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315 lines
12 KiB
C++
315 lines
12 KiB
C++
// Copyright 2015 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "tools/gn/runtime_deps.h"
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#include <map>
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#include <set>
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#include <sstream>
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#include "base/command_line.h"
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#include "base/files/file_util.h"
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#include "base/strings/string_split.h"
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#include "tools/gn/build_settings.h"
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#include "tools/gn/builder.h"
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#include "tools/gn/deps_iterator.h"
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#include "tools/gn/filesystem_utils.h"
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#include "tools/gn/loader.h"
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#include "tools/gn/output_file.h"
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#include "tools/gn/scheduler.h"
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#include "tools/gn/settings.h"
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#include "tools/gn/switches.h"
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#include "tools/gn/target.h"
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#include "tools/gn/trace.h"
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namespace {
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using RuntimeDepsVector = std::vector<std::pair<OutputFile, const Target*>>;
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// Adds the given file to the deps list if it hasn't already been listed in
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// the found_files list. Updates the list.
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void AddIfNew(const OutputFile& output_file,
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const Target* source,
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RuntimeDepsVector* deps,
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std::set<OutputFile>* found_file) {
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if (found_file->find(output_file) != found_file->end())
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return; // Already there.
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deps->push_back(std::make_pair(output_file, source));
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}
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// Automatically converts a string that looks like a source to an OutputFile.
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void AddIfNew(const std::string& str,
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const Target* source,
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RuntimeDepsVector* deps,
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std::set<OutputFile>* found_file) {
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OutputFile output_file(RebasePath(
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str,
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source->settings()->build_settings()->build_dir(),
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source->settings()->build_settings()->root_path_utf8()));
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AddIfNew(output_file, source, deps, found_file);
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}
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// To avoid duplicate traversals of targets, or duplicating output files that
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// might be listed by more than one target, the set of targets and output files
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// that have been found so far is passed. The "value" of the seen_targets map
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// is a boolean indicating if the seen dep was a data dep (true = data_dep).
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// data deps add more stuff, so we will want to revisit a target if it's a
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// data dependency and we've previously only seen it as a regular dep.
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void RecursiveCollectRuntimeDeps(const Target* target,
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bool is_target_data_dep,
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RuntimeDepsVector* deps,
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std::map<const Target*, bool>* seen_targets,
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std::set<OutputFile>* found_files) {
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const auto& found_seen_target = seen_targets->find(target);
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if (found_seen_target != seen_targets->end()) {
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// Already visited.
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if (found_seen_target->second || !is_target_data_dep) {
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// Already visited as a data dep, or the current dep is not a data
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// dep so visiting again will be a no-op.
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return;
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}
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// In the else case, the previously seen target was a regular dependency
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// and we'll now process it as a data dependency.
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}
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(*seen_targets)[target] = is_target_data_dep;
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// Add the main output file for executables, shared libraries, and
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// loadable modules.
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if (target->output_type() == Target::EXECUTABLE ||
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target->output_type() == Target::LOADABLE_MODULE ||
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target->output_type() == Target::SHARED_LIBRARY) {
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for (const auto& runtime_output : target->runtime_outputs())
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AddIfNew(runtime_output, target, deps, found_files);
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}
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// Add all data files.
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for (const auto& file : target->data())
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AddIfNew(file, target, deps, found_files);
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// Actions/copy have all outputs considered when the're a data dep.
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if (is_target_data_dep &&
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(target->output_type() == Target::ACTION ||
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target->output_type() == Target::ACTION_FOREACH ||
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target->output_type() == Target::COPY_FILES)) {
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std::vector<SourceFile> outputs;
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target->action_values().GetOutputsAsSourceFiles(target, &outputs);
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for (const auto& output_file : outputs)
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AddIfNew(output_file.value(), target, deps, found_files);
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}
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// Data dependencies.
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for (const auto& dep_pair : target->data_deps()) {
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RecursiveCollectRuntimeDeps(dep_pair.ptr, true,
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deps, seen_targets, found_files);
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}
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// Do not recurse into bundle targets. A bundle's dependencies should be
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// copied into the bundle itself for run-time access.
