tools/json_schema_compiler/h_generator.py - chromium/src - Git at Google

 # Copyright (c) 2012 The Chromium Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 import os

 from code import Code
 from model import PropertyType
 import cpp_util
 import schema_util

 class HGenerator(object):
   def __init__(self, type_generator):
     self._type_generator = type_generator

   def Generate(self, namespace):
     return _Generator(namespace, self._type_generator).Generate()


 class _Generator(object):
   """A .h generator for a namespace.
   """
   def __init__(self, namespace, cpp_type_generator):
     self._namespace = namespace
     self._type_helper = cpp_type_generator
     self._generate_error_messages = namespace.compiler_options.get(
         'generate_error_messages', False)

   def Generate(self):
     """Generates a Code object with the .h for a single namespace.
     """
     c = Code()
     (c.Append(cpp_util.CHROMIUM_LICENSE)
       .Append()
       .Append(cpp_util.GENERATED_FILE_MESSAGE % self._namespace.source_file)
       .Append()
     )

     # Hack: for the purpose of gyp the header file will always be the source
     # file with its file extension replaced by '.h'. Assume so.
     output_file = os.path.splitext(self._namespace.source_file)[0] + '.h'
     ifndef_name = cpp_util.GenerateIfndefName(output_file)

     # Hack: tabs and windows have circular references, so only generate hard
     # references for them (i.e. anything that can't be forward declared). In
     # other cases, generate soft dependencies so that they can include
     # non-optional types from other namespaces.
     include_soft = self._namespace.name not in ('tabs', 'windows')

     (c.Append('#ifndef %s' % ifndef_name)
       .Append('#define %s' % ifndef_name)
       .Append()
       .Append('#include <map>')
       .Append('#include <string>')
       .Append('#include <vector>')
       .Append()
       .Append('#include "base/basictypes.h"')
       .Append('#include "base/logging.h"')
       .Append('#include "base/memory/linked_ptr.h"')
       .Append('#include "base/memory/scoped_ptr.h"')
       .Append('#include "base/values.h"')
       .Cblock(self._type_helper.GenerateIncludes(include_soft=include_soft))
       .Append()
     )

     # Hack: we're not generating soft includes for tabs and windows, so we need
     # to generate forward declarations for them.
     if not include_soft:
       c.Cblock(self._type_helper.GenerateForwardDeclarations())

     cpp_namespace = cpp_util.GetCppNamespace(
         self._namespace.environment.namespace_pattern,
         self._namespace.unix_name)
     c.Concat(cpp_util.OpenNamespace(cpp_namespace))
     c.Append()
     if self._namespace.properties:
       (c.Append('//')
         .Append('// Properties')
         .Append('//')
         .Append()
       )
       for prop in self._namespace.properties.values():
         property_code = self._type_helper.GeneratePropertyValues(
             prop,
             'extern const %(type)s %(name)s;')
         if property_code:
           c.Cblock(property_code)
     if self._namespace.types:
       (c.Append('//')
         .Append('// Types')
         .Append('//')
         .Append()
         .Cblock(self._GenerateTypes(self._FieldDependencyOrder(),
                                     is_toplevel=True,
                                     generate_typedefs=True))
       )
     if self._namespace.functions:
       (c.Append('//')
         .Append('// Functions')
         .Append('//')
         .Append()
       )
       for function in self._namespace.functions.values():
         c.Cblock(self._GenerateFunction(function))
     if self._namespace.events:
       (c.Append('//')
         .Append('// Events')
         .Append('//')
         .Append()
       )
       for event in self._namespace.events.values():
         c.Cblock(self._GenerateEvent(event))
     (c.Concat(cpp_util.CloseNamespace(cpp_namespace))
       .Append('#endif  // %s' % ifndef_name)
       .Append()
     )
     return c

   def _FieldDependencyOrder(self):
     """Generates the list of types in the current namespace in an order in which
     depended-upon types appear before types which depend on them.
     """
     dependency_order = []

