naiveproxy/tools/gn/target_generator.cc

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2018-01-28 21:32:06 +03:00
// 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/target_generator.h"
#include <stddef.h>
#include <memory>
#include <utility>
#include "tools/gn/action_target_generator.h"
#include "tools/gn/binary_target_generator.h"
#include "tools/gn/build_settings.h"
#include "tools/gn/bundle_data_target_generator.h"
#include "tools/gn/config.h"
#include "tools/gn/copy_target_generator.h"
#include "tools/gn/create_bundle_target_generator.h"
#include "tools/gn/err.h"
#include "tools/gn/filesystem_utils.h"
#include "tools/gn/functions.h"
#include "tools/gn/group_target_generator.h"
#include "tools/gn/parse_tree.h"
#include "tools/gn/scheduler.h"
#include "tools/gn/scope.h"
#include "tools/gn/token.h"
#include "tools/gn/value.h"
#include "tools/gn/value_extractors.h"
#include "tools/gn/variables.h"
TargetGenerator::TargetGenerator(Target* target,
Scope* scope,
const FunctionCallNode* function_call,
Err* err)
: target_(target),
scope_(scope),
function_call_(function_call),
err_(err) {
}
TargetGenerator::~TargetGenerator() = default;
void TargetGenerator::Run() {
// All target types use these.
if (!FillDependentConfigs())
return;
if (!FillData())
return;
if (!FillDependencies())
return;
if (!FillTestonly())
return;
if (!FillAssertNoDeps())
return;
if (!Visibility::FillItemVisibility(target_, scope_, err_))
return;
if (!FillWriteRuntimeDeps())
return;
// Do type-specific generation.
DoRun();
}
// static
void TargetGenerator::GenerateTarget(Scope* scope,
const FunctionCallNode* function_call,
const std::vector<Value>& args,
const std::string& output_type,
Err* err) {
// Name is the argument to the function.
if (args.size() != 1u || args[0].type() != Value::STRING) {
*err = Err(function_call,
"Target generator requires one string argument.",
"Otherwise I'm not sure what to call this target.");
return;
}
// The location of the target is the directory name with no slash at the end.
// FIXME(brettw) validate name.
const Label& toolchain_label = ToolchainLabelForScope(scope);
Label label(scope->GetSourceDir(), args[0].string_value(),
toolchain_label.dir(), toolchain_label.name());
if (g_scheduler->verbose_logging())
g_scheduler->Log("Defining target", label.GetUserVisibleName(true));
std::unique_ptr<Target> target =
std::make_unique<Target>(scope->settings(), label);
target->set_defined_from(function_call);
// Create and call out to the proper generator.
if (output_type == functions::kBundleData) {
BundleDataTargetGenerator generator(
target.get(), scope, function_call, err);
generator.Run();
} else if (output_type == functions::kCreateBundle) {
CreateBundleTargetGenerator generator(target.get(), scope, function_call,
err);
generator.Run();
} else if (output_type == functions::kCopy) {
CopyTargetGenerator generator(target.get(), scope, function_call, err);
generator.Run();
} else if (output_type == functions::kAction) {
ActionTargetGenerator generator(target.get(), scope, function_call,
Target::ACTION, err);
generator.Run();
} else if (output_type == functions::kActionForEach) {
ActionTargetGenerator generator(target.get(), scope, function_call,
Target::ACTION_FOREACH, err);
generator.Run();
} else if (output_type == functions::kExecutable) {
BinaryTargetGenerator generator(target.get(), scope, function_call,
Target::EXECUTABLE, err);
generator.Run();
} else if (output_type == functions::kGroup) {
GroupTargetGenerator generator(target.get(), scope, function_call, err);
generator.Run();
} else if (output_type == functions::kLoadableModule) {
BinaryTargetGenerator generator(target.get(), scope, function_call,
Target::LOADABLE_MODULE, err);
generator.Run();
} else if (output_type == functions::kSharedLibrary) {
BinaryTargetGenerator generator(target.get(), scope, function_call,
Target::SHARED_LIBRARY, err);
generator.Run();
} else if (output_type == functions::kSourceSet) {
BinaryTargetGenerator generator(target.get(), scope, function_call,
Target::SOURCE_SET, err);
generator.Run();
} else if (output_type == functions::kStaticLibrary) {
BinaryTargetGenerator generator(target.get(), scope, function_call,
Target::STATIC_LIBRARY, err);
generator.Run();
} else {
*err = Err(function_call, "Not a known target type",
"I am very confused by the target type \"" + output_type + "\"");
}
if (err->has_error())
return;
// Save this target for the file.
