Exemple #1
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class MyForm(QtGui.QMainWindow):
    def __init__(self, parent=None):
        QtGui.QMainWindow.__init__(self, parent)
        self.ui = Ui_MainWindow()
        self.ui.setupUi(self)
        self.ui.find_button.clicked.connect(self.retrieve_data)
        self.ui.pair_button.clicked.connect(self.pair_cases)
        self.ui.button_update.clicked.connect(self.update_data)
        self.ui.button_del.clicked.connect(self.delete_data)
        self.ui.button_off.clicked.connect(self.add_detective)

    def pair_cases(self):
        self.pair = pair_win()
        self.pair.show()

    def retrieve_data(self):
        self.retrieve = retrieve_win()
        self.retrieve.show()

    def update_data(self):
        self.update = update_win()
        self.update.show()

    def delete_data(self):
        self.delete_w = delete_win()
        self.delete_w.show()

    def add_detective(self):
        self.detective = detective_win()
        self.detective.show()
Exemple #2
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 def __init__(self):
     super(MainWindow, self).__init__()
     self.ui = Ui_MainWindow()
     self.ui.setupUi(self)
     self.setWindowTitle("骚话王阿福")
     self.ui.pushButton.clicked.connect(self.btn_clicked)
     self.ui.action_2.triggered.connect(self.about_clicked)
Exemple #3
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	def __init__(self, parent=None):
		QtGui.QWidget.__init__(self, parent)
		# setup ui
		self.ui = Ui_MainWindow()
		self.ui.setupUi(self)
		# read namespace
		self.namespace = utils.read_ini()
		# other attributes
		self.dirname = None
		self.datapath = None
		self.jss = None           # None, or PBS/LSF
		self.datapathtype = True  # True: dir--runs_dir--datafile  False: dir--datafile
		self.data_format = None  # see self.namespace['data_format']
		self.num_running_jobs = 0
		# process_data is table infomation, the keys are run number, and first column stores raw data path
		# , other columns are consistent with tableWidget
		self.columnCount = self.ui.tableWidget.columnCount()
		self.process_data = None
		self.rawdata_changelog = None
		self.JobCenter = None
		# tag_buffer is {assignments:{run_name:tag_remarks}, ...}
		self.tag_buffer = None
		# setup triggers
		self.ui.tableWidget.setEditTriggers(QtGui.QAbstractItemView.NoEditTriggers)
		self.ui.comboBox_2.currentIndexChanged.connect(self.js_changed)
		self.ui.comboBox.currentIndexChanged.connect(self.assignments_changed)
		self.ui.comboBox_3.currentIndexChanged.connect(self.decomp_changed)
		self.ui.pushButton.clicked.connect(self.view_job)
		# self.ui.pushButton_2.clicked.connect(self.view_history)
		self.ui.pushButton_3.clicked.connect(partial(process.parameters_setting, self))
		self.ui.pushButton_6.clicked.connect(self.refresh_table)
		self.ui.checkBox_3.stateChanged.connect(self.autorefresh)
		self.ui.tableWidget.customContextMenuRequested.connect(self.table_menu)
		self.ui.tableWidget.cellDoubleClicked.connect(self.cell_dclicked)
Exemple #4
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 def __init__(self, parent=None):
     QtGui.QMainWindow.__init__(self, parent)
     self.ui = Ui_MainWindow()
     self.ui.setupUi(self)
     self.ui.find_button.clicked.connect(self.retrieve_data)
     self.ui.pair_button.clicked.connect(self.pair_cases)
     self.ui.button_update.clicked.connect(self.update_data)
     self.ui.button_del.clicked.connect(self.delete_data)
     self.ui.button_off.clicked.connect(self.add_detective)
    def __init__(self):
        QMainWindow.__init__(self)
        Ui_MainWindow.__init__(self)
        self.setupUi(self)

        # event
        self.btnGenerate.clicked.connect(self.btnGenerate_Clicked)
        self.btnFind.clicked.connect(self.btnFind_Clicked)
        self.cbxShowSteps.stateChanged.connect(self.cbxShowSteps_Clicked)
        self.lineEditPoint.textChanged.connect(self.lineEditPoint_TextChanged)
        self.lineEditLine.textChanged.connect(self.lineEditLine_TextChanged)

        self.countPoints = self.lineEditPoint.text()
        self.countLines = self.lineEditLine.text()
    def __init__(self):
        QMainWindow.__init__(self)
        Ui_MainWindow.__init__(self)
        self.setupUi(self)

        # event
        self.btnGenerate.clicked.connect(self.btnGenerate_Clicked)
        self.btnFind.clicked.connect(self.btnFind_Clicked)
        self.cbxShowSteps.stateChanged.connect(self.cbxShowSteps_Clicked)
        self.lineEditPoint.textChanged.connect(self.lineEditPoint_TextChanged)
        self.lineEditLine.textChanged.connect(self.lineEditLine_TextChanged)

        self.countPoints = self.lineEditPoint.text()
        self.countLines = self.lineEditLine.text()

        self.RADIUS = 20
        self.RADIUS2 = self.RADIUS * 2
        self.RADIUS3 = self.RADIUS + 3
        self.SIZE = 150
        self.countPoint, self.countLine, self.countStep, self.maxStep = 0, 0, 0, 0
        self.newDistance, self.listSteps, self.listPath = [], [], []
        self.points = [QPoint(0, 0) for i in range(20)]
        self.listLine = [QPoint(0, 0) for i in range(400)]
        self.distance = np.empty((20, 20), dtype=object)
        self.lines = np.empty((20, 20), dtype=Pair)
        self.start, self.end = -1, -1
        self.isDone, self.isFounded = False, False
        self.chooseState = 0
        self.textChoose = [
            'vuongdq85', 'Choose point start...', 'Choose point end...'
        ]

        pen = QPen(Qt.black, 2)
        penStart = QPen(Qt.darkGreen, 4)
        penDest = QPen(Qt.darkRed, 4)

        pencil = QPen(Qt.red, 4)

        # draw canvas
        self.scene = QGraphicsScene()
        self.scene.addLine(400, 100, 100, 100, pencil)
        self.graphicsViewPaint.setScene(self.scene)

        #
        self.reset()
        self.generate()
Exemple #7
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    def __init__(self):
        """ def __init__(self): -> QMainWindow
        initialize the main gui """

        # init super; main window
        QMainWindow.__init__(self)
        self.ui = Ui_MainWindow()
        self.ui.setupUi(self)

        # remove title bar
        self.setWindowFlag(QtCore.Qt.FramelessWindowHint)
        self.setAttribute(QtCore.Qt.WA_TranslucentBackground)

        # hide unrequited gui components
        self.ui.disable_background_frame.hide()
        self.ui.downloading_frame.hide()
        self.ui.error_frame.hide()
        self.ui.download_button.setEnabled(False)

