// 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 #include #include #include "base/bind.h" #include "base/memory/linked_ptr.h" #include "base/message_loop/message_loop.h" #include "testing/gtest/include/gtest/gtest.h" #include "tools/gn/build_settings.h" #include "tools/gn/err.h" #include "tools/gn/loader.h" #include "tools/gn/parse_tree.h" #include "tools/gn/parser.h" #include "tools/gn/scheduler.h" #include "tools/gn/tokenizer.h" namespace { class MockInputFileManager { public: typedef base::Callback Callback; MockInputFileManager() { } LoaderImpl::AsyncLoadFileCallback GetCallback(); // Sets a given response for a given source file. void AddCannedResponse(const SourceFile& source_file, const std::string& source); // Returns true if there is/are pending load(s) matching the given file(s). bool HasOnePending(const SourceFile& f) const; bool HasTwoPending(const SourceFile& f1, const SourceFile& f2) const; void IssueAllPending(); private: struct CannedResult { scoped_ptr input_file; std::vector tokens; scoped_ptr root; }; bool AsyncLoadFile(const LocationRange& origin, const BuildSettings* build_settings, const SourceFile& file_name, const Callback& callback, Err* err) { pending_.push_back(std::make_pair(file_name, callback)); return true; } // Owning pointers. typedef std::map > CannedResponseMap; CannedResponseMap canned_responses_; std::vector< std::pair > pending_; }; LoaderImpl::AsyncLoadFileCallback MockInputFileManager::GetCallback() { return base::Bind(&MockInputFileManager::AsyncLoadFile, base::Unretained(this)); } // Sets a given response for a given source file. void MockInputFileManager::AddCannedResponse(const SourceFile& source_file, const std::string& source) { CannedResult* canned = new CannedResult; canned->input_file.reset(new InputFile(source_file)); canned->input_file->SetContents(source); // Tokenize. Err err; canned->tokens = Tokenizer::Tokenize(canned->input_file.get(), &err); EXPECT_FALSE(err.has_error()); // Parse. canned->root = Parser::Parse(canned->tokens, &err).Pass(); EXPECT_FALSE(err.has_error()); canned_responses_[source_file] = linked_ptr(canned); } bool MockInputFileManager::HasOnePending(const SourceFile& f) const { return pending_.size() == 1u && pending_[0].first == f; } bool MockInputFileManager::HasTwoPending(const SourceFile& f1, const SourceFile& f2) const { if (pending_.size() != 2u) return false; return pending_[0].first == f1 && pending_[1].first == f2; } void MockInputFileManager::IssueAllPending() { BlockNode block(false); // Default response. for (size_t i = 0; i < pending_.size(); i++) { CannedResponseMap::const_iterator found = canned_responses_.find(pending_[i].first); if (found == canned_responses_.end()) pending_[i].second.Run(&block); else pending_[i].second.Run(found->second->root.get()); } pending_.clear(); } // LoaderTest ------------------------------------------------------------------ class LoaderTest : public testing::Test { public: LoaderTest() { build_settings_.SetBuildDir(SourceDir("//out/Debug/")); } virtual ~LoaderTest() { } protected: Scheduler scheduler_; BuildSettings build_settings_; MockInputFileManager mock_ifm_; }; } // namespace // ----------------------------------------------------------------------------- TEST_F(LoaderTest, Foo) { SourceFile build_config("//build/config/BUILDCONFIG.gn"); build_settings_.set_build_config_file(build_config); scoped_refptr loader(new LoaderImpl(&build_settings_)); // The default toolchain needs to be set by the build config file. mock_ifm_.AddCannedResponse(build_config, "set_default_toolchain(\"//tc:tc\")"); loader->set_async_load_file(mock_ifm_.GetCallback()); // Request the root build file be loaded. This should kick off the default // build config loading. SourceFile root_build("//BUILD.gn"); loader->Load(root_build, Label()); EXPECT_TRUE(mock_ifm_.HasOnePending(build_config)); // Completing the build config load should kick off the root build file load. mock_ifm_.IssueAllPending(); scheduler_.main_loop()->RunUntilIdle(); EXPECT_TRUE(mock_ifm_.HasOnePending(root_build)); // Load the root build file. mock_ifm_.IssueAllPending(); scheduler_.main_loop()->RunUntilIdle(); // Schedule some other file to load in another toolchain. Label second_tc(SourceDir("//tc2/"), "tc2"); SourceFile second_file("//foo/BUILD.gn"); loader->Load(second_file, second_tc); EXPECT_TRUE(mock_ifm_.HasOnePending(SourceFile("//tc2/BUILD.gn"))); // Running the toolchain file should schedule the build config file to load // for that toolchain. mock_ifm_.IssueAllPending(); scheduler_.main_loop()->RunUntilIdle(); // We have to tell it we have a toolchain definition now (normally the // builder would do this). const Settings* default_settings = loader->GetToolchainSettings(Label()); Toolchain second_tc_object(default_settings, second_tc); loader->ToolchainLoaded(&second_tc_object); EXPECT_TRUE(mock_ifm_.HasOnePending(build_config)); // Scheduling a second file to load in that toolchain should not make it // pending yet (it's waiting for the build config). SourceFile third_file("//bar/BUILD.gn"); loader->Load(third_file, second_tc); EXPECT_TRUE(mock_ifm_.HasOnePending(build_config)); // Running the build config file should make our third file pending. mock_ifm_.IssueAllPending(); scheduler_.main_loop()->RunUntilIdle(); EXPECT_TRUE(mock_ifm_.HasTwoPending(second_file, third_file)); EXPECT_FALSE(scheduler_.is_failed()); }