namespace X86Disassembler.X86.Handlers.FloatingPoint.Control; ///

/// Handler for FCLEX instruction with WAIT prefix (0x9B 0xDB 0xE2) ///

public class FclexWaitHandler : InstructionHandler { ///

/// Initializes a new instance of the FclexWaitHandler class ///

/// The instruction decoder that owns this handler public FclexWaitHandler(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) { // FCLEX with WAIT prefix starts with 0x9B if (opcode != 0x9B) return false; // Check if we can read the next two bytes if (!Decoder.CanReadByte()) return false; // Check if the next bytes are 0xDB 0xE2 (for FCLEX with WAIT) var (nextByte, thirdByte) = Decoder.PeakTwoBytes(); // The sequence must be 9B DB E2 for FCLEX with WAIT return nextByte == 0xDB && thirdByte == 0xE2; } ///

/// Decodes a FCLEX instruction with WAIT prefix ///

/// 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) { // Skip the WAIT prefix (0x9B) - we already read it in CanHandle if (!Decoder.CanReadByte()) return false; // Read the second byte (0xDB) byte secondByte = Decoder.ReadByte(); if (secondByte != 0xDB) return false; // Read the third byte (0xE2) if (!Decoder.CanReadByte()) return false; byte thirdByte = Decoder.ReadByte(); if (thirdByte != 0xE2) return false; // Set the instruction type instruction.Type = InstructionType.Fclex; // FCLEX has no operands instruction.StructuredOperands = []; return true; } }