// Copyright (c) 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "tools/gn/ninja_action_target_writer.h" #include #include "base/strings/string_util.h" #include "tools/gn/deps_iterator.h" #include "tools/gn/err.h" #include "tools/gn/pool.h" #include "tools/gn/settings.h" #include "tools/gn/string_utils.h" #include "tools/gn/substitution_writer.h" #include "tools/gn/target.h" NinjaActionTargetWriter::NinjaActionTargetWriter(const Target* target, std::ostream& out) : NinjaTargetWriter(target, out), path_output_no_escaping_( target->settings()->build_settings()->build_dir(), target->settings()->build_settings()->root_path_utf8(), ESCAPE_NONE) { } NinjaActionTargetWriter::~NinjaActionTargetWriter() = default; void NinjaActionTargetWriter::Run() { std::string custom_rule_name = WriteRuleDefinition(); // Collect our deps to pass as "extra hard dependencies" for input deps. This // will force all of the action's dependencies to be completed before the // action is run. Usually, if an action has a dependency, it will be // operating on the result of that previous step, so we need to be sure to // serialize these. std::vector extra_hard_deps; for (const auto& pair : target_->GetDeps(Target::DEPS_LINKED)) extra_hard_deps.push_back(pair.ptr); // For ACTIONs this is a bit inefficient since it creates an input dep // stamp file even though we're only going to use it once. It would save a // build step to skip this and write the order-only deps directly on the // build rule. This should probably be handled by WriteInputDepsStampAndGetDep // automatically if we supply a count of sources (so it can optimize based on // how many times things would be duplicated). OutputFile input_dep = WriteInputDepsStampAndGetDep(extra_hard_deps); out_ << std::endl; // Collects all output files for writing below. std::vector output_files; if (target_->output_type() == Target::ACTION_FOREACH) { // Write separate build lines for each input source file. WriteSourceRules(custom_rule_name, input_dep, &output_files); } else { DCHECK(target_->output_type() == Target::ACTION); // Write a rule that invokes the script once with the outputs as outputs, // and the data as inputs. It does not depend on the sources. out_ << "build"; SubstitutionWriter::GetListAsOutputFiles( settings_, target_->action_values().outputs(), &output_files); path_output_.WriteFiles(out_, output_files); out_ << ": " << custom_rule_name; if (!input_dep.value().empty()) { // As in WriteSourceRules, we want to force this target to rebuild any // time any of its dependencies change. out_ << " | "; path_output_.WriteFile(out_, input_dep); } out_ << std::endl; if (target_->action_values().has_depfile()) { out_ << " depfile = "; WriteDepfile(SourceFile()); out_ << std::endl; } if (target_->action_values().pool().ptr) { out_ << " pool = "; out_ << target_->action_values().pool().ptr->GetNinjaName( settings_->default_toolchain_label()); out_ << std::endl; } } out_ << std::endl; // Write the stamp, which also depends on all data deps. These are needed at // runtime and should be compiled when the action is, but don't need to be // done before we run the action. std::vector data_outs; for (const auto& dep : target_->data_deps()) data_outs.push_back(dep.ptr->dependency_output_file()); WriteStampForTarget(output_files, data_outs); } std::string NinjaActionTargetWriter::WriteRuleDefinition() { // Make a unique name for this rule. // // Use a unique name for the response file when there are multiple build // steps so that they don't stomp on each other. When there are no sources, // there will be only one invocation so we can use a simple name. std::string target_label = target_->label().GetUserVisibleName(true); std::string custom_rule_name(target_label); base::ReplaceChars(custom_rule_name, ":/()", "_", &custom_rule_name); custom_rule_name.append("_rule"); const SubstitutionList& args = target_->action_values().args(); EscapeOptions args_escape_options; args_escape_options.mode = ESCAPE_NINJA_COMMAND; out_ << "rule " << custom_rule_name << std::endl; if (target_->action_values().uses_rsp_file()) { // Needs a response file. The unique_name part is for action_foreach so // each invocation of the rule gets a different response file. This isn't // strictly necessary for regular one-shot actions, but it's easier to // just always define unique_name. std::string rspfile = custom_rule_name; if (!target_->sources().empty()) rspfile += ".