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Als u functies wilt aanroepen die zijn geëxporteerd uit een niet-beheerde bibliotheek, vereist een .NET Framework-toepassing een functieprototype in beheerde code die de onbeheerde functie vertegenwoordigt. Om een prototype te maken waarmee platformaanroepen gegevens correct kunnen marshallen, moet u het volgende doen:
Pas het DllImportAttribute kenmerk toe op de statische functie of methode in beheerde code.
Vervang beheerde gegevenstypen door niet-beheerde gegevenstypen.
U kunt de documentatie die is geleverd met een onbeheerde functie gebruiken om een equivalent beheerd prototype te maken door het kenmerk toe te passen met de optionele velden en beheerde gegevenstypen te vervangen door niet-beheerde typen. Raadpleeg DllImportAttribute voor instructies over hoe u de kunt toepassen.
In deze sectie vindt u voorbeelden die laten zien hoe u prototypen van beheerde functies maakt voor het doorgeven van argumenten aan en het ontvangen van retourwaarden van functies die worden geëxporteerd door niet-beheerde bibliotheken. De voorbeelden laten ook zien wanneer u het MarshalAsAttribute attribute en de Marshal class gebruikt om gegevens expliciet te marshallen.
Gegevenstypen aanroepen per platform
De volgende tabel bevat gegevenstypen die worden gebruikt in de functies Windows-API's en C-stijl. Veel niet-beheerde bibliotheken bevatten functies die deze gegevenstypen doorgeven als parameters en retourwaarden. De derde kolom bevat het bijbehorende ingebouwde .NET Framework-waardetype of -klasse die u in beheerde code gebruikt. In sommige gevallen kunt u een type van dezelfde grootte vervangen door het type dat in de tabel wordt vermeld.
| Niet-beheerd type in Windows-API's | Niet-beheerde C-taaltype | Beheerd type | Beschrijving |
|---|---|---|---|
VOID |
void |
System.Void | Toegepast op een functie die geen waarde retourneert. |
HANDLE |
void * |
System.IntPtr of System.UIntPtr | 32-bits op 32-bits Windows-besturingssystemen, 64-bits op 64-bits Windows-besturingssystemen. |
BYTE |
unsigned char |
System.Byte | 8 bits |
SHORT |
short |
System.Int16 | 16 bits |
WORD |
unsigned short |
System.UInt16 | 16 bits |
INT |
int |
System.Int32 | 32 bits |
UINT |
unsigned int |
System.UInt32 | 32 bits |
LONG |
long |
System.Int32 | 32 bits |
BOOL |
long |
System.Boolean of System.Int32 | 32 bits |
DWORD |
unsigned long |
System.UInt32 | 32 bits |
ULONG |
unsigned long |
System.UInt32 | 32 bits |
CHAR |
char |
System.Char | Versier met ANSI-standaarden. |
WCHAR |
wchar_t |
System.Char | Versieren met Unicode. |
LPSTR |
char * |
System.String of System.Text.StringBuilder | Versier met ANSI-standaarden. |
LPCSTR |
const char * |
System.String of System.Text.StringBuilder | Versier met ANSI-standaarden. |
LPWSTR |
wchar_t * |
System.String of System.Text.StringBuilder | Versieren met Unicode. |
LPCWSTR |
const wchar_t * |
System.String of System.Text.StringBuilder | Versieren met Unicode. |
FLOAT |
float |
System.Single | 32 bits |
DOUBLE |
double |
System.Double | 64 bits |
Zie de inleiding tot de .NET Framework-klassebibliotheek voor bijbehorende typen in Visual Basic, C# en C++.
PinvokeLib.dll
Met de volgende code worden de bibliotheekfuncties gedefinieerd die door PInvokeLib.dllworden geleverd. Veel voorbeelden die in deze sectie worden beschreven, roepen deze bibliotheek aan.
Voorbeeld
// PInvokeLib.cpp : Defines the entry point for the DLL application.
