blob: 99961dafdd8de04654c0c1a40678f07ef7334b1b [file] [log] [blame]
// Copyright 2019 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/ninja_c_binary_target_writer.h"
#include <memory>
#include <sstream>
#include <utility>
#include "gn/config.h"
#include "gn/ninja_target_command_util.h"
#include "gn/scheduler.h"
#include "gn/target.h"
#include "gn/test_with_scheduler.h"
#include "gn/test_with_scope.h"
#include "util/build_config.h"
#include "util/test/test.h"
using NinjaCBinaryTargetWriterTest = TestWithScheduler;
TEST_F(NinjaCBinaryTargetWriterTest, SourceSet) {
Err err;
TestWithScope setup;
Target target(setup.settings(), Label(SourceDir("//foo/"), "bar"));
target.set_output_type(Target::SOURCE_SET);
target.visibility().SetPublic();
target.sources().push_back(SourceFile("//foo/input1.cc"));
target.sources().push_back(SourceFile("//foo/input2.cc"));
// Also test object files, which should be just passed through to the
// dependents to link.
target.sources().push_back(SourceFile("//foo/input3.o"));
target.sources().push_back(SourceFile("//foo/input4.obj"));
target.source_types_used().Set(SourceFile::SOURCE_CPP);
target.source_types_used().Set(SourceFile::SOURCE_O);
target.SetToolchain(setup.toolchain());
ASSERT_TRUE(target.OnResolved(&err));
// Source set itself.
{
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = bar\n"
"\n"
"build obj/foo/bar.input1.o: cxx ../../foo/input1.cc\n"
"build obj/foo/bar.input2.o: cxx ../../foo/input2.cc\n"
"\n"
"build obj/foo/bar.stamp: stamp obj/foo/bar.input1.o "
"obj/foo/bar.input2.o ../../foo/input3.o ../../foo/input4.obj\n";
std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
// A shared library that depends on the source set.
Target shlib_target(setup.settings(), Label(SourceDir("//foo/"), "shlib"));
shlib_target.set_output_type(Target::SHARED_LIBRARY);
shlib_target.public_deps().push_back(LabelTargetPair(&target));
shlib_target.SetToolchain(setup.toolchain());
ASSERT_TRUE(shlib_target.OnResolved(&err));
{
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&shlib_target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = libshlib\n"
"\n"
"\n"
// Ordering of the obj files here should come out in the order
// specified, with the target's first, followed by the source set's, in
// order.
"build ./libshlib.so: solink obj/foo/bar.input1.o "
"obj/foo/bar.input2.o ../../foo/input3.o ../../foo/input4.obj "
"|| obj/foo/bar.stamp\n"
" ldflags =\n"
" libs =\n"
" frameworks =\n"
" swiftmodules =\n"
" output_extension = .so\n"
" output_dir = \n";
std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
// A static library that depends on the source set (should not link it).
Target stlib_target(setup.settings(), Label(SourceDir("//foo/"), "stlib"));
stlib_target.set_output_type(Target::STATIC_LIBRARY);
stlib_target.public_deps().push_back(LabelTargetPair(&target));
stlib_target.SetToolchain(setup.toolchain());
ASSERT_TRUE(stlib_target.OnResolved(&err));
{
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&stlib_target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = libstlib\n"
"\n"
"\n"
// There are no sources so there are no params to alink. (In practice
// this will probably fail in the archive tool.)
"build obj/foo/libstlib.a: alink || obj/foo/bar.stamp\n"
" arflags =\n"
" output_extension = \n"
" output_dir = \n";
std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
// Make the static library 'complete', which means it should be linked.
stlib_target.set_complete_static_lib(true);
{
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&stlib_target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = libstlib\n"
"\n"
"\n"
// Ordering of the obj files here should come out in the order
// specified, with the target's first, followed by the source set's, in
// order.
"build obj/foo/libstlib.a: alink obj/foo/bar.input1.o "
"obj/foo/bar.input2.o ../../foo/input3.o ../../foo/input4.obj "
"|| obj/foo/bar.stamp\n"
" arflags =\n"
" output_extension = \n"
" output_dir = \n";
std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
}
TEST_F(NinjaCBinaryTargetWriterTest, EscapeDefines) {
TestWithScope setup;
Err err;
TestTarget target(setup, "//foo:bar", Target::STATIC_LIBRARY);
target.config_values().defines().push_back("BOOL_DEF");
target.config_values().defines().push_back("INT_DEF=123");
target.config_values().defines().push_back("STR_DEF=\"ABCD-1\"");
ASSERT_TRUE(target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target, out);
writer.Run();
const char expectedSubstr[] =
#if defined(OS_WIN)
"defines = -DBOOL_DEF -DINT_DEF=123 \"-DSTR_DEF=\\\"ABCD-1\\\"\"";
#else
"defines = -DBOOL_DEF -DINT_DEF=123 -DSTR_DEF=\\\"ABCD-1\\\"";
#endif
std::string out_str = out.str();
EXPECT_TRUE(out_str.find(expectedSubstr) != std::string::npos);
}
TEST_F(NinjaCBinaryTargetWriterTest, StaticLibrary) {
TestWithScope setup;
Err err;
TestTarget target(setup, "//foo:bar", Target::STATIC_LIBRARY);
target.sources().push_back(SourceFile("//foo/input1.cc"));
target.source_types_used().Set(SourceFile::SOURCE_CPP);
target.config_values().arflags().push_back("--asdf");
ASSERT_TRUE(target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = libbar\n"
"\n"
"build obj/foo/libbar.input1.o: cxx ../../foo/input1.cc\n"
"\n"
"build obj/foo/libbar.a: alink obj/foo/libbar.input1.o\n"
" arflags = --asdf\n"
" output_extension = \n"
" output_dir = \n";
std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
TEST_F(NinjaCBinaryTargetWriterTest, CompleteStaticLibrary) {
TestWithScope setup;
Err err;
TestTarget target(setup, "//foo:bar", Target::STATIC_LIBRARY);
target.sources().push_back(SourceFile("//foo/input1.cc"));
target.source_types_used().Set(SourceFile::SOURCE_CPP);
target.config_values().arflags().push_back("--asdf");
target.set_complete_static_lib(true);
TestTarget baz(setup, "//foo:baz", Target::STATIC_LIBRARY);
baz.sources().push_back(SourceFile("//foo/input2.cc"));
baz.source_types_used().Set(SourceFile::SOURCE_CPP);
target.public_deps().push_back(LabelTargetPair(&baz));
ASSERT_TRUE(target.OnResolved(&err));
ASSERT_TRUE(baz.OnResolved(&err));
// A complete static library that depends on an incomplete static library
// should link in the dependent object files as if the dependent target
// were a source set.
{
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = libbar\n"
"\n"
"build obj/foo/libbar.input1.o: cxx ../../foo/input1.cc\n"
"\n"
"build obj/foo/libbar.a: alink obj/foo/libbar.input1.o "
"obj/foo/libbaz.input2.o || obj/foo/libbaz.a\n"
" arflags = --asdf\n"
" output_extension = \n"
" output_dir = \n";
std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
// Make the dependent static library complete.
baz.set_complete_static_lib(true);
// Dependent complete static libraries should not be linked directly.
{
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = libbar\n"
"\n"
"build obj/foo/libbar.input1.o: cxx ../../foo/input1.cc\n"
"\n"
"build obj/foo/libbar.a: alink obj/foo/libbar.input1.o "
"|| obj/foo/libbaz.a\n"
" arflags = --asdf\n"
" output_extension = \n"
" output_dir = \n";
std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
}
// This tests that output extension and output dir overrides apply, and input
// dependencies are applied.
TEST_F(NinjaCBinaryTargetWriterTest, OutputExtensionAndInputDeps) {
Err err;
TestWithScope setup;
// An action for our library to depend on.
Target action(setup.settings(), Label(SourceDir("//foo/"), "action"));
action.set_output_type(Target::ACTION_FOREACH);
action.visibility().SetPublic();
action.SetToolchain(setup.toolchain());
ASSERT_TRUE(action.OnResolved(&err));
// A shared library w/ the output_extension set to a custom value.
