版本 |
作者 |
参与者 |
完成日期 |
备注 |
UnityAPI_RenderTexture_V01_1.0 |
严立钻 |
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2020.07.21 |
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立钻哥哥:Unity是一个入门快、提高难的游戏引擎,想要提升能力,至少需要越过3道坎:API+Shader+综合能力;++1、API的积累:对API的合理利用不仅可以减轻自己的编码负担,而且往往可以提高程序的运行效率;这也是钻哥开始“Unity API”独立打造分类的初衷; ++2、Shader编程:想要做出一款精品游戏往往需要有高效的Shader的支持;Unity提供了一套改良的“Shader Lab”系统,优化了繁杂的“Open GL”编程; ++3、综合能力(技术+业务+管理):一款产品的制作除了功能编程外,往往会涉及很多其他领域,例如产品架构、UI交互设计、模型制作等,作为主要的编程人员,对其他相关领域的了解程序往往会影响到产品制作直至最后的产品体验; ++++立钻哥哥一直在推动【VR云游戏=Unity+SteamVR+云技术+5G+AI】,这个只是一个引子,抛砖引玉让大家对整个知识体系有一个明确的落地方向,宝宝们可以根据自己的兴趣方向进行拓展:比如Unity这里是指一种“3D游戏引擎”,也可拓展至“UE4、Cocos2dx”等游戏引擎;SteamVR是一种跨硬件解决方案,也可拓展至“VRTK”等第三方插件;“云技术+5G”是一种跨平台解决方案的核心技术,同样可拓展至其他平台解决方案;AI也是一种先进技术的举例,也可以拓展至任何一种前沿技术; |
++++【Unity API】分类:https://blog.csdn.net/vrunsoftyanlz/category_7637520.html
++++【Unity开发基础】分类:https://blog.csdn.net/vrunsoftyanlz/category_7309057.html
++++【Linux系统编程】分类:https://blog.csdn.net/vrunsoftyanlz/category_9694767.html
++++【C++C铸就生存利器】分类:https://blog.csdn.net/vrunsoftyanlz/category_9325802.html
++++【人工智能AI2026】分类:https://blog.csdn.net/vrunsoftyanlz/category_9212024.html
++++【立钻哥哥CSDN空间】:https://blog.csdn.net/VRunSoftYanlz/
#RenderTexture渲染纹理 |
#RenderTexture渲染纹理++A1、Description描述++B2、Variables变量++C3、Public Function共有函数++D4、Message消息 |
#A1、Description描述 |
++++RenderTexture可以用来实现基于渲染效果的图像、动态阴影、投影、反射或监视摄像机;
++++渲染纹理的典型用法之一是设置它们为摄像机的“目标纹理”属性(Camera.targetTexture),该属性将使得摄像机渲染到纹理而不是渲染到屏幕;
++++另一种使用方法是手动执行各种各样的渲染效果,例如图像效果;经常获取临时渲染纹理(GetTemporary和ReleaseTemporary函数),并且手动渲染对象到它们(可参考:Graphics.DrawMeshNow和Graphics.Blit);
++++请记住:渲染纹理内容在某些事件中可能变成“丢失”,像加载新级别,系统运行屏幕保护程序模式,进出全屏等等;当那些发生时,现在的渲染纹理将会再次变成“还未创建”,可以使用IsCreated函数检查;
#B2、Static Variables静态变量 |
++B2、Static Variables静态变量++++B2.1、active++++B2.2、YanlzXREngine.RenderTexture.StaticVariables |
++B2.1、active |
public static RenderTexture active; |
++++激活当前的渲染贴图;
++++所有渲染进入激活渲染纹理;如果激活渲染纹理为空在主窗口的所有物体被渲染;
++++设置RenderTexture.active是与调用Graphics.SetRenderTarget一样;当执行自定义图形效果时可以改变或者查询激活渲染纹理;如果需要所有的摄像机渲染到纹理那么使用Camera.targetTexture代替;
++++当渲染纹理变成激活,如果它没有被创建,它的硬件渲染环境是自动创建的;
using UnityEngine; using System.Collections; using YanlzXREngine;
public class YanlzRenderTexture : MonoBehaviour{
static public Texture2D GetRTPixels(RenderTexture rt){ //Remember currently active render texture RenderTexture currentActiveRT = RenderTexture.active;
