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llvm-mirror/tools/llvm-cov/SourceCoverageView.cpp
Vedant Kumar bab56aedc6 [llvm-cov] Use the coverage namespace. NFC.
This is a simple code cleanup. It will facilitate moving
LineCoverageIterator to libCoverage.

llvm-svn: 316140
2017-10-18 23:58:27 +00:00

256 lines
8.4 KiB
C++

//===- SourceCoverageView.cpp - Code coverage view for source code --------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
///
/// \file This class implements rendering for code coverage of source code.
///
//===----------------------------------------------------------------------===//
#include "SourceCoverageView.h"
#include "SourceCoverageViewHTML.h"
#include "SourceCoverageViewText.h"
#include "llvm/ADT/SmallString.h"
#include "llvm/ADT/StringExtras.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/LineIterator.h"
#include "llvm/Support/Path.h"
using namespace llvm;
void CoveragePrinter::StreamDestructor::operator()(raw_ostream *OS) const {
if (OS == &outs())
return;
delete OS;
}
std::string CoveragePrinter::getOutputPath(StringRef Path, StringRef Extension,
bool InToplevel,
bool Relative) const {
assert(Extension.size() && "The file extension may not be empty");
SmallString<256> FullPath;
if (!Relative)
FullPath.append(Opts.ShowOutputDirectory);
if (!InToplevel)
sys::path::append(FullPath, getCoverageDir());
SmallString<256> ParentPath = sys::path::parent_path(Path);
sys::path::remove_dots(ParentPath, /*remove_dot_dots=*/true);
sys::path::append(FullPath, sys::path::relative_path(ParentPath));
auto PathFilename = (sys::path::filename(Path) + "." + Extension).str();
sys::path::append(FullPath, PathFilename);
sys::path::native(FullPath);
return FullPath.str();
}
Expected<CoveragePrinter::OwnedStream>
CoveragePrinter::createOutputStream(StringRef Path, StringRef Extension,
bool InToplevel) const {
if (!Opts.hasOutputDirectory())
return OwnedStream(&outs());
std::string FullPath = getOutputPath(Path, Extension, InToplevel, false);
auto ParentDir = sys::path::parent_path(FullPath);
if (auto E = sys::fs::create_directories(ParentDir))
return errorCodeToError(E);
std::error_code E;
raw_ostream *RawStream = new raw_fd_ostream(FullPath, E, sys::fs::F_RW);
auto OS = CoveragePrinter::OwnedStream(RawStream);
if (E)
return errorCodeToError(E);
return std::move(OS);
}
std::unique_ptr<CoveragePrinter>
CoveragePrinter::create(const CoverageViewOptions &Opts) {
switch (Opts.Format) {
case CoverageViewOptions::OutputFormat::Text:
return llvm::make_unique<CoveragePrinterText>(Opts);
case CoverageViewOptions::OutputFormat::HTML:
return llvm::make_unique<CoveragePrinterHTML>(Opts);
}
llvm_unreachable("Unknown coverage output format!");
}
unsigned SourceCoverageView::getFirstUncoveredLineNo() {
const auto MinSegIt = find_if(CoverageInfo, [](const CoverageSegment &S) {
return S.HasCount && S.Count == 0;
});
// There is no uncovered line, return zero.
if (MinSegIt == CoverageInfo.end())
return 0;
return (*MinSegIt).Line;
}
std::string SourceCoverageView::formatCount(uint64_t N) {
std::string Number = utostr(N);
int Len = Number.size();
if (Len <= 3)
return Number;
int IntLen = Len % 3 == 0 ? 3 : Len % 3;
std::string Result(Number.data(), IntLen);
if (IntLen != 3) {
Result.push_back('.');
Result += Number.substr(IntLen, 3 - IntLen);
}
Result.push_back(" kMGTPEZY"[(Len - 1) / 3]);
return Result;
}
bool SourceCoverageView::shouldRenderRegionMarkers(
CoverageSegmentArray Segments) const {
if (!getOptions().ShowRegionMarkers)
return false;
// Render the region markers if there's more than one count to show.
unsigned RegionCount = 0;
for (const auto *S : Segments)
if (S->IsRegionEntry)
if (++RegionCount > 1)
return true;
return false;
}
bool SourceCoverageView::hasSubViews() const {
return !ExpansionSubViews.empty() || !InstantiationSubViews.empty();
}
std::unique_ptr<SourceCoverageView>
SourceCoverageView::create(StringRef SourceName, const MemoryBuffer &File,
