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

 // Copyright 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/analyzer.h"

 #include <algorithm>
 #include <iterator>
 #include <memory>
 #include <set>
 #include <vector>

 #include "base/json/json_reader.h"
 #include "base/json/json_writer.h"
 #include "base/strings/string_util.h"
 #include "base/values.h"
 #include "gn/builder.h"
 #include "gn/config.h"
 #include "gn/config_values_extractors.h"
 #include "gn/deps_iterator.h"
 #include "gn/err.h"
 #include "gn/filesystem_utils.h"
 #include "gn/loader.h"
 #include "gn/location.h"
 #include "gn/pool.h"
 #include "gn/source_file.h"
 #include "gn/target.h"

 namespace {

 struct Inputs {
   std::vector<SourceFile> source_vec;
   std::vector<Label> compile_vec;
   std::vector<Label> test_vec;
   bool compile_included_all = false;
   std::set<const SourceFile*> source_files;
   std::set<Label> compile_labels;
   std::set<Label> test_labels;
 };

 struct Outputs {
   std::string status;
   std::string error;
   bool compile_includes_all = false;
   std::set<Label> compile_labels;
   std::set<Label> test_labels;
   std::set<Label> invalid_labels;
 };

 std::set<Label> LabelsFor(const std::set<const Target*>& targets) {
   std::set<Label> labels;
   for (auto* target : targets)
     labels.insert(target->label());
   return labels;
 }

 std::set<const Target*> Intersect(const std::set<const Target*>& l,
                                   const std::set<const Target*>& r) {
   std::set<const Target*> result;
   std::set_intersection(l.begin(), l.end(), r.begin(), r.end(),
                         std::inserter(result, result.begin()));
   return result;
 }

 std::vector<std::string> GetStringVector(const base::DictionaryValue& dict,
                                          const std::string& key,
                                          Err* err) {
   std::vector<std::string> strings;
   const base::ListValue* lst;
   bool ret = dict.GetList(key, &lst);
   if (!ret) {
     *err = Err(Location(), "Input does not have a key named \"" + key +
                                "\" with a list value.");
     return strings;
   }

   for (size_t i = 0; i < lst->GetSize(); i++) {
     std::string s;
     ret = lst->GetString(i, &s);
     if (!ret) {
       *err = Err(Location(), "Item " + std::to_string(i) + " of \"" + key +
                                  "\" is not a string.");
       strings.clear();
       return strings;
     }
     strings.push_back(std::move(s));
   }
   *err = Err();
   return strings;
 }

 void WriteString(base::DictionaryValue& dict,
                  const std::string& key,
                  const std::string& value) {
   dict.SetKey(key, base::Value(value));
 };

 void WriteLabels(const Label& default_toolchain,
                  base::DictionaryValue& dict,
                  const std::string& key,
                  const std::set<Label>& labels) {
   std::vector<std::string> strings;
   auto value = std::make_unique<base::ListValue>();
   for (const auto& l : labels)
     strings.push_back(l.GetUserVisibleName(default_toolchain));
   std::sort(strings.begin(), strings.end());
   value->AppendStrings(strings);
   dict.SetWithoutPathExpansion(key, std::move(value));
 }

 Label AbsoluteOrSourceAbsoluteStringToLabel(const Label& default_toolchain,
                                             const std::string& s,
                                             Err* err) {
   if (!IsPathSourceAbsolute(s) && !IsPathAbsolute(s)) {
     *err = Err(Location(),
                "\"" + s + "\" is not a source-absolute or absolute path.");
     return Label();
   }
   return Label::Resolve(SourceDir("//"), std::string_view(), default_toolchain,
                         Value(nullptr, s), err);
 }

 Err JSONToInputs(const Label& default_toolchain,
                  const std::string input,
                  Inputs* inputs) {
   int error_code_out;
   std::string error_msg_out;
   int error_line_out;
   int error_column_out;
   std::unique_ptr<base::Value> value = base::JSONReader::ReadAndReturnError(
       input, base::JSONParserOptions::JSON_PARSE_RFC, &error_code_out,
       &error_msg_out, &error_line_out, &error_column_out);
   if (!value)
     return Err(Location(), "Input is not valid JSON:" + error_msg_out);

   const base::DictionaryValue* dict;
   if (!value->GetAsDictionary(&dict))
     return Err(Location(), "Input is not a dictionary.");