Target target(setup.settings(), Label(SourceDir("//foo/"), "shlib"));
target.set_output_type(Target::SHARED_LIBRARY);
target.set_output_extension(std::string("so.6"));
target.set_output_dir(SourceDir("//out/Debug/foo/"));
target.sources().push_back(SourceFile("//foo/input1.cc"));
target.sources().push_back(SourceFile("//foo/input2.cc"));
target.source_types_used().Set(SourceFile::SOURCE_CPP);
target.public_deps().push_back(LabelTargetPair(&action));
target.SetToolchain(setup.toolchain());
ASSERT_TRUE(target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = libshlib\n"
"\n"
"build obj/foo/libshlib.input1.o: cxx ../../foo/input1.cc"
" || obj/foo/action.stamp\n"
"build obj/foo/libshlib.input2.o: cxx ../../foo/input2.cc"
" || obj/foo/action.stamp\n"
"\n"
"build ./libshlib.so.6: solink obj/foo/libshlib.input1.o "
// The order-only dependency here is stricly unnecessary since the
// sources list this as an order-only dep. See discussion in the code
// that writes this.
"obj/foo/libshlib.input2.o || obj/foo/action.stamp\n"
" ldflags =\n"
" libs =\n"
" frameworks =\n"
" swiftmodules =\n"
" output_extension = .so.6\n"
" output_dir = foo\n";
std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
TEST_F(NinjaCBinaryTargetWriterTest, NoHardDepsToNoPublicHeaderTarget) {
Err err;
TestWithScope setup;
SourceFile generated_file("//out/Debug/generated.cc");
// An action does code generation.
Target action(setup.settings(), Label(SourceDir("//foo/"), "generate"));
action.set_output_type(Target::ACTION);
action.visibility().SetPublic();
action.SetToolchain(setup.toolchain());
action.set_output_dir(SourceDir("//out/Debug/foo/"));
action.action_values().outputs() =
SubstitutionList::MakeForTest("//out/Debug/generated.cc");
ASSERT_TRUE(action.OnResolved(&err));
// A source set compiling geneated code, this target does not publicize any
// headers.
Target gen_obj(setup.settings(), Label(SourceDir("//foo/"), "gen_obj"));
gen_obj.set_output_type(Target::SOURCE_SET);
gen_obj.set_output_dir(SourceDir("//out/Debug/foo/"));
gen_obj.sources().push_back(generated_file);
gen_obj.source_types_used().Set(SourceFile::SOURCE_CPP);
gen_obj.visibility().SetPublic();
gen_obj.private_deps().push_back(LabelTargetPair(&action));
gen_obj.set_all_headers_public(false);
gen_obj.SetToolchain(setup.toolchain());
ASSERT_TRUE(gen_obj.OnResolved(&err));
std::ostringstream obj_out;
NinjaCBinaryTargetWriter obj_writer(&gen_obj, obj_out);
obj_writer.Run();
const char obj_expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = gen_obj\n"
"\n"
"build obj/out/Debug/gen_obj.generated.o: cxx generated.cc"
" || obj/foo/generate.stamp\n"
"\n"
"build obj/foo/gen_obj.stamp: stamp obj/out/Debug/gen_obj.generated.o"
// The order-only dependency here is strictly unnecessary since the
// sources list this as an order-only dep.
" || obj/foo/generate.stamp\n";
std::string obj_str = obj_out.str();
EXPECT_EQ(obj_expected, obj_str);
// A shared library depends on gen_obj, having corresponding header for
// generated obj.
Target gen_lib(setup.settings(), Label(SourceDir("//foo/"), "gen_lib"));
gen_lib.set_output_type(Target::SHARED_LIBRARY);
gen_lib.set_output_dir(SourceDir("//out/Debug/foo/"));
gen_lib.sources().push_back(SourceFile("//foor/generated.h"));
gen_lib.source_types_used().Set(SourceFile::SOURCE_H);
gen_lib.visibility().SetPublic();
gen_lib.private_deps().push_back(LabelTargetPair(&gen_obj));
gen_lib.SetToolchain(setup.toolchain());
ASSERT_TRUE(gen_lib.OnResolved(&err));
std::ostringstream lib_out;
NinjaCBinaryTargetWriter lib_writer(&gen_lib, lib_out);
lib_writer.Run();
const char lib_expected[] =
"defines =\n"
"include_dirs =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = libgen_lib\n"
"\n"
"\n"
"build ./libgen_lib.so: solink obj/out/Debug/gen_obj.generated.o"
// The order-only dependency here is strictly unnecessary since
// obj/out/Debug/gen_obj.generated.o has dependency to
// obj/foo/gen_obj.stamp
" || obj/foo/gen_obj.stamp\n"
" ldflags =\n"
" libs =\n"
" frameworks =\n"
" swiftmodules =\n"
" output_extension = .so\n"
" output_dir = foo\n";
std::string lib_str = lib_out.str();
EXPECT_EQ(lib_expected, lib_str);
// An executable depends on gen_lib.
Target executable(setup.settings(),
Label(SourceDir("//foo/"), "final_target"));
executable.set_output_type(Target::EXECUTABLE);
executable.set_output_dir(SourceDir("//out/Debug/foo/"));
executable.sources().push_back(SourceFile("//foo/main.cc"));
executable.source_types_used().Set(SourceFile::SOURCE_CPP);
executable.private_deps().push_back(LabelTargetPair(&gen_lib));
executable.SetToolchain(setup.toolchain());
ASSERT_TRUE(executable.OnResolved(&err)) << err.message();
std::ostringstream final_out;
NinjaCBinaryTargetWriter final_writer(&executable, final_out);
final_writer.Run();
// There is no order only dependency to action target.
const char final_expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = final_target\n"
"\n"
"build obj/foo/final_target.main.o: cxx ../../foo/main.cc\n"
"\n"
"build ./final_target: link obj/foo/final_target.main.o"
" ./libgen_lib.so\n"
" ldflags =\n"
" libs =\n"
" frameworks =\n"
" swiftmodules =\n"
" output_extension = \n"
" output_dir = foo\n";
std::string final_str = final_out.str();
EXPECT_EQ(final_expected, final_str);
}
// Tests libs are applied.
TEST_F(NinjaCBinaryTargetWriterTest, LibsAndLibDirs) {
Err err;
TestWithScope setup;
// A shared library w/ libs and lib_dirs.
Target target(setup.settings(), Label(SourceDir("//foo/"), "shlib"));
target.set_output_type(Target::SHARED_LIBRARY);
target.config_values().libs().push_back(LibFile(SourceFile("//foo/lib1.a")));
target.config_values().libs().push_back(LibFile("foo"));
target.config_values().lib_dirs().push_back(SourceDir("//foo/bar/"));
target.SetToolchain(setup.toolchain());
ASSERT_TRUE(target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = libshlib\n"
"\n"
"\n"
"build ./libshlib.so: solink | ../../foo/lib1.a\n"
" ldflags = -L../../foo/bar\n"
" libs = ../../foo/lib1.a -lfoo\n"
" frameworks =\n"
" swiftmodules =\n"
" output_extension = .so\n"
" output_dir = \n";
std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
// Tests frameworks are applied.
TEST_F(NinjaCBinaryTargetWriterTest, FrameworksAndFrameworkDirs) {
Err err;
TestWithScope setup;
// A config that force linking with the framework.
Config framework_config(setup.settings(),
Label(SourceDir("//bar"), "framework_config"));
framework_config.visibility().SetPublic();
framework_config.own_values().frameworks().push_back("Bar.framework");
framework_config.own_values().framework_dirs().push_back(
SourceDir("//out/Debug/"));
ASSERT_TRUE(framework_config.OnResolved(&err));
// A target creating a framework bundle.
Target framework(setup.settings(), Label(SourceDir("//bar"), "framework"));
framework.set_output_type(Target::CREATE_BUNDLE);
framework.bundle_data().product_type() = "com.apple.product-type.framework";
framework.public_configs().push_back(LabelConfigPair(&framework_config));
framework.SetToolchain(setup.toolchain());
framework.visibility().SetPublic();
ASSERT_TRUE(framework.OnResolved(&err));
// A shared library w/ libs and lib_dirs.
