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ParkanPlayground/X86Disassembler/X86/Handlers/Shift/ShlRm32ByClHandler.cs

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C#
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using X86Disassembler.X86.Operands;
namespace X86Disassembler.X86.Handlers.Shift;
/// <summary>
/// Handler for SHL r/m32, CL instruction (0xD3 /4)
/// </summary>
public class ShlRm32ByClHandler : InstructionHandler
{
/// <summary>
/// Initializes a new instance of the ShlRm32ByClHandler class
/// </summary>
/// <param name="decoder">The instruction decoder that owns this handler</param>
public ShlRm32ByClHandler(InstructionDecoder decoder)
: base(decoder)
{
}
/// <summary>
/// Checks if this handler can decode the given opcode
/// </summary>
/// <param name="opcode">The opcode to check</param>
/// <returns>True if this handler can decode the opcode</returns>
public override bool CanHandle(byte opcode)
{
// SHL r/m32, CL is encoded as 0xD3 /4
if (opcode != 0xD3)
return false;
// Check if we can read the ModR/M byte
if (!Decoder.CanReadByte())
return false;
// Check if the reg field of the ModR/M byte is 4 (SHL)
var reg = ModRMDecoder.PeakModRMReg();
return reg == 4; // 4 = SHL
}
/// <summary>
/// Decodes a SHL r/m32, CL instruction
/// </summary>
/// <param name="opcode">The opcode of the instruction</param>
/// <param name="instruction">The instruction object to populate</param>
/// <returns>True if the instruction was successfully decoded</returns>
public override bool Decode(byte opcode, Instruction instruction)
{
// Set the instruction type
instruction.Type = InstructionType.Shl;
// Read the ModR/M byte
var (_, _, _, operand) = ModRMDecoder.ReadModRM();
// Create a register operand for CL
var clOperand = OperandFactory.CreateRegisterOperand8(RegisterIndex8.CL);
// Set the structured operands
instruction.StructuredOperands =
[
operand,
clOperand
];
return true;
}
}
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