Chromium Code Reviews Chromium Code Reviews
Issue 11827026:
Overhaul JSON Schema Compiler to support a number of features required to (Closed)
Base URL: svn://svn.chromium.org/chrome/trunk/src| Index: tools/json_schema_compiler/cc_generator.py |
| diff --git a/tools/json_schema_compiler/cc_generator.py b/tools/json_schema_compiler/cc_generator.py |
| index 2e429983b7d3b986f7dcc224da69d151d581de9a..eb7691dd23d7ac920342bef9a3adb2fa1e043396 100644 |
| --- a/tools/json_schema_compiler/cc_generator.py |
| +++ b/tools/json_schema_compiler/cc_generator.py |
| @@ -3,8 +3,7 @@ |
| # found in the LICENSE file. |
| from code import Code |
| -from model import PropertyType |
| -import any_helper |
| +from model import PropertyType, Type |
| import cpp_util |
| import model |
| import schema_util |
| @@ -15,13 +14,12 @@ class CCGenerator(object): |
| """A .cc generator for a namespace. |
| """ |
| def __init__(self, namespace, cpp_type_generator): |
| - self._cpp_type_generator = cpp_type_generator |
| + self._type_helper = cpp_type_generator |
| self._namespace = namespace |
| self._target_namespace = ( |
| - self._cpp_type_generator.GetCppNamespaceName(self._namespace)) |
| + self._type_helper.GetCppNamespaceName(self._namespace)) |
| self._util_cc_helper = ( |
| - util_cc_helper.UtilCCHelper(self._cpp_type_generator)) |
| - self._any_helper = any_helper.AnyHelper() |
| + util_cc_helper.UtilCCHelper(self._type_helper)) |
| def Generate(self): |
| """Generates a Code object with the .cc for a single namespace. |
| @@ -34,17 +32,10 @@ class CCGenerator(object): |
| .Append(self._util_cc_helper.GetIncludePath()) |
| .Append('#include "%s/%s.h"' % |
| (self._namespace.source_file_dir, self._namespace.unix_name)) |
| - ) |
| - includes = self._cpp_type_generator.GenerateIncludes() |
| - if not includes.IsEmpty(): |
| - (c.Concat(includes) |
| - .Append() |
| - ) |
| - |
| - (c.Append() |
| - .Concat(self._cpp_type_generator.GetRootNamespaceStart()) |
| - .Concat(self._cpp_type_generator.GetNamespaceStart()) |
| - .Append() |
| + .Append('#include "base/logging.h"') |
| + .Cblock(self._type_helper.GenerateIncludes()) |
| + .Concat(self._type_helper.GetRootNamespaceStart()) |
| + .Cblock(self._type_helper.GetNamespaceStart()) |
| ) |
| if self._namespace.properties: |
| (c.Append('//') |
| @@ -53,21 +44,18 @@ class CCGenerator(object): |
| .Append() |
| ) |
| for property in self._namespace.properties.values(): |
| - property_code = self._cpp_type_generator.GeneratePropertyValues( |
| + property_code = self._type_helper.GeneratePropertyValues( |
| property, |
| 'const %(type)s %(name)s = %(value)s;', |
| nodoc=True) |
| if property_code: |
| - c.Concat(property_code).Append() |
| + c.Cblock(property_code) |
| if self._namespace.types: |
| (c.Append('//') |
| .Append('// Types') |
| .Append('//') |
| .Append() |
| - ) |
| - for type_ in self._namespace.types.values(): |
| - (c.Concat(self._GenerateType( |
| - schema_util.StripSchemaNamespace(type_.name), type_)).Append() |
| + .Cblock(self._GenerateTypes(None, self._namespace.types.values())) |
| ) |
| if self._namespace.functions: |
| (c.Append('//') |
| @@ -76,24 +64,17 @@ class CCGenerator(object): |
| .Append() |
| ) |
| for function in self._namespace.functions.values(): |
| - (c.Concat(self._GenerateFunction( |
| - cpp_util.Classname(function.name), function)) |
| - .Append() |
| - ) |
| + c.Cblock(self._GenerateFunction(function)) |
| if self._namespace.events: |
| (c.Append('//') |
| .Append('// Events') |
| .Append('//') |
| .Append() |
| ) |
| - for event in self._namespace.events.values(): |
| - (c.Concat(self._GenerateCreateCallbackArguments( |
| - cpp_util.Classname(event.name), event, generate_to_json=True)) |
| - .Append() |
| - ) |
| - (c.Concat(self._cpp_type_generator.GetNamespaceEnd()) |
| - .Concat(self._cpp_type_generator.GetRootNamespaceEnd()) |
| - .Append() |
| + for event in self._namespace.events.values(): |
| + c.Cblock(self._GenerateEvent(event)) |
| + (c.Concat(self._type_helper.GetNamespaceEnd()) |
| + .Cblock(self._type_helper.GetRootNamespaceEnd()) |
| ) |
| return c |
| @@ -104,33 +85,40 @@ class CCGenerator(object): |
| c = Code() |
| if type_.functions: |
| - for function in type_.functions.values(): |
| - (c.Concat( |
| - self._GenerateFunction( |
| - cpp_namespace + '::' + cpp_util.Classname(function.name), |
| - function)) |
| - .Append()) |
| - elif type_.type_ == PropertyType.OBJECT: |
| - (c.Concat(self._GeneratePropertyFunctions( |
| - cpp_namespace, type_.properties.values())) |
| - .Sblock('%(namespace)s::%(classname)s()') |
| - .Concat(self._GenerateInitializersAndBody(type_)) |
| - .Eblock('%(namespace)s::~%(classname)s() {}') |
| + # Wrap functions within types in the type's namespace. |
| + (c.Append('namespace %s {' % classname) |
| .Append()) |
| - if type_.from_json: |
| - (c.Concat(self._GenerateTypePopulate(cpp_namespace, type_)) |
| - .Append()) |
| - if type_.from_client: |
| - (c.Concat(self._GenerateTypeToValue(cpp_namespace, type_)) |
| - .Append()) |
| - elif self._cpp_type_generator.IsEnumOrEnumRef(type_): |
| - (c.Concat(self._GenerateCreateEnumTypeValue(cpp_namespace, type_)) |
| - .Append() |
| - .Concat(self._GenerateEnumFromString(cpp_namespace, type_)) |
| + for function in type_.functions.values(): |
| + c.Cblock(self._GenerateFunction(function)) |
| + c.Append('} // namespace %s' % classname) |
| + elif type_.property_type == PropertyType.ARRAY: |
| + c.Cblock(self._GenerateType(cpp_namespace, type_.item_type)) |
| + elif (type_.property_type == PropertyType.OBJECT or |
| + type_.property_type == PropertyType.CHOICES): |
| + if cpp_namespace is None: |
| + classname_in_namespace = classname |
| + else: |
| + classname_in_namespace = '%s::%s' % (cpp_namespace, classname) |
| + |
| + if type_.property_type == PropertyType.OBJECT: |
| + c.Cblock(self._GeneratePropertyFunctions(classname_in_namespace, |
| + type_.properties.values())) |
| + else: |
| + c.Cblock(self._GenerateTypes(classname_in_namespace, type_.choices)) |
| + |
| + (c.Append('%s::%s()' % (classname_in_namespace, classname)) |
| + .Cblock(self._GenerateInitializersAndBody(type_)) |
| + .Append('%s::~%s() {}' % (classname_in_namespace, classname)) |
| .Append() |
| - .Concat(self._GenerateEnumToString(cpp_namespace, type_)) |
| - .Append()) |
| - c.Substitute({'classname': classname, 'namespace': cpp_namespace}) |
| + ) |
| + if type_.origin.from_json: |
| + c.Cblock(self._GenerateTypePopulate(classname_in_namespace, type_)) |
| + if type_.origin.from_client: |
| + c.Cblock(self._GenerateTypeToValue(classname_in_namespace, type_)) |
| + elif type_.property_type == PropertyType.ENUM: |
