Sortering av olika typer av matriser

En matris är en referenstyp i hanterad kod som innehåller ett eller flera element av samma typ. Även om matriser är referenstyper skickas de som In-parametrar till ohanterade funktioner. Det här beteendet är inkonsekvent med hur hanterade matriser skickas till hanterade objekt, vilket är som in-/ut-parametrar. Mer information finns i Kopiera och fästa.

I följande tabell visas marshallingalternativ för matriser och deras användning.

Matris	beskrivning
Av heltal efter värde.	Skickar en matris med heltal som en In-parameter.
Av heltal efter referens.	Skickar en matris med heltal som en In/Out-parameter.
Av heltal efter värde (tvådimensionellt).	Skickar en matris med heltal som en In-parameter.
Av strängar efter värde.	Skickar en matris med strängar som en In-parameter.
Av strukturer med heltal.	Skickar en matris med strukturer som innehåller heltal som en In-parameter.
Av strukturer med strängar.	Skickar en matris med strukturer som endast innehåller strängar som en In/Ut-parameter. Medlemmar i matrisen kan ändras.

Exempel

Det här exemplet visar hur du skickar följande typer av matriser:

• Matris med heltal efter värde.

• Matris med heltal efter referens, som kan ändras.

• Flerdimensionell matris (matris) med heltal efter värde.

• Matris med strängar efter värde.

• Matris med strukturer med heltal.

• Matris med strukturer med strängar.

Om inte en matris uttryckligen ordnas som referens, konverterar standardbeteendet matrisen som en In-parameter. Du kan ändra det här beteendet genom att uttryckligen tillämpa attributen InAttribute och OutAttribute .

Matrisexemplet använder följande ohanterade funktioner som visas med sin ursprungliga funktionsdeklaration:

• TestArrayOfInts exporteras från PinvokeLib.dll.

  int TestArrayOfInts(int* pArray, int pSize);  
  

• TestRefArrayOfInts exporteras från PinvokeLib.dll.

  int TestRefArrayOfInts(int** ppArray, int* pSize);  
  

• TestMatrixOfInts exporteras från PinvokeLib.dll.

  int TestMatrixOfInts(int pMatrix[][COL_DIM], int row);  
  

• TestArrayOfStrings exporteras från PinvokeLib.dll.

  int TestArrayOfStrings(char** ppStrArray, int size);  
  

• TestArrayOfStructs exporteras från PinvokeLib.dll.

  int TestArrayOfStructs(MYPOINT* pPointArray, int size);  
  

• TestArrayOfStructs2 exporteras från PinvokeLib.dll.

  int TestArrayOfStructs2 (MYPERSON* pPersonArray, int size);  
  

PinvokeLib.dll är ett anpassat ohanterat bibliotek som innehåller implementeringar för tidigare listade funktioner och två strukturvariabler, MYPOINT och MYPERSON. Strukturerna innehåller följande element:

typedef struct _MYPOINT  
{  
   int x;
   int y;
} MYPOINT;  
  
typedef struct _MYPERSON  
{  
   char* first;
   char* last;
} MYPERSON;  

I det här exemplet innehåller strukturerna MyPoint och MyPerson inbäddade typer. Attributet StructLayoutAttribute är inställt för att säkerställa att medlemmarna ordnas i minnet sekventiellt i den ordning de visas.

Klassen NativeMethods innehåller en uppsättning metoder som anropas av App klassen. Mer information om hur du skickar matriser finns i kommentarerna i följande exempel. En matris, som är en referenstyp, skickas som en In-parameter som standard. För att anroparen ska kunna ta emot resultaten måste InAttribute och OutAttribute tillämpas explicit på argumentet som innehåller matrisen.

Deklarera prototyper

// Declares a managed structure for each unmanaged structure.
[StructLayout(LayoutKind.Sequential)]
public struct MyPoint
{
    public int X;
    public int Y;

    public MyPoint(int x, int y)
    {
        this.X = x;
        this.Y = y;
    }
}

[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Ansi)]
public struct MyPerson
{
    public string First;
    public string Last;

    public MyPerson(string first, string last)
    {
        this.First = first;
        this.Last = last;
    }
}

internal static class NativeMethods
{
    // Declares a managed prototype for an array of integers by value.
    // The array size cannot be changed, but the array is copied back.
    [DllImport("..\\LIB\\PinvokeLib.dll", CallingConvention = CallingConvention.Cdecl)]
    internal static extern int TestArrayOfInts(
        [In, Out] int[] array, int size);

