src/gn/json_project_writer.cc - third_party/gn - Git at Google

 // Copyright (c) 2016 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 "gn/json_project_writer.h"

 #include <algorithm>
 #include <fstream>
 #include <memory>
 #include <unordered_map>
 #include <vector>

 #include "base/command_line.h"
 #include "base/files/file_path.h"
 #include "base/files/file_util.h"
 #include "base/json/json_writer.h"
 #include "base/json/string_escape.h"
 #include "base/strings/string_number_conversions.h"
 #include "gn/builder.h"
 #include "gn/commands.h"
 #include "gn/deps_iterator.h"
 #include "gn/desc_builder.h"
 #include "gn/exec_process.h"
 #include "gn/filesystem_utils.h"
 #include "gn/scheduler.h"
 #include "gn/settings.h"
 #include "gn/string_output_buffer.h"

 // Structure of JSON output file
 // {
 //   "build_settings" : {
 //     "root_path" : "absolute path of project root",
 //     "build_dir" : "build directory (project relative)",
 //     "default_toolchain" : "name of default toolchain"
 //   }
 //   "targets" : {
 //      "target x full label" : { target x properties },
 //      "target y full label" : { target y properties },
 //      ...
 //    }
 // }
 // See desc_builder.cc for overview of target properties

 namespace {

 void AddTargetDependencies(const Target* target,
                            std::set<const Target*>* deps) {
   for (const auto& pair : target->GetDeps(Target::DEPS_LINKED)) {
     if (deps->find(pair.ptr) == deps->end()) {
       deps->insert(pair.ptr);
       AddTargetDependencies(pair.ptr, deps);
     }
   }
 }

 // Filters targets according to filter string; Will also recursively
 // add dependent targets.
 bool FilterTargets(const BuildSettings* build_settings,
                    std::vector<const Target*>& all_targets,
                    std::vector<const Target*>* targets,
                    const std::string& dir_filter_string,
                    Err* err) {
   if (dir_filter_string.empty()) {
     *targets = all_targets;
   } else {
     targets->reserve(all_targets.size());
     std::vector<LabelPattern> filters;
     if (!commands::FilterPatternsFromString(build_settings, dir_filter_string,
                                             &filters, err)) {
       return false;
     }
     commands::FilterTargetsByPatterns(all_targets, filters, targets);

     std::set<const Target*> target_set(targets->begin(), targets->end());
     for (const auto* target : *targets)
       AddTargetDependencies(target, &target_set);

     targets->clear();
     targets->insert(targets->end(), target_set.begin(), target_set.end());
   }

   // Sort the list of targets per-label to get a consistent ordering of them
   // in the generated project (and thus stability of the file generated).
   std::sort(targets->begin(), targets->end(),
             [](const Target* a, const Target* b) {
               return a->label().name() < b->label().name();
             });

   return true;
 }

 bool InvokePython(const BuildSettings* build_settings,
                   const base::FilePath& python_script_path,
                   const std::string& python_script_extra_args,
                   const base::FilePath& output_path,
                   bool quiet,
                   Err* err) {
   const base::FilePath& python_path = build_settings->python_path();
   base::CommandLine cmdline(python_path);
   cmdline.AppendArg("--");
   cmdline.AppendArgPath(python_script_path);
   cmdline.AppendArgPath(output_path);
   if (!python_script_extra_args.empty()) {
     cmdline.AppendArg(python_script_extra_args);
   }
   base::FilePath startup_dir =
       build_settings->GetFullPath(build_settings->build_dir());

   std::string output;
   std::string stderr_output;

   int exit_code = 0;
   if (!internal::ExecProcess(cmdline, startup_dir, &output, &stderr_output,
                              &exit_code)) {
     *err =
         Err(Location(), "Could not execute python.",
             "I was trying to execute \"" + FilePathToUTF8(python_path) + "\".");
     return false;
   }

   if (!quiet) {
     printf("%s", output.c_str());
     fprintf(stderr, "%s", stderr_output.c_str());
   }

   if (exit_code != 0) {
     *err = Err(Location(), "Python has quit with exit code " +
                                base::IntToString(exit_code) + ".");
     return false;
   }