        # import shadows
        self.ss = ui_shadows

        # set shadows
        self.ui.main_frame.setGraphicsEffect(self.ss.main_window_shadow)
        self.ui.error_frame.setGraphicsEffect(self.ss.error_frame_shadow)
        self.ui.downloading_frame.setGraphicsEffect(
            self.ss.download_frame_shadow)

        # connect buttons to functions
        self.ui.save_path_button.clicked.connect(self.openSavePath)
        self.ui.refresh_video_preview_button.clicked.connect(self.getVideoData)
        self.ui.close_button.clicked.connect(self.closeProgram)
        self.ui.download_button.clicked.connect(self.downloadVideoTest)
        self.ui.mp3_radio_button.clicked.connect(self.videoTypeAudio)
        self.ui.mp4_radio_button.clicked.connect(self.videoTypeVideo)
        self.ui.close_error_frame_button.clicked.connect(self.closeErrorFrame)
        self.ui.button_240p.clicked.connect(self.setQuality240p)
        self.ui.button_360p.clicked.connect(self.setQuality360p)
        self.ui.button_480p.clicked.connect(self.setQuality480p)
        self.ui.button_720p.clicked.connect(self.setQuality720p)
        self.ui.button_1080p.clicked.connect(self.setQuality1080p)

        # on line edit edited
        self.ui.video_link_line_edit.textEdited.connect(self.checkFolderValid)
Exemple #8
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class MainWindow(QtWidgets.QMainWindow):
    def __init__(self):
        super(MainWindow, self).__init__()
        self.ui = Ui_MainWindow()
        self.ui.setupUi(self)
        self.setWindowTitle("骚话王阿福")
        self.ui.pushButton.clicked.connect(self.btn_clicked)
        self.ui.action_2.triggered.connect(self.about_clicked)

    def btn_clicked(self):
        with open(r'dict_cn_en.txt', 'r', encoding='utf-8') as fp:
            all_words_list = fp.readlines()

        random_index = random.randint(0, len(all_words_list))
        self.ui.textBrowser.setText(all_words_list[random_index])

    def about_clicked(self):
        self.new_dialog = AboutDialog()
        self.new_dialog.show()
    def login(self):
        correct_user_name = "HOTEL"  #User name
        correct_password = "******"  #Password

        user_name = self.txt_user_name.text()
        password = self.txt_password.text()
        if (user_name == correct_user_name and password == correct_password):

            Dialog.hide()

            self.window = QtWidgets.QMainWindow()
            self.ui1 = Ui_MainWindow()
            self.ui1.setupUi(self.window)
            self.window.show()

        elif (user_name == correct_user_name):
            self.txt_password.setText("")
            msg = QMessageBox()
            msg.setWindowTitle("Error")
            msg.setText("Wrong Password")
            msg.setIcon(QMessageBox.Critical)
            msg.exec_()
        elif (password == correct_password):
            self.txt_user_name.setText("")
            msg = QMessageBox()
            msg.setWindowTitle("Error")
            msg.setText("Wrong Username")
            msg.setIcon(QMessageBox.Critical)
            msg.exec_()
        else:
            self.txt_user_name.setText("")
            self.txt_password.setText("")
            msg = QMessageBox()
            msg.setWindowTitle("Error")
            msg.setText("Wrong Username\nWrong Password")
            msg.setIcon(QMessageBox.Critical)
            msg.exec_()
    def __init__(self, parent=None):
        """
        Initialize the Planetary System LRGB Aligner environment.

        :param parent: None
        """

        # The (generated) QtGui class is contained in module main_gui.py.
        QtWidgets.QWidget.__init__(self, parent)
        self.ui = Ui_MainWindow()
        self.ui.setupUi(self)

        # Insert the photo viewer into the main GUI.
        self.ImageWindow = PhotoViewer(self)
        self.ImageWindow.setObjectName("ImageWindow")
        self.ui.verticalLayout_3.insertWidget(1, self.ImageWindow, stretch=1)

        # Connect main GUI events with method invocations.
        self.ui.buttonLoadBW.clicked.connect(self.load_bw_image)
        self.ui.buttonLoadColor.clicked.connect(self.load_color_image)
        self.ui.buttonRegistration.clicked.connect(self.compute_registration)
        self.ui.buttonComputeLRGB.clicked.connect(self.compute_lrgb)
        self.ui.buttonSetConfigParams.clicked.connect(self.edit_configuration)
        self.ui.buttonSaveRegisteredColorImage.clicked.connect(
            self.save_registered_image)
        self.ui.buttonSaveLRGB.clicked.connect(self.save_lrgb_image)
        self.ui.buttonExit.clicked.connect(self.closeEvent)

        self.ui.radioShowBW.clicked.connect(
            lambda: self.show_pixmap(pixmap_index=0))
        self.ui.radioShowColorOrig.clicked.connect(
            lambda: self.show_pixmap(pixmap_index=1))
        self.ui.radioShowColorRigidTransform.clicked.connect(
            lambda: self.show_pixmap(pixmap_index=2))
        self.ui.radioShowMatches.clicked.connect(
            lambda: self.show_pixmap(pixmap_index=3))
        self.ui.radioShowColorOptFlow.clicked.connect(
            lambda: self.show_pixmap(pixmap_index=4))
        self.ui.radioShowLRGB.clicked.connect(
            lambda: self.show_pixmap(pixmap_index=5))

        # Initialize the path to the home directory.
        self.current_dir = str(Path.home())

        # Initialize instance variables.
        self.image_reference = None
        self.image_reference_8bit_gray = None
        self.image_target = None
        self.image_target_8bit_gray = None
        self.image_dewarped = None
        self.image_lrgb = None
        self.pixmaps = [None, None, None, None, None, None]
        self.current_pixmap_index = None

        # Initialize status variables
        self.status_list = [
            False, False, False, False, False, False, False, False
        ]
        self.status_pointer = {
            "initialized": 0,
            "bw_loaded": 1,
            "color_loaded": 2,
            "rigid_transformed": 3,
            "optical_flow_computed": 4,
            "lrgb_computed": 5,
            "results_saved": 6
        }

        self.radio_buttons = [
            self.ui.radioShowBW,  # 0
            self.ui.radioShowColorOrig,  # 1
            self.ui.radioShowColorRigidTransform,  # 2
            self.ui.radioShowMatches,  # 3
            self.ui.radioShowColorOptFlow,  # 4
            self.ui.radioShowLRGB
        ]  # 5

        self.control_buttons = [
            self.ui.buttonSetConfigParams,  # 0
            self.ui.buttonLoadBW,  # 1
            self.ui.buttonLoadColor,  # 2
            self.ui.buttonRegistration,  # 3
            self.ui.buttonSaveRegisteredColorImage,  # 4
            self.ui.buttonComputeLRGB,  # 5
            self.ui.buttonSaveLRGB,  # 6
            self.ui.buttonExit
        ]  # 7

        self.max_button = [0, 1, 2, 4, 5, 6, 6]
        self.max_control_button = [2, 3, 4, 4, 6, 7, 8]

        self.status_busy = False

        # Create configuration object and set configuration parameters to standard values.
        self.configuration = Configuration()