//Set the supplied RenderTexture as the active one RenderTexture.active = rt;
//Create a new Texture2D and read the RenderTexture image into it. Texture2D tex = new Texture2D(rt.width, rt.height); tex.ReadPixels(new Rect(0, 0, tex.width, tex.height), 0, 0);
//Restorie previously active render texture RenderTexture.active = currentActiveRT;
return tex; } //立钻哥哥:static public Texture2D GetRTPixels(){}
} //立钻哥哥:public class YanlzRenderTexture{} |
#C3、Variables变量 |
++C3、Variables变量++++C3.1、antiAliasing++++C3.2、colorBuffer++++C3.3、depth++++C3.4、depthBuffer++++C3.5、enableRandomWrite++++C3.6、format++++C3.7、generateMips++++C3.8、height++++C3.9、isCubemap++++C3.10、isVolume++++C3.11、sRGB++++C3.12、useMipMap++++C3.13、volumeDepth++++C3.14、width++++C3.15、YanlzXREngine.RenderTexture.Variables |
++C3.1、antiAliasing |
public int antiAliasing; |
++++渲染纹理的抗锯齿级别;
++++抗锯齿值必须是(1,2,4或者8)之一,表明每像素样本的数量;
++++当渲染纹理使用抗锯齿,然后进去任何渲染会发生到多重采样的纹理,当切换到另一个渲染目标时将会被“resolved”成普遍的纹理;到达系统的其余部分只是这“resolved”的表面是可见的;
++C3.2、colorBuffer |
public RenderBuffer colorBuffer; |
++++渲染纹理的颜色缓存区(只读);
++C3.3、depth |
public int depth; |
++++渲染纹理的深度缓存的精度单位字节(支持0, 16, 24);
++++当0被使用时,那么没有Z缓存被渲染纹理创建;
++++如果也需要模具缓存区,使用24字节Z格式(0&16位 Z缓冲区没有模具);
++C3.4、depthBuffer |
public RenderBuffer depthBuffer; |
++++渲染纹理的深度/模具缓存区(只读);
++C3.5、enableRandomWrite |
public bool enableRandomWrite; |
++++在着色器5.0级别中启用随机存取写入渲染纹理;
++++5.0级别像素着色器或者计算着色器可以写入一些纹理任意位置,在UsingDX11GL3Features中称作“无序存取视图”;在创建的渲染纹理启用此功能之前设置此标志;
++++当纹理已经设置该标志,可以被写入作为RWTexture*HLSL资源或GLSL图像资源;也可以使用Graphics.SetRandomWriteTarget设置作为像素着色器的随机存取写入目标;
++C3.6、format |
public RenderTextureFormat format; |
++++渲染纹理的颜色格式;
++C3.7、generateMips |
public bool generateMips; |
++++是否自动生成mipmap级别?
++++当渲染纹理带有mipmaps(使用MipMap),那么默认情况下渲染到它生成mipmap的所有级别;
++++如果想手动渲染到mip级别,设置该变量为false;
++C3.8、height |
public int height; |
++++渲染纹理的高度单元像素;
++++注意:该属性不同于Texture.height属性,这是读取和写入两种:设置值改变大小;
++C3.9、isCubemap |
public bool isCubemap; |
++++如果启用,该渲染纹理将会被使用作一个立方体贴图;
++++立方体贴图渲染纹理最常用于动态立方体贴图反射,可参考:Camera.RenderToCubemap;立方体贴图渲染纹理必须具有相同的宽度和高度,并且必须两种尺寸的力;
++C3.10、isVolume |
public bool isVolume; |
++++如果启用,该渲染纹理将会被用作3D纹理;
++++当前体积渲染纹理仅作用于UsingDX11GL3Features;可以从像素着色器或计算着色器使用“随机读取写入”渲染到他们;
++C3.11、sRGB |
public bool sRGB; |
++++该渲染纹理是否使用标准色读取/写入转换(只读);
++++当线性颜色空间被使用,当渲染到它们时渲染纹理执行Linear->sRGB转换,并且当在着色器中取样时进行sRGB->Linear转换;
++++该属性值基于“读写”渲染纹理构造函数的参数;
++C3.12、useMipMap |
public bool useMipMap; |
++++在渲染纹理中使用mipmaps?