Target target(setup.settings(), Label(SourceDir("//foo/"), "shlib"));
target.set_output_type(Target::SHARED_LIBRARY);
target.config_values().frameworks().push_back("System.framework");
target.config_values().weak_frameworks().push_back("Whizbang.framework");
target.private_deps().push_back(LabelTargetPair(&framework));
target.SetToolchain(setup.toolchain());
ASSERT_TRUE(target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = libshlib\n"
"\n"
"\n"
"build ./libshlib.so: solink | obj/bar/framework.stamp\n"
" ldflags = -F.\n"
" libs =\n"
" frameworks = -framework System -framework Bar "
"-weak_framework Whizbang\n"
" swiftmodules =\n"
" output_extension = .so\n"
" output_dir = \n";
std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
TEST_F(NinjaCBinaryTargetWriterTest, EmptyOutputExtension) {
Err err;
TestWithScope setup;
// This test is the same as OutputExtensionAndInputDeps, except that we call
// set_output_extension("") and ensure that we get an empty one and override
// the output prefix so that the name matches the target exactly.
Target target(setup.settings(), Label(SourceDir("//foo/"), "shlib"));
target.set_output_type(Target::SHARED_LIBRARY);
target.set_output_prefix_override(true);
target.set_output_extension(std::string());
target.sources().push_back(SourceFile("//foo/input1.cc"));
target.sources().push_back(SourceFile("//foo/input2.cc"));
target.source_types_used().Set(SourceFile::SOURCE_CPP);
target.SetToolchain(setup.toolchain());
ASSERT_TRUE(target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = shlib\n"
"\n"
"build obj/foo/shlib.input1.o: cxx ../../foo/input1.cc\n"
"build obj/foo/shlib.input2.o: cxx ../../foo/input2.cc\n"
"\n"
"build ./shlib: solink obj/foo/shlib.input1.o "
"obj/foo/shlib.input2.o\n"
" ldflags =\n"
" libs =\n"
" frameworks =\n"
" swiftmodules =\n"
" output_extension = \n"
" output_dir = \n";
std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
TEST_F(NinjaCBinaryTargetWriterTest, SourceSetDataDeps) {
Err err;
TestWithScope setup;
// This target is a data (runtime) dependency of the intermediate target.
Target data(setup.settings(), Label(SourceDir("//foo/"), "data_target"));
data.set_output_type(Target::EXECUTABLE);
data.visibility().SetPublic();
data.SetToolchain(setup.toolchain());
ASSERT_TRUE(data.OnResolved(&err));
// Intermediate source set target.
Target inter(setup.settings(), Label(SourceDir("//foo/"), "inter"));
inter.set_output_type(Target::SOURCE_SET);
inter.visibility().SetPublic();
inter.data_deps().push_back(LabelTargetPair(&data));
inter.SetToolchain(setup.toolchain());
inter.sources().push_back(SourceFile("//foo/inter.cc"));
inter.source_types_used().Set(SourceFile::SOURCE_CPP);
ASSERT_TRUE(inter.OnResolved(&err)) << err.message();
// Write out the intermediate target.
std::ostringstream inter_out;
NinjaCBinaryTargetWriter inter_writer(&inter, inter_out);
inter_writer.Run();
// The intermediate source set will be a stamp file that depends on the
// object files, and will have an order-only dependency on its data dep and
// data file.
const char inter_expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = inter\n"
"\n"
"build obj/foo/inter.inter.o: cxx ../../foo/inter.cc\n"
"\n"
"build obj/foo/inter.stamp: stamp obj/foo/inter.inter.o || "
"./data_target\n";
EXPECT_EQ(inter_expected, inter_out.str());
// Final target.
Target exe(setup.settings(), Label(SourceDir("//foo/"), "exe"));
exe.set_output_type(Target::EXECUTABLE);
exe.public_deps().push_back(LabelTargetPair(&inter));
exe.SetToolchain(setup.toolchain());
exe.sources().push_back(SourceFile("//foo/final.cc"));
exe.source_types_used().Set(SourceFile::SOURCE_CPP);
ASSERT_TRUE(exe.OnResolved(&err));
std::ostringstream final_out;
NinjaCBinaryTargetWriter final_writer(&exe, final_out);
final_writer.Run();
// The final output depends on both object files (one from the final target,
// one from the source set) and has an order-only dependency on the source
// set's stamp file and the final target's data file. The source set stamp
// dependency will create an implicit order-only dependency on the data
// target.
const char final_expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = exe\n"
"\n"
"build obj/foo/exe.final.o: cxx ../../foo/final.cc\n"
"\n"
"build ./exe: link obj/foo/exe.final.o obj/foo/inter.inter.o || "
"obj/foo/inter.stamp\n"
" ldflags =\n"
" libs =\n"
" frameworks =\n"
" swiftmodules =\n"
" output_extension = \n"
" output_dir = \n";
EXPECT_EQ(final_expected, final_out.str());
}
TEST_F(NinjaCBinaryTargetWriterTest, SharedLibraryModuleDefinitionFile) {
Err err;
TestWithScope setup;
Target shared_lib(setup.settings(), Label(SourceDir("//foo/"), "bar"));
shared_lib.set_output_type(Target::SHARED_LIBRARY);
shared_lib.SetToolchain(setup.toolchain());
shared_lib.sources().push_back(SourceFile("//foo/sources.cc"));
shared_lib.sources().push_back(SourceFile("//foo/bar.def"));
shared_lib.source_types_used().Set(SourceFile::SOURCE_CPP);
shared_lib.source_types_used().Set(SourceFile::SOURCE_DEF);
ASSERT_TRUE(shared_lib.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&shared_lib, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = libbar\n"
"\n"
"build obj/foo/libbar.sources.o: cxx ../../foo/sources.cc\n"
"\n"
"build ./libbar.so: solink obj/foo/libbar.sources.o | ../../foo/bar.def\n"
" ldflags = /DEF:../../foo/bar.def\n"
" libs =\n"
" frameworks =\n"
" swiftmodules =\n"
" output_extension = .so\n"
" output_dir = \n";
EXPECT_EQ(expected, out.str());
}
TEST_F(NinjaCBinaryTargetWriterTest, LoadableModule) {
Err err;
TestWithScope setup;
Target loadable_module(setup.settings(), Label(SourceDir("//foo/"), "bar"));
loadable_module.set_output_type(Target::LOADABLE_MODULE);
loadable_module.visibility().SetPublic();
loadable_module.SetToolchain(setup.toolchain());
loadable_module.sources().push_back(SourceFile("//foo/sources.cc"));
loadable_module.source_types_used().Set(SourceFile::SOURCE_CPP);
ASSERT_TRUE(loadable_module.OnResolved(&err)) << err.message();
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&loadable_module, out);
writer.Run();
const char loadable_expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = libbar\n"
"\n"
"build obj/foo/libbar.sources.o: cxx ../../foo/sources.cc\n"
"\n"
"build ./libbar.so: solink_module obj/foo/libbar.sources.o\n"
" ldflags =\n"
" libs =\n"
" frameworks =\n"
" swiftmodules =\n"
" output_extension = .so\n"
" output_dir = \n";
EXPECT_EQ(loadable_expected, out.str());
// Final target.
Target exe(setup.settings(), Label(SourceDir("//foo/"), "exe"));
exe.set_output_type(Target::EXECUTABLE);
exe.public_deps().push_back(LabelTargetPair(&loadable_module));
exe.SetToolchain(setup.toolchain());
exe.sources().push_back(SourceFile("//foo/final.cc"));
exe.source_types_used().Set(SourceFile::SOURCE_CPP);
ASSERT_TRUE(exe.OnResolved(&err)) << err.message();
std::ostringstream final_out;
NinjaCBinaryTargetWriter final_writer(&exe, final_out);
final_writer.Run();
// The final output depends on the loadable module so should have an
// order-only dependency on the loadable modules's output file.
const char final_expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = exe\n"
"\n"
"build obj/foo/exe.final.o: cxx ../../foo/final.cc\n"
"\n"
"build ./exe: link obj/foo/exe.final.o || ./libbar.so\n"
" ldflags =\n"
" libs =\n"
" frameworks =\n"
" swiftmodules =\n"
" output_extension = \n"
" output_dir = \n";
EXPECT_EQ(final_expected, final_out.str());
}
TEST_F(NinjaCBinaryTargetWriterTest, WinPrecompiledHeaders) {
Err err;
// This setup's toolchain does not have precompiled headers defined.
TestWithScope setup;
// A precompiled header toolchain.