   Err err;
   std::vector<std::string> strings;
   strings = GetStringVector(*dict, "files", &err);
   if (err.has_error())
     return err;
   for (auto& s : strings) {
     if (!IsPathSourceAbsolute(s) && !IsPathAbsolute(s)) {
       return Err(Location(),
                  "\"" + s + "\" is not a source-absolute or absolute path.");
     }
     inputs->source_vec.emplace_back(std::move(s));
   }

   strings = GetStringVector(*dict, "additional_compile_targets", &err);
   if (err.has_error())
     return err;

   inputs->compile_included_all = false;
   for (auto& s : strings) {
     if (s == "all") {
       inputs->compile_included_all = true;
     } else {
       inputs->compile_vec.push_back(
           AbsoluteOrSourceAbsoluteStringToLabel(default_toolchain, s, &err));
       if (err.has_error())
         return err;
     }
   }

   strings = GetStringVector(*dict, "test_targets", &err);
   if (err.has_error())
     return err;
   for (auto& s : strings) {
     inputs->test_vec.push_back(
         AbsoluteOrSourceAbsoluteStringToLabel(default_toolchain, s, &err));
     if (err.has_error())
       return err;
   }

   for (auto& s : inputs->source_vec)
     inputs->source_files.insert(&s);
   for (auto& l : inputs->compile_vec)
     inputs->compile_labels.insert(l);
   for (auto& l : inputs->test_vec)
     inputs->test_labels.insert(l);
   return Err();
 }

 std::string OutputsToJSON(const Outputs& outputs,
                           const Label& default_toolchain,
                           Err* err) {
   std::string output;
   auto value = std::make_unique<base::DictionaryValue>();

   if (outputs.error.size()) {
     WriteString(*value, "error", outputs.error);
     WriteLabels(default_toolchain, *value, "invalid_targets",
                 outputs.invalid_labels);
   } else {
     WriteString(*value, "status", outputs.status);
     if (outputs.compile_includes_all) {
       auto compile_targets = std::make_unique<base::ListValue>();
       compile_targets->AppendString("all");
       value->SetWithoutPathExpansion("compile_targets",
                                      std::move(compile_targets));
     } else {
       WriteLabels(default_toolchain, *value, "compile_targets",
                   outputs.compile_labels);
     }
     WriteLabels(default_toolchain, *value, "test_targets", outputs.test_labels);
   }

   if (!base::JSONWriter::Write(*value.get(), &output))
     *err = Err(Location(), "Failed to marshal JSON value for output");
   return output;
 }

 }  // namespace

 Analyzer::Analyzer(const Builder& builder,
                    const SourceFile& build_config_file,
                    const SourceFile& dot_file,
                    const SourceFileSet& build_args_dependency_files)
     : all_items_(builder.GetAllResolvedItems()),
       default_toolchain_(builder.loader()->GetDefaultToolchain()),
       build_config_file_(build_config_file),
       dot_file_(dot_file),
       build_args_dependency_files_(build_args_dependency_files) {
   for (const auto* item : all_items_) {
     labels_to_items_[item->label()] = item;

     // Fill dep_map_.
     if (item->AsTarget()) {
       for (const auto& dep_target_pair :
            item->AsTarget()->GetDeps(Target::DEPS_ALL))
         dep_map_.insert(std::make_pair(dep_target_pair.ptr, item));

       for (const auto& dep_config_pair : item->AsTarget()->configs())
         dep_map_.insert(std::make_pair(dep_config_pair.ptr, item));

       dep_map_.insert(std::make_pair(item->AsTarget()->toolchain(), item));

