Example #1
0
static instruction      *PromoteOperand( instruction *ins ) {
/***********************************************************/

    name                *temp;
    instruction         *new_ins;

    if( _IsFloating( ins->type_class ) ) {
        if( ins->type_class == FS ) {
            temp = AllocTemp( FD );
            new_ins = MakeConvert( ins->operands[0], temp, ins->type_class, FD );
            ins->operands[0] = temp;
            PrefixIns( ins, new_ins );
            UpdateLive( new_ins, ins );
            return( new_ins );
        }
    } else {
        if( ins->type_class < U8 ) {
            temp = AllocTemp( U8 );
            new_ins = MakeConvert( ins->operands[0], temp, ins->type_class, U8 );
            ins->operands[0] = temp;
            PrefixIns( ins, new_ins );
            UpdateLive( new_ins, ins );
            return( new_ins );
        }
    }
    return( NULL );
}
Example #2
0
instruction     *rMAKECALL( instruction *ins )
/*********************************************
    Using the table RTInfo[], do all the necessary stuff to turn
    instruction "ins" into a call to a runtime support routine.  Move
    the parms into registers, and move the return register of the
    runtime routine into the result. Used for 386 and 370 versions
*/
{
    rtn_info            *info;
    label_handle        lbl;
    instruction         *left_ins;
    instruction         *new_ins;
    instruction         *last_ins;
    name                *reg_name;
    hw_reg_set          regs;
    hw_reg_set          all_regs;
    hw_reg_set          tmp;
    rt_class            rtindex;

    if( !_IsConvert( ins ) ) {
        rtindex = LookupRoutine( ins );
    } else { /* look it up again in case we ran out of memory during expansion*/
        rtindex = LookupConvertRoutine( ins );
    }
    info = &RTInfo[rtindex];
    regs = _ParmReg( info->left );
    all_regs = regs;
    left_ins = MakeMove( ins->operands[0], AllocRegName( regs ),
                          info->operand_class );
    ins->operands[0] = left_ins->result;
    MoveSegOp( ins, left_ins, 0 );
    PrefixIns( ins, left_ins );
    regs = _ParmReg( info->right );
    if( !HW_CEqual( regs, HW_EMPTY ) ) {
        new_ins = MakeMove( ins->operands[1], AllocRegName( regs ),
                                info->operand_class );
        ins->operands[1] = new_ins->result;
        MoveSegOp( ins, new_ins, 0 );
        HW_TurnOn( all_regs, regs );
        PrefixIns( ins, new_ins );
    }
#if _TARGET & _TARG_370
    tmp = RAReg();
    HW_TurnOn( all_regs, tmp );
    tmp = LNReg();
    HW_TurnOn( all_regs, tmp );
#elif _TARGET & _TARG_80386
    {
    tmp = ReturnReg( WD, false );
    HW_TurnOn( all_regs, tmp );
    }
#endif
    reg_name = AllocRegName( all_regs );
    lbl = RTLabel( rtindex );
    new_ins = NewIns( 3 );
    new_ins->head.opcode = OP_CALL;
    new_ins->type_class = ins->type_class;
    new_ins->operands[CALL_OP_USED] = reg_name;
    new_ins->operands[CALL_OP_USED2] = reg_name;
    new_ins->operands[CALL_OP_ADDR] = AllocMemory( lbl, 0, CG_LBL, ins->type_class );
    new_ins->result = NULL;
    new_ins->num_operands = 2;         /* special case for OP_CALL*/
#if _TARGET & _TARG_AXP
    {
    HW_CTurnOn( all_regs, HW_FULL );
    HW_TurnOff( all_regs, SavedRegs() );
    HW_CTurnOff( all_regs, HW_UNUSED );
    HW_TurnOn( all_regs, ReturnAddrReg() );
    }
#endif
    new_ins->zap = (register_name *)AllocRegName( all_regs );   /* all parm regs could be zapped*/
    last_ins = new_ins;
    if( ins->result == NULL || _OpIsCondition( ins->head.opcode ) ) {
        /* comparison, still need conditional jumps*/
        ins->operands[0] = AllocIntConst( 0 );
        ins->operands[1] = AllocIntConst( 1 );
        DelSeg( ins );
        DoNothing( ins );               /* just conditional jumps for ins*/
        PrefixIns( ins, new_ins );
        new_ins->ins_flags |= INS_CC_USED;
        last_ins = ins;
    } else {
        regs = _ParmReg( info->result );
        tmp = regs;
        HW_TurnOn( tmp, new_ins->zap->reg );
        new_ins->zap = (register_name *)AllocRegName( tmp );
        reg_name = AllocRegName( regs );
        new_ins->result = reg_name;
        last_ins = MakeMove( reg_name, ins->result, ins->type_class );
        ins->result = last_ins->operands[0];
        MoveSegRes( ins, last_ins );
        SuffixIns( ins, last_ins );
        ReplIns( ins, new_ins );
    }
    FixCallIns( new_ins );
    UpdateLive( left_ins, last_ins );
    return( left_ins );
}