Settings pch_settings(setup.build_settings(), "withpch/");
Toolchain pch_toolchain(&pch_settings,
Label(SourceDir("//toolchain/"), "withpch"));
pch_settings.set_toolchain_label(pch_toolchain.label());
pch_settings.set_default_toolchain_label(setup.toolchain()->label());
// Declare a C++ compiler that supports PCH.
std::unique_ptr<Tool> cxx = std::make_unique<CTool>(CTool::kCToolCxx);
CTool* cxx_tool = cxx->AsC();
TestWithScope::SetCommandForTool(
"c++ {{source}} {{cflags}} {{cflags_cc}} {{defines}} {{include_dirs}} "
"-o {{output}}",
cxx_tool);
cxx_tool->set_outputs(SubstitutionList::MakeForTest(
"{{source_out_dir}}/{{target_output_name}}.{{source_name_part}}.o"));
cxx_tool->set_precompiled_header_type(CTool::PCH_MSVC);
pch_toolchain.SetTool(std::move(cxx));
// Add a C compiler as well.
std::unique_ptr<Tool> cc = std::make_unique<CTool>(CTool::kCToolCc);
CTool* cc_tool = cc->AsC();
TestWithScope::SetCommandForTool(
"cc {{source}} {{cflags}} {{cflags_c}} {{defines}} {{include_dirs}} "
"-o {{output}}",
cc_tool);
cc_tool->set_outputs(SubstitutionList::MakeForTest(
"{{source_out_dir}}/{{target_output_name}}.{{source_name_part}}.o"));
cc_tool->set_precompiled_header_type(CTool::PCH_MSVC);
pch_toolchain.SetTool(std::move(cc));
pch_toolchain.ToolchainSetupComplete();
// This target doesn't specify precompiled headers.
{
Target no_pch_target(&pch_settings,
Label(SourceDir("//foo/"), "no_pch_target"));
no_pch_target.set_output_type(Target::SOURCE_SET);
no_pch_target.visibility().SetPublic();
no_pch_target.sources().push_back(SourceFile("//foo/input1.cc"));
no_pch_target.sources().push_back(SourceFile("//foo/input2.c"));
no_pch_target.source_types_used().Set(SourceFile::SOURCE_CPP);
no_pch_target.source_types_used().Set(SourceFile::SOURCE_C);
no_pch_target.config_values().cflags_c().push_back("-std=c99");
no_pch_target.SetToolchain(&pch_toolchain);
ASSERT_TRUE(no_pch_target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&no_pch_target, out);
writer.Run();
const char no_pch_expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_c = -std=c99\n"
"cflags_cc =\n"
"target_output_name = no_pch_target\n"
"\n"
"build withpch/obj/foo/no_pch_target.input1.o: "
"withpch_cxx ../../foo/input1.cc\n"
"build withpch/obj/foo/no_pch_target.input2.o: "
"withpch_cc ../../foo/input2.c\n"
"\n"
"build withpch/obj/foo/no_pch_target.stamp: "
"withpch_stamp withpch/obj/foo/no_pch_target.input1.o "
"withpch/obj/foo/no_pch_target.input2.o\n";
EXPECT_EQ(no_pch_expected, out.str());
}
// This target specifies PCH.
{
Target pch_target(&pch_settings, Label(SourceDir("//foo/"), "pch_target"));
pch_target.config_values().set_precompiled_header("build/precompile.h");
pch_target.config_values().set_precompiled_source(
SourceFile("//build/precompile.cc"));
pch_target.set_output_type(Target::SOURCE_SET);
pch_target.visibility().SetPublic();
pch_target.sources().push_back(SourceFile("//foo/input1.cc"));
pch_target.sources().push_back(SourceFile("//foo/input2.c"));
pch_target.source_types_used().Set(SourceFile::SOURCE_CPP);
pch_target.source_types_used().Set(SourceFile::SOURCE_C);
pch_target.SetToolchain(&pch_toolchain);
ASSERT_TRUE(pch_target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&pch_target, out);
writer.Run();
const char pch_win_expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
// It should output language-specific pch files.
"cflags_c = /Fpwithpch/obj/foo/pch_target_c.pch "
"/Yubuild/precompile.h\n"
"cflags_cc = /Fpwithpch/obj/foo/pch_target_cc.pch "
"/Yubuild/precompile.h\n"
"target_output_name = pch_target\n"
"\n"
// Compile the precompiled source files with /Yc.
"build withpch/obj/build/pch_target.precompile.c.o: "
"withpch_cc ../../build/precompile.cc\n"
" cflags_c = ${cflags_c} /Ycbuild/precompile.h\n"
"\n"
"build withpch/obj/build/pch_target.precompile.cc.o: "
"withpch_cxx ../../build/precompile.cc\n"
" cflags_cc = ${cflags_cc} /Ycbuild/precompile.h\n"
"\n"
"build withpch/obj/foo/pch_target.input1.o: "
"withpch_cxx ../../foo/input1.cc | "
// Explicit dependency on the PCH build step.
"withpch/obj/build/pch_target.precompile.cc.o\n"
"build withpch/obj/foo/pch_target.input2.o: "
"withpch_cc ../../foo/input2.c | "
// Explicit dependency on the PCH build step.
"withpch/obj/build/pch_target.precompile.c.o\n"
"\n"
"build withpch/obj/foo/pch_target.stamp: withpch_stamp "
"withpch/obj/foo/pch_target.input1.o "
"withpch/obj/foo/pch_target.input2.o "
// The precompiled object files were added to the outputs.
"withpch/obj/build/pch_target.precompile.c.o "
"withpch/obj/build/pch_target.precompile.cc.o\n";
EXPECT_EQ(pch_win_expected, out.str());
}
}
TEST_F(NinjaCBinaryTargetWriterTest, GCCPrecompiledHeaders) {
Err err;
// This setup's toolchain does not have precompiled headers defined.
TestWithScope setup;
// A precompiled header toolchain.
Settings pch_settings(setup.build_settings(), "withpch/");
Toolchain pch_toolchain(&pch_settings,
Label(SourceDir("//toolchain/"), "withpch"));
pch_settings.set_toolchain_label(pch_toolchain.label());
pch_settings.set_default_toolchain_label(setup.toolchain()->label());
// Declare a C++ compiler that supports PCH.
std::unique_ptr<Tool> cxx = std::make_unique<CTool>(CTool::kCToolCxx);
CTool* cxx_tool = cxx->AsC();
TestWithScope::SetCommandForTool(
"c++ {{source}} {{cflags}} {{cflags_cc}} {{defines}} {{include_dirs}} "
"-o {{output}}",
cxx_tool);
cxx_tool->set_outputs(SubstitutionList::MakeForTest(
"{{source_out_dir}}/{{target_output_name}}.{{source_name_part}}.o"));
cxx_tool->set_precompiled_header_type(CTool::PCH_GCC);
pch_toolchain.SetTool(std::move(cxx));
pch_toolchain.ToolchainSetupComplete();
// Add a C compiler as well.
std::unique_ptr<Tool> cc = std::make_unique<CTool>(CTool::kCToolCc);
CTool* cc_tool = cc->AsC();
TestWithScope::SetCommandForTool(
"cc {{source}} {{cflags}} {{cflags_c}} {{defines}} {{include_dirs}} "
"-o {{output}}",
cc_tool);
cc_tool->set_outputs(SubstitutionList::MakeForTest(
"{{source_out_dir}}/{{target_output_name}}.{{source_name_part}}.o"));
cc_tool->set_precompiled_header_type(CTool::PCH_GCC);
pch_toolchain.SetTool(std::move(cc));
pch_toolchain.ToolchainSetupComplete();
// This target doesn't specify precompiled headers.
{
Target no_pch_target(&pch_settings,
Label(SourceDir("//foo/"), "no_pch_target"));
no_pch_target.set_output_type(Target::SOURCE_SET);
no_pch_target.visibility().SetPublic();
no_pch_target.sources().push_back(SourceFile("//foo/input1.cc"));
no_pch_target.sources().push_back(SourceFile("//foo/input2.c"));
no_pch_target.source_types_used().Set(SourceFile::SOURCE_CPP);
no_pch_target.source_types_used().Set(SourceFile::SOURCE_C);
no_pch_target.config_values().cflags_c().push_back("-std=c99");
no_pch_target.SetToolchain(&pch_toolchain);
ASSERT_TRUE(no_pch_target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&no_pch_target, out);
writer.Run();
const char no_pch_expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_c = -std=c99\n"
"cflags_cc =\n"
"target_output_name = no_pch_target\n"
"\n"
"build withpch/obj/foo/no_pch_target.input1.o: "
"withpch_cxx ../../foo/input1.cc\n"
"build withpch/obj/foo/no_pch_target.input2.o: "
"withpch_cc ../../foo/input2.c\n"
"\n"
"build withpch/obj/foo/no_pch_target.stamp: "
"withpch_stamp withpch/obj/foo/no_pch_target.input1.o "
"withpch/obj/foo/no_pch_target.input2.o\n";
EXPECT_EQ(no_pch_expected, out.str());
}
// This target specifies PCH.