++++当设置为true时,该渲染纹理渲染时将会创建和生成mipmap级别;默认渲染纹理没有mipmaps;只有在有两个功率大小的渲染纹理,可以使用此标志;
++++默认情况下会自动生成mipmap;如果想要手动将渲染到纹理mip级别,设置generateMips为false;
++C3.13、volumeDepth |
public int volumeDepth; |
++++3D渲染贴图的体积范围;
++++对于体积渲染贴图,该变量决定体积范围;
++C3.14、width |
public int width; |
++++该渲染纹理的宽度单位像素;
++++注意:该属性与Texture.width属性不一样,这两个读取和写入:设置值更改大小;
#D4、Constructors构造 |
++D4、Constructors构造++++D4.1、RenderTexture++++D4.2、YanlzXREngine.RenderTexture.Constructors |
++D4.1、RenderTexture |
public RenderTexture(int width, int height, int depth);public RenderTexture(int width, int height, int depth, RenderTextureFormat format);public RenderTexture(int width, int height, int depth, RenderTextureFormat format, RenderTextureReadWrite readWrite); |
++++[width]:Texture width in pixels;
++++[height]:Texture height in pixels;
++++[depth]:Number of bits in depth buffer(0, 16 or 24). Note that only 24 bit depth has stencil buffer;
++++[format]:Texture color format;
++++[readWrite]:How or if color space conversions should be done on texture read/write;
++++创建一个新的渲染纹理对象;
++++渲染纹理由宽度与高度大小与深度缓冲区的位深度(深度可以是0、16或24),并在格式上为format和与sRGB读/写打开或关闭;
++++注意:渲染纹理对象的构造不是立刻创建硬件代表;首次使用或创建手动调用时,则会创建实际渲染纹理;因此在构造渲染纹理之后,可能设置额外的变量,像format,isCubemap等;
using UnityEngine; using System.Collections; using YanlzXREngine;
public class YanlzRenderTexture : MonoBehaviour{ public RenderTexture rt;
void Start(){ rt = new RenderTexture(256, 256, 16, RenderTextureFormat.ARGB32); } //立钻哥哥:void Start(){}
} //立钻哥哥:public class YanlzRenderTexture{} |
#E5、Public Functions公有函数 |
++E5、Public Functions公有函数++++E5.1、Create++++E5.2、DiscardContents++++E5.3、IsCreated++++E5.4、MarkRestoreExpected++++E5.5、Release++++E5.6、SetGlobalShaderProperty++++E5.7、YanlzXREngine.RenderTexture.PublicFunctions |
++E5.1、Create |
public bool Create(); |
++++实际上指创建的渲染纹理;
++++渲染纹理构造函数实际上没有创建硬件纹理;在默认情况下纹理是在激活的第一时间创建的;调用创建让提前创建它;如果该纹理已经创建,那么调用该函数将什么也不会创建;
using UnityEngine; using System.Collections; using YanlzXREngine;
public class YanlzRenderTexture : MonoBehaviour{ public RenderTexture rt;
void Start(){ rt = new RenderTexture(256, 256, 16, RenderTextureFormat.ARGB32); rt.Create(); } //立钻哥哥:void Start(){}
} //立钻哥哥:public class YanlzRenderTexture{} |
++E5.2、DiscardContents |
public void DiscardContents();public void DiscardContents(bool discardColor, bool discardDepth); |
++++[discardColor]:Should the colour buffer be discarded?
++++[discardDepth]:Should the depth buffer be discarded?
++++渲染纹理丢失的内容;
++++在某些平台上,如果表明当前渲染纹理的内容一点也不需要时有助于提高性能;当纹理被重复利用时该函数可以从一个内存拷贝到另一个内存中保存;该函数有益于XBox 360和许多手机GPUs;
++++颜色缓存和深度缓存两个是默认丢失的但是也可以使用选择布尔参数单独选择;
++E5.3、IsCreated |
public bool IsCreated(); |
++++该渲染纹理是否已经创建?
