llvm-project/clang/unittests/Tooling/CompilationDatabaseTest.cpp

943 lines
34 KiB
C++

//===- unittest/Tooling/CompilationDatabaseTest.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 "clang/AST/DeclCXX.h"
#include "clang/AST/DeclGroup.h"
#include "clang/Frontend/FrontendAction.h"
#include "clang/Tooling/CompilationDatabase.h"
#include "clang/Tooling/FileMatchTrie.h"
#include "clang/Tooling/JSONCompilationDatabase.h"
#include "clang/Tooling/Tooling.h"
#include "llvm/Support/Path.h"
#include "llvm/Support/TargetSelect.h"
#include "gmock/gmock.h"
#include "gtest/gtest.h"
namespace clang {
namespace tooling {
using testing::ElementsAre;
using testing::EndsWith;
static void expectFailure(StringRef JSONDatabase, StringRef Explanation) {
std::string ErrorMessage;
EXPECT_EQ(nullptr,
JSONCompilationDatabase::loadFromBuffer(JSONDatabase, ErrorMessage,
JSONCommandLineSyntax::Gnu))
<< "Expected an error because of: " << Explanation.str();
}
TEST(JSONCompilationDatabase, ErrsOnInvalidFormat) {
expectFailure("", "Empty database");
expectFailure("{", "Invalid JSON");
expectFailure("[[]]", "Array instead of object");
expectFailure("[{\"a\":[]}]", "Array instead of value");
expectFailure("[{\"a\":\"b\"}]", "Unknown key");
expectFailure("[{[]:\"\"}]", "Incorrectly typed entry");
expectFailure("[{}]", "Empty entry");
expectFailure("[{\"directory\":\"\",\"command\":\"\"}]", "Missing file");
expectFailure("[{\"directory\":\"\",\"file\":\"\"}]", "Missing command or arguments");
expectFailure("[{\"command\":\"\",\"file\":\"\"}]", "Missing directory");
expectFailure("[{\"directory\":\"\",\"arguments\":[]}]", "Missing file");
expectFailure("[{\"arguments\":\"\",\"file\":\"\"}]", "Missing directory");
expectFailure("[{\"directory\":\"\",\"arguments\":\"\",\"file\":\"\"}]", "Arguments not array");
expectFailure("[{\"directory\":\"\",\"command\":[],\"file\":\"\"}]", "Command not string");
expectFailure("[{\"directory\":\"\",\"arguments\":[[]],\"file\":\"\"}]",
"Arguments contain non-string");
expectFailure("[{\"output\":[]}]", "Expected strings as value.");
}
static std::vector<std::string> getAllFiles(StringRef JSONDatabase,
std::string &ErrorMessage,
JSONCommandLineSyntax Syntax) {
std::unique_ptr<CompilationDatabase> Database(
JSONCompilationDatabase::loadFromBuffer(JSONDatabase, ErrorMessage,
Syntax));
if (!Database) {
ADD_FAILURE() << ErrorMessage;
return std::vector<std::string>();
}
return Database->getAllFiles();
}
static std::vector<CompileCommand>
getAllCompileCommands(JSONCommandLineSyntax Syntax, StringRef JSONDatabase,
std::string &ErrorMessage) {
std::unique_ptr<CompilationDatabase> Database(
JSONCompilationDatabase::loadFromBuffer(JSONDatabase, ErrorMessage,
Syntax));
if (!Database) {
ADD_FAILURE() << ErrorMessage;
return std::vector<CompileCommand>();
}
return Database->getAllCompileCommands();
}
TEST(JSONCompilationDatabase, GetAllFiles) {
std::string ErrorMessage;
EXPECT_EQ(std::vector<std::string>(),
getAllFiles("[]", ErrorMessage, JSONCommandLineSyntax::Gnu))
<< ErrorMessage;
std::vector<std::string> expected_files;
SmallString<16> PathStorage;
llvm::sys::path::native("//net/dir/file1", PathStorage);
expected_files.push_back(std::string(PathStorage.str()));
llvm::sys::path::native("//net/dir/file2", PathStorage);
expected_files.push_back(std::string(PathStorage.str()));
llvm::sys::path::native("//net/file1", PathStorage);
expected_files.push_back(std::string(PathStorage.str()));
EXPECT_EQ(expected_files,
getAllFiles("[{\"directory\":\"//net/dir\","
"\"command\":\"command\","
"\"file\":\"file1\"},"
" {\"directory\":\"//net/dir\","
"\"command\":\"command\","
"\"file\":\"../file1\"},"
" {\"directory\":\"//net/dir\","
"\"command\":\"command\","
"\"file\":\"file2\"}]",
ErrorMessage, JSONCommandLineSyntax::Gnu))
<< ErrorMessage;
}
TEST(JSONCompilationDatabase, GetAllCompileCommands) {
std::string ErrorMessage;
EXPECT_EQ(
0u, getAllCompileCommands(JSONCommandLineSyntax::Gnu, "[]", ErrorMessage)
.size())
<< ErrorMessage;
StringRef Directory1("//net/dir1");
StringRef FileName1("file1");
StringRef Command1("command1");
StringRef Output1("file1.o");
StringRef Directory2("//net/dir2");
StringRef FileName2("file2");
StringRef Command2("command2");
StringRef Output2("");
std::vector<CompileCommand> Commands = getAllCompileCommands(
JSONCommandLineSyntax::Gnu,
("[{\"directory\":\"" + Directory1 + "\"," + "\"command\":\"" + Command1 +
"\","
"\"file\":\"" +
FileName1 + "\", \"output\":\"" +
Output1 + "\"},"
" {\"directory\":\"" +
Directory2 + "\"," + "\"command\":\"" + Command2 + "\","
"\"file\":\"" +
FileName2 + "\"}]")
.str(),
ErrorMessage);
EXPECT_EQ(2U, Commands.size()) << ErrorMessage;
EXPECT_EQ(Directory1, Commands[0].Directory) << ErrorMessage;
EXPECT_EQ(FileName1, Commands[0].Filename) << ErrorMessage;
EXPECT_EQ(Output1, Commands[0].Output) << ErrorMessage;
ASSERT_EQ(1u, Commands[0].CommandLine.size());
EXPECT_EQ(Command1, Commands[0].CommandLine[0]) << ErrorMessage;
EXPECT_EQ(Directory2, Commands[1].Directory) << ErrorMessage;
EXPECT_EQ(FileName2, Commands[1].Filename) << ErrorMessage;
EXPECT_EQ(Output2, Commands[1].Output) << ErrorMessage;
ASSERT_EQ(1u, Commands[1].CommandLine.size());
EXPECT_EQ(Command2, Commands[1].CommandLine[0]) << ErrorMessage;
// Check that order is preserved.