| + (c.Cblock(self._GenerateEnumToString(cpp_namespace, type_)) |
| + .Cblock(self._GenerateEnumFromString(cpp_namespace, type_)) |
| + ) |
| return c |
| @@ -141,29 +129,28 @@ class CCGenerator(object): |
| continue |
| t = prop.type_ |
| - if t == PropertyType.INTEGER: |
| + if t.property_type == PropertyType.INTEGER: |
| items.append('%s(0)' % prop.unix_name) |
| - elif t == PropertyType.DOUBLE: |
| + elif t.property_type == PropertyType.DOUBLE: |
| items.append('%s(0.0)' % prop.unix_name) |
| - elif t == PropertyType.BOOLEAN: |
| + elif t.property_type == PropertyType.BOOLEAN: |
| items.append('%s(false)' % prop.unix_name) |
| - elif t == PropertyType.BINARY: |
| + elif t.property_type == PropertyType.BINARY: |
| items.append('%s(NULL)' % prop.unix_name) |
| - elif (t == PropertyType.ADDITIONAL_PROPERTIES or |
| - t == PropertyType.ANY or |
| - t == PropertyType.ARRAY or |
| - t == PropertyType.CHOICES or |
| - t == PropertyType.ENUM or |
| - t == PropertyType.OBJECT or |
| - t == PropertyType.FUNCTION or |
| - t == PropertyType.REF or |
| - t == PropertyType.STRING): |
| + elif (t.property_type == PropertyType.ANY or |
| + t.property_type == PropertyType.ARRAY or |
| + t.property_type == PropertyType.CHOICES or |
| + t.property_type == PropertyType.ENUM or |
| + t.property_type == PropertyType.OBJECT or |
| + t.property_type == PropertyType.FUNCTION or |
| + t.property_type == PropertyType.REF or |
| + t.property_type == PropertyType.STRING): |
| # TODO(miket): It would be nice to initialize CHOICES and ENUM, but we |
| # don't presently have the semantics to indicate which one of a set |
| # should be the default. |
| continue |
| else: |
| - sys.exit("Unhandled PropertyType: %s" % t) |
| + raise TypeError(t) |
| if items: |
| s = ': %s' % (', '.join(items)) |
| @@ -180,33 +167,56 @@ class CCGenerator(object): |
| classname = cpp_util.Classname(schema_util.StripSchemaNamespace(type_.name)) |
| c = Code() |
| (c.Append('// static') |
| - .Sblock('bool %(namespace)s::Populate' |
| - '(const base::Value& value, %(name)s* out) {') |
| - .Append('if (!value.IsType(base::Value::TYPE_DICTIONARY))') |
| - .Append(' return false;') |
| + .Sblock('bool %(namespace)s::Populate(' |
| + 'const base::Value& value, %(name)s* out) {') |
| ) |
| - if type_.properties: |
| - (c.Append('const base::DictionaryValue* dict = ' |
| - 'static_cast<const base::DictionaryValue*>(&value);') |
| - .Append() |
| + if type_.property_type == PropertyType.CHOICES: |
| + for choice in type_.choices: |
| + value_type = cpp_util.GetValueType(self._type_helper.FollowRef(choice)) |
| + (c.Sblock('if (value.IsType(%s)) {' % value_type) |
| + .Concat(self._GeneratePopulateVariableFromValue( |
| + choice, |
| + '(&value)', |
| + 'out->as_%s' % choice.unix_name, |
| + 'false', |
| + is_ptr=True)) |
| + .Append('return true;') |
| + .Eblock('}') |
| + ) |
| + c.Append('return false;') |
| + elif type_.property_type == PropertyType.OBJECT: |
| + (c.Append('if (!value.IsType(base::Value::TYPE_DICTIONARY))') |
| + .Append(' return false;') |
| ) |
| + if type_.properties or type_.additional_properties is not None: |
| + c.Append('const base::DictionaryValue* dict = ' |
| + 'static_cast<const base::DictionaryValue*>(&value);') |
| for prop in type_.properties.values(): |
| c.Concat(self._InitializePropertyToDefault(prop, 'out')) |
| for prop in type_.properties.values(): |
| - if prop.type_ == PropertyType.ADDITIONAL_PROPERTIES: |
| + c.Concat(self._GenerateTypePopulateProperty(prop, 'dict', 'out')) |
| + if type_.additional_properties is not None: |
| + if type_.additional_properties.property_type == PropertyType.ANY: |
| c.Append('out->additional_properties.MergeDictionary(dict);') |
| - # remove all keys that are actual properties |
| - for cur_prop in type_.properties.values(): |
| - if prop != cur_prop: |
| - c.Append('out->additional_properties' |
| - '.RemoveWithoutPathExpansion("%s", NULL);' % cur_prop.name) |
| - c.Append() |
| else: |
| - c.Concat(self._GenerateTypePopulateProperty(prop, 'dict', 'out')) |
| - (c.Append('return true;') |
| - .Eblock('}') |
| - ) |
| - c.Substitute({'namespace': cpp_namespace, 'name': classname}) |
| + # strip() because is_in_container will add a space if it's a generic, |
| + # which we don't want. C++11 would make this unnecessary :) |
| + cpp_type = self._type_helper.GetCppType(type_.additional_properties, |
| + is_in_container=True).strip() |
| + (c.Append('for (base::DictionaryValue::Iterator it(*dict);') |
| + .Sblock(' it.HasNext(); it.Advance()) {') |
| + .Append('%s tmp;' % cpp_type) |
| + .Concat(self._GeneratePopulateVariableFromValue( |
| + type_.additional_properties, |
| + '(&it.value())', |
| + 'tmp', |
| + 'false')) |
| + .Append('out->additional_properties[it.key()] = tmp;') |
| + .Eblock('}') |
| + ) |
| + c.Append('return true;') |
| + (c.Eblock('}') |
| + .Substitute({'namespace': cpp_namespace, 'name': classname})) |
| return c |
| def _GenerateTypePopulateProperty(self, prop, src, dst): |
| @@ -223,10 +233,11 @@ class CCGenerator(object): |
| 'if (%(src)s->GetWithoutPathExpansion("%(key)s", &%(value_var)s)) {') |
| .Concat(self._GeneratePopulatePropertyFromValue( |
| prop, value_var, dst, 'false'))) |
| - if self._cpp_type_generator.IsEnumOrEnumRef(prop): |
| + underlying_type = self._type_helper.FollowRef(prop.type_) |
| + if underlying_type.property_type == PropertyType.ENUM: |
| (c.Append('} else {') |
| .Append('%%(dst)s->%%(name)s = %s;' % |
| - self._cpp_type_generator.GetEnumNoneValue(prop))) |
| + self._type_helper.GetEnumNoneValue(prop.type_))) |
| c.Eblock('}') |
| else: |
| (c.Append( |
| @@ -246,140 +257,181 @@ class CCGenerator(object): |
| return c |
| def _GenerateTypeToValue(self, cpp_namespace, type_): |
| - """Generates a function that serializes the type into a |
| - |base::DictionaryValue|. |
| - |
| + """Generates a function that serializes the type into a base::Value. |
| E.g. for type "Foo" generates Foo::ToValue() |
| """ |
| + if type_.property_type == PropertyType.OBJECT: |
| + return self._GenerateObjectTypeToValue(cpp_namespace, type_) |
| + elif type_.property_type == PropertyType.CHOICES: |
| + return self._GenerateChoiceTypeToValue(cpp_namespace, type_) |
| + else: |
| + raise ValueError("Unsupported property type %s" % type_.type_) |
| + |
| + def _GenerateObjectTypeToValue(self, cpp_namespace, type_): |
| + """Generates a function that serializes an object-representing type |
| + into a base::DictionaryValue. |
| + """ |
| c = Code() |
| (c.Sblock('scoped_ptr<base::DictionaryValue> %s::ToValue() const {' % |
| cpp_namespace) |
| .Append('scoped_ptr<base::DictionaryValue> value(' |