   return true;
 }

 }  // namespace

 bool JSONProjectWriter::RunAndWriteFiles(
     const BuildSettings* build_settings,
     const Builder& builder,
     const std::string& file_name,
     const std::string& exec_script,
     const std::string& exec_script_extra_args,
     const std::string& dir_filter_string,
     bool quiet,
     Err* err) {
   SourceFile output_file = build_settings->build_dir().ResolveRelativeFile(
       Value(nullptr, file_name), err);
   if (output_file.is_null()) {
     return false;
   }

   base::FilePath output_path = build_settings->GetFullPath(output_file);

   std::vector<const Target*> all_targets = builder.GetAllResolvedTargets();
   std::vector<const Target*> targets;
   if (!FilterTargets(build_settings, all_targets, &targets, dir_filter_string,
                      err)) {
     return false;
   }

   StringOutputBuffer json = GenerateJSON(build_settings, targets);
   if (!json.ContentsEqual(output_path)) {
     if (!json.WriteToFile(output_path, err)) {
       return false;
     }

     if (!exec_script.empty()) {
       SourceFile script_file;
       if (exec_script[0] != '/') {
         // Relative path, assume the base is in build_dir.
         script_file = build_settings->build_dir().ResolveRelativeFile(
             Value(nullptr, exec_script), err);
         if (script_file.is_null()) {
           return false;
         }
       } else {
         script_file = SourceFile(exec_script);
       }
       base::FilePath script_path = build_settings->GetFullPath(script_file);
       return InvokePython(build_settings, script_path, exec_script_extra_args,
                           output_path, quiet, err);
     }
   }

   return true;
 }

 namespace {

 // NOTE: Intentional macro definition allows compile-time string concatenation.
 // (see usage below).
 #if defined(OS_WINDOWS)
 #define LINE_ENDING "\r\n"
 #else
 #define LINE_ENDING "\n"
 #endif

 // Helper class to output a, potentially very large, JSON file to a
 // StringOutputBuffer. Note that sorting the keys, if desired, is left to
 // the user (unlike base::JSONWriter). This allows rendering to be performed
 // in series of incremental steps. Usage is:
 //
 //   1) Create instance, passing a StringOutputBuffer reference as the
 //      destination.
 //
 //   2) Add keys and values using one of the following:
 //
 //       a) AddString(key, string_value) to add one string value.
 //
 //       b) BeginList(key), AddListItem(), EndList() to add a string list.
 //          NOTE: Only lists of strings are supported here.
 //
 //       c) BeginDict(key), ... add other keys, followed by EndDict() to add
 //          a dictionary key.
 //
 //   3) Call Close() or destroy the instance to finalize the output.
 //
 class SimpleJSONWriter {
  public:
   // Constructor.
   SimpleJSONWriter(StringOutputBuffer& out) : out_(out) {
     out_ << "{" LINE_ENDING;
     SetIndentation(1u);
   }

   // Destructor.
   ~SimpleJSONWriter() { Close(); }

   // Closing finalizes the output.
   void Close() {
     if (indentation_ > 0) {
       DCHECK(indentation_ == 1u);
       if (comma_.size())
         out_ << LINE_ENDING;

       out_ << "}" LINE_ENDING;
       SetIndentation(0);
     }
   }

   // Add new string-valued key.
   void AddString(std::string_view key, std::string_view value) {
     if (comma_.size()) {
       out_ << comma_;
     }
     AddMargin() << Escape(key) << ": " << Escape(value);
     comma_ = "," LINE_ENDING;
   }

   // Begin a new list. Must be followed by zero or more AddListItem() calls,
   // then by EndList().
   void BeginList(std::string_view key) {
     if (comma_.size())
       out_ << comma_;
     AddMargin() << Escape(key) << ": [ ";
     comma_ = {};
   }

   // Add a new list item. For now only string values are supported.
   void AddListItem(std::string_view item) {
     if (comma_.size())
       out_ << comma_;
     out_ << Escape(item);
     comma_ = ", ";
   }