Commands = getAllCompileCommands(
JSONCommandLineSyntax::Gnu,
("[{\"directory\":\"" + Directory2 + "\"," + "\"command\":\"" + Command2 +
"\","
"\"file\":\"" +
FileName2 + "\"},"
" {\"directory\":\"" +
Directory1 + "\"," + "\"command\":\"" + Command1 + "\","
"\"file\":\"" +
FileName1 + "\"}]")
.str(),
ErrorMessage);
EXPECT_EQ(2U, Commands.size()) << ErrorMessage;
EXPECT_EQ(Directory2, Commands[0].Directory) << ErrorMessage;
EXPECT_EQ(FileName2, Commands[0].Filename) << ErrorMessage;
ASSERT_EQ(1u, Commands[0].CommandLine.size());
EXPECT_EQ(Command2, Commands[0].CommandLine[0]) << ErrorMessage;
EXPECT_EQ(Directory1, Commands[1].Directory) << ErrorMessage;
EXPECT_EQ(FileName1, Commands[1].Filename) << ErrorMessage;
ASSERT_EQ(1u, Commands[1].CommandLine.size());
EXPECT_EQ(Command1, Commands[1].CommandLine[0]) << ErrorMessage;
}
static CompileCommand findCompileArgsInJsonDatabase(StringRef FileName,
std::string JSONDatabase,
std::string &ErrorMessage) {
std::unique_ptr<CompilationDatabase> Database(
JSONCompilationDatabase::loadFromBuffer(JSONDatabase, ErrorMessage,
JSONCommandLineSyntax::Gnu));
if (!Database)
return CompileCommand();
// Overwrite the string to verify we're not reading from it later.
JSONDatabase.assign(JSONDatabase.size(), '*');
std::vector<CompileCommand> Commands = Database->getCompileCommands(FileName);
EXPECT_LE(Commands.size(), 1u);
if (Commands.empty())
return CompileCommand();
return Commands[0];
}
TEST(JSONCompilationDatabase, ArgumentsPreferredOverCommand) {
StringRef Directory("//net/dir");
StringRef FileName("//net/dir/filename");
StringRef Command("command");
StringRef Arguments = "arguments";
Twine ArgumentsAccumulate;
std::string ErrorMessage;
CompileCommand FoundCommand = findCompileArgsInJsonDatabase(
FileName,
("[{\"directory\":\"" + Directory + "\","
"\"arguments\":[\"" + Arguments + "\"],"
"\"command\":\"" + Command + "\","
"\"file\":\"" + FileName + "\"}]").str(),
ErrorMessage);
EXPECT_EQ(Directory, FoundCommand.Directory) << ErrorMessage;
EXPECT_EQ(1u, FoundCommand.CommandLine.size()) << ErrorMessage;
EXPECT_EQ(Arguments, FoundCommand.CommandLine[0]) << ErrorMessage;
}
struct FakeComparator : public PathComparator {
~FakeComparator() override {}
bool equivalent(StringRef FileA, StringRef FileB) const override {
return FileA.equals_lower(FileB);
}
};
class FileMatchTrieTest : public ::testing::Test {
protected:
FileMatchTrieTest() : Trie(new FakeComparator()) {}
StringRef find(StringRef Path) {
llvm::raw_string_ostream ES(Error);
return Trie.findEquivalent(Path, ES);
}
FileMatchTrie Trie;
std::string Error;
};
TEST_F(FileMatchTrieTest, InsertingRelativePath) {
Trie.insert("//net/path/file.cc");
Trie.insert("file.cc");
EXPECT_EQ("//net/path/file.cc", find("//net/path/file.cc"));
}
TEST_F(FileMatchTrieTest, MatchingRelativePath) {
EXPECT_EQ("", find("file.cc"));
}
TEST_F(FileMatchTrieTest, ReturnsBestResults) {
Trie.insert("//net/d/c/b.cc");
Trie.insert("//net/d/b/b.cc");
EXPECT_EQ("//net/d/b/b.cc", find("//net/d/b/b.cc"));
}
TEST_F(FileMatchTrieTest, HandlesSymlinks) {
Trie.insert("//net/AA/file.cc");
EXPECT_EQ("//net/AA/file.cc", find("//net/aa/file.cc"));
}
TEST_F(FileMatchTrieTest, ReportsSymlinkAmbiguity) {
Trie.insert("//net/Aa/file.cc");
Trie.insert("//net/aA/file.cc");
EXPECT_TRUE(find("//net/aa/file.cc").empty());
EXPECT_EQ("Path is ambiguous", Error);
}
TEST_F(FileMatchTrieTest, LongerMatchingSuffixPreferred) {
Trie.insert("//net/src/Aa/file.cc");
Trie.insert("//net/src/aA/file.cc");
Trie.insert("//net/SRC/aa/file.cc");
EXPECT_EQ("//net/SRC/aa/file.cc", find("//net/src/aa/file.cc"));
}
TEST_F(FileMatchTrieTest, EmptyTrie) {
EXPECT_TRUE(find("//net/some/path").empty());
