// 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. #ifndef BASE_JSON_JSON_VALUE_CONVERTER_H_ #define BASE_JSON_JSON_VALUE_CONVERTER_H_ #include <stddef.h> #include <string> #include <vector> #include "base/base_export.h" #include "base/logging.h" #include "base/macros.h" #include "base/memory/scoped_ptr.h" #include "base/memory/scoped_vector.h" #include "base/stl_util.h" #include "base/strings/string16.h" #include "base/strings/string_piece.h" #include "base/values.h" // JSONValueConverter converts a JSON value into a C++ struct in a // lightweight way. // // Usage: // For real examples, you may want to refer to _unittest.cc file. // // Assume that you have a struct like this: // struct Message { // int foo; // std::string bar; // static void RegisterJSONConverter( // JSONValueConverter<Message>* converter); // }; // // And you want to parse a json data into this struct. First, you // need to declare RegisterJSONConverter() method in your struct. // // static // void Message::RegisterJSONConverter( // JSONValueConverter<Message>* converter) { // converter->RegisterIntField("foo", &Message::foo); // converter->RegisterStringField("bar", &Message::bar); // } // // Then, you just instantiate your JSONValueConverter of your type and call // Convert() method. // Message message; // JSONValueConverter<Message> converter; // converter.Convert(json, &message); // // Convert() returns false when it fails. Here "fail" means that the value is // structurally different from expected, such like a string value appears // for an int field. Do not report failures for missing fields. // Also note that Convert() will modify the passed |message| even when it // fails for performance reason. // // For nested field, the internal message also has to implement the registration // method. Then, just use RegisterNestedField() from the containing struct's // RegisterJSONConverter method. // struct Nested { // Message foo; // static void RegisterJSONConverter(...) { // ... // converter->RegisterNestedField("foo", &Nested::foo); // } // }; // // For repeated field, we just assume ScopedVector for its container // and you can put RegisterRepeatedInt or some other types. Use // RegisterRepeatedMessage for nested repeated fields. // // Sometimes JSON format uses string representations for other types such // like enum, timestamp, or URL. You can use RegisterCustomField method // and specify a function to convert a StringPiece to your type. // bool ConvertFunc(const StringPiece& s, YourEnum* result) { // // do something and return true if succeed... // } // struct Message { // YourEnum ye; // ... // static void RegisterJSONConverter(...) { // ... // converter->RegsiterCustomField<YourEnum>( // "your_enum", &Message::ye, &ConvertFunc); // } // }; namespace base { template <typename StructType> class JSONValueConverter; namespace internal { template<typename StructType> class FieldConverterBase { public: explicit FieldConverterBase(const std::string& path) : field_path_(path) {} virtual ~FieldConverterBase() {} virtual bool ConvertField(const base::Value& value, StructType* obj) const = 0; const std::string& field_path() const { return field_path_; } private: std::string field_path_; DISALLOW_COPY_AND_ASSIGN(FieldConverterBase); }; template <typename FieldType> class ValueConverter { public: virtual ~ValueConverter() {} virtual bool Convert(const base::Value& value, FieldType* field) const = 0; }; template <typename StructType, typename FieldType> class FieldConverter : public FieldConverterBase<StructType> { public: explicit FieldConverter(const std::string& path, FieldType StructType::* field, ValueConverter<FieldType>* converter) : FieldConverterBase<StructType>(path), field_pointer_(field), value_converter_(converter) { } bool ConvertField(const base::Value& value, StructType* dst) const override { return value_converter_->Convert(value, &(dst->*field_pointer_)); } private: FieldType StructType::* field_pointer_; scoped_ptr<ValueConverter<FieldType> > value_converter_; DISALLOW_COPY_AND_ASSIGN(FieldConverter); }; template <typename FieldType> class BasicValueConverter; template <> class BASE_EXPORT BasicValueConverter<int> : public ValueConverter<int> { public: BasicValueConverter() {} bool Convert(const base::Value& value, int* field) const override; private: DISALLOW_COPY_AND_ASSIGN(BasicValueConverter); }; template <> class BASE_EXPORT BasicValueConverter<std::string> : public ValueConverter<std::string> { public: BasicValueConverter() {} bool Convert(const base::Value& value, std::string* field) const override; private: DISALLOW_COPY_AND_ASSIGN(BasicValueConverter); }; template <> class BASE_EXPORT BasicValueConverter<string16> : public