//===- SourceCoverageViewText.cpp - A text-based code coverage view -------===// // // 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 // //===----------------------------------------------------------------------===// /// /// \file This file implements the text-based coverage renderer. /// //===----------------------------------------------------------------------===// #include "SourceCoverageViewText.h" #include "CoverageReport.h" #include "llvm/ADT/SmallString.h" #include "llvm/ADT/StringExtras.h" #include "llvm/Support/FileSystem.h" #include "llvm/Support/Format.h" #include "llvm/Support/Path.h" #include using namespace llvm; Expected CoveragePrinterText::createViewFile(StringRef Path, bool InToplevel) { return createOutputStream(Path, "txt", InToplevel); } void CoveragePrinterText::closeViewFile(OwnedStream OS) { OS->operator<<('\n'); } Error CoveragePrinterText::createIndexFile( ArrayRef SourceFiles, const CoverageMapping &Coverage, const CoverageFiltersMatchAll &Filters) { auto OSOrErr = createOutputStream("index", "txt", /*InToplevel=*/true); if (Error E = OSOrErr.takeError()) return E; auto OS = std::move(OSOrErr.get()); raw_ostream &OSRef = *OS.get(); CoverageReport Report(Opts, Coverage); Report.renderFileReports(OSRef, SourceFiles, Filters); Opts.colored_ostream(OSRef, raw_ostream::CYAN) << "\n" << Opts.getLLVMVersionString(); return Error::success(); } struct CoveragePrinterTextDirectory::Reporter : public DirectoryCoverageReport { CoveragePrinterTextDirectory &Printer; Reporter(CoveragePrinterTextDirectory &Printer, const coverage::CoverageMapping &Coverage, const CoverageFiltersMatchAll &Filters) : DirectoryCoverageReport(Printer.Opts, Coverage, Filters), Printer(Printer) {} Error generateSubDirectoryReport(SubFileReports &&SubFiles, SubDirReports &&SubDirs, FileCoverageSummary &&SubTotals) override { auto &LCPath = SubTotals.Name; assert(Options.hasOutputDirectory() && "No output directory for index file"); SmallString<128> OSPath = LCPath; sys::path::append(OSPath, "index"); auto OSOrErr = Printer.createOutputStream(OSPath, "txt", /*InToplevel=*/false); if (auto E = OSOrErr.takeError()) return E; auto OS = std::move(OSOrErr.get()); raw_ostream &OSRef = *OS.get(); std::vector Reports; for (auto &&SubDir : SubDirs) Reports.push_back(std::move(SubDir.second.first)); for (auto &&SubFile : SubFiles) Reports.push_back(std::move(SubFile.second)); CoverageReport Report(Options, Coverage); Report.renderFileReports(OSRef, Reports, SubTotals, Filters.empty()); Options.colored_ostream(OSRef, raw_ostream::CYAN) << "\n" << Options.getLLVMVersionString(); return Error::success(); } }; Error CoveragePrinterTextDirectory::createIndexFile( ArrayRef SourceFiles, const CoverageMapping &Coverage, const CoverageFiltersMatchAll &Filters) { if (SourceFiles.size() <= 1) return CoveragePrinterText::createIndexFile(SourceFiles, Coverage, Filters); Reporter Report(*this, Coverage, Filters); auto TotalsOrErr = Report.prepareDirectoryReports(SourceFiles); if (auto E = TotalsOrErr.takeError()) return E; auto &LCPath = TotalsOrErr->Name; auto TopIndexFilePath = getOutputPath("index", "txt", /*InToplevel=*/true, /*Relative=*/false); auto LCPIndexFilePath = getOutputPath((LCPath + "index").str(), "txt", /*InToplevel=*/false, /*Relative=*/false); return errorCodeToError( sys::fs::copy_file(LCPIndexFilePath, TopIndexFilePath)); } namespace { static const unsigned LineCoverageColumnWidth = 7; static const unsigned LineNumberColumnWidth = 5; /// Get the width of the leading columns. unsigned getCombinedColumnWidth(const CoverageViewOptions &Opts) { return (Opts.ShowLineStats ? LineCoverageColumnWidth + 1 : 0) + (Opts.ShowLineNumbers ? LineNumberColumnWidth + 1 : 0); } /// The width of the line that is used to divide between the view and /// the subviews. unsigned getDividerWidth(const CoverageViewOptions &Opts) { return getCombinedColumnWidth(Opts) + 4; } } // anonymous namespace void SourceCoverageViewText::renderViewHeader(raw_ostream &) {} void SourceCoverageViewText::renderViewFooter(raw_ostream &) {} void SourceCoverageViewText::renderSourceName(raw_ostream &OS, bool WholeFile) { getOptions().colored_ostream(OS, raw_ostream::CYAN) << getSourceName() << ":\n"; } void