}
TEST_F(FileMatchTrieTest, NoResult) {
Trie.insert("//net/somepath/otherfile.cc");
Trie.insert("//net/otherpath/somefile.cc");
EXPECT_EQ("", find("//net/somepath/somefile.cc"));
}
TEST_F(FileMatchTrieTest, RootElementDifferent) {
Trie.insert("//net/path/file.cc");
Trie.insert("//net/otherpath/file.cc");
EXPECT_EQ("//net/path/file.cc", find("//net/path/file.cc"));
}
TEST_F(FileMatchTrieTest, CannotResolveRelativePath) {
EXPECT_EQ("", find("relative-path.cc"));
EXPECT_EQ("Cannot resolve relative paths", Error);
}
TEST_F(FileMatchTrieTest, SingleFile) {
Trie.insert("/root/RootFile.cc");
EXPECT_EQ("", find("/root/rootfile.cc"));
// Add subpath to avoid `if (Children.empty())` special case
// which we hit at previous `find()`.
Trie.insert("/root/otherpath/OtherFile.cc");
EXPECT_EQ("", find("/root/rootfile.cc"));
}
TEST(findCompileArgsInJsonDatabase, FindsNothingIfEmpty) {
std::string ErrorMessage;
CompileCommand NotFound = findCompileArgsInJsonDatabase(
"a-file.cpp", "", ErrorMessage);
EXPECT_TRUE(NotFound.CommandLine.empty()) << ErrorMessage;
EXPECT_TRUE(NotFound.Directory.empty()) << ErrorMessage;
}
TEST(findCompileArgsInJsonDatabase, ReadsSingleEntry) {
StringRef Directory("//net/some/directory");
StringRef FileName("//net/path/to/a-file.cpp");
StringRef Command("//net/path/to/compiler and some arguments");
std::string ErrorMessage;
CompileCommand FoundCommand = findCompileArgsInJsonDatabase(
FileName,
("[{\"directory\":\"" + Directory + "\"," +
"\"command\":\"" + Command + "\","
"\"file\":\"" + FileName + "\"}]").str(),
ErrorMessage);
EXPECT_EQ(Directory, FoundCommand.Directory) << ErrorMessage;
ASSERT_EQ(4u, FoundCommand.CommandLine.size()) << ErrorMessage;
EXPECT_EQ("//net/path/to/compiler",
FoundCommand.CommandLine[0]) << ErrorMessage;
EXPECT_EQ("and", FoundCommand.CommandLine[1]) << ErrorMessage;
EXPECT_EQ("some", FoundCommand.CommandLine[2]) << ErrorMessage;
EXPECT_EQ("arguments", FoundCommand.CommandLine[3]) << ErrorMessage;
CompileCommand NotFound = findCompileArgsInJsonDatabase(
"a-file.cpp",
("[{\"directory\":\"" + Directory + "\"," +
"\"command\":\"" + Command + "\","
"\"file\":\"" + FileName + "\"}]").str(),
ErrorMessage);
EXPECT_TRUE(NotFound.Directory.empty()) << ErrorMessage;
EXPECT_TRUE(NotFound.CommandLine.empty()) << ErrorMessage;
}
TEST(findCompileArgsInJsonDatabase, ReadsCompileCommandLinesWithSpaces) {
StringRef Directory("//net/some/directory");
StringRef FileName("//net/path/to/a-file.cpp");
StringRef Command("\\\"//net/path to compiler\\\" \\\"and an argument\\\"");
std::string ErrorMessage;
CompileCommand FoundCommand = findCompileArgsInJsonDatabase(
FileName,
("[{\"directory\":\"" + Directory + "\"," +
"\"command\":\"" + Command + "\","
"\"file\":\"" + FileName + "\"}]").str(),
ErrorMessage);
ASSERT_EQ(2u, FoundCommand.CommandLine.size());
EXPECT_EQ("//net/path to compiler",
FoundCommand.CommandLine[0]) << ErrorMessage;
EXPECT_EQ("and an argument", FoundCommand.CommandLine[1]) << ErrorMessage;
}
TEST(findCompileArgsInJsonDatabase, ReadsDirectoryWithSpaces) {
StringRef Directory("//net/some directory / with spaces");
StringRef FileName("//net/path/to/a-file.cpp");
StringRef Command("a command");
std::string ErrorMessage;
CompileCommand FoundCommand = findCompileArgsInJsonDatabase(
FileName,
("[{\"directory\":\"" + Directory + "\"," +
"\"command\":\"" + Command + "\","
"\"file\":\"" + FileName + "\"}]").str(),
ErrorMessage);
EXPECT_EQ(Directory, FoundCommand.Directory) << ErrorMessage;
}
TEST(findCompileArgsInJsonDatabase, FindsEntry) {
StringRef Directory("//net/directory");
StringRef FileName("file");
StringRef Command("command");
std::string JsonDatabase = "[";
