llvm-6502/tools/llvmc/CompilerDriver.h

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//===- CompilerDriver.h - Compiler Driver -----------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file was developed by Reid Spencer and is distributed under the
// University of Illinois Open Source License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file declares the CompilerDriver class which implements the bulk of the
// LLVM Compiler Driver program (llvmc).
//
//===------------------------------------------------------------------------===
#ifndef LLVM_TOOLS_LLVMC_COMPILERDRIVER_H
#define LLVM_TOOLS_LLVMC_COMPILERDRIVER_H
#include <string>
#include <vector>
#include "llvm/System/Program.h"
namespace llvm {
/// This class provides the high level interface to the LLVM Compiler Driver.
/// The driver's purpose is to make it easier for compiler writers and users
/// of LLVM to utilize the compiler toolkits and LLVM toolset by learning only
/// the interface of one program (llvmc).
///
/// @see llvmc.cpp
/// @brief The interface to the LLVM Compiler Driver.
class CompilerDriver {
/// @name Types
/// @{
public:
/// @brief A vector of strings, used for argument lists
typedef std::vector<std::string> StringVector;
/// @brief A vector of sys::Path, used for path lists
typedef std::vector<sys::Path> PathVector;
/// @brief A table of strings, indexed typically by Phases
typedef std::vector<StringVector> StringTable;
/// @brief The phases of processing that llvmc understands
enum Phases {
PREPROCESSING, ///< Source language combining, filtering, substitution
TRANSLATION, ///< Translate source -> LLVM bytecode/assembly
OPTIMIZATION, ///< Optimize translation result
ASSEMBLY, ///< Convert program to executable
LINKING, ///< Link bytecode and native code
NUM_PHASES ///< Always last!
};
/// @brief The levels of optimization llvmc understands
enum OptimizationLevels {
OPT_FAST_COMPILE, ///< Optimize to make >compile< go faster
OPT_SIMPLE, ///< Standard/simple optimizations
OPT_AGGRESSIVE, ///< Aggressive optimizations
OPT_LINK_TIME, ///< Aggressive + LinkTime optimizations
OPT_AGGRESSIVE_LINK_TIME, ///< Make it go way fast!
OPT_NONE ///< No optimizations. Keep this at the end!
};
/// @brief Action specific flags
enum ConfigurationFlags {
REQUIRED_FLAG = 0x0001, ///< Should the action always be run?
PREPROCESSES_FLAG = 0x0002, ///< Does this action preprocess?
TRANSLATES_FLAG = 0x0004, ///< Does this action translate?
OUTPUT_IS_ASM_FLAG = 0x0008, ///< Action produces .ll files?
FLAGS_MASK = 0x000F, ///< Union of all flags
};
/// This type is the input list to the CompilerDriver. It provides
/// a vector of pathname/filetype pairs. The filetype is used to look up
/// the configuration of the actions to be taken by the driver.
/// @brief The Input Data to the execute method
typedef std::vector<std::pair<sys::Path,std::string> > InputList;
/// This type is read from configuration files or otherwise provided to
/// the CompilerDriver through a "ConfigDataProvider". It serves as both
/// the template of what to do and the actual Action to be executed.
/// @brief A structure to hold the action data for a given source
/// language.
struct Action {
Action() : flags(0) {}
sys::Path program; ///< The program to execve
StringVector args; ///< Arguments to the program
unsigned flags; ///< Action specific flags
void set(unsigned fl ) { flags |= fl; }
void clear(unsigned fl) { flags &= (FLAGS_MASK ^ fl); }
bool isSet(unsigned fl) { return (flags&fl) != 0; }
};
struct ConfigData {
ConfigData();
std::string version; ///< The version number.
std::string langName; ///< The name of the source language
StringTable opts; ///< The o10n options for each level
StringVector libpaths; ///< The library paths
Action PreProcessor; ///< PreProcessor command line
Action Translator; ///< Translator command line
Action Optimizer; ///< Optimizer command line
Action Assembler; ///< Assembler command line
Action Linker; ///< Linker command line
};
/// This pure virtual interface class defines the interface between the
/// CompilerDriver and other software that provides ConfigData objects to
/// it. The CompilerDriver must be configured to use an object of this
/// type so it can obtain the configuration data.