        # Write the program version into the window title.
        self.setWindowTitle(self.configuration.version)

        # Start the workflow thread. It controls the computations and control of external devices.
        # By decoupling those activities from the main thread, the GUI is kept from freezing during
        # long-running activities.
        self.workflow = Workflow(self)
        sleep(self.configuration.wait_for_workflow_initialization)

        # The workflow thread sends signals during computations. Connect those signals with the
        # appropriate GUI activity.
        self.workflow.set_status_busy_signal.connect(self.set_busy)
        self.workflow.set_status_signal.connect(self.set_status)
        self.workflow.set_error_signal.connect(self.show_error_message)

        # Reset downstream status flags.
        self.set_status(0)
class LrgbAligner(QtWidgets.QMainWindow):
    """
    This class is the main class of the "Planetary System LRGB Aligner" software. It implements
    the main GUI for the communication with the user. It creates the workflow thread which controls
    all program activities asynchronously.

    """
    def __init__(self, parent=None):
        """
        Initialize the Planetary System LRGB Aligner environment.

        :param parent: None
        """

        # The (generated) QtGui class is contained in module main_gui.py.
        QtWidgets.QWidget.__init__(self, parent)
        self.ui = Ui_MainWindow()
        self.ui.setupUi(self)

        # Insert the photo viewer into the main GUI.
        self.ImageWindow = PhotoViewer(self)
        self.ImageWindow.setObjectName("ImageWindow")
        self.ui.verticalLayout_3.insertWidget(1, self.ImageWindow, stretch=1)

        # Connect main GUI events with method invocations.
        self.ui.buttonLoadBW.clicked.connect(self.load_bw_image)
        self.ui.buttonLoadColor.clicked.connect(self.load_color_image)
        self.ui.buttonRegistration.clicked.connect(self.compute_registration)
        self.ui.buttonComputeLRGB.clicked.connect(self.compute_lrgb)
        self.ui.buttonSetConfigParams.clicked.connect(self.edit_configuration)
        self.ui.buttonSaveRegisteredColorImage.clicked.connect(
            self.save_registered_image)
        self.ui.buttonSaveLRGB.clicked.connect(self.save_lrgb_image)
        self.ui.buttonExit.clicked.connect(self.closeEvent)

        self.ui.radioShowBW.clicked.connect(
            lambda: self.show_pixmap(pixmap_index=0))
        self.ui.radioShowColorOrig.clicked.connect(
            lambda: self.show_pixmap(pixmap_index=1))
        self.ui.radioShowColorRigidTransform.clicked.connect(
            lambda: self.show_pixmap(pixmap_index=2))
        self.ui.radioShowMatches.clicked.connect(
            lambda: self.show_pixmap(pixmap_index=3))
        self.ui.radioShowColorOptFlow.clicked.connect(
            lambda: self.show_pixmap(pixmap_index=4))
        self.ui.radioShowLRGB.clicked.connect(
            lambda: self.show_pixmap(pixmap_index=5))

        # Initialize the path to the home directory.
        self.current_dir = str(Path.home())

        # Initialize instance variables.
        self.image_reference = None
        self.image_reference_8bit_gray = None
        self.image_target = None
        self.image_target_8bit_gray = None
        self.image_dewarped = None
        self.image_lrgb = None
        self.pixmaps = [None, None, None, None, None, None]
        self.current_pixmap_index = None

        # Initialize status variables
        self.status_list = [
            False, False, False, False, False, False, False, False
        ]
        self.status_pointer = {
            "initialized": 0,
            "bw_loaded": 1,
            "color_loaded": 2,
            "rigid_transformed": 3,
            "optical_flow_computed": 4,
            "lrgb_computed": 5,
            "results_saved": 6
        }

        self.radio_buttons = [
            self.ui.radioShowBW,  # 0
            self.ui.radioShowColorOrig,  # 1
            self.ui.radioShowColorRigidTransform,  # 2
            self.ui.radioShowMatches,  # 3
            self.ui.radioShowColorOptFlow,  # 4
            self.ui.radioShowLRGB
        ]  # 5

        self.control_buttons = [
            self.ui.buttonSetConfigParams,  # 0
            self.ui.buttonLoadBW,  # 1
            self.ui.buttonLoadColor,  # 2
            self.ui.buttonRegistration,  # 3
            self.ui.buttonSaveRegisteredColorImage,  # 4
            self.ui.buttonComputeLRGB,  # 5
            self.ui.buttonSaveLRGB,  # 6
            self.ui.buttonExit
        ]  # 7

        self.max_button = [0, 1, 2, 4, 5, 6, 6]
        self.max_control_button = [2, 3, 4, 4, 6, 7, 8]

        self.status_busy = False

        # Create configuration object and set configuration parameters to standard values.
        self.configuration = Configuration()

        # Write the program version into the window title.
        self.setWindowTitle(self.configuration.version)

        # Start the workflow thread. It controls the computations and control of external devices.
        # By decoupling those activities from the main thread, the GUI is kept from freezing during
        # long-running activities.
        self.workflow = Workflow(self)
        sleep(self.configuration.wait_for_workflow_initialization)

        # The workflow thread sends signals during computations. Connect those signals with the
        # appropriate GUI activity.
        self.workflow.set_status_busy_signal.connect(self.set_busy)
        self.workflow.set_status_signal.connect(self.set_status)
        self.workflow.set_error_signal.connect(self.show_error_message)

        # Reset downstream status flags.
        self.set_status(0)

    def edit_configuration(self):
        """
        This method is invoked with the "Set configuration parameters" GUI button. Open the
        configuration editor. If the configuration is changed, reset the workflow status to
        invalidate the computations done so far.

        :return: -
        """

        editor = ConfigurationEditor(self.configuration)
        editor.exec_()
        if editor.configuration_changed:
            # If parameters have changed, a new alignment has to be computed. If both images are
            # available, set process status to 2.
            if self.current_status > 2:
                self.set_status(2)

    def load_bw_image(self):
        """
        Load the B/W reference image from a file. Keep it together with a grayscale version.

        :return: -
        """

        try:
            self.image_reference, self.image_reference_8bit_gray, self.image_reference_8bit_color = \
                self.load_image("Load B/W reference image", 0, color=False)
            self.ui.radioShowBW.setChecked(True)

            # Set the index of the image viewer to the B/W image. The pixmap with this index will
            # be loaded into the viewer with the "set_status" method.
            self.current_pixmap_index = 0
            self.set_status(1)
        except Exception as e:
            self.show_error_message(
                "Error in reading B/W image. Detailed message: " + str(e))

    def load_color_image(self):
        """
        Load the color target image from a file. Keep it together with a grayscale version.