       if (item->AsTarget()->output_type() == Target::ACTION ||
           item->AsTarget()->output_type() == Target::ACTION_FOREACH) {
         const LabelPtrPair<Pool>& pool =
             item->AsTarget()->action_values().pool();
         if (pool.ptr)
           dep_map_.insert(std::make_pair(pool.ptr, item));
       }
     } else if (item->AsConfig()) {
       for (const auto& dep_config_pair : item->AsConfig()->configs())
         dep_map_.insert(std::make_pair(dep_config_pair.ptr, item));
     } else if (item->AsToolchain()) {
       for (const auto& dep_pair : item->AsToolchain()->deps())
         dep_map_.insert(std::make_pair(dep_pair.ptr, item));
     } else {
       DCHECK(item->AsPool());
     }
   }
 }

 Analyzer::~Analyzer() = default;

 std::string Analyzer::Analyze(const std::string& input, Err* err) const {
   Inputs inputs;
   Outputs outputs;

   Err local_err = JSONToInputs(default_toolchain_, input, &inputs);
   if (local_err.has_error()) {
     outputs.error = local_err.message();
     return OutputsToJSON(outputs, default_toolchain_, err);
   }

   std::set<Label> invalid_labels;
   for (const auto& label : InvalidLabels(inputs.compile_labels))
     invalid_labels.insert(label);
   for (const auto& label : InvalidLabels(inputs.test_labels))
     invalid_labels.insert(label);
   if (!invalid_labels.empty()) {
     outputs.error = "Invalid targets";
     outputs.invalid_labels = invalid_labels;
     return OutputsToJSON(outputs, default_toolchain_, err);
   }

   if (WereMainGNFilesModified(inputs.source_files)) {
     outputs.status = "Found dependency (all)";
     if (inputs.compile_included_all) {
       outputs.compile_includes_all = true;
     } else {
       outputs.compile_labels.insert(inputs.compile_labels.begin(),
                                     inputs.compile_labels.end());
       outputs.compile_labels.insert(inputs.test_labels.begin(),
                                     inputs.test_labels.end());
     }
     outputs.test_labels = inputs.test_labels;
     return OutputsToJSON(outputs, default_toolchain_, err);
   }

   std::set<const Item*> affected_items =
       GetAllAffectedItems(inputs.source_files);
   std::set<const Target*> affected_targets;
   for (const Item* affected_item : affected_items) {
     if (affected_item->AsTarget())
       affected_targets.insert(affected_item->AsTarget());
   }

   if (affected_targets.empty()) {
     outputs.status = "No dependency";
     return OutputsToJSON(outputs, default_toolchain_, err);
   }

   std::set<const Target*> root_targets;
   for (const auto* item : all_items_) {
     if (item->AsTarget() && dep_map_.find(item) == dep_map_.end())
       root_targets.insert(item->AsTarget());
   }

   std::set<const Target*> compile_targets = TargetsFor(inputs.compile_labels);
   if (inputs.compile_included_all) {
     for (auto* root_target : root_targets)
       compile_targets.insert(root_target);
   }
   std::set<const Target*> filtered_targets = Filter(compile_targets);
   outputs.compile_labels =
       LabelsFor(Intersect(filtered_targets, affected_targets));

   // If every target is affected, simply compile All instead of listing all
   // the targets to make the output easier to read.
   if (inputs.compile_included_all &&
       outputs.compile_labels.size() == filtered_targets.size())
     outputs.compile_includes_all = true;

   std::set<const Target*> test_targets = TargetsFor(inputs.test_labels);
   outputs.test_labels = LabelsFor(Intersect(test_targets, affected_targets));

   if (outputs.compile_labels.empty() && outputs.test_labels.empty())
     outputs.status = "No dependency";
   else
     outputs.status = "Found dependency";
   return OutputsToJSON(outputs, default_toolchain_, err);
 }

 std::set<const Item*> Analyzer::GetAllAffectedItems(
     const std::set<const SourceFile*>& source_files) const {
   std::set<const Item*> directly_affected_items;
   for (auto* source_file : source_files)
     AddItemsDirectlyReferringToFile(source_file, &directly_affected_items);

