void DeserializeOnePara(byte propertyType, Material mat, string propertyName, ref NetworkState.NETWORK_STATE_TYPE state)
{
switch (propertyType)
{
case 0: //Color
mat.SetColor(propertyName, BufferedNetworkUtilsClient.ReadColor(ref state));
break;
case 1: //Vector
mat.SetVector(propertyName, BufferedNetworkUtilsClient.ReadVector4(ref state));
break;
case 2: //Float
mat.SetFloat(propertyName, BufferedNetworkUtilsClient.ReadFloat(ref state));
break;
case 3: //Range
mat.SetFloat(propertyName, BufferedNetworkUtilsClient.ReadFloat(ref state));
break;
case 4: //TexEnv
break;
}
}
void switchCaseFunc(FduMultiAttributeObserverOP op, ref NetworkState.NETWORK_STATE_TYPE state)
{
for (int i = 1; i < attrList.Length; ++i)
{
if (!getObservedState(i))
{
continue;
}
switch (i)
{
case 1: //Color
if (op == FduMultiAttributeObserverOP.Update)
{
if (getCachedProperytyCount(i) > 0)
{
image.color = FduInterpolationInterface.getNextColorValue_new(image.color, i, this);
}
}
else if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendColor(image.color);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct)
{
image.color = BufferedNetworkUtilsClient.ReadColor(ref state);
}
else if (op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
setCachedProperty_append(i, BufferedNetworkUtilsClient.ReadColor(ref state));
}
break;
case 2: //RaycastTarget
if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendBool(image.raycastTarget);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct || op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
image.raycastTarget = BufferedNetworkUtilsClient.ReadBool(ref state);
}
break;
case 3: //FillMethod
if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendByte((byte)image.fillMethod);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct || op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
image.fillMethod = (Image.FillMethod)BufferedNetworkUtilsClient.ReadByte(ref state);
}
break;
case 4: //FillAmount
if (op == FduMultiAttributeObserverOP.Update)
{
if (getCachedProperytyCount(i) > 0)
{
image.fillAmount = FduInterpolationInterface.getNextFloatValue_new(image.fillAmount, i, this);
}
}
else if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendFloat(image.fillAmount);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct)
{
image.fillAmount = BufferedNetworkUtilsClient.ReadFloat(ref state);
}
else if (op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
setCachedProperty_append(i, BufferedNetworkUtilsClient.ReadFloat(ref state));
}
break;
case 5: //FillCenter
if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendBool(image.fillCenter);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct || op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
image.fillCenter = BufferedNetworkUtilsClient.ReadBool(ref state);
}
break;
case 6: //FillClockwise
if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendBool(image.fillClockwise);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct || op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
image.fillClockwise = BufferedNetworkUtilsClient.ReadBool(ref state);
}
break;
case 7: //FillOrigin
if (op == FduMultiAttributeObserverOP.Update)
{
if (getCachedProperytyCount(i) > 0)
{
image.fillOrigin = FduInterpolationInterface.getNextIntValue_new(image.fillOrigin, i, this);
}
}
else if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendInt(image.fillOrigin);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct)
{
image.fillOrigin = BufferedNetworkUtilsClient.ReadInt(ref state);
}
else if (op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
setCachedProperty_append(i, BufferedNetworkUtilsClient.ReadInt(ref state));
}
break;
case 8: //ImageType
if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendByte((byte)image.type);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct || op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
