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f1c5f8681a
LineCoverageIterator makes it easy for clients of coverage data to determine line execution counts for a file or function. The coverage iteration logic is tricky enough that it really pays not to have multiple copies of it. Hopefully having just one implementation in LLVM will make the iteration logic easier to test, reuse, and update. This commit is NFC but I've added a unit test to go along with it just because it's easy to do now. llvm-svn: 316141
206 lines
6.3 KiB
C++
206 lines
6.3 KiB
C++
//===- CoverageSummaryInfo.h - Coverage summary for function/file ---------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// These structures are used to represent code coverage metrics
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// for functions/files.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_COV_COVERAGESUMMARYINFO_H
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#define LLVM_COV_COVERAGESUMMARYINFO_H
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#include "llvm/ProfileData/Coverage/CoverageMapping.h"
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#include "llvm/Support/raw_ostream.h"
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namespace llvm {
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/// \brief Provides information about region coverage for a function/file.
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class RegionCoverageInfo {
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/// \brief The number of regions that were executed at least once.
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size_t Covered;
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/// \brief The total number of regions in a function/file.
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size_t NumRegions;
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public:
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RegionCoverageInfo() : Covered(0), NumRegions(0) {}
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RegionCoverageInfo(size_t Covered, size_t NumRegions)
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: Covered(Covered), NumRegions(NumRegions) {
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assert(Covered <= NumRegions && "Covered regions over-counted");
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}
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RegionCoverageInfo &operator+=(const RegionCoverageInfo &RHS) {
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Covered += RHS.Covered;
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NumRegions += RHS.NumRegions;
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return *this;
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}
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void merge(const RegionCoverageInfo &RHS) {
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Covered = std::max(Covered, RHS.Covered);
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NumRegions = std::max(NumRegions, RHS.NumRegions);
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}
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size_t getCovered() const { return Covered; }
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size_t getNumRegions() const { return NumRegions; }
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bool isFullyCovered() const { return Covered == NumRegions; }
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double getPercentCovered() const {
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assert(Covered <= NumRegions && "Covered regions over-counted");
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if (NumRegions == 0)
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return 0.0;
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return double(Covered) / double(NumRegions) * 100.0;
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}
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};
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/// \brief Provides information about line coverage for a function/file.
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class LineCoverageInfo {
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/// \brief The number of lines that were executed at least once.
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size_t Covered;
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/// \brief The total number of lines in a function/file.
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size_t NumLines;
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public:
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LineCoverageInfo() : Covered(0), NumLines(0) {}
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LineCoverageInfo(size_t Covered, size_t NumLines)
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: Covered(Covered), NumLines(NumLines) {
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assert(Covered <= NumLines && "Covered lines over-counted");
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}
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LineCoverageInfo &operator+=(const LineCoverageInfo &RHS) {
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Covered += RHS.Covered;
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NumLines += RHS.NumLines;
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return *this;
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}
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void merge(const LineCoverageInfo &RHS) {
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Covered = std::max(Covered, RHS.Covered);
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NumLines = std::max(NumLines, RHS.NumLines);
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}
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size_t getCovered() const { return Covered; }
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size_t getNumLines() const { return NumLines; }
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bool isFullyCovered() const { return Covered == NumLines; }
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double getPercentCovered() const {
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assert(Covered <= NumLines && "Covered lines over-counted");
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if (NumLines == 0)
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return 0.0;
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return double(Covered) / double(NumLines) * 100.0;
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}
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};
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/// \brief Provides information about function coverage for a file.
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class FunctionCoverageInfo {
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/// \brief The number of functions that were executed.
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size_t Executed;
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/// \brief The total number of functions in this file.
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size_t NumFunctions;
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public:
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FunctionCoverageInfo() : Executed(0), NumFunctions(0) {}
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FunctionCoverageInfo(size_t Executed, size_t NumFunctions)
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: Executed(Executed), NumFunctions(NumFunctions) {}
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void addFunction(bool Covered) {
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if (Covered)
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++Executed;
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++NumFunctions;
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}
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size_t getExecuted() const { return Executed; }
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size_t getNumFunctions() const { return NumFunctions; }
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bool isFullyCovered() const { return Executed == NumFunctions; }
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double getPercentCovered() const {
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assert(Executed <= NumFunctions && "Covered functions over-counted");
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if (NumFunctions == 0)
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return 0.0;
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return double(Executed) / double(NumFunctions) * 100.0;
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}
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};
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/// \brief A summary of function's code coverage.
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struct FunctionCoverageSummary {
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std::string Name;
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uint64_t ExecutionCount;
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RegionCoverageInfo RegionCoverage;
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LineCoverageInfo LineCoverage;
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FunctionCoverageSummary(const std::string &Name)
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: Name(Name), ExecutionCount(0), RegionCoverage(), LineCoverage() {}
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FunctionCoverageSummary(const std::string &Name, uint64_t ExecutionCount,
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const RegionCoverageInfo &RegionCoverage,
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const LineCoverageInfo &LineCoverage)
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: Name(Name), ExecutionCount(ExecutionCount),
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RegionCoverage(RegionCoverage), LineCoverage(LineCoverage) {}
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/// \brief Compute the code coverage summary for the given function coverage
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/// mapping record.
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static FunctionCoverageSummary get(const coverage::CoverageMapping &CM,
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const coverage::FunctionRecord &Function);
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/// Compute the code coverage summary for an instantiation group \p Group,
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/// given a list of summaries for each instantiation in \p Summaries.
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static FunctionCoverageSummary
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get(const coverage::InstantiationGroup &Group,
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ArrayRef<FunctionCoverageSummary> Summaries);
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};
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/// \brief A summary of file's code coverage.
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struct FileCoverageSummary {
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StringRef Name;
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RegionCoverageInfo RegionCoverage;
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LineCoverageInfo LineCoverage;
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FunctionCoverageInfo FunctionCoverage;
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FunctionCoverageInfo InstantiationCoverage;
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FileCoverageSummary(StringRef Name)
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: Name(Name), RegionCoverage(), LineCoverage(), FunctionCoverage(),
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InstantiationCoverage() {}
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void addFunction(const FunctionCoverageSummary &Function) {
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RegionCoverage += Function.RegionCoverage;
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LineCoverage += Function.LineCoverage;
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FunctionCoverage.addFunction(/*Covered=*/Function.ExecutionCount > 0);
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}
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void addInstantiation(const FunctionCoverageSummary &Function) {
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InstantiationCoverage.addFunction(/*Covered=*/Function.ExecutionCount > 0);
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}
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};
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/// \brief A cache for demangled symbols.
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struct DemangleCache {
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StringMap<std::string> DemangledNames;
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/// \brief Demangle \p Sym if possible. Otherwise, just return \p Sym.
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StringRef demangle(StringRef Sym) const {
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const auto DemangledName = DemangledNames.find(Sym);
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if (DemangledName == DemangledNames.end())
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return Sym;
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return DemangledName->getValue();
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}
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};
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} // namespace llvm
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#endif // LLVM_COV_COVERAGESUMMARYINFO_H
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