clang-tools-extra/clangd/unittests/CompileCommandsTests.cpp - llvm-project - Git at Google

 //===-- CompileCommandsTests.cpp ------------------------------------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #include "CompileCommands.h"
 #include "Config.h"
 #include "TestFS.h"
 #include "support/Context.h"

 #include "clang/Tooling/ArgumentsAdjusters.h"
 #include "llvm/ADT/ArrayRef.h"
 #include "llvm/ADT/STLExtras.h"
 #include "llvm/ADT/ScopeExit.h"
 #include "llvm/ADT/StringExtras.h"
 #include "llvm/ADT/StringRef.h"
 #include "llvm/Support/FileSystem.h"
 #include "llvm/Support/Path.h"
 #include "llvm/Support/Process.h"

 #include "gmock/gmock.h"
 #include "gtest/gtest.h"

 namespace clang {
 namespace clangd {
 namespace {

 using ::testing::_;
 using ::testing::Contains;
 using ::testing::ElementsAre;
 using ::testing::HasSubstr;
 using ::testing::Not;

 // Sadly, CommandMangler::detect(), which contains much of the logic, is
 // a bunch of untested integration glue. We test the string manipulation here
 // assuming its results are correct.

 // Make use of all features and assert the exact command we get out.
 // Other tests just verify presence/absence of certain args.
 TEST(CommandMangler, Everything) {
   auto Mangler = CommandMangler::forTests();
   Mangler.ClangPath = testPath("fake/clang");
   Mangler.ResourceDir = testPath("fake/resources");
   Mangler.Sysroot = testPath("fake/sysroot");
   std::vector<std::string> Cmd = {"clang++", "--", "foo.cc", "bar.cc"};
   Mangler.adjust(Cmd, "foo.cc");
   EXPECT_THAT(Cmd, ElementsAre(testPath("fake/clang++"),
                                "-resource-dir=" + testPath("fake/resources"),
                                "-isysroot", testPath("fake/sysroot"), "--",
                                "foo.cc"));
 }

 TEST(CommandMangler, ResourceDir) {
   auto Mangler = CommandMangler::forTests();
   Mangler.ResourceDir = testPath("fake/resources");
   std::vector<std::string> Cmd = {"clang++", "foo.cc"};
   Mangler.adjust(Cmd, "foo.cc");
   EXPECT_THAT(Cmd, Contains("-resource-dir=" + testPath("fake/resources")));
 }

 TEST(CommandMangler, Sysroot) {
   auto Mangler = CommandMangler::forTests();
   Mangler.Sysroot = testPath("fake/sysroot");

   std::vector<std::string> Cmd = {"clang++", "foo.cc"};
   Mangler.adjust(Cmd, "foo.cc");
   EXPECT_THAT(llvm::join(Cmd, " "),
               HasSubstr("-isysroot " + testPath("fake/sysroot")));
 }

 TEST(CommandMangler, ClangPath) {
   auto Mangler = CommandMangler::forTests();
   Mangler.ClangPath = testPath("fake/clang");

   std::vector<std::string> Cmd = {"clang++", "foo.cc"};
   Mangler.adjust(Cmd, "foo.cc");
   EXPECT_EQ(testPath("fake/clang++"), Cmd.front());

   Cmd = {"unknown-binary", "foo.cc"};
   Mangler.adjust(Cmd, "foo.cc");
   EXPECT_EQ(testPath("fake/unknown-binary"), Cmd.front());

   Cmd = {testPath("path/clang++"), "foo.cc"};
   Mangler.adjust(Cmd, "foo.cc");
   EXPECT_EQ(testPath("path/clang++"), Cmd.front());

   Cmd = {"foo/unknown-binary", "foo.cc"};
   Mangler.adjust(Cmd, "foo.cc");
   EXPECT_EQ("foo/unknown-binary", Cmd.front());
 }

 // Only run the PATH/symlink resolving test on unix, we need to fiddle
 // with permissions and environment variables...
 #ifdef LLVM_ON_UNIX
 MATCHER(Ok, "") {
   if (arg) {
     *result_listener << arg.message();
     return false;
   }
   return true;
 }

 TEST(CommandMangler, ClangPathResolve) {
   // Set up filesystem:
   //   /temp/
   //     bin/
   //       foo -> temp/lib/bar
   //     lib/
   //       bar
   llvm::SmallString<256> TempDir;
   ASSERT_THAT(llvm::sys::fs::createUniqueDirectory("ClangPathResolve", TempDir),
               Ok());
   // /var/tmp is a symlink on Mac. Resolve it so we're asserting the right path.
   ASSERT_THAT(llvm::sys::fs::real_path(TempDir.str(), TempDir), Ok());
   auto CleanDir = llvm::make_scope_exit(
       [&] { llvm::sys::fs::remove_directories(TempDir); });
   ASSERT_THAT(llvm::sys::fs::create_directory(TempDir + "/bin"), Ok());
   ASSERT_THAT(llvm::sys::fs::create_directory(TempDir + "/lib"), Ok());
   int FD;
   ASSERT_THAT(llvm::sys::fs::openFileForWrite(TempDir + "/lib/bar", FD), Ok());
   ASSERT_THAT(llvm::sys::Process::SafelyCloseFileDescriptor(FD), Ok());
   ::chmod((TempDir + "/lib/bar").str().c_str(), 0755); // executable
   ASSERT_THAT(
       llvm::sys::fs::create_link(TempDir + "/lib/bar", TempDir + "/bin/foo"),
       Ok());

