/* * Copyright (c) Meta Platforms, Inc. and affiliates. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include #include #include #include namespace apache { namespace thrift { namespace compiler { // static const std::string std::endl = "\n"; // avoid std::ostream << // std::endl flushes static const std::string kFieldPrefix = "__thrift_"; static const std::string kStructInheritanceRootObjectName = "TBaseStruct"; static const std::string kExceptionInheritanceRootObjectName = "TBaseException"; static const std::string kSetPostfix = "_set"; static const std::string kToStringPostfix = "ToString"; static const std::string kFromStringPostfix = "FromString"; /** * Objective-C code generator. */ class t_cocoa_generator : public t_concat_generator { public: using t_concat_generator::t_concat_generator; void process_options( const std::map& options) override { log_unexpected_ = options.find("log_unexpected") != options.end(); validate_required_ = options.find("validate_required") != options.end(); nullability_ = options.find("nullability") != options.end(); simple_value_equality_ = options.find("simple_value_equality") != options.end(); auto iter = options.find("import_path"); if (iter != options.end()) { import_path_ = iter->second; if (import_path_.at(import_path_.length() - 1) != '/') { import_path_ += '/'; } } out_dir_base_ = "gen-cocoa"; } /** * Init and close methods */ void init_generator() override; void close_generator() override; void generate_consts(std::vector consts) override; /** * Program-level generation functions */ void generate_typedef(const t_typedef* ttypedef) override; void generate_enum(const t_enum* tenum) override; void generate_enum_from_string_function(const t_enum* tenum); void generate_struct(const t_structured* tstruct) override; void generate_xception(const t_structured* txception) override; void generate_service(const t_service* tservice) override; void print_const_value( std::ofstream& out, const std::string& name, const t_type* type, const t_const_value* value, bool defval = false, bool is_property = false); std::string render_const_value( std::ofstream& out, const t_type* type, const t_const_value* value, bool containerize_it = false); void generate_cocoa_struct(const t_struct* tstruct, bool is_exception); void generate_cocoa_struct_interface( std::ofstream& out, const t_structured* tstruct, bool is_exception = false); void generate_cocoa_struct_implementation( std::ofstream& out, const t_structured* tstruct, bool is_exception = false, bool is_result = false); void generate_cocoa_struct_initializer_signature( std::ofstream& out, const t_structured* tstruct); void generate_cocoa_struct_init_with_coder_method( std::ofstream& out, const t_structured* tstruct, bool is_exception); void generate_cocoa_struct_encode_with_coder_method( std::ofstream& out, const t_structured* tstruct, bool is_exception); void generate_cocoa_struct_hash_method(std::ofstream& out); void generate_cocoa_struct_is_equal_method( std::ofstream& out, const t_structured* tstruct, bool is_exception); void generate_cocoa_struct_field_accessor_declarations( std::ofstream& out, const t_structured* tstruct, bool is_declare_getter, bool is_declare_setter, bool is_declare_isset_getter, bool is_exception); void generate_cocoa_struct_field_accessor_implementations( std::ofstream& out, const t_structured* tstruct, bool is_exception); void generate_cocoa_struct_reader( std::ofstream& out, const t_structured* tstruct); void generate_cocoa_struct_result_writer( std::ofstream& out, const t_structured* tstruct); void generate_cocoa_struct_writer( std::ofstream& out, const t_structured* tstruct); void generate_cocoa_struct_validator( std::ofstream& out, const t_structured* tstruct); void generate_cocoa_struct_description( std::ofstream& out, const t_structured* tstruct); void generate_cocoa_struct_toDict( std::ofstream& out, const t_structured* tstruct); void generate_cocoa_struct_makeImmutable( std::ofstream& out, const t_structured* tstruct); void generate_cocoa_struct_mutableCopyWithZone( std::ofstream& out, const t_structured* tstruct); std::string function_result_helper_struct_type(const t_function* tfunction); std::string function_args_helper_struct_type(const t_function* tfunction); void generate_function_helpers(const t_function* tfunction); /** * Service-level generation functions */ void generate_cocoa_service_protocol( std::ofstream& out, const t_service* tservice); void generate_cocoa_service_client_interface( std::ofstream& out, const t_service* tservice); void generate_cocoa_service_client_implementation( std::ofstream& out, const t_service* tservice); void generate_cocoa_service_server_interface( std::ofstream& out, const t_service* tservice); void generate_cocoa_service_server_implementation( std::ofstream& out, const t_service* tservice); void generate_cocoa_service_helpers(const t_service* tservice); void generate_service_client(const t_service* tservice); void generate_service_server(const t_service* tservice); void generate_process_function( const t_service* tservice, const t_function* tfunction); /** * Serialization constructs */ void generate_deserialize_field( std::ofstream& out, const t_field* tfield, const std::string& fieldName); void generate_deserialize_struct( std::ofstream& out, const t_type* tstruct, const std::string& fieldName); void generate_deserialize_container( std::ofstream& out, const t_type* ttype, const std::string& fieldName); void generate_deserialize_set_element( std::ofstream& out, const t_set* tset, const std::string& fieldName); void generate_deserialize_map_element( std::ofstream& out, const t_map* tmap, const std::string& fieldName); void generate_deserialize_list_element( std::ofstream& out, const t_list* tlist, const std::string& fieldName); void generate_serialize_field( std::ofstream& out, const t_field* tfield, const std::string& fieldName); void generate_serialize_struct( std::ofstream& out, const t_struct* tstruct, const std::string& fieldName); void generate_serialize_container( std::ofstream& out, const t_type* ttype, const std::string& fieldName); void generate_serialize_map_element( std::ofstream& out, const t_map* tmap, const std::string& iter, const std::string& map); void generate_serialize_set_element( std::ofstream& out, const t_set* tmap, const std::string& iter); void generate_serialize_list_element( std::ofstream& out, const t_list* tlist, const std::string& index, const std::string& listName); /** * Helper rendering functions */ std::string cocoa_prefix(); std::string cocoa_imports(); std::string cocoa_thrift_imports(); std::string custom_thrift_marker(); std::string type_name(const t_type* ttype, bool class_ref = false); std::string base_type_name(t_primitive_type* tbase); std::string declare_field(const t_field* tfield); std::string declare_property(const t_field* tfield); std::string function_signature(const t_function* tfunction); std::string argument_list(const t_paramlist& tparamlist); std::string type_to_enum(const t_type* ttype); std::string format_string_for_type(const t_type* type); std::string call_field_setter( const t_field* tfield, const std::string& fieldName); std::string containerize(const t_type* ttype, const std::string& fieldName); std::string decontainerize( const t_field* tfield, const std::string& fieldName); std::string get_cocoa_property_name(const t_field* tfield); bool type_can_be_null(const t_type* ttype) { ttype = ttype->get_true_type(); return ttype->is_container() || ttype->is_struct() || ttype->is_exception() || ttype->is_string_or_binary(); } private: std::string cocoa_prefix_; std::string constants_declarations_; /** * File streams */ std::ofstream f_header_; std::ofstream f_impl_; bool log_unexpected_; bool validate_required_; bool nullability_; bool simple_value_equality_; std::string import_path_; }; /** * Prepares for file generation by opening up the necessary file output * streams. */ void t_cocoa_generator::init_generator() { // Make output directory std::filesystem::create_directory(get_out_dir()); cocoa_prefix_ = program_->get_namespace("cocoa"); // we have a .h header file... std::string f_header_name = get_program()->name() + ".h"; std::string f_header_fullname = get_out_dir() + f_header_name; f_header_.open(f_header_fullname.c_str()); f_header_ << autogen_comment() << std::endl; f_header_ << custom_thrift_marker() << cocoa_imports() << cocoa_thrift_imports(); if (nullability_) { f_header_ << "NS_ASSUME_NONNULL_BEGIN\n\n"; } // ...and a .m implementation file std::string f_impl_name = get_out_dir() + get_program()->name() + ".m"; f_impl_.open(f_impl_name.c_str()); f_impl_ << autogen_comment() << std::endl; f_impl_ << custom_thrift_marker() << cocoa_imports() << cocoa_thrift_imports() << "#import \"" << f_header_name << "\"" << std::endl << std::endl; } /** * Prints standard Cocoa imports * * @return List of imports for Cocoa libraries */ std::string t_cocoa_generator::cocoa_imports() { return std::string() + "#import \n" + "\n"; } /** * Add a marker for this generator * */ std::string t_cocoa_generator::custom_thrift_marker() { return std::string("/**\n") + std::string( "* @" "generated by Thrift\n") + "*/\n\n"; } /** * Prints thrift runtime imports * * @return List of imports necessary for thrift runtime */ std::string t_cocoa_generator::cocoa_thrift_imports() { std::string systemImports[] = { "TProtocol", "TApplicationException", "TProtocolException", "TProtocolUtil", "TProcessor", "TObjective-C", "TBase", kStructInheritanceRootObjectName, kExceptionInheritanceRootObjectName, }; std::string result = ""; for (const auto& systemImport : systemImports) { if (import_path_ == "") { result += "#import \"" + systemImport + ".h\"\n"; } else { result += "#import <" + import_path_ + systemImport + ".h>\n"; } } // Include other Thrift includes const std::vector& includes = program_->get_includes_for_codegen(); for (size_t i = 0; i < includes.size(); ++i) { result += "#import \"" + includes[i]->name() + ".h\"" + "\n"; } result += "\n"; return result; } /** * Finish up generation. */ void t_cocoa_generator::close_generator() { // stick our constants declarations at the end of the header file // since they refer to things we are defining. f_header_ << constants_declarations_ << std::endl; if (nullability_) { f_header_ << std::endl << "NS_ASSUME_NONNULL_END\n" << std::endl; } } /** * Generates a typedef. This is just a simple 1-liner in objective-c * * @param ttypedef The type definition */ void t_cocoa_generator::generate_typedef(const t_typedef* ttypedef) { f_header_ << indent() << "typedef " << type_name(ttypedef->get_type()) << " " << cocoa_prefix_ << ttypedef->name() << ";" << std::endl << std::endl; } /** * Generates code for an enumerated type. In Objective-C, this is * essentially the same as the thrift definition itself, using the * enum keyword in Objective-C. For namespace purposes, the name of * the enum plus an underscore is prefixed onto each element. * * @param tenum The enumeration */ void t_cocoa_generator::generate_enum(const t_enum* tenum) { f_header_ << indent() << "typedef NS_ENUM(int, " << cocoa_prefix_ << tenum->name() << ") {" << std::endl; indent_up(); std::vector constants = tenum->get_enum_values(); std::vector::iterator c_iter; bool first = true; for (c_iter = constants.begin(); c_iter != constants.end(); ++c_iter) { if (first) { first = false; } else { f_header_ << "," << std::endl; } f_header_ << indent() << cocoa_prefix_ << tenum->name() << "_" << (*c_iter)->name(); f_header_ << " = " << (*c_iter)->get_value(); } indent_down(); f_header_ << std::endl << "};" << std::endl << std::endl; // toString const std::string toStringFunctionDeclaration = std::string("NSString* ") + cocoa_prefix_ + tenum->name() + kToStringPostfix + "(const " + cocoa_prefix_ + tenum->name() + " value)"; f_header_ << indent() << toStringFunctionDeclaration << ";" << std::endl << std::endl; // implementation: f_impl_ << indent() << toStringFunctionDeclaration << std::endl << "{" << std::endl; indent_up(); f_impl_ << indent() << "switch(value) {" << std::endl; indent_up(); for (c_iter = constants.begin(); c_iter != constants.end(); ++c_iter) { std::string itemName = cocoa_prefix_ + tenum->name() + "_" + (*c_iter)->name(); f_impl_ << indent() << "case " << itemName << ": return @\"" + itemName + "\";" << std::endl; } indent_down(); f_impl_ << indent() << "}" << std::endl; f_impl_ << indent() << "return [NSString stringWithFormat:@\"" << cocoa_prefix_ << tenum->name() << "_" << "%d\", (int)value];" << std::endl; indent_down(); f_impl_ << indent() << "}" << std::endl; f_impl_ << std::endl; // fromString if (tenum->has_annotation("cocoa.enum_conversion")) { generate_enum_from_string_function(tenum); } } void t_cocoa_generator::generate_enum_from_string_function( const t_enum* tenum) { const std::string fromStringFunctionDeclaration = cocoa_prefix_ + tenum->name() + " " + cocoa_prefix_ + tenum->name() + kFromStringPostfix + "(NSString *str, int fallbackValue)"; f_header_ << indent() << fromStringFunctionDeclaration << ";" << std::endl << std::endl; // implementation: f_impl_ << indent() << fromStringFunctionDeclaration << std::endl << "{" << std::endl; indent_up(); f_impl_ << indent() << "static NSDictionary *mapping = nil;" << std::endl; f_impl_ << indent() << "static dispatch_once_t onceToken;" << std::endl; f_impl_ << indent() << "dispatch_once(&onceToken, ^{" << std::endl; indent_up(); f_impl_ << indent() << "mapping = @{" << std::endl; indent_up(); for (auto constant = tenum->get_enum_values().begin(); constant != tenum->get_enum_values().end(); ++constant) { std::string namespacedConstantName = cocoa_prefix_ + tenum->name() + "_" + (*constant)->name(); f_impl_ << indent() << "@\"" << namespacedConstantName << "\": @(" << namespacedConstantName << ")," << std::endl; } indent_down(); f_impl_ << indent() << "};" << std::endl; indent_down(); f_impl_ << indent() << "});" << std::endl; f_impl_ << indent() << "return mapping[str] ? [mapping[str] intValue] : fallbackValue;" << std::endl; indent_down(); f_impl_ << indent() << "}" << std::endl; f_impl_ << std::endl; } /** * Generates a class that holds all the constants. Primitive values * could have been placed outside this class, but I just put * everything in for consistency. */ void t_cocoa_generator::generate_consts(std::vector consts) { // don't create constants class if no constants are present if (consts.empty()) { return; } std::ostringstream const_interface; std::string constants_class_name = cocoa_prefix_ + get_program()->name() + "Constants"; const_interface << "@interface " << constants_class_name << " : " << kStructInheritanceRootObjectName << " "; scope_up(const_interface); scope_down(const_interface); // getter method for each constant defined. for (const auto* tconst : consts) { std::string name = tconst->name(); const t_type* type = tconst->type(); const_interface << "+ (" << type_name(type) << ") " << name << ";" << std::endl; } const_interface << "@end"; // this gets spit into the header file in ::close_generator constants_declarations_ = const_interface.str(); // static variables in the .m hold all constant values for (const auto* tconst : consts) { std::string name = tconst->name(); const t_type* type = tconst->type(); f_impl_ << "static " << type_name(type) << " " << cocoa_prefix_ << name; if (!type->is_container() && !type->is_struct()) { f_impl_ << " = " << render_const_value(f_impl_, type, tconst->value()); } f_impl_ << ";" << std::endl; } f_impl_ << std::endl; f_impl_ << "@implementation " << constants_class_name << std::endl; // check if initialize method is needed to initialize complex constants // when the class is initialized bool should_have_initialize = std::any_of(consts.begin(), consts.end(), [](const t_const* c) { return c->type()->is_container() || c->type()->is_struct(); }); if (should_have_initialize) { f_impl_ << "+ (void) initialize "; scope_up(f_impl_); for (const auto* tconst : consts) { if (tconst->type()->is_container() || tconst->type()->is_struct()) { print_const_value( f_impl_, cocoa_prefix_ + tconst->name(), tconst->type(), tconst->value(), false, false); f_impl_ << ";" << std::endl; } } scope_down(f_impl_); } // getter method for each constant for (const auto* tconst : consts) { std::string name = tconst->name(); const t_type* type = tconst->type(); f_impl_ << "+ (" << type_name(type) << ") " << name; scope_up(f_impl_); indent(f_impl_) << "return " << cocoa_prefix_ << name << ";" << std::endl; scope_down(f_impl_); } f_impl_ << "@end" << std::endl << std::endl; } /** * Generates a struct definition for a thrift data type. This is a class * with protected data members, read(), write(), and getters and setters. * * @param tstruct The struct definition */ void t_cocoa_generator::generate_struct(const t_structured* tstruct) { generate_cocoa_struct_interface(f_header_, tstruct, false); generate_cocoa_struct_implementation(f_impl_, tstruct, false); } /** * Exceptions are structs, but they inherit from NSException * * @param tstruct The struct definition */ void t_cocoa_generator::generate_xception(const t_structured* txception) { generate_cocoa_struct_interface(f_header_, txception, true); generate_cocoa_struct_implementation(f_impl_, txception, true); } /** * Generate the interface for a struct * * @param tstruct The struct definition */ void t_cocoa_generator::generate_cocoa_struct_interface( std::ofstream& out, const t_structured* tstruct, bool is_exception) { out << "@interface " << cocoa_prefix_ << tstruct->name() << " : "; if (is_exception) { out << kExceptionInheritanceRootObjectName; } else { out << kStructInheritanceRootObjectName; } out << " "; scope_up(out); // members are protected. this is redundant, but explicit. // f_header_ << std::endl << "@protected:" << std::endl; // member variables for (const auto& field : tstruct->fields()) { out << indent() << declare_field(&field) << std::endl; } if (tstruct->has_fields()) { out << std::endl; // isset fields for (const auto& field : tstruct->fields()) { indent(out) << "BOOL " << kFieldPrefix << field.name() << kSetPostfix << ";" << std::endl; } } scope_down(out); out << std::endl; // properties if (tstruct->has_fields()) { // out << "#if TARGET_OS_IPHONE || (MAC_OS_X_VERSION_MAX_ALLOWED >= // MAC_OS_X_VERSION_10_5)" << std::endl; for (const auto& field : tstruct->fields()) { out << indent() << declare_property(&field) << std::endl; } // out << "#endif" << std::endl; out << std::endl; } // default initializer out << indent() << "- (id) init NS_DESIGNATED_INITIALIZER;" << std::endl; // although we conform to NSCoding, we need to declare -initWithCoder: // explicitly, because the implementation invokes super, and is thus // a designated initializer out << indent() << "- (id) initWithCoder:(NSCoder *)decoder NS_DESIGNATED_INITIALIZER;" << std::endl; // initializer for all fields if (tstruct->has_fields()) { generate_cocoa_struct_initializer_signature(out, tstruct); out << " NS_DESIGNATED_INITIALIZER;" << std::endl; } // read and write out << "- (void) read: (id ) inProtocol;" << std::endl; out << "- (void) write: (id ) outProtocol;" << std::endl; // validator out << "- (void) validate;" << std::endl; // toDict out << "- (NSDictionary *) toDict;" << std::endl << std::endl; // getters and setters generate_cocoa_struct_field_accessor_declarations( out, tstruct, false, false, true, is_exception); out << "@end" << std::endl << std::endl; } /** * Generate signature for initializer of struct with a parameter for * each field. */ void t_cocoa_generator::generate_cocoa_struct_initializer_signature( std::ofstream& out, const t_structured* tstruct) { indent(out) << "- (id) initWith"; bool first = true; for (const auto& field : tstruct->fields()) { if (first) { out << capitalize(field.name()); } else { out << " " << field.name(); } out << ": ("; if (nullability_ && type_can_be_null((field.get_type()))) { out << (field.get_req() == t_field::e_req::required ? "nonnull " : "nullable "); } out << type_name(field.get_type()) << ") " << field.name(); first = false; } } /** * Generate getter and setter declarations for all fields, plus an * IsSet getter. */ void t_cocoa_generator::generate_cocoa_struct_field_accessor_declarations( std::ofstream& out, const t_structured* tstruct, bool is_declare_getter, bool is_declare_setter, bool is_declare_isset_getter, bool is_exception) { (void)is_exception; for (const auto& field : tstruct->fields()) { // out << indent() << "#if !__has_feature(objc_arc)" << std::endl if (is_declare_getter) { out << indent() << "- (" << type_name(field.get_type()) << ") " << decapitalize(get_cocoa_property_name(&field)) << ";" << std::endl; } if (is_declare_setter) { out << indent() << "- (void) set" << capitalize(get_cocoa_property_name(&field)) << ": (" << type_name(field.get_type()) << ") " << field.name() << ";" << std::endl; } // out << indent() << "#endif" << std::endl; if (is_declare_isset_getter) { out << indent() << "- (BOOL) " << field.name() << "IsSet" << ";" << std::endl; } } } /** * Generate the initWithCoder method for this struct so it's compatible with * the NSCoding protocol */ void t_cocoa_generator::generate_cocoa_struct_init_with_coder_method( std::ofstream& out, const t_structured* tstruct, bool is_exception) { indent(out) << "- (id) initWithCoder: (NSCoder *) decoder" << std::endl; scope_up(out); if (is_exception) { // NSExceptions conform to NSCoding, so we can call super out << indent() << "self = [super initWithCoder: decoder];" << std::endl; } else { out << indent() << "self = [super init];" << std::endl; } for (const auto& field : tstruct->fields()) { const t_type* t = field.type()->get_true_type(); out << indent() << "if ([decoder containsValueForKey: @\"" << field.name() << "\"])" << std::endl; scope_up(out); out << indent() << kFieldPrefix << field.name() << " = "; if (type_can_be_null(t)) { out << "[[decoder decodeObjectForKey: @\"" << field.name() << "\"] retain_stub];" << std::endl; } else if (t->is_enum()) { out << "[decoder decodeIntForKey: @\"" << field.name() << "\"];" << std::endl; } else { t_primitive_type::t_primitive tbase = ((t_primitive_type*)t)->primitive_type(); switch (tbase) { case t_primitive_type::TYPE_BOOL: out << "[decoder decodeBoolForKey: @\"" << field.name() << "\"];" << std::endl; break; case t_primitive_type::TYPE_BYTE: out << "[decoder decodeIntForKey: @\"" << field.name() << "\"];" << std::endl; break; case t_primitive_type::TYPE_I16: out << "[decoder decodeIntForKey: @\"" << field.name() << "\"];" << std::endl; break; case t_primitive_type::TYPE_I32: out << "[decoder decodeInt32ForKey: @\"" << field.name() << "\"];" << std::endl; break; case t_primitive_type::TYPE_I64: out << "[decoder decodeInt64ForKey: @\"" << field.name() << "\"];" << std::endl; break; case t_primitive_type::TYPE_DOUBLE: out << "[decoder decodeDoubleForKey: @\"" << field.name() << "\"];" << std::endl; break; default: throw std::runtime_error( "compiler error: don't know how to decode thrift type: " + t_primitive_type::t_primitive_name(tbase)); } } out << indent() << kFieldPrefix << field.name() << kSetPostfix << " = YES;" << std::endl; scope_down(out); } out << indent() << "return