//===- unittest/ProfileData/CoverageMappingTest.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 "llvm/ProfileData/Coverage/CoverageMapping.h" #include "llvm/ProfileData/Coverage/CoverageMappingReader.h" #include "llvm/ProfileData/Coverage/CoverageMappingWriter.h" #include "llvm/ProfileData/InstrProfReader.h" #include "llvm/ProfileData/InstrProfWriter.h" #include "llvm/Support/raw_ostream.h" #include "llvm/Testing/Support/Error.h" #include "llvm/Testing/Support/SupportHelpers.h" #include "gtest/gtest.h" #include #include using namespace llvm; using namespace coverage; LLVM_NODISCARD static ::testing::AssertionResult ErrorEquals(coveragemap_error Expected, Error E) { coveragemap_error Found; std::string FoundMsg; handleAllErrors(std::move(E), [&](const CoverageMapError &CME) { Found = CME.get(); FoundMsg = CME.message(); }); if (Expected == Found) return ::testing::AssertionSuccess(); return ::testing::AssertionFailure() << "error: " << FoundMsg << "\n"; } namespace llvm { namespace coverage { void PrintTo(const Counter &C, ::std::ostream *os) { if (C.isZero()) *os << "Zero"; else if (C.isExpression()) *os << "Expression " << C.getExpressionID(); else *os << "Counter " << C.getCounterID(); } void PrintTo(const CoverageSegment &S, ::std::ostream *os) { *os << "CoverageSegment(" << S.Line << ", " << S.Col << ", "; if (S.HasCount) *os << S.Count << ", "; *os << (S.IsRegionEntry ? "true" : "false") << ")"; } } } namespace { struct OutputFunctionCoverageData { StringRef Name; uint64_t Hash; std::vector Filenames; std::vector Regions; std::vector Expressions; OutputFunctionCoverageData() : Hash(0) {} OutputFunctionCoverageData(OutputFunctionCoverageData &&OFCD) : Name(OFCD.Name), Hash(OFCD.Hash), Filenames(std::move(OFCD.Filenames)), Regions(std::move(OFCD.Regions)) {} OutputFunctionCoverageData(const OutputFunctionCoverageData &) = delete; OutputFunctionCoverageData & operator=(const OutputFunctionCoverageData &) = delete; OutputFunctionCoverageData &operator=(OutputFunctionCoverageData &&) = delete; void fillCoverageMappingRecord(CoverageMappingRecord &Record) const { Record.FunctionName = Name; Record.FunctionHash = Hash; Record.Filenames = Filenames; Record.Expressions = Expressions; Record.MappingRegions = Regions; } }; struct CoverageMappingReaderMock : CoverageMappingReader { ArrayRef Functions; CoverageMappingReaderMock(ArrayRef Functions) : Functions(Functions) {} Error readNextRecord(CoverageMappingRecord &Record) override { if (Functions.empty()) return make_error(coveragemap_error::eof); Functions.front().fillCoverageMappingRecord(Record); Functions = Functions.slice(1); return Error::success(); } }; struct InputFunctionCoverageData { // Maps the global file index from CoverageMappingTest.Files // to the index of that file within this function. We can't just use // global file indexes here because local indexes have to be dense. // This map is used during serialization to create the virtual file mapping // (from local fileId to global Index) in the head of the per-function // coverage mapping data. SmallDenseMap ReverseVirtualFileMapping; std::string Name; uint64_t Hash; std::vector Regions; std::vector Expressions; InputFunctionCoverageData(std::string Name, uint64_t Hash) : Name(std::move(Name)), Hash(Hash) {} InputFunctionCoverageData(InputFunctionCoverageData &&IFCD) : ReverseVirtualFileMapping(std::move(IFCD.ReverseVirtualFileMapping)), Name(std::move(IFCD.Name)), Hash(IFCD.Hash), Regions(std::move(IFCD.Regions)) {} InputFunctionCoverageData(const InputFunctionCoverageData &) = delete; InputFunctionCoverageData & operator=(const InputFunctionCoverageData &) = delete; InputFunctionCoverageData &operator=(InputFunctionCoverageData &&) = delete; }; struct CoverageMappingTest : ::testing::TestWithParam> { bool UseMultipleReaders; StringMap Files; std::vector Filenames; std::vector InputFunctions; std::vector OutputFunctions; InstrProfWriter ProfileWriter; std::unique_ptr ProfileReader; std::unique_ptr LoadedCoverage; void SetUp() override { ProfileWriter.setOutputSparse(std::get<0>(GetParam())); UseMultipleReaders = std::get<1>(GetParam()); } unsigned getGlobalFileIndex(StringRef Name) { auto R = Files.find(Name); if (R != Files.end()) return R->second; unsigned Index = Files.size() + 1; Files.try_emplace(Name, Index); return Index; } // Return the file index of file 'Name' for the