     def ExpandType(path, type_):
       if type_ in path:
         raise ValueError("Illegal circular dependency via cycle " +
                          ", ".join(map(lambda x: x.name, path + [type_])))
       for prop in type_.properties.values():
         if (prop.type_ == PropertyType.REF and
             schema_util.GetNamespace(prop.ref_type) == self._namespace.name):
           ExpandType(path + [type_], self._namespace.types[prop.ref_type])
       if not type_ in dependency_order:
         dependency_order.append(type_)

     for type_ in self._namespace.types.values():
       ExpandType([], type_)
     return dependency_order

   def _GenerateEnumDeclaration(self, enum_name, type_):
     """Generate a code object with the  declaration of a C++ enum.
     """
     c = Code()
     c.Sblock('enum %s {' % enum_name)
     c.Append(self._type_helper.GetEnumNoneValue(type_) + ',')
     for value in type_.enum_values:
       current_enum_string = self._type_helper.GetEnumValue(type_, value)
       c.Append(current_enum_string + ',')
     c.Append('%s = %s,' % (
         self._type_helper.GetEnumLastValue(type_), current_enum_string))
     c.Eblock('};')
     return c

   def _GenerateFields(self, props):
     """Generates the field declarations when declaring a type.
     """
     c = Code()
     needs_blank_line = False
     for prop in props:
       if needs_blank_line:
         c.Append()
       needs_blank_line = True
       if prop.description:
         c.Comment(prop.description)
       # ANY is a base::Value which is abstract and cannot be a direct member, so
       # we always need to wrap it in a scoped_ptr.
       is_ptr = prop.optional or prop.type_.property_type == PropertyType.ANY
       (c.Append('%s %s;' % (
            self._type_helper.GetCppType(prop.type_, is_ptr=is_ptr),
            prop.unix_name))
       )
     return c

   def _GenerateType(self, type_, is_toplevel=False, generate_typedefs=False):
     """Generates a struct for |type_|.

     |is_toplevel|       implies that the type was declared in the "types" field
                         of an API schema. This determines the correct function
                         modifier(s).
     |generate_typedefs| controls whether primitive types should be generated as
                         a typedef. This may not always be desired. If false,
                         primitive types are ignored.
     """
     classname = cpp_util.Classname(schema_util.StripNamespace(type_.name))
     c = Code()