{
Target pch_target(&pch_settings, Label(SourceDir("//foo/"), "pch_target"));
pch_target.config_values().set_precompiled_source(
SourceFile("//build/precompile.h"));
pch_target.config_values().cflags_c().push_back("-std=c99");
pch_target.set_output_type(Target::SOURCE_SET);
pch_target.visibility().SetPublic();
pch_target.sources().push_back(SourceFile("//foo/input1.cc"));
pch_target.sources().push_back(SourceFile("//foo/input2.c"));
pch_target.source_types_used().Set(SourceFile::SOURCE_CPP);
pch_target.source_types_used().Set(SourceFile::SOURCE_C);
pch_target.SetToolchain(&pch_toolchain);
ASSERT_TRUE(pch_target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&pch_target, out);
writer.Run();
const char pch_gcc_expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_c = -std=c99 "
"-include withpch/obj/build/pch_target.precompile.h-c\n"
"cflags_cc = -include withpch/obj/build/pch_target.precompile.h-cc\n"
"target_output_name = pch_target\n"
"\n"
// Compile the precompiled sources with -x <lang>.
"build withpch/obj/build/pch_target.precompile.h-c.gch: "
"withpch_cc ../../build/precompile.h\n"
" cflags_c = -std=c99 -x c-header\n"
"\n"
"build withpch/obj/build/pch_target.precompile.h-cc.gch: "
"withpch_cxx ../../build/precompile.h\n"
" cflags_cc = -x c++-header\n"
"\n"
"build withpch/obj/foo/pch_target.input1.o: "
"withpch_cxx ../../foo/input1.cc | "
// Explicit dependency on the PCH build step.
"withpch/obj/build/pch_target.precompile.h-cc.gch\n"
"build withpch/obj/foo/pch_target.input2.o: "
"withpch_cc ../../foo/input2.c | "
// Explicit dependency on the PCH build step.
"withpch/obj/build/pch_target.precompile.h-c.gch\n"
"\n"
"build withpch/obj/foo/pch_target.stamp: "
"withpch_stamp withpch/obj/foo/pch_target.input1.o "
"withpch/obj/foo/pch_target.input2.o\n";
EXPECT_EQ(pch_gcc_expected, out.str());
}
}
// Should throw an error with the scheduler if a duplicate object file exists.
// This is dependent on the toolchain's object file mapping.
TEST_F(NinjaCBinaryTargetWriterTest, DupeObjFileError) {
TestWithScope setup;
TestTarget target(setup, "//foo:bar", Target::EXECUTABLE);
target.sources().push_back(SourceFile("//a.cc"));
target.sources().push_back(SourceFile("//a.cc"));
target.source_types_used().Set(SourceFile::SOURCE_CPP);
EXPECT_FALSE(scheduler().is_failed());
scheduler().SuppressOutputForTesting(true);
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target, out);
writer.Run();
scheduler().SuppressOutputForTesting(false);
// Should have issued an error.
EXPECT_TRUE(scheduler().is_failed());
}
// This tests that output extension and output dir overrides apply, and input
// dependencies are applied.
TEST_F(NinjaCBinaryTargetWriterTest, InputFiles) {
Err err;
TestWithScope setup;
// This target has one input.
{
Target target(setup.settings(), Label(SourceDir("//foo/"), "bar"));
target.set_output_type(Target::SOURCE_SET);
target.visibility().SetPublic();
target.sources().push_back(SourceFile("//foo/input1.cc"));
target.sources().push_back(SourceFile("//foo/input2.cc"));
target.source_types_used().Set(SourceFile::SOURCE_CPP);
target.config_values().inputs().push_back(SourceFile("//foo/input.data"));
target.SetToolchain(setup.toolchain());
ASSERT_TRUE(target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = bar\n"
"\n"
"build obj/foo/bar.input1.o: cxx ../../foo/input1.cc"
" | ../../foo/input.data\n"
"build obj/foo/bar.input2.o: cxx ../../foo/input2.cc"
" | ../../foo/input.data\n"
"\n"
"build obj/foo/bar.stamp: stamp obj/foo/bar.input1.o "
"obj/foo/bar.input2.o\n";
EXPECT_EQ(expected, out.str());
}
// This target has one input but no source files.
{
Target target(setup.settings(), Label(SourceDir("//foo/"), "bar"));
target.set_output_type(Target::SHARED_LIBRARY);
target.visibility().SetPublic();
target.config_values().inputs().push_back(SourceFile("//foo/input.data"));
target.SetToolchain(setup.toolchain());
ASSERT_TRUE(target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = libbar\n"
"\n"
"\n"
"build ./libbar.so: solink | ../../foo/input.data\n"
" ldflags =\n"
" libs =\n"
" frameworks =\n"
" swiftmodules =\n"
" output_extension = .so\n"
" output_dir = \n";
EXPECT_EQ(expected, out.str());
}
// This target has multiple inputs.
{
Target target(setup.settings(), Label(SourceDir("//foo/"), "bar"));
target.set_output_type(Target::SOURCE_SET);
target.visibility().SetPublic();
target.sources().push_back(SourceFile("//foo/input1.cc"));
target.sources().push_back(SourceFile("//foo/input2.cc"));
target.source_types_used().Set(SourceFile::SOURCE_CPP);
target.config_values().inputs().push_back(SourceFile("//foo/input1.data"));
target.config_values().inputs().push_back(SourceFile("//foo/input2.data"));
target.SetToolchain(setup.toolchain());
ASSERT_TRUE(target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = bar\n"
"\n"
"build obj/foo/bar.inputs.stamp: stamp"
" ../../foo/input1.data ../../foo/input2.data\n"
"build obj/foo/bar.input1.o: cxx ../../foo/input1.cc"
" | obj/foo/bar.inputs.stamp\n"
"build obj/foo/bar.input2.o: cxx ../../foo/input2.cc"
" | obj/foo/bar.inputs.stamp\n"
"\n"
"build obj/foo/bar.stamp: stamp obj/foo/bar.input1.o "
"obj/foo/bar.input2.o\n";
EXPECT_EQ(expected, out.str());
}
// This target has one input itself, one from an immediate config, and one
// from a config tacked on to said config.
{
Config far_config(setup.settings(), Label(SourceDir("//foo/"), "qux"));
far_config.own_values().inputs().push_back(SourceFile("//foo/input3.data"));
ASSERT_TRUE(far_config.OnResolved(&err));
Config config(setup.settings(), Label(SourceDir("//foo/"), "baz"));
config.visibility().SetPublic();
config.own_values().inputs().push_back(SourceFile("//foo/input2.data"));
config.configs().push_back(LabelConfigPair(&far_config));
ASSERT_TRUE(config.OnResolved(&err));
Target target(setup.settings(), Label(SourceDir("//foo/"), "bar"));
target.set_output_type(Target::SOURCE_SET);
target.visibility().SetPublic();
target.sources().push_back(SourceFile("//foo/input1.cc"));
target.sources().push_back(SourceFile("//foo/input2.cc"));
target.source_types_used().Set(SourceFile::SOURCE_CPP);
target.config_values().inputs().push_back(SourceFile("//foo/input1.data"));
target.configs().push_back(LabelConfigPair(&config));
target.SetToolchain(setup.toolchain());
ASSERT_TRUE(target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = bar\n"
"\n"
"build obj/foo/bar.inputs.stamp: stamp"
" ../../foo/input1.data ../../foo/input2.data ../../foo/input3.data\n"
"build obj/foo/bar.input1.o: cxx ../../foo/input1.cc"
" | obj/foo/bar.inputs.stamp\n"
"build obj/foo/bar.input2.o: cxx ../../foo/input2.cc"
" | obj/foo/bar.inputs.stamp\n"
"\n"
"build obj/foo/bar.stamp: stamp obj/foo/bar.input1.o "
"obj/foo/bar.input2.o\n";
EXPECT_EQ(expected, out.str());
}
}
// Test linking of Rust dependencies into C targets.