   std::set<const Item*> all_affected_items;
   for (auto* affected_item : directly_affected_items)
     AddAllItemsReferringToItem(affected_item, &all_affected_items);

   return all_affected_items;
 }

 std::set<Label> Analyzer::InvalidLabels(const std::set<Label>& labels) const {
   std::set<Label> invalid_labels;
   for (const Label& label : labels) {
     if (labels_to_items_.find(label) == labels_to_items_.end())
       invalid_labels.insert(label);
   }
   return invalid_labels;
 }

 std::set<const Target*> Analyzer::TargetsFor(
     const std::set<Label>& labels) const {
   std::set<const Target*> targets;
   for (const auto& label : labels) {
     auto it = labels_to_items_.find(label);
     if (it != labels_to_items_.end()) {
       DCHECK(it->second->AsTarget());
       targets.insert(it->second->AsTarget());
     }
   }
   return targets;
 }

 std::set<const Target*> Analyzer::Filter(
     const std::set<const Target*>& targets) const {
   std::set<const Target*> seen;
   std::set<const Target*> filtered;
   for (const auto* target : targets)
     FilterTarget(target, &seen, &filtered);
   return filtered;
 }

 void Analyzer::FilterTarget(const Target* target,
                             std::set<const Target*>* seen,
                             std::set<const Target*>* filtered) const {
   if (seen->find(target) == seen->end()) {
     seen->insert(target);
     if (target->output_type() != Target::GROUP) {
       filtered->insert(target);
     } else {
       for (const auto& pair : target->GetDeps(Target::DEPS_ALL))
         FilterTarget(pair.ptr, seen, filtered);
     }
   }
 }

 bool Analyzer::ItemRefersToFile(const Item* item,
                                 const SourceFile* file) const {
   for (const auto& cur_file : item->build_dependency_files()) {
     if (cur_file == *file)
       return true;
   }

   if (!item->AsTarget())
     return false;

   const Target* target = item->AsTarget();
   for (const auto& cur_file : target->sources()) {
     if (cur_file == *file)
       return true;
   }
   for (const auto& cur_file : target->public_headers()) {
     if (cur_file == *file)
       return true;
   }
   for (ConfigValuesIterator iter(target); !iter.done(); iter.Next()) {
     for (const auto& cur_file : iter.cur().inputs()) {
       if (cur_file == *file)
         return true;
     }
   }
   for (const auto& cur_file : target->data()) {
     if (cur_file == file->value())
       return true;
     if (cur_file.back() == '/' &&
         base::StartsWith(file->value(), cur_file, base::CompareCase::SENSITIVE))
       return true;
   }

   if (target->action_values().script().value() == file->value())
     return true;

   std::vector<SourceFile> outputs;
   target->action_values().GetOutputsAsSourceFiles(target, &outputs);
   for (const auto& cur_file : outputs) {
     if (cur_file == *file)
       return true;
   }
   return false;
 }

 void Analyzer::AddItemsDirectlyReferringToFile(
     const SourceFile* file,
     std::set<const Item*>* directly_affected_items) const {
   for (const auto* item : all_items_) {
     if (ItemRefersToFile(item, file))
       directly_affected_items->insert(item);
   }
 }

 void Analyzer::AddAllItemsReferringToItem(
     const Item* item,
     std::set<const Item*>* all_affected_items) const {
   if (all_affected_items->find(item) != all_affected_items->end())
     return;  // Already found this item.

   all_affected_items->insert(item);

   auto dep_begin = dep_map_.lower_bound(item);
   auto dep_end = dep_map_.upper_bound(item);
   for (auto cur_dep = dep_begin; cur_dep != dep_end; ++cur_dep)
     AddAllItemsReferringToItem(cur_dep->second, all_affected_items);
 }

 bool Analyzer::WereMainGNFilesModified(
     const std::set<const SourceFile*>& modified_files) const {
   for (const auto* file : modified_files) {
     if (*file == dot_file_)
       return true;

     if (*file == build_config_file_)
       return true;

     for (const auto& build_args_dependency_file :
          build_args_dependency_files_) {
       if (*file == build_args_dependency_file)
         return true;
     }
   }

   return false;
 }
	// Copyright 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/analyzer.h"

