private void FilterTextBox_OnKeyUp(object sender, KeyRoutedEventArgs eventArgs) { if (eventArgs.Key == VirtualKey.Escape) { var buttonAutomationPeer = new ButtonAutomationPeer(DoneButton); buttonAutomationPeer.Invoke(); } }
public void Click() { // Arrange var mock = new Mock(); var button = new Button(); button.DataContext = mock; ButtonHelper.SetMethodName(button, "DoStuff"); // Act var peer = new ButtonAutomationPeer(button); var invokeProvider = peer.GetPattern(PatternInterface.Invoke) as IInvokeProvider; invokeProvider.Invoke(); // Assert Microsoft.VisualStudio.TestPlatform.UnitTestFramework.Assert.IsTrue(mock.WasButtonClicked); }
private void InvokeCommand(Button button) { try { ButtonAutomationPeer peer = new ButtonAutomationPeer(button); IInvokeProvider invokeProv = peer.GetPattern(PatternInterface.Invoke) as IInvokeProvider; invokeProv.Invoke(); //To get UI to flash update Task.Factory.StartFromCurrentUIContext(async () => { VisualStateManager.GoToState(button, "Pressed", true); await Task.Delay(75); VisualStateManager.GoToState(button, "Normal", true); }); } catch { } }
public void Click_WithButtonAndStringParameter() { // Arrange var mock = new Mock(); var button = new Button(); button.DataContext = mock; var expectedParameter = Guid.NewGuid().ToString(); ButtonHelper.SetMethodName(button, "DoStuffWithButtonAndStringParameter"); ButtonHelper.SetParameter(button, expectedParameter); // Act var peer = new ButtonAutomationPeer(button); var invokeProvider = peer.GetPattern(PatternInterface.Invoke) as IInvokeProvider; invokeProvider.Invoke(); // Assert Microsoft.VisualStudio.TestPlatform.UnitTestFramework.Assert.AreSame(button, mock.ButtonParameter, "Button Parameter"); Microsoft.VisualStudio.TestPlatform.UnitTestFramework.Assert.AreEqual(expectedParameter, mock.Parameter, "Parameter"); }
/// <summary> /// Process key presses for the input textbox /// </summary> static void textboxInput_KeyDown(object sender, Windows.UI.Xaml.Input.KeyRoutedEventArgs e) { // Did the user press a significant control key? switch (e.Key) { case Windows.System.VirtualKey.Enter: // Simulate clicking the OK button e.Handled = true; ButtonAutomationPeer peer = new ButtonAutomationPeer(_buttonOK); IInvokeProvider invokeProv = peer.GetPattern(PatternInterface.Invoke) as IInvokeProvider; invokeProv.Invoke(); break; case Windows.System.VirtualKey.Escape: // Simulate clicking the Cancel button e.Handled = true; peer = new ButtonAutomationPeer(_buttonCancel); invokeProv = peer.GetPattern(PatternInterface.Invoke) as IInvokeProvider; invokeProv.Invoke(); break; } }
void automaticRedoWaitTimer_Tick(object sender, object e) { if (automaticRedoDateTime.Second == 0) { automaticRedoWaitTimer.Stop(); automaticRedoWaitTimer.Tick -= automaticRedoWaitTimer_Tick; ButtonAutomationPeer peer = new ButtonAutomationPeer(btnGoRect); peer.Invoke(); } else { automaticRedoDateTime = automaticRedoDateTime.AddSeconds(-1); } }
private void btn_allUppercaseLetter_Click(object sender, RoutedEventArgs e) { if (allUpperLettersIsOn) { allUpperLettersIsOn = false; btn_allUppercaseLetter.Foreground = new SolidColorBrush(Colors.White); btn_allUppercaseLetter.Background = new SolidColorBrush(Colors.Gray); for (int i = 0; i < 26; i++) { ButtonAutomationPeer peer = new ButtonAutomationPeer(letterButtons[i]); peer.Invoke(); } } else { for (int i = 0; i < 26; i++) { theLetterIsOn[i] = true; letterButtons[i].Foreground = new