IndieGame/client/Packages/luban_unity-main/Runtime/SimpleJSON/SimpleJSONUnity.cs
DOBEST\zhaoyingjie f242607587 初始化工程
2024-10-11 10:12:15 +08:00

463 lines
15 KiB
C#

#if UNITY_5_3_OR_NEWER
#region License and information
/* * * * *
*
* Unity extension for the SimpleJSON framework. It does only work together with
* the SimpleJSON.cs
* It provides several helpers and conversion operators to serialize/deserialize
* common Unity types such as Vector2/3/4, Rect, RectOffset, Quaternion and
* Matrix4x4 as JSONObject or JSONArray.
* This extension will add 3 static settings to the JSONNode class:
* ( VectorContainerType, QuaternionContainerType, RectContainerType ) which
* control what node type should be used for serializing the given type. So a
* Vector3 as array would look like [12,32,24] and {"x":12, "y":32, "z":24} as
* object.
*
*
* The MIT License (MIT)
*
* Copyright (c) 2012-2017 Markus Göbel (Bunny83)
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*
* * * * */
#endregion License and information
using UnityEngine;
namespace SimpleJSON
{
public enum JSONContainerType { Array, Object }
public partial class JSONNode
{
public static byte Color32DefaultAlpha = 255;
public static float ColorDefaultAlpha = 1f;
public static JSONContainerType VectorContainerType = JSONContainerType.Array;
public static JSONContainerType QuaternionContainerType = JSONContainerType.Array;
public static JSONContainerType RectContainerType = JSONContainerType.Array;
public static JSONContainerType ColorContainerType = JSONContainerType.Array;
private static JSONNode GetContainer(JSONContainerType aType)
{
if (aType == JSONContainerType.Array)
return new JSONArray();
return new JSONObject();
}
#region implicit conversion operators
public static implicit operator JSONNode(Vector2 aVec)
{
JSONNode n = GetContainer(VectorContainerType);
n.WriteVector2(aVec);
return n;
}
public static implicit operator JSONNode(Vector3 aVec)
{
JSONNode n = GetContainer(VectorContainerType);
n.WriteVector3(aVec);
return n;
}
public static implicit operator JSONNode(Vector4 aVec)
{
JSONNode n = GetContainer(VectorContainerType);
n.WriteVector4(aVec);
return n;
}
public static implicit operator JSONNode(Color aCol)
{
JSONNode n = GetContainer(ColorContainerType);
n.WriteColor(aCol);
return n;
}
public static implicit operator JSONNode(Color32 aCol)
{
JSONNode n = GetContainer(ColorContainerType);
n.WriteColor32(aCol);
return n;
}
public static implicit operator JSONNode(Quaternion aRot)
{
JSONNode n = GetContainer(QuaternionContainerType);
n.WriteQuaternion(aRot);
return n;
}
public static implicit operator JSONNode(Rect aRect)
{
JSONNode n = GetContainer(RectContainerType);
n.WriteRect(aRect);
return n;
}
public static implicit operator JSONNode(RectOffset aRect)
{
JSONNode n = GetContainer(RectContainerType);
n.WriteRectOffset(aRect);
return n;
}
public static implicit operator Vector2(JSONNode aNode)
{
return aNode.ReadVector2();
}
public static implicit operator Vector3(JSONNode aNode)
{
return aNode.ReadVector3();
}
public static implicit operator Vector4(JSONNode aNode)
{
return aNode.ReadVector4();
}
public static implicit operator Color(JSONNode aNode)
{
return aNode.ReadColor();
}
public static implicit operator Color32(JSONNode aNode)
{
return aNode.ReadColor32();
}
public static implicit operator Quaternion(JSONNode aNode)
{
return aNode.ReadQuaternion();
}
public static implicit operator Rect(JSONNode aNode)