const CoverageViewOptions &Options,
CoverageData &&CoverageInfo) {
switch (Options.Format) {
case CoverageViewOptions::OutputFormat::Text:
return llvm::make_unique<SourceCoverageViewText>(
SourceName, File, Options, std::move(CoverageInfo));
case CoverageViewOptions::OutputFormat::HTML:
return llvm::make_unique<SourceCoverageViewHTML>(
SourceName, File, Options, std::move(CoverageInfo));
}
llvm_unreachable("Unknown coverage output format!");
}
std::string SourceCoverageView::getSourceName() const {
SmallString<128> SourceText(SourceName);
sys::path::remove_dots(SourceText, /*remove_dot_dots=*/true);
sys::path::native(SourceText);
return SourceText.str();
}
void SourceCoverageView::addExpansion(
const CounterMappingRegion &Region,
std::unique_ptr<SourceCoverageView> View) {
ExpansionSubViews.emplace_back(Region, std::move(View));
}
void SourceCoverageView::addInstantiation(
StringRef FunctionName, unsigned Line,
std::unique_ptr<SourceCoverageView> View) {
InstantiationSubViews.emplace_back(FunctionName, Line, std::move(View));
}
void SourceCoverageView::print(raw_ostream &OS, bool WholeFile,
bool ShowSourceName, bool ShowTitle,
unsigned ViewDepth) {
if (ShowTitle)
renderTitle(OS, "Coverage Report");
renderViewHeader(OS);
if (ShowSourceName)
renderSourceName(OS, WholeFile);
renderTableHeader(OS, (ViewDepth > 0) ? 0 : getFirstUncoveredLineNo(),
ViewDepth);
// We need the expansions and instantiations sorted so we can go through them
// while we iterate lines.
std::sort(ExpansionSubViews.begin(), ExpansionSubViews.end());
std::sort(InstantiationSubViews.begin(), InstantiationSubViews.end());
auto NextESV = ExpansionSubViews.begin();
auto EndESV = ExpansionSubViews.end();
auto NextISV = InstantiationSubViews.begin();
auto EndISV = InstantiationSubViews.end();
// Get the coverage information for the file.
auto StartSegment = CoverageInfo.begin();
auto EndSegment = CoverageInfo.end();
LineCoverageIterator LCI{CoverageInfo, 1};
LineCoverageIterator LCIEnd = LCI.getEnd();
unsigned FirstLine = StartSegment != EndSegment ? StartSegment->Line : 0;
for (line_iterator LI(File, /*SkipBlanks=*/false); !LI.is_at_eof();
++LI, ++LCI) {
// If we aren't rendering the whole file, we need to filter out the prologue
// and epilogue.
if (!WholeFile) {
if (LCI == LCIEnd)
break;
else if (LI.line_number() < FirstLine)
continue;
}
renderLinePrefix(OS, ViewDepth);
if (getOptions().ShowLineNumbers)
renderLineNumberColumn(OS, LI.line_number());
if (getOptions().ShowLineStats)
renderLineCoverageColumn(OS, *LCI);
// If there are expansion subviews, we want to highlight the first one.
unsigned ExpansionColumn = 0;
if (NextESV != EndESV && NextESV->getLine() == LI.line_number() &&
getOptions().Colors)
ExpansionColumn = NextESV->getStartCol();
// Display the source code for the current line.
renderLine(OS, {*LI, LI.line_number()}, *LCI, ExpansionColumn, ViewDepth);
// Show the region markers.
if (shouldRenderRegionMarkers(LCI->getLineSegments()))
renderRegionMarkers(OS, *LCI, ViewDepth);
// Show the expansions and instantiations for this line.
bool RenderedSubView = false;
for (; NextESV != EndESV && NextESV->getLine() == LI.line_number();
++NextESV) {
renderViewDivider(OS, ViewDepth + 1);
// Re-render the current line and highlight the expansion range for
// this subview.
if (RenderedSubView) {
ExpansionColumn = NextESV->getStartCol();
renderExpansionSite(OS, {*LI, LI.line_number()}, *LCI, ExpansionColumn,
ViewDepth);
renderViewDivider(OS, ViewDepth + 1);
}
renderExpansionView(OS, *NextESV, ViewDepth + 1);
RenderedSubView = true;
}
for (; NextISV != EndISV && NextISV->Line == LI.line_number(); ++NextISV) {
renderViewDivider(OS, ViewDepth + 1);
renderInstantiationView(OS, *NextISV, ViewDepth + 1);
RenderedSubView = true;
}
if (RenderedSubView)
renderViewDivider(OS, ViewDepth + 1);
renderLineSuffix(OS, ViewDepth);
}
renderViewFooter(OS);
}