   // Test the case where the driver is an absolute path to a symlink.
   auto Mangler = CommandMangler::forTests();
   Mangler.ClangPath = testPath("fake/clang");
   std::vector<std::string> Cmd = {(TempDir + "/bin/foo").str(), "foo.cc"};
   Mangler.adjust(Cmd, "foo.cc");
   // Directory based on resolved symlink, basename preserved.
   EXPECT_EQ((TempDir + "/lib/foo").str(), Cmd.front());

   // Set PATH to point to temp/bin so we can find 'foo' on it.
   ASSERT_TRUE(::getenv("PATH"));
   auto RestorePath =
       llvm::make_scope_exit([OldPath = std::string(::getenv("PATH"))] {
         ::setenv("PATH", OldPath.c_str(), 1);
       });
   ::setenv("PATH", (TempDir + "/bin").str().c_str(), /*overwrite=*/1);

   // Test the case where the driver is a $PATH-relative path to a symlink.
   Mangler = CommandMangler::forTests();
   Mangler.ClangPath = testPath("fake/clang");
   // Driver found on PATH.
   Cmd = {"foo", "foo.cc"};
   Mangler.adjust(Cmd, "foo.cc");
   // Found the symlink and resolved the path as above.
   EXPECT_EQ((TempDir + "/lib/foo").str(), Cmd.front());

   // Symlink not resolved with -no-canonical-prefixes.
   Cmd = {"foo", "-no-canonical-prefixes", "foo.cc"};
   Mangler.adjust(Cmd, "foo.cc");
   EXPECT_EQ((TempDir + "/bin/foo").str(), Cmd.front());
 }
 #endif

 TEST(CommandMangler, ConfigEdits) {
   auto Mangler = CommandMangler::forTests();
   std::vector<std::string> Cmd = {"clang++", "foo.cc"};
   {
     Config Cfg;
     Cfg.CompileFlags.Edits.push_back([](std::vector<std::string> &Argv) {
       for (auto &Arg : Argv)
         for (char &C : Arg)
           C = llvm::toUpper(C);
     });
     Cfg.CompileFlags.Edits.push_back([](std::vector<std::string> &Argv) {
       Argv = tooling::getInsertArgumentAdjuster("--hello")(Argv, "");
     });
     WithContextValue WithConfig(Config::Key, std::move(Cfg));
     Mangler.adjust(Cmd, "foo.cc");
   }
   // Edits are applied in given order and before other mangling and they always
   // go before filename.
   EXPECT_THAT(Cmd, ElementsAre(_, "--hello", "--", "FOO.CC"));
 }

 static std::string strip(llvm::StringRef Arg, llvm::StringRef Argv) {
   llvm::SmallVector<llvm::StringRef> Parts;
   llvm::SplitString(Argv, Parts);
   std::vector<std::string> Args = {Parts.begin(), Parts.end()};
   ArgStripper S;
   S.strip(Arg);
   S.process(Args);
   return printArgv(Args);
 }

 TEST(ArgStripperTest, Spellings) {
   // May use alternate prefixes.
   EXPECT_EQ(strip("-pedantic", "clang -pedantic foo.cc"), "clang foo.cc");
   EXPECT_EQ(strip("-pedantic", "clang --pedantic foo.cc"), "clang foo.cc");
   EXPECT_EQ(strip("--pedantic", "clang -pedantic foo.cc"), "clang foo.cc");
   EXPECT_EQ(strip("--pedantic", "clang --pedantic foo.cc"), "clang foo.cc");
   // May use alternate names.
   EXPECT_EQ(strip("-x", "clang -x c++ foo.cc"), "clang foo.cc");
   EXPECT_EQ(strip("-x", "clang --language=c++ foo.cc"), "clang foo.cc");
   EXPECT_EQ(strip("--language=", "clang -x c++ foo.cc"), "clang foo.cc");
   EXPECT_EQ(strip("--language=", "clang --language=c++ foo.cc"),
             "clang foo.cc");
 }

 TEST(ArgStripperTest, UnknownFlag) {
   EXPECT_EQ(strip("-xyzzy", "clang -xyzzy foo.cc"), "clang foo.cc");
   EXPECT_EQ(strip("-xyz*", "clang -xyzzy foo.cc"), "clang foo.cc");
   EXPECT_EQ(strip("-xyzzy", "clang -Xclang -xyzzy foo.cc"), "clang foo.cc");
 }

