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4ad5efd1a9
llvm-svn: 21409
145 lines
6.7 KiB
C++
145 lines
6.7 KiB
C++
//===-- llvm/Bytecode/Analyzer.h - Analyzer for Bytecode files --*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file was developed by Reid Spencer and is distributed under the
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// University of Illinois Open Source License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This functionality is implemented by the lib/Bytecode/Reader library.
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// It is used to read VM bytecode files from a file or memory buffer
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// and print out a diagnostic analysis of the contents of the file. It is
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// intended for three uses: (a) understanding the bytecode format, (b) ensuring
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// correctness of bytecode format, (c) statistical analysis of generated
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// bytecode files.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_BYTECODE_ANALYZER_H
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#define LLVM_BYTECODE_ANALYZER_H
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#include "llvm/Bytecode/Format.h"
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#include <string>
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#include <map>
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#include <iostream>
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namespace llvm {
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// Forward declarations
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class Function;
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class Module;
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/// This structure is used to contain the output of the Bytecode Analysis
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/// library. It simply contains fields to hold each item of the analysis
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/// results.
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/// @brief Bytecode Analysis results structure
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struct BytecodeAnalysis {
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std::string ModuleId; ///< Identification of the module
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unsigned version; ///< The version number of the bytecode file
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unsigned byteSize; ///< The size of the bytecode file in bytes
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unsigned numTypes; ///< The number of types
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unsigned numValues; ///< The number of values
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unsigned numBlocks; ///< The number of *bytecode* blocks
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unsigned numFunctions; ///< The number of functions defined
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unsigned numConstants; ///< The number of constants
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unsigned numGlobalVars; ///< The number of global variables
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unsigned numInstructions; ///< The number of instructions in all functions
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unsigned numBasicBlocks; ///< The number of BBs in all functions
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unsigned numOperands; ///< The number of BBs in all functions
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unsigned numCmpctnTables; ///< The number of compaction tables
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unsigned numSymTab; ///< The number of symbol tables
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unsigned numAlignment; ///< The number of alignment bytes
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unsigned numLibraries; ///< The number of dependent libraries
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unsigned libSize; ///< Number of bytes taken by dep libs.
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unsigned maxTypeSlot; ///< The maximum slot number for types
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unsigned maxValueSlot; ///< The maximum slot number for values
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double fileDensity; ///< Density of file (bytes/definition)
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///< This is the density of the bytecode file. It is the ratio of
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///< the number of bytes to the number of definitions in the file. Smaller
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///< numbers mean the file is more compact (denser). Larger numbers mean
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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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unsigned vbrExpdBytes; ///< Number of vbr bytes (expanded)
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typedef std::map<BytecodeFormat::CompressedBytecodeBlockIdentifiers,unsigned>
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BlockSizeMap;
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BlockSizeMap BlockSizes;
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/// A structure that contains various pieces of information related to
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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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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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unsigned vbrExpdBytes; ///< Number of vbr bytes (expanded)
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};
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/// A mapping of function slot numbers to the collected information about
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/// the function.
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std::map<const Function*,BytecodeFunctionInfo> FunctionInfo;
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/// The content of the progressive verification
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std::string VerifyInfo;
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/// Flags for what should be done
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bool detailedResults; ///< If true, FunctionInfo has contents
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bool progressiveVerify; ///< If true, VerifyInfo has contents
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};
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/// This function is the main entry point into the bytecode analysis library. It
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/// allows you to simply provide a \p filename and storage for the \p Results
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/// that will be filled in with the analysis results.
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/// @brief Analyze contents of a bytecode File
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Module* AnalyzeBytecodeFile(
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const std::string& Filename, ///< The name of the bytecode file to read
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BytecodeAnalysis& Results, ///< The results of the analysis
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std::string* ErrorStr = 0, ///< Errors, if any.
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std::ostream* output = 0 ///< Stream for dump output, if wanted
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);
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/// This function is an alternate entry point into the bytecode analysis
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/// library. It allows you to provide an arbitrary memory buffer which is
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/// assumed to contain a complete bytecode file. The \p Buffer is analyzed and
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/// the \p Results are filled in.
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/// @brief Analyze contents of a bytecode buffer.
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Module* AnalyzeBytecodeBuffer(
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const unsigned char* Buffer, ///< Pointer to start of bytecode buffer
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unsigned BufferSize, ///< Size of the bytecode buffer
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const std::string& ModuleID, ///< Identifier for the module
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BytecodeAnalysis& Results, ///< The results of the analysis
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std::string* ErrorStr = 0, ///< Errors, if any.
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std::ostream* output = 0 ///< Stream for dump output, if wanted
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);
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/// This function prints the contents of rhe BytecodeAnalysis structure in
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/// a human legible form.
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/// @brief Print BytecodeAnalysis structure to an ostream
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void PrintBytecodeAnalysis(BytecodeAnalysis& bca, std::ostream& Out );
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/// @brief std::ostream inserter for BytecodeAnalysis structure
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inline std::ostream& operator<<(std::ostream& Out, BytecodeAnalysis& bca ) {
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PrintBytecodeAnalysis(bca,Out);
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return Out;
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}
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} // End llvm namespace
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#endif
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