using System; using System.Reflection; using CPUx86 = Cosmos.Assembler.x86; using Cosmos.Assembler.x86; using Cosmos.Assembler.x86.SSE; using XSharp.Common; using static XSharp.Common.XSRegisters; namespace Cosmos.IL2CPU.X86.IL { [Cosmos.IL2CPU.OpCode( ILOpCode.Code.Add )] public class Add : ILOp { public Add( Cosmos.Assembler.Assembler aAsmblr ) : base( aAsmblr ) { } public override void Execute(_MethodInfo aMethod, ILOpCode aOpCode ) { var xType = aOpCode.StackPopTypes[0]; var xSize = SizeOfType(xType); var xIsFloat = TypeIsFloat(xType); DoExecute(xSize, xIsFloat); } public static void DoExecute(uint xSize, bool xIsFloat) { if (xSize > 8) { //EmitNotImplementedException( Assembler, aServiceProvider, "Size '" + xSize.Size + "' not supported (add)", aCurrentLabel, aCurrentMethodInfo, aCurrentOffset, aNextLabel ); throw new NotImplementedException("Cosmos.IL2CPU.x86->IL->Add.cs->Error: StackSize > 8 not supported"); } else { if (xSize > 4) { if (xIsFloat) // double { // Please note that SSE supports double operations only from version 2 XS.SSE2.MoveSD(XMM0, ESP, sourceIsIndirect: true); // Move the stack of 8 bytes to get the second double XS.Add(ESP, 8); XS.SSE2.MoveSD(XMM1, ESP, sourceIsIndirect: true); XS.SSE2.AddSD(XMM1, XMM0); XS.SSE2.MoveSD(ESP, XMM1, destinationIsIndirect: true); } else // long { XS.Pop(XSRegisters.EDX); // low part XS.Pop(XSRegisters.EAX); // high part XS.Add(ESP, EDX, destinationIsIndirect: true); XS.AddWithCarry(ESP, EAX, destinationDisplacement: 4); } } else { if (xIsFloat) //float { XS.SSE.MoveSS(XMM0, ESP, sourceIsIndirect: true); XS.Add(XSRegisters.ESP, 4); XS.SSE.MoveSS(XMM1, ESP, sourceIsIndirect: true); XS.SSE.AddSS(XMM1, XMM0); XS.SSE.MoveSS(ESP, XMM1, destinationIsIndirect: true); } else //integer { XS.Pop(XSRegisters.EAX); XS.Add(ESP, EAX, destinationIsIndirect: true); } } } } } }