HOW TO:使用 C++ Interop 封送處理內嵌指標
更新:2007 年 11 月
在下列範例中,程式碼會使用 managed, unmanaged #pragma 指示詞,在相同的檔案中實作 Managed 和 Unmanaged 函式,這些函式即使在不同的檔案中定義,也會以相同的方式互相溝通。只包含 Unmanaged 函式的檔案,不需要以 /clr (Common Language Runtime 編譯) 編譯。
範例
下列範例顯示如何從 Manage 函式呼叫採用包含指標之結構的 Unmanaged 函式。Managed 函式會建立結構的執行個體,並以新的關鍵字 (而非 gcnew 關鍵字) 初始化內嵌指標。由於這樣會將記憶體配置到原生堆積上,因此不需要 Pin 陣列來阻止執行記憶體回收。然而,記憶體必須明確地刪除,以避免記憶體流失。
// marshal_embedded_pointer.cpp
// compile with: /clr
#include <iostream>
using namespace System;
using namespace System::Runtime::InteropServices;
// unmanaged struct
struct ListStruct {
int count;
double* item;
};
#pragma unmanaged
void UnmanagedTakesListStruct(ListStruct list) {
printf_s("[unmanaged] count = %d\n", list.count);
for (int i=0; i<list.count; i++)
printf_s("array[%d] = %f\n", i, list.item[i]);
}
#pragma managed
int main() {
ListStruct list;
list.count = 10;
list.item = new double[list.count];
Console::WriteLine("[managed] count = {0}", list.count);
Random^ r = gcnew Random(0);
for (int i=0; i<list.count; i++) {
list.item[i] = r->NextDouble() * 100.0;
Console::WriteLine("array[{0}] = {1}", i, list.item[i]);
}
UnmanagedTakesListStruct( list );
delete list.item;
}
[managed] count = 10
array[0] = 72.624326996796
array[1] = 81.7325359590969
array[2] = 76.8022689394663
array[3] = 55.8161191436537
array[4] = 20.6033154021033
array[5] = 55.8884794618415
array[6] = 90.6027066011926
array[7] = 44.2177873310716
array[8] = 97.754975314138
array[9] = 27.370445768987
[unmanaged] count = 10
array[0] = 72.624327
array[1] = 81.732536
array[2] = 76.802269
array[3] = 55.816119
array[4] = 20.603315
array[5] = 55.888479
array[6] = 90.602707
array[7] = 44.217787
array[8] = 97.754975
array[9] = 27.370446