public static X64StorageLocation HeapInRegister(X64Register register, long offset) { return(new X64StorageLocation() { Kind = X64StorageLocationKind.HeapInRegister, Register = register, Offset = offset }); }
public static X64StorageLocation AsRegister(X64Register register) { return(new X64StorageLocation() { Kind = X64StorageLocationKind.Register, Register = register }); }
private static X64StorageLocation GetFunctionReturnLocation(DataType returnType) { //ENUM is missing here because it is converted to int in previous step if (returnType.Group == DataTypeGroup.ScalarInteger) { return(X64StorageLocation.AsRegister(X64Register.GroupToSpecificRegister(X64RegisterGroup.A, returnType))); } else if (returnType.Kind == DataTypeKind.POINTER || returnType.Kind == DataTypeKind.ARRAY) { return(X64StorageLocation.AsRegister(X64Register.RAX)); } else if (returnType.Kind == DataTypeKind.BOOL) { return(X64StorageLocation.AsRegister(X64DataTypeProperties.GetProperties(returnType.Kind).Accumulator)); } else if (returnType.Group == DataTypeGroup.ScalarFloat) { return(X64StorageLocation.AsRegister(X64Register.XMM0)); } else if (returnType.Kind == DataTypeKind.VEC4F || returnType.Kind == DataTypeKind.VEC2D) { return(X64StorageLocation.AsRegister(X64Register.XMM0)); } else if (returnType.Kind == DataTypeKind.VEC8F || returnType.Kind == DataTypeKind.VEC4D) { return(X64StorageLocation.AsRegister(X64Register.YMM0)); } else if (returnType.Kind != DataTypeKind.VOID) { throw new Exception("Unknown function return type: " + returnType); } return(null); }
public X64FunctionFrame CreateFunctionScope(IMFunction function) { var registerPool = new X64RegisterPool(); var locationMap = new Dictionary <string, X64StorageLocation>(); //First the parameters var paramFrame = GetParameterFrame(function.Definition); var paramIndex = 1; foreach (var location in paramFrame.ParameterLocations) { var name = IMOperand.ParameterPrefix + paramIndex; var realLocation = location; //If parameter is on stack, calculate correct offset (+16, 8 saved RBP + 8 return address) if (realLocation.Kind == X64StorageLocationKind.StackFromTop) { realLocation = X64StorageLocation.StackFromBase(location.Offset + 16); } locationMap.Add(name, realLocation); if (realLocation.Kind == X64StorageLocationKind.Register) { registerPool.Use(realLocation.Register); } paramIndex += 1; } //If return value is stored in register, make sure it is reserved var returnLocation = GetFunctionReturnLocation(function.Definition); if (returnLocation != null) { if (returnLocation.Kind == X64StorageLocationKind.Register) { registerPool.Use(returnLocation.Register); } } //Gather list of operands that are referenced with LEA instruction. Those cannot be in registers. var referencedOperands = new HashSet <string>(); foreach (var operation in function.Body) { if (operation.Instruction.Kind == IMInstructionKind.LEA) { var source = operation.Operands[1]; referencedOperands.Add(source.FullName); } } //Now the local variables. Intentionally do no look into sub-values. These must be "defined" before already. var usedNonVolatileRegisters = new HashSet <X64RegisterGroup>(); var usesDynamicStack = false; var stackOffset = 0L; foreach (var operation in function.Body) { if (operation.Instruction.Kind == IMInstructionKind.FREE) { var operand = operation.Operands[0]; var location = locationMap[operand.FullName]; if (location.Kind == X64StorageLocationKind.Register) { registerPool.Free(location.Register); } } else { foreach (var operand in operation.Operands) { if (operand != null && !locationMap.ContainsKey(operand.FullName)) { if (operand.Kind == IMOperandKind.Local) { X64Register register = null; if (!referencedOperands.Contains(operand.FullName)) { //"Take" returns null if no register available or data type cannot be stored in register (structures) register = registerPool.Take(operand.DataType); } X64StorageLocation location = null; if (register != null) { location = X64StorageLocation.AsRegister(register); if (!register.IsVolatile) { usedNonVolatileRegisters.Add(register.Group); } } else { //If no register, use stack stackOffset += operand.DataType.ByteSize; location = X64StorageLocation.StackFromBase(-stackOffset); } Assert.True(location != null, "No location found for operand!"); locationMap.Add(operand.FullName, location); } else if (operand.Kind == IMOperandKind.Reference) { var addressLocation = locationMap[operand.ChildValue.FullName]; Assert.True(addressLocation.Kind == X64StorageLocationKind.Register, "Address location for reference operand must be in register!"); locationMap.Add(operand.FullName, X64StorageLocation.HeapInRegister(addressLocation.Register, 0)); } } } } //Reserve space for static stack allocation (size known at compile time) if (operation.Instruction.Kind == IMInstructionKind.SALOC) { var target = operation.Operands[0]; var sizeOperand = operation.Operands[1]; if (sizeOperand.Kind == IMOperandKind.Immediate) { var numBytes = (long)sizeOperand.ImmediateValue; //Increment stack offset first so target points to bottom of