DBT-RISE-TGC/src/plugin/GCOV.h

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//===- GCOV.h - LLVM coverage tool ------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This header provides the interface to read and write coverage files that
// use 'gcov' format.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_PROFILEDATA_GCOV_H
#define LLVM_PROFILEDATA_GCOV_H
#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/MapVector.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/StringMap.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/ADT/iterator.h"
#include "llvm/ADT/iterator_range.h"
#include "llvm/Support/MemoryBuffer.h"
#include "llvm/Support/raw_ostream.h"
#include <cassert>
#include <cstddef>
#include <cstdint>
#include <memory>
#include <string>
#include <utility>
namespace llvm {
class GCOVFunction;
class GCOVBlock;
class FileInfo;
namespace GCOV {
enum GCOVVersion { V402, V404, V704 };
/// \brief A struct for passing gcov options between functions.
struct Options {
Options(bool A, bool B, bool C, bool F, bool P, bool U, bool L, bool N)
: AllBlocks(A), BranchInfo(B), BranchCount(C), FuncCoverage(F),
PreservePaths(P), UncondBranch(U), LongFileNames(L), NoOutput(N) {}
bool AllBlocks;
bool BranchInfo;
bool BranchCount;
bool FuncCoverage;
bool PreservePaths;
bool UncondBranch;
bool LongFileNames;
bool NoOutput;
};
} // end namespace GCOV
/// GCOVBuffer - A wrapper around MemoryBuffer to provide GCOV specific
/// read operations.
class GCOVBuffer {
public:
GCOVBuffer(MemoryBuffer *B) : Buffer(B) {}
/// readGCNOFormat - Check GCNO signature is valid at the beginning of buffer.
bool readGCNOFormat() {
StringRef File = Buffer->getBuffer().slice(0, 4);
if (File != "oncg") {
errs() << "Unexpected file type: " << File << ".\n";
return false;
}
Cursor = 4;
return true;
}
/// readGCDAFormat - Check GCDA signature is valid at the beginning of buffer.
bool readGCDAFormat() {
StringRef File = Buffer->getBuffer().slice(0, 4);
if (File != "adcg") {
errs() << "Unexpected file type: " << File << ".\n";
return false;
}
Cursor = 4;
return true;
}
/// readGCOVVersion - Read GCOV version.
bool readGCOVVersion(GCOV::GCOVVersion &Version) {
StringRef VersionStr = Buffer->getBuffer().slice(Cursor, Cursor + 4);
if (VersionStr == "*204") {
Cursor += 4;
Version = GCOV::V402;
return true;
}
if (VersionStr == "*404") {
Cursor += 4;
Version = GCOV::V404;
return true;
}
if (VersionStr == "*704") {
Cursor += 4;
Version = GCOV::V704;
return true;
}
errs() << "Unexpected version: " << VersionStr << ".\n";
return false;
}
/// readFunctionTag - If cursor points to a function tag then increment the
/// cursor and return true otherwise return false.
bool readFunctionTag() {
StringRef Tag = Buffer->getBuffer().slice(Cursor, Cursor + 4);
if (Tag.empty() || Tag[0] != '\0' || Tag[1] != '\0' || Tag[2] != '\0' ||
Tag[3] != '\1') {
return false;
}
Cursor += 4;
return true;
}
/// readBlockTag - If cursor points to a block tag then increment the
/// cursor and return true otherwise return false.
bool readBlockTag() {
StringRef Tag = Buffer->getBuffer().slice(Cursor, Cursor + 4);
if (Tag.empty() || Tag[0] != '\0' || Tag[1] != '\0' || Tag[2] != '\x41' ||
Tag[3] != '\x01') {
return false;
}
Cursor += 4;
return true;
}
/// readEdgeTag - If cursor points to an edge tag then increment the
/// cursor and return true otherwise return false.
bool readEdgeTag() {
StringRef Tag = Buffer->getBuffer().slice(Cursor, Cursor + 4);
if (Tag.empty() || Tag[0] != '\0' || Tag[1] != '\0' || Tag[2] != '\x43' ||
Tag[3] != '\x01') {
return false;
}
Cursor += 4;
return true;
}
/// readLineTag - If cursor points to a line tag then increment the
/// cursor and return true otherwise return false.
bool readLineTag() {
StringRef Tag = Buffer->getBuffer().slice(Cursor, Cursor + 4);
if (Tag.empty() || Tag[0] != '\0' || Tag[1] != '\0' || Tag[2] != '\x45' ||
Tag[3] != '\x01') {
return false;
}
Cursor += 4;
return true;
}
/// readArcTag - If cursor points to an gcda arc tag then increment the
/// cursor and return true otherwise return false.
bool readArcTag() {
StringRef Tag = Buffer->getBuffer().slice(Cursor, Cursor + 4);
if (Tag.empty() || Tag[0] != '\0' || Tag[1] != '\0' || Tag[2] != '\xa1' ||
Tag[3] != '\1') {
return false;
}
Cursor += 4;
return true;
}
/// readObjectTag - If cursor points to an object summary tag then increment
/// the cursor and return true otherwise return false.