//
#define PINVOKELIB_EXPORTS
#include "PInvokeLib.h"
#include <strsafe.h>
#include <objbase.h>
#include <stdio.h>
#pragma comment(lib,"ole32.lib")
BOOL APIENTRY DllMain( HANDLE hModule,
DWORD ul_reason_for_call,
LPVOID lpReserved )
{
switch (ul_reason_for_call)
{
case DLL_PROCESS_ATTACH:
case DLL_THREAD_ATTACH:
case DLL_THREAD_DETACH:
case DLL_PROCESS_DETACH:
break;
}
return TRUE;
}
//******************************************************************
// This is the constructor of a class that has been exported.
CTestClass::CTestClass()
{
m_member = 1;
}
int CTestClass::DoSomething( int i )
{
return i*i + m_member;
}
PINVOKELIB_API CTestClass* CreateTestClass()
{
return new CTestClass();
}
PINVOKELIB_API void DeleteTestClass( CTestClass* instance )
{
delete instance;
}
//******************************************************************
PINVOKELIB_API int TestArrayOfInts( int* pArray, int size )
{
int result = 0;
for ( int i = 0; i < size; i++ )
{
result += pArray[ i ];
pArray[i] += 100;
}
return result;
}
//******************************************************************
PINVOKELIB_API int TestRefArrayOfInts( int** ppArray, int* pSize )
{
int result = 0;
// CoTaskMemAlloc must be used instead of the new operator
// because code on the managed side will call Marshal.FreeCoTaskMem
// to free this memory.
int* newArray = (int*)CoTaskMemAlloc( sizeof(int) * 5 );
for ( int i = 0; i < *pSize; i++ )
{
result += (*ppArray)[i];
}
for ( int j = 0; j < 5; j++ )
{
newArray[j] = (*ppArray)[j] + 100;
}
CoTaskMemFree( *ppArray );
*ppArray = newArray;
*pSize = 5;
return result;
}
//******************************************************************
PINVOKELIB_API int TestMatrixOfInts( int pMatrix[][COL_DIM], int row )
{
int result = 0;
for ( int i = 0; i < row; i++ )
{
for ( int j = 0; j < COL_DIM; j++ )
{
result += pMatrix[i][j];
pMatrix[i][j] += 100;
}
}
return result;
}
//******************************************************************
PINVOKELIB_API int TestArrayOfStrings( char* ppStrArray[], int count )
{
int result = 0;
STRSAFE_LPSTR temp;
size_t len;
const size_t alloc_size = sizeof(char) * 10;
for ( int i = 0; i < count; i++ )
{
len = 0;
StringCchLengthA( ppStrArray[i], STRSAFE_MAX_CCH, &len );
result += len;
temp = (STRSAFE_LPSTR)CoTaskMemAlloc( alloc_size );
StringCchCopyA( temp, alloc_size, (STRSAFE_LPCSTR)"123456789" );
// CoTaskMemFree must be used instead of delete to free memory.
CoTaskMemFree( ppStrArray[i] );
ppStrArray[i] = (char *) temp;
}
return result;
}
//******************************************************************
PINVOKELIB_API int TestArrayOfStructs( MYPOINT* pPointArray, int size )
{
int result = 0;
MYPOINT* pCur = pPointArray;
for ( int i = 0; i < size; i++ )
{
result += pCur->x + pCur->y;
pCur->y = 0;
pCur++;
}
return result;
}
//******************************************************************
PINVOKELIB_API int TestStructInStruct( MYPERSON2* pPerson2 )
{
size_t len = 0;
StringCchLengthA( pPerson2->person->last, STRSAFE_MAX_CCH, &len );
len = sizeof(char) * ( len + 2 ) + 1;
STRSAFE_LPSTR temp = (STRSAFE_LPSTR)CoTaskMemAlloc( len );
StringCchCopyA( temp, len, (STRSAFE_LPSTR)"Mc" );
StringCbCatA( temp, len, (STRSAFE_LPSTR)pPerson2->person->last );
CoTaskMemFree( pPerson2->person->last );
pPerson2->person->last = (char *)temp;
return pPerson2->age;
}
//******************************************************************
PINVOKELIB_API int TestArrayOfStructs2( MYPERSON* pPersonArray, int size )
{
int result = 0;
MYPERSON* pCur = pPersonArray;
STRSAFE_LPSTR temp;
size_t len;
for ( int i = 0; i < size; i++ )
{
len = 0;
StringCchLengthA( pCur->first, STRSAFE_MAX_CCH, &len );
len++;
result += len;
len = 0;
StringCchLengthA( pCur->last, STRSAFE_MAX_CCH, &len );
len++;
result += len;
len = sizeof(char) * ( len + 2 );
temp = (STRSAFE_LPSTR)CoTaskMemAlloc( len );
StringCchCopyA( temp, len, (STRSAFE_LPCSTR)"Mc" );
StringCbCatA( temp, len, (STRSAFE_LPCSTR)pCur->last );
result += 2;
// CoTaskMemFree must be used instead of delete to free memory.