ValueConverter<string16> { public: BasicValueConverter() {} bool Convert(const base::Value& value, string16* field) const override; private: DISALLOW_COPY_AND_ASSIGN(BasicValueConverter); }; template <> class BASE_EXPORT BasicValueConverter<double> : public ValueConverter<double> { public: BasicValueConverter() {} bool Convert(const base::Value& value, double* field) const override; private: DISALLOW_COPY_AND_ASSIGN(BasicValueConverter); }; template <> class BASE_EXPORT BasicValueConverter<bool> : public ValueConverter<bool> { public: BasicValueConverter() {} bool Convert(const base::Value& value, bool* field) const override; private: DISALLOW_COPY_AND_ASSIGN(BasicValueConverter); }; template <typename FieldType> class ValueFieldConverter : public ValueConverter<FieldType> { public: typedef bool(*ConvertFunc)(const base::Value* value, FieldType* field); ValueFieldConverter(ConvertFunc convert_func) : convert_func_(convert_func) {} bool Convert(const base::Value& value, FieldType* field) const override { return convert_func_(&value, field); } private: ConvertFunc convert_func_; DISALLOW_COPY_AND_ASSIGN(ValueFieldConverter); }; template <typename FieldType> class CustomFieldConverter : public ValueConverter<FieldType> { public: typedef bool(*ConvertFunc)(const StringPiece& value, FieldType* field); CustomFieldConverter(ConvertFunc convert_func) : convert_func_(convert_func) {} bool Convert(const base::Value& value, FieldType* field) const override { std::string string_value; return value.GetAsString(&string_value) && convert_func_(string_value, field); } private: ConvertFunc convert_func_; DISALLOW_COPY_AND_ASSIGN(CustomFieldConverter); }; template <typename NestedType> class NestedValueConverter : public ValueConverter<NestedType> { public: NestedValueConverter() {} bool Convert(const base::Value& value, NestedType* field) const override { return converter_.Convert(value, field); } private: JSONValueConverter<NestedType> converter_; DISALLOW_COPY_AND_ASSIGN(NestedValueConverter); }; template <typename Element> class RepeatedValueConverter : public ValueConverter<ScopedVector<Element> > { public: RepeatedValueConverter() {} bool Convert(const base::Value& value, ScopedVector<Element>* field) const override { const base::ListValue* list = NULL; if (!value.GetAsList(&list)) { // The field is not a list. return false; } field->reserve(list->GetSize()); for (size_t i = 0; i < list->GetSize(); ++i) { const base::Value* element = NULL; if (!list->Get(i, &element)) continue; scoped_ptr<Element> e(new Element); if (basic_converter_.Convert(*element, e.get())) { field->push_back(e.release()); } else { DVLOG(1) << "failure at " << i << "-th element"; return false; } } return true; } private: BasicValueConverter<Element> basic_converter_; DISALLOW_COPY_AND_ASSIGN(RepeatedValueConverter); }; template <typename NestedType> class RepeatedMessageConverter : public ValueConverter<ScopedVector<NestedType> > { public: RepeatedMessageConverter() {} bool Convert(const base::Value& value, ScopedVector<NestedType>* field) const override { const base::ListValue* list = NULL; if (!value.GetAsList(&list)) return false; field->reserve(list->GetSize()); for (size_t i = 0; i < list->GetSize(); ++i) { const base::Value* element = NULL; if (!list->Get(i, &element)) continue; scoped_ptr<NestedType> nested(new NestedType); if (converter_.Convert(*element, nested.get())) { field->push_back(nested.release()); } else { DVLOG(1) << "failure at " << i << "-th element"; return false; } } return true; } private: JSONValueConverter<NestedType> converter_; DISALLOW_COPY_AND_ASSIGN(RepeatedMessageConverter); }; template <typename NestedType> class RepeatedCustomValueConverter : public ValueConverter<ScopedVector<NestedType> > { public: typedef bool(*ConvertFunc)(const base::Value* value, NestedType* field); RepeatedCustomValueConverter(ConvertFunc convert_func) : convert_func_(convert_func) {} bool Convert(const base::Value& value, ScopedVector<NestedType>* field) const override { const base::ListValue* list = NULL; if (!value.GetAsList(&list)) return false; field->reserve(list->GetSize()); for (size_t i = 0; i < list->GetSize(); ++i) { const base::Value* element = NULL; if (!list->Get(i, &element)) continue; scoped_ptr<NestedType> nested(new NestedType); if ((*convert_func_)(element, nested.get())) { field->push_back(nested.release()); } else { DVLOG(1) << "failure at " << i << "-th element"; return false; } } return true; } private: ConvertFunc convert_func_; DISALLOW_COPY_AND_ASSIGN(RepeatedCustomValueConverter); }; } // namespace internal template <class StructType> class JSONValueConverter { public: JSONValueConverter() { StructType::RegisterJSONConverter(this); } void