for (int I = 0; I < 10; ++I) {
if (I > 0) JsonDatabase += ",";
JsonDatabase +=
("{\"directory\":\"" + Directory + Twine(I) + "\"," +
"\"command\":\"" + Command + Twine(I) + "\","
"\"file\":\"" + FileName + Twine(I) + "\"}").str();
}
JsonDatabase += "]";
std::string ErrorMessage;
CompileCommand FoundCommand = findCompileArgsInJsonDatabase(
"//net/directory4/file4", JsonDatabase, ErrorMessage);
EXPECT_EQ("//net/directory4", FoundCommand.Directory) << ErrorMessage;
ASSERT_EQ(1u, FoundCommand.CommandLine.size()) << ErrorMessage;
EXPECT_EQ("command4", FoundCommand.CommandLine[0]) << ErrorMessage;
}
TEST(findCompileArgsInJsonDatabase, ParsesCompilerWrappers) {
std::vector<std::pair<std::string, std::string>> Cases = {
{"distcc gcc foo.c", "gcc foo.c"},
{"gomacc clang++ foo.c", "clang++ foo.c"},
{"sccache clang++ foo.c", "clang++ foo.c"},
{"ccache gcc foo.c", "gcc foo.c"},
{"ccache.exe gcc foo.c", "gcc foo.c"},
{"ccache g++.exe foo.c", "g++.exe foo.c"},
{"ccache distcc gcc foo.c", "gcc foo.c"},
{"distcc foo.c", "distcc foo.c"},
{"distcc -I/foo/bar foo.c", "distcc -I/foo/bar foo.c"},
};
std::string ErrorMessage;
for (const auto &Case : Cases) {
std::string DB =
R"([{"directory":"//net/dir", "file":"//net/dir/foo.c", "command":")" +
Case.first + "\"}]";
CompileCommand FoundCommand =
findCompileArgsInJsonDatabase("//net/dir/foo.c", DB, ErrorMessage);
EXPECT_EQ(Case.second, llvm::join(FoundCommand.CommandLine, " "))
<< Case.first;
}
}
static std::vector<std::string> unescapeJsonCommandLine(StringRef Command) {
std::string JsonDatabase =
("[{\"directory\":\"//net/root\", \"file\":\"test\", \"command\": \"" +
Command + "\"}]").str();
std::string ErrorMessage;
CompileCommand FoundCommand = findCompileArgsInJsonDatabase(
"//net/root/test", JsonDatabase, ErrorMessage);
EXPECT_TRUE(ErrorMessage.empty()) << ErrorMessage;
return FoundCommand.CommandLine;
}
TEST(unescapeJsonCommandLine, ReturnsEmptyArrayOnEmptyString) {
std::vector<std::string> Result = unescapeJsonCommandLine("");
EXPECT_TRUE(Result.empty());
}
TEST(unescapeJsonCommandLine, SplitsOnSpaces) {
std::vector<std::string> Result = unescapeJsonCommandLine("a b c");
ASSERT_EQ(3ul, Result.size());
EXPECT_EQ("a", Result[0]);
EXPECT_EQ("b", Result[1]);
EXPECT_EQ("c", Result[2]);
}
TEST(unescapeJsonCommandLine, MungesMultipleSpaces) {
std::vector<std::string> Result = unescapeJsonCommandLine(" a b ");
ASSERT_EQ(2ul, Result.size());
EXPECT_EQ("a", Result[0]);
EXPECT_EQ("b", Result[1]);
}
TEST(unescapeJsonCommandLine, UnescapesBackslashCharacters) {
std::vector<std::string> Backslash = unescapeJsonCommandLine("a\\\\\\\\");
ASSERT_EQ(1ul, Backslash.size());
EXPECT_EQ("a\\", Backslash[0]);
std::vector<std::string> Quote = unescapeJsonCommandLine("a\\\\\\\"");
ASSERT_EQ(1ul, Quote.size());
EXPECT_EQ("a\"", Quote[0]);
}
TEST(unescapeJsonCommandLine, DoesNotMungeSpacesBetweenQuotes) {
std::vector<std::string> Result = unescapeJsonCommandLine("\\\" a b \\\"");
ASSERT_EQ(1ul, Result.size());
EXPECT_EQ(" a b ", Result[0]);
}
TEST(unescapeJsonCommandLine, AllowsMultipleQuotedArguments) {
std::vector<std::string> Result = unescapeJsonCommandLine(
" \\\" a \\\" \\\" b \\\" ");
ASSERT_EQ(2ul, Result.size());
EXPECT_EQ(" a ", Result[0]);
EXPECT_EQ(" b ", Result[1]);
}
TEST(unescapeJsonCommandLine, AllowsEmptyArgumentsInQuotes) {
std::vector<std::string> Result = unescapeJsonCommandLine(
"\\\"\\\"\\\"\\\"");
ASSERT_EQ(1ul, Result.size());
EXPECT_TRUE(Result[0].empty()) << Result[0];
}
TEST(unescapeJsonCommandLine, ParsesEscapedQuotesInQuotedStrings) {
std::vector<std::string> Result = unescapeJsonCommandLine(
"\\\"\\\\\\\"\\\"");
ASSERT_EQ(1ul, Result.size());
EXPECT_EQ("\"", Result[0]);