	#include <algorithm>
	#include <iterator>
	#include <memory>
	#include <set>
	#include <vector>

	#include "base/json/json_reader.h"
	#include "base/json/json_writer.h"
	#include "base/strings/string_util.h"
	#include "base/values.h"
	#include "gn/builder.h"
	#include "gn/config.h"
	#include "gn/config_values_extractors.h"
	#include "gn/deps_iterator.h"
	#include "gn/err.h"
	#include "gn/filesystem_utils.h"
	#include "gn/loader.h"
	#include "gn/location.h"
	#include "gn/pool.h"
	#include "gn/source_file.h"
	#include "gn/target.h"

	namespace {

	struct Inputs {
	std::vector<SourceFile> source_vec;
	std::vector<Label> compile_vec;
	std::vector<Label> test_vec;
	bool compile_included_all = false;
	std::set<const SourceFile*> source_files;
	std::set<Label> compile_labels;
	std::set<Label> test_labels;
	};

	struct Outputs {
	std::string status;
	std::string error;
	bool compile_includes_all = false;
	std::set<Label> compile_labels;
	std::set<Label> test_labels;
	std::set<Label> invalid_labels;
	};

	std::set<Label> LabelsFor(const std::set<const Target*>& targets) {
	std::set<Label> labels;
	for (auto* target : targets)
	labels.insert(target->label());
	return labels;
	}

	std::set<const Target> Intersect(const std::set<const Target>& l,
	const std::set<const Target*>& r) {
	std::set<const Target*> result;
	std::set_intersection(l.begin(), l.end(), r.begin(), r.end(),
	std::inserter(result, result.begin()));
	return result;
	}

	std::vector<std::string> GetStringVector(const base::DictionaryValue& dict,
	const std::string& key,
	Err* err) {
	std::vector<std::string> strings;
	const base::ListValue* lst;
	bool ret = dict.GetList(key, &lst);
	if (!ret) {
	*err = Err(Location(), "Input does not have a key named \"" + key +
	"\" with a list value.");
	return strings;
	}

	for (size_t i = 0; i < lst->GetSize(); i++) {
	std::string s;
	ret = lst->GetString(i, &s);
	if (!ret) {
	*err = Err(Location(), "Item " + std::to_string(i) + " of \"" + key +
	"\" is not a string.");
	strings.clear();
	return strings;
	}
	strings.push_back(std::move(s));
	}
	*err = Err();
	return strings;
	}

	void WriteString(base::DictionaryValue& dict,
	const std::string& key,
	const std::string& value) {
	dict.SetKey(key, base::Value(value));
	};

	void WriteLabels(const Label& default_toolchain,
	base::DictionaryValue& dict,
	const std::string& key,
	const std::set<Label>& labels) {
	std::vector<std::string> strings;
	auto value = std::make_unique<base::ListValue>();
	for (const auto& l : labels)
	strings.push_back(l.GetUserVisibleName(default_toolchain));
	std::sort(strings.begin(), strings.end());
	value->AppendStrings(strings);
	dict.SetWithoutPathExpansion(key, std::move(value));
	}

	Label AbsoluteOrSourceAbsoluteStringToLabel(const Label& default_toolchain,
	const std::string& s,
	Err* err) {
	if (!IsPathSourceAbsolute(s) && !IsPathAbsolute(s)) {
	*err = Err(Location(),
	"\"" + s + "\" is not a source-absolute or absolute path.");
	return Label();
	}
	return Label::Resolve(SourceDir("//"), std::string_view(), default_toolchain,
	Value(nullptr, s), err);
	}

	Err JSONToInputs(const Label& default_toolchain,
	const std::string input,
	Inputs* inputs) {
	int error_code_out;
	std::string error_msg_out;
	int error_line_out;
	int error_column_out;
	std::unique_ptr<base::Value> value = base::JSONReader::ReadAndReturnError(
	input, base::JSONParserOptions::JSON_PARSE_RFC, &error_code_out,
	&error_msg_out, &error_line_out, &error_column_out);
	if (!value)
	return Err(Location(), "Input is not valid JSON:" + error_msg_out);

	const base::DictionaryValue* dict;
	if (!value->GetAsDictionary(&dict))
	return Err(Location(), "Input is not a dictionary.");