 TEST(ArgStripperTest, Xclang) {
   // Flags may be -Xclang escaped.
   EXPECT_EQ(strip("-ast-dump", "clang -Xclang -ast-dump foo.cc"),
             "clang foo.cc");
   // Args may be -Xclang escaped.
   EXPECT_EQ(strip("-add-plugin", "clang -Xclang -add-plugin -Xclang z foo.cc"),
             "clang foo.cc");
 }

 TEST(ArgStripperTest, ClangCL) {
   // /I is a synonym for -I in clang-cl mode only.
   // Not stripped by default.
   EXPECT_EQ(strip("-I", "clang -I /usr/inc /Interesting/file.cc"),
             "clang /Interesting/file.cc");
   // Stripped when invoked as clang-cl.
   EXPECT_EQ(strip("-I", "clang-cl -I /usr/inc /Interesting/file.cc"),
             "clang-cl");
   // Stripped when invoked as CL.EXE
   EXPECT_EQ(strip("-I", "CL.EXE -I /usr/inc /Interesting/file.cc"), "CL.EXE");
   // Stripped when passed --driver-mode=cl.
   EXPECT_EQ(strip("-I", "cc -I /usr/inc /Interesting/file.cc --driver-mode=cl"),
             "cc --driver-mode=cl");
 }

 TEST(ArgStripperTest, ArgStyles) {
   // Flag
   EXPECT_EQ(strip("-Qn", "clang -Qn foo.cc"), "clang foo.cc");
   EXPECT_EQ(strip("-Qn", "clang -QnZ foo.cc"), "clang -QnZ foo.cc");
   // Joined
   EXPECT_EQ(strip("-std=", "clang -std= foo.cc"), "clang foo.cc");
   EXPECT_EQ(strip("-std=", "clang -std=c++11 foo.cc"), "clang foo.cc");
   // Separate
   EXPECT_EQ(strip("-mllvm", "clang -mllvm X foo.cc"), "clang foo.cc");
   EXPECT_EQ(strip("-mllvm", "clang -mllvmX foo.cc"), "clang -mllvmX foo.cc");
   // RemainingArgsJoined
   EXPECT_EQ(strip("/link", "clang-cl /link b c d foo.cc"), "clang-cl");
   EXPECT_EQ(strip("/link", "clang-cl /linka b c d foo.cc"), "clang-cl");
   // CommaJoined
   EXPECT_EQ(strip("-Wl,", "clang -Wl,x,y foo.cc"), "clang foo.cc");
   EXPECT_EQ(strip("-Wl,", "clang -Wl, foo.cc"), "clang foo.cc");
   // MultiArg
   EXPECT_EQ(strip("-segaddr", "clang -segaddr a b foo.cc"), "clang foo.cc");
   EXPECT_EQ(strip("-segaddr", "clang -segaddra b foo.cc"),
             "clang -segaddra b foo.cc");
   // JoinedOrSeparate
   EXPECT_EQ(strip("-G", "clang -GX foo.cc"), "clang foo.cc");
   EXPECT_EQ(strip("-G", "clang -G X foo.cc"), "clang foo.cc");
   // JoinedAndSeparate
   EXPECT_EQ(strip("-plugin-arg-", "clang -cc1 -plugin-arg-X Y foo.cc"),
             "clang -cc1 foo.cc");
   EXPECT_EQ(strip("-plugin-arg-", "clang -cc1 -plugin-arg- Y foo.cc"),
             "clang -cc1 foo.cc");
 }

 TEST(ArgStripperTest, EndOfList) {
   // When we hit the end-of-args prematurely, we don't crash.
   // We consume the incomplete args if we've matched the target option.
   EXPECT_EQ(strip("-I", "clang -Xclang"), "clang -Xclang");
   EXPECT_EQ(strip("-I", "clang -Xclang -I"), "clang");
   EXPECT_EQ(strip("-I", "clang -I -Xclang"), "clang");
   EXPECT_EQ(strip("-I", "clang -I"), "clang");
 }

 TEST(ArgStripperTest, Multiple) {
   ArgStripper S;
   S.strip("-o");
   S.strip("-c");
   std::vector<std::string> Args = {"clang", "-o", "foo.o", "foo.cc", "-c"};
   S.process(Args);
   EXPECT_THAT(Args, ElementsAre("clang", "foo.cc"));
 }

 TEST(ArgStripperTest, Warning) {
   {
     // -W is a flag name
     ArgStripper S;
     S.strip("-W");
     std::vector<std::string> Args = {"clang", "-Wfoo", "-Wno-bar", "-Werror",
                                      "foo.cc"};
     S.process(Args);
     EXPECT_THAT(Args, ElementsAre("clang", "foo.cc"));
   }
   {
     // -Wfoo is not a flag name, matched literally.
     ArgStripper S;
     S.strip("-Wunused");
     std::vector<std::string> Args = {"clang", "-Wunused", "-Wno-unused",
                                      "foo.cc"};
     S.process(Args);
     EXPECT_THAT(Args, ElementsAre("clang", "-Wno-unused", "foo.cc"));
   }
 }