    // Declares a managed prototype for an array of integers by reference.
    // The array size can change, but the array is not copied back
    // automatically because the marshaler does not know the resulting size.
    // The copy must be performed manually.
    [DllImport("..\\LIB\\PinvokeLib.dll", CallingConvention = CallingConvention.Cdecl)]
    internal static extern int TestRefArrayOfInts(
        ref IntPtr array, ref int size);

    // Declares a managed prototype for a matrix of integers by value.
    [DllImport("..\\LIB\\PinvokeLib.dll", CallingConvention = CallingConvention.Cdecl)]
    internal static extern int TestMatrixOfInts(
        [In, Out] int[,] pMatrix, int row);

    // Declares a managed prototype for an array of strings by value.
    [DllImport("..\\LIB\\PinvokeLib.dll", CallingConvention = CallingConvention.Cdecl)]
    internal static extern int TestArrayOfstrings(
        [In, Out] string[] stringArray, int size);

    // Declares a managed prototype for an array of structures with integers.
    [DllImport("..\\LIB\\PinvokeLib.dll", CallingConvention = CallingConvention.Cdecl)]
    internal static extern int TestArrayOfStructs(
        [In, Out] MyPoint[] pointArray, int size);

    // Declares a managed prototype for an array of structures with strings.
    [DllImport("..\\LIB\\PinvokeLib.dll", CallingConvention = CallingConvention.Cdecl)]
    internal static extern int TestArrayOfStructs2(
        [In, Out] MyPerson[] personArray, int size);
}

' Declares a managed structure for each unmanaged structure.
<StructLayout(LayoutKind.Sequential)>
Public Structure MyPoint
    Public x As Integer
    Public y As Integer
    Public Sub New(x As Integer, y As Integer)
        Me.x = x
        Me.y = y
    End Sub
End Structure

<StructLayout(LayoutKind.Sequential, CharSet:=CharSet.Ansi)>
Public Structure MyPerson
    Public first As String
    Public last As String
    Public Sub New(first As String, last As String)
        Me.first = first
        Me.last = last
    End Sub
End Structure

Friend Class NativeMethods
    ' Declares a managed prototype for an array of integers by value.
    ' The array size cannot be changed, but the array is copied back.
    <DllImport("..\LIB\PinvokeLib.dll", CallingConvention:=CallingConvention.Cdecl)>
    Friend Shared Function TestArrayOfInts(
        <[In], Out> ByVal myArray() As Integer, ByVal size As Integer) _
        As Integer
    End Function

    ' Declares managed prototype for an array of integers by reference.
    ' The array size can change, but the array is not copied back 
    ' automatically because the marshaler does not know the resulting size.
    ' The copy must be performed manually.
    <DllImport("..\LIB\PinvokeLib.dll", CallingConvention:=CallingConvention.Cdecl)>
    Friend Shared Function TestRefArrayOfInts(
        ByRef myArray As IntPtr, ByRef size As Integer) As Integer
    End Function

    ' Declares a managed prototype for a matrix of integers by value.
    <DllImport("..\LIB\PinvokeLib.dll", CallingConvention:=CallingConvention.Cdecl)>
    Friend Shared Function TestMatrixOfInts(
        <[In], Out> ByVal matrix(,) As Integer, ByVal row As Integer) _
        As Integer
    End Function

    ' Declares a managed prototype for an array of strings by value.
    <DllImport("..\LIB\PinvokeLib.dll", CallingConvention:=CallingConvention.Cdecl)>
    Friend Shared Function TestArrayOfStrings(
        <[In], Out> ByVal strArray() As String, ByVal size As Integer) _
        As Integer
    End Function

    ' Declares a managed prototype for an array of structures with 
    ' integers.
    <DllImport("..\LIB\PinvokeLib.dll", CallingConvention:=CallingConvention.Cdecl)>
    Friend Shared Function TestArrayOfStructs(
        <[In], Out> ByVal pointArray() As MyPoint, ByVal size As Integer) _
        As Integer
    End Function

    ' Declares a managed prototype for an array of structures with strings.
    <DllImport("..\LIB\PinvokeLib.dll", CallingConvention:=CallingConvention.Cdecl)>
    Friend Shared Function TestArrayOfStructs2(
        <[In], Out> ByVal personArray() As MyPerson, ByVal size As Integer) _
        As Integer
    End Function
End Class

Anropa funktioner

public class App
{
    public static void Main()
    {
        // array ByVal
        int[] array1 = new int[10];
        Console.WriteLine("Integer array passed ByVal before call:");
        for (int i = 0; i < array1.Length; i++)
        {
            array1[i] = i;
            Console.Write(" " + array1[i]);
        }

        int sum1 = NativeMethods.TestArrayOfInts(array1, array1.Length);
        Console.WriteLine("\nSum of elements:" + sum1);
        Console.WriteLine("\nInteger array passed ByVal after call:");

        foreach (int i in array1)
        {
            Console.Write(" " + i);
        }

