namespace X86Disassembler.X86.Handlers.FloatingPoint.Arithmetic;
using X86Disassembler.X86.Operands;
///
/// Handler for FDIV ST, ST(i) instruction (D8 F0-F7)
///
public class FdivStStiHandler : InstructionHandler
{
///
/// Initializes a new instance of the FdivStStHandler class
///
/// The instruction decoder that owns this handler
public FdivStStiHandler(InstructionDecoder decoder)
: base(decoder)
{
}
///
/// Checks if this handler can decode the given opcode
///
/// The opcode to check
/// True if this handler can decode the opcode
public override bool CanHandle(byte opcode)
{
// FDIV ST, ST(i) is D8 F0-F7
if (opcode != 0xD8) return false;
if (!Decoder.CanReadByte())
{
return false;
}
// Check second opcode byte
byte secondOpcode = Decoder.PeakByte();
// Only handle F0-F7
return secondOpcode is >= 0xF0 and <= 0xF7;
}
///
/// Decodes a FDIV ST, ST(i) instruction
///
/// The opcode of the instruction
/// The instruction object to populate
/// True if the instruction was successfully decoded
public override bool Decode(byte opcode, Instruction instruction)
{
if (!Decoder.CanReadByte())
{
return false;
}
// Read the ModR/M byte and calculate ST(i) index
var stIndex = (FpuRegisterIndex)(Decoder.ReadByte() - 0xF0);
// Set the instruction type
instruction.Type = InstructionType.Fdiv;
// Create the FPU register operands
var st0Operand = OperandFactory.CreateFPURegisterOperand(FpuRegisterIndex.ST0);
var stiOperand = OperandFactory.CreateFPURegisterOperand(stIndex);
// Set the structured operands
instruction.StructuredOperands =
[
st0Operand,
stiOperand
];
return true;
}
}