 TEST(ArgStripperTest, Define) {
   {
     // -D is a flag name
     ArgStripper S;
     S.strip("-D");
     std::vector<std::string> Args = {"clang", "-Dfoo", "-Dbar=baz", "foo.cc"};
     S.process(Args);
     EXPECT_THAT(Args, ElementsAre("clang", "foo.cc"));
   }
   {
     // -Dbar is not: matched literally
     ArgStripper S;
     S.strip("-Dbar");
     std::vector<std::string> Args = {"clang", "-Dfoo", "-Dbar=baz", "foo.cc"};
     S.process(Args);
     EXPECT_THAT(Args, ElementsAre("clang", "-Dfoo", "-Dbar=baz", "foo.cc"));
     S.strip("-Dfoo");
     S.process(Args);
     EXPECT_THAT(Args, ElementsAre("clang", "-Dbar=baz", "foo.cc"));
     S.strip("-Dbar=*");
     S.process(Args);
     EXPECT_THAT(Args, ElementsAre("clang", "foo.cc"));
   }
 }

 TEST(ArgStripperTest, OrderDependent) {
   ArgStripper S;
   // If -include is stripped first, we see -pch as its arg and foo.pch remains.
   // To get this case right, we must process -include-pch first.
   S.strip("-include");
   S.strip("-include-pch");
   std::vector<std::string> Args = {"clang", "-include-pch", "foo.pch",
                                    "foo.cc"};
   S.process(Args);
   EXPECT_THAT(Args, ElementsAre("clang", "foo.cc"));
 }

 TEST(PrintArgvTest, All) {
   std::vector<llvm::StringRef> Args = {
       "one", "two", "thr ee", "f\"o\"ur", "fi\\ve", "$"
   };
   const char *Expected = R"(one two "thr ee" "f\"o\"ur" "fi\\ve" $)";
   EXPECT_EQ(Expected, printArgv(Args));
 }

 TEST(CommandMangler, InputsAfterDashDash) {
   const auto Mangler = CommandMangler::forTests();
   {
     std::vector<std::string> Args = {"clang", "/Users/foo.cc"};
     Mangler.adjust(Args, "/Users/foo.cc");
     EXPECT_THAT(llvm::makeArrayRef(Args).take_back(2),
                 ElementsAre("--", "/Users/foo.cc"));
     EXPECT_THAT(llvm::makeArrayRef(Args).drop_back(2),
                 Not(Contains("/Users/foo.cc")));
   }
   // In CL mode /U triggers an undef operation, hence `/Users/foo.cc` shouldn't
   // be interpreted as a file.
   {
     std::vector<std::string> Args = {"clang", "--driver-mode=cl", "bar.cc",
                                      "/Users/foo.cc"};
     Mangler.adjust(Args, "bar.cc");
     EXPECT_THAT(llvm::makeArrayRef(Args).take_back(2),
                 ElementsAre("--", "bar.cc"));
     EXPECT_THAT(llvm::makeArrayRef(Args).drop_back(2), Not(Contains("bar.cc")));
   }
   // All inputs but the main file is dropped.
   {
     std::vector<std::string> Args = {"clang", "foo.cc", "bar.cc"};
     Mangler.adjust(Args, "baz.cc");
     EXPECT_THAT(llvm::makeArrayRef(Args).take_back(2),
                 ElementsAre("--", "baz.cc"));
     EXPECT_THAT(
         llvm::makeArrayRef(Args).drop_back(2),
         testing::AllOf(Not(Contains("foo.cc")), Not(Contains("bar.cc"))));
   }
 }

 TEST(CommandMangler, StripsMultipleArch) {
   const auto Mangler = CommandMangler::forTests();
   std::vector<std::string> Args = {"clang", "-arch", "foo",
                                    "-arch", "bar",   "/Users/foo.cc"};
   Mangler.adjust(Args, "/Users/foo.cc");
   EXPECT_EQ(
       llvm::count_if(Args, [](llvm::StringRef Arg) { return Arg == "-arch"; }),
       0);

   // Single arch option is preserved.
   Args = {"clang", "-arch", "foo", "/Users/foo.cc"};
   Mangler.adjust(Args, "/Users/foo.cc");
   EXPECT_EQ(
       llvm::count_if(Args, [](llvm::StringRef Arg) { return Arg == "-arch"; }),
       1);
 }