current function. // Add the file into the global map if necessary. // See also InputFunctionCoverageData::ReverseVirtualFileMapping // for additional comments. unsigned getFileIndexForFunction(StringRef Name) { unsigned GlobalIndex = getGlobalFileIndex(Name); auto &CurrentFunctionFileMapping = InputFunctions.back().ReverseVirtualFileMapping; auto R = CurrentFunctionFileMapping.find(GlobalIndex); if (R != CurrentFunctionFileMapping.end()) return R->second; unsigned IndexInFunction = CurrentFunctionFileMapping.size(); CurrentFunctionFileMapping.insert( std::make_pair(GlobalIndex, IndexInFunction)); return IndexInFunction; } void startFunction(StringRef FuncName, uint64_t Hash) { InputFunctions.emplace_back(FuncName.str(), Hash); } void addCMR(Counter C, StringRef File, unsigned LS, unsigned CS, unsigned LE, unsigned CE, bool Skipped = false) { auto &Regions = InputFunctions.back().Regions; unsigned FileID = getFileIndexForFunction(File); Regions.push_back( Skipped ? CounterMappingRegion::makeSkipped(FileID, LS, CS, LE, CE) : CounterMappingRegion::makeRegion(C, FileID, LS, CS, LE, CE)); } void addExpansionCMR(StringRef File, StringRef ExpandedFile, unsigned LS, unsigned CS, unsigned LE, unsigned CE) { InputFunctions.back().Regions.push_back(CounterMappingRegion::makeExpansion( getFileIndexForFunction(File), getFileIndexForFunction(ExpandedFile), LS, CS, LE, CE)); } void addExpression(CounterExpression CE) { InputFunctions.back().Expressions.push_back(CE); } std::string writeCoverageRegions(InputFunctionCoverageData &Data) { SmallVector FileIDs(Data.ReverseVirtualFileMapping.size()); for (const auto &E : Data.ReverseVirtualFileMapping) FileIDs[E.second] = E.first; std::string Coverage; llvm::raw_string_ostream OS(Coverage); CoverageMappingWriter(FileIDs, Data.Expressions, Data.Regions).write(OS); return OS.str(); } void readCoverageRegions(const std::string &Coverage, OutputFunctionCoverageData &Data) { // We will re-use the StringRef in duplicate tests, clear it to avoid // clobber previous ones. Filenames.clear(); Filenames.resize(Files.size() + 1); for (const auto &E : Files) Filenames[E.getValue()] = E.getKey().str(); ArrayRef FilenameRefs = llvm::makeArrayRef(Filenames); RawCoverageMappingReader Reader(Coverage, FilenameRefs, Data.Filenames, Data.Expressions, Data.Regions); EXPECT_THAT_ERROR(Reader.read(), Succeeded()); } void writeAndReadCoverageRegions(bool EmitFilenames = true) { OutputFunctions.resize(InputFunctions.size()); for (unsigned I = 0; I < InputFunctions.size(); ++I) { std::string Regions = writeCoverageRegions(InputFunctions[I]); readCoverageRegions(Regions, OutputFunctions[I]); OutputFunctions[I].Name = InputFunctions[I].Name; OutputFunctions[I].Hash = InputFunctions[I].Hash; if (!EmitFilenames) OutputFunctions[I].Filenames.clear(); } } void readProfCounts() { auto Profile = ProfileWriter.writeBuffer(); auto ReaderOrErr = IndexedInstrProfReader::create(std::move(Profile)); EXPECT_THAT_ERROR(ReaderOrErr.takeError(), Succeeded()); ProfileReader = std::move(ReaderOrErr.get()); } Expected> readOutputFunctions() { std::vector> CoverageReaders; if (UseMultipleReaders) { for (const auto &OF : OutputFunctions) { ArrayRef Funcs(OF); CoverageReaders.push_back( std::make_unique(Funcs)); } } else { ArrayRef Funcs(OutputFunctions); CoverageReaders.push_back( std::make_unique(Funcs)); } return CoverageMapping::load(CoverageReaders, *ProfileReader); } Error loadCoverageMapping(bool EmitFilenames = true) { readProfCounts(); writeAndReadCoverageRegions(EmitFilenames); auto CoverageOrErr = readOutputFunctions(); if (!CoverageOrErr) return CoverageOrErr.takeError(); LoadedCoverage = std::move(CoverageOrErr.get()); return Error::success(); } }; TEST_P(CoverageMappingTest, basic_write_read) { startFunction("func", 0x1234); addCMR(Counter::getCounter(0), "foo", 1, 1, 1, 1); addCMR(Counter::getCounter(1), "foo", 2, 1, 2, 2); addCMR(Counter::getZero(), "foo", 3, 1, 3, 4); addCMR(Counter::getCounter(2), "foo", 4, 1, 4, 8); addCMR(Counter::getCounter(3), "bar", 1, 2, 3, 4); writeAndReadCoverageRegions(); ASSERT_EQ(1u, InputFunctions.size()); ASSERT_EQ(1u, OutputFunctions.size()); InputFunctionCoverageData &Input = InputFunctions.back(); OutputFunctionCoverageData &Output = OutputFunctions.back(); size_t N = makeArrayRef(Input.Regions).size(); ASSERT_EQ(N, Output.Regions.size()); for (size_t I = 0; I < N; ++I) { ASSERT_EQ(Input.Regions[I].Count, Output.Regions[I].Count); ASSERT_EQ(Input.Regions[I].FileID, Output.Regions[I].FileID); ASSERT_EQ(Input.Regions[I].startLoc(), Output.Regions[I].startLoc()); ASSERT_EQ(Input.Regions[I].endLoc(), Output.Regions[I].endLoc()); ASSERT_EQ(Input.Regions[I].Kind, Output.Regions[I].Kind); } } TEST_P(CoverageMappingTest, correct_deserialize_for_more_than_two_files) { const char *FileNames[] = {"bar", "baz", "foo"}; static const unsigned N = array_lengthof(FileNames); startFunction("func", 0x1234); for (unsigned I = 0; I < N; ++I) // Use LineStart to hold the index of the file name // in order to preserve that information during possible sorting of CMRs. addCMR(Counter::getCounter(0), FileNames[I], I, 1, I, 1); writeAndReadCoverageRegions(); ASSERT_EQ(1u, OutputFunctions.size()); OutputFunctionCoverageData &Output = OutputFunctions.back(); ASSERT_EQ(N, Output.Regions.size()); ASSERT_EQ(N, Output.Filenames.size()); for (unsigned I = 0; I < N; ++I) { ASSERT_GT(N, Output.Regions[I].FileID); ASSERT_GT(N, Output.Regions[I].LineStart); EXPECT_EQ(FileNames[Output.Regions[I].LineStart], Output.Filenames[Output.Regions[I].FileID]); } } static const auto Err = [](Error E) { FAIL(); }; TEST_P(CoverageMappingTest, load_coverage_for_more_than_two_files) { ProfileWriter.addRecord({"func", 0x1234, {0}}, Err); const char *FileNames[] = {"bar", "baz", "foo"}; static const unsigned N = array_lengthof(FileNames); startFunction("func", 0x1234); for (unsigned I = 0; I < N; ++I) // Use LineStart to hold the index of the file name // in order to preserve that information during possible sorting of CMRs. addCMR(Counter::getCounter(0), FileNames[I], I, 1, I, 1); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); for (unsigned I = 0; I < N; ++I) { CoverageData Data = LoadedCoverage->getCoverageForFile(FileNames[I]); ASSERT_TRUE(!Data.empty()); EXPECT_EQ(I, Data.begin()->Line); } } TEST_P(CoverageMappingTest, load_coverage_with_bogus_function_name) { ProfileWriter.addRecord({"", 0x1234, {10}}, Err); startFunction("", 0x1234); addCMR(Counter::getCounter(0), "foo", 1, 1, 5, 5); EXPECT_TRUE(ErrorEquals(coveragemap_error::malformed, loadCoverageMapping())); } TEST_P(CoverageMappingTest, load_coverage_for_several_functions) { ProfileWriter.addRecord({"func1", 0x1234, {10}}, Err); ProfileWriter.addRecord({"func2", 0x2345, {20}}, Err); startFunction("func1", 0x1234); addCMR(Counter::getCounter(0), "foo", 1, 1, 5, 5); startFunction("func2", 0x2345); addCMR(Counter::getCounter(0), "bar", 2, 2, 6, 6); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); const auto FunctionRecords = LoadedCoverage->getCoveredFunctions(); EXPECT_EQ(2, std::distance(FunctionRecords.begin(), FunctionRecords.end())); for (const auto &FunctionRecord : FunctionRecords) { CoverageData Data = LoadedCoverage->getCoverageForFunction(FunctionRecord); std::vector Segments(Data.begin(), Data.end()); ASSERT_EQ(2U, Segments.size()); if (FunctionRecord.Name == "func1") { EXPECT_EQ(CoverageSegment(1, 1, 10, true), Segments[0]); EXPECT_EQ(CoverageSegment(5, 5, false), Segments[1]); } else { ASSERT_EQ("func2", FunctionRecord.Name); EXPECT_EQ(CoverageSegment(2, 2, 20, true), Segments[0]); EXPECT_EQ(CoverageSegment(6, 6, false), Segments[1]); } } } TEST_P(CoverageMappingTest, create_combined_regions) { ProfileWriter.addRecord({"func1", 0x1234, {1, 2, 3}}, Err); startFunction("func1", 0x1234); // Given regions which start at the same location, emit a segment for the // last region. addCMR(Counter::getCounter(0), "file1", 1, 1, 2, 2); addCMR(Counter::getCounter(1), "file1", 1, 1, 2, 2); addCMR(Counter::getCounter(2), "file1", 1, 1, 2, 2); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); const auto FunctionRecords = LoadedCoverage->getCoveredFunctions(); const auto &FunctionRecord = *FunctionRecords.begin(); CoverageData Data = LoadedCoverage->getCoverageForFunction(FunctionRecord); std::vector Segments(Data.begin(), Data.end()); ASSERT_EQ(2U, Segments.size()); EXPECT_EQ(CoverageSegment(1, 1, 6, true), Segments[0]); EXPECT_EQ(CoverageSegment(2, 2, false), Segments[1]); } TEST_P(CoverageMappingTest, skipped_segments_have_no_count) { ProfileWriter.addRecord({"func1", 0x1234, {1}}, Err); startFunction("func1", 0x1234); addCMR(Counter::getCounter(0), "file1", 1, 1, 5, 5); addCMR(Counter::getCounter(0), "file1", 5, 1, 5, 