bool readObjectTag() {
StringRef Tag = Buffer->getBuffer().slice(Cursor, Cursor + 4);
if (Tag.empty() || Tag[0] != '\0' || Tag[1] != '\0' || Tag[2] != '\0' ||
Tag[3] != '\xa1') {
return false;
}
Cursor += 4;
return true;
}
/// readProgramTag - If cursor points to a program summary tag then increment
/// the cursor and return true otherwise return false.
bool readProgramTag() {
StringRef Tag = Buffer->getBuffer().slice(Cursor, Cursor + 4);
if (Tag.empty() || Tag[0] != '\0' || Tag[1] != '\0' || Tag[2] != '\0' ||
Tag[3] != '\xa3') {
return false;
}
Cursor += 4;
return true;
}
bool readInt(uint32_t &Val) {
if (Buffer->getBuffer().size() < Cursor + 4) {
errs() << "Unexpected end of memory buffer: " << Cursor + 4 << ".\n";
return false;
}
StringRef Str = Buffer->getBuffer().slice(Cursor, Cursor + 4);
Cursor += 4;
Val = *(const uint32_t *)(Str.data());
return true;
}
bool readInt64(uint64_t &Val) {
uint32_t Lo, Hi;
if (!readInt(Lo) || !readInt(Hi))
return false;
Val = ((uint64_t)Hi << 32) | Lo;
return true;
}
bool readString(StringRef &Str) {
uint32_t Len = 0;
// Keep reading until we find a non-zero length. This emulates gcov's
// behaviour, which appears to do the same.
while (Len == 0)
if (!readInt(Len))
return false;
Len *= 4;
if (Buffer->getBuffer().size() < Cursor + Len) {
errs() << "Unexpected end of memory buffer: " << Cursor + Len << ".\n";
return false;
}
Str = Buffer->getBuffer().slice(Cursor, Cursor + Len).split('\0').first;
Cursor += Len;
return true;
}
uint64_t getCursor() const { return Cursor; }
void advanceCursor(uint32_t n) { Cursor += n * 4; }
private:
MemoryBuffer *Buffer;
uint64_t Cursor = 0;
};
/// GCOVFile - Collects coverage information for one pair of coverage file
/// (.gcno and .gcda).
class GCOVFile {
public:
GCOVFile() = default;
bool readGCNO(GCOVBuffer &Buffer);
bool readGCDA(GCOVBuffer &Buffer);
uint32_t getChecksum() const { return Checksum; }
void print(raw_ostream &OS) const;
void dump() const;
void collectLineCounts(FileInfo &FI);
private:
bool GCNOInitialized = false;
GCOV::GCOVVersion Version;
uint32_t Checksum = 0;
SmallVector<std::unique_ptr<GCOVFunction>, 16> Functions;
uint32_t RunCount = 0;
uint32_t ProgramCount = 0;
};
/// GCOVEdge - Collects edge information.
struct GCOVEdge {
GCOVEdge(GCOVBlock &S, GCOVBlock &D) : Src(S), Dst(D) {}
GCOVBlock &Src;
GCOVBlock &Dst;
uint64_t Count = 0;
};
/// GCOVFunction - Collects function information.
class GCOVFunction {
public:
using BlockIterator = pointee_iterator<SmallVectorImpl<
std::unique_ptr<GCOVBlock>>::const_iterator>;
GCOVFunction(GCOVFile &P) : Parent(P) {}
bool readGCNO(GCOVBuffer &Buffer, GCOV::GCOVVersion Version);
bool readGCDA(GCOVBuffer &Buffer, GCOV::GCOVVersion Version);
StringRef getName() const { return Name; }
StringRef getFilename() const { return Filename; }
size_t getNumBlocks() const { return Blocks.size(); }
uint64_t getEntryCount() const;
uint64_t getExitCount() const;
BlockIterator block_begin() const { return Blocks.begin(); }
BlockIterator block_end() const { return Blocks.end(); }
iterator_range<BlockIterator> blocks() const {
return make_range(block_begin(), block_end());
}
void print(raw_ostream &OS) const;
void dump() const;
void collectLineCounts(FileInfo &FI);
private:
GCOVFile &Parent;
uint32_t Ident = 0;
uint32_t Checksum;
uint32_t LineNumber = 0;
StringRef Name;
StringRef Filename;
SmallVector<std::unique_ptr<GCOVBlock>, 16> Blocks;
SmallVector<std::unique_ptr<GCOVEdge>, 16> Edges;
};
/// GCOVBlock - Collects block information.