   // End current list.
   void EndList() {
     out_ << " ]";
     comma_ = "," LINE_ENDING;
   }

   // Begin new dictionaary. Must be followed by zero or more other key
   // additions, then a call to EndDict().
   void BeginDict(std::string_view key) {
     if (comma_.size())
       out_ << comma_;

     AddMargin() << Escape(key) << ": {";
     SetIndentation(indentation_ + 1);
     comma_ = LINE_ENDING;
   }

   // End current dictionary.
   void EndDict() {
     if (comma_.size())
       out_ << LINE_ENDING;

     SetIndentation(indentation_ - 1);
     AddMargin() << "}";
     comma_ = "," LINE_ENDING;
   }

   // Add a dictionary-valued key, whose value is already formatted as a valid
   // JSON string. Useful to insert the output of base::JSONWriter::Write()
   // into the target buffer.
   void AddJSONDict(std::string_view key, std::string_view json) {
     if (comma_.size())
       out_ << comma_;
     AddMargin() << Escape(key) << ": ";
     if (json.empty()) {
       out_ << "{ }";
     } else {
       DCHECK(json[0] == '{');
       bool first_line = true;
       do {
         size_t line_end = json.find('\n');

         // NOTE: Do not add margin if original input line is empty.
         // This needs to deal with CR/LF which are part of |json| on Windows
         // only, due to the way base::JSONWriter::Write() is implemented.
         bool line_empty = (line_end == 0 || (line_end == 1 && json[0] == '\r'));
         if (!first_line && !line_empty)
           AddMargin();

         if (line_end == std::string_view::npos) {
           out_ << json;
           ;
           comma_ = {};
           return;
         }
         // Important: do not add the final newline.
         out_ << json.substr(
             0, (line_end == json.size() - 1) ? line_end : line_end + 1);
         json.remove_prefix(line_end + 1);
         first_line = false;
       } while (!json.empty());
     }
     comma_ = "," LINE_ENDING;
   }

  private:
   // Return the JSON-escape version of |str|.
   static std::string Escape(std::string_view str) {
     std::string result;
     base::EscapeJSONString(str, true, &result);
     return result;
   }

   // Adjust indentation level.
   void SetIndentation(size_t indentation) { indentation_ = indentation; }

   // Append margin, and return reference to output buffer.
   StringOutputBuffer& AddMargin() const {
     static const char kMargin[17] = "                ";
     size_t margin_len = indentation_ * 3;
     while (margin_len > 0) {
       size_t span = (margin_len > 16u) ? 16u : margin_len;
       out_.Append(kMargin, span);
       margin_len -= span;
     }
     return out_;
   }

   size_t indentation_ = 0;
   std::string_view comma_;
   StringOutputBuffer& out_;
 };

 }  // namespace

 StringOutputBuffer JSONProjectWriter::GenerateJSON(
     const BuildSettings* build_settings,
     std::vector<const Target*>& all_targets) {
   Label default_toolchain_label;
   if (!all_targets.empty())
     default_toolchain_label =
         all_targets[0]->settings()->default_toolchain_label();

   StringOutputBuffer out;

   // Sort the targets according to their human visible labels first.
   std::unordered_map<const Target*, std::string> target_labels;
   for (const Target* target : all_targets) {
     target_labels[target] =
         target->label().GetUserVisibleName(default_toolchain_label);
   }

   std::vector<const Target*> sorted_targets(all_targets.begin(),
                                             all_targets.end());
   std::sort(sorted_targets.begin(), sorted_targets.end(),
             [&target_labels](const Target* a, const Target* b) {
               return target_labels[a] < target_labels[b];
             });

   SimpleJSONWriter json_writer(out);

   // IMPORTANT: Keep the keys sorted when adding them to |json_writer|.

   json_writer.BeginDict("build_settings");
   {
     json_writer.AddString("build_dir", build_settings->build_dir().value());

     json_writer.AddString("default_toolchain",
                           default_toolchain_label.GetUserVisibleName(false));

     json_writer.BeginList("gen_input_files");

