Passing Structures

Many unmanaged functions expect you to pass, as a parameter to the function, members of structures (user-defined types in Visual Basic) or members of classes that are defined in managed code. When passing structures or classes to unmanaged code using platform invoke, you must provide additional information to preserve the original layout and alignment. This topic introduces the StructLayoutAttribute attribute, which you use to define formatted types. For managed structures and classes, you can select from several predictable layout behaviors supplied by the LayoutKind enumeration.

Central to the concepts presented in this topic is an important difference between structure and class types. Structures are value types and classes are reference types — classes always provide at least one level of memory indirection (a pointer to a value). This difference is important because unmanaged functions often demand indirection, as shown by the signatures in the first column of the following table. The managed structure and class declarations in the remaining columns show the degree to which you can adjust the level of indirection in your declaration.Declarations are provided for both Visual Basic and Visual C#.

The table describes the following guidelines for platform invoke declarations:

• Use a structure passed by value when the unmanaged function demands no indirection.

• Use either a structure passed by reference or a class passed by value when the unmanaged function demands one level of indirection.

• Use a class passed by reference when the unmanaged function demands two levels of indirection.

Declaring and Passing Structures

The following example shows how to define the Point and Rect structures in managed code, and pass the types as parameter to the PtInRect function in the User32.dll file. PtInRect has the following unmanaged signature:

BOOL PtInRect(const RECT *lprc, POINT pt);  

Notice that you must pass the Rect structure by reference, since the function expects a pointer to a RECT type.

Imports System.Runtime.InteropServices  
  
<StructLayout(LayoutKind.Sequential)> Public Structure Point  
    Public x As Integer  
    Public y As Integer  
End Structure  
  
Public Structure <StructLayout(LayoutKind.Explicit)> Rect  
    <FieldOffset(0)> Public left As Integer  
    <FieldOffset(4)> Public top As Integer  
    <FieldOffset(8)> Public right As Integer  
    <FieldOffset(12)> Public bottom As Integer  
End Structure  
  
Friend Class NativeMethods
    Friend Declare Auto Function PtInRect Lib "user32.dll" (
        ByRef r As Rect, p As Point) As Boolean  
End Class  

using System.Runtime.InteropServices;  
  
[StructLayout(LayoutKind.Sequential)]  
public struct Point {  
    public int x;  
    public int y;  
}
  
[StructLayout(LayoutKind.Explicit)]  
public struct Rect {  
    [FieldOffset(0)] public int left;  
    [FieldOffset(4)] public int top;  
    [FieldOffset(8)] public int right;  
    [FieldOffset(12)] public int bottom;  
}
  
internal static class NativeMethods
{  
    [DllImport("User32.dll")]  
    internal static extern bool PtInRect(ref Rect r, Point p);  
}  

Declaring and Passing Classes

You can pass members of a class to an unmanaged DLL function, as long as the class has a fixed member layout. The following example demonstrates how to pass members of the MySystemTime class, which are defined in sequential order, to the GetSystemTime in the User32.dll file. GetSystemTime has the following unmanaged signature:

void GetSystemTime(SYSTEMTIME* SystemTime);  

Unlike value types, classes always have at least one level of indirection.

Imports System.Runtime.InteropServices  
  
<StructLayout(LayoutKind.Sequential)> Public Class MySystemTime  
    Public wYear As Short  
    Public wMonth As Short  
    Public wDayOfWeek As Short
    Public wDay As Short  
    Public wHour As Short  
    Public wMinute As Short  
    Public wSecond As Short  
    Public wMiliseconds As Short  
End Class  
  
Friend Class NativeMethods  
    Friend Declare Auto Sub GetSystemTime Lib "Kernel32.dll" (
        sysTime As MySystemTime)  
    Friend Declare Auto Function MessageBox Lib "User32.dll" (
        hWnd As IntPtr, lpText As String, lpCaption As String, uType As UInteger) As Integer  
End Class  
  
Public Class TestPlatformInvoke
    Public Shared Sub Main()  
        Dim sysTime As New MySystemTime()  
        NativeMethods.GetSystemTime(sysTime)  
  
        Dim dt As String  
        dt = "System time is:" & ControlChars.CrLf & _  
              "Year: " & sysTime.wYear & _  
              ControlChars.CrLf & "Month: " & sysTime.wMonth & _  
              ControlChars.CrLf & "DayOfWeek: " & sysTime.wDayOfWeek & _  
              ControlChars.CrLf & "Day: " & sysTime.wDay  
        NativeMethods.MessageBox(IntPtr.Zero, dt, "Platform Invoke Sample", 0)
    End Sub  
End Class  

[StructLayout(LayoutKind.Sequential)]  
public class MySystemTime {  
    public ushort wYear;
    public ushort wMonth;  
    public ushort wDayOfWeek;
    public ushort wDay;
    public ushort wHour;
    public ushort wMinute;
    public ushort wSecond;
    public ushort wMilliseconds;
}  
internal static class NativeMethods
{  
    [DllImport("Kernel32.dll")]  
    internal static extern void GetSystemTime(MySystemTime st);  
  
    [DllImport("user32.dll", CharSet = CharSet.Auto)]  
    internal static extern int MessageBox(
        IntPtr hWnd, string lpText, string lpCaption, uint uType);  
}  
  
public class TestPlatformInvoke  
{  
    public static void Main()  
    {  
        MySystemTime sysTime = new MySystemTime();  
        NativeMethods.GetSystemTime(sysTime);  
  
        string dt;  
        dt = "System time is: \n" +  
              "Year: " + sysTime.wYear + "\n" +  
              "Month: " + sysTime.wMonth + "\n" +  
              "DayOfWeek: " + sysTime.wDayOfWeek + "\n" +  
              "Day: " + sysTime.wDay;  
        NativeMethods.MessageBox(IntPtr.Zero, dt, "Platform Invoke Sample", 0);  
    }  
}  

See also

• Calling a DLL Function
• StructLayoutAttribute
• FieldOffsetAttribute