template = self.jinja_env.get_template('union_container.h')
     cpp_template = self.jinja_env.get_template('union_container.cpp')
     template_context = v8_union.container_context(
         union_type, self.info_provider.interfaces_info)
     template_context['header_includes'].append(
         self.info_provider.include_path_for_export)
     template_context['header_includes'] = normalize_and_sort_includes(
         template_context['header_includes'])
     template_context['code_generator'] = module_pyname
     template_context['exported'] = self.info_provider.specifier_for_export
     name = shorten_union_name(union_type)
     template_context['this_include_header_name'] = name
     header_text = header_template.render(template_context)
     cpp_text = cpp_template.render(template_context)
     header_path = posixpath.join(self.output_dir, '%s.h' % name)
     cpp_path = posixpath.join(self.output_dir, '%s.cpp' % name)
     return (
         (header_path, header_text),
         (cpp_path, cpp_text),
     )
Exemplo n.º 5
0
 def _generate_container_code(self, union_type):
     includes.clear()
     union_type = union_type.resolve_typedefs(self.typedefs)
     header_template = self.jinja_env.get_template('union_container.h.tmpl')
     cpp_template = self.jinja_env.get_template('union_container.cc.tmpl')
     template_context = v8_union.container_context(union_type, self.info_provider)
     template_context['header_includes'].append(
         self.info_provider.include_path_for_export)
     template_context['exported'] = self.info_provider.specifier_for_export
     snake_base_name = to_snake_case(shorten_union_name(union_type))
     header_path = posixpath.join(self.output_dir, '%s.h' % snake_base_name)
     cpp_path = posixpath.join(self.output_dir, '%s.cc' % snake_base_name)
     this_include_header_path = self.normalize_this_header_path(header_path)
     template_context['this_include_header_path'] = this_include_header_path
     template_context['header_guard'] = to_header_guard(this_include_header_path)
     header_text, cpp_text = self.render_templates(
         [], header_template, cpp_template, template_context)
     return (
         (header_path, header_text),
         (cpp_path, cpp_text),
     )
def compute_interfaces_info_overall(info_individuals):
    """Compute information about IDL files.

    Information is stored in global interfaces_info.
    """
    for info in info_individuals:
        merge_dict_recursively(interfaces_info, info['interfaces_info'])
        # Interfaces in one component may have partial interfaces in
        # another component. This is ok (not a layering violation), since
        # partial interfaces are used to *extend* interfaces.
        # We thus need to update or append if already present
        dict_of_dicts_of_lists_update_or_append(
                partial_interface_files, info['partial_interface_files'])

        interfaces_referenced_from_partial_interfaces.update(
                info['partial_interface_referenced_interfaces'])

    # Append interfaces referenced from partial interfaces into the full
    # interface's list of partial interfaces
    for interface_name, referenced_interfaces in interfaces_referenced_from_partial_interfaces.items():
        interface_info = interfaces_info[interface_name]
        interface_info['referenced_interfaces'].extend(referenced_interfaces)


    # Record inheritance information individually
    for interface_name, interface_info in interfaces_info.iteritems():
        extended_attributes = interface_info['extended_attributes']
        inherited_extended_attributes_by_interface[interface_name] = dict(
                (key, value)
                for key, value in extended_attributes.iteritems()
                if key in INHERITED_EXTENDED_ATTRIBUTES)
        parent = interface_info['parent']
        if parent:
            parent_interfaces[interface_name] = parent

    # Once all individual files handled, can compute inheritance information
    # and dependencies

    # Compute inheritance info
    for interface_name in interfaces_info:
        compute_inheritance_info(interface_name)

    # Compute dependencies
    # Move implements info from implement*ed* interface (rhs of 'implements')
    # to implement*ing* interface (lhs of 'implements').
    # Note that moving an 'implements' statement between implementing and
    # implemented files does not change the info (or hence cause a rebuild)!
    for right_interface_name, interface_info in interfaces_info.iteritems():
        for left_interface_name in interface_info['implemented_by_interfaces']:
            interfaces_info[left_interface_name]['implements_interfaces'].append(right_interface_name)
        del interface_info['implemented_by_interfaces']

