tools/llvm-cov/CoverageSummaryInfo.h - llvm - Git at Google

 //===- CoverageSummaryInfo.h - 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.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_COV_COVERAGESUMMARYINFO_H
 #define LLVM_COV_COVERAGESUMMARYINFO_H

 #include "llvm/ProfileData/Coverage/CoverageMapping.h"
 #include "llvm/Support/raw_ostream.h"

 namespace llvm {

 /// Provides information about region coverage for a function/file.
 class RegionCoverageInfo {
   /// The number of regions that were executed at least once.
   size_t Covered;

   /// The total number of regions in a function/file.
   size_t NumRegions;

 public:
   RegionCoverageInfo() : Covered(0), NumRegions(0) {}

   RegionCoverageInfo(size_t Covered, size_t NumRegions)
       : Covered(Covered), NumRegions(NumRegions) {
     assert(Covered <= NumRegions && "Covered regions over-counted");
   }

   RegionCoverageInfo &operator+=(const RegionCoverageInfo &RHS) {
     Covered += RHS.Covered;
     NumRegions += RHS.NumRegions;
     return *this;
   }

   void merge(const RegionCoverageInfo &RHS) {
     Covered = std::max(Covered, RHS.Covered);
     NumRegions = std::max(NumRegions, RHS.NumRegions);
   }

   size_t getCovered() const { return Covered; }

   size_t getNumRegions() const { return NumRegions; }

   bool isFullyCovered() const { return Covered == NumRegions; }

   double getPercentCovered() const {
     assert(Covered <= NumRegions && "Covered regions over-counted");
     if (NumRegions == 0)
       return 0.0;
     return double(Covered) / double(NumRegions) * 100.0;
   }
 };

 /// Provides information about line coverage for a function/file.
 class LineCoverageInfo {
   /// The number of lines that were executed at least once.
   size_t Covered;

   /// The total number of lines in a function/file.
   size_t NumLines;

 public:
   LineCoverageInfo() : Covered(0), NumLines(0) {}

   LineCoverageInfo(size_t Covered, size_t NumLines)
       : Covered(Covered), NumLines(NumLines) {
     assert(Covered <= NumLines && "Covered lines over-counted");
   }

   LineCoverageInfo &operator+=(const LineCoverageInfo &RHS) {
     Covered += RHS.Covered;
     NumLines += RHS.NumLines;
     return *this;
   }

   void merge(const LineCoverageInfo &RHS) {
     Covered = std::max(Covered, RHS.Covered);
     NumLines = std::max(NumLines, RHS.NumLines);
   }

   size_t getCovered() const { return Covered; }

   size_t getNumLines() const { return NumLines; }

   bool isFullyCovered() const { return Covered == NumLines; }

   double getPercentCovered() const {
     assert(Covered <= NumLines && "Covered lines over-counted");
     if (NumLines == 0)
       return 0.0;
     return double(Covered) / double(NumLines) * 100.0;
   }
 };

 /// Provides information about function coverage for a file.
 class FunctionCoverageInfo {
   /// The number of functions that were executed.
   size_t Executed;

   /// The total number of functions in this file.
   size_t NumFunctions;

 public:
   FunctionCoverageInfo() : Executed(0), NumFunctions(0) {}

   FunctionCoverageInfo(size_t Executed, size_t NumFunctions)
       : Executed(Executed), NumFunctions(NumFunctions) {}

   FunctionCoverageInfo &operator+=(const FunctionCoverageInfo &RHS) {
     Executed += RHS.Executed;
     NumFunctions += RHS.NumFunctions;
     return *this;
   }

   void addFunction(bool Covered) {
     if (Covered)
       ++Executed;
     ++NumFunctions;
   }

   size_t getExecuted() const { return Executed; }

   size_t getNumFunctions() const { return NumFunctions; }

   bool isFullyCovered() const { return Executed == NumFunctions; }

   double getPercentCovered() const {
     assert(Executed <= NumFunctions && "Covered functions over-counted");
     if (NumFunctions == 0)
       return 0.0;
     return double(Executed) / double(NumFunctions) * 100.0;
   }
 };

 /// A summary of function's code coverage.
 struct FunctionCoverageSummary {
   std::string Name;
   uint64_t ExecutionCount;
   RegionCoverageInfo RegionCoverage;
   LineCoverageInfo LineCoverage;

   FunctionCoverageSummary(const std::string &Name)
       : Name(Name), ExecutionCount(0), RegionCoverage(), LineCoverage() {}

   FunctionCoverageSummary(const std::string &Name, uint64_t ExecutionCount,
                           const RegionCoverageInfo &RegionCoverage,
                           const LineCoverageInfo &LineCoverage)
       : Name(Name), ExecutionCount(ExecutionCount),
         RegionCoverage(RegionCoverage), LineCoverage(LineCoverage) {}