++++渲染纹理构造函数实际上没有创建硬件纹理;在默认情况下渲染纹理在激活的第一时间创建;如果硬件资源的该渲染已经被创建IsCreated返回true;
++E5.4、MarkRestoreExpected |
public void MarkRestoreExpected(); |
++++表明渲染纹理恢复预期操作;
++++当在移动图形仿真模式,当Unity执行渲染还原操作时发出警告;当渲染纹理没有清除或者首先丢弃它(DiscardContents)时还原发生;在很多移动GPU和多GPU系统上,这是一个高负荷的操作,最好避免;
++++但是,如果渲染效果必须要渲染纹理还原,可以调用该函数表明那是必须的,还原时预期的,并且在这里Unity将不会发出警告;
++E5.5、Release |
public void Release(); |
++++释放渲染纹理;
++++该函数是否用于渲染纹理的硬件资源;纹理自身是不会被销毁并且使用时会再次自动创建;
++E5.6、SetGlobalShaderProperty |
public void SetGlobalShaderProperty(string propertyName); |
++++指定这个RenderTexture作为一个名为propertyName的全局shader属性;
#F6、Static Functions静态函数 |
++F6、Static Functions静态函数++++F6.1、GetTemporary++++F6.2、ReleaseTemporary++++F6.3、SupportsStencil++++F6.4、YanlzXREngine.RenderTexture.StaticFunctions |
++F6.1、GetTemporary |
public static RenderTexture GetTemporary(int width, int height, int depthBuffer=0, RenderTextureFormat format=RenderTextureFormat.Default, RenderTextureReadWrite readWrite=RenderTextureReadWrite.Default, int antiAliasing=1); |
++++[width]:Width in pixels;
++++[height]:Height in pixels;
++++[depthBuffer]:Depth buffer bits(0, 16 or 24). Note that only 24 bit depth has stencil buffer.
++++[format]:texture format;
++++[readWrite]:Color space conversion mode;
++++[antiAliasing]:Anti-aliasing(1,2,4,8);
++++分配一个临时的渲染纹理;
++++此函数进行了优化,用于当需要一个快速RenderTexture来做一些临时计算时,一旦完成,ReleaseTemporary释放它,这样,如果需要,另一个调用能够开始重用它;
++++Unity内部保持的临时渲染纹理,因此调用GetTemporary最可能经常返回已经创建的渲染纹理(如果尺寸和格式匹配);当它们不用于几帧时这些临时渲染贴图实际上已经销毁;
++++如果在做一系列的后处理“位块”,释放每个blit的临时渲染纹理可获取最佳的性能;而不是获取一个或者两个渲染纹理提前或再利用它们;这有益于移动(基于平铺)和多GPU系统:GetTemporary将会在之前渲染纹理内容调用DiscardContents帮助避免高昂代价的还原操作;
++++不能依赖从GetTemporary函数获取的任何特定内容渲染纹理,或者可能被清除某些颜色,这取决于所用的平台;
++F6.2、ReleaseTemporary |
public static void ReleaseTemporary(RenderTexture temp); |
++++释放GetTemporary分配的临时渲染纹理;
++++之后调用GetTemporary如果可能的话,将会重新使用更早之前创建的渲染纹理;如果没要求临时渲染纹理在几帧中那么将会被销毁;
++F6.3、SupportsStencil |
public static bool SupportsStencil(RenderTexture rt); |
++++[rt]:Render texture, or null for main screen;
++++渲染纹理是否支持模板缓存?