     // Other files read by the build.
     std::vector<base::FilePath> other_files = g_scheduler->GetGenDependencies();

     const InputFileManager* input_file_manager =
         g_scheduler->input_file_manager();

     VectorSetSorter<base::FilePath> sorter(
         input_file_manager->GetInputFileCount() + other_files.size());

     input_file_manager->AddAllPhysicalInputFileNamesToVectorSetSorter(&sorter);

     sorter.Add(other_files.begin(), other_files.end());

     std::string build_path = FilePathToUTF8(build_settings->root_path());
     auto item_callback = [&json_writer,
                           &build_path](const base::FilePath& input_file) {
       std::string file;
       if (MakeAbsolutePathRelativeIfPossible(
               build_path, FilePathToUTF8(input_file), &file)) {
         json_writer.AddListItem(file);
       }
     };
     sorter.IterateOver(item_callback);

     json_writer.EndList();  // gen_input_files

     json_writer.AddString("root_path", build_settings->root_path_utf8());
   }
   json_writer.EndDict();  // build_settings

   json_writer.BeginDict("targets");
   {
     for (const auto* target : sorted_targets) {
       auto description =
           DescBuilder::DescriptionForTarget(target, "", false, false, false);
       // Outputs need to be asked for separately.
       auto outputs = DescBuilder::DescriptionForTarget(target, "source_outputs",
                                                        false, false, false);
       base::DictionaryValue* outputs_value = nullptr;
       if (outputs->GetDictionary("source_outputs", &outputs_value) &&
           !outputs_value->empty()) {
         description->MergeDictionary(outputs.get());
       }

       std::string json_dict;
       base::JSONWriter::WriteWithOptions(*description.get(),
                                          base::JSONWriter::OPTIONS_PRETTY_PRINT,
                                          &json_dict);
       json_writer.AddJSONDict(target_labels[target], json_dict);
     }
   }
   json_writer.EndDict();  // targets

   json_writer.Close();

   return out;
 }

 std::string JSONProjectWriter::RenderJSON(
     const BuildSettings* build_settings,
     std::vector<const Target*>& all_targets) {
   StringOutputBuffer storage = GenerateJSON(build_settings, all_targets);
   return storage.str();
 }
	// Copyright (c) 2016 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 "gn/json_project_writer.h"

	#include <algorithm>
	#include <fstream>
	#include <memory>
	#include <unordered_map>
	#include <vector>

	#include "base/command_line.h"
	#include "base/files/file_path.h"
	#include "base/files/file_util.h"
	#include "base/json/json_writer.h"
	#include "base/json/string_escape.h"
	#include "base/strings/string_number_conversions.h"
	#include "gn/builder.h"
	#include "gn/commands.h"
	#include "gn/deps_iterator.h"
	#include "gn/desc_builder.h"
	#include "gn/exec_process.h"
	#include "gn/filesystem_utils.h"
	#include "gn/scheduler.h"
	#include "gn/settings.h"
	#include "gn/string_output_buffer.h"

	// Structure of JSON output file
	// {
	// "build_settings" : {
	// "root_path" : "absolute path of project root",
	// "build_dir" : "build directory (project relative)",
	// "default_toolchain" : "name of default toolchain"
	// }
	// "targets" : {
	// "target x full label" : { target x properties },
	// "target y full label" : { target y properties },
	// ...
	// }
	// }
	// See desc_builder.cc for overview of target properties

	namespace {

	void AddTargetDependencies(const Target* target,
	std::set<const Target> deps) {
	for (const auto& pair : target->GetDeps(Target::DEPS_LINKED)) {
	if (deps->find(pair.ptr) == deps->end()) {
	deps->insert(pair.ptr);
	AddTargetDependencies(pair.ptr, deps);
	}
	}
	}

