Gallery: change size of crop overlay to cover entire window.
[chromium-blink-merge.git] / tools / json_schema_compiler / cc_generator.py
blob48a723e047246e4c54470a9b161a9cd1cfd002d9
1 # Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 # Use of this source code is governed by a BSD-style license that can be
3 # found in the LICENSE file.
5 from code import Code
6 from model import PropertyType
7 import cpp_util
8 import schema_util
9 import util_cc_helper
10 from cpp_namespace_environment import CppNamespaceEnvironment
12 class CCGenerator(object):
13 def __init__(self, type_generator):
14 self._type_generator = type_generator
16 def Generate(self, namespace):
17 return _Generator(namespace, self._type_generator).Generate()
20 class _Generator(object):
21 """A .cc generator for a namespace.
22 """
23 def __init__(self, namespace, cpp_type_generator):
24 assert type(namespace.environment) is CppNamespaceEnvironment
25 self._namespace = namespace
26 self._type_helper = cpp_type_generator
27 self._util_cc_helper = (
28 util_cc_helper.UtilCCHelper(self._type_helper))
29 self._generate_error_messages = namespace.compiler_options.get(
30 'generate_error_messages', False)
32 def Generate(self):
33 """Generates a Code object with the .cc for a single namespace.
34 """
35 cpp_namespace = cpp_util.GetCppNamespace(
36 self._namespace.environment.namespace_pattern,
37 self._namespace.unix_name)
39 c = Code()
40 (c.Append(cpp_util.CHROMIUM_LICENSE)
41 .Append()
42 .Append(cpp_util.GENERATED_FILE_MESSAGE % self._namespace.source_file)
43 .Append()
44 .Append(self._util_cc_helper.GetIncludePath())
45 .Append('#include "base/logging.h"')
46 .Append('#include "base/stl_util.h"')
47 .Append('#include "base/strings/string_number_conversions.h"')
48 .Append('#include "base/strings/utf_string_conversions.h"')
49 .Append('#include "%s/%s.h"' %
50 (self._namespace.source_file_dir, self._namespace.short_filename))
51 .Append('#include <set>')
52 .Cblock(self._type_helper.GenerateIncludes(include_soft=True))
53 .Append()
54 .Append('using base::UTF8ToUTF16;')
55 .Append()
56 .Concat(cpp_util.OpenNamespace(cpp_namespace))
58 if self._namespace.properties:
59 (c.Append('//')
60 .Append('// Properties')
61 .Append('//')
62 .Append()
64 for prop in self._namespace.properties.values():
65 property_code = self._type_helper.GeneratePropertyValues(
66 prop,
67 'const %(type)s %(name)s = %(value)s;',
68 nodoc=True)
69 if property_code:
70 c.Cblock(property_code)
71 if self._namespace.types:
72 (c.Append('//')
73 .Append('// Types')
74 .Append('//')
75 .Append()
76 .Cblock(self._GenerateTypes(None, self._namespace.types.values()))
78 if self._namespace.functions:
79 (c.Append('//')
80 .Append('// Functions')
81 .Append('//')
82 .Append()
84 for function in self._namespace.functions.values():
85 c.Cblock(self._GenerateFunction(function))
86 if self._namespace.events:
87 (c.Append('//')
88 .Append('// Events')
89 .Append('//')
90 .Append()
92 for event in self._namespace.events.values():
93 c.Cblock(self._GenerateEvent(event))
94 c.Cblock(cpp_util.CloseNamespace(cpp_namespace))
95 c.Append()
96 return c
98 def _GenerateType(self, cpp_namespace, type_):
99 """Generates the function definitions for a type.
101 classname = cpp_util.Classname(schema_util.StripNamespace(type_.name))
102 c = Code()
104 if type_.functions:
105 # Wrap functions within types in the type's namespace.
106 (c.Append('namespace %s {' % classname)
107 .Append())
108 for function in type_.functions.values():
109 c.Cblock(self._GenerateFunction(function))
110 c.Append('} // namespace %s' % classname)
111 elif type_.property_type == PropertyType.ARRAY:
112 c.Cblock(self._GenerateType(cpp_namespace, type_.item_type))
113 elif type_.property_type in (PropertyType.CHOICES,
114 PropertyType.OBJECT):
115 if cpp_namespace is None:
116 classname_in_namespace = classname
117 else:
118 classname_in_namespace = '%s::%s' % (cpp_namespace, classname)
120 if type_.property_type == PropertyType.OBJECT:
121 c.Cblock(self._GeneratePropertyFunctions(classname_in_namespace,
122 type_.properties.values()))
123 else:
124 c.Cblock(self._GenerateTypes(classname_in_namespace, type_.choices))
126 (c.Append('%s::%s()' % (classname_in_namespace, classname))
127 .Cblock(self._GenerateInitializersAndBody(type_))
128 .Append('%s::~%s() {}' % (classname_in_namespace, classname))
129 .Append()
131 if type_.origin.from_json:
132 c.Cblock(self._GenerateTypePopulate(classname_in_namespace, type_))
133 if cpp_namespace is None: # only generate for top-level types
134 c.Cblock(self._GenerateTypeFromValue(classname_in_namespace, type_))
135 if type_.origin.from_client:
136 c.Cblock(self._GenerateTypeToValue(classname_in_namespace, type_))
137 elif type_.property_type == PropertyType.ENUM:
138 (c.Cblock(self._GenerateEnumToString(cpp_namespace, type_))
139 .Cblock(self._GenerateEnumFromString(cpp_namespace, type_))
142 return c
144 def _GenerateInitializersAndBody(self, type_):
145 items = []
146 for prop in type_.properties.values():
147 t = prop.type_
149 real_t = self._type_helper.FollowRef(t)
150 if real_t.property_type == PropertyType.ENUM:
151 namespace_prefix = ('%s::' % real_t.namespace.unix_name
152 if real_t.namespace != self._namespace
153 else '')
154 items.append('%s(%s%s)' % (prop.unix_name,
155 namespace_prefix,
156 self._type_helper.GetEnumNoneValue(t)))
157 elif prop.optional:
158 continue
159 elif t.property_type == PropertyType.INTEGER:
160 items.append('%s(0)' % prop.unix_name)
161 elif t.property_type == PropertyType.DOUBLE:
162 items.append('%s(0.0)' % prop.unix_name)
163 elif t.property_type == PropertyType.BOOLEAN:
164 items.append('%s(false)' % prop.unix_name)
165 elif (t.property_type == PropertyType.ANY or
166 t.property_type == PropertyType.ARRAY or
167 t.property_type == PropertyType.BINARY or
168 t.property_type == PropertyType.CHOICES or
169 t.property_type == PropertyType.OBJECT or
170 t.property_type == PropertyType.FUNCTION or
171 t.property_type == PropertyType.REF or
172 t.property_type == PropertyType.STRING):
173 # TODO(miket): It would be nice to initialize CHOICES, but we
174 # don't presently have the semantics to indicate which one of a set
175 # should be the default.
