tools/llvmc/CompilerDriver.cpp - fp2-dev/platform/external/llvm - Gitiles

 //===- CompilerDriver.cpp - The LLVM 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 implements the bulk of the LLVM Compiler Driver (llvmc).
 //
 //===------------------------------------------------------------------------===

 #include "CompilerDriver.h"
 #include <iostream>

 using namespace llvm;

 namespace {
   inline std::string RemoveSuffix(const std::string& fullName) {
     size_t dotpos = fullName.rfind('.',fullName.size());
     if ( dotpos == std::string::npos ) return fullName;
     return fullName.substr(0, dotpos);
   }

   inline std::string GetSuffix(const std::string& fullName) {
     size_t dotpos = fullName.rfind('.',fullName.size());
     if ( dotpos = std::string::npos ) return "";
     return fullName.substr(dotpos+1);
   }

   const char OutputSuffix[] = ".o";

   void WriteAction(CompilerDriver::Action* a) {
     std::cerr << a->program;
     std::vector<std::string>::iterator I = a->args.begin();
     while (I != a->args.end()) {
       std::cerr << " " + *I;
       ++I;
     }
     std::cerr << "\n";
   }

   void DumpConfigData(CompilerDriver::ConfigData* cd, const std::string& type ){
     std::cerr << "Configuration Data For '" << cd->langName << "' (" << type
       << ")\n";
     std::cerr << "translator.preprocesses=" << cd->TranslatorPreprocesses
       << "\n";
     std::cerr << "translator.groks_dash_O=" << cd->TranslatorGroksDashO << "\n";
     std::cerr << "translator.optimizes=" << cd->TranslatorOptimizes << "\n";
     std::cerr << "preprocessor.needed=" << cd->PreprocessorNeeded << "\n";
     std::cerr << "PreProcessor: ";
     WriteAction(&cd->PreProcessor);
     std::cerr << "Translator: ";
     WriteAction(&cd->Translator);
     std::cerr << "Optimizer: ";
     WriteAction(&cd->Optimizer);
     std::cerr << "Assembler: ";
     WriteAction(&cd->Assembler);
     std::cerr << "Linker: ";
     WriteAction(&cd->Linker);
   }
 }


 CompilerDriver::CompilerDriver(ConfigDataProvider& confDatProv )
   : cdp(&confDatProv)
   , finalPhase(LINKING)
   , optLevel(OPT_FAST_COMPILE)
   , isDryRun(false)
   , isVerbose(false)
   , isDebug(false)
   , timeActions(false)
   , emitRawCode(false)
   , emitNativeCode(false)
   , machine()
   , libPaths()
 {
   // FIXME: These libraries are platform specific
   libPaths.push_back("/lib");
   libPaths.push_back("/usr/lib");
 }

 CompilerDriver::~CompilerDriver() {
   cdp = 0;
   libPaths.clear();
 }

 void CompilerDriver::error( const std::string& errmsg ) {
   std::cerr << "Error: " << errmsg << ".\n";
   exit(1);
 }

 CompilerDriver::Action* CompilerDriver::GetAction(ConfigData* cd,
                           const std::string& input,
                           const std::string& output,
                           Phases phase)
 {
   Action* pat = 0;
   switch (phase) {
     case PREPROCESSING: pat = &cd->PreProcessor; break;
     case TRANSLATION:   pat = &cd->Translator; break;
     case OPTIMIZATION:  pat = &cd->Optimizer; break;
     case ASSEMBLY:      pat = &cd->Assembler; break;
     case LINKING:       pat = &cd->Linker; break;
     default:
       assert(!"Invalid driver phase!");
       break;
   }
   assert(pat != 0 && "Invalid command pattern");
   Action* a = new Action(*pat);
   if (pat->inputAt < a->args.size())
     a->args[pat->inputAt] = input;
   if (pat->outputAt < a->args.size())
     a->args[pat->outputAt] = output;
   return a;
 }

 void CompilerDriver::DoAction(Action*a)
 {
   if (isVerbose)
     WriteAction(a);
   if (!isDryRun) {
     std::cerr << "execve(\"" << a->program << "\",[\n";
     std::vector<std::string>::iterator I = a->args.begin();
     while (I != a->args.end()) {
       std::cerr << "  \"" << *I << "\",\n";
       ++I;
     }
     std::cerr << "],ENV);\n";
   }
 }

