in cdk/extra/protobuf/protobuf-3.19.6/src/google/protobuf/compiler/cpp/cpp_generator.cc [63:266]
bool CppGenerator::Generate(const FileDescriptor* file,
const std::string& parameter,
GeneratorContext* generator_context,
std::string* error) const {
std::vector<std::pair<std::string, std::string> > options;
ParseGeneratorParameter(parameter, &options);
// -----------------------------------------------------------------
// parse generator options
// If the dllexport_decl option is passed to the compiler, we need to write
// it in front of every symbol that should be exported if this .proto is
// compiled into a Windows DLL. E.g., if the user invokes the protocol
// compiler as:
// protoc --cpp_out=dllexport_decl=FOO_EXPORT:outdir foo.proto
// then we'll define classes like this:
// class FOO_EXPORT Foo {
// ...
// }
// FOO_EXPORT is a macro which should expand to __declspec(dllexport) or
// __declspec(dllimport) depending on what is being compiled.
//
Options file_options;
file_options.opensource_runtime = opensource_runtime_;
file_options.runtime_include_base = runtime_include_base_;
for (int i = 0; i < options.size(); i++) {
if (options[i].first == "dllexport_decl") {
file_options.dllexport_decl = options[i].second;
} else if (options[i].first == "safe_boundary_check") {
file_options.safe_boundary_check = true;
} else if (options[i].first == "annotate_headers") {
file_options.annotate_headers = true;
} else if (options[i].first == "annotation_pragma_name") {
file_options.annotation_pragma_name = options[i].second;
} else if (options[i].first == "annotation_guard_name") {
file_options.annotation_guard_name = options[i].second;
} else if (options[i].first == "speed") {
file_options.enforce_mode = EnforceOptimizeMode::kSpeed;
} else if (options[i].first == "code_size") {
file_options.enforce_mode = EnforceOptimizeMode::kCodeSize;
} else if (options[i].first == "lite") {
file_options.enforce_mode = EnforceOptimizeMode::kLiteRuntime;
} else if (options[i].first == "lite_implicit_weak_fields") {
file_options.enforce_mode = EnforceOptimizeMode::kLiteRuntime;
file_options.lite_implicit_weak_fields = true;
if (!options[i].second.empty()) {
file_options.num_cc_files =
strto32(options[i].second.c_str(), NULL, 10);
}
} else if (options[i].first == "annotate_accessor") {
file_options.annotate_accessor = true;
} else if (options[i].first == "inject_field_listener_events") {
file_options.field_listener_options.inject_field_listener_events = true;
} else if (options[i].first == "forbidden_field_listener_events") {
std::size_t pos = 0;
do {
std::size_t next_pos = options[i].second.find_first_of("+", pos);
if (next_pos == std::string::npos) {
next_pos = options[i].second.size();
}
if (next_pos > pos)
file_options.field_listener_options.forbidden_field_listener_events
.insert(options[i].second.substr(pos, next_pos - pos));
pos = next_pos + 1;
} while (pos < options[i].second.size());
} else if (options[i].first == "eagerly_verified_lazy") {
file_options.eagerly_verified_lazy = true;
} else if (options[i].first == "force_eagerly_verified_lazy") {
file_options.force_eagerly_verified_lazy = true;
} else if (options[i].first == "table_driven_parsing") {
file_options.table_driven_parsing = true;
} else if (options[i].first == "table_driven_serialization") {
file_options.table_driven_serialization = true;
} else if (options[i].first == "experimental_tail_call_table_mode") {
if (options[i].second == "never") {
file_options.tctable_mode = Options::kTCTableNever;
} else if (options[i].second == "guarded") {
file_options.tctable_mode = Options::kTCTableGuarded;
} else if (options[i].second == "always") {
file_options.tctable_mode = Options::kTCTableAlways;
} else {
*error = "Unknown value for experimental_tail_call_table_mode: " +
options[i].second;
return false;
}
} else {
*error = "Unknown generator option: " + options[i].first;
return false;
}
}
// The safe_boundary_check option controls behavior for Google-internal
// protobuf APIs.