176 continue
177 else:
178 raise TypeError(t)
180 if items:
181 s = ': %s' % (', '.join(items))
182 else:
183 s = ''
184 s = s + ' {}'
185 return Code().Append(s)
187 def _GenerateTypePopulate(self, cpp_namespace, type_):
188 """Generates the function for populating a type given a pointer to it.
190 E.g for type "Foo", generates Foo::Populate()
192 classname = cpp_util.Classname(schema_util.StripNamespace(type_.name))
193 c = Code()
194 (c.Append('// static')
195 .Append('bool %(namespace)s::Populate(')
196 .Sblock(' %s) {' % self._GenerateParams(
197 ('const base::Value& value', '%(name)s* out'))))
199 if self._generate_error_messages:
200 c.Append('DCHECK(error);')
202 if type_.property_type == PropertyType.CHOICES:
203 for choice in type_.choices:
204 (c.Sblock('if (%s) {' % self._GenerateValueIsTypeExpression('value',
205 choice))
206 .Concat(self._GeneratePopulateVariableFromValue(
207 choice,
208 '(&value)',
209 'out->as_%s' % choice.unix_name,
210 'false',
211 is_ptr=True))
212 .Append('return true;')
213 .Eblock('}')
215 (c.Concat(self._GenerateError(
216 '"expected %s, got " + %s' %
217 (" or ".join(choice.name for choice in type_.choices),
218 self._util_cc_helper.GetValueTypeString('value'))))
219 .Append('return false;'))
220 elif type_.property_type == PropertyType.OBJECT:
221 (c.Sblock('if (!value.IsType(base::Value::TYPE_DICTIONARY)) {')
222 .Concat(self._GenerateError(
223 '"expected dictionary, got " + ' +
224 self._util_cc_helper.GetValueTypeString('value')))
225 .Append('return false;')
226 .Eblock('}'))
228 if type_.properties or type_.additional_properties is not None:
229 c.Append('const base::DictionaryValue* dict = '
230 'static_cast<const base::DictionaryValue*>(&value);')
231 if self._generate_error_messages:
232 c.Append('std::set<std::string> keys;')
233 for prop in type_.properties.itervalues():
234 c.Concat(self._InitializePropertyToDefault(prop, 'out'))
235 for prop in type_.properties.itervalues():
236 if self._generate_error_messages:
237 c.Append('keys.insert("%s");' % (prop.name))
238 c.Concat(self._GenerateTypePopulateProperty(prop, 'dict', 'out'))
239 # Check for extra values.
240 if self._generate_error_messages:
241 (c.Sblock('for (base::DictionaryValue::Iterator it(*dict); '
242 '!it.IsAtEnd(); it.Advance()) {')
243 .Sblock('if (!keys.count(it.key())) {')
244 .Concat(self._GenerateError('"found unexpected key \'" + '
245 'it.key() + "\'"'))
246 .Eblock('}')
247 .Eblock('}')
249 if type_.additional_properties is not None:
250 if type_.additional_properties.property_type == PropertyType.ANY:
251 c.Append('out->additional_properties.MergeDictionary(dict);')
252 else:
253 cpp_type = self._type_helper.GetCppType(type_.additional_properties,
254 is_in_container=True)
255 (c.Append('for (base::DictionaryValue::Iterator it(*dict);')
256 .Sblock(' !it.IsAtEnd(); it.Advance()) {')
257 .Append('%s tmp;' % cpp_type)
258 .Concat(self._GeneratePopulateVariableFromValue(
259 type_.additional_properties,
260 '(&it.value())',
261 'tmp',
262 'false'))
263 .Append('out->additional_properties[it.key()] = tmp;')
264 .Eblock('}')
266 c.Append('return true;')
267 (c.Eblock('}')
268 .Substitute({'namespace': cpp_namespace, 'name': classname}))
269 return c
271 def _GenerateValueIsTypeExpression(self, var, type_):
272 real_type = self._type_helper.FollowRef(type_)
273 if real_type.property_type is PropertyType.CHOICES:
274 return '(%s)' % ' || '.join(self._GenerateValueIsTypeExpression(var,
275 choice)
276 for choice in real_type.choices)
277 return '%s.IsType(%s)' % (var, cpp_util.GetValueType(real_type))
279 def _GenerateTypePopulateProperty(self, prop, src, dst):
280 """Generate the code to populate a single property in a type.