class GCOVBlock {
struct EdgeWeight {
EdgeWeight(GCOVBlock *D) : Dst(D) {}
GCOVBlock *Dst;
uint64_t Count = 0;
};
struct SortDstEdgesFunctor {
bool operator()(const GCOVEdge *E1, const GCOVEdge *E2) {
return E1->Dst.Number < E2->Dst.Number;
}
};
public:
using EdgeIterator = SmallVectorImpl<GCOVEdge *>::const_iterator;
GCOVBlock(GCOVFunction &P, uint32_t N) : Parent(P), Number(N) {}
~GCOVBlock();
const GCOVFunction &getParent() const { return Parent; }
void addLine(uint32_t N) { Lines.push_back(N); }
uint32_t getLastLine() const { return Lines.back(); }
void addCount(size_t DstEdgeNo, uint64_t N);
uint64_t getCount() const { return Counter; }
void addSrcEdge(GCOVEdge *Edge) {
assert(&Edge->Dst == this); // up to caller to ensure edge is valid
SrcEdges.push_back(Edge);
}
void addDstEdge(GCOVEdge *Edge) {
assert(&Edge->Src == this); // up to caller to ensure edge is valid
// Check if adding this edge causes list to become unsorted.
if (DstEdges.size() && DstEdges.back()->Dst.Number > Edge->Dst.Number)
DstEdgesAreSorted = false;
DstEdges.push_back(Edge);
}
size_t getNumSrcEdges() const { return SrcEdges.size(); }
size_t getNumDstEdges() const { return DstEdges.size(); }
void sortDstEdges();
EdgeIterator src_begin() const { return SrcEdges.begin(); }
EdgeIterator src_end() const { return SrcEdges.end(); }
iterator_range<EdgeIterator> srcs() const {
return make_range(src_begin(), src_end());
}
EdgeIterator dst_begin() const { return DstEdges.begin(); }
EdgeIterator dst_end() const { return DstEdges.end(); }
iterator_range<EdgeIterator> dsts() const {
return make_range(dst_begin(), dst_end());
}
void print(raw_ostream &OS) const;
void dump() const;
void collectLineCounts(FileInfo &FI);
private:
GCOVFunction &Parent;
uint32_t Number;
uint64_t Counter = 0;
bool DstEdgesAreSorted = true;
SmallVector<GCOVEdge *, 16> SrcEdges;
SmallVector<GCOVEdge *, 16> DstEdges;
SmallVector<uint32_t, 16> Lines;
};
class FileInfo {
// It is unlikely--but possible--for multiple functions to be on the same
// line.
// Therefore this typedef allows LineData.Functions to store multiple
// functions
// per instance. This is rare, however, so optimize for the common case.
using FunctionVector = SmallVector<const GCOVFunction *, 1>;
using FunctionLines = DenseMap<uint32_t, FunctionVector>;
using BlockVector = SmallVector<const GCOVBlock *, 4>;
using BlockLines = DenseMap<uint32_t, BlockVector>;
struct LineData {
LineData() = default;
BlockLines Blocks;
FunctionLines Functions;
uint32_t LastLine = 0;
};
struct GCOVCoverage {
GCOVCoverage(StringRef Name) : Name(Name) {}
StringRef Name;
uint32_t LogicalLines = 0;
uint32_t LinesExec = 0;
uint32_t Branches = 0;
uint32_t BranchesExec = 0;
uint32_t BranchesTaken = 0;
};
public:
FileInfo(const GCOV::Options &Options) : Options(Options) {}
void addBlockLine(StringRef Filename, uint32_t Line, const GCOVBlock *Block) {
if (Line > LineInfo[Filename].LastLine)
LineInfo[Filename].LastLine = Line;
LineInfo[Filename].Blocks[Line - 1].push_back(Block);
}
void addFunctionLine(StringRef Filename, uint32_t Line,
const GCOVFunction *Function) {
if (Line > LineInfo[Filename].LastLine)
LineInfo[Filename].LastLine = Line;
LineInfo[Filename].Functions[Line - 1].push_back(Function);
}
void setRunCount(uint32_t Runs) { RunCount = Runs; }
void setProgramCount(uint32_t Programs) { ProgramCount = Programs; }
void print(raw_ostream &OS, StringRef MainFilename, StringRef GCNOFile,
StringRef GCDAFile);
private:
std::string getCoveragePath(StringRef Filename, StringRef MainFilename);
std::unique_ptr<raw_ostream> openCoveragePath(StringRef CoveragePath);
void printFunctionSummary(raw_ostream &OS, const FunctionVector &Funcs) const;
void printBlockInfo(raw_ostream &OS, const GCOVBlock &Block,
uint32_t LineIndex, uint32_t &BlockNo) const;
void printBranchInfo(raw_ostream &OS, const GCOVBlock &Block,
GCOVCoverage &Coverage, uint32_t &EdgeNo);
void printUncondBranchInfo(raw_ostream &OS, uint32_t &EdgeNo,
uint64_t Count) const;
void printCoverage(raw_ostream &OS, const GCOVCoverage &Coverage) const;
void printFuncCoverage(raw_ostream &OS) const;
void printFileCoverage(raw_ostream &OS) const;
const GCOV::Options &Options;
StringMap<LineData> LineInfo;
uint32_t RunCount = 0;
uint32_t ProgramCount = 0;
using FileCoverageList = SmallVector<std::pair<std::string, GCOVCoverage>, 4>;
using FuncCoverageMap = MapVector<const GCOVFunction *, GCOVCoverage>;
FileCoverageList FileCoverages;
FuncCoverageMap FuncCoverages;
};
} // end namespace llvm
#endif // LLVM_SUPPORT_GCOV_H