     if type_.functions:
       # Wrap functions within types in the type's namespace.
       (c.Append('namespace %s {' % classname)
         .Append()
       )
       for function in type_.functions.values():
         c.Cblock(self._GenerateFunction(function))
       c.Append('}  // namespace %s' % classname)
     elif type_.property_type == PropertyType.ARRAY:
       if generate_typedefs and type_.description:
         c.Comment(type_.description)
       c.Cblock(self._GenerateType(type_.item_type, is_toplevel=is_toplevel))
       if generate_typedefs:
         (c.Append('typedef std::vector<%s > %s;' % (
                        self._type_helper.GetCppType(type_.item_type),
                        classname))
         )
     elif type_.property_type == PropertyType.STRING:
       if generate_typedefs:
         if type_.description:
           c.Comment(type_.description)
         c.Append('typedef std::string %(classname)s;')
     elif type_.property_type == PropertyType.ENUM:
       if type_.description:
         c.Comment(type_.description)
       c.Cblock(self._GenerateEnumDeclaration(classname, type_));
       # Top level enums are in a namespace scope so the methods shouldn't be
       # static. On the other hand, those declared inline (e.g. in an object) do.
       maybe_static = '' if is_toplevel else 'static '
       (c.Append()
         .Append('%sstd::string ToString(%s as_enum);' %
                 (maybe_static, classname))
         .Append('%s%s Parse%s(const std::string& as_string);' %
                 (maybe_static, classname, classname))
       )
     elif type_.property_type in (PropertyType.CHOICES,
                                  PropertyType.OBJECT):
       if type_.description:
         c.Comment(type_.description)
       (c.Sblock('struct %(classname)s {')
           .Append('%(classname)s();')
           .Append('~%(classname)s();')
       )
       if type_.origin.from_json:
         (c.Append()
           .Comment('Populates a %s object from a base::Value. Returns'
                    ' whether |out| was successfully populated.' % classname)
           .Append('static bool Populate(%s);' % self._GenerateParams(
               ('const base::Value& value', '%s* out' % classname)))
         )
         if is_toplevel:
           (c.Append()
             .Comment('Creates a %s object from a base::Value, or NULL on '
                      'failure.' % classname)
             .Append('static scoped_ptr<%s> FromValue(%s);' % (
                 classname, self._GenerateParams(('const base::Value& value',))))
           )
       if type_.origin.from_client:
         value_type = ('base::Value'
                       if type_.property_type is PropertyType.CHOICES else
                       'base::DictionaryValue')
         (c.Append()
           .Comment('Returns a new %s representing the serialized form of this '
                    '%s object.' % (value_type, classname))
           .Append('scoped_ptr<%s> ToValue() const;' % value_type)
         )
       if type_.property_type == PropertyType.CHOICES:
         # Choices are modelled with optional fields for each choice. Exactly one
         # field of the choice is guaranteed to be set by the compiler.
         c.Cblock(self._GenerateTypes(type_.choices))
         c.Append('// Choices:')
         for choice_type in type_.choices:
           c.Append('%s as_%s;' % (
               self._type_helper.GetCppType(choice_type, is_ptr=True),
               choice_type.unix_name))
       else:
         properties = type_.properties.values()
         (c.Append()
           .Cblock(self._GenerateTypes(p.type_ for p in properties))
           .Cblock(self._GenerateFields(properties)))
         if type_.additional_properties is not None:
           # Most additionalProperties actually have type "any", which is better
           # modelled as a DictionaryValue rather than a map of string -> Value.
           if type_.additional_properties.property_type == PropertyType.ANY:
             c.Append('base::DictionaryValue additional_properties;')
           else:
             (c.Cblock(self._GenerateType(type_.additional_properties))
               .Append('std::map<std::string, %s> additional_properties;' %
                   cpp_util.PadForGenerics(
                       self._type_helper.GetCppType(type_.additional_properties,
                                                    is_in_container=True)))
             )
       (c.Eblock()
         .Append()
         .Sblock(' private:')
           .Append('DISALLOW_COPY_AND_ASSIGN(%(classname)s);')
         .Eblock('};')
       )
     return c.Substitute({'classname': classname})

   def _GenerateEvent(self, event):
     """Generates the namespaces for an event.
     """
     c = Code()
     # TODO(kalman): use event.unix_name not Classname.
     event_namespace = cpp_util.Classname(event.name)
     (c.Append('namespace %s {' % event_namespace)
       .Append()
       .Concat(self._GenerateEventNameConstant(event))
       .Concat(self._GenerateCreateCallbackArguments(event))
       .Append('}  // namespace %s' % event_namespace)
     )
     return c

   def _GenerateFunction(self, function):
     """Generates the namespaces and structs for a function.
     """
     c = Code()
     # TODO(kalman): Use function.unix_name not Classname here.
     function_namespace = cpp_util.Classname(function.name)
     # Windows has a #define for SendMessage, so to avoid any issues, we need
     # to not use the name.
     if function_namespace == 'SendMessage':
       function_namespace = 'PassMessage'
     (c.Append('namespace %s {' % function_namespace)
       .Append()
       .Cblock(self._GenerateFunctionParams(function))
     )
     if function.callback:
       c.Cblock(self._GenerateFunctionResults(function.callback))
     c.Append('}  // namespace %s' % function_namespace)
     return c

   def _GenerateFunctionParams(self, function):
     """Generates the struct for passing parameters from JSON to a function.
     """
     if not function.params:
       return Code()

     c = Code()
     (c.Sblock('struct Params {')
       .Append('static scoped_ptr<Params> Create(%s);' % self._GenerateParams(
           ('const base::ListValue& args',)))
       .Append('~Params();')
       .Append()
       .Cblock(self._GenerateTypes(p.type_ for p in function.params))
       .Cblock(self._GenerateFields(function.params))
       .Eblock()
       .Append()
       .Sblock(' private:')
         .Append('Params();')
         .Append()
         .Append('DISALLOW_COPY_AND_ASSIGN(Params);')
       .Eblock('};')
     )
     return c

