llvm-for-llvmta/tools/llvm-cov/CoverageSummaryInfo.cpp

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2022-04-25 10:02:23 +02:00
//===- CoverageSummaryInfo.cpp - Coverage summary for function/file -------===//
//
// 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
//
//===----------------------------------------------------------------------===//
//
// These structures are used to represent code coverage metrics
// for functions/files.
//
//===----------------------------------------------------------------------===//
#include "CoverageSummaryInfo.h"
using namespace llvm;
using namespace coverage;
static void sumBranches(size_t &NumBranches, size_t &CoveredBranches,
const ArrayRef<CountedRegion> &Branches) {
for (const auto &BR : Branches) {
// Skip folded branches.
if (BR.Folded)
continue;
// "True" Condition Branches.
++NumBranches;
if (BR.ExecutionCount > 0)
++CoveredBranches;
// "False" Condition Branches.
++NumBranches;
if (BR.FalseExecutionCount > 0)
++CoveredBranches;
}
}
static void sumBranchExpansions(size_t &NumBranches, size_t &CoveredBranches,
const CoverageMapping &CM,
ArrayRef<ExpansionRecord> Expansions) {
for (const auto &Expansion : Expansions) {
auto CE = CM.getCoverageForExpansion(Expansion);
sumBranches(NumBranches, CoveredBranches, CE.getBranches());
sumBranchExpansions(NumBranches, CoveredBranches, CM, CE.getExpansions());
}
}
FunctionCoverageSummary
FunctionCoverageSummary::get(const CoverageMapping &CM,
const coverage::FunctionRecord &Function) {
// Compute the region coverage.
size_t NumCodeRegions = 0, CoveredRegions = 0;
for (auto &CR : Function.CountedRegions) {
if (CR.Kind != CounterMappingRegion::CodeRegion)
continue;
++NumCodeRegions;
if (CR.ExecutionCount != 0)
++CoveredRegions;
}
// Compute the line coverage
size_t NumLines = 0, CoveredLines = 0;
CoverageData CD = CM.getCoverageForFunction(Function);
for (const auto &LCS : getLineCoverageStats(CD)) {
if (!LCS.isMapped())
continue;
++NumLines;
if (LCS.getExecutionCount())
++CoveredLines;
}
// Compute the branch coverage, including branches from expansions.
size_t NumBranches = 0, CoveredBranches = 0;
sumBranches(NumBranches, CoveredBranches, CD.getBranches());
sumBranchExpansions(NumBranches, CoveredBranches, CM, CD.getExpansions());
return FunctionCoverageSummary(
Function.Name, Function.ExecutionCount,
RegionCoverageInfo(CoveredRegions, NumCodeRegions),
LineCoverageInfo(CoveredLines, NumLines),
BranchCoverageInfo(CoveredBranches, NumBranches));
}
FunctionCoverageSummary
FunctionCoverageSummary::get(const InstantiationGroup &Group,
ArrayRef<FunctionCoverageSummary> Summaries) {
std::string Name;
if (Group.hasName()) {
Name = std::string(Group.getName());
} else {
llvm::raw_string_ostream OS(Name);
OS << "Definition at line " << Group.getLine() << ", column "
<< Group.getColumn();
}
FunctionCoverageSummary Summary(Name);
Summary.ExecutionCount = Group.getTotalExecutionCount();
Summary.RegionCoverage = Summaries[0].RegionCoverage;
Summary.LineCoverage = Summaries[0].LineCoverage;
Summary.BranchCoverage = Summaries[0].BranchCoverage;
for (const auto &FCS : Summaries.drop_front()) {
Summary.RegionCoverage.merge(FCS.RegionCoverage);
Summary.LineCoverage.merge(FCS.LineCoverage);
// Sum branch coverage across instantiation groups for the summary rather
// than "merge" the maximum count. This is a clearer view into whether all
// created branches are covered.
Summary.BranchCoverage += FCS.BranchCoverage;
}
return Summary;
}