self;" << std::endl; scope_down(out); out << std::endl; } /** * Generate the encodeWithCoder method for this struct so it's compatible with * the NSCoding protocol */ void t_cocoa_generator::generate_cocoa_struct_encode_with_coder_method( std::ofstream& out, const t_structured* tstruct, bool is_exception) { indent(out) << "- (void) encodeWithCoder: (NSCoder *) encoder" << std::endl; scope_up(out); if (is_exception) { // NSExceptions conform to NSCoding, so we can call super out << indent() << "[super encodeWithCoder: encoder];" << std::endl; } for (const auto& field : tstruct->fields()) { const t_type* t = field.type()->get_true_type(); out << indent() << "if (" << kFieldPrefix << field.name() << kSetPostfix << ")" << std::endl; scope_up(out); // out << indent() << kFieldPrefix << field.name() << " = "; if (type_can_be_null(t)) { out << indent() << "[encoder encodeObject: " << kFieldPrefix << field.name() << " forKey: @\"" << field.name() << "\"];" << std::endl; } else if (t->is_enum()) { out << indent() << "[encoder encodeInt: " << kFieldPrefix << field.name() << " forKey: @\"" << field.name() << "\"];" << std::endl; } else { t_primitive_type::t_primitive tbase = ((t_primitive_type*)t)->primitive_type(); switch (tbase) { case t_primitive_type::TYPE_BOOL: out << indent() << "[encoder encodeBool: " << kFieldPrefix << field.name() << " forKey: @\"" << field.name() << "\"];" << std::endl; break; case t_primitive_type::TYPE_BYTE: out << indent() << "[encoder encodeInt: " << kFieldPrefix << field.name() << " forKey: @\"" << field.name() << "\"];" << std::endl; break; case t_primitive_type::TYPE_I16: out << indent() << "[encoder encodeInt: " << kFieldPrefix << field.name() << " forKey: @\"" << field.name() << "\"];" << std::endl; break; case t_primitive_type::TYPE_I32: out << indent() << "[encoder encodeInt32: " << kFieldPrefix << field.name() << " forKey: @\"" << field.name() << "\"];" << std::endl; break; case t_primitive_type::TYPE_I64: out << indent() << "[encoder encodeInt64: " << kFieldPrefix << field.name() << " forKey: @\"" << field.name() << "\"];" << std::endl; break; case t_primitive_type::TYPE_DOUBLE: out << indent() << "[encoder encodeDouble: " << kFieldPrefix << field.name() << " forKey: @\"" << field.name() << "\"];" << std::endl; break; default: throw std::runtime_error( "compiler error: don't know how to encode thrift type: " + t_primitive_type::t_primitive_name(tbase)); } } scope_down(out); } scope_down(out); out << std::endl; } /** * Generate the hash method for this struct */ void t_cocoa_generator::generate_cocoa_struct_hash_method(std::ofstream& out) { indent(out) << "- (NSUInteger) hash" << std::endl; scope_up(out); out << indent() << "return 0;" << std::endl; scope_down(out); out << std::endl; } /** * Generate the isEqual method for this struct */ void t_cocoa_generator::generate_cocoa_struct_is_equal_method( std::ofstream& out, const t_structured* tstruct, bool is_exception) { indent(out) << "- (BOOL) isEqual: (id) anObject" << std::endl; scope_up(out); indent(out) << "if (self == anObject) {" << std::endl; indent_up(); indent(out) << "return YES;" << std::endl; indent_down(); indent(out) << "}" << std::endl; std::string class_name = cocoa_prefix_ + tstruct->name(); if (is_exception) { indent(out) << "if (![super isEqual:anObject]) {" << std::endl; indent_up(); indent(out) << "return NO;" << std::endl; indent_down(); indent(out) << "}" << std::endl << std::endl; } else { indent(out) << "if (![anObject isKindOfClass:[" << class_name << " class]]) {" << std::endl; indent_up(); indent(out) << "return NO;" << std::endl; indent_down(); indent(out) << "}" << std::endl; } out << indent() << "return [[self toDict] isEqual:[anObject toDict]];" << std::endl; scope_down(out); out << std::endl; } /** * Generate struct implementation. * * @param tstruct The struct definition * @param is_exception Is this an exception? * @param is_result If this is a result it needs a different writer */ void t_cocoa_generator::generate_cocoa_struct_implementation( std::ofstream& out, const t_structured* tstruct, bool is_exception, bool is_result) { indent(out) << "@implementation " << cocoa_prefix_ << tstruct->name() << std::endl << std::endl; // exceptions need to call the designated initializer on NSException if (is_exception) { out << indent() << "- (instancetype) init" << std::endl; scope_up(out); out << indent() << "return [super initWithName: @\"" << cocoa_prefix_ << tstruct->name() << "\" reason: @\"unknown\" userInfo: nil];" << std::endl; scope_down(out); out << std::endl; } else { // struct // default initializer // setup instance variables with default values indent(out) << "- (instancetype) init" << std::endl; scope_up(out); indent(out) << "self = [super init];" << std::endl; size_t num_members_with_values = 0; for (const auto& field : tstruct->fields()) { if (field.default_value() != nullptr) { if (num_members_with_values == 0) { // out << "#if TARGET_OS_IPHONE || (MAC_OS_X_VERSION_MAX_ALLOWED >= // MAC_OS_X_VERSION_10_5)" << std::endl; } num_members_with_values++; print_const_value( out, "self." + field.name(), field.type()->get_true_type(), field.default_value(), false, true); } } if (num_members_with_values != 0) { // out << "#endif" << std::endl; } indent(out) << "return self;" << std::endl; scope_down(out); out << std::endl; } // initializer with all fields as params if (tstruct->has_fields()) { generate_cocoa_struct_initializer_signature(out, tstruct); out << std::endl; scope_up(out); if (is_exception) { out << indent() << "self = [self init];" << std::endl; } else { out << indent() << "self = [super init];" << std::endl; } for (const auto& field : tstruct->fields()) { const t_type* t = field.type()->get_true_type(); out << indent() << kFieldPrefix << field.name() << " = "; if (type_can_be_null(t)) { // out << "[" << field.name() << " retain_stub];" << std::endl; out << field.name() << ";" << std::endl; } else { out << field.name() << ";" << std::endl; } out << indent() << kFieldPrefix << field.name() << kSetPostfix << " = YES;" << std::endl; } out << indent() << "return self;" << std::endl; scope_down(out); out << std::endl; } // initWithCoder for NSCoding generate_cocoa_struct_init_with_coder_method(out, tstruct, is_exception); // encodeWithCoder for NSCoding generate_cocoa_struct_encode_with_coder_method(out, tstruct, is_exception); // hash and isEqual for NSObject if (simple_value_equality_) { generate_cocoa_struct_hash_method(out); generate_cocoa_struct_is_equal_method(out, tstruct, is_exception); } // dealloc // if (!members.empty()) { // out << "- (void) dealloc" << std::endl; // scope_up(out); // for (m_iter = members.begin(); m_iter != members.end(); ++m_iter) { // const t_type* t = (*m_iter)->get_type()->get_true_type(); // if (type_can_be_null(t)) { // indent(out) << "[" << kFieldPrefix << (*m_iter)->name() << " // release_stub];" << std::endl; // } // } // // out << indent() << "[super dealloc_stub];" << std::endl; // scope_down(out); // out << std::endl; // } // the rest of the methods generate_cocoa_struct_field_accessor_implementations( out, tstruct, is_exception); generate_cocoa_struct_reader(out, tstruct); if (is_result) { generate_cocoa_struct_result_writer(out, tstruct); } else { generate_cocoa_struct_writer(out, tstruct); } generate_cocoa_struct_validator(out, tstruct); generate_cocoa_struct_description(out, tstruct); generate_cocoa_struct_toDict(out, tstruct); generate_cocoa_struct_makeImmutable(out, tstruct); generate_cocoa_struct_mutableCopyWithZone(out, tstruct); out << "@end" << std::endl << std::endl; } /** * Generates a function to read all the fields of the struct. * * @param tstruct The struct definition */ void t_cocoa_generator::generate_cocoa_struct_reader( std::ofstream& out, const t_structured* tstruct) { out << "- (void) read: (id ) inProtocol" << std::endl; scope_up(out); // Declare stack tmp variables indent(out) << "NSString * fieldName;" << std::endl; indent(out) << "int fieldType;" << std::endl; indent(out) << "int fieldID;" << std::endl; out << std::endl; indent(out) << "[inProtocol readStructBeginReturningName: NULL];" << std::endl; // Loop over reading in fields indent(out) << "while (true)" << std::endl; scope_up(out); // Read beginning field marker indent(out) << "[inProtocol readFieldBeginReturningName: &fieldName type: " "&fieldType fieldID: &fieldID];" << std::endl; // Check for field STOP marker and break indent(out) << "if (fieldType == TType_STOP) { " << std::endl; indent_up(); indent(out) << "break;" << std::endl; indent_down(); indent(out) << "}" << std::endl; // Switch statement on the field we are reading indent(out) << "switch (fieldID)" << std::endl; scope_up(out); // Generate deserialization code for known cases for (const auto& field : tstruct->fields()) { indent(out) << "case " << field.id() << ":" << std::endl; indent_up(); indent(out) << "if (fieldType == " << type_to_enum(field.get_type()) << ") {" << std::endl; indent_up(); generate_deserialize_field(out, &field, "fieldValue"); indent(out) << call_field_setter(&field, "fieldValue") << std::endl; // if this is an allocated field, release it since the struct // is now retaining it if (type_can_be_null(field.get_type())) { // deserialized strings are autorelease, so don't release them if (!field.type()->get_true_type()->is_string_or_binary()) { indent(out) << "[fieldValue release_stub];" << std::endl; } } indent_down(); out << indent() << "} else {" << std::endl; if (log_unexpected_) { out << indent() << " NSLog(@\"%s: field ID %i has unexpected type %i. Skipping.\", " "__PRETTY_FUNCTION__, fieldID, fieldType);" << std::endl; } out << indent() << " [TProtocolUtil skipType: fieldType onProtocol: inProtocol];" << std::endl << indent() << "}" << std::endl << indent() << "break;" << std::endl; indent_down(); } // In the default case we skip the field out << indent() << "default:" << std::endl; if (log_unexpected_) { out << indent() << " NSLog(@\"%s: unexpected field ID %i with type %i. Skipping.