 int CompilerDriver::execute(const InputList& InpList,
                             const std::string& Output ) {
   // Echo the configuration of options if we're running verbose
   if (isDebug)
   {
     std::cerr << "Compiler Driver Options:\n";
     std::cerr << "DryRun = " << isDryRun << "\n";
     std::cerr << "Verbose = " << isVerbose << " \n";
     std::cerr << "TimeActions = " << timeActions << "\n";
     std::cerr << "EmitRawCode = " << emitRawCode << "\n";
     std::cerr << "OutputMachine = " << machine << "\n";
     std::cerr << "EmitNativeCode = " << emitNativeCode << "\n";
     InputList::const_iterator I = InpList.begin();
     while ( I != InpList.end() ) {
       std::cerr << "Input: " << I->first << "(" << I->second << ")\n";
       ++I;
     }
     std::cerr << "Output: " << Output << "\n";
   }

   // If there's no input, we're done.
   if (InpList.empty())
     error("Nothing to compile.");

   // If they are asking for linking and didn't provide an output
   // file then its an error (no way for us to "make up" a meaningful
   // file name based on the various linker input files).
   if (finalPhase == LINKING && Output.empty())
     error("An output file name must be specified for linker output");

   std::vector<Action*> actions;

   /// PRE-PROCESSING / TRANSLATION / OPTIMIZATION / ASSEMBLY phases
   // for each input item
   std::vector<std::string> LinkageItems;
   InputList::const_iterator I = InpList.begin();
   while ( I != InpList.end() ) {
     // Get the suffix of the file name
     std::string suffix = GetSuffix(I->first);

     // If its a library, bytecode file, or object file, save
     // it for linking below and short circuit the
     // pre-processing/translation/assembly phases
     if (I->second.empty() || suffix == "o" || suffix == "bc") {
       // We shouldn't get any of these types of files unless we're
       // later going to link. Enforce this limit now.
       if (finalPhase != LINKING) {
         error("Pre-compiled objects found but linking not requested");
       }
       LinkageItems.push_back(I->first);
       continue; // short circuit remainder of loop
     }

     // At this point, we know its something we need to translate
     // and/or optimize. See if we can get the configuration data
     // for this kind of file.
     ConfigData* cd = cdp->ProvideConfigData(I->second);
     if (cd == 0)
       error(std::string("Files of type '") + I->second +
             "' are not recognized." );
     if (isDebug)
       DumpConfigData(cd,I->second);

     // We have valid configuration data, now figure out where the output
     // of compilation should end up.
     std::string OutFile;
     if (finalPhase != LINKING) {
       if (InpList.size() == 1 && !Output.empty())
         OutFile = Output;
       else
         OutFile = RemoveSuffix(I->first) + OutputSuffix;
     } else {
       OutFile = Output;
     }

     /// PRE-PROCESSING PHASE
     if (finalPhase == PREPROCESSING) {
       if (cd->PreProcessor.program.empty())
         error(cd->langName + " does not support pre-processing");
       else
         actions.push_back(GetAction(cd,I->first,OutFile,PREPROCESSING));
     } else if (cd->PreprocessorNeeded && !cd->TranslatorPreprocesses) {
       if (!cd->PreProcessor.program.empty()) {
         actions.push_back(GetAction(cd,I->first,OutFile,PREPROCESSING));
       }
     }

     // Short-circuit remaining actions if all they want is pre-processing
     if (finalPhase == PREPROCESSING) { ++I; continue; };

     /// TRANSLATION PHASE
     actions.push_back(GetAction(cd,I->first,OutFile,TRANSLATION));
     // Short-circuit remaining actions if all they want is translation
     if (finalPhase == TRANSLATION) { ++I; continue; }

     /// OPTIMIZATION PHASE
     actions.push_back(GetAction(cd,I->first,OutFile,OPTIMIZATION));
     // Short-circuit remaining actions if all they want is optimization
     if (finalPhase == OPTIMIZATION) { ++I; continue; }

     ++I;
   }

   /// LINKING PHASE

   /// RUN THE ACTIONS
   std::vector<Action*>::iterator aIter = actions.begin();
   while (aIter != actions.end()) {
     DoAction(*aIter);
     aIter++;
   }

   return 0;
 }

 // vim: sw=2 smartindent smarttab tw=80 autoindent expandtab
	//===- CompilerDriver.cpp - The LLVM 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 implements the bulk of the LLVM Compiler Driver (llvmc).
	//
	//===------------------------------------------------------------------------===