   def _GenerateTypes(self, types, is_toplevel=False, generate_typedefs=False):
     """Generate the structures required by a property such as OBJECT classes
     and enums.
     """
     c = Code()
     for type_ in types:
       c.Cblock(self._GenerateType(type_,
                                   is_toplevel=is_toplevel,
                                   generate_typedefs=generate_typedefs))
     return c

   def _GenerateCreateCallbackArguments(self, function):
     """Generates functions for passing parameters to a callback.
     """
     c = Code()
     params = function.params
     c.Cblock(self._GenerateTypes((p.type_ for p in params), is_toplevel=True))

     declaration_list = []
     for param in params:
       if param.description:
         c.Comment(param.description)
       declaration_list.append(cpp_util.GetParameterDeclaration(
           param, self._type_helper.GetCppType(param.type_)))
     c.Append('scoped_ptr<base::ListValue> Create(%s);' %
              ', '.join(declaration_list))
     return c

   def _GenerateEventNameConstant(self, event):
     """Generates a constant string array for the event name.
     """
     c = Code()
     c.Append('extern const char kEventName[];  // "%s.%s"' % (
                  self._namespace.name, event.name))
     c.Append()
     return c

   def _GenerateFunctionResults(self, callback):
     """Generates namespace for passing a function's result back.
     """
     c = Code()
     (c.Append('namespace Results {')
       .Append()
       .Concat(self._GenerateCreateCallbackArguments(callback))
       .Append('}  // namespace Results')
     )
     return c

   def _GenerateParams(self, params):
     """Builds the parameter list for a function, given an array of parameters.
     """
     # |error| is populated with warnings and/or errors found during parsing.
     # |error| being set does not necessarily imply failure and may be
     # recoverable.
     # For example, optional properties may have failed to parse, but the
     # parser was able to continue.
     if self._generate_error_messages:
       params += ('base::string16* error',)
     return ', '.join(str(p) for p in params)
	# Copyright (c) 2012 The Chromium Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	import os

	from code import Code
	from model import PropertyType
	import cpp_util
	import schema_util

	class HGenerator(object):
	def __init__(self, type_generator):
	self._type_generator = type_generator

	def Generate(self, namespace):
	return _Generator(namespace, self._type_generator).Generate()


	class _Generator(object):
	"""A .h generator for a namespace.
	"""
	def __init__(self, namespace, cpp_type_generator):
	self._namespace = namespace
	self._type_helper = cpp_type_generator
	self._generate_error_messages = namespace.compiler_options.get(
	'generate_error_messages', False)

	def Generate(self):
	"""Generates a Code object with the .h for a single namespace.
	"""
	c = Code()
	(c.Append(cpp_util.CHROMIUM_LICENSE)
	.Append()
	.Append(cpp_util.GENERATED_FILE_MESSAGE % self._namespace.source_file)
	.Append()
	)

	# Hack: for the purpose of gyp the header file will always be the source
	# file with its file extension replaced by '.h'. Assume so.
	output_file = os.path.splitext(self._namespace.source_file)[0] + '.h'
	ifndef_name = cpp_util.GenerateIfndefName(output_file)

	# Hack: tabs and windows have circular references, so only generate hard
	# references for them (i.e. anything that can't be forward declared). In
	# other cases, generate soft dependencies so that they can include
	# non-optional types from other namespaces.
	include_soft = self._namespace.name not in ('tabs', 'windows')

	(c.Append('#ifndef %s' % ifndef_name)
	.Append('#define %s' % ifndef_name)
	.Append()
	.Append('#include <map>')
	.Append('#include <string>')
	.Append('#include <vector>')
	.Append()
	.Append('#include "base/basictypes.h"')
	.Append('#include "base/logging.h"')
	.Append('#include "base/memory/linked_ptr.h"')
	.Append('#include "base/memory/scoped_ptr.h"')
	.Append('#include "base/values.h"')
	.Cblock(self._type_helper.GenerateIncludes(include_soft=include_soft))
	.Append()
	)