        :return: -
        """

        try:
            self.image_target, self.image_target_8bit_gray, self.image_target_8bit_color = \
                self.load_image("Load color image to be registered", 1, color=True)
            self.ui.radioShowColorOrig.setChecked(True)
            self.current_pixmap_index = 1
            self.set_status(2)
        except Exception as e:
            self.show_error_message(
                "Error in reading color image. Detailed message: " + str(e))

    def load_image(self, message, pixmap_index, color=False):
        """
        Read an image from a file. Convert it to color mode if optional parameter is set to True.

        :param pixmap_index: Index into the list of pixel maps used to show images in GUI.
        :param color: If True, convert image to color mode. If False, convert it to grayscale.
        :return: 3-tupel with numpy arrays with image data in three versions:
            - Original depth and color / grayscale
            - 8bit grayscale
            - 8bit color
        """

        options = QtWidgets.QFileDialog.Options()
        filename = QtWidgets.QFileDialog.getOpenFileName(
            self,
            message,
            self.current_dir,
            "Images (*.tif *.tiff *.png *.jpg)",
            options=options)
        file_name = filename[0]
        if file_name == '':
            raise Exception("File dialog aborted")

        # Remember the current directory for next file dialog.
        self.current_dir = str(Path(file_name).parents[0])
        if color:
            image_read = cv2.imread(file_name, cv2.IMREAD_UNCHANGED)
            if image_read.dtype == np.uint16:
                image_read_8bit_color = (image_read / 256).astype('uint8')
            else:
                image_read_8bit_color = image_read
            image_read_8bit_gray = cv2.cvtColor(image_read_8bit_color,
                                                cv2.COLOR_BGR2GRAY)
        else:
            image_read = cv2.imread(file_name, cv2.IMREAD_ANYDEPTH)
            # If color image, convert to grayscale.
            if len(image_read.shape) == 3:
                image_read = cv2.cv2.cvtColor(image_read,
                                              cv2.COLOR_BayerRG2GRAY)
            if image_read.dtype == np.uint16:
                image_read_8bit_gray = cv2.convertScaleAbs(image_read,
                                                           alpha=(255.0 /
                                                                  65535.0))
            else:
                image_read_8bit_gray = image_read
            image_read_8bit_color = cv2.cvtColor(image_read_8bit_gray,
                                                 cv2.COLOR_GRAY2BGR)

        # Convert image into QT pixmel map, store it in list and load it into GUI viewer.
        self.pixmaps[pixmap_index] = self.create_pixmap(image_read_8bit_color)
        self.ImageWindow.setPhoto(self.pixmaps[pixmap_index])
        self.ImageWindow.fitInView()
        return image_read, image_read_8bit_gray, image_read_8bit_color

    def create_pixmap(self, cv_image):
        """
        Transform an image in OpenCV color representation (BGR) into a QT pixmap

        :param cv_image: Image array
        :return: QT QPixmap object
        """

        return QtGui.QPixmap(
            QtGui.QImage(cv_image, cv_image.shape[1], cv_image.shape[0],
                         cv_image.shape[1] * 3,
                         QtGui.QImage.Format_RGB888).rgbSwapped())

    def show_pixmap(self, pixmap_index=None):
        """
        Load a pixmap into the GUI image viewer. Adapt the view scale according to the relative
        sizes of the new and old pixmaps.

        :param pixmap_index: Index of the selected pixmap in the list. If not selected, the
                             current index is taken.
        :return: -
        """

        if pixmap_index is None:
            pixmap_index = self.current_pixmap_index

        if self.pixmaps[pixmap_index] is not None:
            self.current_pixmap_index = pixmap_index

            # Get the ratio of old pixmap and viewport sizes.
            factor_old = self.ImageWindow.fitInView(scale=False)

            # Load the new pixmap.
            self.ImageWindow.setPhoto(self.pixmaps[pixmap_index])

            # Get the ratio of new pixmap and viewport sizes.
            factor_new = self.ImageWindow.fitInView(scale=False)

            if factor_old is not None:
                # Scale the view by the relative size factors.
                factor = factor_new / factor_old
                self.ImageWindow.scale(factor, factor)

    def compute_registration(self):
        """
        If both B/W and color images are available, start the registration process.

        :return: -
        """

        if self.image_reference is not None and self.image_target is not None:
            # Tell the workflow thread to compute a new alignment.
            self.workflow.compute_alignment_flag = True

    def compute_lrgb(self):
        """
        If both B/W and color images are available, start the registration process.

        :return: -
        """

        if self.image_reference is not None and self.image_dewarped is not None:
            # Tell the workflow thread to compute a new alignment.
            self.workflow.compute_lrgb_flag = True

    def save_registered_image(self):
        """
        Open a file chooser dialog and save the de-warped image.

        :return: -
        """

        try:
            self.save_image(
                "Select location to store the registered color image",
                self.image_dewarped)
            # Udpate the status line.
            self.set_status(6)
        except:
            pass

    def save_lrgb_image(self):
        """
        Open a file chooser dialog and save the combined LRBG image.

        :return: -
        """

        try:
            self.save_image("Select location to store the combined LRGB image",
                            self.image_lrgb)
            # Udpate the status line.
            self.set_status(6)
        except:
            pass

    def save_image(self, message, image):
        """
        Open a file chooser. If a valid file name is selected, store the image to that location.

        :param message: Text to be displayed in the file chooser window.
        :param image: Image file
        :return: -
        """

        options = QtWidgets.QFileDialog.Options()
        filename = QtWidgets.QFileDialog.getSaveFileName(
            self,
            message,
            self.current_dir,
            "Images (*.tif *.tiff *.png *.jpg)",
            options=options)
        # Store image only if the chooser did not return with a cancel.
        file_name = filename[0]
        if file_name != "":
            my_file = Path(file_name)
            # Remember the current directory for next file dialog.
            self.current_dir = str(my_file.parents[0])
            if my_file.is_file():
                os.remove(str(my_file))
            if my_file.suffix == '.tif' or my_file.suffix == '.tiff':
                cv2.imwrite(file_name, image)
            elif image.dtype == np.uint16:
                image_8bit = (image / 256).astype('uint8')
                cv2.imwrite(file_name, image_8bit)
            else:
                cv2.imwrite(file_name, image)

        else:
            raise Exception("File dialog aborted")

    def set_busy(self, busy):
        """
        Set the "busy" status flag and update the status bar.

        :param busy: True, if the workflow thread is active in a computation. False, otherwise.
        :return: -
        """

        if busy:
            for button in self.control_buttons[0:7]:
                button.setEnabled(False)
        else:
            self.set_status(self.current_status)
        self.status_busy = busy
        self.set_statusbar()

    def set_status(self, status):
        """
        Enable radio buttons to show images in GUI and set the status bar according to the
        workflow status.