	#include "CompilerDriver.h"
	#include <iostream>

	using namespace llvm;

	namespace {
	inline std::string RemoveSuffix(const std::string& fullName) {
	size_t dotpos = fullName.rfind('.',fullName.size());
	if ( dotpos == std::string::npos ) return fullName;
	return fullName.substr(0, dotpos);
	}

	inline std::string GetSuffix(const std::string& fullName) {
	size_t dotpos = fullName.rfind('.',fullName.size());
	if ( dotpos = std::string::npos ) return "";
	return fullName.substr(dotpos+1);
	}

	const char OutputSuffix[] = ".o";

	void WriteAction(CompilerDriver::Action* a) {
	std::cerr << a->program;
	std::vector<std::string>::iterator I = a->args.begin();
	while (I != a->args.end()) {
	std::cerr << " " + *I;
	++I;
	}
	std::cerr << "\n";
	}

	void DumpConfigData(CompilerDriver::ConfigData* cd, const std::string& type ){
	std::cerr << "Configuration Data For '" << cd->langName << "' (" << type
	<< ")\n";
	std::cerr << "translator.preprocesses=" << cd->TranslatorPreprocesses
	<< "\n";
	std::cerr << "translator.groks_dash_O=" << cd->TranslatorGroksDashO << "\n";
	std::cerr << "translator.optimizes=" << cd->TranslatorOptimizes << "\n";
	std::cerr << "preprocessor.needed=" << cd->PreprocessorNeeded << "\n";
	std::cerr << "PreProcessor: ";
	WriteAction(&cd->PreProcessor);
	std::cerr << "Translator: ";
	WriteAction(&cd->Translator);
	std::cerr << "Optimizer: ";
	WriteAction(&cd->Optimizer);
	std::cerr << "Assembler: ";
	WriteAction(&cd->Assembler);
	std::cerr << "Linker: ";
	WriteAction(&cd->Linker);
	}
	}


	CompilerDriver::CompilerDriver(ConfigDataProvider& confDatProv )
	: cdp(&confDatProv)
	, finalPhase(LINKING)
	, optLevel(OPT_FAST_COMPILE)
	, isDryRun(false)
	, isVerbose(false)
	, isDebug(false)
	, timeActions(false)
	, emitRawCode(false)
	, emitNativeCode(false)
	, machine()
	, libPaths()
	{
	// FIXME: These libraries are platform specific
	libPaths.push_back("/lib");
	libPaths.push_back("/usr/lib");
	}

	CompilerDriver::~CompilerDriver() {
	cdp = 0;
	libPaths.clear();
	}

	void CompilerDriver::error( const std::string& errmsg ) {
	std::cerr << "Error: " << errmsg << ".\n";
	exit(1);
	}

	CompilerDriver::Action* CompilerDriver::GetAction(ConfigData* cd,
	const std::string& input,
	const std::string& output,
	Phases phase)
	{
	Action* pat = 0;
	switch (phase) {
	case PREPROCESSING: pat = &cd->PreProcessor; break;
	case TRANSLATION: pat = &cd->Translator; break;
	case OPTIMIZATION: pat = &cd->Optimizer; break;
	case ASSEMBLY: pat = &cd->Assembler; break;
	case LINKING: pat = &cd->Linker; break;
	default:
	assert(!"Invalid driver phase!");
	break;
	}
	assert(pat != 0 && "Invalid command pattern");
	Action* a = new Action(*pat);
	if (pat->inputAt < a->args.size())
	a->args[pat->inputAt] = input;
	if (pat->outputAt < a->args.size())
	a->args[pat->outputAt] = output;
	return a;
	}

	void CompilerDriver::DoAction(Action*a)
	{
	if (isVerbose)
	WriteAction(a);
	if (!isDryRun) {
	std::cerr << "execve(\"" << a->program << "\",[\n";
	std::vector<std::string>::iterator I = a->args.begin();
	while (I != a->args.end()) {
	std::cerr << " \"" << *I << "\",\n";
	++I;
	}
	std::cerr << "],ENV);\n";
	}
	}