	# Hack: we're not generating soft includes for tabs and windows, so we need
	# to generate forward declarations for them.
	if not include_soft:
	c.Cblock(self._type_helper.GenerateForwardDeclarations())

	cpp_namespace = cpp_util.GetCppNamespace(
	self._namespace.environment.namespace_pattern,
	self._namespace.unix_name)
	c.Concat(cpp_util.OpenNamespace(cpp_namespace))
	c.Append()
	if self._namespace.properties:
	(c.Append('//')
	.Append('// Properties')
	.Append('//')
	.Append()
	)
	for prop in self._namespace.properties.values():
	property_code = self._type_helper.GeneratePropertyValues(
	prop,
	'extern const %(type)s %(name)s;')
	if property_code:
	c.Cblock(property_code)
	if self._namespace.types:
	(c.Append('//')
	.Append('// Types')
	.Append('//')
	.Append()
	.Cblock(self._GenerateTypes(self._FieldDependencyOrder(),
	is_toplevel=True,
	generate_typedefs=True))
	)
	if self._namespace.functions:
	(c.Append('//')
	.Append('// Functions')
	.Append('//')
	.Append()
	)
	for function in self._namespace.functions.values():
	c.Cblock(self._GenerateFunction(function))
	if self._namespace.events:
	(c.Append('//')
	.Append('// Events')
	.Append('//')
	.Append()
	)
	for event in self._namespace.events.values():
	c.Cblock(self._GenerateEvent(event))
	(c.Concat(cpp_util.CloseNamespace(cpp_namespace))
	.Append('#endif // %s' % ifndef_name)
	.Append()
	)
	return c

	def _FieldDependencyOrder(self):
	"""Generates the list of types in the current namespace in an order in which
	depended-upon types appear before types which depend on them.
	"""
	dependency_order = []

	def ExpandType(path, type_):
	if type_ in path:
	raise ValueError("Illegal circular dependency via cycle " +
	", ".join(map(lambda x: x.name, path + [type_])))
	for prop in type_.properties.values():
	if (prop.type_ == PropertyType.REF and
	schema_util.GetNamespace(prop.ref_type) == self._namespace.name):
	ExpandType(path + [type_], self._namespace.types[prop.ref_type])
	if not type_ in dependency_order:
	dependency_order.append(type_)

	for type_ in self._namespace.types.values():
	ExpandType([], type_)
	return dependency_order

	def _GenerateEnumDeclaration(self, enum_name, type_):
	"""Generate a code object with the declaration of a C++ enum.
	"""
	c = Code()
	c.Sblock('enum %s {' % enum_name)
	c.Append(self._type_helper.GetEnumNoneValue(type_) + ',')
	for value in type_.enum_values:
	current_enum_string = self._type_helper.GetEnumValue(type_, value)
	c.Append(current_enum_string + ',')
	c.Append('%s = %s,' % (
	self._type_helper.GetEnumLastValue(type_), current_enum_string))
	c.Eblock('};')
	return c

	def _GenerateFields(self, props):
	"""Generates the field declarations when declaring a type.
	"""
	c = Code()
	needs_blank_line = False
	for prop in props:
	if needs_blank_line:
	c.Append()
	needs_blank_line = True
	if prop.description:
	c.Comment(prop.description)
	# ANY is a base::Value which is abstract and cannot be a direct member, so
	# we always need to wrap it in a scoped_ptr.
	is_ptr = prop.optional or prop.type_.property_type == PropertyType.ANY
	(c.Append('%s %s;' % (
	self._type_helper.GetCppType(prop.type_, is_ptr=is_ptr),
	prop.unix_name))
	)
	return c

	def _GenerateType(self, type_, is_toplevel=False, generate_typedefs=False):
	"""Generates a struct for \|type_\|.

