// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. All rights reserved. // https://developers.google.com/protocol-buffers/ // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // Author: kenton@google.com (Kenton Varda) // // TODO(kenton): Share code with the versions of this test in other languages? // It seemed like parameterizing it would add more complexity than it is // worth. #include #include #include #include #include #include #include #include #include namespace google { namespace protobuf { namespace compiler { namespace cpp { namespace { class TestGenerator : public CodeGenerator { public: TestGenerator() {} ~TestGenerator() {} virtual bool Generate(const FileDescriptor* file, const std::string& parameter, GeneratorContext* context, std::string* error) const { TryInsert("test.pb.h", "includes", context); TryInsert("test.pb.h", "namespace_scope", context); TryInsert("test.pb.h", "global_scope", context); TryInsert("test.pb.h", "class_scope:foo.Bar", context); TryInsert("test.pb.h", "class_scope:foo.Bar.Baz", context); TryInsert("test.pb.cc", "includes", context); TryInsert("test.pb.cc", "namespace_scope", context); TryInsert("test.pb.cc", "global_scope", context); // Check field accessors for an optional int32: TryInsert("test.pb.h", "field_get:foo.Bar.optInt", context); TryInsert("test.pb.h", "field_set:foo.Bar.optInt", context); // Check field accessors for a repeated int32: TryInsert("test.pb.h", "field_get:foo.Bar.repeatedInt", context); TryInsert("test.pb.h", "field_set:foo.Bar.repeatedInt", context); // Check field accessors for a required string: TryInsert("test.pb.h", "field_get:foo.Bar.requiredString", context); TryInsert("test.pb.h", "field_set:foo.Bar.requiredString", context); TryInsert("test.pb.h", "field_mutable:foo.Bar.requiredString", context); TryInsert("test.pb.h", "field_set_allocated:foo.Bar.requiredString", context); // Check field accessors for a repeated string: TryInsert("test.pb.h", "field_get:foo.Bar.repeatedString", context); TryInsert("test.pb.h", "field_set:foo.Bar.repeatedString", context); TryInsert("test.pb.h", "field_set_char:foo.Bar.repeatedString", context); TryInsert("test.pb.h", "field_set_pointer:foo.Bar.repeatedString", context); TryInsert("test.pb.h", "field_mutable:foo.Bar.repeatedString", context); TryInsert("test.pb.h", "field_set_char:foo.Bar.repeatedString", context); TryInsert("test.pb.h", "field_set_pointer:foo.Bar.repeatedString", context); // Check field accessors for an int inside oneof{}: TryInsert("test.pb.h", "field_get:foo.Bar.oneOfInt", context); TryInsert("test.pb.h", "field_set:foo.Bar.oneOfInt", context); // Check field accessors for a string inside oneof{}: TryInsert("test.pb.h", "field_get:foo.Bar.oneOfString", context); TryInsert("test.pb.h", "field_set:foo.Bar.oneOfString", context); TryInsert("test.pb.h", "field_mutable:foo.Bar.oneOfString", context); TryInsert("test.pb.h", "field_set_allocated:foo.Bar.oneOfString", context); // Check field accessors for an optional message: TryInsert("test.pb.h", "field_get:foo.Bar.optMessage", context); TryInsert("test.pb.h", "field_mutable:foo.Bar.optMessage", context); TryInsert("test.pb.h", "field_set_allocated:foo.Bar.optMessage", context); // Check field accessors for a repeated message: TryInsert("test.pb.h", "field_add:foo.Bar.repeatedMessage", context); TryInsert("test.pb.h", "field_get:foo.Bar.repeatedMessage", context); TryInsert("test.pb.h", "field_list:foo.Bar.repeatedMessage", context); TryInsert("test.pb.h", "field_mutable:foo.Bar.repeatedMessage", context); TryInsert("test.pb.h", "field_mutable_list:foo.Bar.repeatedMessage", context); // Check field accessors for a message inside oneof{}: TryInsert("test.pb.h", "field_get:foo.Bar.oneOfMessage", context); TryInsert("test.pb.h", "field_mutable:foo.Bar.oneOfMessage", context); TryInsert("test.pb.cc", "field_set_allocated:foo.Bar.oneOfMessage", context); // Check