image.type = (Image.Type)BufferedNetworkUtilsClient.ReadByte(ref state);
}
break;
case 9: //Image
if (op == FduMultiAttributeObserverOP.SendData)
{
bool changeFlag = false;
if (image.sprite != null && image.sprite.GetInstanceID() != spriteId)
{ //通过对比InstanceId判断该精灵是否被替换
changeFlag = true;
spriteId = image.sprite.GetInstanceID();
}
BufferedNetworkUtilsServer.SendBool(changeFlag);
if (changeFlag) //若已经变化了 则将图片分解为JPG格式传送至节点
{
byte[] arr;
try
{
arr = image.sprite.texture.EncodeToJPG();
BufferedNetworkUtilsServer.SendByteArray(arr);
BufferedNetworkUtilsServer.SendRect(image.sprite.textureRect);
BufferedNetworkUtilsServer.SendVector2(image.sprite.pivot);
}
catch (System.Exception e)
{
Debug.LogError(e.Message);
}
}
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct || op == FduMultiAttributeObserverOP.Receive_Interpolation) //从节点先判断有没有图片传来 然后再解析
{
bool changeFlag = BufferedNetworkUtilsClient.ReadBool(ref state);
if (changeFlag)
{
byte[] bytes = BufferedNetworkUtilsClient.ReadByteArray(ref state);
Rect rect = BufferedNetworkUtilsClient.ReadRect(ref state);
Vector2 pivot = BufferedNetworkUtilsClient.ReadVector2(ref state);
Texture2D texture = new Texture2D((int)GetComponent <RectTransform>().rect.width, (int)GetComponent <RectTransform>().rect.height);
texture.LoadImage(bytes);
image.sprite = Sprite.Create(texture, rect, pivot);
}
}
break;
}
}
}
void switchCaseFunc(FduMultiAttributeObserverOP op, ref NetworkState.NETWORK_STATE_TYPE state)
{
for (int i = 1; i < attrList.Length; ++i)
{
if (!getObservedState(i))
{
continue;
}
switch (i)
{
case 1: //TextContent
if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendString(text.text);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct || op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
text.text = BufferedNetworkUtilsClient.ReadString(ref state);
}
break;
case 2: //Color
if (op == FduMultiAttributeObserverOP.Update)
{
if (getCachedProperytyCount(i) > 0)
{
text.color = FduInterpolationInterface.getNextColorValue_new(text.color, i, this);
}
}
else if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendColor(text.color);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct)
{
text.color = BufferedNetworkUtilsClient.ReadColor(ref state);
}
else if (op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
setCachedProperty_append(i, BufferedNetworkUtilsClient.ReadColor(ref state));
}
break;
case 3: //FontStyle
if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendByte((byte)text.fontStyle);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct || op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
text.fontStyle = (FontStyle)BufferedNetworkUtilsClient.ReadByte(ref state);
}
break;
case 4: //FontSize
if (op == FduMultiAttributeObserverOP.Update)
{
if (getCachedProperytyCount(i) > 0)
{
text.fontSize = FduInterpolationInterface.getNextIntValue_new(text.fontSize, i, this);
}
}
else if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendInt(text.fontSize);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct)
{
text.fontSize = BufferedNetworkUtilsClient.ReadInt(ref state);
}
else if (op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
setCachedProperty(i, BufferedNetworkUtilsClient.ReadInt(ref state));
}
break;
case 5: //LineSpacing
if (op == FduMultiAttributeObserverOP.Update)
{
if (getCachedProperytyCount(i) > 0)
{
text.lineSpacing = FduInterpolationInterface.getNextFloatValue_new(text.lineSpacing, i, this);
}
}
else if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendFloat(text.lineSpacing);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct)
{
text.lineSpacing = BufferedNetworkUtilsClient.ReadFloat(ref state);
}
else if (op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
setCachedProperty(i, BufferedNetworkUtilsClient.ReadFloat(ref state));