	Err err;
	std::vector<std::string> strings;
	strings = GetStringVector(*dict, "files", &err);
	if (err.has_error())
	return err;
	for (auto& s : strings) {
	if (!IsPathSourceAbsolute(s) && !IsPathAbsolute(s)) {
	return Err(Location(),
	"\"" + s + "\" is not a source-absolute or absolute path.");
	}
	inputs->source_vec.emplace_back(std::move(s));
	}

	strings = GetStringVector(*dict, "additional_compile_targets", &err);
	if (err.has_error())
	return err;

	inputs->compile_included_all = false;
	for (auto& s : strings) {
	if (s == "all") {
	inputs->compile_included_all = true;
	} else {
	inputs->compile_vec.push_back(
	AbsoluteOrSourceAbsoluteStringToLabel(default_toolchain, s, &err));
	if (err.has_error())
	return err;
	}
	}

	strings = GetStringVector(*dict, "test_targets", &err);
	if (err.has_error())
	return err;
	for (auto& s : strings) {
	inputs->test_vec.push_back(
	AbsoluteOrSourceAbsoluteStringToLabel(default_toolchain, s, &err));
	if (err.has_error())
	return err;
	}

	for (auto& s : inputs->source_vec)
	inputs->source_files.insert(&s);
	for (auto& l : inputs->compile_vec)
	inputs->compile_labels.insert(l);
	for (auto& l : inputs->test_vec)
	inputs->test_labels.insert(l);
	return Err();
	}

	std::string OutputsToJSON(const Outputs& outputs,
	const Label& default_toolchain,
	Err* err) {
	std::string output;
	auto value = std::make_unique<base::DictionaryValue>();

	if (outputs.error.size()) {
	WriteString(*value, "error", outputs.error);
	WriteLabels(default_toolchain, *value, "invalid_targets",
	outputs.invalid_labels);
	} else {
	WriteString(*value, "status", outputs.status);
	if (outputs.compile_includes_all) {
	auto compile_targets = std::make_unique<base::ListValue>();
	compile_targets->AppendString("all");
	value->SetWithoutPathExpansion("compile_targets",
	std::move(compile_targets));
	} else {
	WriteLabels(default_toolchain, *value, "compile_targets",
	outputs.compile_labels);
	}
	WriteLabels(default_toolchain, *value, "test_targets", outputs.test_labels);
	}

	if (!base::JSONWriter::Write(*value.get(), &output))
	*err = Err(Location(), "Failed to marshal JSON value for output");
	return output;
	}

	} // namespace

	Analyzer::Analyzer(const Builder& builder,
	const SourceFile& build_config_file,
	const SourceFile& dot_file,
	const SourceFileSet& build_args_dependency_files)
	: all_items_(builder.GetAllResolvedItems()),
	default_toolchain_(builder.loader()->GetDefaultToolchain()),
	build_config_file_(build_config_file),
	dot_file_(dot_file),
	build_args_dependency_files_(build_args_dependency_files) {
	for (const auto* item : all_items_) {
	labels_to_items_[item->label()] = item;

	// Fill dep_map_.
	if (item->AsTarget()) {
	for (const auto& dep_target_pair :
	item->AsTarget()->GetDeps(Target::DEPS_ALL))
	dep_map_.insert(std::make_pair(dep_target_pair.ptr, item));

	for (const auto& dep_config_pair : item->AsTarget()->configs())
	dep_map_.insert(std::make_pair(dep_config_pair.ptr, item));

	dep_map_.insert(std::make_pair(item->AsTarget()->toolchain(), item));