282 src: base::DictionaryValue*
283 dst: Type*
285 c = Code()
286 value_var = prop.unix_name + '_value'
287 c.Append('const base::Value* %(value_var)s = NULL;')
288 if prop.optional:
289 (c.Sblock(
290 'if (%(src)s->GetWithoutPathExpansion("%(key)s", &%(value_var)s)) {')
291 .Concat(self._GeneratePopulatePropertyFromValue(
292 prop, value_var, dst, 'false')))
293 underlying_type = self._type_helper.FollowRef(prop.type_)
294 if underlying_type.property_type == PropertyType.ENUM:
295 namespace_prefix = ('%s::' % underlying_type.namespace.unix_name
296 if underlying_type.namespace != self._namespace
297 else '')
298 (c.Append('} else {')
299 .Append('%%(dst)s->%%(name)s = %s%s;' %
300 (namespace_prefix,
301 self._type_helper.GetEnumNoneValue(prop.type_))))
302 c.Eblock('}')
303 else:
304 (c.Sblock(
305 'if (!%(src)s->GetWithoutPathExpansion("%(key)s", &%(value_var)s)) {')
306 .Concat(self._GenerateError('"\'%%(key)s\' is required"'))
307 .Append('return false;')
308 .Eblock('}')
309 .Concat(self._GeneratePopulatePropertyFromValue(
310 prop, value_var, dst, 'false'))
312 c.Append()
313 c.Substitute({
314 'value_var': value_var,
315 'key': prop.name,
316 'src': src,
317 'dst': dst,
318 'name': prop.unix_name
320 return c
322 def _GenerateTypeFromValue(self, cpp_namespace, type_):
323 classname = cpp_util.Classname(schema_util.StripNamespace(type_.name))
324 c = Code()
325 (c.Append('// static')
326 .Append('scoped_ptr<%s> %s::FromValue(%s) {' % (classname,
327 cpp_namespace, self._GenerateParams(('const base::Value& value',))))
329 if self._generate_error_messages:
330 c.Append('DCHECK(error);')
331 (c.Append(' scoped_ptr<%s> out(new %s());' % (classname, classname))
332 .Append(' if (!Populate(%s))' % self._GenerateArgs(
333 ('value', 'out.get()')))
334 .Append(' return scoped_ptr<%s>();' % classname)
335 .Append(' return out.Pass();')
336 .Append('}')
338 return c
340 def _GenerateTypeToValue(self, cpp_namespace, type_):
341 """Generates a function that serializes the type into a base::Value.
342 E.g. for type "Foo" generates Foo::ToValue()
344 if type_.property_type == PropertyType.OBJECT:
345 return self._GenerateObjectTypeToValue(cpp_namespace, type_)
346 elif type_.property_type == PropertyType.CHOICES:
347 return self._GenerateChoiceTypeToValue(cpp_namespace, type_)
348 else:
349 raise ValueError("Unsupported property type %s" % type_.type_)
351 def _GenerateObjectTypeToValue(self, cpp_namespace, type_):
352 """Generates a function that serializes an object-representing type
353 into a base::DictionaryValue.
355 c = Code()
356 (c.Sblock('scoped_ptr<base::DictionaryValue> %s::ToValue() const {' %
357 cpp_namespace)
358 .Append('scoped_ptr<base::DictionaryValue> value('
359 'new base::DictionaryValue());')
360 .Append()
363 for prop in type_.properties.values():
364 prop_var = 'this->%s' % prop.unix_name
365 if prop.optional:
366 underlying_type = self._type_helper.FollowRef(prop.type_)
367 if underlying_type.property_type == PropertyType.ENUM:
368 # Optional enum values are generated with a NONE enum value,
369 # potentially from another namespace.
370 maybe_namespace = ''
371 if underlying_type.namespace != self._namespace:
372 maybe_namespace = '%s::' % underlying_type.namespace.unix_name
373 c.Sblock('if (%s != %s%s) {' %
374 (prop_var,
375 maybe_namespace,
376 self._type_helper.GetEnumNoneValue(prop.type_)))
377 else:
378 c.Sblock('if (%s.get()) {' % prop_var)
380 # ANY is a base::Value which is abstract and cannot be a direct member, so
381 # it will always be a pointer.
382 is_ptr = prop.optional or prop.type_.property_type == PropertyType.ANY
383 c.Cblock(self._CreateValueFromType(
384 'value->SetWithoutPathExpansion("%s", %%s);' % prop.name,
385 prop.name,
386 prop.type_,
387 prop_var,
388 is_ptr=is_ptr))
390 if prop.optional:
391 c.Eblock('}')
393 if type_.additional_properties is not None:
394 if type_.additional_properties.property_type == PropertyType.ANY:
395 c.Append('value->MergeDictionary(&additional_properties);')
396 else:
397 # Non-copyable types will be wrapped in a linked_ptr for inclusion in
398 # maps, so we need to unwrap them.