++++如果rt为空,将会报告值屏幕的状态;
#G7、立钻哥哥对RenderTexture类的拓展 |
++++【Unity API】分类:https://blog.csdn.net/vrunsoftyanlz/category_7637520.html
++++【Unity开发基础】分类:https://blog.csdn.net/vrunsoftyanlz/category_7309057.html
++++【Linux系统编程】分类:https://blog.csdn.net/vrunsoftyanlz/category_9694767.html
++++【C++C铸就生存利器】分类:https://blog.csdn.net/vrunsoftyanlz/category_9325802.html
++++【人工智能AI2026】分类:https://blog.csdn.net/vrunsoftyanlz/category_9212024.html
++++【立钻哥哥CSDN空间】:https://blog.csdn.net/VRunSoftYanlz/
立钻哥哥推荐的拓展学习链接(Link_Url) |
++++立钻哥哥Unity 学习空间: http://blog.csdn.net/VRunSoftYanlz/
++++虚拟现实VR资讯: https://blog.csdn.net/VRunSoftYanlz/article/details/89165846
++++HTC_VIVE开发基础:https://blog.csdn.net/VRunSoftYanlz/article/details/81989970
++++Oculus杂谈:https://blog.csdn.net/VRunSoftYanlz/article/details/82469850
++++Oculus安装使用:https://blog.csdn.net/VRunSoftYanlz/article/details/82718982
++++Unity+SteamVR=>VR:https://blog.csdn.net/VRunSoftYanlz/article/details/88809370
++++Unity减少VR晕眩症:https://blog.csdn.net/VRunSoftYanlz/article/details/89115518
++++SteamVR简介:https://blog.csdn.net/VRunSoftYanlz/article/details/86484254
++++SteamVR脚本功能分析:https://blog.csdn.net/VRunSoftYanlz/article/details/86531480
++++SteamVR2.0开发指南:https://blog.csdn.net/VRunSoftYanlz/article/details/86618187
++++SteamVR2.2.0开发指南:https://blog.csdn.net/VRunSoftYanlz/article/details/88784527
++++SteamVR2.2.0快速入门:https://blog.csdn.net/VRunSoftYanlz/article/details/88833579
++++SteamVR2.2.0交互系统:https://blog.csdn.net/VRunSoftYanlz/article/details/89199778
++++SteamVR2.2.0传送机制:https://blog.csdn.net/VRunSoftYanlz/article/details/89390866
++++SteamVR2.2.0教程(一):https://blog.csdn.net/VRunSoftYanlz/article/details/89324067
++++SteamVR2.2.0教程(二):https://blog.csdn.net/VRunSoftYanlz/article/details/89894097
++++SteamVR_Skeleton_Poser:https://blog.csdn.net/VRunSoftYanlz/article/details/89931725
++++SteamVR实战之PMCore:https://blog.csdn.net/VRunSoftYanlz/article/details/89463658
++++SteamVR/Extras:https://blog.csdn.net/VRunSoftYanlz/article/details/86584108
++++SteamVR/Input:https://blog.csdn.net/VRunSoftYanlz/article/details/86601950
++++OpenXR简介:https://blog.csdn.net/VRunSoftYanlz/article/details/85726365
++++VRTK杂谈:https://blog.csdn.net/VRunSoftYanlz/article/details/82562993
++++VRTK快速入门(杂谈):https://blog.csdn.net/VRunSoftYanlz/article/details/82955267
++++VRTK官方示例(目录):https://blog.csdn.net/VRunSoftYanlz/article/details/82955410
++++VRTK代码结构(目录):https://blog.csdn.net/VRunSoftYanlz/article/details/82780085
++++VRTK(SceneResources):https://blog.csdn.net/VRunSoftYanlz/article/details/82795400
++++VRTK_ControllerEvents:https://blog.csdn.net/VRunSoftYanlz/article/details/83099512
++++VRTK_InteractTouch:https://blog.csdn.net/VRunSoftYanlz/article/details/83120220
++++虚拟现实行业应用:https://blog.csdn.net/VRunSoftYanlz/article/details/88360157
++++Steam平台上的VR:https://blog.csdn.net/VRunSoftYanlz/article/details/88960085
++++Steam平台热销VR:https://blog.csdn.net/VRunSoftYanlz/article/details/89007741
++++VR实验:以太网帧的构成:https://blog.csdn.net/VRunSoftYanlz/article/details/82598140
++++实验四:存储器扩展实验:https://blog.csdn.net/VRunSoftYanlz/article/details/87834434
