Beispiel #1
0
        /// <summary>
        /// Inject keyboard input into the system
        /// </summary>
        /// <param name="key">indicates the key pressed or released. Can be one of the constants defined in the Key enum</param>
        /// <param name="press">true to inject a key press, false to inject a key release</param>
        public static void SendKeyboardInput(Key key, bool press)
        {
            InternalUnsafeNativeMethods.INPUT ki = new InternalUnsafeNativeMethods.INPUT();
            ki.type = InternalNativeMethods.INPUT_KEYBOARD;
            ki.union.keyboardInput.wVk   = (short)KeyInterop.VirtualKeyFromKey(key);
            ki.union.keyboardInput.wScan = (short)InternalUnsafeNativeMethods.MapVirtualKey(ki.union.keyboardInput.wVk, 0);
            int dwFlags = 0;

            if (ki.union.keyboardInput.wScan > 0)
            {
                dwFlags |= InternalNativeMethods.KEYEVENTF_SCANCODE;
            }
            if (!press)
            {
                dwFlags |= InternalNativeMethods.KEYEVENTF_KEYUP;
            }
            ki.union.keyboardInput.dwFlags = dwFlags;
            if (IsExtendedKey(key))
            {
                ki.union.keyboardInput.dwFlags |= InternalNativeMethods.KEYEVENTF_EXTENDEDKEY;
            }
            ki.union.keyboardInput.time        = 0;
            ki.union.keyboardInput.dwExtraInfo = new IntPtr(0);
            if (InternalUnsafeNativeMethods.SendInput(1, ref ki, Marshal.SizeOf(ki)) == 0)
            {
                throw new Win32Exception(Marshal.GetLastWin32Error());
            }
        }
Beispiel #2
0
        //------------------------------------------------------
        //
        //  Public Methods
        //
        //------------------------------------------------------

        #region Public Methods

        /// <summary>
        /// Inject pointer input into the system
        /// </summary>
        /// <param name="x">x coordinate of pointer, if Move flag specified</param>
        /// <param name="y">y coordinate of pointer, if Move flag specified</param>
        /// <param name="data">wheel movement, or mouse X button, depending on flags</param>
        /// <param name="flags">flags to indicate which type of input occurred - move, button press/release, wheel move, etc.</param>
        /// <remarks>x, y are in pixels. If Absolute flag used, are relative to desktop origin.</remarks>
        public static void SendMouseInput(double x, double y, int data, SendMouseInputFlags flags)
        {
            int intflags = (int)flags;

            if ((intflags & (int)SendMouseInputFlags.Absolute) != 0)
            {
                int vscreenWidth  = InternalUnsafeNativeMethods.GetSystemMetrics(InternalNativeMethods.SM_CXVIRTUALSCREEN);
                int vscreenHeight = InternalUnsafeNativeMethods.GetSystemMetrics(InternalNativeMethods.SM_CYVIRTUALSCREEN);
                int vscreenLeft   = InternalUnsafeNativeMethods.GetSystemMetrics(InternalNativeMethods.SM_XVIRTUALSCREEN);
                int vscreenTop    = InternalUnsafeNativeMethods.GetSystemMetrics(InternalNativeMethods.SM_YVIRTUALSCREEN);

                // Absolute input requires that input is in 'normalized' coords - with the entire
                // desktop being (0,0)...(65535,65536). Need to convert input x,y coords to this
                // first.
                //
                // In this normalized world, any pixel on the screen corresponds to a block of values
                // of normalized coords - eg. on a 1024x768 screen,
                // y pixel 0 corresponds to range 0 to 85.333,
                // y pixel 1 corresponds to range 85.333 to 170.666,
                // y pixel 2 correpsonds to range 170.666 to 256 - and so on.
                // Doing basic scaling math - (x-top)*65536/Width - gets us the start of the range.
                // However, because int math is used, this can end up being rounded into the wrong
                // pixel. For example, if we wanted pixel 1, we'd get 85.333, but that comes out as
                // 85 as an int, which falls into pixel 0's range - and that's where the pointer goes.
                // To avoid this, we add on half-a-"screen pixel"'s worth of normalized coords - to
                // push us into the middle of any given pixel's range - that's the 65536/(Width*2)
                // part of the formula. So now pixel 1 maps to 85+42 = 127 - which is comfortably
                // in the middle of that pixel's block.
                // The key ting here is that unlike points in coordinate geometry, pixels take up
                // space, so are often better treated like rectangles - and if you want to target
                // a particular pixel, target its rectangle's midpoint, not its edge.
                x = ((x - vscreenLeft) * 65536) / vscreenWidth + 65536 / (vscreenWidth * 2);
                y = ((y - vscreenTop) * 65536) / vscreenHeight + 65536 / (vscreenHeight * 2);

                intflags |= InternalNativeMethods.MOUSEEVENTF_VIRTUALDESK;
            }

            InternalUnsafeNativeMethods.INPUT mi = new InternalUnsafeNativeMethods.INPUT();
            mi.type = InternalNativeMethods.INPUT_MOUSE;
            mi.union.mouseInput.dx          = (int)x;
            mi.union.mouseInput.dy          = (int)y;
            mi.union.mouseInput.mouseData   = data;
            mi.union.mouseInput.dwFlags     = intflags;
            mi.union.mouseInput.time        = 0;
            mi.union.mouseInput.dwExtraInfo = new IntPtr(0);
            //Console.WriteLine("Sending");
            if (InternalUnsafeNativeMethods.SendInput(1, ref mi, Marshal.SizeOf(mi)) == 0)
            {
                throw new Win32Exception(Marshal.GetLastWin32Error());
            }
        }