field accessors for an optional enum: TryInsert("test.pb.h", "field_get:foo.Bar.optEnum", context); TryInsert("test.pb.h", "field_set:foo.Bar.optEnum", context); // Check field accessors for a repeated enum: TryInsert("test.pb.h", "field_get:foo.Bar.repeatedEnum", context); TryInsert("test.pb.h", "field_set:foo.Bar.repeatedEnum", context); TryInsert("test.pb.h", "field_add:foo.Bar.repeatedEnum", context); TryInsert("test.pb.h", "field_list:foo.Bar.repeatedEnum", context); TryInsert("test.pb.h", "field_mutable_list:foo.Bar.repeatedEnum", context); // Check field accessors for an enum inside oneof{}: TryInsert("test.pb.h", "field_get:foo.Bar.oneOfEnum", context); TryInsert("test.pb.h", "field_set:foo.Bar.oneOfEnum", context); // Check field accessors for a required cord: TryInsert("test.pb.h", "field_get:foo.Bar.requiredCord", context); TryInsert("test.pb.h", "field_set:foo.Bar.requiredCord", context); TryInsert("test.pb.h", "field_mutable:foo.Bar.requiredCord", context); // Check field accessors for a repeated cord: TryInsert("test.pb.h", "field_get:foo.Bar.repeatedCord", context); TryInsert("test.pb.h", "field_set:foo.Bar.repeatedCord", context); TryInsert("test.pb.h", "field_add:foo.Bar.repeatedCord", context); TryInsert("test.pb.h", "field_list:foo.Bar.repeatedCord", context); TryInsert("test.pb.h", "field_mutable:foo.Bar.repeatedCord", context); TryInsert("test.pb.h", "field_mutable_list:foo.Bar.repeatedCord", context); // Check field accessors for a cord inside oneof{}: TryInsert("test.pb.h", "field_get:foo.Bar.oneOfCord", context); TryInsert("test.pb.h", "field_set:foo.Bar.oneOfCord", context); TryInsert("test.pb.h", "field_mutable:foo.Bar.oneOfCord", context); return true; } void TryInsert(const std::string& filename, const std::string& insertion_point, GeneratorContext* context) const { std::unique_ptr output( context->OpenForInsert(filename, insertion_point)); io::Printer printer(output.get(), '$'); printer.Print("// inserted $name$\n", "name", insertion_point); } }; // This test verifies that all the expected insertion points exist. It does // not verify that they are correctly-placed; that would require actually // compiling the output which is a bit more than I care to do for this test. TEST(CppPluginTest, PluginTest) { GOOGLE_CHECK_OK(File::SetContents(TestTempDir() + "/test.proto", "syntax = \"proto2\";\n" "package foo;\n" "\n" "enum Thud { VALUE = 0; }\n" "\n" "message Bar {\n" " message Baz {}\n" " optional int32 optInt = 1;\n" " repeated int32 repeatedInt = 2;\n" "\n" " required string requiredString = 3;\n" " repeated string repeatedString = 4;\n" "\n" " optional Baz optMessage = 6;\n" " repeated Baz repeatedMessage = 7;\n" "\n" " optional Thud optEnum = 8;\n" " repeated Thud repeatedEnum = 9;\n" "\n" " required string requiredCord = 10 [\n" " ctype = CORD\n" " ];\n" " repeated string repeatedCord = 11 [\n" " ctype = CORD\n" " ];\n" "\n" " oneof Qux {\n" " int64 oneOfInt = 20;\n" " string oneOfString = 21;\n" " Baz oneOfMessage = 22;\n" " Thud oneOfEnum = 23;" " string oneOfCord = 24 [\n" " ctype = CORD\n" " ];\n" " }\n" "}\n", true)); CommandLineInterface cli; cli.SetInputsAreProtoPathRelative(true); CppGenerator cpp_generator; TestGenerator test_generator; cli.RegisterGenerator("--cpp_out", &cpp_generator, ""); cli.RegisterGenerator("--test_out", &test_generator, ""); std::string proto_path = "-I" + TestTempDir(); std::string cpp_out = "--cpp_out=" + TestTempDir(); std::string test_out = "--test_out=" + TestTempDir(); const char* argv[] = {"protoc", proto_path.c_str(), cpp_out.c_str(), test_out.c_str(), "test.proto"}; EXPECT_EQ(0, cli.Run(5, argv)); } } // namespace } // namespace cpp } // namespace compiler } // namespace protobuf } // namespace google