TEST_F(NinjaCBinaryTargetWriterTest, RustDeps) {
Err err;
TestWithScope setup;
{
Target library_target(setup.settings(), Label(SourceDir("//foo/"), "foo"));
library_target.set_output_type(Target::STATIC_LIBRARY);
library_target.visibility().SetPublic();
SourceFile lib("//foo/lib.rs");
library_target.sources().push_back(lib);
library_target.source_types_used().Set(SourceFile::SOURCE_RS);
library_target.rust_values().set_crate_root(lib);
library_target.rust_values().crate_name() = "foo";
library_target.SetToolchain(setup.toolchain());
ASSERT_TRUE(library_target.OnResolved(&err));
Target target(setup.settings(), Label(SourceDir("//bar/"), "bar"));
target.set_output_type(Target::EXECUTABLE);
target.visibility().SetPublic();
target.sources().push_back(SourceFile("//bar/bar.cc"));
target.source_types_used().Set(SourceFile::SOURCE_CPP);
target.private_deps().push_back(LabelTargetPair(&library_target));
target.SetToolchain(setup.toolchain());
ASSERT_TRUE(target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/bar\n"
"target_output_name = bar\n"
"\n"
"build obj/bar/bar.bar.o: cxx ../../bar/bar.cc\n"
"\n"
"build ./bar: link obj/bar/bar.bar.o obj/foo/libfoo.a\n"
" ldflags =\n"
" libs =\n"
" frameworks =\n"
" swiftmodules =\n"
" output_extension = \n"
" output_dir = \n";
std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
{
Target rlib_target(setup.settings(), Label(SourceDir("//baz/"), "lib"));
rlib_target.set_output_type(Target::RUST_LIBRARY);
rlib_target.visibility().SetPublic();
SourceFile bazlib("//baz/lib.rs");
rlib_target.sources().push_back(bazlib);
rlib_target.source_types_used().Set(SourceFile::SOURCE_RS);
rlib_target.rust_values().set_crate_root(bazlib);
rlib_target.rust_values().crate_name() = "lib";
rlib_target.SetToolchain(setup.toolchain());
ASSERT_TRUE(rlib_target.OnResolved(&err));
Target library_target(setup.settings(), Label(SourceDir("//foo/"), "foo"));
library_target.set_output_type(Target::STATIC_LIBRARY);
library_target.visibility().SetPublic();
SourceFile lib("//foo/lib.rs");
library_target.sources().push_back(lib);
library_target.source_types_used().Set(SourceFile::SOURCE_RS);
library_target.rust_values().set_crate_root(lib);
library_target.rust_values().crate_name() = "foo";
library_target.public_deps().push_back(LabelTargetPair(&rlib_target));
library_target.SetToolchain(setup.toolchain());
ASSERT_TRUE(library_target.OnResolved(&err));
Target rlib_target2(setup.settings(), Label(SourceDir("//qux/"), "lib2"));
rlib_target2.set_output_type(Target::RUST_LIBRARY);
rlib_target2.visibility().SetPublic();
SourceFile quxlib("//qux/lib.rs");
rlib_target2.sources().push_back(quxlib);
rlib_target2.source_types_used().Set(SourceFile::SOURCE_RS);
rlib_target2.rust_values().set_crate_root(quxlib);
rlib_target2.rust_values().crate_name() = "lib2";
rlib_target2.SetToolchain(setup.toolchain());
ASSERT_TRUE(rlib_target2.OnResolved(&err));
Target rlib_target3(setup.settings(), Label(SourceDir("//quxqux/"), "lib3"));
rlib_target3.set_output_type(Target::RUST_LIBRARY);
rlib_target3.visibility().SetPublic();
SourceFile quxquxlib("//quxqux/lib.rs");
rlib_target3.sources().push_back(quxquxlib);
rlib_target3.source_types_used().Set(SourceFile::SOURCE_RS);
rlib_target3.rust_values().set_crate_root(quxlib);
rlib_target3.rust_values().crate_name() = "lib3";
rlib_target3.SetToolchain(setup.toolchain());
ASSERT_TRUE(rlib_target3.OnResolved(&err));
Target procmacro(setup.settings(),
Label(SourceDir("//quuxmacro/"), "procmacro"));
procmacro.set_output_type(Target::RUST_PROC_MACRO);
procmacro.visibility().SetPublic();
SourceFile procmacrolib("//procmacro/lib.rs");
procmacro.sources().push_back(procmacrolib);
procmacro.source_types_used().Set(SourceFile::SOURCE_RS);
procmacro.public_deps().push_back(LabelTargetPair(&rlib_target2));
procmacro.public_deps().push_back(LabelTargetPair(&rlib_target3));
procmacro.rust_values().set_crate_root(procmacrolib);
procmacro.rust_values().crate_name() = "procmacro";
procmacro.SetToolchain(setup.toolchain());
ASSERT_TRUE(procmacro.OnResolved(&err));
Target rlib_target4(setup.settings(), Label(SourceDir("//quux/"), "lib4"));
rlib_target4.set_output_type(Target::RUST_LIBRARY);
rlib_target4.visibility().SetPublic();
SourceFile quuxlib("//quux/lib.rs");
rlib_target4.sources().push_back(quuxlib);
rlib_target4.source_types_used().Set(SourceFile::SOURCE_RS);
rlib_target4.public_deps().push_back(LabelTargetPair(&rlib_target2));
// Transitive proc macros should not impact C++ targets; we're
// adding one to ensure the ninja instructions below are unaffected.
rlib_target4.public_deps().push_back(LabelTargetPair(&procmacro));
rlib_target4.rust_values().set_crate_root(quuxlib);
rlib_target4.rust_values().crate_name() = "lib4";
rlib_target4.SetToolchain(setup.toolchain());
ASSERT_TRUE(rlib_target4.OnResolved(&err));
Target target(setup.settings(), Label(SourceDir("//bar/"), "bar"));
target.set_output_type(Target::EXECUTABLE);
target.visibility().SetPublic();
target.sources().push_back(SourceFile("//bar/bar.cc"));
target.source_types_used().Set(SourceFile::SOURCE_CPP);
target.private_deps().push_back(LabelTargetPair(&library_target));
target.private_deps().push_back(LabelTargetPair(&rlib_target4));
target.SetToolchain(setup.toolchain());
ASSERT_TRUE(target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/bar\n"
"target_output_name = bar\n"
"\n"
"build obj/bar/bar.bar.o: cxx ../../bar/bar.cc\n"
"\n"
"build ./bar: link obj/bar/bar.bar.o obj/foo/libfoo.a | "
"obj/baz/lib.rlib obj/quux/lib4.rlib obj/qux/lib2.rlib\n"
" ldflags =\n"
" libs =\n"
" frameworks =\n"
" swiftmodules =\n"
" output_extension = \n"
" output_dir = \n"
" rlibs = obj/baz/lib.rlib obj/quux/lib4.rlib obj/qux/lib2.rlib\n";
std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
{
Target procmacro(setup.settings(), Label(SourceDir("//baz/"), "macro"));
procmacro.set_output_type(Target::LOADABLE_MODULE);
procmacro.visibility().SetPublic();
SourceFile bazlib("//baz/lib.rs");
procmacro.sources().push_back(bazlib);
procmacro.source_types_used().Set(SourceFile::SOURCE_RS);
procmacro.rust_values().set_crate_root(bazlib);
procmacro.rust_values().crate_name() = "macro";
procmacro.rust_values().set_crate_type(RustValues::CRATE_PROC_MACRO);
procmacro.SetToolchain(setup.toolchain());
ASSERT_TRUE(procmacro.OnResolved(&err));
Target library_target(setup.settings(), Label(SourceDir("//foo/"), "foo"));
library_target.set_output_type(Target::STATIC_LIBRARY);
library_target.visibility().SetPublic();
SourceFile lib("//foo/lib.rs");
library_target.sources().push_back(lib);
library_target.source_types_used().Set(SourceFile::SOURCE_RS);
library_target.rust_values().set_crate_root(lib);
library_target.rust_values().crate_name() = "foo";
library_target.public_deps().push_back(LabelTargetPair(&procmacro));
library_target.SetToolchain(setup.toolchain());
ASSERT_TRUE(library_target.OnResolved(&err));
Target target(setup.settings(), Label(SourceDir("//bar/"), "bar"));
target.set_output_type(Target::EXECUTABLE);
target.visibility().SetPublic();
target.sources().push_back(SourceFile("//bar/bar.cc"));
target.source_types_used().Set(SourceFile::SOURCE_CPP);
target.private_deps().push_back(LabelTargetPair(&library_target));
target.SetToolchain(setup.toolchain());
ASSERT_TRUE(target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/bar\n"
"target_output_name = bar\n"
"\n"
"build obj/bar/bar.bar.o: cxx ../../bar/bar.cc\n"
"\n"
"build ./bar: link obj/bar/bar.bar.o obj/foo/libfoo.a\n"
" ldflags =\n"
" libs =\n"
" frameworks =\n"
" swiftmodules =\n"
" output_extension = \n"
" output_dir = \n";
std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
}
TEST_F(NinjaCBinaryTargetWriterTest, ModuleMapInStaticLibrary) {
TestWithScope setup;
Err err;
std::unique_ptr<Tool> cxx_module_tool =
Tool::CreateTool(CTool::kCToolCxxModule);
cxx_module_tool->set_outputs(SubstitutionList::MakeForTest(
"{{source_out_dir}}/{{target_output_name}}.{{source_name_part}}.pcm"));
setup.toolchain()->SetTool(std::move(cxx_module_tool));
TestTarget target(setup, "//foo:bar", Target::STATIC_LIBRARY);
target.sources().push_back(SourceFile("//foo/bar.cc"));
target.sources().push_back(SourceFile("//foo/bar.modulemap"));
target.source_types_used().Set(SourceFile::SOURCE_CPP);
target.source_types_used().Set(SourceFile::SOURCE_MODULEMAP);
ASSERT_TRUE(target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"cflags =\n"
"cflags_cc =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = libbar\n"
"\n"
"build obj/foo/libbar.bar.o: cxx ../../foo/bar.cc | obj/foo/libbar.bar.pcm\n"
"build obj/foo/libbar.bar.pcm: cxx_module ../../foo/bar.modulemap\n"
"\n"
"build obj/foo/libbar.a: alink obj/foo/libbar.bar.o\n"
" arflags =\n"
" output_extension = \n"
" output_dir = \n";
std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
// Test linking of targets containing Swift modules.
