Exemple #1
0
        public static void SendThreeKeys(System.Windows.Input.Key key1, System.Windows.Input.Key key2, System.Windows.Input.Key key3, string msg, int sleepTime)
        {
            Thread.Sleep(sleepTime);

            Library.ValidateArgumentNonNull(msg, "SendSingleKey() msg argument is null");

            if (msg.Length > 0)
            {
                msg = msg + " by ";
            }

            /* changing to new flexible logging */
            //Logger.LogComment(msg + "Sending keys " + key1.ToString() + ", " + key2.ToString() + " + " + key3.ToString());
            UIVerifyLogger.LogComment(msg + "Sending keys " + key1.ToString() + ", " + key2.ToString() + " + " + key3.ToString());

            ATGTestInput.Input.SendKeyboardInput(key1, true);
            Thread.Sleep(300);
            ATGTestInput.Input.SendKeyboardInput(key2, true);
            Thread.Sleep(300);
            ATGTestInput.Input.SendKeyboardInput(key3, true);
            Thread.Sleep(sleepTime);
            ATGTestInput.Input.SendKeyboardInput(key3, false);
            ATGTestInput.Input.SendKeyboardInput(key1, false);
            ATGTestInput.Input.SendKeyboardInput(key2, false);
            Thread.Sleep(sleepTime);
        }
Exemple #2
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        static public WindowsInput.Native.VirtualKeyCode?WindowsInputVirtualKeyCodeBerecneAusSystemWindowsInputKey(
            System.Windows.Input.Key WindowsInputKey)
        {
            if (System.Windows.Input.Key.F1 <= WindowsInputKey &&
                WindowsInputKey <= System.Windows.Input.Key.F24)
            {
                return((WindowsInput.Native.VirtualKeyCode)(((int)WindowsInputKey - (int)System.Windows.Input.Key.F1) + (int)WindowsInput.Native.VirtualKeyCode.F1));
            }

            if (System.Windows.Input.Key.D0 <= WindowsInputKey &&
                WindowsInputKey <= System.Windows.Input.Key.D9)
            {
                return((WindowsInput.Native.VirtualKeyCode)(((int)WindowsInputKey - (int)System.Windows.Input.Key.D0) + (int)WindowsInput.Native.VirtualKeyCode.VK_0));
            }

            var WindowsInputKeySictString = WindowsInputKey.ToString();

            WindowsInput.Native.VirtualKeyCode Result;

            if (Enum.TryParse(WindowsInputKeySictString, false, out Result))
            {
                return(Result);
            }

            if (Enum.TryParse(WindowsInputKeySictString, true, out Result))
            {
                return(Result);
            }


            return(null);
        }
        public void AssignKeyAction(string key, System.Windows.Input.Key value)
        {
            Key keys;

            Enum.TryParse(value.ToString(), out keys);
            controlSettings.KeyboardAssignment[key] = keys;
        }
Exemple #4
0
 /// <summary>
 /// 通过KEY返回值
 /// </summary>
 /// <param name="key"></param>
 /// <returns></returns>
 internal string GetStrFromKey(System.Windows.Input.Key key)
 {
     if (key >= System.Windows.Input.Key.D0 && key <= System.Windows.Input.Key.D9)
     {
         return(key.ToString().TrimStart("D"));
     }
     else if (key >= System.Windows.Input.Key.NumPad0 && key <= System.Windows.Input.Key.NumPad9)
     {
         return(key.ToString().TrimStart("NumPad"));
     }
     else if (key == System.Windows.Input.Key.OemPeriod || key == System.Windows.Input.Key.Decimal)
     {
         return(".");
     }
     return(key.ToString());
 }
        public static Key FromSystemKey(System.Windows.Input.Key SystemKey)
        {
            if (Enum.TryParse(SystemKey.ToString(), out Key DirectKey))
            {
                return(DirectKey);
            }

