using System;
using System.Collections.Generic;
using System.Linq;
using System.Runtime.InteropServices;
using System.Text;
using System.Threading.Tasks;
using System.Windows;
namespace DTS.Common.Classes
{
public static class WindowsAPIHelpers
{
///
/// POINT aka POINTAPI
///
[StructLayout(LayoutKind.Sequential)]
public struct POINT
{
///
/// x coordinate of point.
///
public int x;
///
/// y coordinate of point.
///
public int y;
///
/// Construct a point of coordinates (x,y).
///
public POINT(int x, int y)
{
this.x = x;
this.y = y;
}
}
[StructLayout(LayoutKind.Sequential)]
public struct MINMAXINFO
{
public POINT ptReserved;
public POINT ptMaxSize;
public POINT ptMaxPosition;
public POINT ptMinTrackSize;
public POINT ptMaxTrackSize;
};
///
///
[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Auto)]
public class MONITORINFO
{
///
///
public int cbSize = Marshal.SizeOf(typeof(MONITORINFO));
///
///
public RECT rcMonitor = new RECT();
///
///
public RECT rcWork = new RECT();
///
///
public int dwFlags = 0;
}
/// Win32
[StructLayout(LayoutKind.Sequential, Pack = 0)]
public struct RECT
{
/// Win32
public int left;
/// Win32
public int top;
/// Win32
public int right;
/// Win32
public int bottom;
/// Win32
public static readonly RECT Empty = new RECT();
/// Win32
public int Width => Math.Abs(right - left);
/// Win32
public int Height => bottom - top;
/// Win32
public RECT(int left, int top, int right, int bottom)
{
this.left = left;
this.top = top;
this.right = right;
this.bottom = bottom;
}
/// Win32
public RECT(RECT rcSrc)
{
left = rcSrc.left;
top = rcSrc.top;
right = rcSrc.right;
bottom = rcSrc.bottom;
}
/// Win32
public bool IsEmpty => left >= right || top >= bottom;
/// Return a user friendly representation of this struct
public override string ToString()
{
if (this == Empty) { return "RECT {Empty}"; }
return "RECT { left : " + left + " / top : " + top + " / right : " + right + " / bottom : " + bottom + " }";
}
/// Determine if 2 RECT are equal (deep compare)
public override bool Equals(object obj)
{
if (!(obj is Rect)) { return false; }
return (this == (RECT)obj);
}
/// Return the HashCode for this struct (not garanteed to be unique)
public override int GetHashCode()
{
return left.GetHashCode() + top.GetHashCode() + right.GetHashCode() + bottom.GetHashCode();
}
/// Determine if 2 RECT are equal (deep compare)
public static bool operator ==(RECT rect1, RECT rect2)
{
return (rect1.left == rect2.left && rect1.top == rect2.top && rect1.right == rect2.right && rect1.bottom == rect2.bottom);
}
/// Determine if 2 RECT are different(deep compare)
public static bool operator !=(RECT rect1, RECT rect2)
{
return !(rect1 == rect2);
}
}
public enum WM
{
WINDOWMAX = 0x0024,
WINDOWPOSCHANGING = 0x0046,
}
public enum SWP
{
NOMOVE = 0x0002,
}
[StructLayout(LayoutKind.Sequential)]
public struct WINDOWPOS
{
public IntPtr hwnd;
public IntPtr hwndInsertAfter;
public int x;
public int y;
public int cx;
public int cy;
public int flags;
}
public static void GetMinMaxInfo(IntPtr hwnd, IntPtr lParam)
{
var mmi = (MINMAXINFO)Marshal.PtrToStructure(lParam, typeof(MINMAXINFO));
// Adjust the maximized size and position to fit the work area of the correct monitor
const int monitorDefaulttonearest = 0x00000002;
var monitor = MonitorFromWindow(hwnd, monitorDefaulttonearest);
if (monitor != IntPtr.Zero)
{
var monitorInfo = new MONITORINFO();
GetMonitorInfo(monitor, monitorInfo);
var rcWorkArea = monitorInfo.rcWork;
var rcMonitorArea = monitorInfo.rcMonitor;
mmi.ptMaxPosition.x = Math.Abs(rcWorkArea.left - rcMonitorArea.left);
mmi.ptMaxPosition.y = Math.Abs(rcWorkArea.top - rcMonitorArea.top);
mmi.ptMaxSize.x = Math.Abs(rcWorkArea.right - rcWorkArea.left);
mmi.ptMaxSize.y = Math.Abs(rcWorkArea.bottom - rcWorkArea.top);
}
Marshal.StructureToPtr(mmi, lParam, true);
}
[DllImport("user32")]
public static extern bool GetMonitorInfo(IntPtr hMonitor, MONITORINFO lpmi);
///
///
///
[DllImport("User32")]
public static extern IntPtr MonitorFromWindow(IntPtr handle, int flags);
}
}