CoTaskMemFree( pCur->last );
pCur->last = (char *)temp;
pCur++;
}
return result;
}
//******************************************************************
PINVOKELIB_API void TestStructInStruct3( MYPERSON3 person3 )
{
printf( "\n\nperson passed by value:\n" );
printf( "first = %s last = %s age = %i\n\n",
person3.person.first,
person3.person.last,
person3.age );
}
//*********************************************************************
PINVOKELIB_API void TestUnion( MYUNION u, int type )
{
if ( ( type != 1 ) && ( type != 2 ) )
{
return;
}
if ( type == 1 )
{
printf( "\n\ninteger passed: %i", u.i );
}
else if ( type == 2 )
{
printf( "\n\ndouble passed: %f", u.d );
}
}
//******************************************************************
PINVOKELIB_API void TestUnion2( MYUNION2 u, int type )
{
if ( ( type != 1 ) && ( type != 2 ) )
{
return;
}
if ( type == 1 )
{
printf( "\n\ninteger passed: %i", u.i );
}
else if ( type == 2 )
{
printf( "\n\nstring passed: %s", u.str );
}
}
//******************************************************************
PINVOKELIB_API void TestCallBack( FPTR pf, int value )
{
printf( "\nReceived value: %i", value );
printf( "\nPassing to callback..." );
bool res = (*pf)(value);
if ( res )
{
printf( "Callback returned true.\n" );
}
else
{
printf( "Callback returned false.\n" );
}
}
//******************************************************************
PINVOKELIB_API void TestCallBack2( FPTR2 pf2, char* value )
{
printf( "\nReceived value: %s", value );
printf( "\nPassing to callback..." );
bool res = (*pf2)(value);
if ( res )
{
printf( "Callback2 returned true.\n" );
}
else
{
printf( "Callback2 returned false.\n" );
}
}
//******************************************************************
PINVOKELIB_API void TestStringInStruct( MYSTRSTRUCT* pStruct )
{
wprintf( L"\nUnicode buffer content: %s\n", pStruct->buffer );
// Assuming that the buffer is big enough.
StringCbCatW( pStruct->buffer, pStruct->size, (STRSAFE_LPWSTR)L"++" );
}
//******************************************************************
PINVOKELIB_API void TestStringInStructAnsi( MYSTRSTRUCT2* pStruct )
{
printf( "\nAnsi buffer content: %s\n", pStruct->buffer );
// Assuming that the buffer is big enough.
StringCbCatA( (STRSAFE_LPSTR) pStruct->buffer, pStruct->size, (STRSAFE_LPSTR)"++" );
}
//******************************************************************
PINVOKELIB_API void TestOutArrayOfStructs( int* pSize, MYSTRSTRUCT2** ppStruct )
{
const int cArraySize = 5;
*pSize = 0;
*ppStruct = (MYSTRSTRUCT2*)CoTaskMemAlloc( cArraySize * sizeof( MYSTRSTRUCT2 ));
if ( ppStruct != NULL )
{
MYSTRSTRUCT2* pCurStruct = *ppStruct;
LPSTR buffer;
*pSize = cArraySize;
STRSAFE_LPCSTR teststr = "***";
size_t len = 0;
StringCchLengthA(teststr, STRSAFE_MAX_CCH, &len);
len++;
for ( int i = 0; i < cArraySize; i++, pCurStruct++ )
{
pCurStruct->size = len;
buffer = (LPSTR)CoTaskMemAlloc( len );
StringCchCopyA( buffer, len, teststr );
pCurStruct->buffer = (char *)buffer;
}
}
}
//************************************************************************
PINVOKELIB_API char * TestStringAsResult()
{
const size_t alloc_size = 64;
STRSAFE_LPSTR result = (STRSAFE_LPSTR)CoTaskMemAlloc( alloc_size );
STRSAFE_LPCSTR teststr = "This is return value";
StringCchCopyA( result, alloc_size, teststr );
return (char *) result;
}
//************************************************************************
PINVOKELIB_API void SetData( DataType typ, void* object )
{
switch ( typ )
{
case DT_I2: printf( "Short %i\n", *((short*)object) ); break;
case DT_I4: printf( "Long %i\n", *((long*)object) ); break;
case DT_R4: printf( "Float %f\n", *((float*)object) ); break;
case DT_R8: printf( "Double %f\n", *((double*)object) ); break;
case DT_STR: printf( "String %s\n", (char*)object ); break;
default: printf( "Unknown type" ); break;
}
}
//************************************************************************
PINVOKELIB_API void TestArrayInStruct( MYARRAYSTRUCT* pStruct )
{
pStruct->flag = true;
pStruct->vals[0] += 100;
pStruct->vals[1] += 100;
pStruct->vals[2] += 100;
}
// PInvokeLib.h : The header file for the DLL application.