}
TEST(unescapeJsonCommandLine, ParsesMultipleArgumentsWithEscapedCharacters) {
std::vector<std::string> Result = unescapeJsonCommandLine(
" \\\\\\\" \\\"a \\\\\\\" b \\\" \\\"and\\\\\\\\c\\\" \\\\\\\"");
ASSERT_EQ(4ul, Result.size());
EXPECT_EQ("\"", Result[0]);
EXPECT_EQ("a \" b ", Result[1]);
EXPECT_EQ("and\\c", Result[2]);
EXPECT_EQ("\"", Result[3]);
}
TEST(unescapeJsonCommandLine, ParsesStringsWithoutSpacesIntoSingleArgument) {
std::vector<std::string> QuotedNoSpaces = unescapeJsonCommandLine(
"\\\"a\\\"\\\"b\\\"");
ASSERT_EQ(1ul, QuotedNoSpaces.size());
EXPECT_EQ("ab", QuotedNoSpaces[0]);
std::vector<std::string> MixedNoSpaces = unescapeJsonCommandLine(
"\\\"a\\\"bcd\\\"ef\\\"\\\"\\\"\\\"g\\\"");
ASSERT_EQ(1ul, MixedNoSpaces.size());
EXPECT_EQ("abcdefg", MixedNoSpaces[0]);
}
TEST(unescapeJsonCommandLine, ParsesQuotedStringWithoutClosingQuote) {
std::vector<std::string> Unclosed = unescapeJsonCommandLine("\\\"abc");
ASSERT_EQ(1ul, Unclosed.size());
EXPECT_EQ("abc", Unclosed[0]);
std::vector<std::string> Empty = unescapeJsonCommandLine("\\\"");
ASSERT_EQ(1ul, Empty.size());
EXPECT_EQ("", Empty[0]);
}
TEST(unescapeJsonCommandLine, ParsesSingleQuotedString) {
std::vector<std::string> Args = unescapeJsonCommandLine("a'\\\\b \\\"c\\\"'");
ASSERT_EQ(1ul, Args.size());
EXPECT_EQ("a\\b \"c\"", Args[0]);
}
TEST(FixedCompilationDatabase, ReturnsFixedCommandLine) {
FixedCompilationDatabase Database(".", /*CommandLine*/ {"one", "two"});
StringRef FileName("source");
std::vector<CompileCommand> Result =
Database.getCompileCommands(FileName);
ASSERT_EQ(1ul, Result.size());
EXPECT_EQ(".", Result[0].Directory);
EXPECT_EQ(FileName, Result[0].Filename);
EXPECT_THAT(Result[0].CommandLine,
ElementsAre(EndsWith("clang-tool"), "one", "two", "source"));
}
TEST(FixedCompilationDatabase, GetAllFiles) {
std::vector<std::string> CommandLine;
CommandLine.push_back("one");
CommandLine.push_back("two");
FixedCompilationDatabase Database(".", CommandLine);
EXPECT_EQ(0ul, Database.getAllFiles().size());
}
TEST(FixedCompilationDatabase, GetAllCompileCommands) {
std::vector<std::string> CommandLine;
CommandLine.push_back("one");
CommandLine.push_back("two");
FixedCompilationDatabase Database(".", CommandLine);
EXPECT_EQ(0ul, Database.getAllCompileCommands().size());
}
TEST(FixedCompilationDatabase, FromBuffer) {
const char *Data = R"(
-DFOO=BAR
--baz
)";
std::string ErrorMsg;
auto CDB =
FixedCompilationDatabase::loadFromBuffer("/cdb/dir", Data, ErrorMsg);
std::vector<CompileCommand> Result = CDB->getCompileCommands("/foo/bar.cc");
ASSERT_EQ(1ul, Result.size());
EXPECT_EQ("/cdb/dir", Result.front().Directory);
EXPECT_EQ("/foo/bar.cc", Result.front().Filename);
EXPECT_THAT(
Result.front().CommandLine,
ElementsAre(EndsWith("clang-tool"), "-DFOO=BAR", "--baz", "/foo/bar.cc"));
}
TEST(ParseFixedCompilationDatabase, ReturnsNullOnEmptyArgumentList) {
int Argc = 0;
std::string ErrorMsg;
std::unique_ptr<FixedCompilationDatabase> Database =
FixedCompilationDatabase::loadFromCommandLine(Argc, nullptr, ErrorMsg);
EXPECT_FALSE(Database);
EXPECT_TRUE(ErrorMsg.empty());
EXPECT_EQ(0, Argc);
}
TEST(ParseFixedCompilationDatabase, ReturnsNullWithoutDoubleDash) {
int Argc = 2;
const char *Argv[] = { "1", "2" };
std::string ErrorMsg;
std::unique_ptr<FixedCompilationDatabase> Database(
FixedCompilationDatabase::loadFromCommandLine(Argc, Argv, ErrorMsg));
EXPECT_FALSE(Database);
EXPECT_TRUE(ErrorMsg.empty());
EXPECT_EQ(2, Argc);
}
TEST(ParseFixedCompilationDatabase, ReturnsArgumentsAfterDoubleDash) {
int Argc = 5;
const char *Argv[] = {
"1", "2", "--\0no-constant-folding", "-DDEF3", "-DDEF4"
};
std::string ErrorMsg;
std::unique_ptr<FixedCompilationDatabase> Database(