    # An IDL file's dependencies are partial interface files that extend it,
    # and files for other interfaces that this interfaces implements.
    for interface_name, interface_info in interfaces_info.iteritems():
        partial_interface_paths = partial_interface_files[interface_name]
        partial_interfaces_full_paths = partial_interface_paths['full_paths']
        # Partial interface definitions each need an include, as they are
        # implemented in separate classes from the main interface.
        partial_interfaces_include_paths = partial_interface_paths['include_paths']

        implemented_interfaces = interface_info['implements_interfaces']
        try:
            implemented_interfaces_info = [
                interfaces_info[interface]
                for interface in implemented_interfaces]
        except KeyError as key_name:
            raise IdlInterfaceFileNotFoundError('Could not find the IDL file where the following implemented interface is defined: %s' % key_name)
        implemented_interfaces_full_paths = [
            implemented_interface_info['full_path']
            for implemented_interface_info in implemented_interfaces_info]
        # Implemented interfaces don't need includes, as this is handled in
        # the Blink implementation (they are implemented on |impl| itself,
        # hence header is included in implementing class).
        # However, they are needed for legacy implemented interfaces that
        # are being treated as partial interfaces, until we remove these.
        # http://crbug.com/360435
        implemented_interfaces_include_paths = [
            implemented_interface_info['include_path']
            for implemented_interface_info in implemented_interfaces_info
            if implemented_interface_info['is_legacy_treat_as_partial_interface']]

        dependencies_full_paths = implemented_interfaces_full_paths
        dependencies_include_paths = implemented_interfaces_include_paths
        dependencies_other_component_full_paths = []
        dependencies_other_component_include_paths = []

        component = idl_filename_to_component(interface_info['full_path'])
        for full_path in partial_interfaces_full_paths:
            partial_interface_component = idl_filename_to_component(full_path)
            if component == partial_interface_component:
                dependencies_full_paths.append(full_path)
            else:
                dependencies_other_component_full_paths.append(full_path)

        for include_path in partial_interfaces_include_paths:
            partial_interface_component = idl_filename_to_component(include_path)
            if component == partial_interface_component:
                dependencies_include_paths.append(include_path)
            else:
                dependencies_other_component_include_paths.append(include_path)

        for union_type in interface_info.get('union_types', []):
            name = shorten_union_name(union_type)
            dependencies_include_paths.append(
                'bindings/%s/v8/%s.h' % (component, name))

        interface_info.update({
            'dependencies_full_paths': dependencies_full_paths,
            'dependencies_include_paths': dependencies_include_paths,
            'dependencies_other_component_full_paths':
                dependencies_other_component_full_paths,
            'dependencies_other_component_include_paths':
                dependencies_other_component_include_paths,
        })

    # Clean up temporary private information
    for interface_info in interfaces_info.itervalues():
        del interface_info['extended_attributes']
        del interface_info['union_types']
        del interface_info['is_legacy_treat_as_partial_interface']

    # Compute global_type_info to interfaces_info so that idl_compiler does
    # not need to always calculate the info in __init__.
    compute_global_type_info()
    def collect_info(self, idl_filename):
        """Reads an idl file and collects information which is required by the
        binding code generation."""
        def collect_unforgeable_attributes(definition, idl_filename):
            """Collects [Unforgeable] attributes so that we can define them on
            sub-interfaces later.  The resulting structure is as follows.
                interfaces_info[interface_name] = {
                    'unforgeable_attributes': {
                        'core': [IdlAttribute, ...],
                        'modules': [IdlAttribute, ...],
                    },
                    ...
                }
            """
            interface_info = {}
            unforgeable_attributes = get_unforgeable_attributes_from_definition(
                definition)
            if not unforgeable_attributes:
                return interface_info

            if definition.is_partial:
                interface_basename = idl_filename_to_interface_name(
                    idl_filename)
                # TODO(yukishiino): [PartialInterfaceImplementedAs] is treated
                # in interface_dependency_resolver.transfer_extended_attributes.
                # Come up with a better way to keep them consistent.
                for attr in unforgeable_attributes:
                    attr.extended_attributes[
                        'PartialInterfaceImplementedAs'] = definition.extended_attributes.get(
                            'ImplementedAs', interface_basename)
            component = idl_filename_to_component(idl_filename)
            interface_info['unforgeable_attributes'] = {}
            interface_info['unforgeable_attributes'][
                component] = unforgeable_attributes
            return interface_info

        definitions = self.reader.read_idl_file(idl_filename)

        this_union_types = collect_union_types_from_definitions(definitions)
        self.union_types.update(this_union_types)
        self.typedefs.update(definitions.typedefs)
        # Check enum duplication.
        for enum_name in definitions.enumerations.keys():
            for defined_enum in self.enumerations:
                if defined_enum.name == enum_name:
                    raise Exception('Enumeration %s has multiple definitions' %
                                    enum_name)
        self.enumerations.update(definitions.enumerations.values())