 TEST(CommandMangler, EmptyArgs) {
   const auto Mangler = CommandMangler::forTests();
   std::vector<std::string> Args = {};
   // Make sure we don't crash.
   Mangler.adjust(Args, "foo.cc");
 }
 } // namespace
 } // namespace clangd
 } // namespace clang
	//===-- CompileCommandsTests.cpp ------------------------------------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#include "CompileCommands.h"
	#include "Config.h"
	#include "TestFS.h"
	#include "support/Context.h"

	#include "clang/Tooling/ArgumentsAdjusters.h"
	#include "llvm/ADT/ArrayRef.h"
	#include "llvm/ADT/STLExtras.h"
	#include "llvm/ADT/ScopeExit.h"
	#include "llvm/ADT/StringExtras.h"
	#include "llvm/ADT/StringRef.h"
	#include "llvm/Support/FileSystem.h"
	#include "llvm/Support/Path.h"
	#include "llvm/Support/Process.h"

	#include "gmock/gmock.h"
	#include "gtest/gtest.h"

	namespace clang {
	namespace clangd {
	namespace {

	using ::testing::_;
	using ::testing::Contains;
	using ::testing::ElementsAre;
	using ::testing::HasSubstr;
	using ::testing::Not;

	// Sadly, CommandMangler::detect(), which contains much of the logic, is
	// a bunch of untested integration glue. We test the string manipulation here
	// assuming its results are correct.

	// Make use of all features and assert the exact command we get out.
	// Other tests just verify presence/absence of certain args.
	TEST(CommandMangler, Everything) {
	auto Mangler = CommandMangler::forTests();
	Mangler.ClangPath = testPath("fake/clang");
	Mangler.ResourceDir = testPath("fake/resources");
	Mangler.Sysroot = testPath("fake/sysroot");
	std::vector<std::string> Cmd = {"clang++", "--", "foo.cc", "bar.cc"};
	Mangler.adjust(Cmd, "foo.cc");
	EXPECT_THAT(Cmd, ElementsAre(testPath("fake/clang++"),
	"-resource-dir=" + testPath("fake/resources"),
	"-isysroot", testPath("fake/sysroot"), "--",
	"foo.cc"));
	}

	TEST(CommandMangler, ResourceDir) {
	auto Mangler = CommandMangler::forTests();
	Mangler.ResourceDir = testPath("fake/resources");
	std::vector<std::string> Cmd = {"clang++", "foo.cc"};
	Mangler.adjust(Cmd, "foo.cc");
	EXPECT_THAT(Cmd, Contains("-resource-dir=" + testPath("fake/resources")));
	}

	TEST(CommandMangler, Sysroot) {
	auto Mangler = CommandMangler::forTests();
	Mangler.Sysroot = testPath("fake/sysroot");

	std::vector<std::string> Cmd = {"clang++", "foo.cc"};
	Mangler.adjust(Cmd, "foo.cc");
	EXPECT_THAT(llvm::join(Cmd, " "),
	HasSubstr("-isysroot " + testPath("fake/sysroot")));
	}

	TEST(CommandMangler, ClangPath) {
	auto Mangler = CommandMangler::forTests();
	Mangler.ClangPath = testPath("fake/clang");

	std::vector<std::string> Cmd = {"clang++", "foo.cc"};
	Mangler.adjust(Cmd, "foo.cc");
	EXPECT_EQ(testPath("fake/clang++"), Cmd.front());

	Cmd = {"unknown-binary", "foo.cc"};
	Mangler.adjust(Cmd, "foo.cc");
	EXPECT_EQ(testPath("fake/unknown-binary"), Cmd.front());

	Cmd = {testPath("path/clang++"), "foo.cc"};
	Mangler.adjust(Cmd, "foo.cc");
	EXPECT_EQ(testPath("path/clang++"), Cmd.front());

	Cmd = {"foo/unknown-binary", "foo.cc"};
	Mangler.adjust(Cmd, "foo.cc");
	EXPECT_EQ("foo/unknown-binary", Cmd.front());
	}

	// Only run the PATH/symlink resolving test on unix, we need to fiddle
	// with permissions and environment variables...
	#ifdef LLVM_ON_UNIX
	MATCHER(Ok, "") {
	if (arg) {
	*result_listener << arg.message();
	return false;
	}
	return true;
	}

	TEST(CommandMangler, ClangPathResolve) {
	// Set up filesystem:
	// /temp/
	// bin/
	// foo -> temp/lib/bar
	// lib/
	// bar
	llvm::SmallString<256> TempDir;
	ASSERT_THAT(llvm::sys::fs::createUniqueDirectory("ClangPathResolve", TempDir),
	Ok());
	// /var/tmp is a symlink on Mac. Resolve it so we're asserting the right path.
	ASSERT_THAT(llvm::sys::fs::real_path(TempDir.str(), TempDir), Ok());
	auto CleanDir = llvm::make_scope_exit(
	[&] { llvm::sys::fs::remove_directories(TempDir); });
	ASSERT_THAT(llvm::sys::fs::create_directory(TempDir + "/bin"), Ok());
	ASSERT_THAT(llvm::sys::fs::create_directory(TempDir + "/lib"), Ok());
	int FD;
	ASSERT_THAT(llvm::sys::fs::openFileForWrite(TempDir + "/lib/bar", FD), Ok());
	ASSERT_THAT(llvm::sys::Process::SafelyCloseFileDescriptor(FD), Ok());
	::chmod((TempDir + "/lib/bar").str().c_str(), 0755); // executable
	ASSERT_THAT(
	llvm::sys::fs::create_link(TempDir + "/lib/bar", TempDir + "/bin/foo"),
	Ok());