        // array ByRef
        int[] array2 = new int[10];
        int size = array2.Length;
        Console.WriteLine("\n\nInteger array passed ByRef before call:");
        for (int i = 0; i < array2.Length; i++)
        {
            array2[i] = i;
            Console.Write(" " + array2[i]);
        }

        IntPtr buffer = Marshal.AllocCoTaskMem(Marshal.SizeOf(size)
           * array2.Length);
        Marshal.Copy(array2, 0, buffer, array2.Length);

        int sum2 = NativeMethods.TestRefArrayOfInts(ref buffer, ref size);
        Console.WriteLine("\nSum of elements:" + sum2);
        if (size > 0)
        {
            int[] arrayRes = new int[size];
            Marshal.Copy(buffer, arrayRes, 0, size);
            Marshal.FreeCoTaskMem(buffer);
            Console.WriteLine("\nInteger array passed ByRef after call:");
            foreach (int i in arrayRes)
            {
                Console.Write(" " + i);
            }
        }
        else
        {
            Console.WriteLine("\nArray after call is empty");
        }

        // matrix ByVal
        const int DIM = 5;
        int[,] matrix = new int[DIM, DIM];

        Console.WriteLine("\n\nMatrix before call:");
        for (int i = 0; i < DIM; i++)
        {
            for (int j = 0; j < DIM; j++)
            {
                matrix[i, j] = j;
                Console.Write(" " + matrix[i, j]);
            }

            Console.WriteLine("");
        }

        int sum3 = NativeMethods.TestMatrixOfInts(matrix, DIM);
        Console.WriteLine("\nSum of elements:" + sum3);
        Console.WriteLine("\nMatrix after call:");
        for (int i = 0; i < DIM; i++)
        {
            for (int j = 0; j < DIM; j++)
            {
                Console.Write(" " + matrix[i, j]);
            }

            Console.WriteLine("");
        }

        // string array ByVal
        string[] strArray = { "one", "two", "three", "four", "five" };
        Console.WriteLine("\n\nstring array before call:");
        foreach (string s in strArray)
        {
            Console.Write(" " + s);
        }

        int lenSum = NativeMethods.TestArrayOfstrings(strArray, strArray.Length);
        Console.WriteLine("\nSum of string lengths:" + lenSum);
        Console.WriteLine("\nstring array after call:");
        foreach (string s in strArray)
        {
            Console.Write(" " + s);
        }

        // struct array ByVal
        MyPoint[] points = { new MyPoint(1, 1), new MyPoint(2, 2), new MyPoint(3, 3) };
        Console.WriteLine("\n\nPoints array before call:");
        foreach (MyPoint p in points)
        {
            Console.WriteLine($"X = {p.X}, Y = {p.Y}");
        }

        int allSum = NativeMethods.TestArrayOfStructs(points, points.Length);
        Console.WriteLine("\nSum of points:" + allSum);
        Console.WriteLine("\nPoints array after call:");
        foreach (MyPoint p in points)
        {
            Console.WriteLine($"X = {p.X}, Y = {p.Y}");
        }

        // struct with strings array ByVal
        MyPerson[] persons =
        {
            new MyPerson("Kim", "Akers"),
            new MyPerson("Adam", "Barr"),
            new MyPerson("Jo", "Brown")
        };

        Console.WriteLine("\n\nPersons array before call:");
        foreach (MyPerson pe in persons)
        {
            Console.WriteLine($"First = {pe.First}, Last = {pe.Last}");
        }

        int namesSum = NativeMethods.TestArrayOfStructs2(persons, persons.Length);
        Console.WriteLine("\nSum of name lengths:" + namesSum);
        Console.WriteLine("\n\nPersons array after call:");
        foreach (MyPerson pe in persons)
        {
            Console.WriteLine($"First = {pe.First}, Last = {pe.Last}");
        }
    }
}

Public Class App
    Public Shared Sub Main()
        ' array ByVal
        Dim array1(9) As Integer

        Console.WriteLine("Integer array passed ByVal before call:")
        Dim i As Integer
        For i = 0 To array1.Length - 1
            array1(i) = i
            Console.Write(" " & array1(i))
        Next i

        Dim sum1 As Integer = NativeMethods.TestArrayOfInts(array1, array1.Length)
        Console.WriteLine(ControlChars.CrLf & "Sum of elements:" & sum1)
        Console.WriteLine(ControlChars.CrLf & "Integer array passed ByVal after call:")
        For Each i In array1
            Console.Write(" " & i)
        Next i

