Napisałem jedną, podziel się nią, może komuś pomóc:
[global::System.AttributeUsage(AttributeTargets.Field, AllowMultiple = false)]
public sealed class BitInfoAttribute : Attribute {
byte length;
public BitInfoAttribute(byte length) {
this.length = length;
}
public byte Length { get { return length; } }
}
public abstract class BitField {
public void parse<T>(T[] vals) {
analysis().parse(this, ArrayConverter.convert<T, uint>(vals));
}
public byte[] toArray() {
return ArrayConverter.convert<uint, byte>(analysis().toArray(this));
}
public T[] toArray<T>() {
return ArrayConverter.convert<uint, T>(analysis().toArray(this));
}
static Dictionary<Type, BitTypeInfo> bitInfoMap = new Dictionary<Type, BitTypeInfo>();
private BitTypeInfo analysis() {
Type type = this.GetType();
if (!bitInfoMap.ContainsKey(type)) {
List<BitInfo> infos = new List<BitInfo>();
byte dataIdx = 0, offset = 0;
foreach (System.Reflection.FieldInfo f in type.GetFields()) {
object[] attrs = f.GetCustomAttributes(typeof(BitInfoAttribute), false);
if (attrs.Length == 1) {
byte bitLen = ((BitInfoAttribute)attrs[0]).Length;
if (offset + bitLen > 32) {
dataIdx++;
offset = 0;
}
infos.Add(new BitInfo(f, bitLen, dataIdx, offset));
offset += bitLen;
}
}
bitInfoMap.Add(type, new BitTypeInfo(dataIdx + 1, infos.ToArray()));
}
return bitInfoMap[type];
}
}
class BitTypeInfo {
public int dataLen { get; private set; }
public BitInfo[] bitInfos { get; private set; }
public BitTypeInfo(int _dataLen, BitInfo[] _bitInfos) {
dataLen = _dataLen;
bitInfos = _bitInfos;
}
public uint[] toArray<T>(T obj) {
uint[] datas = new uint[dataLen];
foreach (BitInfo bif in bitInfos) {
bif.encode(obj, datas);
}
return datas;
}
public void parse<T>(T obj, uint[] vals) {
foreach (BitInfo bif in bitInfos) {
bif.decode(obj, vals);
}
}
}
class BitInfo {
private System.Reflection.FieldInfo field;
private uint mask;
private byte idx, offset, shiftA, shiftB;
private bool isUnsigned = false;
public BitInfo(System.Reflection.FieldInfo _field, byte _bitLen, byte _idx, byte _offset) {
field = _field;
mask = (uint)(((1 << _bitLen) - 1) << _offset);
idx = _idx;
offset = _offset;
shiftA = (byte)(32 - _offset - _bitLen);
shiftB = (byte)(32 - _bitLen);
if (_field.FieldType == typeof(bool)
|| _field.FieldType == typeof(byte)
|| _field.FieldType == typeof(char)
|| _field.FieldType == typeof(uint)
|| _field.FieldType == typeof(ulong)
|| _field.FieldType == typeof(ushort)) {
isUnsigned = true;
}
}
public void encode(Object obj, uint[] datas) {
if (isUnsigned) {
uint val = (uint)Convert.ChangeType(field.GetValue(obj), typeof(uint));
datas[idx] |= ((uint)(val << offset) & mask);
} else {
int val = (int)Convert.ChangeType(field.GetValue(obj), typeof(int));
datas[idx] |= ((uint)(val << offset) & mask);
}
}
public void decode(Object obj, uint[] datas) {
if (isUnsigned) {
field.SetValue(obj, Convert.ChangeType((((uint)(datas[idx] & mask)) << shiftA) >> shiftB, field.FieldType));
} else {
field.SetValue(obj, Convert.ChangeType((((int)(datas[idx] & mask)) << shiftA) >> shiftB, field.FieldType));
}
}
}
public class ArrayConverter {
public static T[] convert<T>(uint[] val) {
return convert<uint, T>(val);
}
public static T1[] convert<T0, T1>(T0[] val) {
T1[] rt = null;
if (typeof(T0) == typeof(T1)) {
