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Cosmos/source/Cosmos.IL2CPU/IL/Mul.cs
Sentinel209_cp e851d3efcb Reorganizing code: Moved Build and Compiler.
2014-11-26 01:13:58 +00:00

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using System;
using CPUx86 = Cosmos.Assembler.x86;
using Label = Cosmos.Assembler.Label;
namespace Cosmos.IL2CPU.X86.IL
{
[Cosmos.IL2CPU.OpCode(ILOpCode.Code.Mul)]
public class Mul : ILOp
{
public Mul(Cosmos.Assembler.Assembler aAsmblr)
: base(aAsmblr)
{
}
public override void Execute(MethodInfo aMethod, ILOpCode aOpCode)
{
var xStackContent = aOpCode.StackPopTypes[0];
var xStackContentSize = SizeOfType(xStackContent);
var xStackContentIsFloat = TypeIsFloat(xStackContent);
string BaseLabel = GetLabel(aMethod, aOpCode) + ".";
DoExecute(xStackContentSize, xStackContentIsFloat, BaseLabel);
}
public static void DoExecute(uint xStackContentSize, bool xStackContentIsFloat, string aBaseLabel)
{
if (xStackContentSize > 4)
{
if (xStackContentIsFloat)
{
new CPUx86.x87.FloatLoad
{
DestinationReg = CPUx86.Registers.ESP,
Size = 64,
DestinationIsIndirect = true
};
new CPUx86.Add
{
SourceValue = 8,
DestinationReg = CPUx86.Registers.ESP
};
new CPUx86.x87.FloatMul
{
DestinationReg = CPUx86.Registers.ESP,
DestinationIsIndirect = true,
Size = 64
};
new CPUx86.x87.FloatStoreAndPop
{
DestinationReg = CPUx86.Registers.ESP,
Size = 64,
DestinationIsIndirect = true
};
}
else
{
// div of both == LEFT_LOW * RIGHT_LOW + ((LEFT_LOW * RIGHT_HIGH + RIGHT_LOW * LEFT_HIGH) << 32)
string Simple32Multiply = aBaseLabel + "Simple32Multiply";
string MoveReturnValue = aBaseLabel + "MoveReturnValue";
// right value
// low
// SourceReg = CPUx86.Registers.ESP, SourceIsIndirect = true
// high
// SourceReg = CPUx86.Registers.ESP, SourceIsIndirect = true, SourceDisplacement = 4
// left value
// low
// SourceReg = CPUx86.Registers.ESP, SourceIsIndirect = true, SourceDisplacement = 8
// high
// SourceReg = CPUx86.Registers.ESP, SourceIsIndirect = true, SourceDisplacement = 12
// compair LEFT_HIGH, RIGHT_HIGH , on zero only simple multiply is used
//mov RIGHT_HIGH to eax, is useable on Full 64 multiply
new CPUx86.Mov
{
DestinationReg = CPUx86.Registers.EAX,
SourceReg = CPUx86.Registers.ESP,
SourceIsIndirect = true,
SourceDisplacement = 4
};
new CPUx86.Or
{
DestinationReg = CPUx86.Registers.EAX,
SourceReg = CPUx86.Registers.ESP,
SourceIsIndirect = true,
SourceDisplacement = 12
};
new CPUx86.ConditionalJump
{
Condition = CPUx86.ConditionalTestEnum.Zero,
DestinationLabel = Simple32Multiply
};
// Full 64 Multiply
// copy again, or could change EAX
//TODO is there an opcode that does OR without change EAX?