| - 'new base::DictionaryValue());') |
| + 'new base::DictionaryValue());') |
| .Append() |
| ) |
| + |
| for prop in type_.properties.values(): |
| - if prop.type_ == PropertyType.ADDITIONAL_PROPERTIES: |
| - c.Append('value->MergeDictionary(&%s);' % prop.unix_name) |
| - else: |
| - if prop.optional: |
| - if self._cpp_type_generator.IsEnumOrEnumRef(prop): |
| - c.Sblock('if (%s != %s) {' % |
| - (prop.unix_name, |
| - self._cpp_type_generator.GetEnumNoneValue(prop))) |
| - elif prop.type_ == PropertyType.CHOICES: |
| - c.Sblock('if (%s_type != %s) {' % |
| - (prop.unix_name, |
| - self._cpp_type_generator.GetEnumNoneValue(prop))) |
| - else: |
| - c.Sblock('if (%s.get()) {' % prop.unix_name) |
| - |
| - if prop.type_ == prop.compiled_type: |
| - c.Append('value->SetWithoutPathExpansion("%s", %s);' % ( |
| - prop.name, |
| - self._CreateValueFromProperty(prop, 'this->' + prop.unix_name))) |
| + if prop.optional: |
| + # Optional enum values are generated with a NONE enum value. |
| + underlying_type = self._type_helper.FollowRef(prop.type_) |
| + if underlying_type.property_type == PropertyType.ENUM: |
| + c.Sblock('if (%s != %s) {' % |
| + (prop.unix_name, |
| + self._type_helper.GetEnumNoneValue(prop.type_))) |
| else: |
| - conversion_src = 'this->' + prop.unix_name |
| - if prop.optional: |
| - conversion_src = '*' + conversion_src |
| - (c.Append('%s %s;' % (self._cpp_type_generator.GetType(prop), |
| - prop.unix_name)) |
| - .Append(cpp_util.GenerateCompiledTypeToTypeConversion( |
| - self._cpp_type_generator.GetReferencedProperty(prop), |
| - conversion_src, |
| - prop.unix_name) + ';') |
| - .Append('value->SetWithoutPathExpansion("%s", %s);' % ( |
| - prop.unix_name, |
| - self._CreateValueFromProperty(prop, prop.unix_name))) |
| - ) |
| - if prop.optional: |
| - c.Eblock('}'); |
| - (c.Append() |
| - .Append('return value.Pass();') |
| + c.Sblock('if (%s.get()) {' % prop.unix_name) |
| + |
| + # ANY is a base::Value which is abstract and cannot be a direct member, so |
| + # it will always be a pointer. |
| + is_ptr = prop.optional or prop.type_.property_type == PropertyType.ANY |
| + c.Append('value->SetWithoutPathExpansion("%s", %s);' % ( |
| + prop.name, |
| + self._CreateValueFromType(prop.type_, |
| + 'this->%s' % prop.unix_name, |
| + is_ptr=is_ptr))) |
| + |
| + if prop.optional: |
| + c.Eblock('}'); |
| + |
| + if type_.additional_properties is not None: |
| + if type_.additional_properties.property_type == PropertyType.ANY: |
| + c.Append('value->MergeDictionary(&additional_properties);') |
| + else: |
| + # Non-copyable types will be wrapped in a linked_ptr for inclusion in |
| + # maps, so we need to unwrap them. |
| + needs_unwrap = ( |
| + not self._type_helper.IsCopyable(type_.additional_properties)) |
| + (c.Sblock('for (std::map<std::string, %s>::const_iterator it =' % |
| + (self._type_helper.GetCppType(type_.additional_properties, |
| + is_in_container=True))) |
| + .Append(' additional_properties.begin();') |
| + .Append(' it != additional_properties.end(); ++it) {') |
| + .Append('value->SetWithoutPathExpansion(it->first, %s);' % |
| + self._CreateValueFromType( |
| + type_.additional_properties, |
| + '%sit->second' % ('*' if needs_unwrap else ''))) |
| + .Eblock('}') |
| + ) |
| + |
| + return (c.Append() |
| + .Append('return value.Pass();') |
| + .Eblock('}')) |
| + |
| + def _GenerateChoiceTypeToValue(self, cpp_namespace, type_): |
| + """Generates a function that serializes a choice-representing type |
| + into a base::Value. |
| + """ |
| + c = Code() |
| + c.Sblock('scoped_ptr<base::Value> %s::ToValue() const {' % cpp_namespace) |
| + c.Append('scoped_ptr<base::Value> result;'); |
| + for choice in type_.choices: |
| + choice_var = 'as_%s' % choice.unix_name |
| + (c.Sblock('if (%s) {' % choice_var) |
| + .Append('DCHECK(!result) << "Cannot set multiple choices";') |
|
Yoyo Zhou
2013/01/16 23:14:39
You can't tell from these what the enum is, can yo
not at google - send to devlin
2013/01/17 00:11:49
As in to include in the failure message? Sure.
|
| + .Append('result.reset(%s);' % |
| + self._CreateValueFromType(choice, '*%s' % choice_var)) |
| + .Eblock('}') |
| + ) |
| + (c.Append('DCHECK(result) << "Must set at least one choice";') |
| + .Append('return result.Pass();') |
| .Eblock('}') |
| ) |
| return c |
| - def _GenerateFunction(self, cpp_namespace, function): |
| + def _GenerateFunction(self, function): |
| """Generates the definitions for function structs. |
| """ |
| c = Code() |
| + # TODO(kalman): use function.unix_name not Classname. |
| + function_namespace = cpp_util.Classname(function.name) |
| + (c.Append('namespace %s {' % function_namespace) |
| + .Append() |
| + ) |
| + |
| # Params::Populate function |
| if function.params: |
| - c.Concat(self._GeneratePropertyFunctions(cpp_namespace + '::Params', |
| - function.params)) |
| - (c.Append('%(cpp_namespace)s::Params::Params() {}') |
| - .Append('%(cpp_namespace)s::Params::~Params() {}') |
| - .Append() |
| - .Concat(self._GenerateFunctionParamsCreate(cpp_namespace, function)) |
| + c.Concat(self._GeneratePropertyFunctions('Params', function.params)) |
| + (c.Append('Params::Params() {}') |
| + .Append('Params::~Params() {}') |
| .Append() |
| + .Cblock(self._GenerateFunctionParamsCreate(function)) |
| ) |
| # Results::Create function |
| if function.callback: |
| - c.Concat(self._GenerateCreateCallbackArguments( |
| - "%s::Results" % cpp_namespace, function.callback)) |
| + c.Concat(self._GenerateCreateCallbackArguments('Results', |
| + function.callback)) |
| - c.Substitute({'cpp_namespace': cpp_namespace}) |
| + c.Append('} // namespace %s' % function_namespace) |
| + return c |
| + def _GenerateEvent(self, event): |
| + # TODO(kalman): use event.unix_name not Classname. |
| + c = Code() |
| + event_namespace = cpp_util.Classname(event.name) |
| + (c.Append('namespace %s {' % event_namespace) |
| + .Append() |
| + .Cblock(self._GenerateCreateCallbackArguments(None, event)) |
| + .Append('} // namespace %s' % event_namespace) |
| + ) |
| return c |
| - def _CreateValueFromProperty(self, prop, var): |
| - """Creates a base::Value given a property. Generated code passes ownership |
| + def _CreateValueFromType(self, type_, var, is_ptr=False): |
| + """Creates a base::Value given a type. Generated code passes ownership |
| to caller. |
| var: variable or variable* |
| E.g for std::string, generate base::Value::CreateStringValue(var) |
| """ |
| - if prop.type_ == PropertyType.CHOICES: |
| - return 'Get%sChoiceValue().release()' % cpp_util.Classname(prop.name) |
| - elif self._IsObjectOrObjectRef(prop): |
| - if prop.optional: |