rt = (T1[])(Array)val;
} else {
int len = Buffer.ByteLength(val);
int w = typeWidth<T1>();
if (w == 1) {
rt = new T1[len * 8];
} else if (w == 8) {
rt = new T1[len];
} else {
int nn = w / 8;
int len2 = (len / nn) + ((len % nn) > 0 ? 1 : 0);
rt = new T1[len2];
}
Buffer.BlockCopy(val, 0, rt, 0, len);
}
return rt;
}
public static string toBinary<T>(T[] vals) {
StringBuilder sb = new StringBuilder();
int width = typeWidth<T>();
int len = Buffer.ByteLength(vals);
for (int i = len-1; i >=0; i--) {
sb.Append(Convert.ToString(Buffer.GetByte(vals, i), 2).PadLeft(8, '0')).Append(" ");
}
return sb.ToString();
}
private static int typeWidth<T>() {
int rt = 0;
if (typeof(T) == typeof(bool)) {
rt = 1;
} else if (typeof(T) == typeof(byte)) {
rt = 8;
} else if (typeof(T) == typeof(sbyte)) {
rt = 8;
} else if (typeof(T) == typeof(ushort)) {
rt = 16;
} else if (typeof(T) == typeof(short)) {
rt = 16;
} else if (typeof(T) == typeof(char)) {
rt = 16;
} else if (typeof(T) == typeof(uint)) {
rt = 32;
} else if (typeof(T) == typeof(int)) {
rt = 32;
} else if (typeof(T) == typeof(float)) {
rt = 32;
} else if (typeof(T) == typeof(ulong)) {
rt = 64;
} else if (typeof(T) == typeof(long)) {
rt = 64;
} else if (typeof(T) == typeof(double)) {
rt = 64;
} else {
throw new Exception("Unsupport type : " + typeof(T).Name);
}
return rt;
}
}
i zastosowanie:
class MyTest01 : BitField {
[BitInfo(3)]
public bool d0;
[BitInfo(3)]
public short d1;
[BitInfo(3)]
public int d2;
[BitInfo(3)]
public int d3;
[BitInfo(3)]
public int d4;
[BitInfo(3)]
public int d5;
public MyTest01(bool _d0, short _d1, int _d2, int _d3, int _d4, int _d5) {
d0 = _d0;
d1 = _d1;
d2 = _d2;
d3 = _d3;
d4 = _d4;
d5 = _d5;
}
public MyTest01(byte[] datas) {
parse(datas);
}
public new string ToString() {
return string.Format("d0: {0}, d1: {1}, d2: {2}, d3: {3}, d4: {4}, d5: {5} \r\nbinary => {6}",
d0, d1, d2, d3, d4, d5, ArrayConverter.toBinary(toArray()));
}
};
class MyTest02 : BitField {
[BitInfo(5)]
public bool val0;
[BitInfo(5)]
public byte val1;
[BitInfo(15)]
public uint val2;
[BitInfo(15)]
public float val3;
[BitInfo(15)]
public int val4;
[BitInfo(15)]
public int val5;
[BitInfo(15)]
public int val6;
public MyTest02(bool v0, byte v1, uint v2, float v3, int v4, int v5, int v6) {
val0 = v0;
val1 = v1;
val2 = v2;
val3 = v3;
val4 = v4;
val5 = v5;
val6 = v6;
}
public MyTest02(byte[] datas) {
parse(datas);
}
public new string ToString() {
return string.Format("val0: {0}, val1: {1}, val2: {2}, val3: {3}, val4: {4}, val5: {5}, val6: {6}\r\nbinary => {7}",
val0, val1, val2, val3, val4, val5, val6, ArrayConverter.toBinary(toArray()));
}
}
public class MainClass {
public static void Main(string[] args) {
MyTest01 p = new MyTest01(false, 1, 2, 3, -1, -2);
Debug.Log("P:: " + p.ToString());
MyTest01 p2 = new MyTest01(p.toArray());
Debug.Log("P2:: " + p2.ToString());
MyTest02 t = new MyTest02(true, 1, 12, -1.3f, 4, -5, 100);
Debug.Log("t:: " + t.ToString());
MyTest02 t2 = new MyTest02(t.toArray());
Debug.Log("t:: " + t.ToString());
Console.Read();
return;
}
}
GetFields
Metoda nie zwraca pól w określonej kolejności, na przykład kolejności alfabetycznej lub kolejności deklaracji. Kod nie może zależeć od kolejności zwracania pól, ponieważ ta kolejność jest różna”. Czy to nie powoduje tutaj problemu?