//
#pragma once
#define WIN32_LEAN_AND_MEAN
#include <windows.h>
// The following ifdef block is the standard way of creating macros which make exporting
// from a DLL simpler. All files within this DLL are compiled with the PINVOKELIB_EXPORTS
// symbol defined on the command line. this symbol should not be defined on any project
// that uses this DLL. This way any other project whose source files include this file see
// PINVOKELIB_API functions as being imported from a DLL, wheras this DLL sees symbols
// defined with this macro as being exported.
#ifdef PINVOKELIB_EXPORTS
#define PINVOKELIB_API __declspec(dllexport)
#else
#define PINVOKELIB_API __declspec(dllimport)
#endif
// Define the test structures
typedef struct _MYPOINT
{
int x;
int y;
} MYPOINT;
typedef struct _MYPERSON
{
char* first;
char* last;
} MYPERSON;
typedef struct _MYPERSON2
{
MYPERSON* person;
int age;
} MYPERSON2;
typedef struct _MYPERSON3
{
MYPERSON person;
int age;
} MYPERSON3;
union MYUNION
{
int i;
double d;
};
union MYUNION2
{
int i;
char str[128];
};
typedef struct _MYSTRSTRUCT
{
wchar_t* buffer;
UINT size;
} MYSTRSTRUCT;
typedef struct _MYSTRSTRUCT2
{
char* buffer;
UINT size;
} MYSTRSTRUCT2;
typedef struct _MYARRAYSTRUCT
{
bool flag;
int vals[3];
} MYARRAYSTRUCT;
// constants and pointer definitions
const int COL_DIM = 5;
typedef bool (CALLBACK *FPTR)( int i );
typedef bool (CALLBACK *FPTR2)( char* str );
// Data type codes
enum DataType
{
DT_I2 = 1,
DT_I4,
DT_R4,
DT_R8,
DT_STR
};
// This is an exported class.