\", " "__PRETTY_FUNCTION__, fieldID, fieldType);" << std::endl; } out << indent() << " [TProtocolUtil skipType: fieldType onProtocol: inProtocol];" << std::endl << indent() << " break;" << std::endl; scope_down(out); // Read field end marker indent(out) << "[inProtocol readFieldEnd];" << std::endl; scope_down(out); out << indent() << "[inProtocol readStructEnd];" << std::endl; // performs various checks (e.g. check that all required fields are set) if (validate_required_) { out << indent() << "[self validate];" << std::endl; } indent_down(); out << indent() << "}" << std::endl << std::endl; } /** * Generates a function to write all the fields of the struct * * @param tstruct The struct definition */ void t_cocoa_generator::generate_cocoa_struct_writer( std::ofstream& out, const t_structured* tstruct) { out << indent() << "- (void) write: (id ) outProtocol {" << std::endl; indent_up(); const std::string& name = tstruct->name(); out << indent() << "[outProtocol writeStructBeginWithName: @\"" << name << "\"];" << std::endl; for (const auto& field : tstruct->fields()) { out << indent() << "if (" << kFieldPrefix << field.name() << kSetPostfix << ") {" << std::endl; indent_up(); bool null_allowed = type_can_be_null(field.get_type()); if (null_allowed) { out << indent() << "if (" << kFieldPrefix << field.name() << " != nil) {" << std::endl; indent_up(); } indent(out) << "[outProtocol writeFieldBeginWithName: @\"" << field.name() << "\" type: " << type_to_enum(field.get_type()) << " fieldID: " << field.id() << "];" << std::endl; // Write field contents generate_serialize_field(out, &field, kFieldPrefix + field.name()); // Write field closer indent(out) << "[outProtocol writeFieldEnd];" << std::endl; if (null_allowed) { scope_down(out); } scope_down(out); } // Write the struct std::map out << indent() << "[outProtocol writeFieldStop];" << std::endl << indent() << "[outProtocol writeStructEnd];" << std::endl; indent_down(); out << indent() << "}" << std::endl << std::endl; } /** * Generates a function to write all the fields of the struct, which * is a function result. These fields are only written if they are * set, and only one of them can be set at a time. * * @param tstruct The struct definition */ void t_cocoa_generator::generate_cocoa_struct_result_writer( std::ofstream& out, const t_structured* tstruct) { out << indent() << "- (void) write: (id ) outProtocol {" << std::endl; indent_up(); const std::string& name = tstruct->name(); out << indent() << "[outProtocol writeStructBeginWithName: @\"" << name << "\"];" << std::endl; bool first = true; for (const auto& field : tstruct->fields()) { if (first) { first = false; out << std::endl << indent() << "if "; } else { out << " else if "; } out << "(" << kFieldPrefix << field.name() << kSetPostfix << ") {" << std::endl; indent_up(); bool null_allowed = type_can_be_null(field.get_type()); if (null_allowed) { out << indent() << "if (" << kFieldPrefix << field.name() << " != nil) {" << std::endl; indent_up(); } indent(out) << "[outProtocol writeFieldBeginWithName: @\"" << field.name() << "\" type: " << type_to_enum(field.get_type()) << " fieldID: " << field.id() << "];" << std::endl; // Write field contents generate_serialize_field(out, &field, kFieldPrefix + field.name()); // Write field closer indent(out) << "[outProtocol writeFieldEnd];" << std::endl; if (null_allowed) { indent_down(); indent(out) << "}" << std::endl; } indent_down(); indent(out) << "}"; } // Write the struct std::map out << std::endl << indent() << "[outProtocol writeFieldStop];" << std::endl << indent() << "[outProtocol writeStructEnd];" << std::endl; indent_down(); out << indent() << "}" << std::endl << std::endl; } /** * Generates a function to perform various checks * (e.g. check that all required fields are set) * * @param tstruct The struct definition */ void t_cocoa_generator::generate_cocoa_struct_validator( std::ofstream& out, const t_structured* tstruct) { out << indent() << "- (void) validate {" << std::endl; indent_up(); out << indent() << "// check for required fields" << std::endl; for (const auto& field : tstruct->fields()) { if (field.get_req() == t_field::e_req::required) { out << indent() << "if (!" << kFieldPrefix << field.name() << kSetPostfix << ") {" << std::endl << indent() << " @throw [TProtocolException exceptionWithName: " "@\"TProtocolException\"" << std::endl << indent() << " reason: @\"Required field '" << field.name() << "' is not set.\"];" << std::endl << indent() << "}" << std::endl; } } indent_down(); out << indent() << "}" << std::endl << std::endl; } /** * Generate property accessor methods for all fields in the struct. * getter, setter, isset getter. * * @param tstruct The struct definition */ void t_cocoa_generator::generate_cocoa_struct_field_accessor_implementations( std::ofstream& out, const t_structured* tstruct, bool is_exception) { (void)is_exception; for (const auto& field : tstruct->fields()) { const t_type* type = field.type()->get_true_type(); const std::string& field_name = field.name(); std::string getter_selector = get_cocoa_property_name(&field); std::string cap_name = getter_selector; cap_name[0] = toupper(cap_name[0]); // Simple getter indent(out) << "- (" << type_name(type) << ") "; out << getter_selector << " {" << std::endl; indent_up(); if (!type_can_be_null(type)) { indent(out) << "return " << kFieldPrefix << field_name << ";" << std::endl; } else { indent(out) << "return " << kFieldPrefix << field_name << ";" << std::endl; } indent_down(); indent(out) << "}" << std::endl << std::endl; // Simple setter indent(out) << "- (void) set" << cap_name << ": (" << type_name(type) << ") " << field_name << " {" << std::endl; indent_up(); indent(out) << "[self throwExceptionIfImmutable];" << std::endl; if (!type_can_be_null(type)) { indent(out) << kFieldPrefix << field_name << " = " << field_name << ";" << std::endl; } else { // indent(out) << "[" << field_name << " retain_stub];" << std::endl; // indent(out) << "[" << kFieldPrefix << field_name << " release_stub];" // << std::endl; indent(out) << kFieldPrefix << field_name << " = " << field_name << ";" << std::endl; } indent(out) << kFieldPrefix << field_name << kSetPostfix << " = YES;" << std::endl; indent_down(); indent(out) << "}" << std::endl << std::endl; // IsSet indent(out) << "- (BOOL) " << field_name << "IsSet {" << std::endl; indent_up(); indent(out) << "return " << kFieldPrefix << field_name << kSetPostfix << ";" << std::endl; indent_down(); indent(out) << "}" << std::endl << std::endl; // Unsetter - do we need this? indent(out) << "- (void) unset" << cap_name << " {" << std::endl; indent_up(); if (type_can_be_null(type)) { // indent(out) << "[" << kFieldPrefix << field_name << " release_stub];" // << std::endl; indent(out) << kFieldPrefix << field_name << " = nil;" << std::endl; } indent(out) << kFieldPrefix << field_name << kSetPostfix << " = NO;" << std::endl; indent_down(); indent(out) << "}" << std::endl << std::endl; } } /** * Generates a description method for the given struct * * @param tstruct The struct definition */ void t_cocoa_generator::generate_cocoa_struct_description( std::ofstream& out, const t_structured* /*tstruct*/) { out << indent() << "- (NSString *) description {" << std::endl; indent_up(); indent(out) << "return [[self toDict] description];" << std::endl; indent_down(); indent(out) << "}" << std::endl << std::endl; } /** * Recursively call [makeImmutable] on all the fields */ void t_cocoa_generator::generate_cocoa_struct_makeImmutable( std::ofstream& out, const t_structured* tstruct) { out << indent() << "- (BOOL) makeImmutable {" << std::endl; indent_up(); out << indent() << "const BOOL wasImmutable = [self isImmutable];" << std::endl; out << indent() << "if (!wasImmutable) {" << std::endl; indent_up(); for (const auto& field : tstruct->fields()) { const t_type* ttype = field.get_type(); std::string field_name = kFieldPrefix + field.name(); if (ttype->is_typedef()) { ttype = ttype->get_true_type(); } if (ttype->is_struct()) { out << indent() << "if (" << field_name << " && " << "![" << field_name << " isImmutable]" << ") {" << std::endl; indent_up(); out << indent() << "[" << field_name << " makeImmutable];" << std::endl; indent_down(); out << indent() << "}" << std::endl; } else if (ttype->is_primitive_type()) { // nothing. } else if (ttype->is_enum()) { // nothing } else if (ttype->is_list() || ttype->is_set()) { out << indent() << "if (" << field_name << ") {" << std::endl; indent_up(); out << indent() << "for (id item in " << field_name << ") {" << std::endl; indent_up(); out << indent() << "if ([item isKindOfClass:[" << kStructInheritanceRootObjectName << " class]]) {[((" << kStructInheritanceRootObjectName << "*)item) makeImmutable];}" << std::endl; // TODO:: can item be a list / std::map / set, in which case need to do // [copy] on it indent_down(); out << indent() << "}" << std::endl; out << indent() << field_name << " = " << "[" << field_name << " copy];" << std::endl; indent_down(); out << indent() << "}" << std::endl; } else if (ttype->is_map()) { out << indent() << "if (" << field_name << ") {" << std::endl; indent_up(); out << indent() << "for (NSString* k in " << field_name << ") {" << std::endl; indent_up(); out << indent() << "id item = " << field_name << "[k];" << std::endl; out << indent() << "if ([item isKindOfClass:[" << kStructInheritanceRootObjectName << " class]]) {[((" << kStructInheritanceRootObjectName << "*)item) makeImmutable];}" << std::endl; // TODO:: can item be a list / std::map / set, in which case need to do // [copy] on it indent_down(); out << indent() << "}" << std::endl; out << indent() << field_name << " = " << "[" << field_name << " copy];" << std::endl; indent_down(); out << indent() << "}" << std::endl; } else { std::cout << "WAT?! " << ttype->name() << std::endl; assert(false); } } out << indent() << "[super makeImmutable];" << std::endl; indent_down(); out << indent() << "}" << std::endl; out << indent() << "return YES;" << std::endl; indent_down(); indent(out) << "}" << std::endl << std::endl; } /** * Generates a toDict method * */ void t_cocoa_generator::generate_cocoa_struct_toDict( std::ofstream& out, const t_structured* tstruct) { out << indent() << "- (NSDictionary *) toDict {" << std::endl; indent_up(); out << indent() << "NSMutableDictionary *ret = [NSMutableDictionary dictionary];" << std::endl; indent(out) << "ret[@\"" << kFieldPrefix << "struct_name\"]" << " = " << "@\"" + tstruct->name() + "\";" << std::endl; for (const auto& field : tstruct->fields()) { const t_type* ttype = field.get_type(); std::string field_name = kFieldPrefix + field.name(); std::string ret_equals = "ret[@\"" + field.name() + "\"] = "; if (ttype->is_typedef()) { ttype = ttype->get_true_type(); } const bool check_for_null = ttype->is_struct() || ttype->is_string_or_binary() || ttype->is_container(); if (check_for_null) { out << indent() << "if (" << field_name << ") {" << std::endl; indent_up(); } if (ttype->is_struct()) { out << indent() << ret_equals << "[" << field_name << " toDict];" << std::endl; } else if (ttype->is_string_or_binary()) { out << indent() << ret_equals << field_name << ";" << std::endl; } else if (ttype->is_primitive_type() || ttype->is_enum()) { out << indent() << ret_equals << "@(" << field_name << ");" << std::endl; if (ttype->is_enum()) { const t_program* program = ttype->program(); std::string ToStringFunctionName = program ? (program->get_namespace("cocoa") + ttype->name() + kToStringPostfix) : cocoa_prefix_ + ttype->name() + kToStringPostfix; out << indent() << "ret[@\"" + field.name() + "_str\"] = " << ToStringFunctionName << "(" << field_name << ");" << std::endl; } } else if (ttype->is_list() || ttype->is_set()) { out << indent() << "NSMutableArray* a = [NSMutableArray array];" << std::endl; out << indent() << "for (id item in " << field_name << ") {" << std::endl; indent_up(); out << indent() << "if ([item isKindOfClass:[" << kStructInheritanceRootObjectName << " class]]) {[a addObject:[item toDict]];}" << std::endl; out << indent() << "else {[a addObject:item];}" << std::endl; indent_down(); out << indent() << "}" << std::endl; out << indent() << ret_equals << "[a copy];" << std::endl; } else if (ttype->is_map()) { out << indent() << "NSMutableDictionary* d = [NSMutableDictionary dictionary];" << std::endl; out << indent() << "for (NSString* k in " << field_name << ") {" << std::endl; indent_up(); out << indent() << "id item = " << field_name << "[k];" << std::endl; out << indent() << "if ([item isKindOfClass:[" << kStructInheritanceRootObjectName << " class]]) {d[k] = [item toDict];}" << std::endl; out << indent() << "else {d[k] = item;}" << std::endl; indent_down(); out << indent() << "}" << std::endl; out << indent() << ret_equals << "[d copy];" << std::endl; } else { std::cout << "WAT?! " << ttype->name() << std::endl; assert(false); } if (check_for_null) { indent_down(); out << indent() << "}" << std::endl; } } out << indent() << "return [ret copy];" << std::endl; indent_down(); indent(out) << "}" << std::endl << std::endl; } /** * Generate mutableCopyWithZone * */ void t_cocoa_generator::generate_cocoa_struct_mutableCopyWithZone( std::ofstream& out, const