{
return aNode.ReadRect();
}
public static implicit operator RectOffset(JSONNode aNode)
{
return aNode.ReadRectOffset();
}
#endregion implicit conversion operators
#region Vector2
public Vector2 ReadVector2(Vector2 aDefault)
{
if (IsObject)
return new Vector2(this["x"].AsFloat, this["y"].AsFloat);
if (IsArray)
return new Vector2(this[0].AsFloat, this[1].AsFloat);
return aDefault;
}
public Vector2 ReadVector2(string aXName, string aYName)
{
if (IsObject)
{
return new Vector2(this[aXName].AsFloat, this[aYName].AsFloat);
}
return Vector2.zero;
}
public Vector2 ReadVector2()
{
return ReadVector2(Vector2.zero);
}
public JSONNode WriteVector2(Vector2 aVec, string aXName = "x", string aYName = "y")
{
if (IsObject)
{
Inline = true;
this[aXName].AsFloat = aVec.x;
this[aYName].AsFloat = aVec.y;
}
else if (IsArray)
{
Inline = true;
this[0].AsFloat = aVec.x;
this[1].AsFloat = aVec.y;
}
return this;
}
#endregion Vector2
#region Vector3
public Vector3 ReadVector3(Vector3 aDefault)
{
if (IsObject)
return new Vector3(this["x"].AsFloat, this["y"].AsFloat, this["z"].AsFloat);
if (IsArray)
return new Vector3(this[0].AsFloat, this[1].AsFloat, this[2].AsFloat);
return aDefault;
}
public Vector3 ReadVector3(string aXName, string aYName, string aZName)
{
if (IsObject)
return new Vector3(this[aXName].AsFloat, this[aYName].AsFloat, this[aZName].AsFloat);
return Vector3.zero;
}
public Vector3 ReadVector3()
{
return ReadVector3(Vector3.zero);
}
public JSONNode WriteVector3(Vector3 aVec, string aXName = "x", string aYName = "y", string aZName = "z")
{
if (IsObject)
{
Inline = true;
this[aXName].AsFloat = aVec.x;
this[aYName].AsFloat = aVec.y;
this[aZName].AsFloat = aVec.z;
}
else if (IsArray)
{
Inline = true;
this[0].AsFloat = aVec.x;
this[1].AsFloat = aVec.y;
this[2].AsFloat = aVec.z;
}
return this;
}
#endregion Vector3
#region Vector4
public Vector4 ReadVector4(Vector4 aDefault)
{
if (IsObject)
return new Vector4(this["x"].AsFloat, this["y"].AsFloat, this["z"].AsFloat, this["w"].AsFloat);
if (IsArray)
return new Vector4(this[0].AsFloat, this[1].AsFloat, this[2].AsFloat, this[3].AsFloat);
return aDefault;
}
public Vector4 ReadVector4()
{
return ReadVector4(Vector4.zero);
}
public JSONNode WriteVector4(Vector4 aVec)
{
if (IsObject)
{
Inline = true;
this["x"].AsFloat = aVec.x;
this["y"].AsFloat = aVec.y;
this["z"].AsFloat = aVec.z;
this["w"].AsFloat = aVec.w;
}
else if (IsArray)
{
Inline = true;
this[0].AsFloat = aVec.x;
this[1].AsFloat = aVec.y;
this[2].AsFloat = aVec.z;
this[3].AsFloat = aVec.w;
}
return this;
}
#endregion Vector4
#region Color / Color32
public Color ReadColor(Color aDefault)
{
if (IsObject)
return new Color(this["r"].AsFloat, this["g"].AsFloat, this["b"].AsFloat, HasKey("a")?this["a"].AsFloat:ColorDefaultAlpha);
if (IsArray)
return new Color(this[0].AsFloat, this[1].AsFloat, this[2].AsFloat, (Count>3)?this[3].AsFloat:ColorDefaultAlpha);
return aDefault;
}
public Color ReadColor()
{
return ReadColor(Color.clear);
}
public JSONNode WriteColor(Color aCol)
{
if (IsObject)
{
Inline = true;
this["r"].AsFloat = aCol.r;
this["g"].AsFloat = aCol.g;
this["b"].AsFloat = aCol.b;
this["a"].AsFloat = aCol.a;
}
else if (IsArray)
{
Inline = true;
this[0].AsFloat = aCol.r;
this[1].AsFloat = aCol.g;
this[2].AsFloat = aCol.b;
this[3].AsFloat = aCol.a;
}
return this;
}
public Color32 ReadColor32(Color32 aDefault)
{
if (IsObject)