}
break;
case 6: //SupportRichText
if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendBool(text.supportRichText);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct || op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
text.supportRichText = BufferedNetworkUtilsClient.ReadBool(ref state);
}
break;
case 7: //Aligment
if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendByte((byte)text.alignment);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct || op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
text.alignment = (TextAnchor)BufferedNetworkUtilsClient.ReadByte(ref state);
}
break;
case 8: //AlignByGeometry
if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendBool(text.alignByGeometry);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct || op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
text.alignByGeometry = BufferedNetworkUtilsClient.ReadBool(ref state);
}
break;
case 9: //HorizontalOverflow
if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendByte((byte)text.horizontalOverflow);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct || op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
text.horizontalOverflow = (HorizontalWrapMode)BufferedNetworkUtilsClient.ReadByte(ref state);
}
break;
case 10: //VerticalOverflow
if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendByte((byte)text.verticalOverflow);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct || op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
text.verticalOverflow = (VerticalWrapMode)BufferedNetworkUtilsClient.ReadByte(ref state);
}
break;
case 11: //BestFit
if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendBool(text.resizeTextForBestFit);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct || op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
text.resizeTextForBestFit = BufferedNetworkUtilsClient.ReadBool(ref state);
}
break;
case 12: //RaycastTarget
if (op == FduMultiAttributeObserverOP.SendData)
{
BufferedNetworkUtilsServer.SendBool(text.raycastTarget);
}
else if (op == FduMultiAttributeObserverOP.Receive_Direct || op == FduMultiAttributeObserverOP.Receive_Interpolation)
{
text.raycastTarget = BufferedNetworkUtilsClient.ReadBool(ref state);
}
break;
case 31: //Interpolation Option
break;
}
}
}
//反序列化一个可传输的参数
public static object deserializeOneParameter(ref NetworkState.NETWORK_STATE_TYPE state)
{
FduSendableParameter typeCode = (FduSendableParameter)BufferedNetworkUtilsClient.ReadByte(ref state);
object result;
switch (typeCode)
{
case FduSendableParameter.Int:
result = BufferedNetworkUtilsClient.ReadInt(ref state);
break;
case FduSendableParameter.IntArray:
result = BufferedNetworkUtilsClient.ReadIntArray(ref state);
break;
case FduSendableParameter.Byte:
result = BufferedNetworkUtilsClient.ReadByte(ref state);
break;
case FduSendableParameter.ByteArray:
result = BufferedNetworkUtilsClient.ReadByteArray(ref state);
break;
case FduSendableParameter.Float:
result = BufferedNetworkUtilsClient.ReadFloat(ref state);
break;
case FduSendableParameter.FloatArray:
result = BufferedNetworkUtilsClient.ReadFloatArray(ref state);
break;
case FduSendableParameter.Bool:
result = BufferedNetworkUtilsClient.ReadBool(ref state);
break;
case FduSendableParameter.BoolArray:
int bollen = BufferedNetworkUtilsClient.ReadInt(ref state);
bool[] bolarr = new bool[bollen];
for (int i = 0; i < bollen; ++i)
{
bolarr[i] = BufferedNetworkUtilsClient.ReadBool(ref state);
}
result = bolarr;
break;
case FduSendableParameter.String:
result = BufferedNetworkUtilsClient.ReadString(ref state);
break;
case FduSendableParameter.StringArray:
int strlen = BufferedNetworkUtilsClient.ReadInt(ref state);
string[] strarr = new string[strlen];
for (int i = 0; i < strlen; ++i)
{
strarr[i] = BufferedNetworkUtilsClient.ReadString(ref state);
}