| - return '%s->ToValue().release()' % var |
| + underlying_type = self._type_helper.FollowRef(type_) |
| + if (underlying_type.property_type == PropertyType.CHOICES or |
| + underlying_type.property_type == PropertyType.OBJECT): |
| + if is_ptr: |
| + return '(%s)->ToValue().release()' % var |
| else: |
| - return '%s.ToValue().release()' % var |
| - elif prop.type_ == PropertyType.ANY: |
| - return '%s.DeepCopy()' % self._any_helper.GetValue(prop, var) |
| - elif prop.type_ == PropertyType.ADDITIONAL_PROPERTIES: |
| - return '%s.DeepCopy()' % var |
| - elif prop.type_ == PropertyType.FUNCTION: |
| - if prop.optional: |
| - vardot = var + '->' |
| + return '(%s).ToValue().release()' % var |
| + elif (underlying_type.property_type == PropertyType.ANY or |
| + underlying_type.property_type == PropertyType.FUNCTION): |
| + if is_ptr: |
| + vardot = '(%s)->' % var |
| else: |
| - vardot = var + '.' |
| + vardot = '(%s).' % var |
| return '%sDeepCopy()' % vardot |
| - elif self._cpp_type_generator.IsEnumOrEnumRef(prop): |
| + elif underlying_type.property_type == PropertyType.ENUM: |
| return 'base::Value::CreateStringValue(ToString(%s))' % var |
| - elif prop.type_ == PropertyType.BINARY: |
| - if prop.optional: |
| + elif underlying_type.property_type == PropertyType.BINARY: |
| + if is_ptr: |
| vardot = var + '->' |
| else: |
| vardot = var + '.' |
| return ('base::BinaryValue::CreateWithCopiedBuffer(%sdata(), %ssize())' % |
| (vardot, vardot)) |
| - elif self._IsArrayOrArrayRef(prop): |
| + elif underlying_type.property_type == PropertyType.ARRAY: |
| return '%s.release()' % self._util_cc_helper.CreateValueFromArray( |
| - self._cpp_type_generator.GetReferencedProperty(prop), var, |
| - prop.optional) |
| - elif self._IsFundamentalOrFundamentalRef(prop): |
| - # If prop.type != prop.compiled_type, then no asterisk is necessary |
| - # because the target is a local variable and not a dereferenced scoped |
| - # pointer. The asterisk is instead prepended to conversion_src around line |
| - # 273. |
| - if prop.optional and prop.type_ == prop.compiled_type: |
| - var = '*' + var |
| - prop = self._cpp_type_generator.GetReferencedProperty(prop); |
| - return { |
| - PropertyType.STRING: 'base::Value::CreateStringValue(%s)', |
| - PropertyType.BOOLEAN: 'base::Value::CreateBooleanValue(%s)', |
| - PropertyType.INTEGER: 'base::Value::CreateIntegerValue(%s)', |
| - PropertyType.DOUBLE: 'base::Value::CreateDoubleValue(%s)', |
| - }[prop.type_] % var |
| + underlying_type, |
| + var, |
| + is_ptr) |
| + elif underlying_type.property_type.is_fundamental: |
| + if is_ptr: |
| + var = '*%s' % var |
| + if underlying_type.property_type == PropertyType.STRING: |
| + return 'new base::StringValue(%s)' % var |
| + else: |
| + return 'new base::FundamentalValue(%s)' % var |
| else: |
| raise NotImplementedError('Conversion of %s to base::Value not ' |
| - 'implemented' % repr(prop.type_)) |
| + 'implemented' % repr(type_.type_)) |
| def _GenerateParamsCheck(self, function, var): |
| """Generates a check for the correct number of arguments when creating |
| @@ -405,7 +457,7 @@ class CCGenerator(object): |
| }) |
| return c |
| - def _GenerateFunctionParamsCreate(self, cpp_namespace, function): |
| + def _GenerateFunctionParamsCreate(self, function): |
| """Generate function to create an instance of Params. The generated |
| function takes a base::ListValue of arguments. |
| @@ -413,12 +465,11 @@ class CCGenerator(object): |
| """ |
| c = Code() |
| (c.Append('// static') |
| - .Sblock('scoped_ptr<%(cpp_namespace)s::Params> ' |
| - '%(cpp_namespace)s::Params::Create(const base::ListValue& args) {') |
| + .Sblock('scoped_ptr<Params> ' |
| + 'Params::Create(const base::ListValue& args) {') |
| .Concat(self._GenerateParamsCheck(function, 'args')) |
| .Append('scoped_ptr<Params> params(new Params());') |
| ) |
| - c.Substitute({'cpp_namespace': cpp_namespace}) |
| for param in function.params: |
| c.Concat(self._InitializePropertyToDefault(param, 'params')) |
| @@ -432,9 +483,8 @@ class CCGenerator(object): |
| c.Append() |
| value_var = param.unix_name + '_value' |
| (c.Append('const base::Value* %(value_var)s = NULL;') |
| - .Append('if (args.Get(%(i)s, &%(value_var)s) &&\n' |
| - ' !%(value_var)s->IsType(base::Value::TYPE_NULL))') |
| - .Sblock('{') |
| + .Append('if (args.Get(%(i)s, &%(value_var)s) &&') |
| + .Sblock(' !%(value_var)s->IsType(base::Value::TYPE_NULL)) {') |
| .Concat(self._GeneratePopulatePropertyFromValue( |
| param, value_var, 'params', failure_value)) |
| .Eblock('}') |
| @@ -453,466 +503,292 @@ class CCGenerator(object): |
| return c |
| - def _GeneratePopulatePropertyFromValue( |
| - self, prop, value_var, dst, failure_value, check_type=True): |
| - """Generates code to populate a model.Property given a base::Value*. The |
| - existence of data inside the base::Value* is assumed so checks for existence |
| - should be performed before the code this generates. |
| - |
| - prop: the property the code is populating. |
| - value_var: a base::Value* that should represent |prop|. |
| - dst: the object with |prop| as a member. |
| - failure_value: the value to return if |prop| cannot be extracted from |
| - |value_var| |
| - check_type: if true, will check if |value_var| is the correct |
| - base::Value::Type |
| + def _GeneratePopulatePropertyFromValue(self, |
| + prop, |
| + src_var, |
| + dst_class_var, |
| + failure_value): |
| + """Generates code to populate property |prop| of |dst_class_var| (a |
| + pointer) from a Value*. See |_GeneratePopulateVariableFromValue| for |
| + semantics. |
| + """ |
| + return self._GeneratePopulateVariableFromValue(prop.type_, |
| + src_var, |
| + '%s->%s' % (dst_class_var, |
| + prop.unix_name), |
| + failure_value, |
| + is_ptr=prop.optional) |
| + |
| + def _GeneratePopulateVariableFromValue(self, |
| + type_, |
| + src_var, |
| + dst_var, |
| + failure_value, |
| + is_ptr=False): |
| + """Generates code to populate a variable |dst_var| of type |type_| from a |
| + Value* at |src_var|. The Value* is assumed to be non-NULL. In the generated |
| + code, if |dst_var| fails to be populated then Populate will return |
| + |failure_value|. |
| """ |
| c = Code() |
| c.Sblock('{') |
| - if self._IsFundamentalOrFundamentalRef(prop): |
| - self._GenerateFundamentalOrFundamentalRefPopulate(c, prop, value_var, dst) |
| - elif self._IsObjectOrObjectRef(prop): |
| - self._GenerateObjectOrObjectRefPopulate(c, prop) |
| - elif prop.type_ == PropertyType.FUNCTION: |
| - self._GenerateFunctionPopulate(c, prop) |
| - elif prop.type_ == PropertyType.ANY: |
| - self._GenerateAnyPopulate(c, prop, value_var, dst) |
