Beispiel #1
0
TR::Register *TR::AMD64SystemLinkage::buildDirectDispatch(
      TR::Node *callNode,
      bool spillFPRegs)
   {
   TR::SymbolReference *methodSymRef = callNode->getSymbolReference();
   TR::MethodSymbol *methodSymbol = methodSymRef->getSymbol()->castToMethodSymbol();

   TR::Register *returnReg;

   // Allocate adequate register dependencies.
   //
   // pre = number of argument registers
   // post = number of volatile + return register
   //
   uint32_t pre = getProperties().getNumIntegerArgumentRegisters() + getProperties().getNumFloatArgumentRegisters();
   uint32_t post = getProperties().getNumVolatileRegisters() + (callNode->getDataType() == TR::NoType ? 0 : 1);

#if defined (PYTHON) && 0
   // Treat all preserved GP regs as volatile until register map support available.
   //
   post += getProperties().getNumberOfPreservedGPRegisters();
#endif

   TR::RegisterDependencyConditions *preDeps = generateRegisterDependencyConditions(pre, 0, cg());
   TR::RegisterDependencyConditions *postDeps = generateRegisterDependencyConditions(0, post, cg());

   // Evaluate outgoing arguments on the system stack and build pre-conditions.
   //
   int32_t memoryArgSize = buildArgs(callNode, preDeps);

   // Build post-conditions.
   //
   returnReg = buildVolatileAndReturnDependencies(callNode, postDeps);
   postDeps->stopAddingPostConditions();

   // Find the second scratch register in the post dependency list.
   //
   TR::Register *scratchReg = NULL;
   TR::RealRegister::RegNum scratchRegIndex = getProperties().getIntegerScratchRegister(1);
   for (int32_t i=0; i<post; i++)
      {
      if (postDeps->getPostConditions()->getRegisterDependency(i)->getRealRegister() == scratchRegIndex)
         {
         scratchReg = postDeps->getPostConditions()->getRegisterDependency(i)->getRegister();
         break;
         }
      }

#if defined(PYTHON) && 0
   // For Python, store the instruction that contains the GC map at this site into
   // the frame object.
   //
   TR::SymbolReference *frameObjectSymRef =
      comp()->getSymRefTab()->findOrCreateAutoSymbol(comp()->getMethodSymbol(), 0, TR::Address, true, false, true);

   TR::Register *frameObjectRegister = cg()->allocateRegister();
   generateRegMemInstruction(
         L8RegMem,
         callNode,
         frameObjectRegister,
         generateX86MemoryReference(frameObjectSymRef, cg()),
         cg());

   TR::RealRegister *espReal = cg()->machine()->getX86RealRegister(TR::RealRegister::esp);
   TR::Register *gcMapPCRegister = cg()->allocateRegister();

   generateRegMemInstruction(
         LEA8RegMem,
         callNode,
         gcMapPCRegister,
         generateX86MemoryReference(espReal, -8, cg()),
         cg());

   // Use "volatile" registers across the call.  Once proper register map support
   // is implemented, r14 and r15 will no longer be volatile and a different pair
   // should be chosen.
   //
   TR::RegisterDependencyConditions *gcMapDeps = generateRegisterDependencyConditions(0, 2, cg());
   gcMapDeps->addPostCondition(frameObjectRegister, TR::RealRegister::r14, cg());
   gcMapDeps->addPostCondition(gcMapPCRegister, TR::RealRegister::r15, cg());
   gcMapDeps->stopAddingPostConditions();

   generateMemRegInstruction(
         S8MemReg,
         callNode,
         generateX86MemoryReference(frameObjectRegister, fe()->getPythonGCMapPCOffsetInFrame(), cg()),
         gcMapPCRegister,
         gcMapDeps,
         cg());

   cg()->stopUsingRegister(frameObjectRegister);
   cg()->stopUsingRegister(gcMapPCRegister);
#endif