t_structured* tstruct) { out << indent() << "- (id) mutableCopyWithZone:(NSZone *)zone {" << std::endl; indent_up(); out << indent() << cocoa_prefix_ << tstruct->name() << " *newCopy = [[[self class] alloc] init];;" << std::endl; for (const auto& field : tstruct->fields()) { const t_type* ttype = field.get_type(); std::string field_name = kFieldPrefix + field.name(); if (ttype->is_typedef()) { ttype = ttype->get_true_type(); } const bool check_for_null = ttype->is_struct() || ttype->is_string_or_binary() || ttype->is_container(); if (check_for_null) { out << indent() << "if (" << field_name << ") {" << std::endl; indent_up(); } if (ttype->is_struct() || ttype->is_list() || ttype->is_set() || ttype->is_map()) { out << indent() << "newCopy->" << field_name << " = " << "[self->" << field_name << " mutableCopyWithZone:zone];" << std::endl; } else if ( ttype->is_string_or_binary() || ttype->is_primitive_type() || ttype->is_enum()) { out << indent() << "newCopy->" << field_name << " = " << "self->" << field_name << ";" << std::endl; } else { std::cout << "WAT?! " << ttype->name() << std::endl; assert(false); } if (check_for_null) { indent_down(); out << indent() << "}" << std::endl; } out << indent() << "newCopy->" << field_name << kSetPostfix << " = " << "self->" << field_name << kSetPostfix << ";" << std::endl; } out << indent() << "return newCopy;" << std::endl; indent_down(); indent(out) << "}" << std::endl << std::endl; } /** * Generates a thrift service. In Objective-C this consists of a * protocol definition, a client interface and a client implementation. * * @param tservice The service definition */ void t_cocoa_generator::generate_service(const t_service* tservice) { generate_cocoa_service_protocol(f_header_, tservice); generate_cocoa_service_client_interface(f_header_, tservice); generate_cocoa_service_server_interface(f_header_, tservice); generate_cocoa_service_helpers(tservice); generate_cocoa_service_client_implementation(f_impl_, tservice); generate_cocoa_service_server_implementation(f_impl_, tservice); } /** * Generates structs for all the service return types * * @param tservice The service */ void t_cocoa_generator::generate_cocoa_service_helpers( const t_service* tservice) { std::vector functions = tservice->get_functions(); std::vector::iterator f_iter; for (f_iter = functions.begin(); f_iter != functions.end(); ++f_iter) { const t_paramlist& ts = (*f_iter)->params(); generate_cocoa_struct_interface(f_impl_, &ts, false); generate_cocoa_struct_implementation(f_impl_, &ts, false, false); generate_function_helpers(*f_iter); } } std::string t_cocoa_generator::function_result_helper_struct_type( const t_function* tfunction) { if (tfunction->qualifier() == t_function_qualifier::oneway) { return capitalize(tfunction->name()); } else { return capitalize(tfunction->name()) + "_result"; } } std::string t_cocoa_generator::function_args_helper_struct_type( const t_function* tfunction) { return tfunction->name() + "_args"; } /** * Generates a struct and helpers for a function. * * @param tfunction The function */ void t_cocoa_generator::generate_function_helpers(const t_function* tfunction) { if (tfunction->qualifier() == t_function_qualifier::oneway) { return; } // create a result struct with a success field of the return type, // and a field for each type of exception thrown t_struct result(program_, function_result_helper_struct_type(tfunction)); auto success = std::make_unique(tfunction->return_type(), "success", 0); if (!tfunction->return_type()->is_void()) { result.append(std::move(success)); } if (tfunction->exceptions() != nullptr) { for (const auto& x : tfunction->exceptions()->fields()) { result.append(x.clone_DO_NOT_USE()); } } // generate the result struct generate_cocoa_struct_interface(f_impl_, &result, false); generate_cocoa_struct_implementation(f_impl_, &result, false, true); } /** * Generates a service protocol definition. * * @param tservice The service to generate a protocol definition for */ void t_cocoa_generator::generate_cocoa_service_protocol( std::ofstream& out, const t_service* tservice) { out << "@protocol " << cocoa_prefix_ << tservice->name() << " " << std::endl; for (const auto* function : tservice->get_functions()) { out << "- " << function_signature(function) << ";" << " // throws "; for (const t_field& x : get_elems(function->exceptions())) { out << type_name(x.get_type()) + ", "; } out << "TException" << std::endl; } out << "@end" << std::endl << std::endl; } /** * Generates a service client interface definition. * * @param tservice The service to generate a client interface definition for */ void t_cocoa_generator::generate_cocoa_service_client_interface( std::ofstream& out, const t_service* tservice) { out << "@interface " << cocoa_prefix_ << tservice->name() << "Client : NSObject <" << cocoa_prefix_ << tservice->name() << "> "; scope_up(out); out << indent() << "id inProtocol;" << std::endl; out << indent() << "id outProtocol;" << std::endl; scope_down(out); out << "- (id) initWithProtocol: (id ) protocol;" << std::endl; out << "- (id) initWithInProtocol: (id ) inProtocol outProtocol: " "(id ) outProtocol;" << std::endl; out << "@end" << std::endl << std::endl; } /** * Generates a service server interface definition. In other words, the TProcess * implementation for the service definition. * * @param tservice The service to generate a client interface definition for */ void t_cocoa_generator::generate_cocoa_service_server_interface( std::ofstream& out, const t_service* tservice) { out << "@interface " << cocoa_prefix_ << tservice->name() << "Processor : NSObject "; scope_up(out); out << indent() << "id <" << cocoa_prefix_ << tservice->name() << "> mService;" << std::endl; out << indent() << "NSDictionary * mMethodMap;" << std::endl; scope_down(out); out << "- (id) initWith" << tservice->name() << ": (id <" << cocoa_prefix_ << tservice->name() << ">) service;" << std::endl; out << "- (id<" << cocoa_prefix_ << tservice->name() << ">) service;" << std::endl; out << "@end" << std::endl << std::endl; } /** * Generates a service client implementation. * * @param tservice The service to generate an implementation for */ void t_cocoa_generator::generate_cocoa_service_client_implementation( std::ofstream& out, const t_service* tservice) { out << "@implementation " << cocoa_prefix_ << tservice->name() << "Client" << std::endl; // initializers out << "- (id) initWithProtocol: (id ) protocol" << std::endl; scope_up(out); out << indent() << "return [self initWithInProtocol: protocol outProtocol: protocol];" << std::endl; scope_down(out); out << std::endl; out << "- (id) initWithInProtocol: (id ) anInProtocol " "outProtocol: (id ) anOutProtocol" << std::endl; scope_up(out); out << indent() << "self = [super init];" << std::endl; out << indent() << "inProtocol = [anInProtocol retain_stub];" << std::endl; out << indent() << "outProtocol = [anOutProtocol retain_stub];" << std::endl; out << indent() << "return self;" << std::endl; scope_down(out); out << std::endl; // dealloc out << "- (void) dealloc" << std::endl; scope_up(out); out << indent() << "[inProtocol release_stub];" << std::endl; out << indent() << "[outProtocol release_stub];" << std::endl; out << indent() << "[super dealloc_stub];" << std::endl; scope_down(out); out << std::endl; // generate client method implementations for (const auto* function : tservice->get_functions()) { const std::string& funname = function->name(); t_function send_function( nullptr, t_type_ref::from_req_ptr(&t_primitive_type::t_void()), "send_" + function->name(), t_struct::clone_DO_NOT_USE(&function->params())); std::string argsname = function->name() + "_args"; // Open function indent(out) << "- " << function_signature(&send_function) << std::endl; scope_up(out); // Serialize the request out << indent() << "[outProtocol writeMessageBeginWithName: @\"" << funname << "\"" << " type: TMessageType_CALL" << " sequenceID: 0];" << std::endl; out << indent() << "[outProtocol writeStructBeginWithName: @\"" << argsname << "\"];" << std::endl; // write out function parameters for (const auto& param : function->params().fields()) { const std::string& fieldName = param.name(); if (type_can_be_null(param.get_type())) { out << indent() << "if (" << fieldName << " != nil)"; scope_up(out); } out << indent() << "[outProtocol writeFieldBeginWithName: @\"" << fieldName << "\"" " type: " << type_to_enum(param.get_type()) << " fieldID: " << param.get_key() << "];" << std::endl; generate_serialize_field(out, ¶m, fieldName); out << indent() << "[outProtocol writeFieldEnd];" << std::endl; if (type_can_be_null(param.get_type())) { scope_down(out); } } out << indent() << "[outProtocol writeFieldStop];" << std::endl; out << indent() << "[outProtocol writeStructEnd];" << std::endl; out << indent() << "[outProtocol writeMessageEnd];" << std::endl << indent() << "[[outProtocol transport] flush];" << std::endl; scope_down(out); out << std::endl; if (function->qualifier() != t_function_qualifier::oneway) { t_function recv_function( program_, function->return_type(), "recv_" + function->name()); if (const t_throws* exceptions = function->exceptions()) { recv_function.set_exceptions(t_struct::clone_DO_NOT_USE(exceptions)); } // Open function indent(out) << "- " << function_signature(&recv_function) << std::endl; scope_up(out); // TODO(mcslee): Message validation here, was the seqid etc ok? // check for an exception out << indent() << "int msgType = 0;" << std::endl << indent() << "[inProtocol readMessageBeginReturningName: nil type: &msgType " "sequenceID: NULL];" << std::endl << indent() << "if (msgType == TMessageType_EXCEPTION) {" << std::endl << indent() << " TApplicationException * x = [TApplicationException read: " "inProtocol];" << std::endl << indent() << " [inProtocol readMessageEnd];" << std::endl << indent() << " @throw x;" << std::endl << indent() << "}" << std::endl; // FIXME - could optimize here to reduce creation of temporary objects. std::string resultname = function_result_helper_struct_type(function); out << indent() << cocoa_prefix_ << resultname << " * result = [[[" << cocoa_prefix_ << resultname << " alloc] init] autorelease_stub];" << std::endl; indent(out) << "[result read: inProtocol];" << std::endl; indent(out) << "[inProtocol readMessageEnd];" << std::endl; // Careful, only return _result if not a void function if (!function->return_type()->is_void()) { out << indent() << "if ([result successIsSet]) {" << std::endl << indent() << " return [result success];" << std::endl << indent() << "}" << std::endl; } if (function->exceptions() != nullptr) { for (const auto& x : function->exceptions()->fields()) { out << indent() << "if ([result " << x.name() << "IsSet]) {" << std::endl << indent() << " @throw [result " << x.name() << "];" << std::endl << indent() << "}" << std::endl; } } // If you get here it's an exception, unless a void function if (function->return_type()->is_void()) { indent(out) << "return;" << std::endl; } else { out << indent() << "@throw [TApplicationException exceptionWithType: " "TApplicationException_MISSING_RESULT" << std::endl << indent() << " reason: @\"" << function->name() << " failed: unknown result\"];" << std::endl; } // Close function scope_down(out); out << std::endl; } // Open function indent(out) << "- " << function_signature(function) << std::endl; scope_up(out); indent(out) << "[self send_" << funname; // Declare the function arguments bool first = true; for (const auto& param : function->params().fields()) { const std::string& fieldName = param.name(); out << " "; if (first) { first = false; out << ": " << fieldName; } else { out << fieldName << ": " << fieldName; } } out << "];" << std::endl; if (function->qualifier() != t_function_qualifier::oneway) { out << indent(); if (!function->return_type()->is_void()) { out << "return "; } out << "[self recv_" << funname << "];" << std::endl; } scope_down(out); out << std::endl; } indent_down(); out << "@end" << std::endl << std::endl; } /** * Generates a service server implementation. In other words the actual * TProcessor implementation for the service. * * @param tservice The service to generate an implementation for */ void t_cocoa_generator::generate_cocoa_service_server_implementation( std::ofstream& out, const t_service* tservice) { out << "@implementation " << cocoa_prefix_ << tservice->name() << "Processor" << std::endl; indent_up(); // initializer out << std::endl; out << "- (id) initWith" << tservice->name() << ": (id <" << cocoa_prefix_ << tservice->name() << ">) service" << std::endl; scope_up(out); out << indent() << "self = [super init];" << std::endl; out << indent() << "if (!self) {" << std::endl; out << indent() << " return nil;" << std::endl; out << indent() << "}" << std::endl; // out << indent() << "mService = [service retain_stub];" << std::endl; // out << indent() << "mMethodMap = [[NSMutableDictionary dictionary] // retain_stub];" << std::endl; // generate method std::map for routing incoming calls for (const auto* function : tservice->get_functions()) { const std::string& funname = function->name(); scope_up(out); out << indent() << "SEL s = @selector(process_" << funname << "_withSequenceID:inProtocol:outProtocol:);" << std::endl; out << indent() << "NSMethodSignature * sig = [self methodSignatureForSelector: s];" << std::endl; out << indent() << "NSInvocation * invocation = [NSInvocation " "invocationWithMethodSignature: sig];" << std::endl; out << indent() << "[invocation setSelector: s];" << std::endl; out << indent() << "[invocation retainArguments];" << std::endl; out << indent() << "[mMethodMap setValue: invocation forKey: @\"" << funname << "\"];" << std::endl; scope_down(out); } out << indent() << "return self;" << std::endl; scope_down(out); // implementation of the 'service' method which returns the service associated // with this processor out << std::endl; out << indent() << "- (id<" << cocoa_prefix_ << tservice->name() << ">) service" << std::endl; out << indent() << "{" << std::endl; out << indent() << " return [[mService retain_stub] autorelease_stub];" << std::endl; out << indent() << "}" << std::endl; // implementation of the TProcess method, which dispatches the incoming call // using the method std::map out << std::endl; out << indent() << "- (BOOL) processOnInputProtocol: (id ) inProtocol" << std::endl; out << indent() << " outputProtocol: (id ) outProtocol" << std::endl; out << indent() << "{" << std::endl; out << indent() << " NSString * messageName;" << std::endl; out << indent() << " int messageType;" << std::endl; out << indent() << " int seqID;" << std::endl; out << indent() << " [inProtocol readMessageBeginReturningName: &messageName" << std::endl; out << indent() << " type: &messageType" << std::endl; out << indent() << " sequenceID: &seqID];" << std::endl; out << indent() << " NSInvocation * invocation = [mMethodMap valueForKey: messageName];" << std::endl; out << indent() << " if (invocation == nil) {" << std::endl; out << indent() << " [TProtocolUtil skipType: TType_STRUCT onProtocol: inProtocol];" << std::endl; out << indent() << " [inProtocol readMessageEnd];" << std::endl; out << indent() << " TApplicationException * x = [TApplicationException " "exceptionWithType: TApplicationException_UNKNOWN_METHOD reason: " "[NSString stringWithFormat: @\"Invalid method name: '%@'\", " "messageName]];" << std::endl; out << indent() << " [outProtocol writeMessageBeginWithName: messageName" << std::endl; out << indent() << " type: TMessageType_EXCEPTION" << std::endl; out << indent() << " sequenceID: seqID];" << std::endl; out << indent() << " [x write: outProtocol];" << std::endl; out << indent() << " [outProtocol writeMessageEnd];" << std::endl; out << indent() << " [[outProtocol transport] flush];" << std::endl; out << indent() << " return YES;" << std::endl; out << indent() << " }" << std::endl; out << indent() << " // NSInvocation does not conform to NSCopying protocol" << std::endl; out << indent() << " NSInvocation * i = [NSInvocation invocationWithMethodSignature: " "[invocation methodSignature]];" << std::endl; out << indent() << " [i setSelector: [invocation selector]];" << std::endl; out << indent() << " [i setArgument: &seqID atIndex: 2];" << std::endl; out << indent() << " [i setArgument: &inProtocol atIndex: 3];" << std::endl; out << indent() << " [i setArgument: &outProtocol atIndex: 4];" << std::endl; out << indent() << " [i setTarget: self];" << std::endl; out << indent() << " [i invoke];" << std::endl; out << indent() << " return YES;" << std::endl; out << indent() << "}" << std::endl; // generate a process_XXXX method for each service function, which reads args, // calls the service, and writes results for (const auto* function : tservice->get_functions()) { out << std::endl; const std::string& funname = function->name(); out << indent() << "- (void) process_" << funname << "_withSequenceID: (int32_t) seqID inProtocol: (id) " "inProtocol outProtocol: (id) outProtocol" << std::endl; scope_up(out); std::string argstype = cocoa_prefix_ + function_args_helper_struct_type(function); out << indent() << argstype << " * args = [[" << argstype << " alloc] init];" << std::endl; out << indent() << "[args read: inProtocol];" << std::endl; out << indent() << "[inProtocol readMessageEnd];" << std::endl; // prepare the result if not oneway if (function->qualifier() != t_function_qualifier::oneway) { std::string resulttype = cocoa_prefix_ + function_result_helper_struct_type(function); out << indent() << resulttype << " * result = [[" << resulttype << " alloc] init];" << std::endl; } // make the call to the actual service object out << indent(); if (!function->return_type()->is_void()) { out << "[result setSuccess: "; } out << "[mService " << funname; bool first = true; for (const auto& param : function->params().fields()) { const std::string& fieldName = param.name(); if (first) { first = false; out << ": [args " << fieldName << "]"; } else { out << " " << fieldName << ": [args " << fieldName << "]"; } } out << "]"; if (!function->return_type()->is_void()) { out << "]"; } out << ";" << std::endl; // write out the result if not oneway if (function->qualifier() != t_function_qualifier::oneway) { out << indent() << "[outProtocol writeMessageBeginWithName: @\"" << funname << "\"" << std::endl; out << indent() << " type: TMessageType_REPLY" << std::endl; out << indent() << " sequenceID: seqID];" << std::endl; out << indent() << "[result write: outProtocol];" << std::endl; out << indent() << "[outProtocol writeMessageEnd];" << std::endl; out << indent() << "[[outProtocol transport] flush];" << std::endl; out << indent() << "[result release_stub];" << std::endl; } out << indent() << "[args release_stub];" << std::endl; scope_down(out); } // dealloc out << std::endl; out << "- (void) dealloc" << std::endl; scope_up(out); out << indent() << "[mService release_stub];" << std::endl; out << indent() << "[mMethodMap release_stub];" << std::endl; out << indent() << "[super dealloc_stub];" << std::endl; scope_down(out); out << std::endl; indent_down(); out << "@end" << std::endl << std::endl; } /** * Deserializes a field of any type. * * @param tfield The field * @param fieldName The variable name for this field */ void t_cocoa_generator::generate_deserialize_field( std::ofstream& out, const t_field* tfield, const std::string& fieldName) { const t_type* type = tfield->type()->get_true_type(); if (type->is_void()) { throw std::runtime_error( "CANNOT GENERATE DESERIALIZE CODE FOR void TYPE: " + tfield->name()); } if (type->is_struct() || type->is_exception()) { generate_deserialize_struct(out, type, fieldName); } else if (type->is_container()) { generate_deserialize_container(out, type, fieldName); } else if (type->is_primitive_type() || type->is_enum()) { indent(out) << type_name(type) << " " << fieldName << " = [inProtocol "; if (type->is_primitive_type()) { t_primitive_type::t_primitive tbase = ((t_primitive_type*)type)->primitive_type(); switch (tbase) { case t_primitive_type::TYPE_VOID: throw std::runtime_error( "compiler error: cannot serialize void field in a struct: " + tfield->name()); case t_primitive_type::TYPE_STRING: out << "readString];"; break; case t_primitive_type::TYPE_BINARY: out << "readBinary];"; break; case t_primitive_type::TYPE_BOOL: out << "readBool];"; break; case t_primitive_type::TYPE_BYTE: out << "readByte];"; break; case t_primitive_type::TYPE_I16: out << "readI16];"; break; case t_primitive_type::TYPE_I32: out << "readI32];"; break; case t_primitive_type::TYPE_I64: out << "readI64];"; break; case t_primitive_type::TYPE_DOUBLE: out << "readDouble];"; break; default: throw std::runtime_error( "compiler error: no Objective-C name for base type " + t_primitive_type::t_primitive_name(tbase)); } } else if (type->is_enum()) { out << "readI32];"; } out << std::endl; } else { printf( "DO NOT KNOW HOW TO DESERIALIZE FIELD '%s' TYPE '%s'\n", tfield->name().c_str(), type_name(type).c_str()); } } /** * Generates an unserializer for a struct, allocates the struct and invokes * read: */ void t_cocoa_generator::generate_deserialize_struct( std::ofstream& out, const t_type* tstruct, const std::string& fieldName) { indent(out) << type_name(tstruct) << fieldName << " = [[" << type_name(tstruct, true) << " alloc] init];" << std::endl; indent(out) << "[" << fieldName << " read: inProtocol];" << std::endl; } /** * Deserializes a container by reading its size and then iterating */ void t_cocoa_generator::generate_deserialize_container( std::ofstream& out, const t_type* ttype, const std::string& fieldName) { std::string size = tmp("_size"); indent(out) << "int " << size << ";" << std::endl; // Declare variables, read header if (ttype->is_map()) { indent(out) << "[inProtocol readMapBeginReturningKeyType: NULL valueType: " "NULL size: &" << size << "];" << std::endl; indent(out) << "NSMutableDictionary * " << fieldName << " = [[NSMutableDictionary alloc] initWithCapacity: " << size << "];" << std::endl; } else if (ttype->is_set()) { indent(out) << "[inProtocol readSetBeginReturningElementType: NULL size: &" << size << "];" << std::endl; indent(out) << "NSMutableSet * " << fieldName << " = [[NSMutableSet alloc] initWithCapacity: " << size << "];" << std::endl; } else if (ttype->is_list()) { indent(out) << "[inProtocol readListBeginReturningElementType: NULL size: &" << size << "];" << std::endl; indent(out) << "NSMutableArray * " << fieldName << " = [[NSMutableArray alloc] initWithCapacity: " << size << "];" << std::endl; } // FIXME - the code above does not verify that the element types of // the containers being read match the element types of the // containers we are reading into. Does that matter? // For loop iterates over elements std::string i = tmp("_i"); indent(out) << "int " << i << ";" << std::endl << indent() << "for (" << i << " = 0; " << i << " < " << size << "; " << "++" << i << ")" << std::endl; scope_up(out); if (ttype->is_map()) { generate_deserialize_map_element(out, (t_map*)ttype, fieldName); } else if (ttype->is_set()) { generate_deserialize_set_element(out, (t_set*)ttype, fieldName); } else if (ttype->is_list()) { generate_deserialize_list_element(out, (t_list*)ttype, fieldName); } scope_down(out); // Read container end if (ttype->is_map()) { indent(out) << "[inProtocol readMapEnd];" << std::endl; } else if (ttype->is_set()) { indent(out) << "[inProtocol readSetEnd];" << std::endl; } else if (ttype->is_list()) { indent(out) << "[inProtocol readListEnd];" << std::endl; } } /** * Take a variable of a given type and wrap it in code to make it * suitable for putting into a container, if necessary. Basically, * wrap scaler primitives in NSNumber objects. */ std::string t_cocoa_generator::containerize( const t_type* ttype, const std::string& fieldName) { // FIXME - optimize here to avoid autorelease pool? ttype = ttype->get_true_type(); if (ttype->is_enum()) { return "[NSNumber numberWithInt: " + fieldName + "]"; } else if (ttype->is_primitive_type()) { t_primitive_type::t_primitive tbase = ((t_primitive_type*)ttype)->primitive_type(); switch (tbase) { case t_primitive_type::TYPE_VOID: throw std::runtime_error("can't containerize void"); case t_primitive_type::TYPE_BOOL: return "[NSNumber numberWithBool: " + fieldName + "]"; case t_primitive_type::TYPE_BYTE: return "[NSNumber numberWithUnsignedChar: " + fieldName + "]"; case t_primitive_type::TYPE_I16: return "[NSNumber numberWithShort: " + fieldName + "]"; case t_primitive_type::TYPE_I32: return "[NSNumber numberWithLong: " + fieldName + "]"; case t_primitive_type::TYPE_I64: return "[NSNumber numberWithLongLong: " + fieldName + "]"; case t_primitive_type::TYPE_DOUBLE: return "[NSNumber numberWithDouble: " + fieldName + "]"; default: break; } } // do nothing return fieldName; } /** * Generates code to deserialize a std::map element */ void t_cocoa_generator::generate_deserialize_map_element( std::ofstream& out, const t_map* tmap, const std::string& fieldName) { std::string key = tmp("_key"); std::string val = tmp("_val"); const t_type* key_type = tmap->get_key_type(); const t_type* valType = tmap->get_val_type(); t_field fkey(key_type, key); t_field fval(valType, val); generate_deserialize_field(out, &fkey, key); generate_deserialize_field(out, &fval, val); indent(out) << "[" << fieldName << " setObject: " << containerize(valType, val) << " forKey: " << containerize(key_type, key) << "];" << std::endl; if (type_can_be_null(key_type)) { if (!(key_type->get_true_type()->is_string_or_binary())) { indent(out) << "[" << containerize(key_type, key) << " release_stub];" << std::endl; } } if (type_can_be_null(valType)) { if (!(valType->get_true_type()->is_string_or_binary())) { indent(out) << "[" << containerize(valType, val) << " release_stub];" << std::endl; } } } /** * Deserializes a set element */ void t_cocoa_generator::generate_deserialize_set_element( std::ofstream& out, const t_set* tset, const std::string& fieldName) { std::string elem = tmp("_elem"); const t_type* type = tset->get_elem_type(); t_field felem(type, elem); generate_deserialize_field(out, &felem, elem); indent(out) << "[" << fieldName << " addObject: " << containerize(type, elem) << "];" << std::endl; if (type_can_be_null(type)) { // deserialized strings are autorelease, so don't release them if (!(type->get_true_type()->is_string_or_binary())) { indent(out) << "[" << containerize(type, elem) << " release_stub];" << std::endl; } } } /** * Deserializes a list element */ void t_cocoa_generator::generate_deserialize_list_element( std::ofstream& out, const t_list* tlist, const std::string& fieldName) { std::string elem = tmp("_elem"); const t_type* type = tlist->get_elem_type(); t_field felem(type, elem); generate_deserialize_field(out, &felem, elem); indent(out) << "[" << fieldName << " addObject: " << containerize(type, elem) << "];" << std::endl; if (type_can_be_null(type)) { if (!(type->get_true_type()->is_string_or_binary())) { indent(out) << "[" << containerize(type, elem) << " release_stub];" << std::endl; } } } /** * Serializes a field of any type. * * @param tfield The field to serialize * @param fieldName Name to of the variable holding the field */ void t_cocoa_generator::generate_serialize_field( std::ofstream& out, const t_field* tfield, const std::string& fieldName) { const t_type* type = tfield->type()->get_true_type(); // Do nothing for void types if (type->is_void()) { throw std::runtime_error( "CANNOT GENERATE SERIALIZE CODE FOR void TYPE: " + tfield->name()); } if (type->is_struct() || type->is_exception()) { generate_serialize_struct(out, (t_struct*)type, fieldName); } else if (type->is_container()) { generate_serialize_container(out, type, fieldName); } else if (type->is_primitive_type() || type->is_enum()) { indent(out) << "[outProtocol "; if (type->is_primitive_type()) { t_primitive_type::t_primitive tbase = ((t_primitive_type*)type)->primitive_type(); switch (tbase) { case t_primitive_type::TYPE_VOID: throw std::runtime_error( "compiler error: cannot serialize void field in a struct: " + fieldName); case t_primitive_type::TYPE_STRING: out << "writeString: " << fieldName << "];"; break; case t_primitive_type::TYPE_BINARY: out << "writeBinary: " << fieldName << "];"; break; case t_primitive_type::TYPE_BOOL: out << "writeBool: " << fieldName << "];"; break; case t_primitive_type::TYPE_BYTE: out << "writeByte: " << fieldName << "];"; break; case t_primitive_type::TYPE_I16: out << "writeI16: " << fieldName << "];"; break; case t_primitive_type::TYPE_I32: out << "writeI32: " << fieldName << "];"; break; case t_primitive_type::TYPE_I64: out << "writeI64: " << fieldName << "];"; break; case t_primitive_type::TYPE_DOUBLE: out << "writeDouble: " << fieldName << "];"; break; default: throw std::runtime_error( "compiler error: no Objective-C name for base type " + t_primitive_type::t_primitive_name(tbase)); } } else if (type->is_enum()) { out << "writeI32: " << fieldName << "];"; } out << std::endl; } else { printf( "DO NOT KNOW HOW TO SERIALIZE FIELD '%s' TYPE '%s'\n", tfield->name().c_str(), type_name(type).c_str()); } } /** * Serialize a struct. * * @param tstruct The struct to serialize * @param fieldName Name of variable holding struct */ void t_cocoa_generator::generate_serialize_struct( std::ofstream& out, const t_struct* tstruct, const std::string& fieldName) { (void)tstruct; out << indent() << "[" << fieldName << " write: outProtocol];" << std::endl; } /** * Serializes a container by writing its size then the elements. * * @param ttype The type of container * @param fieldName Name of variable holding container */ void t_cocoa_generator::generate_serialize_container( std::ofstream& out, const t_type* ttype, const std::string& fieldName) { scope_up(out); if (ttype->is_map()) { indent(out) << "[outProtocol writeMapBeginWithKeyType: " << type_to_enum(((t_map*)ttype)->get_key_type()) << " valueType: " << type_to_enum(((t_map*)ttype)->get_val_type()) << " size: (int)[" << fieldName << " count]];" << std::endl; } else if (ttype->is_set()) { indent(out) << "[outProtocol writeSetBeginWithElementType: " << type_to_enum(((t_set*)ttype)->get_elem_type()) << " size: (int)[" << fieldName << " count]];" << std::endl; } else if (ttype->is_list()) { indent(out) << "[outProtocol writeListBeginWithElementType: " << type_to_enum(((t_list*)ttype)->get_elem_type()) << " size: (int)[" << fieldName << " count]];" << std::endl; } std::string iter = tmp("_iter"); std::string key; if (ttype->is_map()) { key = tmp("key"); indent(out) << "NSEnumerator * " << iter << " = [" << fieldName << " keyEnumerator];" << std::endl; indent(out) << "id " << key << ";" << std::endl; indent(out) << "while ((" << key << " = [" << iter << " nextObject]))" << std::endl; } else if (ttype->is_set()) { key = tmp("obj"); indent(out) << "NSEnumerator * " << iter << " = [" << fieldName << " objectEnumerator];" << std::endl; indent(out) << "id " << key << ";" << std::endl; indent(out) << "while ((" << key << " = [" << iter << " nextObject]))" << std::endl; } else if (ttype->is_list()) { key = tmp("i"); indent(out) << "int " << key << ";" << std::endl; indent(out) << "for (" << key << " = 0; " << key << " < [" << fieldName << " count]; " << key << "++)" << std::endl; } scope_up(out); if (ttype->is_map()) { generate_serialize_map_element(out, (t_map*)ttype, key, fieldName); } else if (ttype->is_set()) { generate_serialize_set_element(out, (t_set*)ttype, key); } else if (ttype->is_list()) { generate_serialize_list_element(out, (t_list*)ttype, key, fieldName); } scope_down(out); if (ttype->is_map()) { indent(out) << "[outProtocol writeMapEnd];" << std::endl; } else if (ttype->is_set()) { indent(out) << "[outProtocol writeSetEnd];" << std::endl; } else if (ttype->is_list()) { indent(out) << "[outProtocol writeListEnd];" << std::endl; } scope_down(out); } /** * Given a field variable name, wrap it in code that converts it to a * primitive type, if necessary. */ std::string t_cocoa_generator::decontainerize( const t_field* tfield, const std::string& fieldName) { const t_type* ttype = tfield->type()->get_true_type(); if (ttype->is_enum()) { return "[" + fieldName + " intValue]"; } else if (ttype->is_primitive_type()) { t_primitive_type::t_primitive tbase = ((t_primitive_type*)ttype)->primitive_type(); switch (tbase) { case t_primitive_type::TYPE_VOID: throw std::runtime_error("can't decontainerize void"); case t_primitive_type::TYPE_BOOL: return "[" + fieldName + " boolValue]"; case t_primitive_type::TYPE_BYTE: return "[" + fieldName + " unsignedCharValue]"; case t_primitive_type::TYPE_I16: return "[" + fieldName + " shortValue]"; case t_primitive_type::TYPE_I32: return "[" + fieldName + " longValue]"; case t_primitive_type::TYPE_I64: return "[" + fieldName + " longLongValue]"; case t_primitive_type::TYPE_DOUBLE: return "[" + fieldName + " doubleValue]"; default: break; } } // do nothing return fieldName; } /** * Serializes the members of a std::map. */ void t_cocoa_generator::generate_serialize_map_element( std::ofstream& out, const t_map* tmap, const std::string& key, const std::string& mapName) { t_field kfield(tmap->get_key_type(), key); generate_serialize_field(out, &kfield, decontainerize(&kfield, key)); t_field vfield( tmap->get_val_type(), "[" + mapName + " objectForKey: " + key + "]"); generate_serialize_field( out, &vfield, decontainerize(&vfield, vfield.name())); } /** * Serializes the members of a set. */ void t_cocoa_generator::generate_serialize_set_element( std::ofstream& out, const t_set* tset, const std::string& elementName) { t_field efield(tset->get_elem_type(), elementName); generate_serialize_field(out, &efield, decontainerize(&efield, elementName)); } /** * Serializes the members of a list. */ void t_cocoa_generator::generate_serialize_list_element( std::ofstream& out, const t_list* tlist, const std::string& index, const std::string& listName) { t_field efield( tlist->get_elem_type(), "[" + listName + " objectAtIndex: " + index + "]"); generate_serialize_field( out, &efield, decontainerize(&efield, efield.name())); } /** * Returns an Objective-C name * * @param ttype The type * @param class_ref Do we want a Class reference istead of a type reference? * @return Java type name, i.e. HashMap */ std::string t_cocoa_generator::type_name(const t_type* ttype, bool class_ref) { if (ttype->is_typedef() || ttype->is_enum()) { const t_program* program = ttype->program(); return program ? (program->get_namespace("cocoa") + ttype->name()) : ttype->name(); } std::string result; if (ttype->is_primitive_type()) { return base_type_name((t_primitive_type*)ttype); } else if (ttype->is_map()) { result = "TBaseStructDictionary"; } else if (ttype->is_set()) { result = "TBaseStructSet"; } else if (ttype->is_list()) { result = "TBaseStructArray"; } else { // Check for prefix const t_program* program = ttype->program(); result = program ? (program->get_namespace("cocoa") + ttype->name()) : ttype->name(); } if (!class_ref) { result += " *"; } return result; } /** * Returns the Objective-C type that corresponds to the thrift type. * * @param tbase The base type */ std::string t_cocoa_generator::base_type_name(t_primitive_type* type) { t_primitive_type::t_primitive tbase = type->primitive_type(); switch (tbase) { case t_primitive_type::TYPE_VOID: return "void"; case t_primitive_type::TYPE_STRING: return "NSString *"; case t_primitive_type::TYPE_BINARY: return "NSData *"; case t_primitive_type::TYPE_BOOL: return "BOOL"; case t_primitive_type::TYPE_BYTE: return "uint8_t"; case t_primitive_type::TYPE_I16: return "int16_t"; case t_primitive_type::TYPE_I32: return "int32_t"; case t_primitive_type::TYPE_I64: return "int64_t"; case t_primitive_type::TYPE_DOUBLE: return "double"; default: throw std::runtime_error( "compiler error: no Objective-C name for base type " + t_primitive_type::t_primitive_name(tbase)); } } /** * Prints the value of a constant with the given type. Note that type checking * is NOT performed in this function as it is always run beforehand using the * validate_types method in main.cc */ void t_cocoa_generator::print_const_value( std::ofstream& out, const std::string& name, const t_type* type, const t_const_value* value, bool defval, bool is_property) { type = type->get_true_type(); indent(out); if (type->is_primitive_type()) { std::string v2 = render_const_value(out, type, value); if (defval) out << type_name(type) << " "; out << name << " = " << v2 << ";" << std::endl << std::endl; } else if (type->is_enum()) { if (defval) out << type_name(type) << " "; out << name << " = " << render_const_value(out, type, value) << ";" << std::endl << std::endl; } else if (type->is_struct() || type->is_exception()) { const auto* as_struct = static_cast(type); if (defval) { out << type_name(type) << " "; } if (defval || is_property) { out << name << " = [[[" << type_name(type, true) << " alloc] init] autorelease_stub];" << std::endl; } else { out << name << " = [[" << type_name(type, true) << " alloc] init];" << std::endl; } for (const auto& entry : value->get_map()) { const auto* field = as_struct->get_field_by_name(entry.first->get_string()); if (field == nullptr) { throw std::runtime_error( "type error: " + type->name() + " has no field " + entry.first->get_string()); } std::string val = render_const_value(out, field->get_type(), entry.second); std::string cap_name = capitalize(entry.first->get_string()); indent(out) << "[" << name << " set" << cap_name << ":" << val << "];" << std::endl; } out << std::endl; } else if (type->is_map()) { const t_type* ktype = ((t_map*)type)->get_key_type(); const t_type* vtype = ((t_map*)type)->get_val_type(); const std::vector>& value_list = value->get_map(); std::vector>::const_iterator v_iter; if (defval) { out << "NSMutableDictionary *"; } if (defval || is_property) { out << name << " = [[[NSMutableDictionary alloc] initWithCapacity:" << value_list.size() << "] autorelease_stub]; " << std::endl; } else { out << name << " = [[NSMutableDictionary alloc] initWithCapacity:" << value_list.size() << "]; " << std::endl; } for (v_iter = value_list.begin(); v_iter != value_list.end(); ++v_iter) { std::string key = render_const_value(out, ktype, v_iter->first, true); std::string val = render_const_value(out, vtype, v_iter->second, true); indent(out) << "[" << name << " setObject:" << val << " forKey:" << key << "];" << std::endl; } out << std::endl; } else if (type->is_list()) { const t_type* etype = ((t_list*)type)->get_elem_type(); const std::vector& value_list = value->get_list(); std::vector::const_iterator v_iter; if (defval) { out << "NSMutableArray *"; } if (defval || is_property) { out << name << " = [[[NSMutableArray alloc] initWithCapacity:" << value_list.size() << "] autorelease_stub];" << std::endl; } else { out << name << " = [[NSMutableArray alloc] initWithCapacity:" << value_list.size() << "];" << std::endl; } for (v_iter = value_list.begin(); v_iter != value_list.end(); ++v_iter) { std::string val = render_const_value(out, etype, *v_iter, true); indent(out) << "[" << name << " addObject:" << val << "];" << std::endl; } out << std::endl; } else if (type->is_set()) { const t_type* etype = ((t_set*)type)->get_elem_type(); const std::vector& value_list = value->get_list(); std::vector::const_iterator v_iter; if (defval) { out << "NSMutableSet *"; } if (defval || is_property) { out << name << " = [[[NSMutableSet alloc] initWithCapacity:" << value_list.size() << "] autorelease_stub];" << std::endl; } else { out << name << " = [[NSMutableSet alloc] initWithCapacity:" << value_list.size() << "];" << std::endl; } for (v_iter = value_list.begin(); v_iter != value_list.end(); ++v_iter) { std::string val = render_const_value(out, etype, *v_iter, true); indent(out) << "[" << name << " addObject:" << val << "];" << std::endl; } out << std::endl; } else { throw std::runtime_error( "compiler error: no const of type " + type->name()); } } std::string t_cocoa_generator::render_const_value( std::ofstream& out, const t_type* type, const t_const_value* value, bool containerize_it) { type = type->get_true_type(); std::ostringstream render; if (type->is_primitive_type()) { t_primitive_type::t_primitive tbase = ((t_primitive_type*)type)->primitive_type(); switch (tbase) { case t_primitive_type::TYPE_STRING: case t_primitive_type::TYPE_BINARY: // We must handle binary constant but the syntax of IDL defines // nothing about binary constant. render << "@\"" << get_escaped_string(value) << '"'; break; case t_primitive_type::TYPE_BOOL: render << ((value->get_integer() > 0) ? "YES" : "NO"); break; case t_primitive_type::TYPE_BYTE: case t_primitive_type::TYPE_I16: case t_primitive_type::TYPE_I32: case t_primitive_type::TYPE_I64: render << value->get_integer(); break; case t_primitive_type::TYPE_DOUBLE: if (value->kind() == t_const_value::CV_INTEGER) { render << value->get_integer(); } else { render << value->get_double(); } break; default: throw std::runtime_error( "compiler error: no const of base type " + t_primitive_type::t_primitive_name(tbase)); } } else if (type->is_enum()) { render << value->get_integer(); } else { std::string t = tmp("tmp"); print_const_value(out, t, type, value, true, false); render << t; } if (containerize_it) { return containerize(type, render.str()); } return render.str(); } /** * Declares a field. * * @param ttype The type */ std::string t_cocoa_generator::declare_field(const t_field* tfield) { return type_name(tfield->get_type()) + " " + kFieldPrefix + tfield->name() + ";"; } /** * Declares an Objective-C 2.0 property. * * @param tfield The field to declare a property for */ std::string t_cocoa_generator::declare_property(const t_field* tfield) { std::ostringstream render; render << "@property (nonatomic"; if (type_can_be_null(tfield->get_type())) { render << ", retain"; if (nullability_) { render << (tfield->get_req() == t_field::e_req::required ? ", nonnull" : ", nullable"); } } render // << ", getter=" << decapitalize(get_cocoa_property_name(tfield)) // << ", setter=set" << capitalize(get_cocoa_property_name(tfield)) + // ":" << ")" << " " << type_name(tfield->get_type()) << " " << get_cocoa_property_name(tfield) << ";"; return render.str(); } /** * Renders a function signature * * @param tfunction Function definition * @return String of rendered function definition */ std::string t_cocoa_generator::function_signature(const t_function* tfunction) { const t_type& type = *tfunction->return_type(); std::string result = "(" + type_name(&type) + ") " + tfunction->name() + argument_list(tfunction->params()); return result; } /** * Renders a colon separated list of types and names, suitable for an * objective-c parameter list */ std::string t_cocoa_generator::argument_list(const t_paramlist& tparamlist) { std::string result = ""; bool first = true; for (const auto& field : tparamlist.fields()) { std::string argPrefix = ""; if (first) { first = false; } else { argPrefix = field.name(); result += " "; } result += argPrefix + ": (" + type_name(field.get_type()) + ") " + field.name(); } return result; } /** * Converts the parse type to an Objective-C enum std::string for the given * type. */ std::string t_cocoa_generator::type_to_enum(const t_type* type) { type = type->get_true_type(); if (type->is_primitive_type()) { t_primitive_type::t_primitive tbase = ((t_primitive_type*)type)->primitive_type(); switch (tbase) { case t_primitive_type::TYPE_VOID: throw std::runtime_error("NO T_VOID CONSTRUCT"); case t_primitive_type::TYPE_STRING: case t_primitive_type::TYPE_BINARY: return "TType_STRING"; case t_primitive_type::TYPE_BOOL: return "TType_BOOL"; case t_primitive_type::TYPE_BYTE: return "TType_BYTE"; case t_primitive_type::TYPE_I16: return "TType_I16"; case t_primitive_type::TYPE_I32: return "TType_I32"; case t_primitive_type::TYPE_I64: return "TType_I64"; case t_primitive_type::TYPE_DOUBLE: return "TType_DOUBLE"; case t_primitive_type::TYPE_FLOAT: return "TType_FLOAT"; } } else if (type->is_enum()) { return "TType_I32"; } else if (type->is_struct() || type->is_exception()) { return "TType_STRUCT"; } else if (type->is_map()) { return "TType_MAP"; } else if (type->is_set()) { return "TType_SET"; } else if (type->is_list()) { return "TType_LIST"; } throw std::runtime_error("INVALID TYPE IN type_to_enum: " + type->name()); } /** * Returns a format std::string specifier for the supplied parse type. */ std::string t_cocoa_generator::format_string_for_type(const t_type* type) { type = type->get_true_type(); if (type->is_primitive_type()) { t_primitive_type::t_primitive tbase = ((t_primitive_type*)type)->primitive_type(); switch (tbase) { case t_primitive_type::TYPE_VOID: throw std::runtime_error("NO T_VOID CONSTRUCT"); case t_primitive_type::TYPE_STRING: case t_primitive_type::TYPE_BINARY: return "\\\"%@\\\""; case t_primitive_type::TYPE_BOOL: return "%i"; case t_primitive_type::TYPE_BYTE: return "%i"; case t_primitive_type::TYPE_I16: return "%hi"; case t_primitive_type::TYPE_I32: return "%i"; case t_primitive_type::TYPE_I64: return "%qi"; case t_primitive_type::TYPE_DOUBLE: return "%f"; case t_primitive_type::TYPE_FLOAT: return "%f"; } } else if (type->is_enum()) { return "%i"; } else if (type->is_struct() || type->is_exception()) { return "%@"; } else if (type->is_map()) { return "%@"; } else if (type->is_set()) { return "%@"; } else if (type->is_list()) { return "%@"; } throw std::runtime_error( "INVALID TYPE IN format_string_for_type: " + type->name()); } /** * Generate a call to a field's setter. * * @param tfield Field the setter is being called on * @param fieldName Name of variable to pass to setter */ std::string t_cocoa_generator::call_field_setter( const t_field* tfield, const std::string& fieldName) { return "[self set" + capitalize(get_cocoa_property_name(tfield)) + ": " + fieldName + "];"; } std::string t_cocoa_generator::get_cocoa_property_name(const t_field* tfield) { return tfield->get_annotation("cocoa.name", &tfield->name()); } THRIFT_REGISTER_GENERATOR( cocoa, "Cocoa", " import_path=XYZ: Override thrift package import path\n" " log_unexpected: Log every time an unexpected field ID or type is " "encountered.\n" " nullability: Use annotations to ensure required fields are " "present.\n" " validate_required:\n" " Throws exception if any required field is not " "set.\n"); } // namespace compiler } // namespace thrift } // namespace apache