Scope::ItemVector* collector = scope->GetItemCollector();
if (!collector) {
*err = Err(function_call, "Can't define a target in this context.");
return;
}
collector->push_back(std::move(target));
}
const BuildSettings* TargetGenerator::GetBuildSettings() const {
return scope_->settings()->build_settings();
}
bool TargetGenerator::FillSources() {
const Value* value = scope_->GetValue(variables::kSources, true);
if (!value)
return true;
Target::FileList dest_sources;
if (!ExtractListOfRelativeFiles(scope_->settings()->build_settings(), *value,
scope_->GetSourceDir(), &dest_sources, err_))
return false;
target_->sources().swap(dest_sources);
return true;
}
bool TargetGenerator::FillPublic() {
const Value* value = scope_->GetValue(variables::kPublic, true);
if (!value)
return true;
// If the public headers are defined, don't default to public.
target_->set_all_headers_public(false);
Target::FileList dest_public;
if (!ExtractListOfRelativeFiles(scope_->settings()->build_settings(), *value,
scope_->GetSourceDir(), &dest_public, err_))
return false;
target_->public_headers().swap(dest_public);
return true;
}
bool TargetGenerator::FillInputs() {
const Value* value = scope_->GetValue(variables::kInputs, true);
if (!value)
return true;
Target::FileList dest_inputs;
if (!ExtractListOfRelativeFiles(scope_->settings()->build_settings(), *value,
scope_->GetSourceDir(), &dest_inputs, err_))
return false;
target_->inputs().swap(dest_inputs);
return true;
}
bool TargetGenerator::FillConfigs() {
return FillGenericConfigs(variables::kConfigs, &target_->configs());
}
bool TargetGenerator::FillDependentConfigs() {
if (!FillGenericConfigs(variables::kAllDependentConfigs,
&target_->all_dependent_configs()))
return false;
if (!FillGenericConfigs(variables::kPublicConfigs,
&target_->public_configs()))
return false;
return true;
}
bool TargetGenerator::FillData() {
const Value* value = scope_->GetValue(variables::kData, true);
if (!value)
return true;
if (!value->VerifyTypeIs(Value::LIST, err_))
return false;
const std::vector<Value>& input_list = value->list_value();
std::vector<std::string>& output_list = target_->data();
output_list.reserve(input_list.size());
const SourceDir& dir = scope_->GetSourceDir();
const std::string& root_path =
scope_->settings()->build_settings()->root_path_utf8();
for (size_t i = 0; i < input_list.size(); i++) {
const Value& input = input_list[i];
if (!input.VerifyTypeIs(Value::STRING, err_))
return false;
const std::string& input_str = input.string_value();
// Treat each input as either a file or a directory, depending on the
// last character.
if (!input_str.empty() && input_str[input_str.size() - 1] == '/') {
// Resolve as directory.
SourceDir resolved =
dir.ResolveRelativeDir(input, input_str, err_, root_path);
if (err_->has_error())
return false;
output_list.push_back(resolved.value());
} else {
// Resolve as file.
SourceFile resolved = dir.ResolveRelativeFile(input, err_, root_path);
if (err_->has_error())
return false;
output_list.push_back(resolved.value());
}
}
return true;
}
bool TargetGenerator::FillDependencies() {
if (!FillGenericDeps(variables::kDeps, &target_->private_deps()))
return false;
if (!FillGenericDeps(variables::kPublicDeps, &target_->public_deps()))
return false;
if (!FillGenericDeps(variables::kDataDeps, &target_->data_deps()))
return false;
// "data_deps" was previously named "datadeps". For backwards-compat, read
// the old one if no "data_deps" were specified.
