/* * Copyright 2014 Google Inc. All rights reserved. * * 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 "flatbuffers/flatbuffers.h" #include "flatbuffers/idl.h" #include "flatbuffers/util.h" static void Error(const char *err, const char *obj = nullptr, bool usage = false, bool show_exe_name = true); // This struct allows us to create a table of all possible output generators // for the various programming languages and formats we support. struct Generator { bool (*generate)(const flatbuffers::Parser &parser, const std::string &path, const std::string &file_name, const flatbuffers::GeneratorOptions &opts); const char *generator_opt; const char *lang_name; flatbuffers::GeneratorOptions::Language lang; const char *generator_help; std::string (*make_rule)(const flatbuffers::Parser &parser, const std::string &path, const std::string &file_name, const flatbuffers::GeneratorOptions &opts); }; const Generator generators[] = { { flatbuffers::GenerateBinary, "-b", "binary", flatbuffers::GeneratorOptions::kMAX, "Generate wire format binaries for any data definitions", flatbuffers::BinaryMakeRule }, { flatbuffers::GenerateTextFile, "-t", "text", flatbuffers::GeneratorOptions::kMAX, "Generate text output for any data definitions", flatbuffers::TextMakeRule }, { flatbuffers::GenerateCPP, "-c", "C++", flatbuffers::GeneratorOptions::kMAX, "Generate C++ headers for tables/structs", flatbuffers::CPPMakeRule }, { flatbuffers::GenerateGo, "-g", "Go", flatbuffers::GeneratorOptions::kGo, "Generate Go files for tables/structs", flatbuffers::GeneralMakeRule }, { flatbuffers::GenerateGeneral, "-j", "Java", flatbuffers::GeneratorOptions::kJava, "Generate Java classes for tables/structs", flatbuffers::GeneralMakeRule }, { flatbuffers::GenerateGeneral, "-n", "C#", flatbuffers::GeneratorOptions::kCSharp, "Generate C# classes for tables/structs", flatbuffers::GeneralMakeRule }, }; const char *program_name = NULL; static void Error(const char *err, const char *obj, bool usage, bool show_exe_name) { if (show_exe_name) printf("%s: ", program_name); printf("%s", err); if (obj) printf(": %s", obj); printf("\n"); if (usage) { printf("usage: %s [OPTION]... FILE... [-- FILE...]\n", program_name); for (size_t i = 0; i < sizeof(generators) / sizeof(generators[0]); ++i) printf(" %s %s.\n", generators[i].generator_opt, generators[i].generator_help); printf( " -o PATH Prefix PATH to all generated files.\n" " -I PATH Search for includes in the specified path.\n" " -M Print make rules for generated files.\n" " --strict-json Strict JSON: field names must be / will be quoted,\n" " no trailing commas in tables/vectors.\n" " --no-prefix Don\'t prefix enum values with the enum type in C++.\n" " --gen-includes Generate include statements for included schemas the\n" " generated file depends on (C++).\n" " --proto Input is a .proto, translate to .fbs.\n" "FILEs may depend on declarations in earlier files.\n" "FILEs after the -- must be binary flatbuffer format files.\n" "Output files are named using the base file name of the input,\n" "and written to the current directory or the path given by -o.\n" "example: %s -c -b schema1.fbs schema2.fbs data.json\n", program_name); } exit(1); } int main(int argc, const char *argv[]) { program_name = argv[0]; flatbuffers::GeneratorOptions opts; std::string output_path; const size_t num_generators = sizeof(generators) / sizeof(generators[0]); bool generator_enabled[num_generators] = { false }; bool any_generator = false; bool print_make_rules = false; bool proto_mode = false; std::vector filenames; std::vector include_directories; size_t binary_files_from = std::numeric_limits::max(); for (int argi = 1; argi < argc; argi++) { const char *arg = argv[argi]; if (arg[0] == '-') { if (filenames.size() && arg[1] != '-') Error("invalid option location", arg, true); std::string opt = arg; if (opt == "-o") { if (++argi >= argc) Error("missing path following", arg, true); output_path = flatbuffers::ConCatPathFileName(argv[argi], ""); } else if(opt == "-I") { if (++argi >= argc) Error("missing path following", arg, true); include_directories.push_back(argv[argi]); } else if(opt == "--strict-json") { opts.strict_json = true; } else if(opt == "--no-prefix") { opts.prefixed_enums = false; } else if(opt == "--gen-includes") { opts.include_dependence_headers = true; } else if(opt == "--") { // Separator between text and binary inputs. binary_files_from = filenames.size(); } else if(opt == "--proto") { proto_mode = true; any_generator = true; } else if(opt == "-M") { print_make_rules = true; } else { for (size_t i = 0; i < num_generators; ++i) { if (opt == generators[i].generator_opt) { generator_enabled[i] = true; any_generator = true; goto found; } } Error("unknown commandline argument", arg, true); found:; } } else { filenames.push_back(argv[argi]); } } if (!filenames.size()) Error("missing input files", nullptr, true); if (!any_generator) Error("no options", "specify one of -c -g -j -t -b etc.", true); // Now process the files: flatbuffers::Parser parser(opts.strict_json, proto_mode); for (auto file_it = filenames.begin(); file_it != filenames.end(); ++file_it) { std::string contents; if (!flatbuffers::LoadFile(file_it->c_str(), true, &contents)) Error("unable to load file", file_it->c_str()); bool is_binary = static_cast(file_it - filenames.begin()) >= binary_files_from; if (is_binary) { parser.builder_.Clear(); parser.builder_.PushBytes( reinterpret_cast(contents.c_str()), contents.length()); } else { auto local_include_directory = flatbuffers::StripFileName(*file_it); include_directories.push_back(local_include_directory.c_str()); include_directories.push_back(nullptr); if (!parser.Parse(contents.c_str(), &include_directories[0], file_it->c_str())) Error(parser.error_.c_str(), nullptr, false, false); include_directories.pop_back(); include_directories.pop_back(); } std::string filebase = flatbuffers::StripPath( flatbuffers::StripExtension(*file_it)); for (size_t i = 0; i < num_generators; ++i) { opts.lang = generators[i].lang; if (generator_enabled[i]) { if (!print_make_rules) { flatbuffers::EnsureDirExists(output_path); if (!generators[i].generate(parser, output_path, filebase, opts)) { Error((std::string("Unable to generate ") + generators[i].lang_name + " for " + filebase).c_str()); } } else { std::string make_rule = generators[i].make_rule( parser, output_path, *file_it, opts); if (!make_rule.empty()) printf("%s\n", flatbuffers::WordWrap( make_rule, 80, " ", " \\").c_str()); } } } if (proto_mode) GenerateFBS(parser, output_path, filebase, opts); // We do not want to generate code for the definitions in this file // in any files coming up next. parser.MarkGenerated(); } return 0; }