| - elif self._IsArrayOrArrayRef(prop): |
| - self._GenerateArrayOrArrayRefPopulate(c, prop, dst) |
| - elif prop.type_ == PropertyType.CHOICES: |
| - self._GenerateChoicePopulate(c, prop, value_var, dst, failure_value) |
| - elif self._cpp_type_generator.IsEnumOrEnumRef(prop): |
| - self._GenerateEnumPopulate(c, prop, value_var) |
| - elif prop.type_ == PropertyType.BINARY: |
| - self._GenerateBinaryPopulate(c, prop) |
| - else: |
| - raise NotImplementedError(prop.type_) |
| - c.Eblock('}') |
| - sub = { |
| - 'value_var': value_var, |
| - 'name': prop.unix_name, |
| - 'dst': dst, |
| - 'failure_value': failure_value, |
| - } |
| - if prop.type_ not in (PropertyType.CHOICES, PropertyType.ANY): |
| - sub['ctype'] = self._cpp_type_generator.GetType(prop) |
| - sub['compiled_ctype'] = self._cpp_type_generator.GetCompiledType(prop) |
| - sub['value_type'] = cpp_util.GetValueType(self._cpp_type_generator |
| - .GetReferencedProperty(prop).type_) |
| - c.Substitute(sub) |
| - return c |
| + underlying_type = self._type_helper.FollowRef(type_) |
| - def _GenerateFundamentalOrFundamentalRefPopulate(self, |
| - c, |
| - prop, |
| - value_var, |
| - dst): |
| - if prop.optional: |
| - (c.Append('%(ctype)s temp;') |
| - .Append('if (!%s)' % |
| - cpp_util.GetAsFundamentalValue( |
| - self._cpp_type_generator.GetReferencedProperty(prop), |
| - value_var, |
| - '&temp')) |
| - .Append(' return %(failure_value)s;') |
| - ) |
| - if prop.type_ != prop.compiled_type: |
| - (c.Append('%(compiled_ctype)s temp2;') |
| - .Append('if (!%s)' % |
| - cpp_util.GenerateTypeToCompiledTypeConversion( |
| - self._cpp_type_generator.GetReferencedProperty(prop), |
| - 'temp', |
| - 'temp2')) |
| + if underlying_type.property_type.is_fundamental: |
| + if is_ptr: |
| + (c.Append('%(cpp_type)s temp;') |
| + .Append('if (!%s)' % cpp_util.GetAsFundamentalValue( |
| + self._type_helper.FollowRef(type_), src_var, '&temp')) |
| .Append(' return %(failure_value)s;') |
| - .Append('%(dst)s->%(name)s.reset(new %(compiled_ctype)s(temp2));') |
| + .Append('%(dst_var)s.reset(new %(cpp_type)s(temp));') |
| ) |
| else: |
| - c.Append('%(dst)s->%(name)s.reset(new %(ctype)s(temp));') |
| - |
| - else: |
| - if prop.type_ == prop.compiled_type: |
| - assignment_target = '&%s->%s' % (dst, prop.unix_name) |
| + (c.Append('if (!%s)' % cpp_util.GetAsFundamentalValue( |
| + self._type_helper.FollowRef(type_), |
| + src_var, |
| + '&%s' % dst_var)) |
| + .Append(' return %(failure_value)s;') |
| + ) |
| + elif underlying_type.property_type == PropertyType.OBJECT: |
| + if is_ptr: |
| + (c.Append('const base::DictionaryValue* dictionary = NULL;') |
| + .Append('if (!%(src_var)s->GetAsDictionary(&dictionary))') |
| + .Append(' return %(failure_value)s;') |
| + .Append('scoped_ptr<%(cpp_type)s> temp(new %(cpp_type)s());') |
| + .Append('if (!%(cpp_type)s::Populate(*dictionary, temp.get()))') |
| + .Append(' return %(failure_value)s;') |
| + .Append('%(dst_var)s = temp.Pass();') |
| + ) |
| else: |
| - c.Append('%(ctype)s temp;') |
| - assignment_target = '&temp' |
| - (c.Append('if (!%s)' % |
| - cpp_util.GetAsFundamentalValue( |
| - self._cpp_type_generator.GetReferencedProperty(prop), |
| - value_var, |
| - assignment_target)) |
| - .Append(' return %(failure_value)s;') |
| - ) |
| - if prop.type_ != prop.compiled_type: |
| - (c.Append('if (!%s)' % |
| - cpp_util.GenerateTypeToCompiledTypeConversion( |
| - self._cpp_type_generator.GetReferencedProperty(prop), |
| - 'temp', |
| - '%s->%s' % (dst, prop.unix_name))) |
| + (c.Append('const base::DictionaryValue* dictionary = NULL;') |
| + .Append('if (!%(src_var)s->GetAsDictionary(&dictionary))') |
| + .Append(' return %(failure_value)s;') |
| + .Append('if (!%(cpp_type)s::Populate(*dictionary, &%(dst_var)s))') |
| .Append(' return %(failure_value)s;') |
| ) |
| - |
| - def _GenerateObjectOrObjectRefPopulate(self, c, prop): |
| - if prop.optional: |
| - (c.Append('const base::DictionaryValue* dictionary = NULL;') |
| - .Append('if (!%(value_var)s->GetAsDictionary(&dictionary))') |
| - .Append(' return %(failure_value)s;') |
| - .Append('scoped_ptr<%(ctype)s> temp(new %(ctype)s());') |
| - .Append('if (!%(ctype)s::Populate(*dictionary, temp.get()))') |
| - .Append(' return %(failure_value)s;') |
| - .Append('%(dst)s->%(name)s = temp.Pass();') |
| - ) |
| - else: |
| - (c.Append('const base::DictionaryValue* dictionary = NULL;') |
| - .Append('if (!%(value_var)s->GetAsDictionary(&dictionary))') |
| - .Append(' return %(failure_value)s;') |
| - .Append( |
| - 'if (!%(ctype)s::Populate(*dictionary, &%(dst)s->%(name)s))') |
| - .Append(' return %(failure_value)s;') |
| - ) |
| - |
| - def _GenerateFunctionPopulate(self, c, prop): |
| - if prop.optional: |
| - c.Append('%(dst)s->%(name)s.reset(new base::DictionaryValue());') |
| - |
| - def _GenerateAnyPopulate(self, c, prop, value_var, dst): |
| - if prop.optional: |
| - c.Append('%(dst)s->%(name)s.reset(new ' + any_helper.ANY_CLASS + '());') |
| - c.Append(self._any_helper.Init(prop, value_var, dst) + ';') |
| - |
| - def _GenerateArrayOrArrayRefPopulate(self, c, prop, dst): |
| - # util_cc_helper deals with optional and required arrays |
| - (c.Append('const base::ListValue* list = NULL;') |
| - .Append('if (!%(value_var)s->GetAsList(&list))') |
| - .Append(' return %(failure_value)s;')) |
| - if prop.item_type.type_ == PropertyType.ENUM: |
| - self._GenerateListValueToEnumArrayConversion(c, prop) |
| - else: |
| - (c.Append('if (!%s)' % self._util_cc_helper.PopulateArrayFromList( |
| - self._cpp_type_generator.GetReferencedProperty(prop), 'list', |
| - dst + '->' + prop.unix_name, prop.optional)) |
| + elif underlying_type.property_type == PropertyType.FUNCTION: |
| + if is_ptr: |
| + c.Append('%(dst_var)s.reset(new base::DictionaryValue());') |
| + elif underlying_type.property_type == PropertyType.ANY: |
| + c.Append('%(dst_var)s.reset(%(src_var)s->DeepCopy());') |
| + elif underlying_type.property_type == PropertyType.ARRAY: |
| + # util_cc_helper deals with optional and required arrays |
| + (c.Append('const base::ListValue* list = NULL;') |
| + .Append('if (!%(src_var)s->GetAsList(&list))') |
| + .Append(' return %(failure_value)s;')) |
| + item_type = underlying_type.item_type |
| + if item_type.property_type == PropertyType.ENUM: |
| + c.Concat(self._GenerateListValueToEnumArrayConversion( |
| + item_type, |
| + 'list', |
| + dst_var, |
| + failure_value, |
| + is_ptr=is_ptr)) |
| + else: |
| + (c.Append('if (!%s)' % self._util_cc_helper.PopulateArrayFromList( |
| + underlying_type, |
| + 'list', |
| + dst_var, |
| + is_ptr)) |
| + .Append(' return %(failure_value)s;') |
| + ) |