result = strarr;
break;
case FduSendableParameter.Vector2:
result = BufferedNetworkUtilsClient.ReadVector2(ref state);
break;
case FduSendableParameter.Vector2Array:
int v2len = BufferedNetworkUtilsClient.ReadInt(ref state);
Vector2[] v2arr = new Vector2[v2len];
for (int i = 0; i < v2len; ++i)
{
v2arr[i] = BufferedNetworkUtilsClient.ReadVector2(ref state);
}
result = v2arr;
break;
case FduSendableParameter.Vector3:
result = BufferedNetworkUtilsClient.ReadVector3(ref state);
break;
case FduSendableParameter.Vector3Array:
int v3len = BufferedNetworkUtilsClient.ReadInt(ref state);
Vector3[] v3arr = new Vector3[v3len];
for (int i = 0; i < v3len; ++i)
{
v3arr[i] = BufferedNetworkUtilsClient.ReadVector3(ref state);
}
result = v3arr;
break;
case FduSendableParameter.Vector4:
result = BufferedNetworkUtilsClient.ReadVector4(ref state);
break;
case FduSendableParameter.Vector4Array:
int v4len = BufferedNetworkUtilsClient.ReadInt(ref state);
Vector4[] v4arr = new Vector4[v4len];
for (int i = 0; i < v4len; ++i)
{
v4arr[i] = BufferedNetworkUtilsClient.ReadVector4(ref state);
}
result = v4arr;
break;
case FduSendableParameter.Color:
result = BufferedNetworkUtilsClient.ReadColor(ref state);
break;
case FduSendableParameter.ColorArray:
int clen = BufferedNetworkUtilsClient.ReadInt(ref state);
Color[] carray = new Color[clen];
for (int i = 0; i < clen; ++i)
{
carray[i] = BufferedNetworkUtilsClient.ReadColor(ref state);
}
result = carray;
break;
case FduSendableParameter.Quaternion:
result = BufferedNetworkUtilsClient.ReadQuaternion(ref state);
break;
case FduSendableParameter.QuaternionArray:
int qlen = BufferedNetworkUtilsClient.ReadInt(ref state);
Quaternion[] qarr = new Quaternion[qlen];
for (int i = 0; i < qlen; i++)
{
qarr[i] = BufferedNetworkUtilsClient.ReadQuaternion(ref state);
}
result = qarr;
break;
case FduSendableParameter.Matrix4X4:
result = BufferedNetworkUtilsClient.ReadMatrix4x4(ref state);
break;
case FduSendableParameter.Matrix4X4Array:
int matlen = BufferedNetworkUtilsClient.ReadInt(ref state);
Matrix4x4 [] matArr = new Matrix4x4[matlen];
for (int i = 0; i < matlen; ++i)
{
matArr[i] = BufferedNetworkUtilsClient.ReadMatrix4x4(ref state);
}
result = matArr;
break;
case FduSendableParameter.Rect:
result = BufferedNetworkUtilsClient.ReadRect(ref state);
break;
case FduSendableParameter.RectArray:
int rectlen = BufferedNetworkUtilsClient.ReadInt(ref state);
Rect[] rectArr = new Rect[rectlen];
for (int i = 0; i < rectlen; ++i)
{
rectArr[i] = BufferedNetworkUtilsClient.ReadRect(ref state);
}
result = rectArr;
break;
case FduSendableParameter.GameObject:
bool goType = BufferedNetworkUtilsClient.ReadBool(ref state);
if (goType) //有clusterview的物体
{
var view = FduClusterViewManager.getClusterView(BufferedNetworkUtilsClient.ReadInt(ref state));
if (view != null)
{
result = view.gameObject;
}
else
{
result = null;
}
}
else //有唯一路径的gameobject
{
string path = BufferedNetworkUtilsClient.ReadString(ref state);
result = FduSupportClass.getGameObjectByPath(path);
}
break;
case FduSendableParameter.ClusterView:
result = FduClusterViewManager.getClusterView(BufferedNetworkUtilsClient.ReadInt(ref state));
break;
case FduSendableParameter.Struct:
try
{
string typeName = BufferedNetworkUtilsClient.ReadString(ref state);
System.Type type = System.Type.GetType(typeName);
result = BufferedNetworkUtilsClient.ReadStruct(type, ref state);
}
catch (System.Exception e) { Debug.LogError("Error occured in reading struct data. Details: " + e.Message); throw; }
break;
case FduSendableParameter.SerializableClass:
result = BufferedNetworkUtilsClient.ReadSerializableClass(ref state);
break;
case FduSendableParameter.Enum:
result = BufferedNetworkUtilsClient.ReadInt(ref state);
break;
default:
throw new InvalidSendableDataException("Received unsendable data type, type code:" + typeCode);
}
return(result);
}