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Cosmos/source/Cosmos.IL2CPU/IL/Rem_Un.cs
Matthijs ter Woord 00c205ba68 .
2016-06-16 13:06:44 -04:00

141 lines
6.8 KiB
C#
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using System;
using Cosmos.Assembler.x86.SSE;
using XSharp.Compiler;
using CPUx86 = Cosmos.Assembler.x86;
using Label = Cosmos.Assembler.Label;
namespace Cosmos.IL2CPU.X86.IL
{
/// <summary>
/// Divides two unsigned values and pushes the remainder onto the evaluation stack.
/// </summary>
[Cosmos.IL2CPU.OpCode( ILOpCode.Code.Rem_Un )]
public class Rem_Un : ILOp
{
public Rem_Un( Cosmos.Assembler.Assembler aAsmblr )
: base( aAsmblr )
{
}
public override void Execute( MethodInfo aMethod, ILOpCode aOpCode )
{
var xStackItem = aOpCode.StackPopTypes[0];
var xStackItemSize = SizeOfType(xStackItem);
var xSize = Math.Max(xStackItemSize, SizeOfType(aOpCode.StackPopTypes[1]));
if (xSize > 4)
{
if (TypeIsFloat(xStackItem))
{
XS.SSE.MoveSS(XSRegisters.XMM0, XSRegisters.ESP, sourceIsIndirect: true);
XS.Add(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.ESP), 8);
XS.SSE.MoveSS(XSRegisters.XMM1, XSRegisters.ESP, sourceIsIndirect: true);
XS.SSE.XorPS(XSRegisters.XMM2, XSRegisters.XMM2);
XS.SSE.DivPS(XSRegisters.XMM1, XSRegisters.XMM0);
new MoveSS { SourceReg = CPUx86.RegistersEnum.XMM2, DestinationReg = CPUx86.RegistersEnum.ESP, DestinationIsIndirect = true };
}
else
{
string BaseLabel = GetLabel(aMethod, aOpCode) + ".";
string LabelShiftRight = BaseLabel + "ShiftRightLoop";
string LabelNoLoop = BaseLabel + "NoLoop";
string LabelEnd = BaseLabel + "End";
// divisor
//low
XS.Set(XSRegisters.ESI, XSRegisters.ESP, sourceIsIndirect: true);
//high
XS.Set(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EDI), XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.ESP), sourceDisplacement: 4);
//dividend
// low
XS.Set(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EAX), XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.ESP), sourceDisplacement: 8);
//high
XS.Set(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EDX), XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.ESP), sourceDisplacement: 12);
// pop both 8 byte values
XS.Add(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.ESP), 16);
// set flags
XS.Or(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EDI), XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EDI));
// if high dword of divisor is already zero, we dont need the loop
XS.Jump(CPUx86.ConditionalTestEnum.Zero, LabelNoLoop);
// set ecx to zero for counting the shift operations
XS.Xor(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.ECX), XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.ECX));
XS.Label(LabelShiftRight);
// shift divisor 1 bit right
new CPUx86.ShiftRightDouble { DestinationReg = CPUx86.RegistersEnum.ESI, SourceReg = CPUx86.RegistersEnum.EDI, ArgumentValue = 1 };
XS.ShiftRight(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EDI), 1);
// increment shift counter
XS.Increment(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.ECX));
// set flags
XS.Or(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EDI), XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EDI));
// loop while high dword of divisor till it is zero
XS.Jump(CPUx86.ConditionalTestEnum.NotZero, LabelShiftRight);
// shift the divident now in one step
// shift divident CL bits right
new CPUx86.ShiftRightDouble { DestinationReg = CPUx86.RegistersEnum.EAX, SourceReg = CPUx86.RegistersEnum.EDX, ArgumentReg = CPUx86.RegistersEnum.CL };
XS.ShiftRight(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EDX), XSRegisters.CL);
// so we shifted both, so we have near the same relation as original values
// divide this
XS.Divide(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.ESI));
// save remainder to stack
new CPUx86.Push { DestinationValue = 0 };
XS.Push(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EDX));
//TODO: implement proper derivation correction and overflow detection
XS.Jump(LabelEnd);
XS.Label(LabelNoLoop);
//save high dividend
XS.Set(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.ECX), XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EAX));
XS.Set(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EAX), XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EDX));
// zero EDX, so that high part is zero -> reduce overflow case
XS.Xor(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EDX), XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EDX));
// divide high part
XS.Divide(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.ESI));
XS.Set(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EAX), XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.ECX));
// divide low part
XS.Divide(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.ESI));
// save remainder result
new CPUx86.Push { DestinationValue = 0 };
XS.Push(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EDX));
XS.Label(LabelEnd);
}
}
else
{
if (TypeIsFloat(xStackItem))
{
XS.SSE.MoveSS(XSRegisters.XMM0, XSRegisters.ESP, sourceIsIndirect: true);
XS.Add(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.ESP), 4);
XS.SSE.MoveSS(XSRegisters.XMM1, XSRegisters.ESP, sourceIsIndirect: true);
XS.Add(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.ESP), 4);
XS.SSE.XorPS(XSRegisters.XMM2, XSRegisters.XMM2);
XS.SSE.DivPS(XSRegisters.XMM1, XSRegisters.XMM0);
XS.Sub(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.ESP), 4);
new MoveSS { SourceReg = CPUx86.RegistersEnum.XMM2, DestinationReg = CPUx86.RegistersEnum.ESP, DestinationIsIndirect = true };
}
else
{
XS.Pop(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.ECX));
XS.Pop(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EAX)); // gets devised by ecx
XS.Xor(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EDX), XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EDX));
XS.Divide(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.ECX)); // => EAX / ECX
XS.Push(XSRegisters.OldToNewRegister(CPUx86.RegistersEnum.EDX));
}
}
}
}
}
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