| + elif underlying_type.property_type == PropertyType.CHOICES: |
| + if is_ptr: |
| + (c.Append('scoped_ptr<%(cpp_type)s> temp(new %(cpp_type)s());') |
| + .Append('if (!%(cpp_type)s::Populate(*%(src_var)s, temp.get()))') |
| + .Append(' return %(failure_value)s;') |
| + .Append('%(dst_var)s = temp.Pass();') |
| + ) |
| + else: |
| + (c.Append('if (!%(cpp_type)s::Populate(*%(src_var)s, &%(dst_var)s))') |
| + .Append(' return %(failure_value)s;') |
| + ) |
| + elif underlying_type.property_type == PropertyType.ENUM: |
| + c.Concat(self._GenerateStringToEnumConversion(type_, |
| + src_var, |
| + dst_var, |
| + failure_value)) |
| + elif underlying_type.property_type == PropertyType.BINARY: |
| + (c.Append('if (!%(src_var)s->IsType(%(value_type)s))') |
| .Append(' return %(failure_value)s;') |
| - ) |
| - |
| - def _GenerateChoicePopulate(self, c, prop, value_var, dst, failure_value): |
| - type_var = '%(dst)s->%(name)s_type' |
| - c.Sblock('switch (%(value_var)s->GetType()) {') |
| - for choice in self._cpp_type_generator.ExpandParams([prop]): |
| - (c.Sblock('case %s: {' % cpp_util.GetValueType( |
| - self._cpp_type_generator.GetReferencedProperty(choice).type_)) |
| - .Concat(self._GeneratePopulatePropertyFromValue( |
| - choice, value_var, dst, failure_value, check_type=False)) |
| - .Append('%s = %s;' % |
| - (type_var, |
| - self._cpp_type_generator.GetEnumValue( |
| - prop, choice.type_.name))) |
| - .Append('break;') |
| - .Eblock('}') |
| - ) |
| - (c.Append('default:') |
| - .Append(' return %(failure_value)s;') |
| - ) |
| - c.Eblock('}') |
| - |
| - def _GenerateEnumPopulate(self, c, prop, value_var): |
| - c.Sblock('{') |
| - self._GenerateStringToEnumConversion(c, prop, value_var, 'enum_temp') |
| - c.Append('%(dst)s->%(name)s = enum_temp;') |
| - c.Eblock('}') |
| - |
| - def _GenerateBinaryPopulate(self, c, prop): |
| - (c.Append('if (!%(value_var)s->IsType(%(value_type)s))') |
| - .Append(' return %(failure_value)s;') |
| - .Append('const base::BinaryValue* binary_value =') |
| - .Append(' static_cast<const base::BinaryValue*>(%(value_var)s);') |
| - ) |
| - if prop.optional: |
| - (c.Append('%(dst)s->%(name)s.reset(') |
| - .Append(' new std::string(binary_value->GetBuffer(),') |
| - .Append(' binary_value->GetSize()));') |
| + .Append('const base::BinaryValue* binary_value =') |
| + .Append(' static_cast<const base::BinaryValue*>(%(src_var)s);') |
| ) |
| + if is_ptr: |
| + (c.Append('%(dst_var)s.reset(') |
| + .Append(' new std::string(binary_value->GetBuffer(),') |
| + .Append(' binary_value->GetSize()));') |
| + ) |
| + else: |
| + (c.Append('%(dst_var)s.assign(binary_value->GetBuffer(),') |
| + .Append(' binary_value->GetSize());') |
| + ) |
| else: |
| - (c.Append('%(dst)s->%(name)s.assign(binary_value->GetBuffer(),') |
| - .Append(' binary_value->GetSize());') |
| - ) |
| + raise NotImplementedError(type_) |
| - def _GenerateListValueToEnumArrayConversion(self, c, prop): |
| - """Appends code that converts a ListValue of string contstants to |
| - an array of enums in dst. |
| - Leaves dst, name, and failure_value unsubstituted. |
| + sub = { |
| + 'cpp_type': self._type_helper.GetCppType(type_), |
| + 'src_var': src_var, |
| + 'dst_var': dst_var, |
| + 'failure_value': failure_value, |
| + } |
| - c: the Code object that is being appended to. |
| - prop: the property that the code is populating. |
| + if underlying_type.property_type not in (PropertyType.ANY, |
| + PropertyType.CHOICES): |
| + sub['value_type'] = cpp_util.GetValueType(underlying_type) |
| + |
| + return c.Eblock('}').Substitute(sub) |
| + |
| + def _GenerateListValueToEnumArrayConversion(self, |
| + item_type, |
| + src_var, |
| + dst_var, |
| + failure_value, |
| + is_ptr=False): |
| + """Returns Code that converts a ListValue of string constants from |
| + |src_var| into an array of enums of |type_| in |dst_var|. On failure, |
| + returns |failure_value|. |
| """ |
| + c = Code() |
| accessor = '.' |
| - if prop.optional: |
| - c.Append('%(dst)s->%(name)s.reset(new std::vector<' + ( |
| - self._cpp_type_generator.GetType(prop.item_type) + '>);')) |
| + if is_ptr: |
| accessor = '->' |
| - c.Sblock('for (ListValue::const_iterator it = list->begin(); ' |
| - 'it != list->end(); ++it) {') |
| - self._GenerateStringToEnumConversion( |
| - c, prop.item_type, '(*it)', 'enum_temp') |
| - c.Append('%(dst)s->%(name)s' + accessor + 'push_back(enum_temp);') |
| - c.Eblock('}') |
| - |
| - def _GenerateStringToEnumConversion(self, c, prop, value_var, enum_temp): |
| - """Appends code that converts a string to an enum. |
| - Leaves failure_value unsubstituted. |
| - |
| - c: the code that is appended to. |
| - prop: the property that the code is populating. |
| - value_var: the string value that is being converted. |
| - enum_temp: the name used to store the temporary enum value. |
| - """ |
| - (c.Append('std::string enum_as_string;') |
| - .Append('if (!%s->GetAsString(&enum_as_string))' % value_var) |
| - .Append(' return %(failure_value)s;') |
| - .Append('%(type)s %(enum)s = From%(type)sString(enum_as_string);' % { |
| - 'type': self._cpp_type_generator.GetCompiledType(prop), |
| - 'enum': enum_temp |
| - }) |
| - .Append('if (%s == %s)' % |
| - (enum_temp, self._cpp_type_generator.GetEnumNoneValue(prop))) |
| - .Append(' return %(failure_value)s;')) |
| - |
| - def _GeneratePropertyFunctions(self, param_namespace, params): |
| - """Generate the functions for structures generated by a property such as |
| - CreateEnumValue for ENUMs and Populate/ToValue for Params/Results objects. |
| + c.Append('%s.reset(new std::vector<%s>);' % ( |
| + dst_var, |
| + self._type_helper.GetCppType(item_type, |
| + is_in_container=True))) |
| + (c.Sblock('for (base::ListValue::const_iterator it = %s->begin(); ' |
| + 'it != %s->end(); ++it) {' % (src_var, src_var)) |
| + .Append('%s tmp;' % self._type_helper.GetCppType(item_type)) |
| + .Concat(self._GenerateStringToEnumConversion(item_type, |
| + '(*it)', |
| + 'tmp', |
| + failure_value)) |
| + .Append('%s%spush_back(tmp);' % (dst_var, accessor)) |
| + .Eblock('}') |
| + ) |
| + return c |
| + |
| + def _GenerateStringToEnumConversion(self, |
| + type_, |
| + src_var, |
| + dst_var, |
| + failure_value): |
| + """Returns Code that converts a string type in |src_var| to an enum with |
| + type |type_| in |dst_var|. In the generated code, if |src_var| is not |
| + a valid enum name then the function will return |failure_value|. |
| """ |
| c = Code() |
| - for param in params: |
| - if param.type_ == PropertyType.OBJECT: |
| - c.Concat(self._GenerateType( |
| - param_namespace + '::' + cpp_util.Classname(param.name), |