399 needs_unwrap = (
400 not self._type_helper.IsCopyable(type_.additional_properties))
401 (c.Sblock('for (const auto& it : additional_properties) {')
402 .Cblock(self._CreateValueFromType(
403 'value->SetWithoutPathExpansion(it.first, %s);',
404 type_.additional_properties.name,
405 type_.additional_properties,
406 '%sit.second' % ('*' if needs_unwrap else '')))
407 .Eblock('}')
410 return (c.Append()
411 .Append('return value.Pass();')
412 .Eblock('}'))
414 def _GenerateChoiceTypeToValue(self, cpp_namespace, type_):
415 """Generates a function that serializes a choice-representing type
416 into a base::Value.
418 c = Code()
419 c.Sblock('scoped_ptr<base::Value> %s::ToValue() const {' % cpp_namespace)
420 c.Append('scoped_ptr<base::Value> result;')
421 for choice in type_.choices:
422 choice_var = 'as_%s' % choice.unix_name
423 # Enums cannot be wrapped with scoped_ptr, but the XXX_NONE enum value
424 # is equal to 0.
425 (c.Sblock('if (%s) {' % choice_var)
426 .Append('DCHECK(!result) << "Cannot set multiple choices for %s";' %
427 type_.unix_name)
428 .Cblock(self._CreateValueFromType('result.reset(%s);',
429 choice.name,
430 choice,
431 choice_var,
432 True))
433 .Eblock('}')
435 (c.Append('DCHECK(result) << "Must set at least one choice for %s";' %
436 type_.unix_name)
437 .Append('return result.Pass();')
438 .Eblock('}')
440 return c
442 def _GenerateFunction(self, function):
443 """Generates the definitions for function structs.
445 c = Code()
447 # TODO(kalman): use function.unix_name not Classname.
448 function_namespace = cpp_util.Classname(function.name)
449 # Windows has a #define for SendMessage, so to avoid any issues, we need
450 # to not use the name.
451 if function_namespace == 'SendMessage':
452 function_namespace = 'PassMessage'
453 (c.Append('namespace %s {' % function_namespace)
454 .Append()
457 # Params::Populate function
458 if function.params:
459 c.Concat(self._GeneratePropertyFunctions('Params', function.params))
460 (c.Append('Params::Params() {}')
461 .Append('Params::~Params() {}')
462 .Append()
463 .Cblock(self._GenerateFunctionParamsCreate(function))
466 # Results::Create function
467 if function.callback:
468 c.Concat(self._GenerateCreateCallbackArguments('Results',
469 function.callback))
471 c.Append('} // namespace %s' % function_namespace)
472 return c
474 def _GenerateEvent(self, event):
475 # TODO(kalman): use event.unix_name not Classname.
476 c = Code()
477 event_namespace = cpp_util.Classname(event.name)
478 (c.Append('namespace %s {' % event_namespace)
479 .Append()
480 .Cblock(self._GenerateEventNameConstant(event))
481 .Cblock(self._GenerateCreateCallbackArguments(None, event))
482 .Append('} // namespace %s' % event_namespace)
484 return c
486 def _CreateValueFromType(self, code, prop_name, type_, var, is_ptr=False):
487 """Creates a base::Value given a type. Generated code passes ownership
488 to caller.
490 var: variable or variable*
492 E.g for std::string, generate new base::StringValue(var)
494 c = Code()
495 underlying_type = self._type_helper.FollowRef(type_)
496 if underlying_type.property_type == PropertyType.ARRAY:
497 # Enums are treated specially because C++ templating thinks that they're
498 # ints, but really they're strings. So we create a vector of strings and
499 # populate it with the names of the enum in the array. The |ToString|
500 # function of the enum can be in another namespace when the enum is
501 # referenced. Templates can not be used here because C++ templating does
502 # not support passing a namespace as an argument.
503 item_type = self._type_helper.FollowRef(underlying_type.item_type)
504 if item_type.property_type == PropertyType.ENUM:
505 varname = ('*' if is_ptr else '') + '(%s)' % var
507 maybe_namespace = ''
508 if type_.item_type.property_type == PropertyType.REF:
509 maybe_namespace = '%s::' % item_type.namespace.unix_name
511 enum_list_var = '%s_list' % prop_name
512 # Scope the std::vector variable declaration inside braces.
513 (c.Sblock('{')
514 .Append('std::vector<std::string> %s;' % enum_list_var)
515 .Append('for (const auto& it : %s) {' % varname)
516 .Append('%s.push_back(%sToString(it));' % (enum_list_var,
517 maybe_namespace))
518 .Eblock('}'))
520 # Because the std::vector above is always created for both required and
521 # optional enum arrays, |is_ptr| is set to false and uses the
522 # std::vector to create the values.
523 (c.Append(code %
524 self._GenerateCreateValueFromType(type_, enum_list_var, False))
525 .Append('}'))
526 return c
528 c.Append(code % self._GenerateCreateValueFromType(type_, var, is_ptr))
529 return c
531 def _GenerateCreateValueFromType(self, type_, var, is_ptr):
532 """Generates the statement to create a base::Value given a type.
534 type_: The type of the values being converted.
535 var: The name of the variable.
536 is_ptr: Whether |type_| is optional.
