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這篇文章主要介紹“Unity使用C++作為游戲邏輯腳本分析”,在日常操作中,相信很多人在Unity使用C++作為游戲邏輯腳本分析問題上存在疑惑,小編查閱了各式資料,整理出簡單好用的操作方法,希望對大家解答”Unity使用C++作為游戲邏輯腳本分析”的疑惑有所幫助!接下來,請跟著小編一起來學習吧!
一、C#和C++的通信
c#和c++的交互,也是非常類似的,c#可以直接的通過P/Invoke的方式來調用c++的函數,而C++調用C#的函數,C++的函數是被封裝成DLL來放在Unity的工程文件中的Plugins中,則需要基于.NET來操作,利用Marshal.GetFunctionPointerForDelegate來獲取函數的指針,然后傳遞到c++中進行操作。
二、編輯器下實現實時的編譯和腳本更新
在Unity中,我們可以在打開的Unity中,直接編譯c#的文件,這樣不需要每次都關閉工程再打開來執行編譯,而C++由于通過DLL來調用,每次更新的C++都需要關閉工程,然后更新DLL,然后打開工程,這樣的操作,對于編輯器下的開發是極其耗費的。
對于上面提到的反復開關工程執行DLL的更新,可以利用[DllImport]的屬性來實現在編輯器下的更新。
該屬性是基于OS的,所以不會存在跨平臺的問題。
三、示例代碼展示
show the code
c# code part:
using System;
using System.IO;
using System.Runtime.InteropServices;
using UnityEngine;
class TestScript:MonoBehaviour
{
#if UNITY_EDITOR
// pointer handle to the C++ DLL
public IntPtr libarayHandle;
public delegate void InitDelegate(IntPtr gameObjectNew,
IntPtr gameObjectGetTransform, IntPtr transformSetPosition);
#endif
}
#if UNITY_EDITOR_OSX || UNITY_EDITOR_LINUX
//OSX 和Linux下的導入
[DLLImport("__Internal")]
public static extern IntPtr dlopen(string path, int flag);
[DllImport("__Internal")]
public static extern IntPtr dlsym(IntPtr handle, string symbolName);
[DllImport("__Internal")]
public static extern int dlclose(IntPtr handle);
public static IntPtr OpenLibrary(string path)
{
IntPtr handle = dlopen(path, 0);
if(handle == IntPtr.Zero)
{
throw new Exception("Couldn't open native library: "+ path);
}
return handle;
}
public static void CloseLibrary(IntPtr libraryHandle)
{
dlclose(libraryHandle);
}
public static T GetDelegate<T>(IntPtr libraryHandle, string functionName)
where T: class
{
IntPtr symbol = dlsym(libraryHandle, functionName);
if(symbol == IntPtr.Zero)
{
throw new Exception("Couldn't get function:" + functionName);
}
return Marshal.GetDelegateForFunctionPointer(symbol, typeof(T)) as T;
}
#elif UNITY_EDITOR_WIN
// win 編輯器下
[DllImport("kernel32")]
public static extern IntPtr LoadLibrary(string path);
[DllImport("kernel32")]
public static extern IntPtr GetProcAddress(IntPtr libraryHandle,
string symbolName);
[DllImport("kernel32)]
public static extern bool FreeLibrary(IntPtr libraryHandle);
public static IntPtr OpenLibrary(string path)
{
IntPtr handle = LoadLibrary(path);
if(handle == IntPtr.Zero)
{
throw new Exception("Couldn't open native library: "+ path);
}
return handle;
}
public static void CloseLibrary(IntPtr libraryHandle)
{
FreeLibrary(libraryHandle);
}
public static T GetDelegate<T>(IntPtr libraryHandle, string functionName)
where T: class
{
IntPtr symbol = GetProcAddress(libraryHandle, functionName);
if(symbol == IntPtr.Zero)
{
throw new Exception("Couldn't get function:" + functionName);
}
return Marshal.GetDelegateForFunctionPointer(symbol, typeof(T)) as T;
}
#else
//本地加載
[DllImport("NativeScript")]
static extern void Init(IntPtr gameObjectNew,
IntPtr gameObjectGetTransform, IntPtr transformSetPosition);