new CPUx86.Mov
{
DestinationReg = CPUx86.Registers.EAX,
SourceReg = CPUx86.Registers.ESP,
SourceIsIndirect = true,
SourceDisplacement = 4
};
// eax contains already RIGHT_HIGH
// multiply with LEFT_LOW
new CPUx86.Multiply
{
DestinationReg = CPUx86.Registers.ESP,
DestinationIsIndirect = true,
DestinationDisplacement = 8,
Size = 32
};
// save result of LEFT_LOW * RIGHT_HIGH
new CPUx86.Mov
{
DestinationReg = CPUx86.Registers.ECX,
SourceReg = CPUx86.Registers.EAX
};
//mov RIGHT_LOW to eax
new CPUx86.Mov
{
DestinationReg = CPUx86.Registers.EAX,
SourceReg = CPUx86.Registers.ESP,
SourceIsIndirect = true
};
// multiply with LEFT_HIGH
new CPUx86.Multiply
{
DestinationReg = CPUx86.Registers.ESP,
DestinationIsIndirect = true,
DestinationDisplacement = 12,
Size = 32
};
// add result of LEFT_LOW * RIGHT_HIGH + RIGHT_LOW + LEFT_HIGH
new CPUx86.Add
{
DestinationReg = CPUx86.Registers.ECX,
SourceReg = CPUx86.Registers.EAX
};
//mov RIGHT_LOW to eax
new CPUx86.Mov
{
DestinationReg = CPUx86.Registers.EAX,
SourceReg = CPUx86.Registers.ESP,
SourceIsIndirect = true
};
// multiply with LEFT_LOW
new CPUx86.Multiply
{
DestinationReg = CPUx86.Registers.ESP,
DestinationIsIndirect = true,
DestinationDisplacement = 8,
Size = 32
};
// add LEFT_LOW * RIGHT_HIGH + RIGHT_LOW + LEFT_HIGH to high dword of last result
new CPUx86.Add
{
DestinationReg = CPUx86.Registers.EDX,
SourceReg = CPUx86.Registers.ECX
};
new CPUx86.Jump
{
DestinationLabel = MoveReturnValue
};
new Label(Simple32Multiply);
//mov RIGHT_LOW to eax
new CPUx86.Mov
{
DestinationReg = CPUx86.Registers.EAX,
SourceReg = CPUx86.Registers.ESP,
SourceIsIndirect = true
};
// multiply with LEFT_LOW
new CPUx86.Multiply
{
DestinationReg = CPUx86.Registers.ESP,
DestinationIsIndirect = true,
DestinationDisplacement = 8,
Size = 32
};
new Label(MoveReturnValue);
// move high result to left high
new CPUx86.Mov
{
DestinationReg = CPUx86.Registers.ESP,
DestinationIsIndirect = true,
DestinationDisplacement = 12,
SourceReg = CPUx86.Registers.EDX
};
// move low result to left low
new CPUx86.Mov
{
DestinationReg = CPUx86.Registers.ESP,
DestinationIsIndirect = true,
DestinationDisplacement = 8,
SourceReg = CPUx86.Registers.EAX
};
// pop right 64 value
new CPUx86.Add
{
DestinationReg = CPUx86.Registers.ESP,
SourceValue = 8
};
}
}
else
{
if (xStackContentIsFloat)
{
new CPUx86.SSE.MoveSS
{
DestinationReg = CPUx86.Registers.XMM0,
SourceReg = CPUx86.Registers.ESP,
SourceIsIndirect = true
};
new CPUx86.Add
{
DestinationReg = CPUx86.Registers.ESP,
SourceValue = 4
};
new CPUx86.SSE.MoveSS
{
DestinationReg = CPUx86.Registers.XMM1,
SourceReg = CPUx86.Registers.ESP,
SourceIsIndirect = true
};
new CPUx86.SSE.MulSS
{
DestinationReg = CPUx86.Registers.XMM1,
SourceReg = CPUx86.Registers.XMM0
};
new CPUx86.SSE.MoveSS
{
DestinationReg = CPUx86.Registers.ESP,
DestinationIsIndirect = true,
SourceReg = CPUx86.Registers.XMM1
};
}
else
{
new CPUx86.Pop
{
DestinationReg = CPUx86.Registers.EAX
};
new CPUx86.Multiply
{
DestinationReg = CPUx86.Registers.ESP,
DestinationIsIndirect = true,
Size = 32
};
new CPUx86.Add
{
DestinationReg = CPUx86.Registers.ESP,
SourceValue = 4
};
new CPUx86.Push
{
DestinationReg = CPUx86.Registers.EAX
};
}
}
}
}
}
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