538 underlying_type = self._type_helper.FollowRef(type_)
539 if (underlying_type.property_type == PropertyType.CHOICES or
540 underlying_type.property_type == PropertyType.OBJECT):
541 if is_ptr:
542 return '(%s)->ToValue().release()' % var
543 else:
544 return '(%s).ToValue().release()' % var
545 elif (underlying_type.property_type == PropertyType.ANY or
546 underlying_type.property_type == PropertyType.FUNCTION):
547 if is_ptr:
548 vardot = '(%s)->' % var
549 else:
550 vardot = '(%s).' % var
551 return '%sDeepCopy()' % vardot
552 elif underlying_type.property_type == PropertyType.ENUM:
553 maybe_namespace = ''
554 if type_.property_type == PropertyType.REF:
555 maybe_namespace = '%s::' % underlying_type.namespace.unix_name
556 return 'new base::StringValue(%sToString(%s))' % (maybe_namespace, var)
557 elif underlying_type.property_type == PropertyType.BINARY:
558 if is_ptr:
559 vardot = var + '->'
560 ref = var + '.get()'
561 else:
562 vardot = var + '.'
563 ref = '&' + var
564 return ('base::BinaryValue::CreateWithCopiedBuffer(vector_as_array(%s),'
565 ' %ssize())' % (ref, vardot))
566 elif underlying_type.property_type == PropertyType.ARRAY:
567 return '%s.release()' % self._util_cc_helper.CreateValueFromArray(
568 var,
569 is_ptr)
570 elif underlying_type.property_type.is_fundamental:
571 if is_ptr:
572 var = '*%s' % var
573 if underlying_type.property_type == PropertyType.STRING:
574 return 'new base::StringValue(%s)' % var
575 else:
576 return 'new base::FundamentalValue(%s)' % var
577 else:
578 raise NotImplementedError('Conversion of %s to base::Value not '
579 'implemented' % repr(type_.type_))
581 def _GenerateParamsCheck(self, function, var):
582 """Generates a check for the correct number of arguments when creating
583 Params.
585 c = Code()
586 num_required = 0
587 for param in function.params:
588 if not param.optional:
589 num_required += 1
590 if num_required == len(function.params):
591 c.Sblock('if (%(var)s.GetSize() != %(total)d) {')
592 elif not num_required:
593 c.Sblock('if (%(var)s.GetSize() > %(total)d) {')
594 else:
595 c.Sblock('if (%(var)s.GetSize() < %(required)d'
596 ' || %(var)s.GetSize() > %(total)d) {')
597 (c.Concat(self._GenerateError(
598 '"expected %%(total)d arguments, got " '
599 '+ base::IntToString(%%(var)s.GetSize())'))
600 .Append('return scoped_ptr<Params>();')
601 .Eblock('}')
602 .Substitute({
603 'var': var,
604 'required': num_required,
605 'total': len(function.params),
607 return c
609 def _GenerateFunctionParamsCreate(self, function):
610 """Generate function to create an instance of Params. The generated
611 function takes a base::ListValue of arguments.
613 E.g for function "Bar", generate Bar::Params::Create()
615 c = Code()
616 (c.Append('// static')
617 .Sblock('scoped_ptr<Params> Params::Create(%s) {' % self._GenerateParams(
618 ['const base::ListValue& args']))
620 if self._generate_error_messages:
621 c.Append('DCHECK(error);')
622 (c.Concat(self._GenerateParamsCheck(function, 'args'))
623 .Append('scoped_ptr<Params> params(new Params());')
626 for param in function.params:
627 c.Concat(self._InitializePropertyToDefault(param, 'params'))
629 for i, param in enumerate(function.params):
630 # Any failure will cause this function to return. If any argument is
631 # incorrect or missing, those following it are not processed. Note that
632 # for optional arguments, we allow missing arguments and proceed because
633 # there may be other arguments following it.
634 failure_value = 'scoped_ptr<Params>()'
635 c.Append()
636 value_var = param.unix_name + '_value'
637 (c.Append('const base::Value* %(value_var)s = NULL;')
638 .Append('if (args.Get(%(i)s, &%(value_var)s) &&')
639 .Sblock(' !%(value_var)s->IsType(base::Value::TYPE_NULL)) {')
640 .Concat(self._GeneratePopulatePropertyFromValue(
641 param, value_var, 'params', failure_value))
642 .Eblock('}')
644 if not param.optional:
645 (c.Sblock('else {')
646 .Concat(self._GenerateError('"\'%%(key)s\' is required"'))
647 .Append('return %s;' % failure_value)
648 .Eblock('}'))
649 c.Substitute({'value_var': value_var, 'i': i, 'key': param.name})
650 (c.Append()
651 .Append('return params.Pass();')
652 .Eblock('}')
653 .Append()
656 return c
658 def _GeneratePopulatePropertyFromValue(self,
659 prop,
660 src_var,
661 dst_class_var,
662 failure_value):
663 """Generates code to populate property |prop| of |dst_class_var| (a
664 pointer) from a Value*. See |_GeneratePopulateVariableFromValue| for
665 semantics.
667 return self._GeneratePopulateVariableFromValue(prop.type_,
668 src_var,
669 '%s->%s' % (dst_class_var,
670 prop.unix_name),
671 failure_value,
672 is_ptr=prop.optional)
674 def _GeneratePopulateVariableFromValue(self,
675 type_,
676 src_var,
677 dst_var,
678 failure_value,
679 is_ptr=False):
680 """Generates code to populate a variable |dst_var| of type |type_| from a
681 Value* at |src_var|. The Value* is assumed to be non-NULL. In the generated
682 code, if |dst_var| fails to be populated then Populate will return
683 |failure_value|.