5, /*Skipped=*/true); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); const auto FunctionRecords = LoadedCoverage->getCoveredFunctions(); const auto &FunctionRecord = *FunctionRecords.begin(); CoverageData Data = LoadedCoverage->getCoverageForFunction(FunctionRecord); std::vector Segments(Data.begin(), Data.end()); ASSERT_EQ(3U, Segments.size()); EXPECT_EQ(CoverageSegment(1, 1, 1, true), Segments[0]); EXPECT_EQ(CoverageSegment(5, 1, true), Segments[1]); EXPECT_EQ(CoverageSegment(5, 5, false), Segments[2]); } TEST_P(CoverageMappingTest, multiple_regions_end_after_parent_ends) { ProfileWriter.addRecord({"func1", 0x1234, {1, 0}}, Err); startFunction("func1", 0x1234); // 1| F{ a{ // 2| // 3| a} b{ c{ // 4| // 5| b} // 6| // 7| c} d{ e{ // 8| // 9| d} e} F} addCMR(Counter::getCounter(0), "file1", 1, 1, 9, 9); // < F addCMR(Counter::getCounter(0), "file1", 1, 1, 3, 5); // < a addCMR(Counter::getCounter(0), "file1", 3, 5, 5, 4); // < b addCMR(Counter::getCounter(1), "file1", 3, 5, 7, 3); // < c addCMR(Counter::getCounter(1), "file1", 7, 3, 9, 2); // < d addCMR(Counter::getCounter(1), "file1", 7, 7, 9, 7); // < e EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); const auto FunctionRecords = LoadedCoverage->getCoveredFunctions(); const auto &FunctionRecord = *FunctionRecords.begin(); CoverageData Data = LoadedCoverage->getCoverageForFunction(FunctionRecord); std::vector Segments(Data.begin(), Data.end()); // Old output (not sorted or unique): // Segment at 1:1 with count 1 // Segment at 1:1 with count 1 // Segment at 3:5 with count 1 // Segment at 3:5 with count 0 // Segment at 3:5 with count 1 // Segment at 5:4 with count 0 // Segment at 7:3 with count 1 // Segment at 7:3 with count 0 // Segment at 7:7 with count 0 // Segment at 9:7 with count 0 // Segment at 9:2 with count 1 // Top level segment at 9:9 // New output (sorted and unique): // Segment at 1:1 (count = 1), RegionEntry // Segment at 3:5 (count = 1), RegionEntry // Segment at 5:4 (count = 0) // Segment at 7:3 (count = 0), RegionEntry // Segment at 7:7 (count = 0), RegionEntry // Segment at 9:2 (count = 0) // Segment at 9:7 (count = 1) // Segment at 9:9 (count = 0), Skipped ASSERT_EQ(8U, Segments.size()); EXPECT_EQ(CoverageSegment(1, 1, 1, true), Segments[0]); EXPECT_EQ(CoverageSegment(3, 5, 1, true), Segments[1]); EXPECT_EQ(CoverageSegment(5, 4, 0, false), Segments[2]); EXPECT_EQ(CoverageSegment(7, 3, 0, true), Segments[3]); EXPECT_EQ(CoverageSegment(7, 7, 0, true), Segments[4]); EXPECT_EQ(CoverageSegment(9, 2, 0, false), Segments[5]); EXPECT_EQ(CoverageSegment(9, 7, 1, false), Segments[6]); EXPECT_EQ(CoverageSegment(9, 9, false), Segments[7]); } TEST_P(CoverageMappingTest, multiple_completed_segments_at_same_loc) { ProfileWriter.addRecord({"func1", 0x1234, {0, 1, 2}}, Err); startFunction("func1", 0x1234); // PR35495 addCMR(Counter::getCounter(1), "file1", 2, 1, 18, 2); addCMR(Counter::getCounter(0), "file1", 8, 10, 14, 6); addCMR(Counter::getCounter(0), "file1", 8, 12, 14, 6); addCMR(Counter::getCounter(1), "file1", 9, 1, 14, 6); addCMR(Counter::getCounter(2), "file1", 11, 13, 11, 14); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); const auto FunctionRecords = LoadedCoverage->getCoveredFunctions(); const auto &FunctionRecord = *FunctionRecords.begin(); CoverageData Data = LoadedCoverage->getCoverageForFunction(FunctionRecord); std::vector Segments(Data.begin(), Data.end()); ASSERT_EQ(7U, Segments.size()); EXPECT_EQ(CoverageSegment(2, 1, 1, true), Segments[0]); EXPECT_EQ(CoverageSegment(8, 10, 0, true), Segments[1]); EXPECT_EQ(CoverageSegment(8, 12, 0, true), Segments[2]); EXPECT_EQ(CoverageSegment(9, 1, 1, true), Segments[3]); EXPECT_EQ(CoverageSegment(11, 13, 2, true), Segments[4]); // Use count=1 (from 9:1 -> 14:6), not count=0 (from 8:12 -> 14:6). EXPECT_EQ(CoverageSegment(11, 14, 1, false), Segments[5]); EXPECT_EQ(CoverageSegment(18, 2, false), Segments[6]); } TEST_P(CoverageMappingTest, dont_emit_redundant_segments) { ProfileWriter.addRecord({"func1", 0x1234, {1, 1}}, Err); startFunction("func1", 0x1234); addCMR(Counter::getCounter(0), "file1", 1, 1, 4, 4); addCMR(Counter::getCounter(1), "file1", 2, 2, 5, 5); addCMR(Counter::getCounter(0), "file1", 3, 3, 6, 6); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); const auto FunctionRecords = LoadedCoverage->getCoveredFunctions(); const auto &FunctionRecord = *FunctionRecords.begin(); CoverageData Data = LoadedCoverage->getCoverageForFunction(FunctionRecord); std::vector Segments(Data.begin(), Data.end()); ASSERT_EQ(5U, Segments.size()); EXPECT_EQ(CoverageSegment(1, 1, 1, true), Segments[0]); EXPECT_EQ(CoverageSegment(2, 2, 1, true), Segments[1]); EXPECT_EQ(CoverageSegment(3, 3, 1, true), Segments[2]); EXPECT_EQ(CoverageSegment(4, 4, 1, false), Segments[3]); // A closing segment starting at 5:5 would be redundant: it would have the // same count as the segment starting at 4:4, and has all the same metadata. EXPECT_EQ(CoverageSegment(6, 6, false), Segments[4]); } TEST_P(CoverageMappingTest, dont_emit_closing_segment_at_new_region_start) { ProfileWriter.addRecord({"func1", 0x1234, {1}}, Err); startFunction("func1", 0x1234); addCMR(Counter::getCounter(0), "file1", 1, 1, 6, 5); addCMR(Counter::getCounter(0), "file1", 2, 2, 6, 5); addCMR(Counter::getCounter(0), "file1", 3, 3, 6, 5); addCMR(Counter::getCounter(0), "file1", 6, 5, 7, 7); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); const auto FunctionRecords = LoadedCoverage->getCoveredFunctions(); const auto &FunctionRecord = *FunctionRecords.begin(); CoverageData Data = LoadedCoverage->getCoverageForFunction(FunctionRecord); std::vector Segments(Data.begin(), Data.end()); ASSERT_EQ(5U, Segments.size()); EXPECT_EQ(CoverageSegment(1, 1, 1, true), Segments[0]); EXPECT_EQ(CoverageSegment(2, 2, 1, true), Segments[1]); EXPECT_EQ(CoverageSegment(3, 3, 1, true), Segments[2]); EXPECT_EQ(CoverageSegment(6, 5, 1, true), Segments[3]); // The old segment builder would get this wrong by emitting multiple segments // which start at 6:5 (a few of which were skipped segments). We should just // get a segment for the region entry. EXPECT_EQ(CoverageSegment(7, 7, false), Segments[4]); } TEST_P(CoverageMappingTest, handle_consecutive_regions_with_zero_length) { ProfileWriter.addRecord({"func1", 0x1234, {1, 2}}, Err); startFunction("func1", 0x1234); addCMR(Counter::getCounter(0), "file1", 1, 1, 1, 1); addCMR(Counter::getCounter(1), "file1", 1, 1, 1, 1); addCMR(Counter::getCounter(0), "file1", 1, 1, 1, 1); addCMR(Counter::getCounter(1), "file1", 1, 1, 1, 1); addCMR(Counter::getCounter(0), "file1", 1, 1, 1, 1); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); const auto FunctionRecords = LoadedCoverage->getCoveredFunctions(); const auto &FunctionRecord = *FunctionRecords.begin(); CoverageData Data = LoadedCoverage->getCoverageForFunction(FunctionRecord); std::vector Segments(Data.begin(), Data.end()); ASSERT_EQ(1U, Segments.size()); EXPECT_EQ(CoverageSegment(1, 1, true), Segments[0]); // We need to get a skipped segment starting at 1:1. In this case there is // also a region entry at 1:1. } TEST_P(CoverageMappingTest, handle_sandwiched_zero_length_region) { ProfileWriter.addRecord({"func1", 0x1234, {2, 1}}, Err); startFunction("func1", 0x1234); addCMR(Counter::getCounter(0), "file1", 1, 5, 4, 4); addCMR(Counter::getCounter(1), "file1", 1, 9, 1, 50); addCMR(Counter::getCounter(1), "file1", 2, 7, 2, 34); addCMR(Counter::getCounter(1), "file1", 3, 5, 3, 21); addCMR(Counter::getCounter(1), "file1", 3, 21, 3, 21); addCMR(Counter::getCounter(1), "file1", 4, 12, 4, 17); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); const auto FunctionRecords = LoadedCoverage->getCoveredFunctions(); const auto &FunctionRecord = *FunctionRecords.begin(); CoverageData Data = LoadedCoverage->getCoverageForFunction(FunctionRecord); std::vector Segments(Data.begin(), Data.end()); ASSERT_EQ(10U, Segments.size()); EXPECT_EQ(CoverageSegment(1, 5, 2, true), Segments[0]); EXPECT_EQ(CoverageSegment(1, 9, 1, true), Segments[1]); EXPECT_EQ(CoverageSegment(1, 50, 2, false), Segments[2]); EXPECT_EQ(CoverageSegment(2, 7, 1, true), Segments[3]); EXPECT_EQ(CoverageSegment(2, 34, 2, false), Segments[4]); EXPECT_EQ(CoverageSegment(3, 5, 1, true), Segments[5]); EXPECT_EQ(CoverageSegment(3, 21, 2, true), Segments[6]); // Handle the zero-length region by creating a segment with its predecessor's // count (i.e the count from 1:5 -> 4:4). EXPECT_EQ(CoverageSegment(4, 4, false), Segments[7]); // The area between 4:4 and 4:12 is skipped. EXPECT_EQ(CoverageSegment(4, 12, 1, true), Segments[8]); EXPECT_EQ(CoverageSegment(4, 17, false), Segments[9]); } TEST_P(CoverageMappingTest, handle_last_completed_region) { ProfileWriter.addRecord({"func1", 0x1234, {1, 2, 3, 