$unique_name"; rspfile += ".rsp"; out_ << " rspfile = " << rspfile << std::endl; // Response file contents. out_ << " rspfile_content ="; for (const auto& arg : target_->action_values().rsp_file_contents().list()) { out_ << " "; SubstitutionWriter::WriteWithNinjaVariables( arg, args_escape_options, out_); } out_ << std::endl; } out_ << " command = "; path_output_.WriteFile(out_, settings_->build_settings()->python_path()); out_ << " "; path_output_.WriteFile(out_, target_->action_values().script()); for (const auto& arg : args.list()) { out_ << " "; SubstitutionWriter::WriteWithNinjaVariables( arg, args_escape_options, out_); } out_ << std::endl; out_ << " description = ACTION " << target_label << std::endl; out_ << " restat = 1" << std::endl; const Tool* tool = target_->toolchain()->GetTool(Toolchain::TYPE_ACTION); if (tool && tool->pool().ptr) { out_ << " pool = "; out_ << tool->pool().ptr->GetNinjaName( settings_->default_toolchain_label()); out_ << std::endl; } return custom_rule_name; } void NinjaActionTargetWriter::WriteSourceRules( const std::string& custom_rule_name, const OutputFile& input_dep, std::vector* output_files) { EscapeOptions args_escape_options; args_escape_options.mode = ESCAPE_NINJA_COMMAND; // We're writing the substitution values, these should not be quoted since // they will get pasted into the real command line. args_escape_options.inhibit_quoting = true; const Target::FileList& sources = target_->sources(); for (size_t i = 0; i < sources.size(); i++) { out_ << "build"; WriteOutputFilesForBuildLine(sources[i], output_files); out_ << ": " << custom_rule_name << " "; path_output_.WriteFile(out_, sources[i]); if (!input_dep.value().empty()) { // Using "|" for the dependencies forces all implicit dependencies to be // fully up to date before running the action, and will re-run this // action if any input dependencies change. This is important because // this action may consume the outputs of previous steps. out_ << " | "; path_output_.WriteFile(out_, input_dep); } out_ << std::endl; // Response files require a unique name be defined. if (target_->action_values().uses_rsp_file()) out_ << " unique_name = " << i << std::endl; // The required types is the union of the args and response file. This // might theoretically duplicate a definition if the same substitution is // used in both the args and the response file. However, this should be // very unusual (normally the substitutions will go in one place or the // other) and the redundant assignment won't bother Ninja. SubstitutionWriter::WriteNinjaVariablesForSource( target_, settings_, sources[i], target_->action_values().args().required_types(), args_escape_options, out_); SubstitutionWriter::WriteNinjaVariablesForSource( target_, settings_, sources[i], target_->action_values().rsp_file_contents().required_types(), args_escape_options, out_); if (target_->action_values().has_depfile()) { out_ << " depfile = "; WriteDepfile(sources[i]); out_ << std::endl; } } } void NinjaActionTargetWriter::WriteOutputFilesForBuildLine( const SourceFile& source, std::vector* output_files) { size_t first_output_index = output_files->size(); SubstitutionWriter::ApplyListToSourceAsOutputFile( target_, settings_, target_->action_values().outputs(), source, output_files); for (size_t i = first_output_index; i < output_files->size(); i++) { out_ << " "; path_output_.WriteFile(out_, (*output_files)[i]); } } void NinjaActionTargetWriter::WriteDepfile(const SourceFile& source) { path_output_.WriteFile(out_, SubstitutionWriter::ApplyPatternToSourceAsOutputFile( target_, settings_, target_->action_values().depfile(), source)); }