685 c = Code()
687 underlying_type = self._type_helper.FollowRef(type_)
689 if underlying_type.property_type.is_fundamental:
690 if is_ptr:
691 (c.Append('%(cpp_type)s temp;')
692 .Sblock('if (!%s) {' % cpp_util.GetAsFundamentalValue(
693 self._type_helper.FollowRef(type_), src_var, '&temp'))
694 .Concat(self._GenerateError(
695 '"\'%%(key)s\': expected ' + '%s, got " + %s' % (
696 type_.name,
697 self._util_cc_helper.GetValueTypeString(
698 '%%(src_var)s', True)))))
699 c.Append('%(dst_var)s.reset();')
700 if not self._generate_error_messages:
701 c.Append('return %(failure_value)s;')
702 (c.Eblock('}')
703 .Append('else')
704 .Append(' %(dst_var)s.reset(new %(cpp_type)s(temp));')
706 else:
707 (c.Sblock('if (!%s) {' % cpp_util.GetAsFundamentalValue(
708 self._type_helper.FollowRef(type_),
709 src_var,
710 '&%s' % dst_var))
711 .Concat(self._GenerateError(
712 '"\'%%(key)s\': expected ' + '%s, got " + %s' % (
713 type_.name,
714 self._util_cc_helper.GetValueTypeString(
715 '%%(src_var)s', True))))
716 .Append('return %(failure_value)s;')
717 .Eblock('}')
719 elif underlying_type.property_type == PropertyType.OBJECT:
720 if is_ptr:
721 (c.Append('const base::DictionaryValue* dictionary = NULL;')
722 .Sblock('if (!%(src_var)s->GetAsDictionary(&dictionary)) {')
723 .Concat(self._GenerateError(
724 '"\'%%(key)s\': expected dictionary, got " + ' +
725 self._util_cc_helper.GetValueTypeString('%%(src_var)s', True))))
726 # If an optional property fails to populate, the population can still
727 # succeed with a warning. If no error messages are generated, this
728 # warning is not set and we fail out instead.
729 if not self._generate_error_messages:
730 c.Append('return %(failure_value)s;')
731 (c.Eblock('}')
732 .Sblock('else {')
733 .Append('scoped_ptr<%(cpp_type)s> temp(new %(cpp_type)s());')
734 .Append('if (!%%(cpp_type)s::Populate(%s)) {' % self._GenerateArgs(
735 ('*dictionary', 'temp.get()')))
736 .Append(' return %(failure_value)s;')
738 (c.Append('}')
739 .Append('else')
740 .Append(' %(dst_var)s = temp.Pass();')
741 .Eblock('}')
743 else:
744 (c.Append('const base::DictionaryValue* dictionary = NULL;')
745 .Sblock('if (!%(src_var)s->GetAsDictionary(&dictionary)) {')
746 .Concat(self._GenerateError(
747 '"\'%%(key)s\': expected dictionary, got " + ' +
748 self._util_cc_helper.GetValueTypeString('%%(src_var)s', True)))
749 .Append('return %(failure_value)s;')
750 .Eblock('}')
751 .Append('if (!%%(cpp_type)s::Populate(%s)) {' % self._GenerateArgs(
752 ('*dictionary', '&%(dst_var)s')))
753 .Append(' return %(failure_value)s;')
754 .Append('}')
756 elif underlying_type.property_type == PropertyType.FUNCTION:
757 if is_ptr:
758 c.Append('%(dst_var)s.reset(new base::DictionaryValue());')
759 elif underlying_type.property_type == PropertyType.ANY:
760 c.Append('%(dst_var)s.reset(%(src_var)s->DeepCopy());')
761 elif underlying_type.property_type == PropertyType.ARRAY:
762 # util_cc_helper deals with optional and required arrays
763 (c.Append('const base::ListValue* list = NULL;')
764 .Sblock('if (!%(src_var)s->GetAsList(&list)) {')
765 .Concat(self._GenerateError(
766 '"\'%%(key)s\': expected list, got " + ' +
767 self._util_cc_helper.GetValueTypeString('%%(src_var)s', True)))
769 if is_ptr and self._generate_error_messages:
770 c.Append('%(dst_var)s.reset();')
771 else:
772 c.Append('return %(failure_value)s;')
773 c.Eblock('}')
774 c.Sblock('else {')
775 item_type = self._type_helper.FollowRef(underlying_type.item_type)
776 if item_type.property_type == PropertyType.ENUM:
777 c.Concat(self._GenerateListValueToEnumArrayConversion(
778 item_type,
779 'list',
780 dst_var,
781 failure_value,
782 is_ptr=is_ptr))
783 else:
784 c.Sblock('if (!%s(%s)) {' % (
785 self._util_cc_helper.PopulateArrayFromListFunction(is_ptr),
786 self._GenerateArgs(('*list', '&%(dst_var)s'))))
787 c.Concat(self._GenerateError(
788 '"unable to populate array \'%%(parent_key)s\'"'))
789 if is_ptr and self._generate_error_messages:
790 c.Append('%(dst_var)s.reset();')
791 else:
792 c.Append('return %(failure_value)s;')
793 c.Eblock('}')
794 c.Eblock('}')
795 elif underlying_type.property_type == PropertyType.CHOICES:
796 if is_ptr:
797 (c.Append('scoped_ptr<%(cpp_type)s> temp(new %(cpp_type)s());')
798 .Append('if (!%%(cpp_type)s::Populate(%s))' % self._GenerateArgs(
799 ('*%(src_var)s', 'temp.get()')))
800 .Append(' return %(failure_value)s;')
801 .Append('%(dst_var)s = temp.Pass();')
803 else:
804 (c.Append('if (!%%(cpp_type)s::Populate(%s))' % self._GenerateArgs(