        :param status: Status variable
        :return: -
        """

        # Store current status.
        self.current_status = status

        # Set the current status.
        self.status_list[status] = True

        # Reset all downstream status variables to False.
        self.status_list[status +
                         1:] = [False] * (len(self.status_list) - status - 1)

        if status != 6:
            # Enable radio buttons which can be used at this point:
            for button in self.radio_buttons[:self.max_button[status]]:
                button.setEnabled(True)
            # Disable the radio buttons for showing images which do not exist at this point.
            for button in self.radio_buttons[self.max_button[status]:]:
                button.setEnabled(False)

            if not self.status_busy:
                # Enable control buttons which can be used at this point:
                for button in self.control_buttons[:self.
                                                   max_control_button[status]]:
                    button.setEnabled(True)
                # Disable the control buttons which do not make sense at this point.
                for button in self.control_buttons[
                        self.max_control_button[status]:-1]:
                    button.setEnabled(False)

        if self.configuration.skip_rigid_transformation:
            self.ui.radioShowColorRigidTransform.setEnabled(False)
            self.ui.radioShowMatches.setEnabled(False)
        if self.configuration.skip_optical_flow:
            self.ui.radioShowColorOptFlow.setEnabled(False)

        # Refresh the image viewer.
        if self.current_pixmap_index is not None:
            self.show_pixmap()

        # Update the status bar.
        self.set_statusbar()

    def set_statusbar(self):
        """
        The status bar at the bottom of the main GUI summarizes various infos on the process status.
        Read out flags to decide which infos to present. The status information is concatenated into
        a single "status_text" which eventually is written into the main GUI status bar.

        :return: -
        """

        status_text = ""

        # Tell if input images are loaded.
        if self.status_list[self.status_pointer["initialized"]]:
            status_text += "Process initialized"

        # Tell if input images are loaded.
        if self.status_list[self.status_pointer["bw_loaded"]]:
            if self.status_list[self.status_pointer["color_loaded"]]:
                status_text += ", B/W reference and color frames loaded"
            else:
                status_text += ", B/W reference frame loaded"

        # Tell if rigid transformation is done.
        if not self.configuration.skip_rigid_transformation:
            if self.status_list[self.status_pointer["rigid_transformed"]]:
                status_text += ", rigid transformation computed"
        # Tell if optical flow has been computed.
        if not self.configuration.skip_optical_flow:
            if self.status_list[self.status_pointer["optical_flow_computed"]]:
                status_text += ", images pixel-wise aligned"

        # Tell if the LRGB image is computed.
        if self.status_list[self.status_pointer["lrgb_computed"]]:
            status_text += ", LRGB image computed"

        # Tell if results are written to disk.
        if self.status_list[self.status_pointer["results_saved"]]:
            status_text += ", results written to disk"

        # Tell if the workflow thread is busy at this point.
        if self.status_busy:
            status_text += ", busy"

        # Write the complete message to the status bar.
        self.ui.statusbar.showMessage(status_text)

    def show_error_message(self, message):
        """
        Show an error message. This method is invoked from the workflow thread via the
        "set_error_signal" signal.

        :param message: Error message to be displayed
        :return: -
        """

        error_dialog = QtWidgets.QErrorMessage(self)
        error_dialog.setMinimumSize(400, 0)
        error_dialog.setWindowTitle(self.configuration.version)
        error_dialog.showMessage(message)

    def closeEvent(self, evnt):
        """
        This event is triggered when the user closes the main window by clicking on the cross in
        the window corner.

        :param evnt: event object
        :return: -
        """
        self.workflow.exiting = True
        sleep(4. * self.configuration.polling_interval)
        sys.exit(0)
Exemple #12
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class Window(QMainWindow):
    """class Window(QMainWindow): -> QMainWindow
    main widow for app."""
    def __init__(self):
        """ def __init__(self): -> QMainWindow
        initialize the main gui """

        # init super; main window
        QMainWindow.__init__(self)
        self.ui = Ui_MainWindow()
        self.ui.setupUi(self)

        # remove title bar
        self.setWindowFlag(QtCore.Qt.FramelessWindowHint)
        self.setAttribute(QtCore.Qt.WA_TranslucentBackground)

        # hide unrequited gui components
        self.ui.disable_background_frame.hide()
        self.ui.downloading_frame.hide()
        self.ui.error_frame.hide()
        self.ui.download_button.setEnabled(False)

        # import shadows
        self.ss = ui_shadows

        # set shadows
        self.ui.main_frame.setGraphicsEffect(self.ss.main_window_shadow)
        self.ui.error_frame.setGraphicsEffect(self.ss.error_frame_shadow)
        self.ui.downloading_frame.setGraphicsEffect(
            self.ss.download_frame_shadow)

        # connect buttons to functions
        self.ui.save_path_button.clicked.connect(self.openSavePath)
        self.ui.refresh_video_preview_button.clicked.connect(self.getVideoData)
        self.ui.close_button.clicked.connect(self.closeProgram)
        self.ui.download_button.clicked.connect(self.downloadVideoTest)
        self.ui.mp3_radio_button.clicked.connect(self.videoTypeAudio)
        self.ui.mp4_radio_button.clicked.connect(self.videoTypeVideo)
        self.ui.close_error_frame_button.clicked.connect(self.closeErrorFrame)
        self.ui.button_240p.clicked.connect(self.setQuality240p)
        self.ui.button_360p.clicked.connect(self.setQuality360p)
        self.ui.button_480p.clicked.connect(self.setQuality480p)
        self.ui.button_720p.clicked.connect(self.setQuality720p)
        self.ui.button_1080p.clicked.connect(self.setQuality1080p)

        # on line edit edited
        self.ui.video_link_line_edit.textEdited.connect(self.checkFolderValid)

    #####################
    ### WIP FUNCTIONS ###
    #####################

    def videoTypeVideo(self):
        """def videoTypeVideo(self): -> self
        download the video as a mp4 file. WIP"""

        global video_type
        video_type = "mp4"
        print(video_type)

    def videoTypeAudio(self):
        """def videoTypeAudio(self): -> self
        download the video as a mp3 file. WIP"""

        global video_type
        video_type = "mp3"
        print(video_type)

    ####################
    ### UI FUNCTIONS ###
    ####################

    def setQuality240p(self):
        """def setQuality240p(self): -> self
        set video quality to 240p"""

        # globals
        global video_quality_new
        global video_quality_current

        video_quality_new = "240p"

        if video_quality_current != video_quality_new:
            self.animateVideoQuality()

    def setQuality360p(self):
        """def setQuality360p(self): -> self
        set video quality to 360p"""

        # globals
        global video_quality_new
        global video_quality_current

        video_quality_new = "360p"

        if video_quality_current != video_quality_new:
            self.animateVideoQuality()

    def setQuality480p(self):
        """def setQuality480p(self): -> self
        set video quality to 480p"""

        # globals
        global video_quality_new
        global video_quality_current

        video_quality_new = "480p"

        if video_quality_current != video_quality_new:
            self.animateVideoQuality()

    def setQuality720p(self):
        """def setQuality720p(self): -> self
        set video quality to 720p"""