if (file_options.safe_boundary_check && file_options.opensource_runtime) {
*error =
"The safe_boundary_check option is not supported outside of Google.";
return false;
}
// -----------------------------------------------------------------
std::string basename = StripProto(file->name());
if (MaybeBootstrap(file_options, generator_context, file_options.bootstrap,
&basename)) {
return true;
}
FileGenerator file_generator(file, file_options);
// Generate header(s).
if (file_options.proto_h) {
std::unique_ptr<io::ZeroCopyOutputStream> output(
generator_context->Open(basename + ".proto.h"));
GeneratedCodeInfo annotations;
io::AnnotationProtoCollector<GeneratedCodeInfo> annotation_collector(
&annotations);
std::string info_path = basename + ".proto.h.meta";
io::Printer printer(
output.get(), '$',
file_options.annotate_headers ? &annotation_collector : NULL);
file_generator.GenerateProtoHeader(
&printer, file_options.annotate_headers ? info_path : "");
if (file_options.annotate_headers) {
std::unique_ptr<io::ZeroCopyOutputStream> info_output(
generator_context->Open(info_path));
annotations.SerializeToZeroCopyStream(info_output.get());
}
}
{
std::unique_ptr<io::ZeroCopyOutputStream> output(
generator_context->Open(basename + ".pb.h"));
GeneratedCodeInfo annotations;
io::AnnotationProtoCollector<GeneratedCodeInfo> annotation_collector(
&annotations);
std::string info_path = basename + ".pb.h.meta";
io::Printer printer(
output.get(), '$',
file_options.annotate_headers ? &annotation_collector : NULL);
file_generator.GeneratePBHeader(
&printer, file_options.annotate_headers ? info_path : "");
if (file_options.annotate_headers) {
std::unique_ptr<io::ZeroCopyOutputStream> info_output(
generator_context->Open(info_path));
annotations.SerializeToZeroCopyStream(info_output.get());
}
}
// Generate cc file(s).
if (UsingImplicitWeakFields(file, file_options)) {
{
// This is the global .cc file, containing
// enum/services/tables/reflection
std::unique_ptr<io::ZeroCopyOutputStream> output(
generator_context->Open(basename + ".pb.cc"));
io::Printer printer(output.get(), '$');
file_generator.GenerateGlobalSource(&printer);
}
int num_cc_files =
file_generator.NumMessages() + file_generator.NumExtensions();
// If we're using implicit weak fields then we allow the user to
// optionally specify how many files to generate, not counting the global
// pb.cc file. If we have more files than messages, then some files will
// be generated as empty placeholders.
if (file_options.num_cc_files > 0) {
GOOGLE_CHECK_LE(num_cc_files, file_options.num_cc_files)
<< "There must be at least as many numbered .cc files as messages "
"and extensions.";
num_cc_files = file_options.num_cc_files;
}
int cc_file_number = 0;
for (int i = 0; i < file_generator.NumMessages(); i++) {
std::unique_ptr<io::ZeroCopyOutputStream> output(generator_context->Open(
NumberedCcFileName(basename, cc_file_number++)));
io::Printer printer(output.get(), '$');
file_generator.GenerateSourceForMessage(i, &printer);
}
for (int i = 0; i < file_generator.NumExtensions(); i++) {
std::unique_ptr<io::ZeroCopyOutputStream> output(generator_context->Open(
NumberedCcFileName(basename, cc_file_number++)));
io::Printer printer(output.get(), '$');
file_generator.GenerateSourceForExtension(i, &printer);
}
// Create empty placeholder files if necessary to match the expected number
// of files.
for (; cc_file_number < num_cc_files; ++cc_file_number) {
std::unique_ptr<io::ZeroCopyOutputStream> output(generator_context->Open(
NumberedCcFileName(basename, cc_file_number)));
}
} else {
std::unique_ptr<io::ZeroCopyOutputStream> output(
generator_context->Open(basename + ".pb.cc"));
io::Printer printer(output.get(), '$');
file_generator.GenerateSource(&printer);
}
return true;
}