Beispiel #1
0
void
TR::AMD64ABILinkage::mapIncomingParms(
      TR::ResolvedMethodSymbol *method,
      uint32_t &stackIndex)
   {
   ListIterator<TR::ParameterSymbol> parameterIterator(&method->getParameterList());
   TR::ParameterSymbol *parmCursor = parameterIterator.getFirst();

   if (!parmCursor) return;

   if (parmCursor->getLinkageRegisterIndex() < 0)
      {
      copyLinkageInfoToParameterSymbols();
      }

   // 1st: handle parameters which are passed through stack
   //
   TR::X86SystemLinkage::mapIncomingParms(method);

   // 2nd: handle parameters which are passed through linkage registers, but are
   // not assigned any register after RA (or say, by their first usage point,
   // a MOV is needed to load it from stack to register).
   //
   // AMD64 SysV ABI says that: a parameter is placed either in registers or
   // pushed on the stack, but can't take both.  So, for parms passed through
   // linkage registers but don't have physical registers assigned after RA,
   // we will allocate stack space in local variable region.
   //
   for (parmCursor = parameterIterator.getFirst(); parmCursor; parmCursor = parameterIterator.getNext())
      {
      if ((parmCursor->getLinkageRegisterIndex() >= 0) && (parmCursor->getAllocatedIndex() < 0 || hasToBeOnStack(parmCursor)))
         {
         uint32_t align = getAlignment(parmCursor->getDataType());
         uint32_t alignMinus1 = (align <= AMD64_STACK_SLOT_SIZE) ? (AMD64_STACK_SLOT_SIZE - 1) : (align - 1);
         uint32_t pos = -stackIndex;
         pos += parmCursor->getSize();
         pos = (pos + alignMinus1) & (~alignMinus1);
         stackIndex = -pos;
         parmCursor->setParameterOffset(stackIndex);

         if (comp()->getOption(TR_TraceCG))
            traceMsg(comp(), "mapIncomingParms setParameterOffset %d for param symbol (reg param without home location) %p, hasToBeOnStack() %d\n", parmCursor->getParameterOffset(), parmCursor, hasToBeOnStack(parmCursor));
         }
      else if (parmCursor->getLinkageRegisterIndex() >=0 && parmCursor->getAllocatedIndex() >= 0)
         {
         //parmCursor->setDontHaveStackSlot(0); // this is a hack , so as we could print stack layout table in createPrologue
         if (comp()->getOption(TR_TraceCG))
            traceMsg(comp(), "mapIncomingParms no need to set parm %p, for it has got register %d assigned\n", parmCursor, parmCursor->getAllocatedIndex());
         }
      }
   }
Beispiel #2
0
void
TR::ARM64SystemLinkage::createPrologue(TR::Instruction *cursor, List<TR::ParameterSymbol> &parmList)
   {
   TR::CodeGenerator *codeGen = cg();
   TR::Machine *machine = codeGen->machine();
   TR::ResolvedMethodSymbol *bodySymbol = comp()->getJittedMethodSymbol();
   const TR::ARM64LinkageProperties& properties = getProperties();
   TR::RealRegister *sp = machine->getRealRegister(properties.getStackPointerRegister());
   TR::Node *firstNode = comp()->getStartTree()->getNode();

   // allocate stack space
   uint32_t frameSize = (uint32_t)codeGen->getFrameSizeInBytes();
   if (constantIsUnsignedImm12(frameSize))
      {
      cursor = generateTrg1Src1ImmInstruction(codeGen, TR::InstOpCode::subimmx, firstNode, sp, sp, frameSize, cursor);
      }
   else
      {
      TR_UNIMPLEMENTED();
      }

   // save link register (x30)
   if (machine->getLinkRegisterKilled())
      {
      TR::MemoryReference *stackSlot = new (trHeapMemory()) TR::MemoryReference(sp, 0, codeGen);
      cursor = generateMemSrc1Instruction(cg(), TR::InstOpCode::strimmx, firstNode, stackSlot, machine->getRealRegister(TR::RealRegister::x30), cursor);
      }

   // spill argument registers
   int32_t nextIntArgReg = 0;
   int32_t nextFltArgReg = 0;
   ListIterator<TR::ParameterSymbol> parameterIterator(&parmList);
   for (TR::ParameterSymbol *parameter = parameterIterator.getFirst();
        parameter != NULL && (nextIntArgReg < getProperties().getNumIntArgRegs() || nextFltArgReg < getProperties().getNumFloatArgRegs());
        parameter = parameterIterator.getNext())
      {
      TR::MemoryReference *stackSlot = new (trHeapMemory()) TR::MemoryReference(sp, parameter->getParameterOffset(), codeGen);
      TR::InstOpCode::Mnemonic op;

      switch (parameter->getDataType())
         {
         case TR::Int8:
         case TR::Int16:
         case TR::Int32:
         case TR::Int64:
         case TR::Address:
            if (nextIntArgReg < getProperties().getNumIntArgRegs())
               {
               op = (parameter->getSize() == 8) ? TR::InstOpCode::strimmx : TR::InstOpCode::strimmw;
               cursor = generateMemSrc1Instruction(cg(), op, firstNode, stackSlot, machine->getRealRegister((TR::RealRegister::RegNum)(TR::RealRegister::x0 + nextIntArgReg)), cursor);
               nextIntArgReg++;
               }
            else
               {
               nextIntArgReg = getProperties().getNumIntArgRegs() + 1;
               }
            break;
         case TR::Float:
         case TR::Double:
            if (nextFltArgReg < getProperties().getNumFloatArgRegs())
               {
               op = (parameter->getSize() == 8) ? TR::InstOpCode::vstrimmd : TR::InstOpCode::vstrimms;
               cursor = generateMemSrc1Instruction(cg(), op, firstNode, stackSlot, machine->getRealRegister((TR::RealRegister::RegNum)(TR::RealRegister::v0 + nextFltArgReg)), cursor);
               nextFltArgReg++;
               }
            else
               {
               nextFltArgReg = getProperties().getNumFloatArgRegs() + 1;
               }
            break;
         case TR::Aggregate:
            TR_ASSERT(false, "Function parameters of aggregate types are not currently supported on AArch64.");
            break;
         default:
            TR_ASSERT(false, "Unknown parameter type.");
         }
      }

   // save callee-saved registers
   uint32_t offset = bodySymbol->getLocalMappingCursor();
   for (int r = TR::RealRegister::x19; r <= TR::RealRegister::x28; r++)
      {
      TR::RealRegister *rr = machine->getRealRegister((TR::RealRegister::RegNum)r);
      if (rr->getHasBeenAssignedInMethod())
         {
         TR::MemoryReference *stackSlot = new (trHeapMemory()) TR::MemoryReference(sp, offset, codeGen);
         cursor = generateMemSrc1Instruction(cg(), TR::InstOpCode::strimmx, firstNode, stackSlot, rr, cursor);
         offset += 8;
         }
      }
   for (int r = TR::RealRegister::v8; r <= TR::RealRegister::v15; r++)
      {
      TR::RealRegister *rr = machine->getRealRegister((TR::RealRegister::RegNum)r);
      if (rr->getHasBeenAssignedInMethod())
         {
         TR::MemoryReference *stackSlot = new (trHeapMemory()) TR::MemoryReference(sp, offset, codeGen);
         cursor = generateMemSrc1Instruction(cg(), TR::InstOpCode::vstrimmd, firstNode, stackSlot, rr, cursor);
         offset += 8;
         }
      }
   }