	// Test the case where the driver is an absolute path to a symlink.
	auto Mangler = CommandMangler::forTests();
	Mangler.ClangPath = testPath("fake/clang");
	std::vector<std::string> Cmd = {(TempDir + "/bin/foo").str(), "foo.cc"};
	Mangler.adjust(Cmd, "foo.cc");
	// Directory based on resolved symlink, basename preserved.
	EXPECT_EQ((TempDir + "/lib/foo").str(), Cmd.front());

	// Set PATH to point to temp/bin so we can find 'foo' on it.
	ASSERT_TRUE(::getenv("PATH"));
	auto RestorePath =
	llvm::make_scope_exit([OldPath = std::string(::getenv("PATH"))] {
	::setenv("PATH", OldPath.c_str(), 1);
	});
	::setenv("PATH", (TempDir + "/bin").str().c_str(), /overwrite=/1);

	// Test the case where the driver is a $PATH-relative path to a symlink.
	Mangler = CommandMangler::forTests();
	Mangler.ClangPath = testPath("fake/clang");
	// Driver found on PATH.
	Cmd = {"foo", "foo.cc"};
	Mangler.adjust(Cmd, "foo.cc");
	// Found the symlink and resolved the path as above.
	EXPECT_EQ((TempDir + "/lib/foo").str(), Cmd.front());

	// Symlink not resolved with -no-canonical-prefixes.
	Cmd = {"foo", "-no-canonical-prefixes", "foo.cc"};
	Mangler.adjust(Cmd, "foo.cc");
	EXPECT_EQ((TempDir + "/bin/foo").str(), Cmd.front());
	}
	#endif

	TEST(CommandMangler, ConfigEdits) {
	auto Mangler = CommandMangler::forTests();
	std::vector<std::string> Cmd = {"clang++", "foo.cc"};
	{
	Config Cfg;
	Cfg.CompileFlags.Edits.push_back([](std::vector<std::string> &Argv) {
	for (auto &Arg : Argv)
	for (char &C : Arg)
	C = llvm::toUpper(C);
	});
	Cfg.CompileFlags.Edits.push_back([](std::vector<std::string> &Argv) {
	Argv = tooling::getInsertArgumentAdjuster("--hello")(Argv, "");
	});
	WithContextValue WithConfig(Config::Key, std::move(Cfg));
	Mangler.adjust(Cmd, "foo.cc");
	}
	// Edits are applied in given order and before other mangling and they always
	// go before filename.
	EXPECT_THAT(Cmd, ElementsAre(_, "--hello", "--", "FOO.CC"));
	}

	static std::string strip(llvm::StringRef Arg, llvm::StringRef Argv) {
	llvm::SmallVector<llvm::StringRef> Parts;
	llvm::SplitString(Argv, Parts);
	std::vector<std::string> Args = {Parts.begin(), Parts.end()};
	ArgStripper S;
	S.strip(Arg);
	S.process(Args);
	return printArgv(Args);
	}

	TEST(ArgStripperTest, Spellings) {
	// May use alternate prefixes.
	EXPECT_EQ(strip("-pedantic", "clang -pedantic foo.cc"), "clang foo.cc");
	EXPECT_EQ(strip("-pedantic", "clang --pedantic foo.cc"), "clang foo.cc");
	EXPECT_EQ(strip("--pedantic", "clang -pedantic foo.cc"), "clang foo.cc");
	EXPECT_EQ(strip("--pedantic", "clang --pedantic foo.cc"), "clang foo.cc");
	// May use alternate names.
	EXPECT_EQ(strip("-x", "clang -x c++ foo.cc"), "clang foo.cc");
	EXPECT_EQ(strip("-x", "clang --language=c++ foo.cc"), "clang foo.cc");
	EXPECT_EQ(strip("--language=", "clang -x c++ foo.cc"), "clang foo.cc");
	EXPECT_EQ(strip("--language=", "clang --language=c++ foo.cc"),
	"clang foo.cc");
	}

	TEST(ArgStripperTest, UnknownFlag) {
	EXPECT_EQ(strip("-xyzzy", "clang -xyzzy foo.cc"), "clang foo.cc");
	EXPECT_EQ(strip("-xyz*", "clang -xyzzy foo.cc"), "clang foo.cc");
	EXPECT_EQ(strip("-xyzzy", "clang -Xclang -xyzzy foo.cc"), "clang foo.cc");
	}