RegisterIntField(const std::string& field_name, int StructType::* field) { fields_.push_back(new internal::FieldConverter<StructType, int>( field_name, field, new internal::BasicValueConverter<int>)); } void RegisterStringField(const std::string& field_name, std::string StructType::* field) { fields_.push_back(new internal::FieldConverter<StructType, std::string>( field_name, field, new internal::BasicValueConverter<std::string>)); } void RegisterStringField(const std::string& field_name, string16 StructType::* field) { fields_.push_back(new internal::FieldConverter<StructType, string16>( field_name, field, new internal::BasicValueConverter<string16>)); } void RegisterBoolField(const std::string& field_name, bool StructType::* field) { fields_.push_back(new internal::FieldConverter<StructType, bool>( field_name, field, new internal::BasicValueConverter<bool>)); } void RegisterDoubleField(const std::string& field_name, double StructType::* field) { fields_.push_back(new internal::FieldConverter<StructType, double>( field_name, field, new internal::BasicValueConverter<double>)); } template <class NestedType> void RegisterNestedField( const std::string& field_name, NestedType StructType::* field) { fields_.push_back(new internal::FieldConverter<StructType, NestedType>( field_name, field, new internal::NestedValueConverter<NestedType>)); } template <typename FieldType> void RegisterCustomField( const std::string& field_name, FieldType StructType::* field, bool (*convert_func)(const StringPiece&, FieldType*)) { fields_.push_back(new internal::FieldConverter<StructType, FieldType>( field_name, field, new internal::CustomFieldConverter<FieldType>(convert_func))); } template <typename FieldType> void RegisterCustomValueField( const std::string& field_name, FieldType StructType::* field, bool (*convert_func)(const base::Value*, FieldType*)) { fields_.push_back(new internal::FieldConverter<StructType, FieldType>( field_name, field, new internal::ValueFieldConverter<FieldType>(convert_func))); } void RegisterRepeatedInt(const std::string& field_name, ScopedVector<int> StructType::* field) { fields_.push_back( new internal::FieldConverter<StructType, ScopedVector<int> >( field_name, field, new internal::RepeatedValueConverter<int>)); } void RegisterRepeatedString(const std::string& field_name, ScopedVector<std::string> StructType::* field) { fields_.push_back( new internal::FieldConverter<StructType, ScopedVector<std::string> >( field_name, field, new internal::RepeatedValueConverter<std::string>)); } void RegisterRepeatedString(const std::string& field_name, ScopedVector<string16> StructType::* field) { fields_.push_back( new internal::FieldConverter<StructType, ScopedVector<string16> >( field_name, field, new internal::RepeatedValueConverter<string16>)); } void RegisterRepeatedDouble(const std::string& field_name, ScopedVector<double> StructType::* field) { fields_.push_back( new internal::FieldConverter<StructType, ScopedVector<double> >( field_name, field, new internal::RepeatedValueConverter<double>)); } void RegisterRepeatedBool(const std::string& field_name, ScopedVector<bool> StructType::* field) { fields_.push_back( new internal::FieldConverter<StructType, ScopedVector<bool> >( field_name, field, new internal::RepeatedValueConverter<bool>)); } template <class NestedType> void RegisterRepeatedCustomValue( const std::string& field_name, ScopedVector<NestedType> StructType::* field, bool (*convert_func)(const base::Value*, NestedType*)) { fields_.push_back( new internal::FieldConverter<StructType, ScopedVector<NestedType> >( field_name, field, new internal::RepeatedCustomValueConverter<NestedType>( convert_func))); } template <class NestedType> void RegisterRepeatedMessage(const std::string& field_name, ScopedVector<NestedType> StructType::* field) { fields_.push_back( new internal::FieldConverter<StructType, ScopedVector<NestedType> >( field_name, field, new internal::RepeatedMessageConverter<NestedType>)); } bool Convert(const base::Value& value, StructType* output) const { const DictionaryValue* dictionary_value = NULL; if (!value.GetAsDictionary(&dictionary_value)) return false; for(size_t i = 0; i < fields_.size(); ++i) { const internal::FieldConverterBase<StructType>* field_converter = fields_[i]; const base::Value* field = NULL; if (dictionary_value->Get(field_converter->field_path(), &field)) { if (!field_converter->ConvertField(*field, output)) { DVLOG(1) << "failure at field " << field_converter->field_path(); return false; } } } return true; } private: ScopedVector<internal::FieldConverterBase<StructType> > fields_; DISALLOW_COPY_AND_ASSIGN(JSONValueConverter); }; } // namespace base #endif // BASE_JSON_JSON_VALUE_CONVERTER_H_