            Debug.WriteLine($"Warning; SystemKey '{SystemKey}' does not have a direct {nameof(Key)} conversion.");
            return((Key)SystemKey);
        }
Exemple #6
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        /*
         * This method performs the lookup and returns the VirtualKeyCode if it is found.
         * If it is not found, a 0 is returned.
         */
        public static WindowsInput.VirtualKeyCode LookupVKey(System.Windows.Input.Key enumKey)
        {
            // Since vKey cannot be null, use 0 to represent an invalid key
            WindowsInput.VirtualKeyCode vKey = 0;

            try
            {
                lookup.TryGetValue(enumKey, out vKey);
            }
            catch (ArgumentException)
            {
                Console.WriteLine("Invalid key" + enumKey.ToString());
            }

            return(vKey);
        }
Exemple #7
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        public static void SendOneKey(System.Windows.Input.Key key, string msg, int sleepTime)
        {
            Thread.Sleep(sleepTime);

            Library.ValidateArgumentNonNull(msg, "msg argument cannot be null");

            if (msg.Length > 0)
            {
                msg = msg + " by ";
            }

            /* changing to new flexible logging */
            //Logger.LogComment(msg + "Sending key " + key.ToString());
            UIVerifyLogger.LogComment(msg + "Sending key " + key.ToString());

            ATGTestInput.Input.SendKeyboardInput(key, true);
            ATGTestInput.Input.SendKeyboardInput(key, false);
        }
Exemple #8
0
            }             //class KeyboardRowDescriptor

            internal KeyboardLayout(MainWindow parent)
            {
                this.parent         = parent;
                this.sampleRenderer = new SampleRenderer(parent);
                KeyboardElementList keyList = new KeyboardElementList(0);

                Rows = new KeyboardRowDescriptor[DefinitionSet.keyboardHeight];
                for (int yIndex = 0; yIndex < DefinitionSet.keyboardHeight; ++yIndex)
                {
                    bool shortRow = yIndex % 2 == 0;
                    int  xLength  = DefinitionSet.maximimKeyboardWidth;
                    if (!shortRow)
                    {
                        ++xLength;
                    }
                    KeyboardElement[] rowElements = new KeyboardElement[xLength];
                    for (int xIndex = 0; xIndex < xLength; ++xIndex)
                    {
                        var ke = new KeyboardElement(parent, (byte)yIndex, (byte)xIndex, sampleRenderer.Recording);
                        keyList.Add(ke);
                        rowElements[xIndex] = ke;
                    }             //loop x
                    Rows[yIndex] = new KeyboardRowDescriptor(rowElements, shortRow);
                }                 //loop y
                int physicalRightmost = int.MinValue;

                for (int yIndex = 0; yIndex < Main.PhysicalKeyboardLayout.physicalRows.Length; ++yIndex)
                {
                    int rightMost = Main.PhysicalKeyboardLayout.physicalRows[yIndex].Length * 2 - yIndex;
                    if (physicalRightmost < rightMost)
                    {
                        physicalRightmost = rightMost;
                    }
                }                 //loop
                physicalRightmost += 1;
                int rowShift   = 1 + (DefinitionSet.keyboardHeight - Main.PhysicalKeyboardLayout.physicalRows.Length) / 2;
                int shiftInRow = 1 + (DefinitionSet.maximimKeyboardWidth * 2 - physicalRightmost) / 4;

                this.Keys = keyList.ToArray();
                int maxKey = -1;