	if (item->AsTarget()->output_type() == Target::ACTION \|\|
	item->AsTarget()->output_type() == Target::ACTION_FOREACH) {
	const LabelPtrPair<Pool>& pool =
	item->AsTarget()->action_values().pool();
	if (pool.ptr)
	dep_map_.insert(std::make_pair(pool.ptr, item));
	}
	} else if (item->AsConfig()) {
	for (const auto& dep_config_pair : item->AsConfig()->configs())
	dep_map_.insert(std::make_pair(dep_config_pair.ptr, item));
	} else if (item->AsToolchain()) {
	for (const auto& dep_pair : item->AsToolchain()->deps())
	dep_map_.insert(std::make_pair(dep_pair.ptr, item));
	} else {
	DCHECK(item->AsPool());
	}
	}
	}

	Analyzer::~Analyzer() = default;

	std::string Analyzer::Analyze(const std::string& input, Err* err) const {
	Inputs inputs;
	Outputs outputs;

	Err local_err = JSONToInputs(default_toolchain_, input, &inputs);
	if (local_err.has_error()) {
	outputs.error = local_err.message();
	return OutputsToJSON(outputs, default_toolchain_, err);
	}

	std::set<Label> invalid_labels;
	for (const auto& label : InvalidLabels(inputs.compile_labels))
	invalid_labels.insert(label);
	for (const auto& label : InvalidLabels(inputs.test_labels))
	invalid_labels.insert(label);
	if (!invalid_labels.empty()) {
	outputs.error = "Invalid targets";
	outputs.invalid_labels = invalid_labels;
	return OutputsToJSON(outputs, default_toolchain_, err);
	}

	if (WereMainGNFilesModified(inputs.source_files)) {
	outputs.status = "Found dependency (all)";
	if (inputs.compile_included_all) {
	outputs.compile_includes_all = true;
	} else {
	outputs.compile_labels.insert(inputs.compile_labels.begin(),
	inputs.compile_labels.end());
	outputs.compile_labels.insert(inputs.test_labels.begin(),
	inputs.test_labels.end());
	}
	outputs.test_labels = inputs.test_labels;
	return OutputsToJSON(outputs, default_toolchain_, err);
	}

	std::set<const Item*> affected_items =
	GetAllAffectedItems(inputs.source_files);
	std::set<const Target*> affected_targets;
	for (const Item* affected_item : affected_items) {
	if (affected_item->AsTarget())
	affected_targets.insert(affected_item->AsTarget());
	}

	if (affected_targets.empty()) {
	outputs.status = "No dependency";
	return OutputsToJSON(outputs, default_toolchain_, err);
	}

	std::set<const Target*> root_targets;
	for (const auto* item : all_items_) {
	if (item->AsTarget() && dep_map_.find(item) == dep_map_.end())
	root_targets.insert(item->AsTarget());
	}

	std::set<const Target*> compile_targets = TargetsFor(inputs.compile_labels);
	if (inputs.compile_included_all) {
	for (auto* root_target : root_targets)
	compile_targets.insert(root_target);
	}
	std::set<const Target*> filtered_targets = Filter(compile_targets);
	outputs.compile_labels =
	LabelsFor(Intersect(filtered_targets, affected_targets));

	// If every target is affected, simply compile All instead of listing all
	// the targets to make the output easier to read.
	if (inputs.compile_included_all &&
	outputs.compile_labels.size() == filtered_targets.size())
	outputs.compile_includes_all = true;

	std::set<const Target*> test_targets = TargetsFor(inputs.test_labels);
	outputs.test_labels = LabelsFor(Intersect(test_targets, affected_targets));

	if (outputs.compile_labels.empty() && outputs.test_labels.empty())
	outputs.status = "No dependency";
	else
	outputs.status = "Found dependency";
	return OutputsToJSON(outputs, default_toolchain_, err);
	}

	std::set<const Item*> Analyzer::GetAllAffectedItems(
	const std::set<const SourceFile*>& source_files) const {
	std::set<const Item*> directly_affected_items;
	for (auto* source_file : source_files)
	AddItemsDirectlyReferringToFile(source_file, &directly_affected_items);

	std::set<const Item*> all_affected_items;
	for (auto* affected_item : directly_affected_items)
	AddAllItemsReferringToItem(affected_item, &all_affected_items);

