src/IceCompiler.cpp - SwiftShader - Git at Google

 //===- subzero/src/IceCompiler.cpp - Driver for bitcode translation -------===//
 //
 //                        The Subzero Code Generator
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 ///
 /// \file
 /// This file defines a driver for translating PNaCl bitcode into native code.
 /// It can either directly parse the binary bitcode file, or use LLVM routines
 /// to parse a textual bitcode file into LLVM IR and then convert LLVM IR into
 /// ICE. In either case, the high-level ICE is then compiled down to native
 /// code, as either an ELF object file or a textual asm file.
 ///
 //===----------------------------------------------------------------------===//

 #include "IceCompiler.h"

 #include "IceCfg.h"
 #include "IceClFlags.h"
 #include "IceClFlagsExtra.h"
 #include "IceConverter.h"
 #include "IceELFObjectWriter.h"
 #include "PNaClTranslator.h"

 #pragma clang diagnostic push
 #pragma clang diagnostic ignored "-Wunused-parameter"
 #include "llvm/ADT/STLExtras.h"
 #include "llvm/IR/LLVMContext.h"
 #include "llvm/IR/Module.h"
 #include "llvm/IRReader/IRReader.h"
 #include "llvm/Support/SourceMgr.h"
 #include "llvm/Support/StreamingMemoryObject.h"
 #pragma clang diagnostic pop

 namespace Ice {

 namespace {

 struct {
   const char *FlagName;
   int FlagValue;
 } ConditionalBuildAttributes[] = {
     {"dump", BuildDefs::dump()},
     {"disable_ir_gen", BuildDefs::disableIrGen()},
     {"llvm_cl", BuildDefs::llvmCl()},
     {"llvm_ir", BuildDefs::llvmIr()},
     {"llvm_ir_as_input", BuildDefs::llvmIrAsInput()},
     {"minimal_build", BuildDefs::minimal()},
     {"browser_mode", PNACL_BROWSER_TRANSLATOR}};

 // Validates values of build attributes. Prints them to Stream if
 // Stream is non-null.
 void validateAndGenerateBuildAttributes(Ostream *Stream) {
   // List the supported targets.
   if (Stream) {
 #define SUBZERO_TARGET(TARGET) *Stream << "target_" #TARGET << "\n";
 #include "llvm/Config/SZTargets.def"
   }

   for (size_t i = 0; i < llvm::array_lengthof(ConditionalBuildAttributes);
        ++i) {
     switch (ConditionalBuildAttributes[i].FlagValue) {
     case 0:
       if (Stream)
         *Stream << "no_" << ConditionalBuildAttributes[i].FlagName << "\n";
       break;
     case 1:
       if (Stream)
         *Stream << "allow_" << ConditionalBuildAttributes[i].FlagName << "\n";
       break;
     default: {
       std::string Buffer;
       llvm::raw_string_ostream StrBuf(Buffer);
       StrBuf << "Flag " << ConditionalBuildAttributes[i].FlagName
              << " must be defined as 0/1. Found: "
              << ConditionalBuildAttributes[i].FlagValue;
       llvm::report_fatal_error(StrBuf.str());
     }
     }
   }
 }

 } // end of anonymous namespace

 void Compiler::run(const Ice::ClFlagsExtra &ExtraFlags, GlobalContext &Ctx,
                    std::unique_ptr<llvm::DataStreamer> &&InputStream) {
   validateAndGenerateBuildAttributes(
       ExtraFlags.getGenerateBuildAtts() ? &Ctx.getStrDump() : nullptr);
   if (ExtraFlags.getGenerateBuildAtts())
     return Ctx.getErrorStatus()->assign(EC_None);

   if (!BuildDefs::disableIrGen() && Ctx.getFlags().getDisableIRGeneration()) {
     Ctx.getStrError() << "Error: Build doesn't allow --no-ir-gen when not "
                       << "ALLOW_DISABLE_IR_GEN!\n";
     return Ctx.getErrorStatus()->assign(EC_Args);
   }