return new Color32((byte)this["r"].AsInt, (byte)this["g"].AsInt, (byte)this["b"].AsInt, (byte)(HasKey("a")?this["a"].AsInt:Color32DefaultAlpha));
if (IsArray)
return new Color32((byte)this[0].AsInt, (byte)this[1].AsInt, (byte)this[2].AsInt, (byte)((Count>3)?this[3].AsInt:Color32DefaultAlpha));
return aDefault;
}
public Color32 ReadColor32()
{
return ReadColor32(new Color32());
}
public JSONNode WriteColor32(Color32 aCol)
{
if (IsObject)
{
Inline = true;
this["r"].AsInt = aCol.r;
this["g"].AsInt = aCol.g;
this["b"].AsInt = aCol.b;
this["a"].AsInt = aCol.a;
}
else if (IsArray)
{
Inline = true;
this[0].AsInt = aCol.r;
this[1].AsInt = aCol.g;
this[2].AsInt = aCol.b;
this[3].AsInt = aCol.a;
}
return this;
}
#endregion Color / Color32
#region Quaternion
public Quaternion ReadQuaternion(Quaternion aDefault)
{
if (IsObject)
return new Quaternion(this["x"].AsFloat, this["y"].AsFloat, this["z"].AsFloat, this["w"].AsFloat);
if (IsArray)
return new Quaternion(this[0].AsFloat, this[1].AsFloat, this[2].AsFloat, this[3].AsFloat);
return aDefault;
}
public Quaternion ReadQuaternion()
{
return ReadQuaternion(Quaternion.identity);
}
public JSONNode WriteQuaternion(Quaternion aRot)
{
if (IsObject)
{
Inline = true;
this["x"].AsFloat = aRot.x;
this["y"].AsFloat = aRot.y;
this["z"].AsFloat = aRot.z;
this["w"].AsFloat = aRot.w;
}
else if (IsArray)
{
Inline = true;
this[0].AsFloat = aRot.x;
this[1].AsFloat = aRot.y;
this[2].AsFloat = aRot.z;
this[3].AsFloat = aRot.w;
}
return this;
}
#endregion Quaternion
#region Rect
public Rect ReadRect(Rect aDefault)
{
if (IsObject)
return new Rect(this["x"].AsFloat, this["y"].AsFloat, this["width"].AsFloat, this["height"].AsFloat);
if (IsArray)
return new Rect(this[0].AsFloat, this[1].AsFloat, this[2].AsFloat, this[3].AsFloat);
return aDefault;
}
public Rect ReadRect()
{
return ReadRect(new Rect());
}
public JSONNode WriteRect(Rect aRect)
{
if (IsObject)
{
Inline = true;
this["x"].AsFloat = aRect.x;
this["y"].AsFloat = aRect.y;
this["width"].AsFloat = aRect.width;
this["height"].AsFloat = aRect.height;
}
else if (IsArray)
{
Inline = true;
this[0].AsFloat = aRect.x;
this[1].AsFloat = aRect.y;
this[2].AsFloat = aRect.width;
this[3].AsFloat = aRect.height;
}
return this;
}
#endregion Rect
#region RectOffset
public RectOffset ReadRectOffset(RectOffset aDefault)
{
if (this is JSONObject)
return new RectOffset(this["left"].AsInt, this["right"].AsInt, this["top"].AsInt, this["bottom"].AsInt);
if (this is JSONArray)
return new RectOffset(this[0].AsInt, this[1].AsInt, this[2].AsInt, this[3].AsInt);
return aDefault;
}
public RectOffset ReadRectOffset()
{
return ReadRectOffset(new RectOffset());
}
public JSONNode WriteRectOffset(RectOffset aRect)
{
if (IsObject)
{
Inline = true;
this["left"].AsInt = aRect.left;
this["right"].AsInt = aRect.right;
this["top"].AsInt = aRect.top;
this["bottom"].AsInt = aRect.bottom;
}
else if (IsArray)
{
Inline = true;
this[0].AsInt = aRect.left;
this[1].AsInt = aRect.right;
this[2].AsInt = aRect.top;
this[3].AsInt = aRect.bottom;
}
return this;
}
#endregion RectOffset
#region Matrix4x4
public Matrix4x4 ReadMatrix()
{
Matrix4x4 result = Matrix4x4.identity;
if (IsArray)
{
for (int i = 0; i < 16; i++)
{
result[i] = this[i].AsFloat;
}
}
return result;
}
public JSONNode WriteMatrix(Matrix4x4 aMatrix)
{
if (IsArray)
{
Inline = true;
for (int i = 0; i < 16; i++)
{
this[i].AsFloat = aMatrix[i];
}
}
return this;
}
#endregion Matrix4x4
}
}
#endif