	\|is_toplevel\| implies that the type was declared in the "types" field
	of an API schema. This determines the correct function
	modifier(s).
	\|generate_typedefs\| controls whether primitive types should be generated as
	a typedef. This may not always be desired. If false,
	primitive types are ignored.
	"""
	classname = cpp_util.Classname(schema_util.StripNamespace(type_.name))
	c = Code()

	if type_.functions:
	# Wrap functions within types in the type's namespace.
	(c.Append('namespace %s {' % classname)
	.Append()
	)
	for function in type_.functions.values():
	c.Cblock(self._GenerateFunction(function))
	c.Append('} // namespace %s' % classname)
	elif type_.property_type == PropertyType.ARRAY:
	if generate_typedefs and type_.description:
	c.Comment(type_.description)
	c.Cblock(self._GenerateType(type_.item_type, is_toplevel=is_toplevel))
	if generate_typedefs:
	(c.Append('typedef std::vector<%s > %s;' % (
	self._type_helper.GetCppType(type_.item_type),
	classname))
	)
	elif type_.property_type == PropertyType.STRING:
	if generate_typedefs:
	if type_.description:
	c.Comment(type_.description)
	c.Append('typedef std::string %(classname)s;')
	elif type_.property_type == PropertyType.ENUM:
	if type_.description:
	c.Comment(type_.description)
	c.Cblock(self._GenerateEnumDeclaration(classname, type_));
	# Top level enums are in a namespace scope so the methods shouldn't be
	# static. On the other hand, those declared inline (e.g. in an object) do.
	maybe_static = '' if is_toplevel else 'static '
	(c.Append()
	.Append('%sstd::string ToString(%s as_enum);' %
	(maybe_static, classname))
	.Append('%s%s Parse%s(const std::string& as_string);' %
	(maybe_static, classname, classname))
	)
	elif type_.property_type in (PropertyType.CHOICES,
	PropertyType.OBJECT):
	if type_.description:
	c.Comment(type_.description)
	(c.Sblock('struct %(classname)s {')
	.Append('%(classname)s();')
	.Append('~%(classname)s();')
	)
	if type_.origin.from_json:
	(c.Append()
	.Comment('Populates a %s object from a base::Value. Returns'
	' whether \|out\| was successfully populated.' % classname)
	.Append('static bool Populate(%s);' % self._GenerateParams(
	('const base::Value& value', '%s* out' % classname)))
	)
	if is_toplevel:
	(c.Append()
	.Comment('Creates a %s object from a base::Value, or NULL on '
	'failure.' % classname)
	.Append('static scoped_ptr<%s> FromValue(%s);' % (
	classname, self._GenerateParams(('const base::Value& value',))))
	)
	if type_.origin.from_client:
	value_type = ('base::Value'
	if type_.property_type is PropertyType.CHOICES else
	'base::DictionaryValue')
	(c.Append()
	.Comment('Returns a new %s representing the serialized form of this '
	'%s object.' % (value_type, classname))
	.Append('scoped_ptr<%s> ToValue() const;' % value_type)
	)
	if type_.property_type == PropertyType.CHOICES:
	# Choices are modelled with optional fields for each choice. Exactly one
	# field of the choice is guaranteed to be set by the compiler.
	c.Cblock(self._GenerateTypes(type_.choices))
	c.Append('// Choices:')
	for choice_type in type_.choices:
	c.Append('%s as_%s;' % (
	self._type_helper.GetCppType(choice_type, is_ptr=True),
	choice_type.unix_name))
	else:
	properties = type_.properties.values()
	(c.Append()
	.Cblock(self._GenerateTypes(p.type_ for p in properties))
	.Cblock(self._GenerateFields(properties)))
	if type_.additional_properties is not None:
	# Most additionalProperties actually have type "any", which is better
	# modelled as a DictionaryValue rather than a map of string -> Value.
	if type_.additional_properties.property_type == PropertyType.ANY:
	c.Append('base::DictionaryValue additional_properties;')
	else:
	(c.Cblock(self._GenerateType(type_.additional_properties))
	.Append('std::map<std::string, %s> additional_properties;' %
	cpp_util.PadForGenerics(
	self._type_helper.GetCppType(type_.additional_properties,
	is_in_container=True)))
	)
	(c.Eblock()
	.Append()
	.Sblock(' private:')
	.Append('DISALLOW_COPY_AND_ASSIGN(%(classname)s);')
	.Eblock('};')
	)
	return c.Substitute({'classname': classname})