if (!scope_->GetValue(variables::kDataDeps, false)) {
if (!FillGenericDeps("datadeps", &target_->data_deps()))
return false;
}
return true;
}
bool TargetGenerator::FillTestonly() {
const Value* value = scope_->GetValue(variables::kTestonly, true);
if (value) {
if (!value->VerifyTypeIs(Value::BOOLEAN, err_))
return false;
target_->set_testonly(value->boolean_value());
}
return true;
}
bool TargetGenerator::FillAssertNoDeps() {
const Value* value = scope_->GetValue(variables::kAssertNoDeps, true);
if (value) {
return ExtractListOfLabelPatterns(*value, scope_->GetSourceDir(),
&target_->assert_no_deps(), err_);
}
return true;
}
bool TargetGenerator::FillOutputs(bool allow_substitutions) {
const Value* value = scope_->GetValue(variables::kOutputs, true);
if (!value)
return true;
SubstitutionList& outputs = target_->action_values().outputs();
if (!outputs.Parse(*value, err_))
return false;
if (!allow_substitutions) {
// Verify no substitutions were actually used.
if (!outputs.required_types().empty()) {
*err_ = Err(*value, "Source expansions not allowed here.",
"The outputs of this target used source {{expansions}} but this "
"target type\ndoesn't support them. Just express the outputs "
"literally.");
return false;
}
}
// Check the substitutions used are valid for this purpose.
if (!EnsureValidSubstitutions(outputs.required_types(),
&IsValidSourceSubstitution,
value->origin(), err_))
return false;
// Validate that outputs are in the output dir.
CHECK(outputs.list().size() == value->list_value().size());
for (size_t i = 0; i < outputs.list().size(); i++) {
if (!EnsureSubstitutionIsInOutputDir(outputs.list()[i],
value->list_value()[i]))
return false;
}
return true;
}
bool TargetGenerator::FillCheckIncludes() {
const Value* value = scope_->GetValue(variables::kCheckIncludes, true);
if (!value)
return true;
if (!value->VerifyTypeIs(Value::BOOLEAN, err_))
return false;
target_->set_check_includes(value->boolean_value());
return true;
}
bool TargetGenerator::EnsureSubstitutionIsInOutputDir(
const SubstitutionPattern& pattern,
const Value& original_value) {
if (pattern.ranges().empty()) {
// Pattern is empty, error out (this prevents weirdness below).
*err_ = Err(original_value, "This has an empty value in it.");
return false;
}
if (pattern.ranges()[0].type == SUBSTITUTION_LITERAL) {
// If the first thing is a literal, it must start with the output dir.
if (!EnsureStringIsInOutputDir(
GetBuildSettings()->build_dir(),
pattern.ranges()[0].literal, original_value.origin(), err_))
return false;
} else {
// Otherwise, the first subrange must be a pattern that expands to
// something in the output directory.
if (!SubstitutionIsInOutputDir(pattern.ranges()[0].type)) {
*err_ = Err(original_value,
"File is not inside output directory.",
"The given file should be in the output directory. Normally you\n"
"would specify\n\"$target_out_dir/foo\" or "
"\"{{source_gen_dir}}/foo\".");
return false;
}
}
return true;
}
bool TargetGenerator::FillGenericConfigs(const char* var_name,
UniqueVector<LabelConfigPair>* dest) {
const Value* value = scope_->GetValue(var_name, true);
if (value) {
ExtractListOfUniqueLabels(*value, scope_->GetSourceDir(),
ToolchainLabelForScope(scope_), dest, err_);
}
return !err_->has_error();
}
bool TargetGenerator::FillGenericDeps(const char* var_name,
LabelTargetVector* dest) {
const Value* value = scope_->GetValue(var_name, true);
if (value) {
ExtractListOfLabels(*value, scope_->GetSourceDir(),
ToolchainLabelForScope(scope_), dest, err_);
}
return !err_->has_error();
}
bool TargetGenerator::FillWriteRuntimeDeps() {
const Value* value = scope_->GetValue(variables::kWriteRuntimeDeps, true);
if (!value)
return true;
// Compute the file name and make sure it's in the output dir.
SourceFile source_file = scope_->GetSourceDir().ResolveRelativeFile(
*value, err_, GetBuildSettings()->root_path_utf8());
if (err_->has_error())
return false;
if (!EnsureStringIsInOutputDir(GetBuildSettings()->build_dir(),
source_file.value(), value->origin(), err_))
return false;
OutputFile output_file(GetBuildSettings(), source_file);
target_->set_write_runtime_deps_output(output_file);
return true;
}