class PINVOKELIB_API CTestClass
{
public:
CTestClass( void );
int DoSomething( int i );
private:
int m_member;
};
// Exports for PInvokeLib.dll
#ifdef __cplusplus
extern "C"
{
#endif
PINVOKELIB_API CTestClass* CreateTestClass();
PINVOKELIB_API void DeleteTestClass( CTestClass* instance );
PINVOKELIB_API int TestArrayOfInts( int* pArray, int size );
PINVOKELIB_API int TestRefArrayOfInts( int** ppArray, int* pSize );
PINVOKELIB_API int TestMatrixOfInts( int pMatrix[][COL_DIM], int row );
PINVOKELIB_API int TestArrayOfStrings( char* ppStrArray[], int size );
PINVOKELIB_API int TestArrayOfStructs( MYPOINT* pPointArray, int size );
PINVOKELIB_API int TestArrayOfStructs2( MYPERSON* pPersonArray, int size );
PINVOKELIB_API int TestStructInStruct( MYPERSON2* pPerson2 );
PINVOKELIB_API void TestStructInStruct3( MYPERSON3 person3 );
PINVOKELIB_API void TestUnion( MYUNION u, int type );
PINVOKELIB_API void TestUnion2( MYUNION2 u, int type );
PINVOKELIB_API void TestCallBack( FPTR pf, int value );
PINVOKELIB_API void TestCallBack2( FPTR2 pf2, char* value );
// buffer is an in/out param
PINVOKELIB_API void TestStringInStruct( MYSTRSTRUCT* pStruct );
// buffer is in/out param
PINVOKELIB_API void TestStringInStructAnsi( MYSTRSTRUCT2* pStruct );
PINVOKELIB_API void TestOutArrayOfStructs( int* pSize, MYSTRSTRUCT2** ppStruct );
PINVOKELIB_API char* TestStringAsResult();
PINVOKELIB_API void SetData( DataType typ, void* object );
PINVOKELIB_API void TestArrayInStruct( MYARRAYSTRUCT* pStruct );
#ifdef __cplusplus
}
#endif
Als u de bibliotheekfuncties wilt aanroepen vanuit beheerde code, implementeert u beheerde prototypen voor elke functie die u wilt aanroepen. Als de niet-beheerde code gebruikmaakt van aangepaste typen, moet u deze typen ook declareren in uw beheerde code. Versier elk prototype met het DllImportAttribute kenmerk en gebruik StructLayoutAttribute deze om de indeling van beheerde structuren te beheren, zodat ze overeenkomen met de onbeheerde equivalenten.
Declaraties van beheerd type
De volgende code toont de beheerde equivalenten van de niet-beheerde typen die zijn gedefinieerd in PInvokeLib.h. Elke structuur gebruikt StructLayout om ervoor te zorgen dat de veldindeling overeenkomt met de onbeheerde indeling:
// Managed type declarations that correspond to the unmanaged types in PinvokeLib.dll.
[StructLayout(LayoutKind.Sequential)]
internal struct MyPoint
{
public int x;
public int y;
}
[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Ansi)]
internal struct MyPerson
{
public string first;
public string last;
}
[StructLayout(LayoutKind.Sequential)]
internal struct MyPerson2
{
public IntPtr person; // Pointer to a MyPerson structure
public int age;
}
[StructLayout(LayoutKind.Sequential)]
internal struct MyPerson3
{
public MyPerson person; // Embedded MyPerson structure
public int age;
}
[StructLayout(LayoutKind.Explicit)]
internal struct MyUnion
{
[FieldOffset(0)] public int i;
[FieldOffset(0)] public double d;
}
[StructLayout(LayoutKind.Sequential)]
internal struct MyArrayStruct
{
public bool flag;
[MarshalAs(UnmanagedType.ByValArray, SizeConst = 3)]
public int[] vals;
}
' Managed type declarations that correspond to the unmanaged types in PinvokeLib.dll.
<StructLayout(LayoutKind.Sequential)>
Friend Structure MyPoint
Public x As Integer
Public y As Integer
End Structure
<StructLayout(LayoutKind.Sequential, CharSet:=CharSet.Ansi)>
Friend Structure MyPerson
Public first As String
Public last As String
End Structure
<StructLayout(LayoutKind.Sequential)>
Friend Structure MyPerson2
Public person As IntPtr ' Pointer to a MyPerson structure
Public age As Integer
End Structure
<StructLayout(LayoutKind.Sequential)>
Friend Structure MyPerson3
Public person As MyPerson ' Embedded MyPerson structure
Public age As Integer
End Structure
<StructLayout(LayoutKind.Explicit)>
Friend Structure MyUnion
<FieldOffset(0)> Public i As Integer
<FieldOffset(0)> Public d As Double
End Structure
<StructLayout(LayoutKind.Sequential)>