   // The Minimal build (specifically, when dump()/emit() are not implemented)
   // allows only --filetype=obj.  Check here to avoid cryptic error messages
   // downstream.
   if (!BuildDefs::dump() && Ctx.getFlags().getOutFileType() != FT_Elf) {
     // TODO(stichnot): Access the actual command-line argument via
     // llvm::Option.ArgStr and .ValueStr .
     Ctx.getStrError()
         << "Error: only --filetype=obj is supported in this build.\n";
     return Ctx.getErrorStatus()->assign(EC_Args);
   }

   // Force -build-on-read=0 for .ll files.
   const std::string LLSuffix = ".ll";
   const IceString &IRFilename = ExtraFlags.getIRFilename();
   bool BuildOnRead = ExtraFlags.getBuildOnRead();
   if (BuildDefs::llvmIrAsInput() && IRFilename.length() >= LLSuffix.length() &&
       IRFilename.compare(IRFilename.length() - LLSuffix.length(),
                          LLSuffix.length(), LLSuffix) == 0)
     BuildOnRead = false;

   TimerMarker T(Ice::TimerStack::TT_szmain, &Ctx);

   Ctx.emitFileHeader();
   Ctx.startWorkerThreads();

   std::unique_ptr<Translator> Translator;
   if (BuildOnRead) {
     std::unique_ptr<PNaClTranslator> PTranslator(new PNaClTranslator(&Ctx));
     std::unique_ptr<llvm::StreamingMemoryObject> MemObj(
         new llvm::StreamingMemoryObjectImpl(InputStream.release()));
     PTranslator->translate(IRFilename, std::move(MemObj));
     Translator.reset(PTranslator.release());
   } else if (BuildDefs::llvmIr()) {
     if (PNACL_BROWSER_TRANSLATOR) {
       Ctx.getStrError()
           << "non BuildOnRead is not supported w/ PNACL_BROWSER_TRANSLATOR\n";
       return Ctx.getErrorStatus()->assign(EC_Args);
     }
     // Parse the input LLVM IR file into a module.
     llvm::SMDiagnostic Err;
     TimerMarker T1(Ice::TimerStack::TT_parse, &Ctx);
     llvm::raw_ostream *Verbose =
         ExtraFlags.getLLVMVerboseErrors() ? &llvm::errs() : nullptr;
     std::unique_ptr<llvm::Module> Mod =
         NaClParseIRFile(IRFilename, ExtraFlags.getInputFileFormat(), Err,
                         Verbose, llvm::getGlobalContext());
     if (!Mod) {
       Err.print(ExtraFlags.getAppName().c_str(), llvm::errs());
       return Ctx.getErrorStatus()->assign(EC_Bitcode);
     }

     std::unique_ptr<Converter> Converter(new class Converter(Mod.get(), &Ctx));
     Converter->convertToIce();
     Translator.reset(Converter.release());
   } else {
     Ctx.getStrError() << "Error: Build doesn't allow LLVM IR, "
                       << "--build-on-read=0 not allowed\n";
     return Ctx.getErrorStatus()->assign(EC_Args);
   }

   Ctx.waitForWorkerThreads();
   if (Translator->getErrorStatus()) {
     Ctx.getErrorStatus()->assign(Translator->getErrorStatus().value());
   } else {
     Ctx.lowerGlobals("last");
     Ctx.lowerProfileData();
     Ctx.lowerConstants();
     Ctx.lowerJumpTables();

     if (Ctx.getFlags().getOutFileType() == FT_Elf) {
       TimerMarker T1(Ice::TimerStack::TT_emit, &Ctx);
       Ctx.getObjectWriter()->setUndefinedSyms(Ctx.getConstantExternSyms());
       Ctx.getObjectWriter()->writeNonUserSections();
     }
   }

   if (Ctx.getFlags().getSubzeroTimingEnabled())
     Ctx.dumpTimers();

   if (Ctx.getFlags().getTimeEachFunction()) {
     const bool DumpCumulative = false;
     Ctx.dumpTimers(GlobalContext::TSK_Funcs, DumpCumulative);
   }
   constexpr bool FinalStats = true;
   Ctx.dumpStats("_FINAL_", FinalStats);
 }