        # globals
        global video_quality_new
        global video_quality_current

        video_quality_new = "720p"

        if video_quality_current != video_quality_new:
            self.animateVideoQuality()

    def setQuality1080p(self):
        """def setQuality1080p(self): -> self
        set video quality to 1080p"""

        # globals
        global video_quality_new
        global video_quality_current

        video_quality_new = "1080p"

        if video_quality_current != video_quality_new:
            self.animateVideoQuality()

    def openSavePath(self):
        """def openSavePath(self): -> self
        open the file dialog frame on button press"""

        # globals
        global video_folder_path
        global video_link

        # file dialog
        dialog = QtWidgets.QFileDialog()
        self.video_save_path = dialog.getExistingDirectory(
            None, "Select Folder")
        folder_name = os.path.basename(self.video_save_path)  # get folder name
        video_folder_path = self.video_save_path

        # set folder text in gui
        username = getpass.getuser()  # get username
        self.ui.file_location_line_edit.setText("C:\\Users\\" + str(username) +
                                                "\\...\\" + folder_name)

        video_link = self.ui.video_link_line_edit.text()

        # set download button enabled
        self.ui.download_button.setEnabled(True)

    def openDownloadedVideo(self):
        """def openDownloadedVideo(self): -> self
        open the file the download video is located
        in after downloading is complete."""

        # globals
        global video_folder_path
        global video_valid

        if video_valid:
            # open folder
            import os
            os.startfile(str(video_folder_path))
            video_valid = False

    def checkFolderValid(self):
        """def checkFolderValid(self): -> self
        check if file path is valid."""

        # globals
        global video_folder_path
        global video_link

        video_link = self.ui.video_link_line_edit.text()

        if video_folder_path is not None:
            self.ui.download_button.setEnabled(True)

    def closeProgram(self):
        """def closeProgram(self): -> self
        exit the program"""

        app.quit()  # quit

    def updateBar(self):
        """def updateBar(self): -> self
        update the video download progress bar."""

        global video_progress
        self.ui.video_downloading_progress_bar.setValue(video_progress)

    def showErrorFrame(self):
        """def showErrorFrame(self): -> self
        show error frame."""

        self.ui.downloading_frame.hide()
        self.ui.disable_background_frame.show()
        self.ui.error_frame.show()

        self.ui.error_message_line_edit.setText("Invalid Link!")

    def showErrorFrameQuality(self):
        """def showErrorFrame(self): -> self
        show error frame."""

        self.ui.downloading_frame.hide()
        self.ui.disable_background_frame.show()
        self.ui.error_frame.show()

        self.ui.error_message_line_edit.setText("Video Quality Too High!")

    def closeErrorFrame(self):
        """def closeErrorFrame(self): -> self
        close the error frame."""

        # globals
        global video_quality_array
        global max_video_quality

        self.ui.disable_background_frame.hide()
        self.ui.error_frame.hide()
        self.thread.quit()

        video_quality_array = []
        max_video_quality = 0

    ##################
    ### ANIMATIONS ###
    ##################

    def animateVideoQuality(self):
        """def animateVideoQuality(self): -> self
        animate the highlight QRect over the current
        selected video quality."""

        # globals
        global video_quality_current
        global video_quality_new
        global quality_x_pos

        # animation
        self.animation = QPropertyAnimation(
            self.ui.video_quality_highlighter_frame, b"geometry")
        self.animation.setDuration(300)
        self.animation.setStartValue(
            QRect(int(quality_x_pos[str(video_quality_current)]), 4, 40, 42))
        self.animation.setEndValue(
            QRect(int(quality_x_pos[str(video_quality_new)]), 4, 40, 42))
        self.animation.setEasingCurve(QtCore.QEasingCurve.InOutQuart)
        self.animation.start()

        # finish
        video_quality_current = video_quality_new

    ##################
    ### SUBPROCESS ###
    ##################

    def downloadVideoTest(self):
        """def downloadVideoTest(self): -> self
        run the subprocess to download videos."""

        # globals
        global video_link
        global video_title
        global video_views
        global video_author
        global video

        video_link = self.ui.video_link_line_edit.text()

        self.thread = QThread()
        self.worker = DownloadVideo()
        self.worker.moveToThread(self.thread)

        # connect subprocess functions
        self.thread.started.connect(self.worker.run)
        self.worker.finished.connect(self.thread.quit)
        self.worker.finished.connect(self.worker.deleteLater)
        self.thread.finished.connect(self.thread.deleteLater)
        self.worker.progress.connect(self.updateBar)

        # run subprocess
        self.thread.start()
        self.ui.downloading_frame.show()
        self.ui.disable_background_frame.show()

        self.worker.invalid.connect(self.showErrorFrame)

        self.worker.quality.connect(self.showErrorFrameQuality)

        self.thread.finished.connect(lambda: self.ui.downloading_frame.hide())
        self.thread.finished.connect(
            lambda: self.ui.disable_background_frame.hide())
        self.thread.finished.connect(
            lambda: self.ui.video_downloading_progress_bar.setValue(0))
        self.thread.finished.connect(self.openDownloadedVideo)

    def getVideoDataSubprocess(self):
        """def getVideoDataSubprocess(self):
        start the subprocess to get youtube video
        data."""

        # globals
        global video_author
        global video_title
        global video_views

        # init subprocess
        self.video_data_thread = QThread()
        self.video_data_worker = GetVideoInfo()
        self.video_data_worker.moveToThread(self.video_data_thread)

        # connect subprocess functions
        self.video_data_thread.started.connect(self.video_data_worker.run)
        # self.video_data_thread.started.connect(self.update)
        self.video_data_worker.finished.connect(self.video_data_thread.quit)
        self.video_data_worker.finished.connect(
            self.video_data_worker.deleteLater)
        self.video_data_thread.finished.connect(
            self.video_data_thread.deleteLater)

        # run subprocess
        self.video_data_thread.start()

        self.ui.download_button.setEnabled(False)

        # on subprocess finished connect
        self.video_data_thread.finished.connect(
            lambda: self.ui.download_button.setEnabled(True))
        self.video_data_thread.finished.connect(
            lambda: self.ui.video_author_text.setText(video_author))
        self.video_data_thread.finished.connect(
            lambda: self.ui.video_title_text.setText(video_title))
        self.video_data_thread.finished.connect(
            lambda: self.ui.views_text.setText(str(video_views)))

    def getVideoData(self):
        """def getVideoData(self): -> self
       check if link is valid to get video data
       if true start subprocess else display error."""