        if definitions.interfaces:
            definition = next(definitions.interfaces.itervalues())
            interface_info = {
                'is_callback_interface':
                definition.is_callback,
                'is_dictionary':
                False,
                # Interfaces that are referenced (used as types) and that we
                # introspect during code generation (beyond interface-level
                # data ([ImplementedAs], is_callback_interface, ancestors, and
                # inherited extended attributes): deep dependencies.
                # These cause rebuilds of referrers, due to the dependency,
                # so these should be minimized; currently only targets of
                # [PutForwards].
                'referenced_interfaces':
                get_put_forward_interfaces_from_definition(definition),
            }
        elif definitions.dictionaries:
            definition = next(definitions.dictionaries.itervalues())
            interface_info = {
                'is_callback_interface': False,
                'is_dictionary': True,
                'referenced_interfaces': None,
            }
        else:
            return

        if definition.name not in self.interfaces_info:
            self.interfaces_info[definition.name] = {}

        # Remember [Unforgeable] attributes.
        if definitions.interfaces:
            merge_dict_recursively(
                self.interfaces_info[definition.name],
                collect_unforgeable_attributes(definition, idl_filename))

        component = idl_filename_to_component(idl_filename)
        extended_attributes = definition.extended_attributes
        implemented_as = extended_attributes.get('ImplementedAs')
        full_path = os.path.realpath(idl_filename)
        this_include_path = None if 'NoImplHeader' in extended_attributes else include_path(
            idl_filename, implemented_as)
        if definition.is_partial:
            # We don't create interface_info for partial interfaces, but
            # adds paths to another dict.
            partial_include_paths = []
            if this_include_path:
                partial_include_paths.append(this_include_path)
            for union_type in this_union_types:
                name = shorten_union_name(union_type)
                partial_include_paths.append('bindings/%s/v8/%s.h' %
                                             (component, name))
            self.add_paths_to_partials_dict(definition.name, full_path,
                                            partial_include_paths)
            # Collects C++ header paths which should be included from generated
            # .cpp files.  The resulting structure is as follows.
            #   interfaces_info[interface_name] = {
            #       'cpp_includes': {
            #           'core': set(['core/foo/Foo.h', ...]),
            #           'modules': set(['modules/bar/Bar.h', ...]),
            #       },
            #       ...
            #   }
            if this_include_path:
                merge_dict_recursively(
                    self.interfaces_info[definition.name],
                    {'cpp_includes': {
                        component: set([this_include_path])
                    }})
            return

        # 'implements' statements can be included in either the file for the
        # implement*ing* interface (lhs of 'implements') or implement*ed* interface
        # (rhs of 'implements'). Store both for now, then merge to implement*ing*
        # interface later.
        left_interfaces, right_interfaces = get_implements_from_definitions(
            definitions, definition.name)

        interface_info.update({
            'extended_attributes':
            extended_attributes,
            'full_path':
            full_path,
            'union_types':
            this_union_types,
            'implemented_as':
            implemented_as,
            'implemented_by_interfaces':
            left_interfaces,
            'implements_interfaces':
            right_interfaces,
            'include_path':
            this_include_path,
            # FIXME: temporary private field, while removing old treatement of
            # 'implements': http://crbug.com/360435
            'is_legacy_treat_as_partial_interface':
            'LegacyTreatAsPartialInterface' in extended_attributes,
            'parent':
            definition.parent,
            'relative_dir':
            relative_dir_posix(idl_filename, source_path),
        })
        merge_dict_recursively(self.interfaces_info[definition.name],
                               interface_info)
    def collect_info(self, idl_filename):
        """Reads an idl file and collects information which is required by the
        binding code generation."""
        def collect_unforgeable_attributes(definition, idl_filename):
            """Collects [Unforgeable] attributes so that we can define them on
            sub-interfaces later.  The resulting structure is as follows.
                interfaces_info[interface_name] = {
                    'unforgeable_attributes': {
                        'core': [IdlAttribute, ...],
                        'modules': [IdlAttribute, ...],
                    },
                    ...
                }
            """
            interface_info = {}
            unforgeable_attributes = get_unforgeable_attributes_from_definition(definition)
            if not unforgeable_attributes:
                return interface_info

            if definition.is_partial:
                interface_basename = idl_filename_to_interface_name(idl_filename)
                # TODO(yukishiino): [PartialInterfaceImplementedAs] is treated
                # in interface_dependency_resolver.transfer_extended_attributes.
                # Come up with a better way to keep them consistent.
                for attr in unforgeable_attributes:
                    attr.extended_attributes['PartialInterfaceImplementedAs'] = definition.extended_attributes.get('ImplementedAs', interface_basename)
            component = idl_filename_to_component(idl_filename)
            interface_info['unforgeable_attributes'] = {}
            interface_info['unforgeable_attributes'][component] = unforgeable_attributes
            return interface_info