   /// Compute the code coverage summary for the given function coverage
   /// mapping record.
   static FunctionCoverageSummary get(const coverage::CoverageMapping &CM,
                                      const coverage::FunctionRecord &Function);

   /// Compute the code coverage summary for an instantiation group \p Group,
   /// given a list of summaries for each instantiation in \p Summaries.
   static FunctionCoverageSummary
   get(const coverage::InstantiationGroup &Group,
       ArrayRef<FunctionCoverageSummary> Summaries);
 };

 /// A summary of file's code coverage.
 struct FileCoverageSummary {
   StringRef Name;
   RegionCoverageInfo RegionCoverage;
   LineCoverageInfo LineCoverage;
   FunctionCoverageInfo FunctionCoverage;
   FunctionCoverageInfo InstantiationCoverage;

   FileCoverageSummary(StringRef Name)
       : Name(Name), RegionCoverage(), LineCoverage(), FunctionCoverage(),
         InstantiationCoverage() {}

   FileCoverageSummary &operator+=(const FileCoverageSummary &RHS) {
     RegionCoverage += RHS.RegionCoverage;
     LineCoverage += RHS.LineCoverage;
     FunctionCoverage += RHS.FunctionCoverage;
     InstantiationCoverage += RHS.InstantiationCoverage;
     return *this;
   }

   void addFunction(const FunctionCoverageSummary &Function) {
     RegionCoverage += Function.RegionCoverage;
     LineCoverage += Function.LineCoverage;
     FunctionCoverage.addFunction(/*Covered=*/Function.ExecutionCount > 0);
   }

   void addInstantiation(const FunctionCoverageSummary &Function) {
     InstantiationCoverage.addFunction(/*Covered=*/Function.ExecutionCount > 0);
   }
 };

 /// A cache for demangled symbols.
 struct DemangleCache {
   StringMap<std::string> DemangledNames;

   /// Demangle \p Sym if possible. Otherwise, just return \p Sym.
   StringRef demangle(StringRef Sym) const {
     const auto DemangledName = DemangledNames.find(Sym);
     if (DemangledName == DemangledNames.end())
       return Sym;
     return DemangledName->getValue();
   }
 };

 } // namespace llvm

 #endif // LLVM_COV_COVERAGESUMMARYINFO_H
	//===- CoverageSummaryInfo.h - 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.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_COV_COVERAGESUMMARYINFO_H
	#define LLVM_COV_COVERAGESUMMARYINFO_H

	#include "llvm/ProfileData/Coverage/CoverageMapping.h"
	#include "llvm/Support/raw_ostream.h"

	namespace llvm {

	/// Provides information about region coverage for a function/file.
	class RegionCoverageInfo {
	/// The number of regions that were executed at least once.
	size_t Covered;

	/// The total number of regions in a function/file.
	size_t NumRegions;

	public:
	RegionCoverageInfo() : Covered(0), NumRegions(0) {}

	RegionCoverageInfo(size_t Covered, size_t NumRegions)
	: Covered(Covered), NumRegions(NumRegions) {
	assert(Covered <= NumRegions && "Covered regions over-counted");
	}

	RegionCoverageInfo &operator+=(const RegionCoverageInfo &RHS) {
	Covered += RHS.Covered;
	NumRegions += RHS.NumRegions;
	return *this;
	}

	void merge(const RegionCoverageInfo &RHS) {
	Covered = std::max(Covered, RHS.Covered);
	NumRegions = std::max(NumRegions, RHS.NumRegions);
	}

	size_t getCovered() const { return Covered; }

	size_t getNumRegions() const { return NumRegions; }

	bool isFullyCovered() const { return Covered == NumRegions; }

	double getPercentCovered() const {
	assert(Covered <= NumRegions && "Covered regions over-counted");
	if (NumRegions == 0)
	return 0.0;
	return double(Covered) / double(NumRegions) * 100.0;
	}
	};

	/// Provides information about line coverage for a function/file.
	class LineCoverageInfo {
	/// The number of lines that were executed at least once.
	size_t Covered;

	/// The total number of lines in a function/file.
	size_t NumLines;

	public:
	LineCoverageInfo() : Covered(0), NumLines(0) {}

	LineCoverageInfo(size_t Covered, size_t NumLines)
	: Covered(Covered), NumLines(NumLines) {
	assert(Covered <= NumLines && "Covered lines over-counted");
	}