        # globals
        global video_link
        global video_folder_path

        video_link = self.ui.video_link_line_edit.text()  # get video link

        if not isLinkValid(video_link):

            self.ui.video_title_text.setText("Invalid Youtube Video Link!")
            self.ui.video_author_text.setText("")
            self.ui.views_text.setText("")
        else:
            self.ui.video_title_text.setText("Fetching Data...")
            self.ui.video_author_text.setText("")
            self.ui.views_text.setText("")

            self.getVideoDataSubprocess()
Exemple #13
0
        ui.valBidding.setText(summary_data[1])
        ui.valWon.setText(summary_data[2])
        ui.valNotWon.setText(summary_data[3])
        ui.valPurchases.setText(summary_data[4])
        ui.valInvoices.setText(summary_data[5])


# Change status bar message
def status_msg(msg):
    ui.statusbar.showMessage(msg)


if __name__ == "__main__":
    app = QtGui.QApplication(sys.argv)
    MainWindow = QtGui.QMainWindow()
    ui = Ui_MainWindow()
    ui.setupUi(MainWindow)
    MainWindow.show()
    connections()

    # Load credentials from file.
    with open("login.txt") as f:
        credentials = f.readline().strip().split(":")

    # Login, download summary, then refresh the UI.
    b = Biddergy(credentials[0], credentials[1])
    request_queue = queue.Queue()
    bw = BiddergyWrapper(request_queue)
    bw.start()

    # Run QApplication
import ml_models as md
from main_gui import QtCore, QtWidgets, Ui_MainWindow
from controller import ViewController
import controller
import sys

app = QtCore.QCoreApplication.instance()
if app is None:
    app = QtWidgets.QApplication(sys.argv)
MainWindow = QtWidgets.QMainWindow()
ui = Ui_MainWindow()
ui.setupUi(MainWindow)
user_ML_model = md.machineLearningModel()
view_controller = ViewController(ui, user_ML_model)
MainWindow.show()
sys.exit(app.exec_())
Exemple #15
0
class SPIPY_MAIN(QtGui.QMainWindow, QtCore.QEvent):

	def __init__(self, parent=None):
		QtGui.QWidget.__init__(self, parent)
		# setup ui
		self.ui = Ui_MainWindow()
		self.ui.setupUi(self)
		# read namespace
		self.namespace = utils.read_ini()
		# other attributes
		self.dirname = None
		self.datapath = None
		self.jss = None           # None, or PBS/LSF
		self.datapathtype = True  # True: dir--runs_dir--datafile  False: dir--datafile
		self.data_format = None  # see self.namespace['data_format']
		self.num_running_jobs = 0
		# process_data is table infomation, the keys are run number, and first column stores raw data path
		# , other columns are consistent with tableWidget
		self.columnCount = self.ui.tableWidget.columnCount()
		self.process_data = None
		self.rawdata_changelog = None
		self.JobCenter = None
		# tag_buffer is {assignments:{run_name:tag_remarks}, ...}
		self.tag_buffer = None
		# setup triggers
		self.ui.tableWidget.setEditTriggers(QtGui.QAbstractItemView.NoEditTriggers)
		self.ui.comboBox_2.currentIndexChanged.connect(self.js_changed)
		self.ui.comboBox.currentIndexChanged.connect(self.assignments_changed)
		self.ui.comboBox_3.currentIndexChanged.connect(self.decomp_changed)
		self.ui.pushButton.clicked.connect(self.view_job)
		# self.ui.pushButton_2.clicked.connect(self.view_history)
		self.ui.pushButton_3.clicked.connect(partial(process.parameters_setting, self))
		self.ui.pushButton_6.clicked.connect(self.refresh_table)
		self.ui.checkBox_3.stateChanged.connect(self.autorefresh)
		self.ui.tableWidget.customContextMenuRequested.connect(self.table_menu)
		self.ui.tableWidget.cellDoubleClicked.connect(self.cell_dclicked)


	def setup(self, workpath, datapath, jss, datapathtype, format_index):
		self.jss = jss
		self.dirname = workpath
		self.datapath = datapath
		self.datapathtype = datapathtype
		self.data_format = self.namespace['data_format'][format_index]
		# setup job center
		self.JobCenter = jobc.JobCenter(self.jss, self.dirname, self.data_format, self)
		# load table
		self.process_data = utils.load_table(os.path.join(self.dirname, self.namespace['project_structure'][0]))
		# load table change log, if there exists
		self.rawdata_changelog = utils.load_changelog(os.path.join(self.dirname, self.namespace['project_structure'][0]))
		# set up tag_buffer
		self.tag_buffer = {}
		for assm in self.namespace['process_assignments']:
			self.tag_buffer[assm] = {}
		# write jss to UI
		if self.jss is not None:
			self.ui.comboBox_2.addItem(self.jss)
		# setup all tabWidgets
		# setup process
		for assm in self.namespace['process_assignments']:
			self.ui.comboBox.addItem(assm)
		self.ui.tableWidget.horizontalHeader().setResizeMode(QtGui.QHeaderView.Interactive)
		self.ui.label_73.setText( utils.fmt_process_status(self.data_format) )
		self.ui.pushButton_2.setVisible(False)
		# setup classify
		for decp in self.namespace['classify_decomp']:
			self.ui.comboBox_3.addItem(decp)
		self.ui.lineEdit.setText(os.path.join(os.path.join(self.dirname, \
			self.namespace['project_structure'][0]), self.namespace['process_HF']))
		self.ui.lineEdit_2.setText("Hits/data")
		self.ui.widget_12.setVisible(False)
		self.ui.widget_11.setVisible(False)
		# setup merge
		for sym in self.namespace['merge_sym']:
			self.ui.comboBox_5.addItem(sym)
		# setup phasing
		for method in self.namespace['phasing_method']:
			self.ui.comboBox_9.addItem(method)
			self.ui.comboBox_10.addItem(method)
			self.ui.comboBox_11.addItem(method)
		# setup monitors
		self.table_monitor = None
		# draw table
		self.refresh_table()


	def closeEvent(self, event):
		#self.JobCenter.write_job_hub()
		utils.print2projectLog(self.dirname, "Close spipy GUI.")
		QtGui.qApp.quit()


	def js_changed(self, index):
		if self.ui.comboBox_2.itemText(index) == "PBS":
			if not utils.check_PBS():
				utils.show_message("No PBS detected !")
				self.ui.comboBox_2.setCurrentIndex(0)
			else:
				self.jss = str(self.ui.comboBox_2.currentText())
		else:
			pass
		self.JobCenter.setjss(self.jss)


	"""
		Process Tab
	"""

