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Implement tracking of bytecode instruction size and the number of long
instructions generated. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@14154 91177308-0d34-0410-b5e6-96231b3b80d8
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@ -55,6 +55,8 @@ struct BytecodeAnalysis {
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///< the file is more sparse.
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double globalsDensity; ///< density of global defs (bytes/definition)
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double functionDensity; ///< Average density of functions (bytes/function)
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unsigned instructionSize; ///< Size of instructions in bytes
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unsigned longInstructions;///< Number of instructions > 4 bytes
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unsigned vbrCount32; ///< Number of 32-bit vbr values
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unsigned vbrCount64; ///< Number of 64-bit vbr values
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unsigned vbrCompBytes; ///< Number of vbr bytes (compressed)
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@ -67,13 +69,15 @@ struct BytecodeAnalysis {
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/// an analysis of a single function.
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struct BytecodeFunctionInfo {
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std::string description; ///< Function type description
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std::string name; ///< Name of function if it has one
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std::string name; ///< Name of function if it has one
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unsigned byteSize; ///< The size of the function in bytecode bytes
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unsigned numInstructions; ///< The number of instructions in the function
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unsigned numBasicBlocks; ///< The number of basic blocks in the function
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unsigned numPhis; ///< Number of Phi Nodes in Instructions
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unsigned numOperands; ///< The number of operands in the function
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double density; ///< Density of function
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unsigned instructionSize; ///< Size of instructions in bytes
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unsigned longInstructions;///< Number of instructions > 4 bytes
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unsigned vbrCount32; ///< Number of 32-bit vbr values
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unsigned vbrCount64; ///< Number of 64-bit vbr values
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unsigned vbrCompBytes; ///< Number of vbr bytes (compressed)
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@ -52,6 +52,8 @@ public:
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bca.fileDensity = 0.0;
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bca.globalsDensity = 0.0;
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bca.functionDensity = 0.0;
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bca.instructionSize = 0;
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bca.longInstructions = 0;
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bca.vbrCount32 = 0;
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bca.vbrCount64 = 0;
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bca.vbrCompBytes = 0;
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@ -167,6 +169,8 @@ public:
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currFunc->numPhis = 0;
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currFunc->numOperands = 0;
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currFunc->density = 0.0;
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currFunc->instructionSize = 0;
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currFunc->longInstructions = 0;
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currFunc->vbrCount32 = 0;
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currFunc->vbrCount64 = 0;
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currFunc->vbrCompBytes = 0;
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@ -188,9 +192,13 @@ public:
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std::vector<unsigned>& Operands, unsigned Size) {
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bca.numInstructions++;
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bca.numValues++;
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bca.instructionSize += Size;
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if (Size > 4 ) bca.longInstructions++;
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bca.numOperands += Operands.size();
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if ( currFunc ) {
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currFunc->numInstructions++;
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currFunc->instructionSize += Size;
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if (Size > 4 ) currFunc->longInstructions++;
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if ( Opcode == Instruction::PHI ) currFunc->numPhis++;
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}
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return Instruction::isTerminator(Opcode);
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@ -249,6 +249,10 @@ void llvm::PrintBytecodeAnalysis(BytecodeAnalysis& bca, std::ostream& Out )
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print(Out, "Number Of Operands", bca.numOperands);
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print(Out, "Number Of Compaction Tables", bca.numCmpctnTables);
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print(Out, "Number Of Symbol Tables", bca.numSymTab);
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print(Out, "Long Instructions", bca.longInstructions);
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print(Out, "Instruction Size", bca.instructionSize);
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print(Out, "Average Instruction Size",
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double(bca.instructionSize)/double(bca.numInstructions));
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print(Out, "Maximum Type Slot Number", bca.maxTypeSlot);
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print(Out, "Maximum Value Slot Number", bca.maxValueSlot);
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print(Out, "Bytes Thrown To Alignment", double(bca.numAlignment),
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@ -304,6 +308,10 @@ void llvm::PrintBytecodeAnalysis(BytecodeAnalysis& bca, std::ostream& Out )
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print(Out, "Type:", I->second.description);
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print(Out, "Byte Size", I->second.byteSize);
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print(Out, "Instructions", I->second.numInstructions);
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print(Out, "Long Instructions", I->second.longInstructions);
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print(Out, "Instruction Size", I->second.instructionSize);
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print(Out, "Average Instruction Size",
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double(I->second.instructionSize)/double(I->second.numInstructions));
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print(Out, "Basic Blocks", I->second.numBasicBlocks);
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print(Out, "Operand", I->second.numOperands);
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print(Out, "Function Density", I->second.density);
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@ -52,6 +52,8 @@ public:
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bca.fileDensity = 0.0;
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bca.globalsDensity = 0.0;
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bca.functionDensity = 0.0;
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bca.instructionSize = 0;
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bca.longInstructions = 0;
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bca.vbrCount32 = 0;
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bca.vbrCount64 = 0;
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bca.vbrCompBytes = 0;
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@ -167,6 +169,8 @@ public:
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currFunc->numPhis = 0;
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currFunc->numOperands = 0;
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currFunc->density = 0.0;
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currFunc->instructionSize = 0;
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currFunc->longInstructions = 0;
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currFunc->vbrCount32 = 0;
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currFunc->vbrCount64 = 0;
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currFunc->vbrCompBytes = 0;
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@ -188,9 +192,13 @@ public:
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std::vector<unsigned>& Operands, unsigned Size) {
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bca.numInstructions++;
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bca.numValues++;
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bca.instructionSize += Size;
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if (Size > 4 ) bca.longInstructions++;
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bca.numOperands += Operands.size();
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if ( currFunc ) {
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currFunc->numInstructions++;
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currFunc->instructionSize += Size;
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if (Size > 4 ) currFunc->longInstructions++;
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if ( Opcode == Instruction::PHI ) currFunc->numPhis++;
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}
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return Instruction::isTerminator(Opcode);
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@ -249,6 +249,10 @@ void llvm::PrintBytecodeAnalysis(BytecodeAnalysis& bca, std::ostream& Out )
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print(Out, "Number Of Operands", bca.numOperands);
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print(Out, "Number Of Compaction Tables", bca.numCmpctnTables);
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print(Out, "Number Of Symbol Tables", bca.numSymTab);
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print(Out, "Long Instructions", bca.longInstructions);
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print(Out, "Instruction Size", bca.instructionSize);
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print(Out, "Average Instruction Size",
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double(bca.instructionSize)/double(bca.numInstructions));
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print(Out, "Maximum Type Slot Number", bca.maxTypeSlot);
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print(Out, "Maximum Value Slot Number", bca.maxValueSlot);
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print(Out, "Bytes Thrown To Alignment", double(bca.numAlignment),
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@ -304,6 +308,10 @@ void llvm::PrintBytecodeAnalysis(BytecodeAnalysis& bca, std::ostream& Out )
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print(Out, "Type:", I->second.description);
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print(Out, "Byte Size", I->second.byteSize);
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print(Out, "Instructions", I->second.numInstructions);
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print(Out, "Long Instructions", I->second.longInstructions);
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print(Out, "Instruction Size", I->second.instructionSize);
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print(Out, "Average Instruction Size",
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double(I->second.instructionSize)/double(I->second.numInstructions));
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print(Out, "Basic Blocks", I->second.numBasicBlocks);
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print(Out, "Operand", I->second.numOperands);
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print(Out, "Function Density", I->second.density);
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