	// Filters targets according to filter string; Will also recursively
	// add dependent targets.
	bool FilterTargets(const BuildSettings* build_settings,
	std::vector<const Target*>& all_targets,
	std::vector<const Target> targets,
	const std::string& dir_filter_string,
	Err* err) {
	if (dir_filter_string.empty()) {
	*targets = all_targets;
	} else {
	targets->reserve(all_targets.size());
	std::vector<LabelPattern> filters;
	if (!commands::FilterPatternsFromString(build_settings, dir_filter_string,
	&filters, err)) {
	return false;
	}
	commands::FilterTargetsByPatterns(all_targets, filters, targets);

	std::set<const Target*> target_set(targets->begin(), targets->end());
	for (const auto* target : *targets)
	AddTargetDependencies(target, &target_set);

	targets->clear();
	targets->insert(targets->end(), target_set.begin(), target_set.end());
	}

	// Sort the list of targets per-label to get a consistent ordering of them
	// in the generated project (and thus stability of the file generated).
	std::sort(targets->begin(), targets->end(),
	[](const Target* a, const Target* b) {
	return a->label().name() < b->label().name();
	});

	return true;
	}

	bool InvokePython(const BuildSettings* build_settings,
	const base::FilePath& python_script_path,
	const std::string& python_script_extra_args,
	const base::FilePath& output_path,
	bool quiet,
	Err* err) {
	const base::FilePath& python_path = build_settings->python_path();
	base::CommandLine cmdline(python_path);
	cmdline.AppendArg("--");
	cmdline.AppendArgPath(python_script_path);
	cmdline.AppendArgPath(output_path);
	if (!python_script_extra_args.empty()) {
	cmdline.AppendArg(python_script_extra_args);
	}
	base::FilePath startup_dir =
	build_settings->GetFullPath(build_settings->build_dir());

	std::string output;
	std::string stderr_output;

	int exit_code = 0;
	if (!internal::ExecProcess(cmdline, startup_dir, &output, &stderr_output,
	&exit_code)) {
	*err =
	Err(Location(), "Could not execute python.",
	"I was trying to execute \"" + FilePathToUTF8(python_path) + "\".");
	return false;
	}

	if (!quiet) {
	printf("%s", output.c_str());
	fprintf(stderr, "%s", stderr_output.c_str());
	}

	if (exit_code != 0) {
	*err = Err(Location(), "Python has quit with exit code " +
	base::IntToString(exit_code) + ".");
	return false;
	}

	return true;
	}

	} // namespace

	bool JSONProjectWriter::RunAndWriteFiles(
	const BuildSettings* build_settings,
	const Builder& builder,
	const std::string& file_name,
	const std::string& exec_script,
	const std::string& exec_script_extra_args,
	const std::string& dir_filter_string,
	bool quiet,
	Err* err) {
	SourceFile output_file = build_settings->build_dir().ResolveRelativeFile(
	Value(nullptr, file_name), err);
	if (output_file.is_null()) {
	return false;
	}

	base::FilePath output_path = build_settings->GetFullPath(output_file);

	std::vector<const Target*> all_targets = builder.GetAllResolvedTargets();
	std::vector<const Target*> targets;
	if (!FilterTargets(build_settings, all_targets, &targets, dir_filter_string,
	err)) {
	return false;
	}

	StringOutputBuffer json = GenerateJSON(build_settings, targets);
	if (!json.ContentsEqual(output_path)) {
	if (!json.WriteToFile(output_path, err)) {
	return false;
	}

	if (!exec_script.empty()) {
	SourceFile script_file;
	if (exec_script[0] != '/') {
	// Relative path, assume the base is in build_dir.
	script_file = build_settings->build_dir().ResolveRelativeFile(
	Value(nullptr, exec_script), err);
	if (script_file.is_null()) {
	return false;
	}
	} else {
	script_file = SourceFile(exec_script);
	}
	base::FilePath script_path = build_settings->GetFullPath(script_file);
	return InvokePython(build_settings, script_path, exec_script_extra_args,
	output_path, quiet, err);
	}
	}

	return true;
	}

	namespace {

	// NOTE: Intentional macro definition allows compile-time string concatenation.
	// (see usage below).
	#if defined(OS_WINDOWS)
	#define LINE_ENDING "\r\n"
	#else
	#define LINE_ENDING "\n"
	#endif