                for (int yIndex = 0; yIndex < Main.PhysicalKeyboardLayout.physicalRows.Length; ++yIndex)
                {
                    for (int xIndex = 0; xIndex < Main.PhysicalKeyboardLayout.physicalRows[yIndex].Length; ++xIndex)
                    {
                        int             actualIndexX = shiftInRow;
                        KeyboardElement element      = Rows[yIndex + rowShift].Elements[actualIndexX - yIndex + xIndex];
                        Key             key          = Main.PhysicalKeyboardLayout.physicalRows[yIndex][xIndex];
                        string          sKey         = key.ToString();
                        if (sKey.Length > 1)
                        {
                            if (key < Key.D0 || key > Key.D9)
                            {
                                char replacement;
                                if (DefinitionSet.keyReplacements.TryGetValue(key, out replacement))
                                {
                                    sKey = new string(new char[] { replacement });
                                }
                            }
                            else
                            {
                                sKey = sKey.Substring(1, 1);
                            }
                        }                         //if
                        element.Character = sKey;
                        if ((int)key > maxKey)
                        {
                            maxKey = (int)key;
                        }
                        notes.Add(key, element);
                    }                     // loop x
                    if (Rows[yIndex].IsShort)
                    {
                        ++shiftInRow;
                    }
                }         //loop y
                MaxKey = (Key)maxKey;
            }             //KeyboardLayout
 public KeyInfo(System.Windows.Input.Key key)
 {
     KeyName = key.ToString();
     VK_Code = System.Windows.Input.KeyInterop.VirtualKeyFromKey(key);
 }
Exemple #10
0
        private string MapKeyToString(System.Windows.Input.Key key, IntPtr inputHandle)
        {
            switch (key)
            {
            case System.Windows.Input.Key.Add:
            case System.Windows.Input.Key.Back:
            case System.Windows.Input.Key.CapsLock:
            case System.Windows.Input.Key.D0:
            case System.Windows.Input.Key.D1:
            case System.Windows.Input.Key.D2:
            case System.Windows.Input.Key.D3:
            case System.Windows.Input.Key.D4:
            case System.Windows.Input.Key.D5:
            case System.Windows.Input.Key.D6:
            case System.Windows.Input.Key.D7:
            case System.Windows.Input.Key.D8:
            case System.Windows.Input.Key.D9:
            case System.Windows.Input.Key.Delete:
            case System.Windows.Input.Key.Divide:
            case System.Windows.Input.Key.Down:
            case System.Windows.Input.Key.End:
            case System.Windows.Input.Key.Return:
            case System.Windows.Input.Key.Escape:
            case System.Windows.Input.Key.F1:
            case System.Windows.Input.Key.F10:
            case System.Windows.Input.Key.F11:
            case System.Windows.Input.Key.F12:
            case System.Windows.Input.Key.F13:
            case System.Windows.Input.Key.F14:
            case System.Windows.Input.Key.F15:
            case System.Windows.Input.Key.F16:
            case System.Windows.Input.Key.F17:
            case System.Windows.Input.Key.F18:
            case System.Windows.Input.Key.F19:
            case System.Windows.Input.Key.F2:
            case System.Windows.Input.Key.F20:
            case System.Windows.Input.Key.F21:
            case System.Windows.Input.Key.F22:
            case System.Windows.Input.Key.F23:
            case System.Windows.Input.Key.F24:
            case System.Windows.Input.Key.F3:
            case System.Windows.Input.Key.F4:
            case System.Windows.Input.Key.F5:
            case System.Windows.Input.Key.F6:
            case System.Windows.Input.Key.F7:
            case System.Windows.Input.Key.F8:
            case System.Windows.Input.Key.F9:
            case System.Windows.Input.Key.Home:
            case System.Windows.Input.Key.Insert:
            case System.Windows.Input.Key.RWin:
            case System.Windows.Input.Key.LWin:
            case System.Windows.Input.Key.Left:
            case System.Windows.Input.Key.LeftAlt:
            case System.Windows.Input.Key.RightAlt:
            case System.Windows.Input.Key.LeftCtrl:
            case System.Windows.Input.Key.RightCtrl:
            case System.Windows.Input.Key.LeftShift:
            case System.Windows.Input.Key.RightShift:
            case System.Windows.Input.Key.Multiply:
            case System.Windows.Input.Key.NumLock:
            case System.Windows.Input.Key.NumPad0:
            case System.Windows.Input.Key.NumPad1:
            case System.Windows.Input.Key.NumPad2:
            case System.Windows.Input.Key.NumPad3:
            case System.Windows.Input.Key.NumPad4:
            case System.Windows.Input.Key.NumPad5:
            case System.Windows.Input.Key.NumPad6:
            case System.Windows.Input.Key.NumPad7:
            case System.Windows.Input.Key.NumPad8:
            case System.Windows.Input.Key.NumPad9:
            case System.Windows.Input.Key.PageDown:
            case System.Windows.Input.Key.PageUp:
            case System.Windows.Input.Key.PrintScreen:
            case System.Windows.Input.Key.Right:
            case System.Windows.Input.Key.Space:
            case System.Windows.Input.Key.Subtract:
            case System.Windows.Input.Key.Tab:
            case System.Windows.Input.Key.Up:
                return("{" + key.ToString() + "}");

            default:
                return(QAliber.Engine.Win32.LowLevelInput.ConvertKeyToUnicode(key, inputHandle));
            }
        }