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if (target->output_type() == Target::CREATE_BUNDLE) {
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SourceDir bundle_root_dir =
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target->bundle_data().GetBundleRootDirOutputAsDir(target->settings());
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AddIfNew(bundle_root_dir.value(), target, deps, found_files);
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return;
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}
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// Non-data dependencies (both public and private).
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for (const auto& dep_pair : target->GetDeps(Target::DEPS_LINKED)) {
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if (dep_pair.ptr->output_type() == Target::EXECUTABLE)
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continue; // Skip executables that aren't data deps.
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if (dep_pair.ptr->output_type() == Target::SHARED_LIBRARY &&
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(target->output_type() == Target::ACTION ||
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target->output_type() == Target::ACTION_FOREACH)) {
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// Skip shared libraries that action depends on,
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// unless it were listed in data deps.
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continue;
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}
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RecursiveCollectRuntimeDeps(dep_pair.ptr, false,
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deps, seen_targets, found_files);
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}
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}
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bool CollectRuntimeDepsFromFlag(const Builder& builder,
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RuntimeDepsVector* files_to_write,
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Err* err) {
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std::string deps_target_list_file =
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base::CommandLine::ForCurrentProcess()->GetSwitchValueASCII(
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switches::kRuntimeDepsListFile);
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if (deps_target_list_file.empty())
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return true;
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std::string list_contents;
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ScopedTrace load_trace(TraceItem::TRACE_FILE_LOAD, deps_target_list_file);
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if (!base::ReadFileToString(UTF8ToFilePath(deps_target_list_file),
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&list_contents)) {
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*err = Err(Location(),
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std::string("File for --") + switches::kRuntimeDepsListFile +
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" doesn't exist.",
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"The file given was \"" + deps_target_list_file + "\"");
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return false;
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}
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load_trace.Done();
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SourceDir root_dir("//");
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Label default_toolchain_label = builder.loader()->GetDefaultToolchain();
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for (const auto& line :
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base::SplitString(list_contents, "\n", base::TRIM_WHITESPACE,
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base::SPLIT_WANT_ALL)) {
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if (line.empty())
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continue;
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Label label = Label::Resolve(root_dir, default_toolchain_label,
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Value(nullptr, line), err);
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if (err->has_error())
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return false;
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const Item* item = builder.GetItem(label);
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const Target* target = item ? item->AsTarget() : nullptr;
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if (!target) {
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*err = Err(Location(), "The label \"" + label.GetUserVisibleName(true) +
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"\" isn't a target.",
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"When reading the line:\n " + line + "\n"
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"from the --" + switches::kRuntimeDepsListFile + "=" +
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deps_target_list_file);
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return false;
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}
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OutputFile output_file;
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const char extension[] = ".runtime_deps";
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if (target->output_type() == Target::SHARED_LIBRARY ||
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target->output_type() == Target::LOADABLE_MODULE) {
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// Force the first output for shared-library-type linker outputs since
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// the dependency output files might not be the main output.
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CHECK(!target->computed_outputs().empty());
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output_file =
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OutputFile(target->computed_outputs()[0].value() + extension);
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} else {
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output_file =
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OutputFile(target->dependency_output_file().value() + extension);
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}
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files_to_write->push_back(std::make_pair(output_file, target));
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}
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return true;
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}
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bool WriteRuntimeDepsFile(const OutputFile& output_file,
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const Target* target,
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Err* err) {
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SourceFile output_as_source =
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output_file.AsSourceFile(target->settings()->build_settings());
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base::FilePath data_deps_file =
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target->settings()->build_settings()->GetFullPath(output_as_source);
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std::stringstream contents;
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for (const auto& pair : ComputeRuntimeDeps(target))
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contents << pair.first.value() << std::endl;
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ScopedTrace trace(TraceItem::TRACE_FILE_WRITE, output_as_source.value());
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return WriteFileIfChanged(data_deps_file, contents.str(), err);
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}
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} // namespace
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const char kRuntimeDeps_Help[] =
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R"(Runtime dependencies
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Runtime dependencies of a target are exposed via the "runtime_deps" category
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of "gn desc" (see "gn help desc") or they can be written at build generation
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time via write_runtime_deps(), or --runtime-deps-list-file (see "gn help
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--runtime-deps-list-file").