[DllImport("NativeScript")]
static extern void MonoBehaviourUpdate();
#endif
delegate int GameObjectNewDelegate();
delegate int GameObjectGetTransformDelegate(int thisHandle);
delegate void TransformSetPositionDelegate(int thisHandle, Vector3 position);
#if UNITY_EDITOR_OSX
const string LIB_PATH = "/NativeScript.bundle/Contents/MacOS/NativeScript";
#elif UNITY_EDITOR_LINUX
const string LIB_PATH = "/NativeScript.so";
#elif UNITY_EDITOR_WIN
const string LIB_PATH = "/NativeScript.dll";
#endif
void Awake()
{
#if UNITY_EDITOR
//open the native library
libraryHandle = OpenLibrary(Application.dataPath + LIB_PATH);
InitDelegate Init = GetDelegate<InitDelegate>(libraryHandle, "Init");
MonoBehaviourUpdate = GetDelegate<MonoBehaviourUpdateDelegate>(
libraryHandle,"MonoBehaviourUpdate");
#endif
//init the C++ Library
ObjectStore.Init(1024);
Init(
Marshal.GetFunctionPointerForDelegate(new GameObjectNewDelegate(GameObjectNew)),
Marshal.GetFunctionPointerForDelegate(new GameObjectGetTransformDelegate(GameObjectGetTransform)),
Marshal.GetFunctionPointerForDelegate(new TransformSetPositionDelegate(TransformSetPosition))
);
}
void Update()
{
MonoBehaviourUpdate();
}
void OnApplicationQuit()
{
#if UNITY_EDITOR
CloseLibrary(libraryHandle);
libraryHandle = IntPtr.Zero;
#endif
}
//c# function for c++ call
static int GameObjectNew()
{
GameObject go = new GameObject();
return ObjectStore.Store(go);
}
static int GameObjectGetTransform(int thisHandle)
{
GameObject go = (GameObject)ObjectStore.Get(thisHandle);
Transform transform = go.transform;
return ObjectStore.Store(transform);
}
static void TransformSetPosition(int handle, Vector3 position)
{
Transform t =(Transform)ObjectStore.Get(handle);
t.position = position;
}
}c++ code part:
#ifdef _WIN32
#define DLLEXPORT __declspec(dllexport)
#else
#define DLLEXPORT
#endif
extern "C"
{
//C# VECTOR STRUCT
struct Vector3
{
float x;
float y;
float z;
}
//c# function for c++ to call
int(*GameObjectNew)();
int(*GameObjectGetTransform)(int thisHandle);
void(*TransformSetPosition)(int thisHandle, Vector3 position);
//c++ functions for c# to call
int numCreated;
DLLExport void Init(
int(*gameObjectNew)(),
int(*gameObjectGetTrasform)(int),
void(*transformSetPosition)(int, Vector3)
)
{
GameObjectNew = gameObjectNew;
GameObjectGetTransform = gameObjectGetTransform;
TransformSetPosition = trasformSetPosition;
numCreated = 0;
}
//
DLLEXPORT void MonoBehaviourUpdate(int thisHandle)
{
if( numCreated < 10)
{
//獲取函數handle,然后操作
int goHandle = GameObjectNew();
int transformHandle = GameObejctGetTransform(goHandle);
float comp = 10.0f * (float)numCreated;
Vector3 position = {comp, comp, comp};
TransformSetPosition(transformHandle, position);
numCreated++;
}
}
}到此,關于“Unity使用C++作為游戲邏輯腳本分析”的學習就結束了,希望能夠解決大家的疑惑。理論與實踐的搭配能更好的幫助大家學習,快去試試吧!若想繼續學習更多相關知識,請繼續關注億速云網站,小編會繼續努力為大家帶來更多實用的文章!
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