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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 5f340a6dc749
children 3f5ea912149d
line wrap: on
line source


#include "gen/llvm.h"
#include "gen/tollvm.h"
#include "gen/abi.h"
#include "gen/dvalue.h"
#include "gen/logger.h"
#include "ir/irfunction.h"
#include "ir/irfuncty.h"

#include <sstream>

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

IrFuncTyArg::IrFuncTyArg(Type* t, bool bref, unsigned a)
{
    type = t;
    ltype = bref ? DtoType(t->pointerTo()) : DtoType(t);
    attrs = a;
    byref = bref;
    rewrite = NULL;
}

bool IrFuncTyArg::isInReg() const { return (attrs & llvm::Attribute::InReg) != 0; }
bool IrFuncTyArg::isSRet() const  { return (attrs & llvm::Attribute::StructRet) != 0; }
bool IrFuncTyArg::isByVal() const { return (attrs & llvm::Attribute::ByVal) != 0; }

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

llvm::Value* IrFuncTy::putRet(Type* dty, DValue* val)
{
    assert(!arg_sret);
    if (ret->rewrite) {
        Logger::println("Rewrite: putRet");
        LOG_SCOPE
        return ret->rewrite->put(dty, val);
    }
    return val->getRVal();
}

llvm::Value* IrFuncTy::getRet(Type* dty, DValue* val)
{
    assert(!arg_sret);
    if (ret->rewrite) {
        Logger::println("Rewrite: getRet");
        LOG_SCOPE
        return ret->rewrite->get(dty, val);
    }
    return val->getRVal();
}

llvm::Value* IrFuncTy::putParam(Type* dty, int idx, DValue* val)
{
    assert(idx >= 0 && idx < args.size() && "invalid putParam");
    if (args[idx]->rewrite) {
        Logger::println("Rewrite: putParam");
        LOG_SCOPE
        return args[idx]->rewrite->put(dty, val);
    }
    return val->getRVal();
}

llvm::Value* IrFuncTy::getParam(Type* dty, int idx, DValue* val)
{
    assert(idx >= 0 && idx < args.size() && "invalid getParam");
    if (args[idx]->rewrite) {
        Logger::println("Rewrite: getParam (get)");
        LOG_SCOPE
        return args[idx]->rewrite->get(dty, val);
    }
    return val->getRVal();
}

void IrFuncTy::getParam(Type* dty, int idx, DValue* val, llvm::Value* lval)
{
    assert(idx >= 0 && idx < args.size() && "invalid getParam");

    if (args[idx]->rewrite)
    {
        Logger::println("Rewrite: getParam (getL)");
        LOG_SCOPE
        args[idx]->rewrite->getL(dty, val, lval);
        return;
    }

    DtoStore(val->getRVal(), lval);
}

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

IrFunction::IrFunction(FuncDeclaration* fd)
{
    decl = fd;

    Type* t = fd->type->toBasetype();
    assert(t->ty == Tfunction);
    type = (TypeFunction*)t;
    func = NULL;
    allocapoint = NULL;

    queued = false;
    defined = false;

    retArg = NULL;
    thisArg = NULL;
    nestArg = NULL;

    nestedVar = NULL;
    frameType = NULL;
    depth = -1;
    
    _arguments = NULL;
    _argptr = NULL;
    
    nextUnique.push(0);
}

std::string IrFunction::getScopedLabelName(const char* ident)
{
    if(labelScopes.empty())
        return std::string(ident);

    std::string result = "__";
    for(unsigned int i = 0; i < labelScopes.size(); ++i)
        result += labelScopes[i] + "_";
    return result + ident;
}

void IrFunction::pushUniqueLabelScope(const char* name)
{
    std::ostringstream uniquename;
    uniquename << name << nextUnique.top()++;
    nextUnique.push(0);
    labelScopes.push_back(uniquename.str());
}

void IrFunction::popLabelScope()
{
    labelScopes.pop_back();
    nextUnique.pop();
}

void IrFunction::setNeverInline()
{
    assert(!func->hasFnAttr(llvm::Attribute::AlwaysInline) && "function can't be never- and always-inline at the same time");
    func->addFnAttr(llvm::Attribute::NoInline);
}

void IrFunction::setAlwaysInline()
{
    assert(!func->hasFnAttr(llvm::Attribute::NoInline) && "function can't be never- and always-inline at the same time");
    func->addFnAttr(llvm::Attribute::AlwaysInline);
}