public new static EffectVariableAssignment Parse(BytecodeReader reader, BytecodeReader assignmentReader) { var result = new EffectVariableAssignment(); result.Value = assignmentReader.ReadString(); return(result); }
public static ShaderMessageDeclarationToken Parse(BytecodeReader reader) { var token0 = reader.ReadUInt32(); var length = reader.ReadUInt32() - 2; var result = new ShaderMessageDeclarationToken { DeclarationLength = length, InfoQueueMessageID = reader.ReadUInt32(), MessageFormat = (ShaderMessageFormat)reader.ReadUInt32(), NumCharacters = reader.ReadUInt32(), NumOperands = reader.ReadUInt32(), OperandsLength = reader.ReadUInt32() }; for (int i = 0; i < result.NumOperands; i++) { result.Operands.Add(Operand.Parse(reader, OpcodeType.CustomData)); } result.Format = reader.ReadString(); // String is padded to a multiple of DWORDs. uint remainingBytes = (4 - ((result.NumCharacters + 1) % 4)) % 4; reader.ReadBytes((int)remainingBytes); return(result); }
public static DebugNameChunk Parse(BytecodeReader reader, uint chunkSize) { var result = new DebugNameChunk(); var flags = reader.ReadUInt16(); var nameLength = reader.ReadUInt16(); result.Name = reader.ReadString(); return(result); }
public static ConstantPool ReadConstantPool(BytecodeReader reader, ushort constantPoolCount) { // TODO: check if long and double constants reading right ConstantPool constantPool = new ConstantPool(); int a = 0; var tagDictionary = new Dictionary <int, Action>(); tagDictionary.Add(1, () => { ushort length = reader.ReadUShort(); String value = reader.ReadString(length); constantPool.AddConstantUtf8(new ConstantUtf8(length, value)); }); tagDictionary.Add(3, () => constantPool.AddConstantInteger(reader.ReadInt())); tagDictionary.Add(4, () => constantPool.AddConstantFloat(reader.ReadFloat())); tagDictionary.Add(5, () => constantPool.AddConstantLong(reader.ReadLong())); tagDictionary.Add(6, () => constantPool.AddConstantDouble(reader.ReadDouble())); tagDictionary.Add(7, () => constantPool.AddConstantClass(new ConstantClass(reader.ReadUShort()))); tagDictionary.Add(8, () => constantPool.AddConstantString(new ConstantString(reader.ReadUShort()))); tagDictionary.Add(9, () => constantPool.AddConstantFieldRef(new ConstantFieldRef(reader.ReadUShort(), reader.ReadUShort()))); tagDictionary.Add(10, () => constantPool.AddConstantMethodRef(new ConstantMethodRef(reader.ReadUShort(), reader.ReadUShort()))); tagDictionary.Add(11, () => constantPool.AddConstantInterfaceMethodRef(new ConstantInterfaceMethodRef(reader.ReadUShort(), reader.ReadUShort()))); tagDictionary.Add(12, () => constantPool.AddConstantNameAndType(new ConstantNameAndType(reader.ReadUShort(), reader.ReadUShort()))); tagDictionary.Add(15, () => constantPool.AddConstantMethodHandle(new ConstantMethodHandle(reader.ReadByte(), reader.ReadUShort()))); tagDictionary.Add(16, () => constantPool.AddConstantMethodType(new ConstantMethodType(reader.ReadUShort()))); tagDictionary.Add(18, () => constantPool.AddConstantInvokeDynamic(new ConstantInvokeDynamic(reader.ReadUShort(), reader.ReadUShort()))); tagDictionary.Add(19, () => constantPool.AddConstantModule(new ConstantModule(reader.ReadUShort()))); tagDictionary.Add(20, () => constantPool.AddConstantPackage(new ConstantPackage(reader.ReadUShort()))); Action createConstant; for (int i = 0; i < constantPoolCount; i++) { if (tagDictionary.TryGetValue(reader.ReadByte(), out createConstant)) { createConstant.Invoke(); } else { throw new KeyNotFoundException("Constant type not recognized"); } } return(constantPool); }