Friend Structure MyArrayStruct
Public flag As Boolean
<MarshalAs(UnmanagedType.ByValArray, SizeConst:=3)>
Public vals As Integer()
End Structure
Prototypen van beheerde functies
De volgende code toont de DllImport declaraties waarmee de niet-beheerde functies worden weergegeven van PinvokeLib.dll naar beheerde code:
internal static class NativeMethods
{
[DllImport("PinvokeLib.dll", CallingConvention = CallingConvention.Cdecl)]
internal static extern int TestArrayOfInts(
[In, Out] int[] array, int size);
[DllImport("PinvokeLib.dll", CallingConvention = CallingConvention.Cdecl)]
internal static extern int TestRefArrayOfInts(
ref IntPtr array, ref int size);
[DllImport("PinvokeLib.dll", CallingConvention = CallingConvention.Cdecl)]
internal static extern int TestMatrixOfInts(
[In, Out] int[,] matrix, int row);
[DllImport("PinvokeLib.dll", CallingConvention = CallingConvention.Cdecl)]
internal static extern int TestArrayOfStrings(
[In, Out] string[] array, int size);
[DllImport("PinvokeLib.dll", CallingConvention = CallingConvention.Cdecl)]
internal static extern int TestArrayOfStructs(
[In, Out] MyPoint[] pointArray, int size);
[DllImport("PinvokeLib.dll", CallingConvention = CallingConvention.Cdecl)]
internal static extern int TestArrayOfStructs2(
[In, Out] MyPerson[] personArray, int size);
[DllImport("PinvokeLib.dll", CallingConvention = CallingConvention.Cdecl)]
internal static extern int TestStructInStruct(ref MyPerson2 person2);
[DllImport("PinvokeLib.dll", CallingConvention = CallingConvention.Cdecl)]
internal static extern void TestStructInStruct3(MyPerson3 person3);
[DllImport("PinvokeLib.dll", CallingConvention = CallingConvention.Cdecl)]
internal static extern void TestUnion(MyUnion u, int type);
[DllImport("PinvokeLib.dll", CallingConvention = CallingConvention.Cdecl)]
internal static extern void TestArrayInStruct(ref MyArrayStruct myStruct);
}
Friend Class NativeMethods
<DllImport("PinvokeLib.dll", CallingConvention:=CallingConvention.Cdecl)>
Friend Shared Function TestArrayOfInts(
<[In], Out> ByVal array() As Integer, ByVal size As Integer) As Integer
End Function
<DllImport("PinvokeLib.dll", CallingConvention:=CallingConvention.Cdecl)>
Friend Shared Function TestRefArrayOfInts(
ByRef array As IntPtr, ByRef size As Integer) As Integer
End Function
<DllImport("PinvokeLib.dll", CallingConvention:=CallingConvention.Cdecl)>
Friend Shared Function TestMatrixOfInts(
<[In], Out> ByVal matrix(,) As Integer, ByVal row As Integer) As Integer
End Function
<DllImport("PinvokeLib.dll", CallingConvention:=CallingConvention.Cdecl)>
Friend Shared Function TestArrayOfStrings(
<[In], Out> ByVal array() As String, ByVal size As Integer) As Integer
End Function
<DllImport("PinvokeLib.dll", CallingConvention:=CallingConvention.Cdecl)>
Friend Shared Function TestArrayOfStructs(
<[In], Out> ByVal pointArray() As MyPoint, ByVal size As Integer) As Integer
End Function
<DllImport("PinvokeLib.dll", CallingConvention:=CallingConvention.Cdecl)>
Friend Shared Function TestArrayOfStructs2(
<[In], Out> ByVal personArray() As MyPerson, ByVal size As Integer) As Integer
End Function
<DllImport("PinvokeLib.dll", CallingConvention:=CallingConvention.Cdecl)>
Friend Shared Function TestStructInStruct(
ByRef person2 As MyPerson2) As Integer
End Function
<DllImport("PinvokeLib.dll", CallingConvention:=CallingConvention.Cdecl)>
Friend Shared Sub TestStructInStruct3(ByVal person3 As MyPerson3)
End Sub
<DllImport("PinvokeLib.dll", CallingConvention:=CallingConvention.Cdecl)>
Friend Shared Sub TestUnion(ByVal u As MyUnion, ByVal type As Integer)
End Sub
<DllImport("PinvokeLib.dll", CallingConvention:=CallingConvention.Cdecl)>
Friend Shared Sub TestArrayInStruct(ByRef myStruct As MyArrayStruct)
End Sub
End Class
Zie de volgende artikelen voor meer informatie en voorbeelden:
Met ons samenwerken op GitHub
De bron voor deze inhoud vindt u op GitHub, waar u ook problemen en pull-aanvragen kunt maken en controleren. Bekijk onze gids voor inzenders voor meer informatie.