4}}, Err); startFunction("func1", 0x1234); addCMR(Counter::getCounter(0), "file1", 1, 1, 8, 8); addCMR(Counter::getCounter(1), "file1", 2, 2, 5, 5); addCMR(Counter::getCounter(2), "file1", 3, 3, 4, 4); addCMR(Counter::getCounter(3), "file1", 6, 6, 7, 7); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); const auto FunctionRecords = LoadedCoverage->getCoveredFunctions(); const auto &FunctionRecord = *FunctionRecords.begin(); CoverageData Data = LoadedCoverage->getCoverageForFunction(FunctionRecord); std::vector Segments(Data.begin(), Data.end()); ASSERT_EQ(8U, Segments.size()); EXPECT_EQ(CoverageSegment(1, 1, 1, true), Segments[0]); EXPECT_EQ(CoverageSegment(2, 2, 2, true), Segments[1]); EXPECT_EQ(CoverageSegment(3, 3, 3, true), Segments[2]); EXPECT_EQ(CoverageSegment(4, 4, 2, false), Segments[3]); EXPECT_EQ(CoverageSegment(5, 5, 1, false), Segments[4]); EXPECT_EQ(CoverageSegment(6, 6, 4, true), Segments[5]); EXPECT_EQ(CoverageSegment(7, 7, 1, false), Segments[6]); EXPECT_EQ(CoverageSegment(8, 8, false), Segments[7]); } TEST_P(CoverageMappingTest, expansion_gets_first_counter) { startFunction("func", 0x1234); addCMR(Counter::getCounter(1), "foo", 10, 1, 10, 2); // This starts earlier in "foo", so the expansion should get its counter. addCMR(Counter::getCounter(2), "foo", 1, 1, 20, 1); addExpansionCMR("bar", "foo", 3, 3, 3, 3); writeAndReadCoverageRegions(); ASSERT_EQ(1u, OutputFunctions.size()); OutputFunctionCoverageData &Output = OutputFunctions.back(); ASSERT_EQ(CounterMappingRegion::ExpansionRegion, Output.Regions[2].Kind); ASSERT_EQ(Counter::getCounter(2), Output.Regions[2].Count); ASSERT_EQ(3U, Output.Regions[2].LineStart); } TEST_P(CoverageMappingTest, basic_coverage_iteration) { ProfileWriter.addRecord({"func", 0x1234, {30, 20, 10, 0}}, Err); startFunction("func", 0x1234); addCMR(Counter::getCounter(0), "file1", 1, 1, 9, 9); addCMR(Counter::getCounter(1), "file1", 1, 1, 4, 7); addCMR(Counter::getCounter(2), "file1", 5, 8, 9, 1); addCMR(Counter::getCounter(3), "file1", 10, 10, 11, 11); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); CoverageData Data = LoadedCoverage->getCoverageForFile("file1"); std::vector Segments(Data.begin(), Data.end()); ASSERT_EQ(7U, Segments.size()); ASSERT_EQ(CoverageSegment(1, 1, 20, true), Segments[0]); ASSERT_EQ(CoverageSegment(4, 7, 30, false), Segments[1]); ASSERT_EQ(CoverageSegment(5, 8, 10, true), Segments[2]); ASSERT_EQ(CoverageSegment(9, 1, 30, false), Segments[3]); ASSERT_EQ(CoverageSegment(9, 9, false), Segments[4]); ASSERT_EQ(CoverageSegment(10, 10, 0, true), Segments[5]); ASSERT_EQ(CoverageSegment(11, 11, false), Segments[6]); } TEST_P(CoverageMappingTest, test_line_coverage_iterator) { ProfileWriter.addRecord({"func", 0x1234, {30, 20, 10, 0}}, Err); startFunction("func", 0x1234); addCMR(Counter::getCounter(0), "file1", 1, 1, 9, 9); addCMR(Counter::getCounter(1), "file1", 1, 1, 4, 7); addCMR(Counter::getCounter(2), "file1", 5, 8, 9, 1); addCMR(Counter::getCounter(3), "file1", 10, 10, 11, 11); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); CoverageData Data = LoadedCoverage->getCoverageForFile("file1"); unsigned Line = 0; unsigned LineCounts[] = {20, 20, 20, 20, 30, 10, 10, 10, 10, 0, 0}; for (const auto &LCS : getLineCoverageStats(Data)) { ASSERT_EQ(Line + 1, LCS.getLine()); errs() << "Line: " << Line + 1 << ", count = " << LCS.getExecutionCount() << "\n"; ASSERT_EQ(LineCounts[Line], LCS.getExecutionCount()); ++Line; } ASSERT_EQ(11U, Line); } TEST_P(CoverageMappingTest, uncovered_function) { startFunction("func", 0x1234); addCMR(Counter::getZero(), "file1", 1, 2, 3, 4); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); CoverageData Data = LoadedCoverage->getCoverageForFile("file1"); std::vector Segments(Data.begin(), Data.end()); ASSERT_EQ(2U, Segments.size()); ASSERT_EQ(CoverageSegment(1, 2, 0, true), Segments[0]); ASSERT_EQ(CoverageSegment(3, 4, false), Segments[1]); } TEST_P(CoverageMappingTest, uncovered_function_with_mapping) { startFunction("func", 0x1234); addCMR(Counter::getCounter(0), "file1", 1, 1, 9, 9); addCMR(Counter::getCounter(1), "file1", 1, 1, 4, 7); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); CoverageData Data = LoadedCoverage->getCoverageForFile("file1"); std::vector Segments(Data.begin(), Data.end()); ASSERT_EQ(3U, Segments.size()); ASSERT_EQ(CoverageSegment(1, 1, 0, true), Segments[0]); ASSERT_EQ(CoverageSegment(4, 