TEST_F(NinjaCBinaryTargetWriterTest, SwiftModule) {
Err err;
TestWithScope setup;
// A single Swift module.
Target foo_target(setup.settings(), Label(SourceDir("//foo/"), "foo"));
foo_target.set_output_type(Target::SOURCE_SET);
foo_target.visibility().SetPublic();
foo_target.sources().push_back(SourceFile("//foo/file1.swift"));
foo_target.sources().push_back(SourceFile("//foo/file2.swift"));
foo_target.source_types_used().Set(SourceFile::SOURCE_SWIFT);
foo_target.swift_values().module_name() = "Foo";
foo_target.SetToolchain(setup.toolchain());
ASSERT_TRUE(foo_target.OnResolved(&err));
{
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&foo_target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"module_name = Foo\n"
"module_dirs =\n"
"root_out_dir = .\n"
"target_out_dir = obj/foo\n"
"target_output_name = foo\n"
"\n"
"build obj/foo/Foo.swiftmodule: swift"
" ../../foo/file1.swift ../../foo/file2.swift\n"
"\n"
"build obj/foo/file1.o obj/foo/file2.o: stamp obj/foo/Foo.swiftmodule\n"
"\n"
"build obj/foo/foo.stamp: stamp"
" obj/foo/file1.o obj/foo/file2.o\n";
const std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
// Swift module_dirs correctly set if dependency between Swift modules.
{
Target bar_target(setup.settings(), Label(SourceDir("//bar/"), "bar"));
bar_target.set_output_type(Target::SOURCE_SET);
bar_target.visibility().SetPublic();
bar_target.sources().push_back(SourceFile("//bar/bar.swift"));
bar_target.source_types_used().Set(SourceFile::SOURCE_SWIFT);
bar_target.swift_values().module_name() = "Bar";
bar_target.private_deps().push_back(LabelTargetPair(&foo_target));
bar_target.SetToolchain(setup.toolchain());
ASSERT_TRUE(bar_target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&bar_target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"module_name = Bar\n"
"module_dirs = -Iobj/foo\n"
"root_out_dir = .\n"
"target_out_dir = obj/bar\n"
"target_output_name = bar\n"
"\n"
"build obj/bar/Bar.swiftmodule: swift ../../bar/bar.swift"
" || obj/foo/foo.stamp\n"
"\n"
"build obj/bar/bar.o: stamp obj/bar/Bar.swiftmodule"
" || obj/foo/foo.stamp\n"
"\n"
"build obj/bar/bar.stamp: stamp obj/bar/bar.o "
"|| obj/foo/foo.stamp\n";
const std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
// Swift module_dirs correctly set if dependency between Swift modules,
// even if the dependency is indirect (via public_deps).
{
Target group(setup.settings(), Label(SourceDir("//bar/"), "group"));
group.set_output_type(Target::GROUP);
group.visibility().SetPublic();
group.public_deps().push_back(LabelTargetPair(&foo_target));
group.SetToolchain(setup.toolchain());
ASSERT_TRUE(group.OnResolved(&err));
Target bar_target(setup.settings(), Label(SourceDir("//bar/"), "bar"));
bar_target.set_output_type(Target::SOURCE_SET);
bar_target.visibility().SetPublic();
bar_target.sources().push_back(SourceFile("//bar/bar.swift"));
bar_target.source_types_used().Set(SourceFile::SOURCE_SWIFT);
bar_target.swift_values().module_name() = "Bar";
bar_target.private_deps().push_back(LabelTargetPair(&group));
bar_target.SetToolchain(setup.toolchain());
ASSERT_TRUE(bar_target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&bar_target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"module_name = Bar\n"
"module_dirs = -Iobj/foo\n"
"root_out_dir = .\n"
"target_out_dir = obj/bar\n"
"target_output_name = bar\n"
"\n"
"build obj/bar/Bar.swiftmodule: swift ../../bar/bar.swift"
" || obj/foo/foo.stamp\n"
"\n"
"build obj/bar/bar.o: stamp obj/bar/Bar.swiftmodule"
" || obj/foo/foo.stamp\n"
"\n"
"build obj/bar/bar.stamp: stamp obj/bar/bar.o "
"|| obj/bar/group.stamp obj/foo/foo.stamp\n";
const std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
// C target links with module.
{
Target bar_target(setup.settings(), Label(SourceDir("//bar/"), "bar"));
bar_target.set_output_type(Target::EXECUTABLE);
bar_target.visibility().SetPublic();
bar_target.private_deps().push_back(LabelTargetPair(&foo_target));
bar_target.SetToolchain(setup.toolchain());
ASSERT_TRUE(bar_target.OnResolved(&err));
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&bar_target, out);
writer.Run();
const char expected[] =
"defines =\n"
"include_dirs =\n"
"root_out_dir = .\n"
"target_out_dir = obj/bar\n"
"target_output_name = bar\n"
"\n"
"\n"
"build ./bar: link obj/foo/file1.o obj/foo/file2.o "
"| obj/foo/Foo.swiftmodule "
"|| obj/foo/foo.stamp\n"
" ldflags =\n"
" libs =\n"
" frameworks =\n"
" swiftmodules = obj/foo/Foo.swiftmodule\n"
" output_extension = \n"
" output_dir = \n";
const std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
}
TEST_F(NinjaCBinaryTargetWriterTest, DependOnModule) {
TestWithScope setup;
Err err;
// There's no cxx_module or flags in the test toolchain, set up a
// custom one here.