	def _GenerateEvent(self, event):
	"""Generates the namespaces for an event.
	"""
	c = Code()
	# TODO(kalman): use event.unix_name not Classname.
	event_namespace = cpp_util.Classname(event.name)
	(c.Append('namespace %s {' % event_namespace)
	.Append()
	.Concat(self._GenerateEventNameConstant(event))
	.Concat(self._GenerateCreateCallbackArguments(event))
	.Append('} // namespace %s' % event_namespace)
	)
	return c

	def _GenerateFunction(self, function):
	"""Generates the namespaces and structs for a function.
	"""
	c = Code()
	# TODO(kalman): Use function.unix_name not Classname here.
	function_namespace = cpp_util.Classname(function.name)
	# Windows has a #define for SendMessage, so to avoid any issues, we need
	# to not use the name.
	if function_namespace == 'SendMessage':
	function_namespace = 'PassMessage'
	(c.Append('namespace %s {' % function_namespace)
	.Append()
	.Cblock(self._GenerateFunctionParams(function))
	)
	if function.callback:
	c.Cblock(self._GenerateFunctionResults(function.callback))
	c.Append('} // namespace %s' % function_namespace)
	return c

	def _GenerateFunctionParams(self, function):
	"""Generates the struct for passing parameters from JSON to a function.
	"""
	if not function.params:
	return Code()

	c = Code()
	(c.Sblock('struct Params {')
	.Append('static scoped_ptr<Params> Create(%s);' % self._GenerateParams(
	('const base::ListValue& args',)))
	.Append('~Params();')
	.Append()
	.Cblock(self._GenerateTypes(p.type_ for p in function.params))
	.Cblock(self._GenerateFields(function.params))
	.Eblock()
	.Append()
	.Sblock(' private:')
	.Append('Params();')
	.Append()
	.Append('DISALLOW_COPY_AND_ASSIGN(Params);')
	.Eblock('};')
	)
	return c

	def _GenerateTypes(self, types, is_toplevel=False, generate_typedefs=False):
	"""Generate the structures required by a property such as OBJECT classes
	and enums.
	"""
	c = Code()
	for type_ in types:
	c.Cblock(self._GenerateType(type_,
	is_toplevel=is_toplevel,
	generate_typedefs=generate_typedefs))
	return c

	def _GenerateCreateCallbackArguments(self, function):
	"""Generates functions for passing parameters to a callback.
	"""
	c = Code()
	params = function.params
	c.Cblock(self._GenerateTypes((p.type_ for p in params), is_toplevel=True))

	declaration_list = []
	for param in params:
	if param.description:
	c.Comment(param.description)
	declaration_list.append(cpp_util.GetParameterDeclaration(
	param, self._type_helper.GetCppType(param.type_)))
	c.Append('scoped_ptr<base::ListValue> Create(%s);' %
	', '.join(declaration_list))
	return c

	def _GenerateEventNameConstant(self, event):
	"""Generates a constant string array for the event name.
	"""
	c = Code()
	c.Append('extern const char kEventName[]; // "%s.%s"' % (
	self._namespace.name, event.name))
	c.Append()
	return c

	def _GenerateFunctionResults(self, callback):
	"""Generates namespace for passing a function's result back.
	"""
	c = Code()
	(c.Append('namespace Results {')
	.Append()
	.Concat(self._GenerateCreateCallbackArguments(callback))
	.Append('} // namespace Results')
	)
	return c

	def _GenerateParams(self, params):
	"""Builds the parameter list for a function, given an array of parameters.
	"""
	# \|error\| is populated with warnings and/or errors found during parsing.
	# \|error\| being set does not necessarily imply failure and may be
	# recoverable.
	# For example, optional properties may have failed to parse, but the
	# parser was able to continue.
	if self._generate_error_messages:
	params += ('base::string16* error',)
	return ', '.join(str(p) for p in params)