805 ('*%(src_var)s', '&%(dst_var)s')))
806 .Append(' return %(failure_value)s;'))
807 elif underlying_type.property_type == PropertyType.ENUM:
808 c.Concat(self._GenerateStringToEnumConversion(underlying_type,
809 src_var,
810 dst_var,
811 failure_value))
812 elif underlying_type.property_type == PropertyType.BINARY:
813 (c.Append('const base::BinaryValue* binary_value = NULL;')
814 .Sblock('if (!%(src_var)s->IsType(base::Value::TYPE_BINARY)) {')
815 .Concat(self._GenerateError(
816 '"\'%%(key)s\': expected binary, got " + ' +
817 self._util_cc_helper.GetValueTypeString('%%(src_var)s', True)))
819 if not self._generate_error_messages:
820 c.Append('return %(failure_value)s;')
821 (c.Eblock('}')
822 .Sblock('else {')
823 .Append(' binary_value =')
824 .Append(' static_cast<const base::BinaryValue*>(%(src_var)s);')
826 if is_ptr:
827 (c.Append('%(dst_var)s.reset(new std::vector<char>(')
828 .Append(' binary_value->GetBuffer(),')
829 .Append(' binary_value->GetBuffer() + binary_value->GetSize()));')
831 else:
832 (c.Append('%(dst_var)s.assign(')
833 .Append(' binary_value->GetBuffer(),')
834 .Append(' binary_value->GetBuffer() + binary_value->GetSize());')
836 c.Eblock('}')
837 else:
838 raise NotImplementedError(type_)
839 if c.IsEmpty():
840 return c
841 return Code().Sblock('{').Concat(c.Substitute({
842 'cpp_type': self._type_helper.GetCppType(type_),
843 'src_var': src_var,
844 'dst_var': dst_var,
845 'failure_value': failure_value,
846 'key': type_.name,
847 'parent_key': type_.parent.name,
848 })).Eblock('}')
850 def _GenerateListValueToEnumArrayConversion(self,
851 item_type,
852 src_var,
853 dst_var,
854 failure_value,
855 is_ptr=False):
856 """Returns Code that converts a ListValue of string constants from
857 |src_var| into an array of enums of |type_| in |dst_var|. On failure,
858 returns |failure_value|.
860 c = Code()
861 accessor = '.'
862 if is_ptr:
863 accessor = '->'
864 cpp_type = self._type_helper.GetCppType(item_type, is_in_container=True)
865 c.Append('%s.reset(new std::vector<%s>);' %
866 (dst_var, cpp_util.PadForGenerics(cpp_type)))
867 (c.Sblock('for (const auto& it : *(%s)) {' % src_var)
868 .Append('%s tmp;' % self._type_helper.GetCppType(item_type))
869 .Concat(self._GenerateStringToEnumConversion(item_type,
870 '(it)',
871 'tmp',
872 failure_value))
873 .Append('%s%spush_back(tmp);' % (dst_var, accessor))
874 .Eblock('}')
876 return c
878 def _GenerateStringToEnumConversion(self,
879 type_,
880 src_var,
881 dst_var,
882 failure_value):
883 """Returns Code that converts a string type in |src_var| to an enum with
884 type |type_| in |dst_var|. In the generated code, if |src_var| is not
885 a valid enum name then the function will return |failure_value|.
887 if type_.property_type != PropertyType.ENUM:
888 raise TypeError(type_)
889 c = Code()
890 enum_as_string = '%s_as_string' % type_.unix_name
891 cpp_type_namespace = ''
892 if type_.namespace != self._namespace:
893 cpp_type_namespace = '%s::' % type_.namespace.unix_name
894 (c.Append('std::string %s;' % enum_as_string)
895 .Sblock('if (!%s->GetAsString(&%s)) {' % (src_var, enum_as_string))
896 .Concat(self._GenerateError(
897 '"\'%%(key)s\': expected string, got " + ' +
898 self._util_cc_helper.GetValueTypeString('%%(src_var)s', True)))
899 .Append('return %s;' % failure_value)
900 .Eblock('}')
901 .Append('%s = %sParse%s(%s);' % (dst_var,
902 cpp_type_namespace,
903 cpp_util.Classname(type_.name),
904 enum_as_string))
905 .Sblock('if (%s == %s%s) {' % (dst_var,
906 cpp_type_namespace,
907 self._type_helper.GetEnumNoneValue(type_)))
908 .Concat(self._GenerateError(
909 '\"\'%%(key)s\': expected \\"' +
910 '\\" or \\"'.join(
911 enum_value.name
912 for enum_value in self._type_helper.FollowRef(type_).enum_values) +
913 '\\", got \\"" + %s + "\\""' % enum_as_string))
914 .Append('return %s;' % failure_value)
915 .Eblock('}')
916 .Substitute({'src_var': src_var, 'key': type_.name})
918 return c
920 def _GeneratePropertyFunctions(self, namespace, params):
921 """Generates the member functions for a list of parameters.
923 return self._GenerateTypes(namespace, (param.type_ for param in params))
925 def _GenerateTypes(self, namespace, types):
926 """Generates the member functions for a list of types.
928 c = Code()
929 for type_ in types:
930 c.Cblock(self._GenerateType(namespace, type_))
931 return c
933 def _GenerateEnumToString(self, cpp_namespace, type_):
934 """Generates ToString() which gets the string representation of an enum.