/// @see setConfigDataProvider
/// @brief Configuration Data Provider interface
class ConfigDataProvider {
public:
virtual ConfigData* ProvideConfigData(const std::string& filetype) = 0;
virtual void setConfigDir(const sys::Path& dirName) = 0;
};
/// These flags control various actions of the compiler driver. They are
/// used by adding the needed flag values together and passing them to the
/// compiler driver's setDriverFlags method.
/// @see setDriverFlags
/// @brief Driver specific flags
enum DriverFlags {
DRY_RUN_FLAG = 0x0001, ///< Do everything but execute actions
VERBOSE_FLAG = 0x0002, ///< Print each action
DEBUG_FLAG = 0x0004, ///< Print debug information
TIME_PASSES_FLAG = 0x0008, ///< Time the passes as they execute
TIME_ACTIONS_FLAG = 0x0010, ///< Time the actions as they execute
SHOW_STATS_FLAG = 0x0020, ///< Show pass statistics
EMIT_NATIVE_FLAG = 0x0040, ///< Emit native code instead of bc
EMIT_RAW_FLAG = 0x0080, ///< Emit raw, unoptimized bytecode
KEEP_TEMPS_FLAG = 0x0100, ///< Don't delete temporary files
STRIP_OUTPUT_FLAG = 0x0200, ///< Strip symbols from linked output
DRIVER_FLAGS_MASK = 0x03FF, ///< Union of the above flags
};
/// @}
/// @name Constructors
/// @{
public:
/// @brief Static Constructor
static CompilerDriver* Get(ConfigDataProvider& CDP);
/// @brief Virtual destructor
virtual ~CompilerDriver();
/// @}
/// @name Methods
/// @{
public:
/// @brief Execute the actions requested for the given input list.
virtual int execute(const InputList& list, const sys::Path& output) = 0;
/// @brief Set the final phase at which compilation terminates
virtual void setFinalPhase(Phases phase) = 0;
/// @brief Set the optimization level for the compilation
virtual void setOptimization(OptimizationLevels level) = 0;
/// @brief Set the driver flags.
virtual void setDriverFlags(unsigned flags) = 0;
/// @brief Set the output machine name.
virtual void setOutputMachine(const std::string& machineName) = 0;
/// @brief Set the options for a given phase.
virtual void setPhaseArgs(Phases phase, const StringVector& opts) = 0;
/// @brief Set Library Paths
virtual void setIncludePaths(const StringVector& paths) = 0;
/// @brief Set Library Paths
virtual void setSymbolDefines(const StringVector& paths) = 0;
/// @brief Set Library Paths
virtual void setLibraryPaths(const StringVector& paths) = 0;
/// @brief Add a path to the list of library paths
virtual void addLibraryPath( const sys::Path& libPath ) = 0;
/// @brief Add a path to the list of paths in which to find tools
virtual void addToolPath( const sys::Path& toolPath) = 0;
/// @brief Set the list of -f options to be passed through
virtual void setfPassThrough(const StringVector& fOpts) = 0;
/// @brief Set the list of -M options to be passed through
virtual void setMPassThrough(const StringVector& fOpts) = 0;
/// @brief Set the list of -W options to be passed through
virtual void setWPassThrough(const StringVector& fOpts) = 0;
/// @brief Determine where a linkage file is located in the file system
virtual sys::Path GetPathForLinkageItem(
const std::string& link_item, ///< Item to be sought
bool native = false ///< Looking for native?
) = 0;
/// @}
};
}
// vim: sw=2 smartindent smarttab tw=80 autoindent expandtab
#endif