FixedCompilationDatabase::loadFromCommandLine(Argc, Argv, ErrorMsg));
ASSERT_TRUE((bool)Database);
ASSERT_TRUE(ErrorMsg.empty());
std::vector<CompileCommand> Result =
Database->getCompileCommands("source");
ASSERT_EQ(1ul, Result.size());
ASSERT_EQ(".", Result[0].Directory);
ASSERT_THAT(Result[0].CommandLine, ElementsAre(EndsWith("clang-tool"),
"-DDEF3", "-DDEF4", "source"));
EXPECT_EQ(2, Argc);
}
TEST(ParseFixedCompilationDatabase, ReturnsEmptyCommandLine) {
int Argc = 3;
const char *Argv[] = { "1", "2", "--\0no-constant-folding" };
std::string ErrorMsg;
std::unique_ptr<FixedCompilationDatabase> Database =
FixedCompilationDatabase::loadFromCommandLine(Argc, Argv, ErrorMsg);
ASSERT_TRUE((bool)Database);
ASSERT_TRUE(ErrorMsg.empty());
std::vector<CompileCommand> Result =
Database->getCompileCommands("source");
ASSERT_EQ(1ul, Result.size());
ASSERT_EQ(".", Result[0].Directory);
ASSERT_THAT(Result[0].CommandLine,
ElementsAre(EndsWith("clang-tool"), "source"));
EXPECT_EQ(2, Argc);
}
TEST(ParseFixedCompilationDatabase, HandlesPositionalArgs) {
const char *Argv[] = {"1", "2", "--", "-c", "somefile.cpp", "-DDEF3"};
int Argc = sizeof(Argv) / sizeof(char*);
std::string ErrorMsg;
std::unique_ptr<FixedCompilationDatabase> Database =
FixedCompilationDatabase::loadFromCommandLine(Argc, Argv, ErrorMsg);
ASSERT_TRUE((bool)Database);
ASSERT_TRUE(ErrorMsg.empty());
std::vector<CompileCommand> Result =
Database->getCompileCommands("source");
ASSERT_EQ(1ul, Result.size());
ASSERT_EQ(".", Result[0].Directory);
ASSERT_THAT(Result[0].CommandLine,
ElementsAre(EndsWith("clang-tool"), "-c", "-DDEF3", "source"));
EXPECT_EQ(2, Argc);
}
TEST(ParseFixedCompilationDatabase, HandlesPositionalArgsSyntaxOnly) {
// Adjust the given command line arguments to ensure that any positional
// arguments in them are stripped.
const char *Argv[] = {"--", "somefile.cpp", "-fsyntax-only", "-DDEF3"};
int Argc = llvm::array_lengthof(Argv);
std::string ErrorMessage;
std::unique_ptr<CompilationDatabase> Database =
FixedCompilationDatabase::loadFromCommandLine(Argc, Argv, ErrorMessage);
ASSERT_TRUE((bool)Database);
ASSERT_TRUE(ErrorMessage.empty());
std::vector<CompileCommand> Result = Database->getCompileCommands("source");
ASSERT_EQ(1ul, Result.size());
ASSERT_EQ(".", Result[0].Directory);
ASSERT_THAT(
Result[0].CommandLine,
ElementsAre(EndsWith("clang-tool"), "-fsyntax-only", "-DDEF3", "source"));
}
TEST(ParseFixedCompilationDatabase, HandlesArgv0) {
const char *Argv[] = {"1", "2", "--", "mytool", "somefile.cpp"};
int Argc = sizeof(Argv) / sizeof(char*);
std::string ErrorMsg;
std::unique_ptr<FixedCompilationDatabase> Database =
FixedCompilationDatabase::loadFromCommandLine(Argc, Argv, ErrorMsg);
ASSERT_TRUE((bool)Database);
ASSERT_TRUE(ErrorMsg.empty());
std::vector<CompileCommand> Result =
Database->getCompileCommands("source");
ASSERT_EQ(1ul, Result.size());
ASSERT_EQ(".", Result[0].Directory);
std::vector<std::string> Expected;
ASSERT_THAT(Result[0].CommandLine,
ElementsAre(EndsWith("clang-tool"), "source"));
EXPECT_EQ(2, Argc);
}
struct MemCDB : public CompilationDatabase {
using EntryMap = llvm::StringMap<SmallVector<CompileCommand, 1>>;
EntryMap Entries;
MemCDB(const EntryMap &E) : Entries(E) {}
std::vector<CompileCommand> getCompileCommands(StringRef F) const override {
auto Ret = Entries.lookup(F);
return {Ret.begin(), Ret.end()};
}
std::vector<std::string> getAllFiles() const override {
std::vector<std::string> Result;
for (const auto &Entry : Entries)
Result.push_back(std::string(Entry.first()));
return Result;
}
};
class MemDBTest : public ::testing::Test {
protected:
// Adds an entry to the underlying compilation database.