936 c = Code()
937 classname = cpp_util.Classname(schema_util.StripNamespace(type_.name))
939 if cpp_namespace is not None:
940 c.Append('// static')
941 maybe_namespace = '' if cpp_namespace is None else '%s::' % cpp_namespace
943 c.Sblock('std::string %sToString(%s enum_param) {' %
944 (maybe_namespace, classname))
945 c.Sblock('switch (enum_param) {')
946 for enum_value in self._type_helper.FollowRef(type_).enum_values:
947 name = enum_value.name
948 if 'camel_case_enum_to_string' in self._namespace.compiler_options:
949 name = enum_value.CamelName()
950 (c.Append('case %s: ' % self._type_helper.GetEnumValue(type_, enum_value))
951 .Append(' return "%s";' % name))
952 (c.Append('case %s:' % self._type_helper.GetEnumNoneValue(type_))
953 .Append(' return "";')
954 .Eblock('}')
955 .Append('NOTREACHED();')
956 .Append('return "";')
957 .Eblock('}')
959 return c
961 def _GenerateEnumFromString(self, cpp_namespace, type_):
962 """Generates FromClassNameString() which gets an enum from its string
963 representation.
965 c = Code()
966 classname = cpp_util.Classname(schema_util.StripNamespace(type_.name))
968 if cpp_namespace is not None:
969 c.Append('// static')
970 maybe_namespace = '' if cpp_namespace is None else '%s::' % cpp_namespace
972 c.Sblock('%s%s %sParse%s(const std::string& enum_string) {' %
973 (maybe_namespace, classname, maybe_namespace, classname))
974 for _, enum_value in enumerate(
975 self._type_helper.FollowRef(type_).enum_values):
976 # This is broken up into all ifs with no else ifs because we get
977 # "fatal error C1061: compiler limit : blocks nested too deeply"
978 # on Windows.
979 name = enum_value.name
980 if 'camel_case_enum_to_string' in self._namespace.compiler_options:
981 name = enum_value.CamelName()
982 (c.Append('if (enum_string == "%s")' % name)
983 .Append(' return %s;' %
984 self._type_helper.GetEnumValue(type_, enum_value)))
985 (c.Append('return %s;' % self._type_helper.GetEnumNoneValue(type_))
986 .Eblock('}')
988 return c
990 def _GenerateCreateCallbackArguments(self,
991 function_scope,
992 callback):
993 """Generate all functions to create Value parameters for a callback.
995 E.g for function "Bar", generate Bar::Results::Create
996 E.g for event "Baz", generate Baz::Create
998 function_scope: the function scope path, e.g. Foo::Bar for the function
999 Foo::Bar::Baz(). May be None if there is no function scope.
1000 callback: the Function object we are creating callback arguments for.
1002 c = Code()
1003 params = callback.params
1004 c.Concat(self._GeneratePropertyFunctions(function_scope, params))
1006 (c.Sblock('scoped_ptr<base::ListValue> %(function_scope)s'
1007 'Create(%(declaration_list)s) {')
1008 .Append('scoped_ptr<base::ListValue> create_results('
1009 'new base::ListValue());')
1011 declaration_list = []
1012 for param in params:
1013 declaration_list.append(cpp_util.GetParameterDeclaration(
1014 param, self._type_helper.GetCppType(param.type_)))
1015 c.Cblock(self._CreateValueFromType('create_results->Append(%s);',
1016 param.name,
1017 param.type_,
1018 param.unix_name))
1019 c.Append('return create_results.Pass();')
1020 c.Eblock('}')
1021 c.Substitute({
1022 'function_scope': ('%s::' % function_scope) if function_scope else '',
1023 'declaration_list': ', '.join(declaration_list),
1024 'param_names': ', '.join(param.unix_name for param in params)
1026 return c
1028 def _GenerateEventNameConstant(self, event):
1029 """Generates a constant string array for the event name.
1031 c = Code()
1032 c.Append('const char kEventName[] = "%s.%s";' % (
1033 self._namespace.name, event.name))
1034 return c
1036 def _InitializePropertyToDefault(self, prop, dst):
1037 """Initialize a model.Property to its default value inside an object.
1039 E.g for optional enum "state", generate dst->state = STATE_NONE;
1041 dst: Type*
1043 c = Code()
1044 underlying_type = self._type_helper.FollowRef(prop.type_)
1045 if (underlying_type.property_type == PropertyType.ENUM and
1046 prop.optional):
1047 namespace_prefix = ('%s::' % underlying_type.namespace.unix_name
1048 if underlying_type.namespace != self._namespace
1049 else '')
1050 c.Append('%s->%s = %s%s;' % (
1051 dst,
1052 prop.unix_name,
1053 namespace_prefix,
1054 self._type_helper.GetEnumNoneValue(prop.type_)))
1055 return c
1057 def _GenerateError(self, body):
1058 """Generates an error message pertaining to population failure.
1060 E.g 'expected bool, got int'
1062 c = Code()
1063 if not self._generate_error_messages:
1064 return c
1065 (c.Append('if (error->length())')
1066 .Append(' error->append(UTF8ToUTF16("; "));')
1067 .Append('error->append(UTF8ToUTF16(%s));' % body))
1068 return c
1070 def _GenerateParams(self, params):
1071 """Builds the parameter list for a function, given an array of parameters.
1073 if self._generate_error_messages:
1074 params = list(params) + ['base::string16* error']
1075 return ', '.join(str(p) for p in params)
1077 def _GenerateArgs(self, args):
1078 """Builds the argument list for a function, given an array of arguments.
1080 if self._generate_error_messages:
1081 args = list(args) + ['error']
1082 return ', '.join(str(a) for a in args)