Settings module_settings(setup.build_settings(), "withmodules/");
Toolchain module_toolchain(&module_settings,
Label(SourceDir("//toolchain/"), "withmodules"));
module_settings.set_toolchain_label(module_toolchain.label());
module_settings.set_default_toolchain_label(module_toolchain.label());
std::unique_ptr<Tool> cxx = std::make_unique<CTool>(CTool::kCToolCxx);
CTool* cxx_tool = cxx->AsC();
TestWithScope::SetCommandForTool(
"c++ {{source}} {{cflags}} {{cflags_cc}} {{module_deps}} "
"{{defines}} {{include_dirs}} -o {{output}}",
cxx_tool);
cxx_tool->set_outputs(SubstitutionList::MakeForTest(
"{{source_out_dir}}/{{target_output_name}}.{{source_name_part}}.o"));
cxx_tool->set_precompiled_header_type(CTool::PCH_GCC);
module_toolchain.SetTool(std::move(cxx));
std::unique_ptr<Tool> cxx_module_tool =
Tool::CreateTool(CTool::kCToolCxxModule);
TestWithScope::SetCommandForTool(
"c++ {{source}} {{cflags}} {{cflags_cc}} {{module_deps_no_self}} "
"{{defines}} {{include_dirs}} -fmodule-name={{label}} -c -x c++ "
"-Xclang -emit-module -o {{output}}",
cxx_module_tool.get());
cxx_module_tool->set_outputs(SubstitutionList::MakeForTest(
"{{source_out_dir}}/{{target_output_name}}.{{source_name_part}}.pcm"));
module_toolchain.SetTool(std::move(cxx_module_tool));
std::unique_ptr<Tool> alink = Tool::CreateTool(CTool::kCToolAlink);
CTool* alink_tool = alink->AsC();
TestWithScope::SetCommandForTool("ar {{output}} {{source}}", alink_tool);
alink_tool->set_lib_switch("-l");
alink_tool->set_lib_dir_switch("-L");
alink_tool->set_output_prefix("lib");
alink_tool->set_outputs(SubstitutionList::MakeForTest(
"{{target_out_dir}}/{{target_output_name}}.a"));
module_toolchain.SetTool(std::move(alink));
std::unique_ptr<Tool> link = Tool::CreateTool(CTool::kCToolLink);
CTool* link_tool = link->AsC();
TestWithScope::SetCommandForTool(
"ld -o {{target_output_name}} {{source}} "
"{{ldflags}} {{libs}}",
link_tool);
link_tool->set_lib_switch("-l");
link_tool->set_lib_dir_switch("-L");
link_tool->set_outputs(
SubstitutionList::MakeForTest("{{root_out_dir}}/{{target_output_name}}"));
module_toolchain.SetTool(std::move(link));
module_toolchain.ToolchainSetupComplete();
Target target(&module_settings, Label(SourceDir("//blah/"), "a"));
target.set_output_type(Target::STATIC_LIBRARY);
target.visibility().SetPublic();
target.sources().push_back(SourceFile("//blah/a.modulemap"));
target.sources().push_back(SourceFile("//blah/a.cc"));
target.sources().push_back(SourceFile("//blah/a.h"));
target.source_types_used().Set(SourceFile::SOURCE_CPP);
target.source_types_used().Set(SourceFile::SOURCE_MODULEMAP);
target.SetToolchain(&module_toolchain);
ASSERT_TRUE(target.OnResolved(&err));
// The library first.
{
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target, out);
writer.Run();
const char expected[] = R"(defines =
include_dirs =
module_deps = -Xclang -fmodules-embed-all-files -fmodule-file=obj/blah/liba.a.pcm
module_deps_no_self = -Xclang -fmodules-embed-all-files
cflags =
cflags_cc =
label = //blah$:a
root_out_dir = withmodules
target_out_dir = obj/blah
target_output_name = liba
build obj/blah/liba.a.pcm: cxx_module ../../blah/a.modulemap
build obj/blah/liba.a.o: cxx ../../blah/a.cc | obj/blah/liba.a.pcm
build obj/blah/liba.a: alink obj/blah/liba.a.o
arflags =
output_extension =
output_dir =
)";
std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
Target target2(&module_settings, Label(SourceDir("//stuff/"), "b"));
target2.set_output_type(Target::STATIC_LIBRARY);
target2.visibility().SetPublic();
target2.sources().push_back(SourceFile("//stuff/b.modulemap"));
target2.sources().push_back(SourceFile("//stuff/b.cc"));
target2.sources().push_back(SourceFile("//stuff/b.h"));
target2.source_types_used().Set(SourceFile::SOURCE_CPP);
target2.source_types_used().Set(SourceFile::SOURCE_MODULEMAP);
target2.SetToolchain(&module_toolchain);
ASSERT_TRUE(target2.OnResolved(&err));
// A second library to make sure the depender includes both.
{
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target2, out);
writer.Run();
const char expected[] = R"(defines =
include_dirs =
module_deps = -Xclang -fmodules-embed-all-files -fmodule-file=obj/stuff/libb.b.pcm
module_deps_no_self = -Xclang -fmodules-embed-all-files
cflags =
cflags_cc =
label = //stuff$:b
root_out_dir = withmodules
target_out_dir = obj/stuff
target_output_name = libb
build obj/stuff/libb.b.pcm: cxx_module ../../stuff/b.modulemap
build obj/stuff/libb.b.o: cxx ../../stuff/b.cc | obj/stuff/libb.b.pcm
build obj/stuff/libb.a: alink obj/stuff/libb.b.o
arflags =
output_extension =
output_dir =
)";
std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
Target target3(&module_settings, Label(SourceDir("//things/"), "c"));
target3.set_output_type(Target::STATIC_LIBRARY);
target3.visibility().SetPublic();
target3.sources().push_back(SourceFile("//stuff/c.modulemap"));
target3.source_types_used().Set(SourceFile::SOURCE_MODULEMAP);
target3.private_deps().push_back(LabelTargetPair(&target));
target3.SetToolchain(&module_toolchain);
ASSERT_TRUE(target3.OnResolved(&err));
// A third library that depends on one of the previous static libraries, to
// check module_deps_no_self.
{
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&target3, out);
writer.Run();
const char expected[] = R"(defines =
include_dirs =
module_deps = -Xclang -fmodules-embed-all-files -fmodule-file=obj/stuff/libc.c.pcm -fmodule-file=obj/blah/liba.a.pcm
module_deps_no_self = -Xclang -fmodules-embed-all-files -fmodule-file=obj/blah/liba.a.pcm
cflags =
cflags_cc =
label = //things$:c
root_out_dir = withmodules
target_out_dir = obj/things
target_output_name = libc
build obj/stuff/libc.c.pcm: cxx_module ../../stuff/c.modulemap | obj/blah/liba.a.pcm
build obj/things/libc.a: alink || obj/blah/liba.a
arflags =
output_extension =
output_dir =
)";
std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
Target depender(&module_settings, Label(SourceDir("//zap/"), "c"));
depender.set_output_type(Target::EXECUTABLE);
depender.sources().push_back(SourceFile("//zap/x.cc"));
depender.sources().push_back(SourceFile("//zap/y.cc"));
depender.source_types_used().Set(SourceFile::SOURCE_CPP);
depender.private_deps().push_back(LabelTargetPair(&target));
depender.private_deps().push_back(LabelTargetPair(&target2));
depender.SetToolchain(&module_toolchain);
ASSERT_TRUE(depender.OnResolved(&err));
// Then the executable that depends on it.
{
std::ostringstream out;
NinjaCBinaryTargetWriter writer(&depender, out);
writer.Run();
const char expected[] = R"(defines =
include_dirs =
module_deps = -Xclang -fmodules-embed-all-files -fmodule-file=obj/blah/liba.a.pcm -fmodule-file=obj/stuff/libb.b.pcm
module_deps_no_self = -Xclang -fmodules-embed-all-files -fmodule-file=obj/blah/liba.a.pcm -fmodule-file=obj/stuff/libb.b.pcm
cflags =
cflags_cc =
label = //zap$:c
root_out_dir = withmodules
target_out_dir = obj/zap
target_output_name = c
build obj/zap/c.x.o: cxx ../../zap/x.cc | obj/blah/liba.a.pcm obj/stuff/libb.b.pcm
build obj/zap/c.y.o: cxx ../../zap/y.cc | obj/blah/liba.a.pcm obj/stuff/libb.b.pcm
build withmodules/c: link obj/zap/c.x.o obj/zap/c.y.o obj/blah/liba.a obj/stuff/libb.a
ldflags =
libs =
frameworks =
swiftmodules =
output_extension =
output_dir =
)";
std::string out_str = out.str();
EXPECT_EQ(expected, out_str) << expected << "\n" << out_str;
}
}