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gn / gn / bfff605c826532690442abbe2d81125c65eb52ec / . / src / gn / value_extractors.cc
blob: 9eb759318d190fdaa2411de4a645758ec6b92d1b [file] [log] [blame]
// 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 "gn/value_extractors.h"
#include <stddef.h>
#include "gn/build_settings.h"
#include "gn/err.h"
#include "gn/frameworks_utils.h"
#include "gn/label.h"
#include "gn/source_dir.h"
#include "gn/source_file.h"
#include "gn/target.h"
#include "gn/value.h"
namespace {
// Sets the error and returns false on failure.
template <typename T, class Converter>
bool ListValueExtractor(const Value& value,
std::vector<T>* dest,
Err* err,
const Converter& converter) {
if (!value.VerifyTypeIs(Value::LIST, err))
return false;
const std::vector<Value>& input_list = value.list_value();
dest->resize(input_list.size());
for (size_t i = 0; i < input_list.size(); i++) {
if (!converter(input_list[i], &(*dest)[i], err))
return false;
}
return true;
}
// Like the above version but extracts to a UniqueVector and sets the error if
// there are duplicates.
template <typename T, class Converter>
bool ListValueUniqueExtractor(const Value& value,
UniqueVector<T>* dest,
Err* err,
const Converter& converter) {
if (!value.VerifyTypeIs(Value::LIST, err))
return false;
const std::vector<Value>& input_list = value.list_value();
for (const auto& item : input_list) {
T new_one;
if (!converter(item, &new_one, err))
return false;
if (!dest->push_back(new_one)) {
// Already in the list, throw error.
*err = Err(item, "Duplicate item in list");
size_t previous_index = dest->IndexOf(new_one);
err->AppendSubErr(
Err(input_list[previous_index], "This was the previous definition."));
return false;
}
}
return true;
}
struct RelativeFileConverter {
RelativeFileConverter(const BuildSettings* build_settings_in,
const SourceDir& current_dir_in)
: build_settings(build_settings_in), current_dir(current_dir_in) {}
bool operator()(const Value& v, SourceFile* out, Err* err) const {
*out = current_dir.ResolveRelativeFile(v, err,
build_settings->root_path_utf8());
return !err->has_error();
}
const BuildSettings* build_settings;
const SourceDir& current_dir;
};
struct LibFileConverter {
LibFileConverter(const BuildSettings* build_settings_in,
const SourceDir& current_dir_in)
: build_settings(build_settings_in), current_dir(current_dir_in) {}
bool operator()(const Value& v, LibFile* out, Err* err) const {
if (!v.VerifyTypeIs(Value::STRING, err))
return false;
if (!GetFrameworkName(v.string_value()).empty()) {
*err = Err(v, "Unsupported value in libs.",
"Use frameworks to list framework dependencies.");
return false;
}
if (v.string_value().find('/') == std::string::npos) {
*out = LibFile(v.string_value());
} else {
*out = LibFile(current_dir.ResolveRelativeFile(
v, err, build_settings->root_path_utf8()));
}
return !err->has_error();
}
const BuildSettings* build_settings;
const SourceDir& current_dir;
};
struct RelativeDirConverter {
RelativeDirConverter(const BuildSettings* build_settings_in,
const SourceDir& current_dir_in)
: build_settings(build_settings_in), current_dir(current_dir_in) {}
bool operator()(const Value& v, SourceDir* out, Err* err) const {
*out = current_dir.ResolveRelativeDir(v, err,
build_settings->root_path_utf8());
return true;
}
const BuildSettings* build_settings;
const SourceDir& current_dir;
};
struct ExternConverter {
ExternConverter(const BuildSettings* build_settings_in,
const SourceDir& current_dir_in)
: build_settings(build_settings_in), current_dir(current_dir_in) {}
bool operator()(const Value& v,
std::pair<std::string, LibFile>* out,
Err* err) const {
if (!v.VerifyTypeIs(Value::SCOPE, err))
return false;
Scope::KeyValueMap scope;
v.scope_value()->GetCurrentScopeValues(&scope);
std::string cratename;
if (auto it = scope.find("crate_name"); it != scope.end()) {
if (!it->second.VerifyTypeIs(Value::STRING, err))
return false;
cratename = it->second.string_value();
} else {
return false;
}
LibFile path;
if (auto it = scope.find("path"); it != scope.end()) {
if (!it->second.VerifyTypeIs(Value::STRING, err))
return false;
if (it->second.string_value().find('/') == std::string::npos) {
path = LibFile(it->second.string_value());
} else {
path = LibFile(current_dir.ResolveRelativeFile(
it->second, err, build_settings->root_path_utf8()));
}
} else {
return false;
}
*out = std::pair(cratename, path);
return !err->has_error();
}
const BuildSettings* build_settings;
const SourceDir& current_dir;
};
// Fills in a label.