   TR::Instruction *instr;
   if (methodSymbol->getMethodAddress())
      {
      TR_ASSERT(scratchReg, "could not find second scratch register");
      auto LoadRegisterInstruction = generateRegImm64SymInstruction(
         MOV8RegImm64,
         callNode,
         scratchReg,
         (uintptr_t)methodSymbol->getMethodAddress(),
         methodSymRef,
         cg());

      if (TR::Options::getCmdLineOptions()->getOption(TR_EmitRelocatableELFFile))
         {
         LoadRegisterInstruction->setReloKind(TR_NativeMethodAbsolute);
         }

      instr = generateRegInstruction(CALLReg, callNode, scratchReg, preDeps, cg());
      }
   else
      {
      instr = generateImmSymInstruction(CALLImm4, callNode, (uintptrj_t)methodSymbol->getMethodAddress(), methodSymRef, preDeps, cg());
      }

   cg()->resetIsLeafMethod();

   instr->setNeedsGCMap(getProperties().getPreservedRegisterMapForGC());

   cg()->stopUsingRegister(scratchReg);

   TR::LabelSymbol *postDepLabel = generateLabelSymbol(cg());
   generateLabelInstruction(LABEL, callNode, postDepLabel, postDeps, cg());

   return returnReg;
   }
Beispiel #2
0
TR::Register *TR::AMD64SystemLinkage::buildDirectDispatch(
      TR::Node *callNode,
      bool spillFPRegs)
   {
   TR::SymbolReference *methodSymRef = callNode->getSymbolReference();
   TR::MethodSymbol *methodSymbol = methodSymRef->getSymbol()->castToMethodSymbol();

   TR::Register *returnReg;

   // Allocate adequate register dependencies.
   //
   // pre = number of argument registers
   // post = number of volatile + return register
   //
   uint32_t pre = getProperties().getNumIntegerArgumentRegisters() + getProperties().getNumFloatArgumentRegisters();
   uint32_t post = getProperties().getNumVolatileRegisters() + (callNode->getDataType() == TR::NoType ? 0 : 1);

   TR::RegisterDependencyConditions *preDeps = generateRegisterDependencyConditions(pre, 0, cg());
   TR::RegisterDependencyConditions *postDeps = generateRegisterDependencyConditions(0, post, cg());

   // Evaluate outgoing arguments on the system stack and build pre-conditions.
   //
   int32_t memoryArgSize = buildArgs(callNode, preDeps);

   // Build post-conditions.
   //
   returnReg = buildVolatileAndReturnDependencies(callNode, postDeps);
   postDeps->stopAddingPostConditions();

   // Find the second scratch register in the post dependency list.
   //
   TR::Register *scratchReg = NULL;
   TR::RealRegister::RegNum scratchRegIndex = getProperties().getIntegerScratchRegister(1);
   for (int32_t i=0; i<post; i++)
      {
      if (postDeps->getPostConditions()->getRegisterDependency(i)->getRealRegister() == scratchRegIndex)
         {
         scratchReg = postDeps->getPostConditions()->getRegisterDependency(i)->getRegister();
         break;
         }
      }

   TR::Instruction *instr;
   if (methodSymbol->getMethodAddress())
      {
      TR_ASSERT(scratchReg, "could not find second scratch register");
      auto LoadRegisterInstruction = generateRegImm64SymInstruction(
         MOV8RegImm64,
         callNode,
         scratchReg,
         (uintptr_t)methodSymbol->getMethodAddress(),
         methodSymRef,
         cg());

      if (comp()->getOption(TR_EmitRelocatableELFFile))
         {
         LoadRegisterInstruction->setReloKind(TR_NativeMethodAbsolute);
         }

      instr = generateRegInstruction(CALLReg, callNode, scratchReg, preDeps, cg());
      }
   else
      {
      instr = generateImmSymInstruction(CALLImm4, callNode, (uintptrj_t)methodSymbol->getMethodAddress(), methodSymRef, preDeps, cg());
      }

   cg()->resetIsLeafMethod();

   instr->setNeedsGCMap(getProperties().getPreservedRegisterMapForGC());

   cg()->stopUsingRegister(scratchReg);

   TR::LabelSymbol *postDepLabel = generateLabelSymbol(cg());
   generateLabelInstruction(LABEL, callNode, postDepLabel, postDeps, cg());

   return returnReg;
   }