-
- vector<const Instruction *>::const_iterator InstIt = CallInstrList.begin();
-
- for( ; InstIt != CallInstrList.end(); ++InstIt) {
-
- // Inst = LLVM call instruction
- const Instruction *const CallI = *InstIt;
-
- MachineCodeForVMInstr & MInstVec = CallI->getMachineInstrVec();
- MachineCodeForVMInstr::const_iterator MIIt = MInstVec.begin();
-
- // find the CALL/JMMPL machine instruction
- for( ; MIIt != MInstVec.end() &&
- ! getUltraSparcInfo().getInstrInfo().isCall((*MIIt)->getOpCode());
- ++MIIt );
-
- assert( (MIIt != MInstVec.end()) && "CALL/JMPL not found");
-
- // CallMI = CALL/JMPL machine isntruction
- const MachineInstr *const CallMI = *MIIt;
-
- Instruction::op_const_iterator OpIt = CallI->op_begin();
-
- unsigned intArgNo=0;
- //unsigned NumOfCallInterfs = LR->getNumOfCallInterferences();
-
- // to keep track of which float regs are allocated for argument passing
- bool FloatArgUsedArr[NumOfFloatArgRegs];
-
- // init float arg used array
- for(unsigned i=0; i < NumOfFloatArgRegs; ++i)
- FloatArgUsedArr[i] = false;
-
- // go thru all the operands of LLVM instruction
- for( ; OpIt != CallI->op_end(); ++OpIt ) {
-
- // get the LR of call operand (parameter)
- LiveRange *const LR = LRI.getLiveRangeForValue((const Value *) *OpIt);
-
- if ( !LR ) {
- cout << " Warning: In call instr, no LR for arg: " ;
- printValue(*OpIt);
- cout << endl;
- continue;
- }
-
- unsigned RegClassID = (LR->getRegClass())->getID();
-
- // if the arg is in int class - allocate a reg for an int arg
- if( RegClassID == IntRegClassID ) {
-
- if( intArgNo < NumOfIntArgRegs) {
- setCallArgColor( LR, SparcIntRegOrder::o0 + intArgNo );
- }
-
- else {
- // TODO: Insert push code here
- assert( 0 && "Insert push code here!");
-
- AddedInstrns * AI = AddedInstrMap[ CallMI ];
- if( ! AI ) AI = new AddedInstrns();
-
- // AI->InstrnsBefore.push_back( getStackPushInstr(LR) );
- AddedInstrMap[ CallMI ] = AI;
-
- }
- ++intArgNo;
- }
-
- // if the arg is float/double
- else if ( RegClassID == FloatRegClassID) {
-
- if( LR->getTypeID() == Type::DoubleTyID ) {
-
- // find the first reg # we can pass a double arg
- for(unsigned i=0; i < NumOfFloatArgRegs; i+= 2) {
- if ( !FloatArgUsedArr[i] && !FloatArgUsedArr[i+1] ) {
- setCallArgColor(LR, SparcFloatRegOrder::f0 + i );
- FloatArgUsedArr[i] = true;
- FloatArgUsedArr[i+1] = true;
- //if( DEBUG_RA) printReg( LR );
- break;
- }
- }
- if( ! LR->hasColor() ) { // if LR was not colored above
-
- assert(0 && "insert push code here for a double");
-
- }
-
- }
- else if( LR->getTypeID() == Type::FloatTyID ) {
-
- // find the first reg # we can pass a float arg
- for(unsigned i=0; i < NumOfFloatArgRegs; ++i) {
- if ( !FloatArgUsedArr[i] ) {
- setCallArgColor(LR, SparcFloatRegOrder::f0 + i );
- FloatArgUsedArr[i] = true;
- // LR->setColor( SparcFloatRegOrder::f0 + i );
- // if( DEBUG_RA) printReg( LR );
- break;
- }
- }
- if( ! LR->hasColor() ) { // if LR was not colored above
- assert(0 && "insert push code here for a float");
- }
-
- }
- else
- assert(0 && "unknown float type in method arg");
-
- } // float register class
-
- else
- assert(0 && "Unknown RegClassID");
-
-
- } // for each operand in a call instruction
-
-
-
-
- } // for all call instrctions in CallInstrList
-
-}
-
-
-void UltraSparcRegInfo::setCallArgColor(LiveRange *const LR,
- const unsigned RegNo) const {
-
- // if no call interference and LR is NOT previously colored (e.g., as an
- // incoming arg)
- if( ! LR->getNumOfCallInterferences() && ! LR->hasColor() ) {
- // we can directly allocate a %o register
- LR->setColor( RegNo);
- if( DEBUG_RA) printReg( LR );
- }
- else { // there are call interferences
-
- /*
- // insert a copy machine instr to copy from LR to %o(reg)
- PreMInstrMap[ CallMI ] =
- getNewCopyMInstr( LR->, SparcIntRegOrder::o0 + intArgNo );
- */
- cout << " $$$ TODO: Insert a copy for call argument!: " << endl;
-
- // We don't color LR here. It's colored as any other normal LR
- }
-