-//===-- Analyzer.cpp - Analysis and Dumping of Bytecode 000000---*- C++ -*-===//
+//===-- Analyzer.cpp - Analysis and Dumping of Bytecode ---------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
bca.functionDensity = 0.0;
bca.instructionSize = 0;
bca.longInstructions = 0;
- bca.vbrCount32 = 0;
- bca.vbrCount64 = 0;
- bca.vbrCompBytes = 0;
- bca.vbrExpdBytes = 0;
bca.FunctionInfo.clear();
bca.BlockSizes[BytecodeFormat::Reserved_DoNotUse] = 0;
bca.BlockSizes[BytecodeFormat::ModuleBlockID] = theSize;
currFunc->density = 0.0;
currFunc->instructionSize = 0;
currFunc->longInstructions = 0;
- currFunc->vbrCount32 = 0;
- currFunc->vbrCount64 = 0;
- currFunc->vbrCompBytes = 0;
- currFunc->vbrExpdBytes = 0;
}
print(Out, "Bytes Per Value ", bca.fileDensity);
print(Out, "Bytes Per Global", bca.globalsDensity);
print(Out, "Bytes Per Function", bca.functionDensity);
- print(Out, "# of VBR 32-bit Integers", bca.vbrCount32);
- print(Out, "# of VBR 64-bit Integers", bca.vbrCount64);
- print(Out, "# of VBR Compressed Bytes", bca.vbrCompBytes);
- print(Out, "# of VBR Expanded Bytes", bca.vbrExpdBytes);
- print(Out, "Bytes Saved With VBR",
- double(bca.vbrExpdBytes)-double(bca.vbrCompBytes),
- double(bca.vbrExpdBytes));
if (bca.detailedResults) {
Out << "\nDetailed Analysis Of " << bca.ModuleId << " Functions:\n";
print(Out, "Average Instruction Size",
double(I->second.instructionSize) / I->second.numInstructions);
print(Out, "Bytes Per Instruction", I->second.density);
- print(Out, "# of VBR 32-bit Integers", I->second.vbrCount32);
- print(Out, "# of VBR 64-bit Integers", I->second.vbrCount64);
- print(Out, "# of VBR Compressed Bytes", I->second.vbrCompBytes);
- print(Out, "# of VBR Expanded Bytes", I->second.vbrExpdBytes);
- print(Out, "Bytes Saved With VBR",
- double(I->second.vbrExpdBytes) - I->second.vbrCompBytes);
}
++I;
}
OSDN Git Service