        definitions = self.reader.read_idl_file(idl_filename)

        this_union_types = collect_union_types_from_definitions(definitions)
        self.union_types.update(this_union_types)
        self.typedefs.update(definitions.typedefs)
        for callback_function_name, callback_function in definitions.callback_functions.iteritems():
            # Set 'component_dir' to specify a directory that callback function files belong to
            self.callback_functions[callback_function_name] = {
                'callback_function': callback_function,
                'component_dir': idl_filename_to_component(idl_filename),
                'full_path': os.path.realpath(idl_filename),
            }
        # Check enum duplication.
        for enum_name in definitions.enumerations.keys():
            for defined_enum in self.enumerations:
                if defined_enum.name == enum_name:
                    raise Exception('Enumeration %s has multiple definitions' % enum_name)
        self.enumerations.update(definitions.enumerations.values())

        if definitions.interfaces:
            definition = next(definitions.interfaces.itervalues())
            interface_info = {
                'is_callback_interface': definition.is_callback,
                'is_dictionary': False,
                # Interfaces that are referenced (used as types) and that we
                # introspect during code generation (beyond interface-level
                # data ([ImplementedAs], is_callback_interface, ancestors, and
                # inherited extended attributes): deep dependencies.
                # These cause rebuilds of referrers, due to the dependency,
                # so these should be minimized; currently only targets of
                # [PutForwards].
                'referenced_interfaces': get_put_forward_interfaces_from_definition(definition),
            }
        elif definitions.dictionaries:
            definition = next(definitions.dictionaries.itervalues())
            interface_info = {
                'is_callback_interface': False,
                'is_dictionary': True,
                'referenced_interfaces': None,
            }
        else:
            return

        if definition.name not in self.interfaces_info:
            self.interfaces_info[definition.name] = {}

        # Remember [Unforgeable] attributes.
        if definitions.interfaces:
            merge_dict_recursively(self.interfaces_info[definition.name],
                                   collect_unforgeable_attributes(definition, idl_filename))

        component = idl_filename_to_component(idl_filename)
        extended_attributes = definition.extended_attributes
        implemented_as = extended_attributes.get('ImplementedAs')
        full_path = os.path.realpath(idl_filename)
        this_include_path = None if 'NoImplHeader' in extended_attributes else include_path(idl_filename, implemented_as)
        if definition.is_partial:
            # We don't create interface_info for partial interfaces, but
            # adds paths to another dict.
            partial_include_paths = []
            if this_include_path:
                partial_include_paths.append(this_include_path)
            for union_type in this_union_types:
                name = shorten_union_name(union_type)
                partial_include_paths.append(
                    'bindings/%s/v8/%s.h' % (component, name))
            self.add_paths_to_partials_dict(definition.name, full_path, partial_include_paths)
            # Collects C++ header paths which should be included from generated
            # .cpp files.  The resulting structure is as follows.
            #   interfaces_info[interface_name] = {
            #       'cpp_includes': {
            #           'core': set(['core/foo/Foo.h', ...]),
            #           'modules': set(['modules/bar/Bar.h', ...]),
            #       },
            #       ...
            #   }
            if this_include_path:
                merge_dict_recursively(
                    self.interfaces_info[definition.name],
                    {'cpp_includes': {component: set([this_include_path])}})
            return

        # 'implements' statements can be included in either the file for the
        # implement*ing* interface (lhs of 'implements') or implement*ed* interface
        # (rhs of 'implements'). Store both for now, then merge to implement*ing*
        # interface later.
        left_interfaces, right_interfaces = get_implements_from_definitions(
            definitions, definition.name)

        interface_info.update({
            'extended_attributes': extended_attributes,
            'full_path': full_path,
            'union_types': this_union_types,
            'implemented_as': implemented_as,
            'implemented_by_interfaces': left_interfaces,
            'implements_interfaces': right_interfaces,
            'include_path': this_include_path,
            # FIXME: temporary private field, while removing old treatement of
            # 'implements': http://crbug.com/360435
            'is_legacy_treat_as_partial_interface': 'LegacyTreatAsPartialInterface' in extended_attributes,
            'parent': definition.parent,
            'relative_dir': relative_dir_posix(idl_filename, source_path),
        })
        merge_dict_recursively(self.interfaces_info[definition.name], interface_info)
def compute_interfaces_info_overall(info_individuals):
    """Compute information about IDL files.