reserved memory. stackOffset += numBytes; var arrayLocation = X64StorageLocation.StackFromBase(-stackOffset); locationMap.Add(IMOperand.GetMemLocationName(target), arrayLocation); } else { usesDynamicStack = true; } } } //Data Section (immediates) var dataEntries = new List <Tuple <DataType, string> >(); foreach (var operation in function.Body) { //Vector constructor with all immediate values are handled specifically by native code generator, so skip them here if (operation.Instruction.Kind == IMInstructionKind.GVEC) { var values = operation.Operands.GetRange(1, operation.Operands.Count - 1); if (values.TrueForAll((v) => v.Kind == IMOperandKind.Immediate)) { continue; } } foreach (var operand in operation.Operands) { if (operand != null && !locationMap.ContainsKey(operand.FullName)) { if (operand.Kind == IMOperandKind.Immediate) { var elementType = operand.DataType; var x64ElementType = X64DataTypeProperties.GetProperties(elementType.Kind); var valStr = x64ElementType.ImmediateValueToAsmCode(operand); _immediateCounter += 1; var immediateName = "imm_" + _immediateCounter; var x64DataType = X64DataTypeProperties.GetProperties(operand.DataType.Kind); var entry = immediateName + " " + x64DataType.ImmediateSize + " " + valStr; dataEntries.Add(new Tuple <DataType, string>(operand.DataType, entry)); locationMap.Add(operand.FullName, X64StorageLocation.DataSection(immediateName)); } } } } //If stack is used, make sure size is multiple of 8 if (stackOffset > 0) { stackOffset = ((stackOffset / 8) + 1) * 8; } return(new X64FunctionFrame() { LocalsLocations = locationMap, LocalsStackFrameSize = stackOffset, ParameterStackFrameSize = paramFrame.ParameterStackSize, DataEntries = dataEntries, ReturnLocation = returnLocation, UsesDynamicStackAllocation = usesDynamicStack, UsedNonVolatileRegisters = usedNonVolatileRegisters }); }
/// <summary> /// Get storage locations for parameter of given function. /// </summary> /// <param name="function">The function.</param> /// <returns>List of locations in the order of the parameters.</returns> public X64ParameterFrame GetParameterFrame(List <DataType> parameterTypes) { //TODO: Variadic functions have a special parameter passing convention. See MS x64 calling convention docs. var locations = new List <X64StorageLocation>(); const long alignment = 8; long paramOffset = 0; for (int p = 0; p < parameterTypes.Count; p++) { var paramType = parameterTypes[p]; switch (paramType.Kind) { case DataTypeKind.I8: case DataTypeKind.I16: case DataTypeKind.I32: case DataTypeKind.I64: case DataTypeKind.U8: case DataTypeKind.U16: case DataTypeKind.U32: case DataTypeKind.U64: case DataTypeKind.BOOL: case DataTypeKind.POINTER: case DataTypeKind.ARRAY: case DataTypeKind.CHAR8: case DataTypeKind.STRING8: if (p < _generalPurposeParameterRegisters.Length) { var group = _generalPurposeParameterRegisters[p]; locations.Add(X64StorageLocation.AsRegister(X64Register.GroupToSpecificRegister(group, paramType))); } else { locations.Add(X64StorageLocation.StackFromBase(-paramOffset)); //Parameter value on stack must be 8 byte aligned paramOffset += (paramType.ByteSize & -alignment) + alignment; } break; case DataTypeKind.F32: case DataTypeKind.F64: if (p < _floatVectorParameterRegisters.Length) { var group = _floatVectorParameterRegisters[p]; locations.Add(X64StorageLocation.AsRegister(X64Register.GroupToSpecificRegister(group, paramType))); } else { locations.Add(X64StorageLocation.StackFromBase(-paramOffset)); //Parameter value on stck must be 8 byte aligned paramOffset += (paramType.ByteSize & -alignment) + alignment; } break; case DataTypeKind.VEC4F: case DataTypeKind.VEC8F: case DataTypeKind.VEC2D: case DataTypeKind.VEC4D: //This differs from Win64 calling convention. The registers are there, why not use them? //TODO: Use correct Win64 calling convetion for external functions! if (p < _floatVectorParameterRegisters.Length) { var group = _floatVectorParameterRegisters[p]; locations.Add(X64StorageLocation.AsRegister(X64Register.GroupToSpecificRegister(group, paramType))); } else { locations.Add(X64StorageLocation.StackFromBase(-paramOffset)); //No alignment required here, as the vectors are already either 16 or 32 byte, which are multiples of 8 paramOffset += paramType.ByteSize; } break; default: throw new Exception("Unknown/invalid parameter data type: " + paramType); } } var paramStackSize = paramOffset; //Reverse stack offsets as they are addressed from RSP, not RBP for (int i = locations.Count - 1; i >= 0; i--) { var location = locations[i]; if (location.Kind == X64StorageLocationKind.StackFromBase) { locations[i] = X64StorageLocation.StackFromTop(paramStackSize + location.Offset); } } //We always need the shadow space for the first four register parameters, so add it here to the total parameter stack size. //The offsets of the parameters calculated above are still correct, because the shadow space is before those! var stackSize = paramStackSize + 32; return(new X64ParameterFrame { ParameterLocations = locations, ParameterStackSize = stackSize }); }