SolidColorBrush(Colors.Yellow); letterButtons[i].Background = new SolidColorBrush(Colors.Brown); } allUpperLettersIsOn = true; btn_allUppercaseLetter.Foreground = new SolidColorBrush(Colors.Yellow); btn_allUppercaseLetter.Background = new SolidColorBrush(Colors.Brown); } int numberOfLowerOn = 0; int numberOfUpperOn = 0; for (int b = 0; b < 26; b++) { if (theLetterIsOn[b] == true) { numberOfLowerOn++; } } for (int c = 26; c < 52; c++) { if (theLetterIsOn[c] == true) { numberOfUpperOn++; } } numberOfLettersSelected = numberOfLowerOn + numberOfUpperOn; if ((numberOfLowerOn == 0 && numberOfUpperOn == 0) || (numberOfLowerOn == 0 && numberOfUpperOn == 26) || (numberOfLowerOn == 26 && numberOfUpperOn == 0) || (numberOfLowerOn == 26 && numberOfUpperOn == 26)) { tbk_selectiveLettersONOff.Text = "OFF"; tbk_selectiveLettersONOff.Foreground = new SolidColorBrush(Colors.White); } else { tbk_selectiveLettersONOff.Text = "ON"; tbk_selectiveLettersONOff.Foreground = new SolidColorBrush(Colors.LawnGreen); } }
string[] units; //array holds everything, ready to be displayed from foreach loop in string type #endregion Fields #region Constructors public NumbersLettersSymbols() { this.InitializeComponent(); #region letters for (int i = 0; i < 52; i++) { theLetterIsOn[i] = false; } letterButtons[0] = btnLetterA; letterButtons[1] = btnLetterB; letterButtons[2] = btnLetterC; letterButtons[3] = btnLetterD; letterButtons[4] = btnLetterE; letterButtons[5] = btnLetterF; letterButtons[6] = btnLetterG; letterButtons[7] = btnLetterH; letterButtons[8] = btnLetterI; letterButtons[9] = btnLetterJ; letterButtons[10] = btnLetterK; letterButtons[11] = btnLetterL; letterButtons[12] = btnLetterM; letterButtons[13] = btnLetterN; letterButtons[14] = btnLetterO; letterButtons[15] = btnLetterP; letterButtons[16] = btnLetterQ; letterButtons[17] = btnLetterR; letterButtons[18] = btnLetterS; letterButtons[19] = btnLetterT; letterButtons[20] = btnLetterU; letterButtons[21] = btnLetterV; letterButtons[22] = btnLetterW; letterButtons[23] = btnLetterX; letterButtons[24] = btnLetterY; letterButtons[25] = btnLetterZ; letterButtons[26] = btnLettera; letterButtons[27] = btnLetterb; letterButtons[28] = btnLetterc; letterButtons[29] = btnLetterd; letterButtons[30] = btnLettere; letterButtons[31] = btnLetterf; letterButtons[32] = btnLetterg; letterButtons[33] = btnLetterh; letterButtons[34] = btnLetteri; letterButtons[35] = btnLetterj; letterButtons[36] = btnLetterk; letterButtons[37] = btnLetterl; letterButtons[38] = btnLetterm; letterButtons[39] = btnLettern; letterButtons[40] = btnLettero; letterButtons[41] = btnLetterp; letterButtons[42] = btnLetterq; letterButtons[43] = btnLetterr; letterButtons[44] = btnLetters; letterButtons[45] = btnLettert; letterButtons[46] = btnLetteru; letterButtons[47] = btnLetterv; letterButtons[48] = btnLetterw; letterButtons[49] = btnLetterx; letterButtons[50] = btnLettery; letterButtons[51] = btnLetterz; #endregion #region symbols for (int i = 0; i < 10; i++) { theSymbolIsOn[i] = false; } symbolButtons[0] = btnSymbol1; symbolButtons[1] = btnSymbol2; symbolButtons[2] = btnSymbol3; symbolButtons[3] = btnSymbol4; symbolButtons[4] = btnSymbol5; symbolButtons[5] = btnSymbol6; symbolButtons[6] = btnSymbol7; symbolButtons[7] = btnSymbol8; symbolButtons[8] = btnSymbol9; symbolButtons[9] = btnSymbol10; #endregion ButtonAutomationPeer peer1 = new ButtonAutomationPeer(btn_allUppercaseLetter); ButtonAutomationPeer peer11 = new