	return all_affected_items;
	}

	std::set<Label> Analyzer::InvalidLabels(const std::set<Label>& labels) const {
	std::set<Label> invalid_labels;
	for (const Label& label : labels) {
	if (labels_to_items_.find(label) == labels_to_items_.end())
	invalid_labels.insert(label);
	}
	return invalid_labels;
	}

	std::set<const Target*> Analyzer::TargetsFor(
	const std::set<Label>& labels) const {
	std::set<const Target*> targets;
	for (const auto& label : labels) {
	auto it = labels_to_items_.find(label);
	if (it != labels_to_items_.end()) {
	DCHECK(it->second->AsTarget());
	targets.insert(it->second->AsTarget());
	}
	}
	return targets;
	}

	std::set<const Target*> Analyzer::Filter(
	const std::set<const Target*>& targets) const {
	std::set<const Target*> seen;
	std::set<const Target*> filtered;
	for (const auto* target : targets)
	FilterTarget(target, &seen, &filtered);
	return filtered;
	}

	void Analyzer::FilterTarget(const Target* target,
	std::set<const Target> seen,
	std::set<const Target> filtered) const {
	if (seen->find(target) == seen->end()) {
	seen->insert(target);
	if (target->output_type() != Target::GROUP) {
	filtered->insert(target);
	} else {
	for (const auto& pair : target->GetDeps(Target::DEPS_ALL))
	FilterTarget(pair.ptr, seen, filtered);
	}
	}
	}

	bool Analyzer::ItemRefersToFile(const Item* item,
	const SourceFile* file) const {
	for (const auto& cur_file : item->build_dependency_files()) {
	if (cur_file == *file)
	return true;
	}

	if (!item->AsTarget())
	return false;

	const Target* target = item->AsTarget();
	for (const auto& cur_file : target->sources()) {
	if (cur_file == *file)
	return true;
	}
	for (const auto& cur_file : target->public_headers()) {
	if (cur_file == *file)
	return true;
	}
	for (ConfigValuesIterator iter(target); !iter.done(); iter.Next()) {
	for (const auto& cur_file : iter.cur().inputs()) {
	if (cur_file == *file)
	return true;
	}
	}
	for (const auto& cur_file : target->data()) {
	if (cur_file == file->value())
	return true;
	if (cur_file.back() == '/' &&
	base::StartsWith(file->value(), cur_file, base::CompareCase::SENSITIVE))
	return true;
	}

	if (target->action_values().script().value() == file->value())
	return true;

	std::vector<SourceFile> outputs;
	target->action_values().GetOutputsAsSourceFiles(target, &outputs);
	for (const auto& cur_file : outputs) {
	if (cur_file == *file)
	return true;
	}
	return false;
	}

	void Analyzer::AddItemsDirectlyReferringToFile(
	const SourceFile* file,
	std::set<const Item> directly_affected_items) const {
	for (const auto* item : all_items_) {
	if (ItemRefersToFile(item, file))
	directly_affected_items->insert(item);
	}
	}

	void Analyzer::AddAllItemsReferringToItem(
	const Item* item,
	std::set<const Item> all_affected_items) const {
	if (all_affected_items->find(item) != all_affected_items->end())
	return; // Already found this item.

	all_affected_items->insert(item);

	auto dep_begin = dep_map_.lower_bound(item);
	auto dep_end = dep_map_.upper_bound(item);
	for (auto cur_dep = dep_begin; cur_dep != dep_end; ++cur_dep)
	AddAllItemsReferringToItem(cur_dep->second, all_affected_items);
	}

	bool Analyzer::WereMainGNFilesModified(
	const std::set<const SourceFile*>& modified_files) const {
	for (const auto* file : modified_files) {
	if (*file == dot_file_)
	return true;

	if (*file == build_config_file_)
	return true;

	for (const auto& build_args_dependency_file :
	build_args_dependency_files_) {
	if (*file == build_args_dependency_file)
	return true;
	}
	}

	return false;
	}