 } // end of namespace Ice
	//===- subzero/src/IceCompiler.cpp - Driver for bitcode translation -------===//
	//
	// The Subzero Code Generator
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	///
	/// \file
	/// This file defines a driver for translating PNaCl bitcode into native code.
	/// It can either directly parse the binary bitcode file, or use LLVM routines
	/// to parse a textual bitcode file into LLVM IR and then convert LLVM IR into
	/// ICE. In either case, the high-level ICE is then compiled down to native
	/// code, as either an ELF object file or a textual asm file.
	///
	//===----------------------------------------------------------------------===//

	#include "IceCompiler.h"

	#include "IceCfg.h"
	#include "IceClFlags.h"
	#include "IceClFlagsExtra.h"
	#include "IceConverter.h"
	#include "IceELFObjectWriter.h"
	#include "PNaClTranslator.h"

	#pragma clang diagnostic push
	#pragma clang diagnostic ignored "-Wunused-parameter"
	#include "llvm/ADT/STLExtras.h"
	#include "llvm/IR/LLVMContext.h"
	#include "llvm/IR/Module.h"
	#include "llvm/IRReader/IRReader.h"
	#include "llvm/Support/SourceMgr.h"
	#include "llvm/Support/StreamingMemoryObject.h"
	#pragma clang diagnostic pop

	namespace Ice {

	namespace {

	struct {
	const char *FlagName;
	int FlagValue;
	} ConditionalBuildAttributes[] = {
	{"dump", BuildDefs::dump()},
	{"disable_ir_gen", BuildDefs::disableIrGen()},
	{"llvm_cl", BuildDefs::llvmCl()},
	{"llvm_ir", BuildDefs::llvmIr()},
	{"llvm_ir_as_input", BuildDefs::llvmIrAsInput()},
	{"minimal_build", BuildDefs::minimal()},
	{"browser_mode", PNACL_BROWSER_TRANSLATOR}};

	// Validates values of build attributes. Prints them to Stream if
	// Stream is non-null.
	void validateAndGenerateBuildAttributes(Ostream *Stream) {
	// List the supported targets.
	if (Stream) {
	#define SUBZERO_TARGET(TARGET) *Stream << "target_" #TARGET << "\n";
	#include "llvm/Config/SZTargets.def"
	}

	for (size_t i = 0; i < llvm::array_lengthof(ConditionalBuildAttributes);
	++i) {
	switch (ConditionalBuildAttributes[i].FlagValue) {
	case 0:
	if (Stream)
	*Stream << "no_" << ConditionalBuildAttributes[i].FlagName << "\n";
	break;
	case 1:
	if (Stream)
	*Stream << "allow_" << ConditionalBuildAttributes[i].FlagName << "\n";
	break;
	default: {
	std::string Buffer;
	llvm::raw_string_ostream StrBuf(Buffer);
	StrBuf << "Flag " << ConditionalBuildAttributes[i].FlagName
	<< " must be defined as 0/1. Found: "
	<< ConditionalBuildAttributes[i].FlagValue;
	llvm::report_fatal_error(StrBuf.str());
	}
	}
	}
	}

	} // end of anonymous namespace

	void Compiler::run(const Ice::ClFlagsExtra &ExtraFlags, GlobalContext &Ctx,
	std::unique_ptr<llvm::DataStreamer> &&InputStream) {
	validateAndGenerateBuildAttributes(
	ExtraFlags.getGenerateBuildAtts() ? &Ctx.getStrDump() : nullptr);
	if (ExtraFlags.getGenerateBuildAtts())
	return Ctx.getErrorStatus()->assign(EC_None);

	if (!BuildDefs::disableIrGen() && Ctx.getFlags().getDisableIRGeneration()) {
	Ctx.getStrError() << "Error: Build doesn't allow --no-ir-gen when not "
	<< "ALLOW_DISABLE_IR_GEN!\n";
	return Ctx.getErrorStatus()->assign(EC_Args);
	}