        ' array ByRef
        Dim array2(9) As Integer
        Dim arraySize As Integer = array2.Length
        Console.WriteLine(ControlChars.CrLf & ControlChars.CrLf &
            "Integer array passed ByRef before call:")
        For i = 0 To array2.Length - 1
            array2(i) = i
            Console.Write(" " & array2(i))
        Next i
        Dim buffer As IntPtr = Marshal.AllocCoTaskMem(Marshal.SizeOf(
            arraySize) * array2.Length)
        Marshal.Copy(array2, 0, buffer, array2.Length)
        Dim sum2 As Integer = NativeMethods.TestRefArrayOfInts(buffer,
            arraySize)
        Console.WriteLine(ControlChars.CrLf & "Sum of elements:" & sum2)

        If arraySize > 0 Then
            Dim arrayRes(arraySize - 1) As Integer
            Marshal.Copy(buffer, arrayRes, 0, arraySize)
            Marshal.FreeCoTaskMem(buffer)

            Console.WriteLine(ControlChars.CrLf & "Integer array passed ByRef after call:")
            For Each i In arrayRes
                Console.Write(" " & i)
            Next i
        Else
            Console.WriteLine(ControlChars.CrLf & "Array after call is empty")
        End If

        ' matrix ByVal 
        Const [DIM] As Integer = 4
        Dim matrix([DIM], [DIM]) As Integer

        Console.WriteLine(ControlChars.CrLf & ControlChars.CrLf &
            "Matrix before call:")
        For i = 0 To [DIM]
            Dim j As Integer
            For j = 0 To [DIM]
                matrix(i, j) = j
                Console.Write(" " & matrix(i, j))
            Next j
            Console.WriteLine("")
        Next i

        Dim sum3 As Integer = NativeMethods.TestMatrixOfInts(matrix, [DIM] + 1)
        Console.WriteLine(ControlChars.CrLf & "Sum of elements:" & sum3)
        Console.WriteLine(ControlChars.CrLf & "Matrix after call:")
        For i = 0 To [DIM]
            Dim j As Integer
            For j = 0 To [DIM]
                Console.Write(" " & matrix(i, j))
            Next j
            Console.WriteLine("")
        Next i

        ' string array ByVal 
        Dim strArray As String() = {"one", "two", "three", "four",
            "five"}
        Console.WriteLine(ControlChars.CrLf & ControlChars.CrLf &
            "String array before call:")
        Dim s As String
        For Each s In strArray
            Console.Write(" " & s)
        Next s
        Dim lenSum As Integer = NativeMethods.TestArrayOfStrings(
            strArray, strArray.Length)
        Console.WriteLine(ControlChars.CrLf &
            "Sum of string lengths:" & lenSum)
        Console.WriteLine(ControlChars.CrLf & "String array after call:")
        For Each s In strArray
            Console.Write(" " & s)
        Next s

        ' struct array ByVal 
        Dim points As MyPoint() = {New MyPoint(1, 1), New MyPoint(2, 2),
            New MyPoint(3, 3)}
        Console.WriteLine(ControlChars.CrLf & ControlChars.CrLf &
            "Points array before call:")
        Dim p As MyPoint
        For Each p In points
            Console.WriteLine($"x = {p.x}, y = {p.y}")
        Next p
        Dim allSum As Integer = NativeMethods.TestArrayOfStructs(points,
            points.Length)
        Console.WriteLine(ControlChars.CrLf & "Sum of points:" & allSum)
        Console.WriteLine(ControlChars.CrLf & "Points array after call:")
        For Each p In points
            Console.WriteLine($"x = {p.x}, y = {p.y}")
        Next p

        ' struct with strings array ByVal 
        Dim persons As MyPerson() = {New MyPerson("Kim", "Akers"),
            New MyPerson("Adam", "Barr"),
            New MyPerson("Jo", "Brown")}
        Console.WriteLine(ControlChars.CrLf & ControlChars.CrLf &
            "Persons array before call:")
        Dim pe As MyPerson
        For Each pe In persons
            Console.WriteLine($"first = {pe.first}, last = {pe.last}")
        Next pe

        Dim namesSum As Integer = NativeMethods.TestArrayOfStructs2(persons,
            persons.Length)
        Console.WriteLine(ControlChars.CrLf & "Sum of name lengths:" &
            namesSum)
        Console.WriteLine(ControlChars.CrLf & ControlChars.CrLf _
            & "Persons array after call:")
        For Each pe In persons
            Console.WriteLine($"first = {pe.first}, last = {pe.last}")
        Next pe
    End Sub
End Class

Se även

• Plattform som anropar datatyper
• Skapa prototyper i hanterad kod