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Fix for dual operand form of fistp, also make reg ST(0) explicit and fix lindquists previous code that allowed dual operand form of fstp but dissallowed the single operand form accidently
author Kelly Wilson <wilsonk cpsc.ucalgary.ca>
date Tue, 10 Mar 2009 06:23:26 -0600
parents 8c73ff5f69e0
children af625ea2d3cf
line wrap: on
line source

#include "gen/llvm.h"

#include "mtype.h"
#include "declaration.h"
#include "aggregate.h"

#include "gen/aa.h"
#include "gen/runtime.h"
#include "gen/tollvm.h"
#include "gen/llvmhelpers.h"
#include "gen/logger.h"
#include "gen/irstate.h"
#include "gen/dvalue.h"

// makes sure the key value lives in memory so it can be passed to the runtime functions without problems
// returns the pointer
static LLValue* to_pkey(Loc& loc, DValue* key)
{
    Type* keytype = key->getType();
    bool needmem = !DtoIsPassedByRef(keytype);
    LLValue* pkey;
    if (key->isIm()) {
        pkey = key->getRVal();
    }
    else if (DVarValue* var = key->isVar()) {
        pkey = key->getLVal();
        needmem = false;
    }
    else if (key->isConst()) {
        needmem = true;
        pkey = key->getRVal();
    }
    else {
        LLValue* tmp = DtoAlloca(DtoType(keytype), "aatmpkeystorage");
        DVarValue var(keytype, tmp);
        DtoAssign(loc, &var, key);
        return tmp;
    }

    // give memory
    if (needmem) {
        LLValue* tmp = DtoAlloca(DtoType(keytype), "aatmpkeystorage");
        DtoStore(pkey, tmp);
        pkey = tmp;
    }

    return pkey;
}

// returns the keytype typeinfo
static LLValue* to_keyti(DValue* key)
{
    // keyti param
    Type* keytype = key->getType();
    return DtoTypeInfoOf(keytype, false);
}

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

DValue* DtoAAIndex(Loc& loc, Type* type, DValue* aa, DValue* key, bool lvalue)
{
    // call:
    // extern(C) void* _aaGet(AA* aa, TypeInfo keyti, size_t valuesize, void* pkey)
    // or
    // extern(C) void* _aaGetRvalue(AA aa, TypeInfo keyti, size_t valuesize, void* pkey)

    // first get the runtime function
    llvm::Function* func = LLVM_D_GetRuntimeFunction(gIR->module, lvalue?"_aaGet":"_aaGetRvalue");
    const llvm::FunctionType* funcTy = func->getFunctionType();

    // aa param
    LLValue* aaval = lvalue ? aa->getLVal() : aa->getRVal();
    aaval = DtoBitCast(aaval, funcTy->getParamType(0));

    // keyti param
    LLValue* keyti = to_keyti(key);
    keyti = DtoBitCast(keyti, funcTy->getParamType(1));

    // valuesize param
    LLValue* valsize = DtoConstSize_t(getTypePaddedSize(DtoType(type)));

    // pkey param
    LLValue* pkey = to_pkey(loc, key);
    pkey = DtoBitCast(pkey, funcTy->getParamType(3));

    // call runtime
    LLValue* ret = gIR->CreateCallOrInvoke4(func, aaval, keyti, valsize, pkey, "aa.index").getInstruction();

    // cast return value
    const LLType* targettype = getPtrToType(DtoType(type));
    if (ret->getType() != targettype)
        ret = DtoBitCast(ret, targettype);

    return new DVarValue(type, ret);
}

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

DValue* DtoAAIn(Loc& loc, Type* type, DValue* aa, DValue* key)
{
    // call:
    // extern(C) void* _aaIn(AA aa*, TypeInfo keyti, void* pkey)

    // first get the runtime function
    llvm::Function* func = LLVM_D_GetRuntimeFunction(gIR->module, "_aaIn");
    const llvm::FunctionType* funcTy = func->getFunctionType();

    if (Logger::enabled())
        Logger::cout() << "_aaIn = " << *func << '\n';

    // aa param
    LLValue* aaval = aa->getRVal();
    if (Logger::enabled())
    {
        Logger::cout() << "aaval: " << *aaval << '\n';
        Logger::cout() << "totype: " << *funcTy->getParamType(0) << '\n';
    }
    aaval = DtoBitCast(aaval, funcTy->getParamType(0));

    // keyti param
    LLValue* keyti = to_keyti(key);
    keyti = DtoBitCast(keyti, funcTy->getParamType(1));

    // pkey param
    LLValue* pkey = to_pkey(loc, key);
    pkey = DtoBitCast(pkey, funcTy->getParamType(2));

    // call runtime
    LLValue* ret = gIR->CreateCallOrInvoke3(func, aaval, keyti, pkey, "aa.in").getInstruction();

    // cast return value
    const LLType* targettype = DtoType(type);
    if (ret->getType() != targettype)
        ret = DtoBitCast(ret, targettype);

    return new DImValue(type, ret);
}

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

void DtoAARemove(Loc& loc, DValue* aa, DValue* key)
{
    // call:
    // extern(C) void _aaDel(AA aa, TypeInfo keyti, void* pkey)

    // first get the runtime function
    llvm::Function* func = LLVM_D_GetRuntimeFunction(gIR->module, "_aaDel");
    const llvm::FunctionType* funcTy = func->getFunctionType();

    if (Logger::enabled())
        Logger::cout() << "_aaDel = " << *func << '\n';

    // aa param
    LLValue* aaval = aa->getRVal();
    if (Logger::enabled())
    {
        Logger::cout() << "aaval: " << *aaval << '\n';
        Logger::cout() << "totype: " << *funcTy->getParamType(0) << '\n';
    }
    aaval = DtoBitCast(aaval, funcTy->getParamType(0));

    // keyti param
    LLValue* keyti = to_keyti(key);
    keyti = DtoBitCast(keyti, funcTy->getParamType(1));

    // pkey param
    LLValue* pkey = to_pkey(loc, key);
    pkey = DtoBitCast(pkey, funcTy->getParamType(2));

    // build arg vector
    LLSmallVector<LLValue*, 3> args;
    args.push_back(aaval);
    args.push_back(keyti);
    args.push_back(pkey);

    // call runtime
    gIR->CreateCallOrInvoke(func, args.begin(), args.end());
}