| - param)) |
| - c.Append() |
| - elif param.type_ == PropertyType.ARRAY: |
| - c.Concat(self._GeneratePropertyFunctions( |
| - param_namespace, [param.item_type])) |
| - elif param.type_ == PropertyType.CHOICES: |
| - c.Concat(self._GeneratePropertyFunctions( |
| - param_namespace, param.choices.values())) |
| - if param.from_client: |
| - c.Concat(self._GenerateGetChoiceValue(param_namespace, param)) |
| - elif param.type_ == PropertyType.ENUM: |
| - (c.Concat(self._GenerateCreateEnumValue(param_namespace, param)) |
| - .Append() |
| - .Concat(self._GenerateEnumFromString(param_namespace, |
| - param, |
| - use_namespace=True)) |
| - .Append() |
| - .Concat(self._GenerateEnumToString(param_namespace, |
| - param, |
| - use_namespace=True)) |
| - .Append()) |
| + enum_as_string = '%s_as_string' % type_.unix_name |
| + (c.Append('std::string %s;' % enum_as_string) |
| + .Append('if (!%s->GetAsString(&%s))' % (src_var, enum_as_string)) |
| + .Append(' return %s;' % failure_value) |
| + .Append('%s = Parse%s(%s);' % (dst_var, |
| + self._type_helper.GetCppType(type_), |
| + enum_as_string)) |
| + .Append('if (%s == %s)' % (dst_var, |
| + self._type_helper.GetEnumNoneValue(type_))) |
| + .Append(' return %s;' % failure_value) |
| + ) |
| return c |
| - def _GenerateGetChoiceValue(self, cpp_namespace, prop): |
| - """Generates Get<Type>ChoiceValue() that returns a scoped_ptr<base::Value> |
| - representing the choice value. |
| + def _GeneratePropertyFunctions(self, namespace, params): |
| + """Generates the member functions for a list of parameters. |
| """ |
| - c = Code() |
| - (c.Sblock('scoped_ptr<base::Value> ' |
| - '%(cpp_namespace)s::Get%(choice)sChoiceValue() const {') |
| - .Sblock('switch (%s_type) {' % prop.unix_name) |
| - .Concat(self._GenerateReturnCase( |
| - self._cpp_type_generator.GetEnumNoneValue(prop), |
| - 'scoped_ptr<base::Value>()'))) |
| - for choice in self._cpp_type_generator.ExpandParams([prop]): |
| - c.Concat(self._GenerateReturnCase( |
| - self._cpp_type_generator.GetEnumValue(prop, choice.type_.name), |
| - 'make_scoped_ptr<base::Value>(%s)' % |
| - self._CreateValueFromProperty(choice, choice.unix_name))) |
| - (c.Eblock('}') |
| - .Append('return scoped_ptr<base::Value>();') |
| - .Eblock('}') |
| - .Append() |
| - .Substitute({ |
| - 'cpp_namespace': cpp_namespace, |
| - 'choice': cpp_util.Classname(prop.name) |
| - }) |
| - ) |
| - return c |
| + return self._GenerateTypes(namespace, (param.type_ for param in params)) |
| - def _GenerateCreateEnumTypeValue(self, cpp_namespace, prop): |
| - """Generates CreateEnumValue() that returns the base::StringValue |
| - representation of an enum type. |
| + def _GenerateTypes(self, namespace, types): |
| + """Generates the member functions for a list of types. |
| """ |
| c = Code() |
| - classname = cpp_util.Classname(schema_util.StripSchemaNamespace(prop.name)) |
| - (c.Sblock('scoped_ptr<base::Value> CreateEnumValue(%s %s) {' % |
| - (classname, classname.lower())) |
| - .Append('std::string enum_temp = ToString(%s);' % classname.lower()) |
| - .Append('if (enum_temp.empty())') |
| - .Append(' return scoped_ptr<base::Value>();') |
| - .Append('return scoped_ptr<base::Value>(' |
| - 'base::Value::CreateStringValue(enum_temp));') |
| - .Eblock('}')) |
| + for type_ in types: |
| + c.Cblock(self._GenerateType(namespace, type_)) |
| return c |
| - def _GenerateEnumToString(self, cpp_namespace, prop, use_namespace=False): |
| + def _GenerateEnumToString(self, cpp_namespace, type_): |
| """Generates ToString() which gets the string representation of an enum. |
| """ |
| c = Code() |
| - classname = cpp_util.Classname(schema_util.StripSchemaNamespace(prop.name)) |
| - if use_namespace: |
| - namespace = '%s::' % cpp_namespace |
| - else: |
| - namespace = '' |
| + classname = cpp_util.Classname(schema_util.StripSchemaNamespace(type_.name)) |
| - (c.Append('// static') |
| - .Sblock('std::string %(namespace)sToString(%(class)s enum_param) {')) |
| - enum_prop = self._cpp_type_generator.GetReferencedProperty(prop) |
| + if cpp_namespace is not None: |
| + c.Append('// static') |
| + maybe_namespace = '' if cpp_namespace is None else '%s::' % cpp_namespace |
| + |
| + c.Sblock('std::string %sToString(%s enum_param) {' % |
| + (maybe_namespace, classname)) |
| c.Sblock('switch (enum_param) {') |
| - for enum_value in enum_prop.enum_values: |
| - c.Concat(self._GenerateReturnCase( |
| - self._cpp_type_generator.GetEnumValue(prop, enum_value), |
| - '"%s"' % enum_value)) |
| - (c.Append('case %s:' % self._cpp_type_generator.GetEnumNoneValue(prop)) |
| + for enum_value in self._type_helper.FollowRef(type_).enum_values: |
| + (c.Append('case %s: ' % self._type_helper.GetEnumValue(type_, enum_value)) |
| + .Append(' return "%s";' % enum_value)) |
| + (c.Append('case %s:' % self._type_helper.GetEnumNoneValue(type_)) |
| .Append(' return "";') |
| .Eblock('}') |
| + .Append('NOTREACHED();') |
| .Append('return "";') |
| .Eblock('}') |
| - .Substitute({ |
| - 'namespace': namespace, |
| - 'class': classname |
| - })) |
| + ) |
| return c |
| - def _GenerateEnumFromString(self, cpp_namespace, prop, use_namespace=False): |
| + def _GenerateEnumFromString(self, cpp_namespace, type_): |
| """Generates FromClassNameString() which gets an enum from its string |
| representation. |
| """ |
| c = Code() |
| - classname = cpp_util.Classname(schema_util.StripSchemaNamespace(prop.name)) |
| - if use_namespace: |
| - namespace = '%s::' % cpp_namespace |
| - else: |
| - namespace = '' |
| + classname = cpp_util.Classname(schema_util.StripSchemaNamespace(type_.name)) |
| - (c.Append('// static') |
| - .Sblock('%(namespace)s%(class)s' |
| - ' %(namespace)sFrom%(class)sString(' |
| - 'const std::string& enum_string) {')) |
| - enum_prop = self._cpp_type_generator.GetReferencedProperty(prop) |
| + if cpp_namespace is not None: |
| + c.Append('// static') |
| + maybe_namespace = '' if cpp_namespace is None else '%s::' % cpp_namespace |
| + |
| + c.Sblock('%s%s %sParse%s(const std::string& enum_string) {' % |
| + (maybe_namespace, classname, maybe_namespace, classname)) |
| for i, enum_value in enumerate( |
| - self._cpp_type_generator.GetReferencedProperty(prop).enum_values): |
| + self._type_helper.FollowRef(type_).enum_values): |
| # This is broken up into all ifs with no else ifs because we get |
| # "fatal error C1061: compiler limit : blocks nested too deeply" |
| # on Windows. |
| (c.Append('if (enum_string == "%s")' % enum_value) |
| .Append(' return %s;' % |
| - self._cpp_type_generator.GetEnumValue(prop, enum_value))) |
| - (c.Append('return %s;' % |
| - self._cpp_type_generator.GetEnumNoneValue(prop)) |