// A flag is injected: -D <File>, so the command used can be identified.
void add(StringRef File, StringRef Clang, StringRef Flags) {
SmallVector<StringRef, 8> Argv = {Clang, File, "-D", File};
llvm::SplitString(Flags, Argv);
SmallString<32> Dir;
llvm::sys::path::system_temp_directory(false, Dir);
Entries[path(File)].push_back(
{Dir, path(File), {Argv.begin(), Argv.end()}, "foo.o"});
}
void add(StringRef File, StringRef Flags = "") { add(File, "clang", Flags); }
// Turn a unix path fragment (foo/bar.h) into a native path (C:\tmp\foo\bar.h)
std::string path(llvm::SmallString<32> File) {
llvm::SmallString<32> Dir;
llvm::sys::path::system_temp_directory(false, Dir);
llvm::sys::path::native(File);
llvm::SmallString<64> Result;
llvm::sys::path::append(Result, Dir, File);
return std::string(Result.str());
}
MemCDB::EntryMap Entries;
};
class InterpolateTest : public MemDBTest {
protected:
// Look up the command from a relative path, and return it in string form.
// The input file is not included in the returned command.
std::string getCommand(llvm::StringRef F) {
auto Results =
inferMissingCompileCommands(std::make_unique<MemCDB>(Entries))
->getCompileCommands(path(F));
if (Results.empty())
return "none";
// drop the input file argument, so tests don't have to deal with path().
EXPECT_EQ(Results[0].CommandLine.back(), path(F))
<< "Last arg should be the file";
Results[0].CommandLine.pop_back();
return llvm::join(Results[0].CommandLine, " ");
}
// Parse the file whose command was used out of the Heuristic string.
std::string getProxy(llvm::StringRef F) {
auto Results =
inferMissingCompileCommands(std::make_unique<MemCDB>(Entries))
->getCompileCommands(path(F));
if (Results.empty())
return "none";
StringRef Proxy = Results.front().Heuristic;
if (!Proxy.consume_front("inferred from "))
return "";
// We have a proxy file, convert back to a unix relative path.
// This is a bit messy, but we do need to test these strings somehow...
llvm::SmallString<32> TempDir;
llvm::sys::path::system_temp_directory(false, TempDir);
Proxy.consume_front(TempDir);
Proxy.consume_front(llvm::sys::path::get_separator());
llvm::SmallString<32> Result = Proxy;
llvm::sys::path::native(Result, llvm::sys::path::Style::posix);
return std::string(Result.str());
}
};
TEST_F(InterpolateTest, Nearby) {
add("dir/foo.cpp");
add("dir/bar.cpp");
add("an/other/foo.cpp");
// great: dir and name both match (prefix or full, case insensitive)
EXPECT_EQ(getProxy("dir/f.cpp"), "dir/foo.cpp");
EXPECT_EQ(getProxy("dir/FOO.cpp"), "dir/foo.cpp");
// no name match. prefer matching dir, break ties by alpha
EXPECT_EQ(getProxy("dir/a.cpp"), "dir/bar.cpp");
// an exact name match beats one segment of directory match
EXPECT_EQ(getProxy("some/other/bar.h"), "dir/bar.cpp");
// two segments of directory match beat a prefix name match
EXPECT_EQ(getProxy("an/other/b.cpp"), "an/other/foo.cpp");
// if nothing matches at all, we still get the closest alpha match
EXPECT_EQ(getProxy("below/some/obscure/path.cpp"), "an/other/foo.cpp");
}
TEST_F(InterpolateTest, Language) {
add("dir/foo.cpp", "-std=c++17");
add("dir/bar.c", "");
add("dir/baz.cee", "-x c");
add("dir/aux.cpp", "-std=c++17 -x objective-c++");
// .h is ambiguous, so we add explicit language flags
EXPECT_EQ(getCommand("foo.h"),
"clang -D dir/foo.cpp -x c++-header -std=c++17");
// Same thing if we have no extension. (again, we treat as header).
EXPECT_EQ(getCommand("foo"), "clang -D dir/foo.cpp -x c++-header -std=c++17");
// and invalid extensions.
EXPECT_EQ(getCommand("foo.cce"),
"clang -D dir/foo.cpp -x c++-header -std=c++17");
// and don't add -x if the inferred language is correct.
EXPECT_EQ(getCommand("foo.hpp"), "clang -D dir/foo.cpp -std=c++17");
// respect -x if it's already there.
EXPECT_EQ(getCommand("baz.h"), "clang -D dir/baz.cee -x c-header");
// prefer a worse match with the right extension.
EXPECT_EQ(getCommand("foo.c"), "clang -D dir/bar.c");
Entries.erase(path(StringRef("dir/bar.c")));
// Now we transfer across languages, so drop -std too.
EXPECT_EQ(getCommand("foo.c"), "clang -D dir/foo.cpp");
// Prefer -x over -std when overriding language.
EXPECT_EQ(getCommand("aux.h"),
"clang -D dir/aux.cpp -x objective-c++-header -std=c++17");
}
TEST_F(InterpolateTest, Strip) {
add("dir/foo.cpp", "-o foo.o -Wall");
// the -o option and the input file are removed, but -Wall is preserved.