++++FrameVR示例V0913:https://blog.csdn.net/VRunSoftYanlz/article/details/82808498
++++FrameVR示例V1003:https://blog.csdn.net/VRunSoftYanlz/article/details/83066516
++++SwitchMachineV1022:https://blog.csdn.net/VRunSoftYanlz/article/details/83280886
++++PlaySceneManagerV1022:https://blog.csdn.net/VRunSoftYanlz/article/details/83280886
++++Unity5.x用户手册:https://blog.csdn.net/VRunSoftYanlz/article/details/81712741
++++Unity面试题ABC:https://blog.csdn.net/vrunsoftyanlz/article/details/78630687
++++Unity面试题D:https://blog.csdn.net/VRunSoftYanlz/article/details/78630838
++++Unity面试题E:https://blog.csdn.net/vrunsoftyanlz/article/details/78630913
++++Unity面试题F:https://blog.csdn.net/VRunSoftYanlz/article/details/78630945
++++Cocos2dx面试题:https://blog.csdn.net/VRunSoftYanlz/article/details/78630967
++++禅道[zentao]:https://blog.csdn.net/VRunSoftYanlz/article/details/83964057
++++Lua快速入门篇(Xlua拓展):https://blog.csdn.net/VRunSoftYanlz/article/details/81173818
++++Lua快速入门篇(XLua教程):https://blog.csdn.net/VRunSoftYanlz/article/details/81141502
++++Lua快速入门篇(基础概述):https://blog.csdn.net/VRunSoftYanlz/article/details/81041359
++++框架知识点:https://blog.csdn.net/VRunSoftYanlz/article/details/80862879
++++游戏框架(UI框架夯实篇):https://blog.csdn.net/vrunsoftyanlz/article/details/80781140
++++游戏框架(初探篇):https://blog.csdn.net/VRunSoftYanlz/article/details/80630325
++++.Net框架设计:https://blog.csdn.net/VRunSoftYanlz/article/details/87401225
++++从零开始学架构:https://blog.csdn.net/VRunSoftYanlz/article/details/88095895
++++设计模式简单整理:https://blog.csdn.net/vrunsoftyanlz/article/details/79839641
++++专题:设计模式(精华篇):https://blog.csdn.net/VRunSoftYanlz/article/details/81322678
++++U3D小项目参考:https://blog.csdn.net/vrunsoftyanlz/article/details/80141811
++++Unity小游戏算法分析:https://blog.csdn.net/VRunSoftYanlz/article/details/87908365
++++Unity案例(Vehicle):https://blog.csdn.net/VRunSoftYanlz/article/details/82355876
++++UML类图:https://blog.csdn.net/vrunsoftyanlz/article/details/80289461
++++PowerDesigner简介:https://blog.csdn.net/VRunSoftYanlz/article/details/86500084
++++Unity知识点0001:https://blog.csdn.net/vrunsoftyanlz/article/details/80302012
++++Unity知识点0008:https://blog.csdn.net/VRunSoftYanlz/article/details/81153606
++++U3D_Shader编程(第一篇:快速入门篇):https://blog.csdn.net/vrunsoftyanlz/article/details/80372071
++++U3D_Shader编程(第二篇:基础夯实篇):https://blog.csdn.net/vrunsoftyanlz/article/details/80372628
++++Unity引擎基础:https://blog.csdn.net/vrunsoftyanlz/article/details/78881685
++++Unity面向组件开发:https://blog.csdn.net/vrunsoftyanlz/article/details/78881752
++++Unity物理系统:https://blog.csdn.net/vrunsoftyanlz/article/details/78881879
++++Unity2D平台开发:https://blog.csdn.net/vrunsoftyanlz/article/details/78882034
++++UGUI基础:https://blog.csdn.net/vrunsoftyanlz/article/details/78884693
++++UGUI进阶:https://blog.csdn.net/vrunsoftyanlz/article/details/78884882
++++UGUI综合:https://blog.csdn.net/vrunsoftyanlz/article/details/78885013
++++Unity动画系统基础:https://blog.csdn.net/vrunsoftyanlz/article/details/78886068
++++Unity动画系统进阶:https://blog.csdn.net/vrunsoftyanlz/article/details/78886198
++++Navigation导航系统:https://blog.csdn.net/vrunsoftyanlz/article/details/78886281
