/// <summary> /// Determines whether the specified <see cref="object"/> is equal to the current <see cref="T:com.CIMthetics.CSharpSECSTools.SECSItems.I1ArraySECSItem"/>. /// </summary> /// <param name="obj">The <see cref="object"/> to compare with the current <see cref="T:com.CIMthetics.CSharpSECSTools.SECSItems.I1ArraySECSItem"/>.</param> /// <returns><c>true</c> if the specified <see cref="object"/> is equal to the current /// <see cref="T:com.CIMthetics.CSharpSECSTools.SECSItems.I1ArraySECSItem"/>; otherwise, <c>false</c>.</returns> public override bool Equals(Object obj) { if (this == obj) { return(true); } if (obj == null) { return(false); } if (GetType() != obj.GetType()) { return(false); } I1ArraySECSItem other = (I1ArraySECSItem)obj; if (value == null && other.value == null) { return(true); } if (value == null) { if (other.value != null) { return(false); } } if (other.value == null) { if (value != null) { return(false); } } if (value.Length != other.value.Length) { return(false); } return(value.SequenceEqual(other.value)); }
/// <summary> /// Generates a <c>SECSItem</c> from data in "wire/transmission" format. /// </summary> /// <returns>The resulting <c>SECSItem</c>.</returns> /// <param name="data">An array of bytes that is in wire/transmission format.</param> /// <param name="offset">The byte offset into <c>data</c> where the data for /// a <c>SECSITEM</c> starts.</param> public static SECSItem GenerateSECSItem(byte[] data, int offset) { SECSItem result = null; SECSItemFormatCode formatCode = SECSItemFormatCodeFunctions.GetSECSItemFormatCodeFromNumber((byte)((data[offset] >> 2) & 0x0000003F)); int numberOfLengthBytes = (data[offset] & 0x03); int incomingDataLength = 0; switch (numberOfLengthBytes) { case 1: { byte[] temp = new byte[4]; temp[0] = 0; temp[1] = 0; temp[2] = 0; temp[3] = data[offset + 1]; if (BitConverter.IsLittleEndian) { Array.Reverse(temp); } incomingDataLength = BitConverter.ToInt32(temp, 0); break; } case 2: { byte[] temp = new byte[4]; temp[0] = 0; temp[1] = 0; temp[2] = data[offset + 1]; temp[3] = data[offset + 2]; if (BitConverter.IsLittleEndian) { Array.Reverse(temp); } incomingDataLength = BitConverter.ToInt32(temp, 0); break; } case 3: { byte[] temp = new byte[4]; temp[0] = 0; temp[1] = data[offset + 1]; temp[2] = data[offset + 2]; temp[3] = data[offset + 3]; if (BitConverter.IsLittleEndian) { Array.Reverse(temp); } incomingDataLength = BitConverter.ToInt32(temp, 0); break; } } switch (formatCode) { case SECSItemFormatCode.L: result = new ListSECSItem(data, offset); break; case SECSItemFormatCode.B: result = new BinarySECSItem(data, offset); break; case SECSItemFormatCode.BO: if (incomingDataLength == 1) { result = new BooleanSECSItem(data, offset); } else { result = new BooleanArraySECSItem(data, offset); } break; case SECSItemFormatCode.A: result = new ASCIISECSItem(data, offset); break; case SECSItemFormatCode.J8: break; case SECSItemFormatCode.C2: break; case SECSItemFormatCode.I8: if (incomingDataLength == 8) { result = new I8SECSItem(data, offset); } else { result = new I8ArraySECSItem(data, offset); } break; case SECSItemFormatCode.I1: if (incomingDataLength == 1) { result = new I1SECSItem(data, offset); } else { result = new I1ArraySECSItem(data, offset, 0); // Need to use this version because of method signature issues } break; case SECSItemFormatCode.I2: if (incomingDataLength == 2) { result = new I2SECSItem(data, offset); } else { result = new I2ArraySECSItem(data, offset); } break; case SECSItemFormatCode.I4: if (incomingDataLength == 4) { result = new I4SECSItem(data, offset); } else { result = new I4ArraySECSItem(data, offset); } break; case SECSItemFormatCode.F8: if (incomingDataLength == 8) { result = new F8SECSItem(data, offset); } else { result = new F8ArraySECSItem(data, offset); } break; case SECSItemFormatCode.F4: if (incomingDataLength == 4) { result = new F4SECSItem(data, offset); } else { result = new F4ArraySECSItem(data, offset); } break; case SECSItemFormatCode.U8: if (incomingDataLength == 8) { result = new U8SECSItem(data, offset); } else { result = new U8ArraySECSItem(data, offset); } break; case SECSItemFormatCode.U1: if (incomingDataLength == 1) { result = new U1SECSItem(data, offset); } else { result = new U1ArraySECSItem(data, offset, 0); // Remember to use the proper constructor for this case } break; case SECSItemFormatCode.U2: if (incomingDataLength == 2) { result = new U2SECSItem(data, offset); } else { result = new U2ArraySECSItem(data, offset); } break; case SECSItemFormatCode.U4: if (incomingDataLength == 4) { result = new U4SECSItem(data, offset); } else { result = new U4ArraySECSItem(data, offset); } break; case SECSItemFormatCode.UNDEFINED: break; case SECSItemFormatCode.HeaderOnly: break; default: break; } return(result); }