EXPECT_EQ(getCommand("dir/bar.cpp"), "clang -D dir/foo.cpp -Wall");
}
TEST_F(InterpolateTest, Case) {
add("FOO/BAR/BAZ/SHOUT.cc");
add("foo/bar/baz/quiet.cc");
// Case mismatches are completely ignored, so we choose the name match.
EXPECT_EQ(getProxy("foo/bar/baz/shout.C"), "FOO/BAR/BAZ/SHOUT.cc");
}
TEST_F(InterpolateTest, Aliasing) {
add("foo.cpp", "-faligned-new");
// The interpolated command should keep the given flag as written, even though
// the flag is internally represented as an alias.
EXPECT_EQ(getCommand("foo.hpp"), "clang -D foo.cpp -faligned-new");
}
TEST_F(InterpolateTest, ClangCL) {
add("foo.cpp", "clang-cl", "/W4");
// Language flags should be added with CL syntax.
EXPECT_EQ(getCommand("foo.h"), "clang-cl -D foo.cpp /W4 /TP");
}
TEST_F(InterpolateTest, DriverModes) {
add("foo.cpp", "clang-cl", "--driver-mode=gcc");
add("bar.cpp", "clang", "--driver-mode=cl");
// --driver-mode overrides should be respected.
EXPECT_EQ(getCommand("foo.h"), "clang-cl -D foo.cpp --driver-mode=gcc -x c++-header");
EXPECT_EQ(getCommand("bar.h"), "clang -D bar.cpp --driver-mode=cl /TP");
}
TEST(TransferCompileCommandTest, Smoke) {
CompileCommand Cmd;
Cmd.Filename = "foo.cc";
Cmd.CommandLine = {"clang", "-Wall", "foo.cc"};
Cmd.Directory = "dir";
CompileCommand Transferred = transferCompileCommand(std::move(Cmd), "foo.h");
EXPECT_EQ(Transferred.Filename, "foo.h");
EXPECT_THAT(Transferred.CommandLine,
ElementsAre("clang", "-Wall", "-x", "c++-header", "foo.h"));
EXPECT_EQ(Transferred.Directory, "dir");
}
TEST(CompileCommandTest, EqualityOperator) {
CompileCommand CCRef("/foo/bar", "hello.c", {"a", "b"}, "hello.o");
CompileCommand CCTest = CCRef;
EXPECT_TRUE(CCRef == CCTest);
EXPECT_FALSE(CCRef != CCTest);
CCTest = CCRef;
CCTest.Directory = "/foo/baz";
EXPECT_FALSE(CCRef == CCTest);
EXPECT_TRUE(CCRef != CCTest);
CCTest = CCRef;
CCTest.Filename = "bonjour.c";
EXPECT_FALSE(CCRef == CCTest);
EXPECT_TRUE(CCRef != CCTest);
CCTest = CCRef;
CCTest.CommandLine.push_back("c");
EXPECT_FALSE(CCRef == CCTest);
EXPECT_TRUE(CCRef != CCTest);
CCTest = CCRef;
CCTest.Output = "bonjour.o";
EXPECT_FALSE(CCRef == CCTest);
EXPECT_TRUE(CCRef != CCTest);
}
class TargetAndModeTest : public MemDBTest {
public:
TargetAndModeTest() { llvm::InitializeAllTargetInfos(); }
protected:
// Look up the command from a relative path, and return it in string form.
std::string getCommand(llvm::StringRef F) {
auto Results = inferTargetAndDriverMode(std::make_unique<MemCDB>(Entries))
->getCompileCommands(path(F));
if (Results.empty())
return "none";
return llvm::join(Results[0].CommandLine, " ");
}
};
TEST_F(TargetAndModeTest, TargetAndMode) {
add("foo.cpp", "clang-cl", "");
add("bar.cpp", "clang++", "");
EXPECT_EQ(getCommand("foo.cpp"),
"clang-cl --driver-mode=cl foo.cpp -D foo.cpp");
EXPECT_EQ(getCommand("bar.cpp"),
"clang++ --driver-mode=g++ bar.cpp -D bar.cpp");
}
class ExpandResponseFilesTest : public MemDBTest {
public:
ExpandResponseFilesTest() : FS(new llvm::vfs::InMemoryFileSystem) {}
protected:
void addFile(StringRef File, StringRef Content) {
ASSERT_TRUE(
FS->addFile(File, 0, llvm::MemoryBuffer::getMemBufferCopy(Content)));
}
std::string getCommand(llvm::StringRef F) {
auto Results = expandResponseFiles(std::make_unique<MemCDB>(Entries), FS)
->getCompileCommands(path(F));
if (Results.empty())
return "none";
return llvm::join(Results[0].CommandLine, " ");
}
llvm::IntrusiveRefCntPtr<llvm::vfs::InMemoryFileSystem> FS;
};
TEST_F(ExpandResponseFilesTest, ExpandResponseFiles) {
addFile(path(StringRef("rsp1.rsp")), "-Dflag");
add("foo.cpp", "clang", "@rsp1.rsp");
add("bar.cpp", "clang", "-Dflag");
EXPECT_EQ(getCommand("foo.cpp"), "clang foo.cpp -D foo.cpp -Dflag");
EXPECT_EQ(getCommand("bar.cpp"), "clang bar.cpp -D bar.cpp -Dflag");
}
} // end namespace tooling
} // end namespace clang