	// Helper class to output a, potentially very large, JSON file to a
	// StringOutputBuffer. Note that sorting the keys, if desired, is left to
	// the user (unlike base::JSONWriter). This allows rendering to be performed
	// in series of incremental steps. Usage is:
	//
	// 1) Create instance, passing a StringOutputBuffer reference as the
	// destination.
	//
	// 2) Add keys and values using one of the following:
	//
	// a) AddString(key, string_value) to add one string value.
	//
	// b) BeginList(key), AddListItem(), EndList() to add a string list.
	// NOTE: Only lists of strings are supported here.
	//
	// c) BeginDict(key), ... add other keys, followed by EndDict() to add
	// a dictionary key.
	//
	// 3) Call Close() or destroy the instance to finalize the output.
	//
	class SimpleJSONWriter {
	public:
	// Constructor.
	SimpleJSONWriter(StringOutputBuffer& out) : out_(out) {
	out_ << "{" LINE_ENDING;
	SetIndentation(1u);
	}

	// Destructor.
	~SimpleJSONWriter() { Close(); }

	// Closing finalizes the output.
	void Close() {
	if (indentation_ > 0) {
	DCHECK(indentation_ == 1u);
	if (comma_.size())
	out_ << LINE_ENDING;

	out_ << "}" LINE_ENDING;
	SetIndentation(0);
	}
	}

	// Add new string-valued key.
	void AddString(std::string_view key, std::string_view value) {
	if (comma_.size()) {
	out_ << comma_;
	}
	AddMargin() << Escape(key) << ": " << Escape(value);
	comma_ = "," LINE_ENDING;
	}

	// Begin a new list. Must be followed by zero or more AddListItem() calls,
	// then by EndList().
	void BeginList(std::string_view key) {
	if (comma_.size())
	out_ << comma_;
	AddMargin() << Escape(key) << ": [ ";
	comma_ = {};
	}

	// Add a new list item. For now only string values are supported.
	void AddListItem(std::string_view item) {
	if (comma_.size())
	out_ << comma_;
	out_ << Escape(item);
	comma_ = ", ";
	}

	// End current list.
	void EndList() {
	out_ << " ]";
	comma_ = "," LINE_ENDING;
	}

	// Begin new dictionaary. Must be followed by zero or more other key
	// additions, then a call to EndDict().
	void BeginDict(std::string_view key) {
	if (comma_.size())
	out_ << comma_;

	AddMargin() << Escape(key) << ": {";
	SetIndentation(indentation_ + 1);
	comma_ = LINE_ENDING;
	}

	// End current dictionary.
	void EndDict() {
	if (comma_.size())
	out_ << LINE_ENDING;

	SetIndentation(indentation_ - 1);
	AddMargin() << "}";
	comma_ = "," LINE_ENDING;
	}

	// Add a dictionary-valued key, whose value is already formatted as a valid
	// JSON string. Useful to insert the output of base::JSONWriter::Write()
	// into the target buffer.
	void AddJSONDict(std::string_view key, std::string_view json) {
	if (comma_.size())
	out_ << comma_;
	AddMargin() << Escape(key) << ": ";
	if (json.empty()) {
	out_ << "{ }";
	} else {
	DCHECK(json[0] == '{');
	bool first_line = true;
	do {
	size_t line_end = json.find('\n');

	// NOTE: Do not add margin if original input line is empty.
	// This needs to deal with CR/LF which are part of \|json\| on Windows
	// only, due to the way base::JSONWriter::Write() is implemented.
	bool line_empty = (line_end == 0 \|\| (line_end == 1 && json[0] == '\r'));
	if (!first_line && !line_empty)
	AddMargin();

	if (line_end == std::string_view::npos) {
	out_ << json;
	;
	comma_ = {};
	return;
	}
	// Important: do not add the final newline.
	out_ << json.substr(
	0, (line_end == json.size() - 1) ? line_end : line_end + 1);
	json.remove_prefix(line_end + 1);
	first_line = false;
	} while (!json.empty());
	}
	comma_ = "," LINE_ENDING;
	}

	private:
	// Return the JSON-escape version of \|str\|.
	static std::string Escape(std::string_view str) {
	std::string result;
	base::EscapeJSONString(str, true, &result);
	return result;
	}