	LineCoverageInfo &operator+=(const LineCoverageInfo &RHS) {
	Covered += RHS.Covered;
	NumLines += RHS.NumLines;
	return *this;
	}

	void merge(const LineCoverageInfo &RHS) {
	Covered = std::max(Covered, RHS.Covered);
	NumLines = std::max(NumLines, RHS.NumLines);
	}

	size_t getCovered() const { return Covered; }

	size_t getNumLines() const { return NumLines; }

	bool isFullyCovered() const { return Covered == NumLines; }

	double getPercentCovered() const {
	assert(Covered <= NumLines && "Covered lines over-counted");
	if (NumLines == 0)
	return 0.0;
	return double(Covered) / double(NumLines) * 100.0;
	}
	};

	/// Provides information about function coverage for a file.
	class FunctionCoverageInfo {
	/// The number of functions that were executed.
	size_t Executed;

	/// The total number of functions in this file.
	size_t NumFunctions;

	public:
	FunctionCoverageInfo() : Executed(0), NumFunctions(0) {}

	FunctionCoverageInfo(size_t Executed, size_t NumFunctions)
	: Executed(Executed), NumFunctions(NumFunctions) {}

	FunctionCoverageInfo &operator+=(const FunctionCoverageInfo &RHS) {
	Executed += RHS.Executed;
	NumFunctions += RHS.NumFunctions;
	return *this;
	}

	void addFunction(bool Covered) {
	if (Covered)
	++Executed;
	++NumFunctions;
	}

	size_t getExecuted() const { return Executed; }

	size_t getNumFunctions() const { return NumFunctions; }

	bool isFullyCovered() const { return Executed == NumFunctions; }

	double getPercentCovered() const {
	assert(Executed <= NumFunctions && "Covered functions over-counted");
	if (NumFunctions == 0)
	return 0.0;
	return double(Executed) / double(NumFunctions) * 100.0;
	}
	};

	/// A summary of function's code coverage.
	struct FunctionCoverageSummary {
	std::string Name;
	uint64_t ExecutionCount;
	RegionCoverageInfo RegionCoverage;
	LineCoverageInfo LineCoverage;

	FunctionCoverageSummary(const std::string &Name)
	: Name(Name), ExecutionCount(0), RegionCoverage(), LineCoverage() {}

	FunctionCoverageSummary(const std::string &Name, uint64_t ExecutionCount,
	const RegionCoverageInfo &RegionCoverage,
	const LineCoverageInfo &LineCoverage)
	: Name(Name), ExecutionCount(ExecutionCount),
	RegionCoverage(RegionCoverage), LineCoverage(LineCoverage) {}

	/// Compute the code coverage summary for the given function coverage
	/// mapping record.
	static FunctionCoverageSummary get(const coverage::CoverageMapping &CM,
	const coverage::FunctionRecord &Function);

	/// Compute the code coverage summary for an instantiation group \p Group,
	/// given a list of summaries for each instantiation in \p Summaries.
	static FunctionCoverageSummary
	get(const coverage::InstantiationGroup &Group,
	ArrayRef<FunctionCoverageSummary> Summaries);
	};

	/// A summary of file's code coverage.
	struct FileCoverageSummary {
	StringRef Name;
	RegionCoverageInfo RegionCoverage;
	LineCoverageInfo LineCoverage;
	FunctionCoverageInfo FunctionCoverage;
	FunctionCoverageInfo InstantiationCoverage;

	FileCoverageSummary(StringRef Name)
	: Name(Name), RegionCoverage(), LineCoverage(), FunctionCoverage(),
	InstantiationCoverage() {}

	FileCoverageSummary &operator+=(const FileCoverageSummary &RHS) {
	RegionCoverage += RHS.RegionCoverage;
	LineCoverage += RHS.LineCoverage;
	FunctionCoverage += RHS.FunctionCoverage;
	InstantiationCoverage += RHS.InstantiationCoverage;
	return *this;
	}

	void addFunction(const FunctionCoverageSummary &Function) {
	RegionCoverage += Function.RegionCoverage;
	LineCoverage += Function.LineCoverage;
	FunctionCoverage.addFunction(/Covered=/Function.ExecutionCount > 0);
	}

	void addInstantiation(const FunctionCoverageSummary &Function) {
	InstantiationCoverage.addFunction(/Covered=/Function.ExecutionCount > 0);
	}
	};

	/// A cache for demangled symbols.
	struct DemangleCache {
	StringMap<std::string> DemangledNames;

	/// Demangle \p Sym if possible. Otherwise, just return \p Sym.
	StringRef demangle(StringRef Sym) const {
	const auto DemangledName = DemangledNames.find(Sym);
	if (DemangledName == DemangledNames.end())
	return Sym;
	return DemangledName->getValue();
	}
	};

	} // namespace llvm

	#endif // LLVM_COV_COVERAGESUMMARYINFO_H