SourceCoverageViewText::renderLinePrefix(raw_ostream &OS, unsigned ViewDepth) { for (unsigned I = 0; I < ViewDepth; ++I) OS << " |"; } void SourceCoverageViewText::renderLineSuffix(raw_ostream &, unsigned) {} void SourceCoverageViewText::renderViewDivider(raw_ostream &OS, unsigned ViewDepth) { assert(ViewDepth != 0 && "Cannot render divider at top level"); renderLinePrefix(OS, ViewDepth - 1); OS.indent(2); unsigned Length = getDividerWidth(getOptions()); for (unsigned I = 0; I < Length; ++I) OS << '-'; OS << '\n'; } void SourceCoverageViewText::renderLine(raw_ostream &OS, LineRef L, const LineCoverageStats &LCS, unsigned ExpansionCol, unsigned ViewDepth) { StringRef Line = L.Line; unsigned LineNumber = L.LineNo; auto *WrappedSegment = LCS.getWrappedSegment(); CoverageSegmentArray Segments = LCS.getLineSegments(); std::optional Highlight; SmallVector, 2> HighlightedRanges; // The first segment overlaps from a previous line, so we treat it specially. if (WrappedSegment && !WrappedSegment->IsGapRegion && WrappedSegment->HasCount && WrappedSegment->Count == 0) Highlight = raw_ostream::RED; // Output each segment of the line, possibly highlighted. unsigned Col = 1; for (const auto *S : Segments) { unsigned End = std::min(S->Col, static_cast(Line.size()) + 1); colored_ostream(OS, Highlight ? *Highlight : raw_ostream::SAVEDCOLOR, getOptions().Colors && Highlight, /*Bold=*/false, /*BG=*/true) << Line.substr(Col - 1, End - Col); if (getOptions().Debug && Highlight) HighlightedRanges.push_back(std::make_pair(Col, End)); Col = End; if ((!S->IsGapRegion || (Highlight && *Highlight == raw_ostream::RED)) && S->HasCount && S->Count == 0) Highlight = raw_ostream::RED; else if (Col == ExpansionCol) Highlight = raw_ostream::CYAN; else Highlight = std::nullopt; } // Show the rest of the line. colored_ostream(OS, Highlight ? *Highlight : raw_ostream::SAVEDCOLOR, getOptions().Colors && Highlight, /*Bold=*/false, /*BG=*/true) << Line.substr(Col - 1, Line.size() - Col + 1); OS << '\n'; if (getOptions().Debug) { for (const auto &Range : HighlightedRanges) errs() << "Highlighted line " << LineNumber << ", " << Range.first << " -> " << Range.second << '\n'; if (Highlight) errs() << "Highlighted line " << LineNumber << ", " << Col << " -> ?\n"; } } void SourceCoverageViewText::renderLineCoverageColumn( raw_ostream &OS, const LineCoverageStats &Line) { if (!Line.isMapped()) { OS.indent(LineCoverageColumnWidth) << '|'; return; } std::string C = formatCount(Line.getExecutionCount()); OS.indent(LineCoverageColumnWidth - C.size()); colored_ostream(OS, raw_ostream::MAGENTA, Line.hasMultipleRegions() && getOptions().Colors) << C; OS << '|'; } void SourceCoverageViewText::renderLineNumberColumn(raw_ostream &OS, unsigned LineNo) { SmallString<32> Buffer; raw_svector_ostream BufferOS(Buffer); BufferOS << LineNo; auto Str = BufferOS.str(); // Trim and align to the right. Str = Str.substr(0, std::min(Str.size(), (size_t)LineNumberColumnWidth)); OS.indent(LineNumberColumnWidth - Str.size()) << Str << '|'; } void SourceCoverageViewText::renderRegionMarkers(raw_ostream &OS, const LineCoverageStats &Line, unsigned ViewDepth) { renderLinePrefix(OS, ViewDepth); OS.indent(getCombinedColumnWidth(getOptions())); CoverageSegmentArray Segments = Line.getLineSegments(); // Just consider the segments which start *and* end on this line. if (Segments.size() > 1) Segments = Segments.drop_back(); unsigned PrevColumn = 1; for (const auto *S : Segments) { if (!S->IsRegionEntry) continue; if (S->Count == Line.getExecutionCount()) continue; // Skip to the new region. if (S->Col > PrevColumn) OS.indent(S->Col - PrevColumn); PrevColumn = S->Col + 1; std::string C = formatCount(S->Count); PrevColumn += C.size(); OS << '^' << C; if (getOptions().Debug) errs() << "Marker at " << S->Line << ":" << S->Col << " = " << formatCount(S->Count) << "\n"; } OS << '\n'; } void SourceCoverageViewText::renderExpansionSite(raw_ostream &OS, LineRef L, const LineCoverageStats &LCS, unsigned ExpansionCol, unsigned ViewDepth) { renderLinePrefix(OS, ViewDepth); OS.indent(getCombinedColumnWidth(getOptions()) + (ViewDepth == 0 ? 