	// Adjust indentation level.
	void SetIndentation(size_t indentation) { indentation_ = indentation; }

	// Append margin, and return reference to output buffer.
	StringOutputBuffer& AddMargin() const {
	static const char kMargin[17] = " ";
	size_t margin_len = indentation_ * 3;
	while (margin_len > 0) {
	size_t span = (margin_len > 16u) ? 16u : margin_len;
	out_.Append(kMargin, span);
	margin_len -= span;
	}
	return out_;
	}

	size_t indentation_ = 0;
	std::string_view comma_;
	StringOutputBuffer& out_;
	};

	} // namespace

	StringOutputBuffer JSONProjectWriter::GenerateJSON(
	const BuildSettings* build_settings,
	std::vector<const Target*>& all_targets) {
	Label default_toolchain_label;
	if (!all_targets.empty())
	default_toolchain_label =
	all_targets[0]->settings()->default_toolchain_label();

	StringOutputBuffer out;

	// Sort the targets according to their human visible labels first.
	std::unordered_map<const Target*, std::string> target_labels;
	for (const Target* target : all_targets) {
	target_labels[target] =
	target->label().GetUserVisibleName(default_toolchain_label);
	}

	std::vector<const Target*> sorted_targets(all_targets.begin(),
	all_targets.end());
	std::sort(sorted_targets.begin(), sorted_targets.end(),
	[&target_labels](const Target* a, const Target* b) {
	return target_labels[a] < target_labels[b];
	});

	SimpleJSONWriter json_writer(out);

	// IMPORTANT: Keep the keys sorted when adding them to \|json_writer\|.

	json_writer.BeginDict("build_settings");
	{
	json_writer.AddString("build_dir", build_settings->build_dir().value());

	json_writer.AddString("default_toolchain",
	default_toolchain_label.GetUserVisibleName(false));

	json_writer.BeginList("gen_input_files");

	// Other files read by the build.
	std::vector<base::FilePath> other_files = g_scheduler->GetGenDependencies();

	const InputFileManager* input_file_manager =
	g_scheduler->input_file_manager();

	VectorSetSorter<base::FilePath> sorter(
	input_file_manager->GetInputFileCount() + other_files.size());

	input_file_manager->AddAllPhysicalInputFileNamesToVectorSetSorter(&sorter);

	sorter.Add(other_files.begin(), other_files.end());

	std::string build_path = FilePathToUTF8(build_settings->root_path());
	auto item_callback = [&json_writer,
	&build_path](const base::FilePath& input_file) {
	std::string file;
	if (MakeAbsolutePathRelativeIfPossible(
	build_path, FilePathToUTF8(input_file), &file)) {
	json_writer.AddListItem(file);
	}
	};
	sorter.IterateOver(item_callback);

	json_writer.EndList(); // gen_input_files

	json_writer.AddString("root_path", build_settings->root_path_utf8());
	}
	json_writer.EndDict(); // build_settings

	json_writer.BeginDict("targets");
	{
	for (const auto* target : sorted_targets) {
	auto description =
	DescBuilder::DescriptionForTarget(target, "", false, false, false);
	// Outputs need to be asked for separately.
	auto outputs = DescBuilder::DescriptionForTarget(target, "source_outputs",
	false, false, false);
	base::DictionaryValue* outputs_value = nullptr;
	if (outputs->GetDictionary("source_outputs", &outputs_value) &&
	!outputs_value->empty()) {
	description->MergeDictionary(outputs.get());
	}

	std::string json_dict;
	base::JSONWriter::WriteWithOptions(*description.get(),
	base::JSONWriter::OPTIONS_PRETTY_PRINT,
	&json_dict);
	json_writer.AddJSONDict(target_labels[target], json_dict);
	}
	}
	json_writer.EndDict(); // targets

	json_writer.Close();

	return out;
	}

	std::string JSONProjectWriter::RenderJSON(
	const BuildSettings* build_settings,
	std::vector<const Target*>& all_targets) {
	StringOutputBuffer storage = GenerateJSON(build_settings, all_targets);
	return storage.str();
	}