ButtonAutomationPeer(btnSymbol1); ButtonAutomationPeer peer12 = new ButtonAutomationPeer(btnSymbol2); ButtonAutomationPeer peer13 = new ButtonAutomationPeer(btnSymbol3); ButtonAutomationPeer peer14 = new ButtonAutomationPeer(btnSymbol4); ButtonAutomationPeer peer15 = new ButtonAutomationPeer(btnSymbol5); ButtonAutomationPeer peer16 = new ButtonAutomationPeer(btnSymbol6); ButtonAutomationPeer peer17 = new ButtonAutomationPeer(btnSymbol7); ButtonAutomationPeer peer18 = new ButtonAutomationPeer(btnSymbol8); ButtonAutomationPeer peer19 = new ButtonAutomationPeer(btnSymbol9); ButtonAutomationPeer peer20 = new ButtonAutomationPeer(btnSymbol10); peer1.Invoke(); peer11.Invoke(); peer12.Invoke(); peer13.Invoke(); peer14.Invoke(); peer15.Invoke(); peer16.Invoke(); peer17.Invoke(); peer18.Invoke(); peer19.Invoke(); peer20.Invoke(); automaticRedoWaitTimer.Interval = TimeSpan.FromSeconds(1); mostfontsizeTimer.Interval = TimeSpan.FromMilliseconds(20); mostfontsizeTimer.Tick += fontsizeTimer_Tick; mostfontsizeTimer.Start(); }
public void PeerCheckBoxClick() { ButtonAutomationPeer peer = new ButtonAutomationPeer(Next); IInvokeProvider invokeProv = peer.GetPattern(PatternInterface.Invoke) as IInvokeProvider; invokeProv.Invoke(); }
/// <summary> /// /// </summary> public async void ConditionalBackwardReport() { if (page >= 0) { if (reportListIndex.IndexOf(selectedNumber) - 1 >= 0) { await ShowReportPopup((reportObjectList[reportListIndex.IndexOf(selectedNumber) - 1].ReportId).ToString(), false); } else if (reportListIndex.IndexOf(selectedNumber) - 1 < 0) { if (Previous.Visibility == Visibility.Visible) { ButtonAutomationPeer peer = new ButtonAutomationPeer(Previous); peer.Invoke(); ReportPopupProgressBar.Visibility = Visibility.Visible; await Task.Delay(5000); await ShowReportPopup((reportObjectList[reportObjectList.Count - 1].ReportId).ToString(), false); ReportPopupProgressBar.Visibility = Visibility.Collapsed; } else { NotifyUser("BEGINNING OF REPORTS", SIUC311.NotifyType.QueueMessage); } } } }
/// <summary> /// /// </summary> public async void ConditionalForwardReport() { if (page <= lastPage) { if (reportListIndex.IndexOf(selectedNumber) + 1 < reportListIndex.Count) { await ShowReportPopup((reportObjectList[reportListIndex.IndexOf(selectedNumber) + 1].ReportId).ToString(), false); } else { if (Next.Visibility == Visibility.Visible) { ButtonAutomationPeer peer = new ButtonAutomationPeer(Next); peer.Invoke(); ReportPopupProgressBar.Visibility = Visibility.Visible; await Task.Delay(1000); await ShowReportPopup((reportObjectList[0].ReportId).ToString(), false); ReportPopupProgressBar.Visibility = Visibility.Collapsed; } else { NotifyUser("END OF REPORTS", SIUC311.NotifyType.QueueMessage); } } } }
//Set up AI private void computerTurn() { // My Priority Logic // Priority 1: Get Tic Tac Toe // Priority 2: Block Tic Tac Toe // Priority 3: Corner Space // Priority 4: Open Space Button move = null; //Try Tic Tac Toe move = winOrBlockTry("O"); if (move == null) { move = winOrBlockTry("X"); if (move == null) { move = cornertry(); if (move == null) { move = openSpaceTry(); }//end if }// end if }// end if // move.Tag = move.GetType(); // string play = move.Tag.ToString(); if (thereIsAWinner == false) { if (move == null) { } else { ButtonAutomationPeer peer = new ButtonAutomationPeer(move); IInvokeProvider invokeProv = peer.GetPattern(PatternInterface.Invoke) as IInvokeProvider; invokeProv.Invoke(); } } else { } }