0 : 1)); renderLine(OS, L, LCS, ExpansionCol, ViewDepth); } void SourceCoverageViewText::renderExpansionView(raw_ostream &OS, ExpansionView &ESV, unsigned ViewDepth) { // Render the child subview. if (getOptions().Debug) errs() << "Expansion at line " << ESV.getLine() << ", " << ESV.getStartCol() << " -> " << ESV.getEndCol() << '\n'; ESV.View->print(OS, /*WholeFile=*/false, /*ShowSourceName=*/false, /*ShowTitle=*/false, ViewDepth + 1); } void SourceCoverageViewText::renderBranchView(raw_ostream &OS, BranchView &BRV, unsigned ViewDepth) { // Render the child subview. if (getOptions().Debug) errs() << "Branch at line " << BRV.getLine() << '\n'; for (const auto &R : BRV.Regions) { double TruePercent = 0.0; double FalsePercent = 0.0; // FIXME: It may overflow when the data is too large, but I have not // encountered it in actual use, and not sure whether to use __uint128_t. uint64_t Total = R.ExecutionCount + R.FalseExecutionCount; if (!getOptions().ShowBranchCounts && Total != 0) { TruePercent = ((double)(R.ExecutionCount) / (double)Total) * 100.0; FalsePercent = ((double)(R.FalseExecutionCount) / (double)Total) * 100.0; } renderLinePrefix(OS, ViewDepth); OS << " Branch (" << R.LineStart << ":" << R.ColumnStart << "): ["; if (R.Folded) { OS << "Folded - Ignored]\n"; continue; } colored_ostream(OS, raw_ostream::RED, getOptions().Colors && !R.ExecutionCount, /*Bold=*/false, /*BG=*/true) << "True"; if (getOptions().ShowBranchCounts) OS << ": " << formatCount(R.ExecutionCount) << ", "; else OS << ": " << format("%0.2f", TruePercent) << "%, "; colored_ostream(OS, raw_ostream::RED, getOptions().Colors && !R.FalseExecutionCount, /*Bold=*/false, /*BG=*/true) << "False"; if (getOptions().ShowBranchCounts) OS << ": " << formatCount(R.FalseExecutionCount); else OS << ": " << format("%0.2f", FalsePercent) << "%"; OS << "]\n"; } } void SourceCoverageViewText::renderMCDCView(raw_ostream &OS, MCDCView &MRV, unsigned ViewDepth) { for (auto &Record : MRV.Records) { renderLinePrefix(OS, ViewDepth); OS << "---> MC/DC Decision Region ("; // Display Line + Column information. const CounterMappingRegion &DecisionRegion = Record.getDecisionRegion(); OS << DecisionRegion.LineStart << ":"; OS << DecisionRegion.ColumnStart << ") to ("; OS << DecisionRegion.LineEnd << ":"; OS << DecisionRegion.ColumnEnd << ")\n"; renderLinePrefix(OS, ViewDepth); OS << "\n"; // Display MC/DC Information. renderLinePrefix(OS, ViewDepth); OS << " Number of Conditions: " << Record.getNumConditions() << "\n"; for (unsigned i = 0; i < Record.getNumConditions(); i++) { renderLinePrefix(OS, ViewDepth); OS << " " << Record.getConditionHeaderString(i); } renderLinePrefix(OS, ViewDepth); OS << "\n"; renderLinePrefix(OS, ViewDepth); OS << " Executed MC/DC Test Vectors:\n"; renderLinePrefix(OS, ViewDepth); OS << "\n"; renderLinePrefix(OS, ViewDepth); OS << " "; OS << Record.getTestVectorHeaderString(); for (unsigned i = 0; i < Record.getNumTestVectors(); i++) { renderLinePrefix(OS, ViewDepth); OS << Record.getTestVectorString(i); } renderLinePrefix(OS, ViewDepth); OS << "\n"; for (unsigned i = 0; i < Record.getNumConditions(); i++) { renderLinePrefix(OS, ViewDepth); OS << Record.getConditionCoverageString(i); } renderLinePrefix(OS, ViewDepth); OS << " MC/DC Coverage for Decision: "; colored_ostream(OS, raw_ostream::RED, getOptions().Colors && Record.getPercentCovered() < 100.0, /*Bold=*/false, /*BG=*/true) << format("%0.2f", Record.getPercentCovered()) << "%"; OS << "\n"; renderLinePrefix(OS, ViewDepth); OS << "\n"; } } void SourceCoverageViewText::renderInstantiationView(raw_ostream &OS, InstantiationView &ISV, unsigned ViewDepth) { renderLinePrefix(OS, ViewDepth); OS << ' '; if (!ISV.View) getOptions().colored_ostream(OS, raw_ostream::RED) << "Unexecuted instantiation: " << ISV.FunctionName << "\n"; else ISV.View->print(OS, /*WholeFile=*/false, /*ShowSourceName=*/true, /*ShowTitle=*/false, ViewDepth); } void SourceCoverageViewText::renderTitle(raw_ostream &OS, StringRef Title) { if (getOptions().hasProjectTitle()) getOptions().colored_ostream(OS, raw_ostream::CYAN) << getOptions().ProjectTitle << "\n"; getOptions().colored_ostream(OS, raw_ostream::CYAN) << Title << "\n"; if (getOptions().hasCreatedTime()) getOptions().colored_ostream(OS, raw_ostream::CYAN) << getOptions().CreatedTimeStr << "\n"; } void SourceCoverageViewText::renderTableHeader(raw_ostream &, unsigned) {}