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Make sure this testcase keeps crashing with -O3. Recent optimization improvements made LLVM realize the store-to-null was unavoidable, so it deleted all of main() and replaced it with 'unreachable'. Because the body of main() no longer even contained a return instruction, calling it caused random code to be ran instead. This happened to be the code that links in the ModuleInfo on my machine, which then returned "successfully".
author Frits van Bommel <fvbommel wxs.nl>
date Sat, 09 May 2009 00:55:47 +0200
parents f99a3b393c03
children ad7f2f1862d6
line wrap: on
line source

/* DMDFE backend stubs
 * This file contains the implementations of the backend routines.
 * For dmdfe these do nothing but print a message saying the module
 * has been parsed. Substitute your own behaviors for these routimes.
 */

#include <cstdarg>

#include "gen/llvm.h"

#include "mtype.h"
#include "declaration.h"
#include "statement.h"

#include "gen/irstate.h"
#include "tollvm.h"

IRState* gIR = 0;
llvm::TargetMachine* gTargetMachine = 0;
const llvm::TargetData* gTargetData = 0;
TargetABI* gABI = 0;

//////////////////////////////////////////////////////////////////////////////////////////
IRScope::IRScope()
{
    begin = end = NULL;
}

IRScope::IRScope(llvm::BasicBlock* b, llvm::BasicBlock* e)
{
    begin = b;
    end = e;
    builder.SetInsertPoint(b);
}

//////////////////////////////////////////////////////////////////////////////////////////
IRTargetScope::IRTargetScope()
{
}

IRTargetScope::IRTargetScope(Statement* s, EnclosingHandler* enclosinghandler, llvm::BasicBlock* continueTarget, llvm::BasicBlock* breakTarget)
{
    this->s = s;
    this->enclosinghandler = enclosinghandler;
    this->breakTarget = breakTarget;
    this->continueTarget = continueTarget;
}

//////////////////////////////////////////////////////////////////////////////////////////
IRState::IRState(llvm::Module* m)
    : module(m), difactory(*m)
{
    interfaceInfoType = NULL;
    mutexType = NULL;
    moduleRefType = NULL;

    dmodule = 0;
    emitMain = false;
    mainFunc = 0;
    ir.state = this;
    asmBlock = NULL;

    dwarfCUs = NULL;
    dwarfSPs = NULL;
    dwarfGVs = NULL;
}

IrFunction* IRState::func()
{
    assert(!functions.empty() && "Function stack is empty!");
    return functions.back();
}

llvm::Function* IRState::topfunc()
{
    assert(!functions.empty() && "Function stack is empty!");
    return functions.back()->func;
}

TypeFunction* IRState::topfunctype()
{
    assert(!functions.empty() && "Function stack is empty!");
    return functions.back()->type;
}

llvm::Instruction* IRState::topallocapoint()
{
    assert(!functions.empty() && "AllocaPoint stack is empty!");
    return functions.back()->allocapoint;
}

IrStruct* IRState::topstruct()
{
    assert(!structs.empty() && "Struct vector is empty!");
    return structs.back();
}

IRScope& IRState::scope()
{
    assert(!scopes.empty());
    return scopes.back();
}

llvm::BasicBlock* IRState::scopebb()
{
    IRScope& s = scope();
    assert(s.begin);
    return s.begin;
}
llvm::BasicBlock* IRState::scopeend()
{
    IRScope& s = scope();
    assert(s.end);
    return s.end;
}
bool IRState::scopereturned()
{
    //return scope().returned;
    return !scopebb()->empty() && scopebb()->back().isTerminator();
}

LLCallSite IRState::CreateCallOrInvoke(LLValue* Callee, const char* Name)
{
    LLSmallVector<LLValue*, 1> args;
    return CreateCallOrInvoke(Callee, args.begin(), args.end(), Name);
}

LLCallSite IRState::CreateCallOrInvoke(LLValue* Callee, LLValue* Arg1, const char* Name)
{
    LLSmallVector<LLValue*, 1> args;
    args.push_back(Arg1);
    return CreateCallOrInvoke(Callee, args.begin(), args.end(), Name);
}

LLCallSite IRState::CreateCallOrInvoke2(LLValue* Callee, LLValue* Arg1, LLValue* Arg2, const char* Name)
{
    LLSmallVector<LLValue*, 2> args;
    args.push_back(Arg1);
    args.push_back(Arg2);
    return CreateCallOrInvoke(Callee, args.begin(), args.end(), Name);
}

LLCallSite IRState::CreateCallOrInvoke3(LLValue* Callee, LLValue* Arg1, LLValue* Arg2, LLValue* Arg3, const char* Name)
{
    LLSmallVector<LLValue*, 3> args;
    args.push_back(Arg1);
    args.push_back(Arg2);
    args.push_back(Arg3);
    return CreateCallOrInvoke(Callee, args.begin(), args.end(), Name);
}

LLCallSite IRState::CreateCallOrInvoke4(LLValue* Callee, LLValue* Arg1, LLValue* Arg2,  LLValue* Arg3, LLValue* Arg4, const char* Name)
{
    LLSmallVector<LLValue*, 4> args;
    args.push_back(Arg1);
    args.push_back(Arg2);
    args.push_back(Arg3);
    args.push_back(Arg4);
    return CreateCallOrInvoke(Callee, args.begin(), args.end(), Name);
}


//////////////////////////////////////////////////////////////////////////////////////////

IRBuilder<>* IRBuilderHelper::operator->()
{
    IRBuilder<>& b = state->scope().builder;
    assert(b.GetInsertBlock() != NULL);
    return &b;
}