public ToolBarButton() { this.DefaultStyleKey = typeof(ToolBarButton); this.peer = new ButtonAutomationPeer(this); new PropertyChangeEventSource<object>(this, "Content").ValueChanged += (s, e) => this.UpdateToolTip(); }
private void btnAnswer_Click(object sender, RoutedEventArgs e) { tbkNumberOfCardsRemaining.Opacity = 0; btnAnswer.Visibility = Windows.UI.Xaml.Visibility.Collapsed; if (captionOn) { tbkAnalysis.Opacity = 1; } else { tbkAnalysis.Opacity = 0; } if (numberOfWrongAnswer == 2) { int indexToPlaceUserScore = -1; int[] secondArrayToMakeLifeEasier = new int[5]; Array.Copy(highScores, secondArrayToMakeLifeEasier, 5); //find where to place the score for (int i = 0; i < 5; i++) { if (initialNumberOfCards - 1 > highScores[i]) { indexToPlaceUserScore = i; break; } } if (indexToPlaceUserScore != -1) { secondArrayToMakeLifeEasier[indexToPlaceUserScore] = (initialNumberOfCards - 1); //secondArrayToMakeLifeEasier contains new highscores for (int j = indexToPlaceUserScore + 1; j < 5; j++) { secondArrayToMakeLifeEasier[j] = highScores[j - 1]; } //we now provide highScores with the values in secondArrayToMakeLifeEasier for (int k = 0; k < 5; k++) { highScores[k] = secondArrayToMakeLifeEasier[k]; } } //we now store the values in highScores into our app data applicationDataContainer.Values["HighScore1_Card"] = highScores[0]; applicationDataContainer.Values["HighScore2_Card"] = highScores[1]; applicationDataContainer.Values["HighScore3_Card"] = highScores[2]; applicationDataContainer.Values["HighScore4_Card"] = highScores[3]; applicationDataContainer.Values["HighScore5_Card"] = highScores[4]; tbkAnalysis.Opacity = 1; tbkAnalysis.Text = "The test is now finished. \n Maximum number of cards memorized: " + (initialNumberOfCards - 1).ToString(); btnAnswer.Visibility = Windows.UI.Xaml.Visibility.Collapsed; btnAnswerNow.Visibility = Windows.UI.Xaml.Visibility.Collapsed; } else { bool addOneMoreUnit = true; tbkAnalysis.Text = ""; for (int i = 0; i < list_orderOfCardsPressed.Count; i++) //we base this for loop on the number of cards user pressed { if (list_orderOfCardsPressed[i] == list_orderOfCardsShown[i]) { tbkAnalysis.Text += "\nCard " + (i + 1).ToString() + ": Correct"; list_textBlocks[i].Foreground = new SolidColorBrush(Colors.Green); } else { tbkAnalysis.Text += "\nCard " + (i + 1).ToString() + ": Incorrect"; list_textBlocks[i].Foreground = new SolidColorBrush(Colors.Red); addOneMoreUnit = false; } } //if the user pressed a fewer number of cards than was shown, the check_tbkCheck writes "Missed" for (int i = list_orderOfCardsPressed.Count; i < list_orderOfCardsShown.Count; i++) { tbkAnalysis.Text += "\nCard " + (i + 1).ToString() + ": Missed"; addOneMoreUnit = false; } if (addOneMoreUnit) { initialNumberOfCards++; numberOfWrongAnswer = 0; } else { numberOfWrongAnswer++; } if (numberOfWrongAnswer == 2) { ButtonAutomationPeer peer = new ButtonAutomationPeer(btnAnswer); peer.Invoke(); } else { dateTimeBreak = dateTimeBreak.AddSeconds(4); dispatcherTimerBreak.Tick += dispatcherTimerBreak_Tick; dispatcherTimerBreak.Start(); } } }
private void TxtPassword_KeyDown(object sender, KeyRoutedEventArgs e) { if (e.Key == VirtualKey.Enter) { e.Handled = true; btnLogin.Focus(FocusState.Programmatic); ButtonAutomationPeer buttonPeer = new ButtonAutomationPeer(btnLogin); IInvokeProvider invokeProvider = (IInvokeProvider)buttonPeer.GetPattern(PatternInterface.Invoke); Debug.Assert(invokeProvider != null); invokeProvider.Invoke(); } }