template <typename T>
struct LabelResolver {
LabelResolver(const BuildSettings* build_settings_in,
const SourceDir& current_dir_in,
const Label& current_toolchain_in)
: build_settings(build_settings_in),
current_dir(current_dir_in),
current_toolchain(current_toolchain_in) {}
bool operator()(const Value& v, Label* out, Err* err) const {
if (!v.VerifyTypeIs(Value::STRING, err))
return false;
*out = Label::Resolve(current_dir, build_settings->root_path_utf8(),
current_toolchain, v, err);
return !err->has_error();
}
const BuildSettings* build_settings;
const SourceDir& current_dir;
const Label& current_toolchain;
};
// Fills the label part of a LabelPtrPair, leaving the pointer null.
template <typename T>
struct LabelPtrResolver {
LabelPtrResolver(const BuildSettings* build_settings_in,
const SourceDir& current_dir_in,
const Label& current_toolchain_in)
: build_settings(build_settings_in),
current_dir(current_dir_in),
current_toolchain(current_toolchain_in) {}
bool operator()(const Value& v, LabelPtrPair<T>* out, Err* err) const {
if (!v.VerifyTypeIs(Value::STRING, err))
return false;
out->label = Label::Resolve(current_dir, build_settings->root_path_utf8(),
current_toolchain, v, err);
out->origin = v.origin();
return !err->has_error();
}
const BuildSettings* build_settings;
const SourceDir& current_dir;
const Label& current_toolchain;
};
struct LabelPatternResolver {
LabelPatternResolver(const BuildSettings* build_settings_in,
const SourceDir& current_dir_in)
: build_settings(build_settings_in), current_dir(current_dir_in) {}
bool operator()(const Value& v, LabelPattern* out, Err* err) const {
*out = LabelPattern::GetPattern(current_dir,
build_settings->root_path_utf8(), v, err);
return !err->has_error();
}
const BuildSettings* build_settings;
const SourceDir& current_dir;
};
} // namespace
bool ExtractListOfStringValues(const Value& value,
std::vector<std::string>* dest,
Err* err) {
if (!value.VerifyTypeIs(Value::LIST, err))
return false;
const std::vector<Value>& input_list = value.list_value();
dest->reserve(input_list.size());
for (const auto& item : input_list) {
if (!item.VerifyTypeIs(Value::STRING, err))
return false;
dest->push_back(item.string_value());
}
return true;
}
bool ExtractListOfRelativeFiles(const BuildSettings* build_settings,
const Value& value,
const SourceDir& current_dir,
std::vector<SourceFile>* files,
Err* err) {
return ListValueExtractor(value, files, err,
RelativeFileConverter(build_settings, current_dir));
}
bool ExtractListOfLibs(const BuildSettings* build_settings,
const Value& value,
const SourceDir& current_dir,
std::vector<LibFile>* libs,
Err* err) {
return ListValueExtractor(value, libs, err,
LibFileConverter(build_settings, current_dir));
}
bool ExtractListOfRelativeDirs(const BuildSettings* build_settings,
const Value& value,
const SourceDir& current_dir,
std::vector<SourceDir>* dest,
Err* err) {
return ListValueExtractor(value, dest, err,
RelativeDirConverter(build_settings, current_dir));
}
bool ExtractListOfLabels(const BuildSettings* build_settings,
const Value& value,
const SourceDir& current_dir,
const Label& current_toolchain,
LabelTargetVector* dest,
Err* err) {
return ListValueExtractor(
value, dest, err,
LabelPtrResolver<Target>(build_settings, current_dir, current_toolchain));
}
bool ExtractListOfUniqueLabels(const BuildSettings* build_settings,
const Value& value,
const SourceDir& current_dir,
const Label& current_toolchain,
UniqueVector<Label>* dest,
Err* err) {
return ListValueUniqueExtractor(
value, dest, err,
LabelResolver<Config>(build_settings, current_dir, current_toolchain));
}
bool ExtractListOfUniqueLabels(const BuildSettings* build_settings,
const Value& value,
const SourceDir& current_dir,
const Label& current_toolchain,
UniqueVector<LabelConfigPair>* dest,
Err* err) {
return ListValueUniqueExtractor(
value, dest, err,
LabelPtrResolver<Config>(build_settings, current_dir, current_toolchain));
}
bool ExtractListOfUniqueLabels(const BuildSettings* build_settings,
const Value& value,
const SourceDir& current_dir,
const Label& current_toolchain,
UniqueVector<LabelTargetPair>* dest,
Err* err) {
return ListValueUniqueExtractor(
value, dest, err,
LabelPtrResolver<Target>(build_settings, current_dir, current_toolchain));
}
bool ExtractRelativeFile(const BuildSettings* build_settings,
const Value& value,
const SourceDir& current_dir,
SourceFile* file,
Err* err) {
RelativeFileConverter converter(build_settings, current_dir);
return converter(value, file, err);
}
bool ExtractListOfLabelPatterns(const BuildSettings* build_settings,
const Value& value,
const SourceDir& current_dir,
std::vector<LabelPattern>* patterns,
Err* err) {
return ListValueExtractor(value, patterns, err,
LabelPatternResolver(build_settings, current_dir));
}
bool ExtractListOfExterns(const BuildSettings* build_settings,
const Value& value,
const SourceDir& current_dir,
std::vector<std::pair<std::string, LibFile>>* externs,
Err* err) {
return ListValueExtractor(value, externs, err,
ExternConverter(build_settings, current_dir));
}