	TEST(ArgStripperTest, Xclang) {
	// Flags may be -Xclang escaped.
	EXPECT_EQ(strip("-ast-dump", "clang -Xclang -ast-dump foo.cc"),
	"clang foo.cc");
	// Args may be -Xclang escaped.
	EXPECT_EQ(strip("-add-plugin", "clang -Xclang -add-plugin -Xclang z foo.cc"),
	"clang foo.cc");
	}

	TEST(ArgStripperTest, ClangCL) {
	// /I is a synonym for -I in clang-cl mode only.
	// Not stripped by default.
	EXPECT_EQ(strip("-I", "clang -I /usr/inc /Interesting/file.cc"),
	"clang /Interesting/file.cc");
	// Stripped when invoked as clang-cl.
	EXPECT_EQ(strip("-I", "clang-cl -I /usr/inc /Interesting/file.cc"),
	"clang-cl");
	// Stripped when invoked as CL.EXE
	EXPECT_EQ(strip("-I", "CL.EXE -I /usr/inc /Interesting/file.cc"), "CL.EXE");
	// Stripped when passed --driver-mode=cl.
	EXPECT_EQ(strip("-I", "cc -I /usr/inc /Interesting/file.cc --driver-mode=cl"),
	"cc --driver-mode=cl");
	}

	TEST(ArgStripperTest, ArgStyles) {
	// Flag
	EXPECT_EQ(strip("-Qn", "clang -Qn foo.cc"), "clang foo.cc");
	EXPECT_EQ(strip("-Qn", "clang -QnZ foo.cc"), "clang -QnZ foo.cc");
	// Joined
	EXPECT_EQ(strip("-std=", "clang -std= foo.cc"), "clang foo.cc");
	EXPECT_EQ(strip("-std=", "clang -std=c++11 foo.cc"), "clang foo.cc");
	// Separate
	EXPECT_EQ(strip("-mllvm", "clang -mllvm X foo.cc"), "clang foo.cc");
	EXPECT_EQ(strip("-mllvm", "clang -mllvmX foo.cc"), "clang -mllvmX foo.cc");
	// RemainingArgsJoined
	EXPECT_EQ(strip("/link", "clang-cl /link b c d foo.cc"), "clang-cl");
	EXPECT_EQ(strip("/link", "clang-cl /linka b c d foo.cc"), "clang-cl");
	// CommaJoined
	EXPECT_EQ(strip("-Wl,", "clang -Wl,x,y foo.cc"), "clang foo.cc");
	EXPECT_EQ(strip("-Wl,", "clang -Wl, foo.cc"), "clang foo.cc");
	// MultiArg
	EXPECT_EQ(strip("-segaddr", "clang -segaddr a b foo.cc"), "clang foo.cc");
	EXPECT_EQ(strip("-segaddr", "clang -segaddra b foo.cc"),
	"clang -segaddra b foo.cc");
	// JoinedOrSeparate
	EXPECT_EQ(strip("-G", "clang -GX foo.cc"), "clang foo.cc");
	EXPECT_EQ(strip("-G", "clang -G X foo.cc"), "clang foo.cc");
	// JoinedAndSeparate
	EXPECT_EQ(strip("-plugin-arg-", "clang -cc1 -plugin-arg-X Y foo.cc"),
	"clang -cc1 foo.cc");
	EXPECT_EQ(strip("-plugin-arg-", "clang -cc1 -plugin-arg- Y foo.cc"),
	"clang -cc1 foo.cc");
	}

	TEST(ArgStripperTest, EndOfList) {
	// When we hit the end-of-args prematurely, we don't crash.
	// We consume the incomplete args if we've matched the target option.
	EXPECT_EQ(strip("-I", "clang -Xclang"), "clang -Xclang");
	EXPECT_EQ(strip("-I", "clang -Xclang -I"), "clang");
	EXPECT_EQ(strip("-I", "clang -I -Xclang"), "clang");
	EXPECT_EQ(strip("-I", "clang -I"), "clang");
	}

	TEST(ArgStripperTest, Multiple) {
	ArgStripper S;
	S.strip("-o");
	S.strip("-c");
	std::vector<std::string> Args = {"clang", "-o", "foo.o", "foo.cc", "-c"};
	S.process(Args);
	EXPECT_THAT(Args, ElementsAre("clang", "foo.cc"));
	}

	TEST(ArgStripperTest, Warning) {
	{
	// -W is a flag name
	ArgStripper S;
	S.strip("-W");
	std::vector<std::string> Args = {"clang", "-Wfoo", "-Wno-bar", "-Werror",
	"foo.cc"};
	S.process(Args);
	EXPECT_THAT(Args, ElementsAre("clang", "foo.cc"));
	}
	{
	// -Wfoo is not a flag name, matched literally.
	ArgStripper S;
	S.strip("-Wunused");
	std::vector<std::string> Args = {"clang", "-Wunused", "-Wno-unused",
	"foo.cc"};
	S.process(Args);
	EXPECT_THAT(Args, ElementsAre("clang", "-Wno-unused", "foo.cc"));
	}
	}