++++Unity特效渲染:https://blog.csdn.net/vrunsoftyanlz/article/details/78886403
++++Unity数据存储:https://blog.csdn.net/vrunsoftyanlz/article/details/79251273
++++Unity中Sqlite数据库:https://blog.csdn.net/vrunsoftyanlz/article/details/79254162
++++WWW类和协程:https://blog.csdn.net/vrunsoftyanlz/article/details/79254559
++++Unity网络:https://blog.csdn.net/vrunsoftyanlz/article/details/79254902
++++Unity资源加密:https://blog.csdn.net/VRunSoftYanlz/article/details/87644514
++++PhotonServer简介:https://blog.csdn.net/VRunSoftYanlz/article/details/86652770
++++编写Photon游戏服务器:https://blog.csdn.net/VRunSoftYanlz/article/details/86682935
++++C#事件:https://blog.csdn.net/vrunsoftyanlz/article/details/78631267
++++C#委托:https://blog.csdn.net/vrunsoftyanlz/article/details/78631183
++++C#集合:https://blog.csdn.net/vrunsoftyanlz/article/details/78631175
++++C#泛型:https://blog.csdn.net/vrunsoftyanlz/article/details/78631141
++++C#接口:https://blog.csdn.net/vrunsoftyanlz/article/details/78631122
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++++C#中System.String类:https://blog.csdn.net/vrunsoftyanlz/article/details/78630945
++++C#数据类型:https://blog.csdn.net/vrunsoftyanlz/article/details/78630913
++++Unity3D默认的快捷键:https://blog.csdn.net/vrunsoftyanlz/article/details/78630838
++++游戏相关缩写:https://blog.csdn.net/vrunsoftyanlz/article/details/78630687
++++UnityAPI.Rigidbody刚体:https://blog.csdn.net/VRunSoftYanlz/article/details/81784053
++++UnityAPI.Material材质:https://blog.csdn.net/VRunSoftYanlz/article/details/81814303
++++UnityAPI.Android安卓:https://blog.csdn.net/VRunSoftYanlz/article/details/81843193
++++UnityAPI.AndroidJNI安卓JNI:https://blog.csdn.net/VRunSoftYanlz/article/details/81879345
++++UnityAPI.Transform变换:https://blog.csdn.net/VRunSoftYanlz/article/details/81916293
++++UnityAPI.WheelCollider轮碰撞器:https://blog.csdn.net/VRunSoftYanlz/article/details/82356217
++++UnityAPI.Resources资源:https://blog.csdn.net/VRunSoftYanlz/article/details/83155518
++++JSON数据结构:https://blog.csdn.net/VRunSoftYanlz/article/details/82026644
++++CocosStudio快速入门:https://blog.csdn.net/VRunSoftYanlz/article/details/82356839
++++Unity企业内训(目录):https://blog.csdn.net/VRunSoftYanlz/article/details/82634668
++++Unity企业内训(第1讲):https://blog.csdn.net/VRunSoftYanlz/article/details/82634733
++++Unity企业内训(第2讲):https://blog.csdn.net/VRunSoftYanlz/article/details/82861180
++++Unity企业内训(第3讲):https://blog.csdn.net/VRunSoftYanlz/article/details/82927699
++++Unity企业内训(第4讲):https://blog.csdn.net/VRunSoftYanlz/article/details/83479776
++++Unity企业内训(第5讲):https://blog.csdn.net/VRunSoftYanlz/article/details/83963811
++++Unity企业内训(第6讲):https://blog.csdn.net/VRunSoftYanlz/article/details/84207696
++++钻哥带您了解产品原型:https://blog.csdn.net/VRunSoftYanlz/article/details/87303828
++++插件
++++计算机组成原理(教材篇):https://blog.csdn.net/VRunSoftYanlz/article/details/82719129
++++5G接入:云计算和雾计算:https://blog.csdn.net/VRunSoftYanlz/article/details/88372718
++++云计算通俗讲义:https://blog.csdn.net/VRunSoftYanlz/article/details/88652803
++++立钻哥哥Unity 学习空间: http://blog.csdn.net/VRunSoftYanlz
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