llvm-mirror/tools/llvm-cov/SourceCoverageView.cpp
Zachary Turner 2f6a8ddfe8 [FileSystem] Split up the OpenFlags enumeration.
This breaks the OpenFlags enumeration into two separate
enumerations: OpenFlags and CreationDisposition.  The first
controls the behavior of the API depending on whether or not
the target file already exists, and is not a flags-based
enum.  The second controls more flags-like values.

This yields a more easy to understand API, while also allowing
flags to be passed to the openForRead api, where most of the
values didn't make sense before.  This also makes the apis more
testable as it becomes easy to enumerate all the configurations
which make sense, so I've added many new tests to exercise all
the different values.

llvm-svn: 334221
2018-06-07 19:58:58 +00:00

260 lines
8.5 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::FA_Read | sys::fs::FA_Write);
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(
const LineCoverageStats &LCS) const {
if (!getOptions().ShowRegionMarkers)
return false;
CoverageSegmentArray Segments = LCS.getLineSegments();
if (Segments.empty())
return false;
for (unsigned I = 0, E = Segments.size() - 1; I < E; ++I) {
const auto *CurSeg = Segments[I];
if (!CurSeg->IsRegionEntry || CurSeg->Count == LCS.getExecutionCount())
continue;
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::stable_sort(ExpansionSubViews.begin(), ExpansionSubViews.end());
std::stable_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))
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);
}