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To a first approximation, the runtime dependencies of a target are the set of
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"data" files, data directories, and the shared libraries from all transitive
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dependencies. Executables, shared libraries, and loadable modules are
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considered runtime dependencies of themselves.
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Executables
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Executable targets and those executable targets' transitive dependencies are
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not considered unless that executable is listed in "data_deps". Otherwise, GN
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assumes that the executable (and everything it requires) is a build-time
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dependency only.
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Actions and copies
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Action and copy targets that are listed as "data_deps" will have all of their
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outputs and data files considered as runtime dependencies. Action and copy
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targets that are "deps" or "public_deps" will have only their data files
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considered as runtime dependencies. These targets can list an output file in
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both the "outputs" and "data" lists to force an output file as a runtime
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dependency in all cases.
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The different rules for deps and data_deps are to express build-time (deps)
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vs. run-time (data_deps) outputs. If GN counted all build-time copy steps as
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data dependencies, there would be a lot of extra stuff, and if GN counted all
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run-time dependencies as regular deps, the build's parallelism would be
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unnecessarily constrained.
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This rule can sometimes lead to unintuitive results. For example, given the
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three targets:
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A --[data_deps]--> B --[deps]--> ACTION
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GN would say that A does not have runtime deps on the result of the ACTION,
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which is often correct. But the purpose of the B target might be to collect
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many actions into one logic unit, and the "data"-ness of A's dependency is
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lost. Solutions:
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- List the outputs of the action in its data section (if the results of
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that action are always runtime files).
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- Have B list the action in data_deps (if the outputs of the actions are
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always runtime files).
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- Have B list the action in both deps and data deps (if the outputs might be
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used in both contexts and you don't care about unnecessary entries in the
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list of files required at runtime).
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- Split B into run-time and build-time versions with the appropriate "deps"
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for each.
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Static libraries and source sets
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The results of static_library or source_set targets are not considered
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runtime dependencies since these are assumed to be intermediate targets only.
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If you need to list a static library as a runtime dependency, you can
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manually compute the .a/.lib file name for the current platform and list it
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in the "data" list of a target (possibly on the static library target
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itself).
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Multiple outputs
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Linker tools can specify which of their outputs should be considered when
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computing the runtime deps by setting runtime_outputs. If this is unset on
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the tool, the default will be the first output only.
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)";
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RuntimeDepsVector ComputeRuntimeDeps(const Target* target) {
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RuntimeDepsVector result;
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std::map<const Target*, bool> seen_targets;
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std::set<OutputFile> found_files;
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// The initial target is not considered a data dependency so that actions's
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// outputs (if the current target is an action) are not automatically
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// considered data deps.
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RecursiveCollectRuntimeDeps(target, false,
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&result, &seen_targets, &found_files);
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return result;
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}
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bool WriteRuntimeDepsFilesIfNecessary(const Builder& builder, Err* err) {
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RuntimeDepsVector files_to_write;
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if (!CollectRuntimeDepsFromFlag(builder, &files_to_write, err))
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return false;
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// Files scheduled by write_runtime_deps.
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for (const Target* target : g_scheduler->GetWriteRuntimeDepsTargets()) {
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files_to_write.push_back(
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std::make_pair(target->write_runtime_deps_output(), target));
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}
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for (const auto& entry : files_to_write) {
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// Currently this writes all runtime deps files sequentially. We generally
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// expect few of these. We can run this on the worker pool if it looks
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// like it's talking a long time.
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if (!WriteRuntimeDepsFile(entry.first, entry.second, err))
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return false;
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}
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return true;
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}
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