llvm-project/llvm/tools/llvm-cov/CoverageReport.cpp

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//===- CoverageReport.cpp - Code coverage report -------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This class implements rendering of a code coverage report.
//
//===----------------------------------------------------------------------===//
#include "CoverageReport.h"
#include "RenderingSupport.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/Format.h"
#include "llvm/Support/Path.h"
#include <numeric>
using namespace llvm;
namespace {
/// \brief Helper struct which prints trimmed and aligned columns.
struct Column {
enum TrimKind { NoTrim, WidthTrim, RightTrim };
enum AlignmentKind { LeftAlignment, RightAlignment };
StringRef Str;
unsigned Width;
TrimKind Trim;
AlignmentKind Alignment;
Column(StringRef Str, unsigned Width)
: Str(Str), Width(Width), Trim(WidthTrim), Alignment(LeftAlignment) {}
Column &set(TrimKind Value) {
Trim = Value;
return *this;
}
Column &set(AlignmentKind Value) {
Alignment = Value;
return *this;
}
void render(raw_ostream &OS) const {
if (Str.size() <= Width) {
if (Alignment == RightAlignment) {
OS.indent(Width - Str.size());
OS << Str;
return;
}
OS << Str;
OS.indent(Width - Str.size());
return;
}
switch (Trim) {
case NoTrim:
OS << Str;
break;
case WidthTrim:
OS << Str.substr(0, Width);
break;
case RightTrim:
OS << Str.substr(0, Width - 3) << "...";
break;
}
}
};
raw_ostream &operator<<(raw_ostream &OS, const Column &Value) {
Value.render(OS);
return OS;
}
Column column(StringRef Str, unsigned Width) { return Column(Str, Width); }
template <typename T>
Column column(StringRef Str, unsigned Width, const T &Value) {
return Column(Str, Width).set(Value);
}
// Specify the default column widths.
size_t FileReportColumns[] = {25, 12, 18, 10, 12, 18, 10, 12, 18, 10};
size_t FunctionReportColumns[] = {25, 10, 8, 8, 10, 8, 8};
/// \brief Adjust column widths to fit long file paths and function names.
void adjustColumnWidths(ArrayRef<StringRef> Files,
ArrayRef<StringRef> Functions) {
for (StringRef Filename : Files)
FileReportColumns[0] = std::max(FileReportColumns[0], Filename.size());
for (StringRef Funcname : Functions)
FunctionReportColumns[0] =
std::max(FunctionReportColumns[0], Funcname.size());
}
/// \brief Prints a horizontal divider long enough to cover the given column
/// widths.
void renderDivider(ArrayRef<size_t> ColumnWidths, raw_ostream &OS) {
size_t Length = std::accumulate(ColumnWidths.begin(), ColumnWidths.end(), 0);
for (size_t I = 0; I < Length; ++I)
OS << '-';
}
/// \brief Return the color which correponds to the coverage percentage of a
/// certain metric.
template <typename T>
raw_ostream::Colors determineCoveragePercentageColor(const T &Info) {
if (Info.isFullyCovered())
return raw_ostream::GREEN;
return Info.getPercentCovered() >= 80.0 ? raw_ostream::YELLOW
: raw_ostream::RED;
}
/// \brief Determine the length of the longest common prefix of the strings in
/// \p Strings.
unsigned getLongestCommonPrefixLen(ArrayRef<StringRef> Strings) {
unsigned LCP = Strings[0].size();
for (unsigned I = 1, E = Strings.size(); LCP > 0 && I < E; ++I) {
auto Mismatch =
std::mismatch(Strings[0].begin(), Strings[0].end(), Strings[I].begin())
.first;
LCP = std::min(LCP, (unsigned)std::distance(Strings[0].begin(), Mismatch));
}
return LCP;
}
} // end anonymous namespace
namespace llvm {
void CoverageReport::render(const FileCoverageSummary &File,
raw_ostream &OS) const {
auto FileCoverageColor =
determineCoveragePercentageColor(File.RegionCoverage);
auto FuncCoverageColor =
determineCoveragePercentageColor(File.FunctionCoverage);
auto LineCoverageColor = determineCoveragePercentageColor(File.LineCoverage);
SmallString<256> FileName = File.Name;
sys::path::remove_dots(FileName, /*remove_dot_dots=*/true);
sys::path::native(FileName);
OS << column(FileName, FileReportColumns[0], Column::NoTrim)
<< format("%*u", FileReportColumns[1],
(unsigned)File.RegionCoverage.NumRegions);
Options.colored_ostream(OS, FileCoverageColor) << format(
"%*u", FileReportColumns[2], (unsigned)File.RegionCoverage.NotCovered);
Options.colored_ostream(OS, FileCoverageColor)
<< format("%*.2f", FileReportColumns[3] - 1,
File.RegionCoverage.getPercentCovered())
<< '%';
OS << format("%*u", FileReportColumns[4],
(unsigned)File.FunctionCoverage.NumFunctions);
OS << format("%*u", FileReportColumns[5],
(unsigned)(File.FunctionCoverage.NumFunctions -
File.FunctionCoverage.Executed));
Options.colored_ostream(OS, FuncCoverageColor)
<< format("%*.2f", FileReportColumns[6] - 1,
File.FunctionCoverage.getPercentCovered())
<< '%';
OS << format("%*u", FileReportColumns[7],
(unsigned)File.LineCoverage.NumLines);
Options.colored_ostream(OS, LineCoverageColor) << format(