	// The Minimal build (specifically, when dump()/emit() are not implemented)
	// allows only --filetype=obj. Check here to avoid cryptic error messages
	// downstream.
	if (!BuildDefs::dump() && Ctx.getFlags().getOutFileType() != FT_Elf) {
	// TODO(stichnot): Access the actual command-line argument via
	// llvm::Option.ArgStr and .ValueStr .
	Ctx.getStrError()
	<< "Error: only --filetype=obj is supported in this build.\n";
	return Ctx.getErrorStatus()->assign(EC_Args);
	}

	// Force -build-on-read=0 for .ll files.
	const std::string LLSuffix = ".ll";
	const IceString &IRFilename = ExtraFlags.getIRFilename();
	bool BuildOnRead = ExtraFlags.getBuildOnRead();
	if (BuildDefs::llvmIrAsInput() && IRFilename.length() >= LLSuffix.length() &&
	IRFilename.compare(IRFilename.length() - LLSuffix.length(),
	LLSuffix.length(), LLSuffix) == 0)
	BuildOnRead = false;

	TimerMarker T(Ice::TimerStack::TT_szmain, &Ctx);

	Ctx.emitFileHeader();
	Ctx.startWorkerThreads();

	std::unique_ptr<Translator> Translator;
	if (BuildOnRead) {
	std::unique_ptr<PNaClTranslator> PTranslator(new PNaClTranslator(&Ctx));
	std::unique_ptr<llvm::StreamingMemoryObject> MemObj(
	new llvm::StreamingMemoryObjectImpl(InputStream.release()));
	PTranslator->translate(IRFilename, std::move(MemObj));
	Translator.reset(PTranslator.release());
	} else if (BuildDefs::llvmIr()) {
	if (PNACL_BROWSER_TRANSLATOR) {
	Ctx.getStrError()
	<< "non BuildOnRead is not supported w/ PNACL_BROWSER_TRANSLATOR\n";
	return Ctx.getErrorStatus()->assign(EC_Args);
	}
	// Parse the input LLVM IR file into a module.
	llvm::SMDiagnostic Err;
	TimerMarker T1(Ice::TimerStack::TT_parse, &Ctx);
	llvm::raw_ostream *Verbose =
	ExtraFlags.getLLVMVerboseErrors() ? &llvm::errs() : nullptr;
	std::unique_ptr<llvm::Module> Mod =
	NaClParseIRFile(IRFilename, ExtraFlags.getInputFileFormat(), Err,
	Verbose, llvm::getGlobalContext());
	if (!Mod) {
	Err.print(ExtraFlags.getAppName().c_str(), llvm::errs());
	return Ctx.getErrorStatus()->assign(EC_Bitcode);
	}

	std::unique_ptr<Converter> Converter(new class Converter(Mod.get(), &Ctx));
	Converter->convertToIce();
	Translator.reset(Converter.release());
	} else {
	Ctx.getStrError() << "Error: Build doesn't allow LLVM IR, "
	<< "--build-on-read=0 not allowed\n";
	return Ctx.getErrorStatus()->assign(EC_Args);
	}

	Ctx.waitForWorkerThreads();
	if (Translator->getErrorStatus()) {
	Ctx.getErrorStatus()->assign(Translator->getErrorStatus().value());
	} else {
	Ctx.lowerGlobals("last");
	Ctx.lowerProfileData();
	Ctx.lowerConstants();
	Ctx.lowerJumpTables();

	if (Ctx.getFlags().getOutFileType() == FT_Elf) {
	TimerMarker T1(Ice::TimerStack::TT_emit, &Ctx);
	Ctx.getObjectWriter()->setUndefinedSyms(Ctx.getConstantExternSyms());
	Ctx.getObjectWriter()->writeNonUserSections();
	}
	}

	if (Ctx.getFlags().getSubzeroTimingEnabled())
	Ctx.dumpTimers();

	if (Ctx.getFlags().getTimeEachFunction()) {
	const bool DumpCumulative = false;
	Ctx.dumpTimers(GlobalContext::TSK_Funcs, DumpCumulative);
	}
	constexpr bool FinalStats = true;
	Ctx.dumpStats("_FINAL_", FinalStats);
	}

	} // end of namespace Ice