	int CompilerDriver::execute(const InputList& InpList,
	const std::string& Output ) {
	// Echo the configuration of options if we're running verbose
	if (isDebug)
	{
	std::cerr << "Compiler Driver Options:\n";
	std::cerr << "DryRun = " << isDryRun << "\n";
	std::cerr << "Verbose = " << isVerbose << " \n";
	std::cerr << "TimeActions = " << timeActions << "\n";
	std::cerr << "EmitRawCode = " << emitRawCode << "\n";
	std::cerr << "OutputMachine = " << machine << "\n";
	std::cerr << "EmitNativeCode = " << emitNativeCode << "\n";
	InputList::const_iterator I = InpList.begin();
	while ( I != InpList.end() ) {
	std::cerr << "Input: " << I->first << "(" << I->second << ")\n";
	++I;
	}
	std::cerr << "Output: " << Output << "\n";
	}

	// If there's no input, we're done.
	if (InpList.empty())
	error("Nothing to compile.");

	// If they are asking for linking and didn't provide an output
	// file then its an error (no way for us to "make up" a meaningful
	// file name based on the various linker input files).
	if (finalPhase == LINKING && Output.empty())
	error("An output file name must be specified for linker output");

	std::vector<Action*> actions;

	/// PRE-PROCESSING / TRANSLATION / OPTIMIZATION / ASSEMBLY phases
	// for each input item
	std::vector<std::string> LinkageItems;
	InputList::const_iterator I = InpList.begin();
	while ( I != InpList.end() ) {
	// Get the suffix of the file name
	std::string suffix = GetSuffix(I->first);

	// If its a library, bytecode file, or object file, save
	// it for linking below and short circuit the
	// pre-processing/translation/assembly phases
	if (I->second.empty() \|\| suffix == "o" \|\| suffix == "bc") {
	// We shouldn't get any of these types of files unless we're
	// later going to link. Enforce this limit now.
	if (finalPhase != LINKING) {
	error("Pre-compiled objects found but linking not requested");
	}
	LinkageItems.push_back(I->first);
	continue; // short circuit remainder of loop
	}

	// At this point, we know its something we need to translate
	// and/or optimize. See if we can get the configuration data
	// for this kind of file.
	ConfigData* cd = cdp->ProvideConfigData(I->second);
	if (cd == 0)
	error(std::string("Files of type '") + I->second +
	"' are not recognized." );
	if (isDebug)
	DumpConfigData(cd,I->second);

	// We have valid configuration data, now figure out where the output
	// of compilation should end up.
	std::string OutFile;
	if (finalPhase != LINKING) {
	if (InpList.size() == 1 && !Output.empty())
	OutFile = Output;
	else
	OutFile = RemoveSuffix(I->first) + OutputSuffix;
	} else {
	OutFile = Output;
	}

	/// PRE-PROCESSING PHASE
	if (finalPhase == PREPROCESSING) {
	if (cd->PreProcessor.program.empty())
	error(cd->langName + " does not support pre-processing");
	else
	actions.push_back(GetAction(cd,I->first,OutFile,PREPROCESSING));
	} else if (cd->PreprocessorNeeded && !cd->TranslatorPreprocesses) {
	if (!cd->PreProcessor.program.empty()) {
	actions.push_back(GetAction(cd,I->first,OutFile,PREPROCESSING));
	}
	}

	// Short-circuit remaining actions if all they want is pre-processing
	if (finalPhase == PREPROCESSING) { ++I; continue; };

	/// TRANSLATION PHASE
	actions.push_back(GetAction(cd,I->first,OutFile,TRANSLATION));
	// Short-circuit remaining actions if all they want is translation
	if (finalPhase == TRANSLATION) { ++I; continue; }

	/// OPTIMIZATION PHASE
	actions.push_back(GetAction(cd,I->first,OutFile,OPTIMIZATION));
	// Short-circuit remaining actions if all they want is optimization
	if (finalPhase == OPTIMIZATION) { ++I; continue; }

	++I;
	}

	/// LINKING PHASE

	/// RUN THE ACTIONS
	std::vector<Action*>::iterator aIter = actions.begin();
	while (aIter != actions.end()) {
	DoAction(*aIter);
	aIter++;
	}

	return 0;
	}

	// vim: sw=2 smartindent smarttab tw=80 autoindent expandtab