7, 0, false), Segments[1]); ASSERT_EQ(CoverageSegment(9, 9, false), Segments[2]); } TEST_P(CoverageMappingTest, combine_regions) { ProfileWriter.addRecord({"func", 0x1234, {10, 20, 30}}, Err); startFunction("func", 0x1234); addCMR(Counter::getCounter(0), "file1", 1, 1, 9, 9); addCMR(Counter::getCounter(1), "file1", 3, 3, 4, 4); addCMR(Counter::getCounter(2), "file1", 3, 3, 4, 4); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); CoverageData Data = LoadedCoverage->getCoverageForFile("file1"); std::vector Segments(Data.begin(), Data.end()); ASSERT_EQ(4U, Segments.size()); ASSERT_EQ(CoverageSegment(1, 1, 10, true), Segments[0]); ASSERT_EQ(CoverageSegment(3, 3, 50, true), Segments[1]); ASSERT_EQ(CoverageSegment(4, 4, 10, false), Segments[2]); ASSERT_EQ(CoverageSegment(9, 9, false), Segments[3]); } TEST_P(CoverageMappingTest, restore_combined_counter_after_nested_region) { ProfileWriter.addRecord({"func", 0x1234, {10, 20, 40}}, Err); startFunction("func", 0x1234); addCMR(Counter::getCounter(0), "file1", 1, 1, 9, 9); addCMR(Counter::getCounter(1), "file1", 1, 1, 9, 9); addCMR(Counter::getCounter(2), "file1", 3, 3, 5, 5); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); CoverageData Data = LoadedCoverage->getCoverageForFile("file1"); std::vector Segments(Data.begin(), Data.end()); ASSERT_EQ(4U, Segments.size()); EXPECT_EQ(CoverageSegment(1, 1, 30, true), Segments[0]); EXPECT_EQ(CoverageSegment(3, 3, 40, true), Segments[1]); EXPECT_EQ(CoverageSegment(5, 5, 30, false), Segments[2]); EXPECT_EQ(CoverageSegment(9, 9, false), Segments[3]); } // If CodeRegions and ExpansionRegions cover the same area, // only counts of CodeRegions should be used. TEST_P(CoverageMappingTest, dont_combine_expansions) { ProfileWriter.addRecord({"func", 0x1234, {10, 20}}, Err); ProfileWriter.addRecord({"func", 0x1234, {0, 0}}, Err); startFunction("func", 0x1234); addCMR(Counter::getCounter(0), "file1", 1, 1, 9, 9); addCMR(Counter::getCounter(1), "file1", 3, 3, 4, 4); addCMR(Counter::getCounter(1), "include1", 6, 6, 7, 7); addExpansionCMR("file1", "include1", 3, 3, 4, 4); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); CoverageData Data = LoadedCoverage->getCoverageForFile("file1"); std::vector Segments(Data.begin(), Data.end()); ASSERT_EQ(4U, Segments.size()); ASSERT_EQ(CoverageSegment(1, 1, 10, true), Segments[0]); ASSERT_EQ(CoverageSegment(3, 3, 20, true), Segments[1]); ASSERT_EQ(CoverageSegment(4, 4, 10, false), Segments[2]); ASSERT_EQ(CoverageSegment(9, 9, false), Segments[3]); } // If an area is covered only by ExpansionRegions, they should be combinated. TEST_P(CoverageMappingTest, combine_expansions) { ProfileWriter.addRecord({"func", 0x1234, {2, 3, 7}}, Err); startFunction("func", 0x1234); addCMR(Counter::getCounter(1), "include1", 1, 1, 1, 10); addCMR(Counter::getCounter(2), "include2", 1, 1, 1, 10); addCMR(Counter::getCounter(0), "file", 1, 1, 5, 5); addExpansionCMR("file", "include1", 3, 1, 3, 5); addExpansionCMR("file", "include2", 3, 1, 3, 5); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); CoverageData Data = LoadedCoverage->getCoverageForFile("file"); std::vector Segments(Data.begin(), Data.end()); ASSERT_EQ(4U, Segments.size()); EXPECT_EQ(CoverageSegment(1, 1, 2, true), Segments[0]); EXPECT_EQ(CoverageSegment(3, 1, 10, true), Segments[1]); EXPECT_EQ(CoverageSegment(3, 5, 2, false), Segments[2]); EXPECT_EQ(CoverageSegment(5, 5, false), Segments[3]); } // Test that counters not associated with any code regions are allowed. TEST_P(CoverageMappingTest, non_code_region_counters) { // No records in profdata startFunction("func", 0x1234); addCMR(Counter::getCounter(0), "file", 1, 1, 5, 5); addCMR(Counter::getExpression(0), "file", 6, 1, 6, 5); addExpression(CounterExpression( CounterExpression::Add, Counter::getCounter(1), Counter::getCounter(2))); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); std::vector Names; for (const auto &Func : LoadedCoverage->getCoveredFunctions()) { Names.push_back(Func.Name); ASSERT_EQ(2U, Func.CountedRegions.size()); } ASSERT_EQ(1U, Names.size()); } TEST_P(CoverageMappingTest, strip_filename_prefix) { ProfileWriter.addRecord({"file1:func", 0x1234, {0}}, Err); startFunction("file1:func", 0x1234); addCMR(Counter::getCounter(0), "file1", 1, 1, 9, 9); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); std::vector Names; for (const auto &Func : LoadedCoverage->getCoveredFunctions()) Names.push_back(Func.Name); ASSERT_EQ(1U, Names.size()); ASSERT_EQ("func", Names[0]); } TEST_P(CoverageMappingTest, strip_unknown_filename_prefix) { ProfileWriter.addRecord({":func", 0x1234, {0}}, Err); startFunction(":func", 0x1234); addCMR(Counter::getCounter(0), "", 1, 1, 9, 9); EXPECT_THAT_ERROR(loadCoverageMapping(/*EmitFilenames=*/false), Succeeded()); std::vector Names; for (const auto &Func : LoadedCoverage->getCoveredFunctions()) Names.push_back(Func.Name); ASSERT_EQ(1U, Names.size()); ASSERT_EQ("func", Names[0]); } TEST_P(CoverageMappingTest, dont_detect_false_instantiations) { ProfileWriter.addRecord({"foo", 0x1234, {10}}, Err); ProfileWriter.addRecord({"bar", 0x2345, {20}}, Err); startFunction("foo", 0x1234); addCMR(Counter::getCounter(0), "expanded", 1, 1, 1, 10); addExpansionCMR("main", "expanded", 4, 1, 4, 5); startFunction("bar", 0x2345); addCMR(Counter::getCounter(0), "expanded", 1, 1, 1, 10); addExpansionCMR("main", "expanded", 9, 1, 9, 5); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); std::vector InstantiationGroups = LoadedCoverage->getInstantiationGroups("expanded"); ASSERT_TRUE(InstantiationGroups.empty()); } TEST_P(CoverageMappingTest, load_coverage_for_expanded_file) { ProfileWriter.addRecord({"func", 0x1234, {10}}, Err); startFunction("func", 0x1234); addCMR(Counter::getCounter(0), "expanded", 1, 1, 1, 10); addExpansionCMR("main", "expanded", 4, 1, 4, 5); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); CoverageData Data = LoadedCoverage->getCoverageForFile("expanded"); std::vector Segments(Data.begin(), Data.end()); ASSERT_EQ(2U, Segments.size()); EXPECT_EQ(CoverageSegment(1, 1, 10, true), Segments[0]); EXPECT_EQ(CoverageSegment(1, 10, false), Segments[1]); } TEST_P(CoverageMappingTest, skip_duplicate_function_record) { ProfileWriter.addRecord({"func", 0x1234, {1}}, Err); // This record should be loaded. startFunction("func", 0x1234); addCMR(Counter::getCounter(0), "file1", 1, 1, 9, 9); // This record should be loaded. startFunction("func", 0x1234); addCMR(Counter::getCounter(0), "file1", 1, 1, 9, 9); addCMR(Counter::getCounter(0), "file2", 1, 1, 9, 9); // This record should be skipped. startFunction("func", 0x1234); addCMR(Counter::getCounter(0), "file1", 1, 1, 9, 9); // This record should be loaded. startFunction("func", 0x1234); addCMR(Counter::getCounter(0), "file2", 1, 1, 9, 9); addCMR(Counter::getCounter(0), "file1", 1, 1, 9, 9); // This record should be skipped. startFunction("func", 0x1234); addCMR(Counter::getCounter(0), "file1", 1, 1, 9, 9); addCMR(Counter::getCounter(0), "file2", 1, 1, 9, 9); EXPECT_THAT_ERROR(loadCoverageMapping(), Succeeded()); auto Funcs = LoadedCoverage->getCoveredFunctions(); unsigned NumFuncs = std::distance(Funcs.begin(), Funcs.end()); ASSERT_EQ(3U, NumFuncs); } INSTANTIATE_TEST_SUITE_P(ParameterizedCovMapTest, CoverageMappingTest, ::testing::Combine(::testing::Bool(), ::testing::Bool())); TEST(CoverageMappingTest, filename_roundtrip) { std::vector Paths({"dir", "a", "b", "c", "d", "e"}); for (bool Compress : {false, true}) { std::string EncodedFilenames; { raw_string_ostream OS(EncodedFilenames); CoverageFilenamesSectionWriter Writer(Paths); Writer.write(OS, Compress); } std::vector ReadFilenames; RawCoverageFilenamesReader Reader(EncodedFilenames, ReadFilenames); EXPECT_THAT_ERROR(Reader.read(CovMapVersion::CurrentVersion), Succeeded()); ASSERT_EQ(ReadFilenames.size(), Paths.size()); for (unsigned I = 1; I < Paths.size(); ++I) { SmallString<256> P(Paths[0]); llvm::sys::path::append(P, Paths[I]); ASSERT_TRUE(ReadFilenames[I] == P); } } } TEST(CoverageMappingTest, filename_compilation_dir) { std::vector Paths({"dir", "a", "b", "c", "d", "e"}); for (bool Compress : {false, true}) { std::string EncodedFilenames; { raw_string_ostream OS(EncodedFilenames); CoverageFilenamesSectionWriter Writer(Paths); Writer.write(OS, Compress); } StringRef CompilationDir = "out"; std::vector ReadFilenames; RawCoverageFilenamesReader Reader(EncodedFilenames, ReadFilenames, CompilationDir); EXPECT_THAT_ERROR(Reader.read(CovMapVersion::CurrentVersion), Succeeded()); ASSERT_EQ(ReadFilenames.size(), Paths.size()); for (unsigned I = 1; I < Paths.size(); ++I) { SmallString<256> P(CompilationDir); llvm::sys::path::append(P, Paths[I]); ASSERT_TRUE(ReadFilenames[I] == P); } } } } // end anonymous namespace