"%*u", FileReportColumns[8], (unsigned)File.LineCoverage.NotCovered);
Options.colored_ostream(OS, LineCoverageColor)
<< format("%*.2f", FileReportColumns[9] - 1,
File.LineCoverage.getPercentCovered())
<< '%';
OS << "\n";
}
void CoverageReport::render(const FunctionCoverageSummary &Function,
raw_ostream &OS) const {
auto FuncCoverageColor =
determineCoveragePercentageColor(Function.RegionCoverage);
auto LineCoverageColor =
determineCoveragePercentageColor(Function.LineCoverage);
OS << column(Function.Name, FunctionReportColumns[0], Column::RightTrim)
<< format("%*u", FunctionReportColumns[1],
(unsigned)Function.RegionCoverage.NumRegions);
Options.colored_ostream(OS, FuncCoverageColor)
<< format("%*u", FunctionReportColumns[2],
(unsigned)Function.RegionCoverage.NotCovered);
Options.colored_ostream(
OS, determineCoveragePercentageColor(Function.RegionCoverage))
<< format("%*.2f", FunctionReportColumns[3] - 1,
Function.RegionCoverage.getPercentCovered())
<< '%';
OS << format("%*u", FunctionReportColumns[4],
(unsigned)Function.LineCoverage.NumLines);
Options.colored_ostream(OS, LineCoverageColor)
<< format("%*u", FunctionReportColumns[5],
(unsigned)Function.LineCoverage.NotCovered);
Options.colored_ostream(
OS, determineCoveragePercentageColor(Function.LineCoverage))
<< format("%*.2f", FunctionReportColumns[6] - 1,
Function.LineCoverage.getPercentCovered())
<< '%';
OS << "\n";
}
void CoverageReport::renderFunctionReports(ArrayRef<StringRef> Files,
raw_ostream &OS) {
bool isFirst = true;
for (StringRef Filename : Files) {
auto Functions = Coverage.getCoveredFunctions(Filename);
if (isFirst)
isFirst = false;
else
OS << "\n";
std::vector<StringRef> Funcnames;
for (const auto &F : Functions)
Funcnames.emplace_back(F.Name);
adjustColumnWidths({}, Funcnames);
OS << "File '" << Filename << "':\n";
OS << column("Name", FunctionReportColumns[0])
<< column("Regions", FunctionReportColumns[1], Column::RightAlignment)
<< column("Miss", FunctionReportColumns[2], Column::RightAlignment)
<< column("Cover", FunctionReportColumns[3], Column::RightAlignment)
<< column("Lines", FunctionReportColumns[4], Column::RightAlignment)
<< column("Miss", FunctionReportColumns[5], Column::RightAlignment)
<< column("Cover", FunctionReportColumns[6], Column::RightAlignment);
OS << "\n";
renderDivider(FunctionReportColumns, OS);
OS << "\n";
FunctionCoverageSummary Totals("TOTAL");
for (const auto &F : Functions) {
FunctionCoverageSummary Function = FunctionCoverageSummary::get(F);
++Totals.ExecutionCount;
Totals.RegionCoverage += Function.RegionCoverage;
Totals.LineCoverage += Function.LineCoverage;
render(Function, OS);
}
if (Totals.ExecutionCount) {
renderDivider(FunctionReportColumns, OS);
OS << "\n";
render(Totals, OS);
}
}
}
std::vector<FileCoverageSummary>
CoverageReport::prepareFileReports(FileCoverageSummary &Totals,
ArrayRef<StringRef> Files) const {
std::vector<FileCoverageSummary> FileReports;
unsigned LCP = 0;
if (Files.size() > 1)
LCP = getLongestCommonPrefixLen(Files);
for (StringRef Filename : Files) {
FileCoverageSummary Summary(Filename.drop_front(LCP));
for (const auto &F : Coverage.getCoveredFunctions(Filename)) {
FunctionCoverageSummary Function = FunctionCoverageSummary::get(F);
Summary.addFunction(Function);
Totals.addFunction(Function);
}
FileReports.push_back(Summary);
}
return FileReports;
}
void CoverageReport::renderFileReports(raw_ostream &OS) const {
std::vector<StringRef> UniqueSourceFiles = Coverage.getUniqueSourceFiles();
renderFileReports(OS, UniqueSourceFiles);
}
void CoverageReport::renderFileReports(raw_ostream &OS,
ArrayRef<StringRef> Files) const {
FileCoverageSummary Totals("TOTAL");
auto FileReports = prepareFileReports(Totals, Files);
std::vector<StringRef> Filenames;
for (const FileCoverageSummary &FCS : FileReports)
Filenames.emplace_back(FCS.Name);
adjustColumnWidths(Filenames, {});
OS << column("Filename", FileReportColumns[0])
<< column("Regions", FileReportColumns[1], Column::RightAlignment)
<< column("Missed Regions", FileReportColumns[2], Column::RightAlignment)
<< column("Cover", FileReportColumns[3], Column::RightAlignment)
<< column("Functions", FileReportColumns[4], Column::RightAlignment)
<< column("Missed Functions", FileReportColumns[5], Column::RightAlignment)
<< column("Executed", FileReportColumns[6], Column::RightAlignment)
<< column("Lines", FileReportColumns[7], Column::RightAlignment)
<< column("Missed Lines", FileReportColumns[8], Column::RightAlignment)
<< column("Cover", FileReportColumns[9], Column::RightAlignment) << "\n";
renderDivider(FileReportColumns, OS);
OS << "\n";
for (const FileCoverageSummary &FCS : FileReports)
render(FCS, OS);
renderDivider(FileReportColumns, OS);
OS << "\n";
render(Totals, OS);
}
} // end namespace llvm