	TEST(ArgStripperTest, Define) {
	{
	// -D is a flag name
	ArgStripper S;
	S.strip("-D");
	std::vector<std::string> Args = {"clang", "-Dfoo", "-Dbar=baz", "foo.cc"};
	S.process(Args);
	EXPECT_THAT(Args, ElementsAre("clang", "foo.cc"));
	}
	{
	// -Dbar is not: matched literally
	ArgStripper S;
	S.strip("-Dbar");
	std::vector<std::string> Args = {"clang", "-Dfoo", "-Dbar=baz", "foo.cc"};
	S.process(Args);
	EXPECT_THAT(Args, ElementsAre("clang", "-Dfoo", "-Dbar=baz", "foo.cc"));
	S.strip("-Dfoo");
	S.process(Args);
	EXPECT_THAT(Args, ElementsAre("clang", "-Dbar=baz", "foo.cc"));
	S.strip("-Dbar=*");
	S.process(Args);
	EXPECT_THAT(Args, ElementsAre("clang", "foo.cc"));
	}
	}

	TEST(ArgStripperTest, OrderDependent) {
	ArgStripper S;
	// If -include is stripped first, we see -pch as its arg and foo.pch remains.
	// To get this case right, we must process -include-pch first.
	S.strip("-include");
	S.strip("-include-pch");
	std::vector<std::string> Args = {"clang", "-include-pch", "foo.pch",
	"foo.cc"};
	S.process(Args);
	EXPECT_THAT(Args, ElementsAre("clang", "foo.cc"));
	}

	TEST(PrintArgvTest, All) {
	std::vector<llvm::StringRef> Args = {
	"one", "two", "thr ee", "f\"o\"ur", "fi\\ve", "$"
	};
	const char *Expected = R"(one two "thr ee" "f\"o\"ur" "fi\\ve" $)";
	EXPECT_EQ(Expected, printArgv(Args));
	}

	TEST(CommandMangler, InputsAfterDashDash) {
	const auto Mangler = CommandMangler::forTests();
	{
	std::vector<std::string> Args = {"clang", "/Users/foo.cc"};
	Mangler.adjust(Args, "/Users/foo.cc");
	EXPECT_THAT(llvm::makeArrayRef(Args).take_back(2),
	ElementsAre("--", "/Users/foo.cc"));
	EXPECT_THAT(llvm::makeArrayRef(Args).drop_back(2),
	Not(Contains("/Users/foo.cc")));
	}
	// In CL mode /U triggers an undef operation, hence `/Users/foo.cc` shouldn't
	// be interpreted as a file.
	{
	std::vector<std::string> Args = {"clang", "--driver-mode=cl", "bar.cc",
	"/Users/foo.cc"};
	Mangler.adjust(Args, "bar.cc");
	EXPECT_THAT(llvm::makeArrayRef(Args).take_back(2),
	ElementsAre("--", "bar.cc"));
	EXPECT_THAT(llvm::makeArrayRef(Args).drop_back(2), Not(Contains("bar.cc")));
	}
	// All inputs but the main file is dropped.
	{
	std::vector<std::string> Args = {"clang", "foo.cc", "bar.cc"};
	Mangler.adjust(Args, "baz.cc");
	EXPECT_THAT(llvm::makeArrayRef(Args).take_back(2),
	ElementsAre("--", "baz.cc"));
	EXPECT_THAT(
	llvm::makeArrayRef(Args).drop_back(2),
	testing::AllOf(Not(Contains("foo.cc")), Not(Contains("bar.cc"))));
	}
	}

	TEST(CommandMangler, StripsMultipleArch) {
	const auto Mangler = CommandMangler::forTests();
	std::vector<std::string> Args = {"clang", "-arch", "foo",
	"-arch", "bar", "/Users/foo.cc"};
	Mangler.adjust(Args, "/Users/foo.cc");
	EXPECT_EQ(
	llvm::count_if(Args, [](llvm::StringRef Arg) { return Arg == "-arch"; }),
	0);

	// Single arch option is preserved.
	Args = {"clang", "-arch", "foo", "/Users/foo.cc"};
	Mangler.adjust(Args, "/Users/foo.cc");
	EXPECT_EQ(
	llvm::count_if(Args, [](llvm::StringRef Arg) { return Arg == "-arch"; }),
	1);
	}

	TEST(CommandMangler, EmptyArgs) {
	const auto Mangler = CommandMangler::forTests();
	std::vector<std::string> Args = {};
	// Make sure we don't crash.
	Mangler.adjust(Args, "foo.cc");
	}
	} // namespace
	} // namespace clangd
	} // namespace clang