    Information is stored in global interfaces_info.
    """
    for info in info_individuals:
        merge_dict_recursively(interfaces_info, info["interfaces_info"])
        # Interfaces in one component may have partial interfaces in
        # another component. This is ok (not a layering violation), since
        # partial interfaces are used to *extend* interfaces.
        # We thus need to update or append if already present
        dict_of_dicts_of_lists_update_or_append(partial_interface_files, info["partial_interface_files"])

    # Record inheritance information individually
    for interface_name, interface_info in interfaces_info.iteritems():
        extended_attributes = interface_info["extended_attributes"]
        inherited_extended_attributes_by_interface[interface_name] = dict(
            (key, value) for key, value in extended_attributes.iteritems() if key in INHERITED_EXTENDED_ATTRIBUTES
        )
        parent = interface_info["parent"]
        if parent:
            parent_interfaces[interface_name] = parent

    # Once all individual files handled, can compute inheritance information
    # and dependencies

    # Compute inheritance info
    for interface_name in interfaces_info:
        compute_inheritance_info(interface_name)

    # Compute dependencies
    # Move implements info from implement*ed* interface (rhs of 'implements')
    # to implement*ing* interface (lhs of 'implements').
    # Note that moving an 'implements' statement between implementing and
    # implemented files does not change the info (or hence cause a rebuild)!
    for right_interface_name, interface_info in interfaces_info.iteritems():
        for left_interface_name in interface_info["implemented_by_interfaces"]:
            interfaces_info[left_interface_name]["implements_interfaces"].append(right_interface_name)
        del interface_info["implemented_by_interfaces"]

    # An IDL file's dependencies are partial interface files that extend it,
    # and files for other interfaces that this interfaces implements.
    for interface_name, interface_info in interfaces_info.iteritems():
        partial_interface_paths = partial_interface_files[interface_name]
        partial_interfaces_full_paths = partial_interface_paths["full_paths"]
        # Partial interface definitions each need an include, as they are
        # implemented in separate classes from the main interface.
        partial_interfaces_include_paths = partial_interface_paths["include_paths"]

        implemented_interfaces = interface_info["implements_interfaces"]
        try:
            implemented_interfaces_info = [interfaces_info[interface] for interface in implemented_interfaces]
        except KeyError as key_name:
            raise IdlInterfaceFileNotFoundError(
                "Could not find the IDL file where the following implemented interface is defined: %s" % key_name
            )
        implemented_interfaces_full_paths = [
            implemented_interface_info["full_path"] for implemented_interface_info in implemented_interfaces_info
        ]
        # Implemented interfaces don't need includes, as this is handled in
        # the Blink implementation (they are implemented on |impl| itself,
        # hence header is included in implementing class).
        # However, they are needed for legacy implemented interfaces that
        # are being treated as partial interfaces, until we remove these.
        # http://crbug.com/360435
        implemented_interfaces_include_paths = []
        for implemented_interface_info in implemented_interfaces_info:
            if (
                implemented_interface_info["is_legacy_treat_as_partial_interface"]
                and implemented_interface_info["include_path"]
            ):
                implemented_interfaces_include_paths.append(implemented_interface_info["include_path"])

        dependencies_full_paths = implemented_interfaces_full_paths
        dependencies_include_paths = implemented_interfaces_include_paths
        dependencies_other_component_full_paths = []
        dependencies_other_component_include_paths = []

        component = idl_filename_to_component(interface_info["full_path"])
        for full_path in partial_interfaces_full_paths:
            partial_interface_component = idl_filename_to_component(full_path)
            if component == partial_interface_component:
                dependencies_full_paths.append(full_path)
            else:
                dependencies_other_component_full_paths.append(full_path)

        for include_path in partial_interfaces_include_paths:
            partial_interface_component = idl_filename_to_component(include_path)
            if component == partial_interface_component:
                dependencies_include_paths.append(include_path)
            else:
                dependencies_other_component_include_paths.append(include_path)

        for union_type in interface_info.get("union_types", []):
            name = shorten_union_name(union_type)
            dependencies_include_paths.append("bindings/%s/v8/%s.h" % (component, name))

        interface_info.update(
            {
                "dependencies_full_paths": dependencies_full_paths,
                "dependencies_include_paths": dependencies_include_paths,
                "dependencies_other_component_full_paths": dependencies_other_component_full_paths,
                "dependencies_other_component_include_paths": dependencies_other_component_include_paths,
            }
        )

    # Clean up temporary private information
    for interface_info in interfaces_info.itervalues():
        del interface_info["extended_attributes"]
        del interface_info["union_types"]
        del interface_info["is_legacy_treat_as_partial_interface"]

    # Compute global_type_info to interfaces_info so that idl_compiler does
    # not need to always calculate the info in __init__.
    compute_global_type_info()