| + self._type_helper.GetEnumValue(type_, enum_value))) |
| + (c.Append('return %s;' % self._type_helper.GetEnumNoneValue(type_)) |
| .Eblock('}') |
| - .Substitute({ |
| - 'namespace': namespace, |
| - 'class': classname |
| - })) |
| - return c |
| - |
| - # TODO(chebert): This is basically the same as GenerateCreateEnumTypeValue(). |
| - # The plan is to phase out the old-style enums, and make all enums into REF |
| - # types. |
| - def _GenerateCreateEnumValue(self, cpp_namespace, prop): |
| - """Generates CreateEnumValue() that returns the base::StringValue |
| - representation of an enum. |
| - """ |
| - c = Code() |
| - (c.Append('// static') |
| - .Sblock('scoped_ptr<base::Value> %(cpp_namespace)s::CreateEnumValue(' |
| - '%(arg)s) {') |
| - .Append('std::string enum_temp = ToString(%s);' % prop.unix_name) |
| - .Append('if (enum_temp.empty())') |
| - .Append(' return scoped_ptr<base::Value>();') |
| - .Append('return scoped_ptr<base::Value>(' |
| - 'base::Value::CreateStringValue(enum_temp));') |
| - .Eblock('}') |
| - .Substitute({ |
| - 'cpp_namespace': cpp_namespace, |
| - 'arg': cpp_util.GetParameterDeclaration( |
| - prop, self._cpp_type_generator.GetType(prop)) |
| - })) |
| - return c |
| - |
| - def _GenerateReturnCase(self, case_value, return_value): |
| - """Generates a single return case for a switch block. |
| - """ |
| - c = Code() |
| - (c.Append('case %s:' % case_value) |
| - .Append(' return %s;' % return_value) |
| ) |
| return c |
| - def _GenerateCreateCallbackArguments(self, |
| - function_scope, |
| - callback, |
| - generate_to_json=False): |
| + def _GenerateCreateCallbackArguments(self, function_scope, callback): |
| """Generate all functions to create Value parameters for a callback. |
| E.g for function "Bar", generate Bar::Results::Create |
| E.g for event "Baz", generate Baz::Create |
| function_scope: the function scope path, e.g. Foo::Bar for the function |
| - Foo::Bar::Baz(). |
| + Foo::Bar::Baz(). May be None if there is no function scope. |
| callback: the Function object we are creating callback arguments for. |
| - generate_to_json: Generate a ToJson method. |
| """ |
| c = Code() |
| params = callback.params |
| - expanded_params = self._cpp_type_generator.ExpandParams(params) |
| - c.Concat(self._GeneratePropertyFunctions(function_scope, expanded_params)) |
| - |
| - param_lists = self._cpp_type_generator.GetAllPossibleParameterLists(params) |
| - for param_list in param_lists: |
| - (c.Sblock('scoped_ptr<base::ListValue> %(function_scope)s::' |
| - 'Create(%(declaration_list)s) {') |
| - .Append('scoped_ptr<base::ListValue> create_results(' |
| - 'new base::ListValue());') |
| - ) |
| - declaration_list = [] |
| - for param in param_list: |
| - # We treat this argument as 'required' to avoid wrapping it in a |
| - # scoped_ptr if it's optional. |
| - param_copy = param.Copy() |
| - param_copy.optional = False |
| - declaration_list.append("const %s" % cpp_util.GetParameterDeclaration( |
| - param_copy, self._cpp_type_generator.GetCompiledType(param_copy))) |
| - param_name = param_copy.unix_name |
| - if param_copy.type_ != param_copy.compiled_type: |
| - param_name = 'temp_' + param_name |
| - (c.Append('%s %s;' % (self._cpp_type_generator.GetType(param_copy), |
| - param_name)) |
| - .Append(cpp_util.GenerateCompiledTypeToTypeConversion( |
| - param_copy, |
| - param_copy.unix_name, |
| - param_name) + ';') |
| - ) |
| - c.Append('create_results->Append(%s);' % |
| - self._CreateValueFromProperty(param_copy, param_name)) |
| - |
| - c.Append('return create_results.Pass();') |
| - c.Eblock('}') |
| - if generate_to_json: |
| - c.Append() |
| - (c.Sblock('std::string %(function_scope)s::' |
| - 'ToJson(%(declaration_list)s) {') |
| - .Append('scoped_ptr<base::ListValue> create_results = ' |
| - '%(function_scope)s::Create(%(param_list)s);') |
| - .Append('std::string json;') |
| - .Append('base::JSONWriter::Write(create_results.get(), &json);') |
| - .Append('return json;') |
| - ) |
| - c.Eblock('}') |
| - |
| - c.Substitute({ |
| - 'function_scope': function_scope, |
| - 'declaration_list': ', '.join(declaration_list), |
| - 'param_list': ', '.join(param.unix_name for param in param_list) |
| - }) |
| + c.Concat(self._GeneratePropertyFunctions(function_scope, params)) |
| + (c.Sblock('scoped_ptr<base::ListValue> %(function_scope)s' |
| + 'Create(%(declaration_list)s) {') |
| + .Append('scoped_ptr<base::ListValue> create_results(' |
| + 'new base::ListValue());') |
| + ) |
| + declaration_list = [] |
| + for param in params: |
| + declaration_list.append(cpp_util.GetParameterDeclaration( |
| + param, self._type_helper.GetCppType(param.type_))) |
| + c.Append('create_results->Append(%s);' % |
| + self._CreateValueFromType(param.type_, param.unix_name)) |
| + c.Append('return create_results.Pass();') |
| + c.Eblock('}') |
| + c.Substitute({ |
| + 'function_scope': ('%s::' % function_scope) if function_scope else '', |
| + 'declaration_list': ', '.join(declaration_list), |
| + 'param_names': ', '.join(param.unix_name for param in params) |
| + }) |
| return c |
| def _InitializePropertyToDefault(self, prop, dst): |
| @@ -923,33 +799,11 @@ class CCGenerator(object): |
| dst: Type* |
| """ |
| c = Code() |
| - if (self._cpp_type_generator.IsEnumOrEnumRef(prop) or |
| - prop.type_ == PropertyType.CHOICES): |
| - if prop.optional: |
| - prop_name = prop.unix_name |
| - if prop.type_ == PropertyType.CHOICES: |
| - prop_name = prop.unix_name + '_type' |
| - c.Append('%s->%s = %s;' % ( |
| - dst, |
| - prop_name, |
| - self._cpp_type_generator.GetEnumNoneValue(prop))) |
| + underlying_type = self._type_helper.FollowRef(prop.type_) |
| + if (underlying_type.property_type == PropertyType.ENUM and |
| + prop.optional): |
| + c.Append('%s->%s = %s;' % ( |
| + dst, |
| + prop.unix_name, |
| + self._type_helper.GetEnumNoneValue(prop.type_))) |
| return c |
| - |
| - def _IsObjectOrObjectRef(self, prop): |
| - """Determines if this property is an Object or is a ref to an Object. |
| - """ |
| - return (self._cpp_type_generator.GetReferencedProperty(prop).type_ == |
| - PropertyType.OBJECT) |
| - |
| - def _IsArrayOrArrayRef(self, prop): |
| - """Determines if this property is an Array or is a ref to an Array. |
| - """ |
| - return (self._cpp_type_generator.GetReferencedProperty(prop).type_ == |
| - PropertyType.ARRAY) |
| - |
| - def _IsFundamentalOrFundamentalRef(self, prop): |
| - """Determines if this property is a Fundamental type or is a ref to a |
| - Fundamental type. |
| - """ |
| - return (self._cpp_type_generator.GetReferencedProperty(prop).type_. |
| - is_fundamental) |