	#  -----------------------------------  #
	#  tag remarks format processing start  #
	#  run folder name format:
	#		.../run.tag.remarks/...
	#  ------------------------------------ #

	def get_existing_runtags(self, assignments, run_name):
		'''
		return [['tag','remarks'], ...]
		'''
		module_name = self.namespace['project_structure'][0]
		path = os.path.join(self.dirname, module_name, '%s/%s.*' % (assignments, run_name))
		tags = glob.glob(path)
		tags = [os.path.split(tmp)[-1].split('.')[1:] for tmp in tags]
		return tags


	def get_latest_runtag(self, assignments, run_name):
		'''
		return ['tag','remarks']
		'''
		module_name = self.namespace['project_structure'][0]
		path = os.path.join(self.dirname, module_name, '%s/%s.*' % (assignments, run_name))
		tags = glob.glob(path)
		latest = "--"
		time = 0
		for tag in tags:
			timestamp = os.path.getmtime(tag)
			if timestamp > time:
				time = timestamp
				latest = tag
		if latest == "--":
			return latest
		else:
			return os.path.split(latest)[-1].split('.')[1:]


	def is_existed_runtag(self, assignments, run_name, run_tag_remarks):
		try:
			tag, remarks = self.split_tag_remarks(run_tag_remarks)
		except:
			return False
		module_name = self.namespace['project_structure'][0]
		path = os.path.join(self.dirname, module_name, '%s/%s.%s.%s' % (assignments, run_name, tag, remarks))
		if os.path.isdir(path):
			return True
		else:
			return False


	def combine_tag_remarks(self, tag_remarks):
		if type(tag_remarks) == str:
			return tag_remarks
		else:
			return tag_remarks[0] + '.' + tag_remarks[1]


	def split_tag_remarks(self, tag_remarks):
		return tag_remarks.split('.')

	#  ---------------------------------  #
	#  tag remarks format processing end  #
	#  ---------------------------------  #


	def assignments_changed(self, index):
		# change combobox in table
		# refresh table ?
		self.refresh_table()


	def cell_dclicked(self, row, column):
		'''table cell double clicked
			run tag changing
		'''
		if column != 1:
			return
		assignments = str(self.ui.comboBox.currentText())
		#if assignments != self.namespace['process_HF']:
		#	return
		run_name = str(self.ui.tableWidget.item(row, 0).text())
		run_tag_remarks = self.get_existing_runtags(assignments, run_name)
		choices = []
		for tmp in run_tag_remarks:
			choices.append(self.combine_tag_remarks(tmp))
		ret = [None]
		chosebox.show_chosebox("Tags", choices, ret, "%s.%s" % (run_name, assignments))
		if ret[0] is not None:
			self.process_data[run_name][1] = choices[ret[0]]
			self.draw_table(sel_rows = [row])


	def table_menu(self, position):
		"""
		entrance to submit jobs
		"""
		# selected cells
		selected_runs = []
		selected_tag_remarks = {}
		selected_datafile = {}
		for pos in self.ui.tableWidget.selectionModel().selection().indexes():
			row = pos.row()
			run_name = str(self.ui.tableWidget.item(row, 0).text())
			if len(self.process_data[run_name][0]) == 0:
				utils.show_message("Run %s does not contain any data. Skip." % run_name)
				continue
			tag_remarks_name = str(self.ui.tableWidget.item(row, 1).text())
			selected_runs.append(run_name)
			selected_tag_remarks[run_name] = self.split_tag_remarks(tag_remarks_name)
			selected_datafile[run_name] = self.process_data[run_name][0]

		# show menu
		if len(selected_runs) > 0:
			# get assignments
			assignments = str(self.ui.comboBox.currentText())
			# show menu
			menu = QtGui.QMenu()
			a1 = menu.addAction("Run %s" % assignments)
			menu.addSeparator()
			# a2 = menu.addAction("Terminate all")
			menu_sub = menu.addMenu("Terminate")
			b = []
			if len(selected_runs) > 1:
				for assign in self.namespace['process_assignments']:
					b.append(menu_sub.addAction(assign))
				if selected_tag_remarks[selected_runs[0]][0] != "--":
					menu.addSeparator()
					a4 = menu.addAction("Open %s results in data viewer" % assignments)
			elif len(selected_runs) == 1:
				run_tag_remarks = self.get_existing_runtags(assignments, selected_runs[0])
				for tr in run_tag_remarks:
					tr_status = self.JobCenter.get_run_status(selected_runs[0], self.namespace['project_structure'][0], assignments, tr[0], tr[1])
					if tr_status == self.JobCenter.RUN:
						b.append( menu_sub.addAction("%s.%s.%s.%s" % (assignments, selected_runs[0], tr[0], tr[1])) )
				menu.addSeparator()
				if selected_tag_remarks[selected_runs[0]][0] == "darkcal":
					a4 = menu.addAction("Set as current darkcal")
				elif selected_tag_remarks[selected_runs[0]][0] != "--":
					a4 = menu.addAction("Open %s results in data viewer" % assignments)
				else:
					a4 = 0
			else:
				pass

			# exec
			action = menu.exec_(self.ui.tableWidget.mapToGlobal(position))

			# parse selection
			job_type  = self.namespace['project_structure'][0] + "/" + assignments

			if action == a1:
				utils.print2projectLog(self.dirname, "Choose %s on %s" % (assignments, str(selected_runs)))
				self.JobCenter.TableRun_showoff(job_type, selected_runs, selected_datafile, selected_tag_remarks)
			#elif action == a2:
			#	print("Terminate all jobs of %s" % str(selected_runs))
			elif len(selected_runs) == 1 and action == a4:
				if selected_tag_remarks[selected_runs[0]][0] == "darkcal":
					# re-link current-darkcal.h5
					tmp_darkfile = utils.fmt_job_dir(selected_runs[0], \
						selected_tag_remarks[selected_runs[0]][0], selected_tag_remarks[selected_runs[0]][1])
					tmp_darkfile = os.path.join(self.dirname, self.namespace['project_structure'][0], self.namespace['process_HF'], tmp_darkfile)
					try:
						tmp_darkfile = glob.glob(os.path.join(tmp_darkfile, "*darkcal.h5"))[0]
					except:
						utils.show_message("I cannot find ?.darkcal.h5 in this run. Fail to set current darkcal.")
						return
					tmp_curr_darklink = os.path.join(self.dirname, self.namespace['project_structure'][0], self.namespace['process_HF'], self.namespace['darkcal'])
					prev_dark_run = None
					if os.path.exists(tmp_curr_darklink):
						prev_dark_run = subprocess.check_output("ls -l %s | awk -F'->' '{print $2}' | tr -d ' '" % tmp_curr_darklink, shell=True)
						prev_dark_run = os.path.split(prev_dark_run.strip("\n"))[-1].split('.')[0]
					subprocess.check_call("ln -fs %s %s" % (tmp_darkfile, tmp_curr_darklink), shell=True)
					# refresh table info
					if prev_dark_run is not None:
						self.process_data[prev_dark_run][6] = "--"
					self.process_data[selected_runs[0]][6] = "Current-Darkcal"
					utils.print2projectLog(self.dirname, "Set %s as current darkcal" % selected_runs[0])
					# draw table
					self.draw_table()
				else:
					# open data viewer and add files
					tmp = utils.fmt_job_dir(selected_runs[0], \
						selected_tag_remarks[selected_runs[0]][0], selected_tag_remarks[selected_runs[0]][1])
					tmp = os.path.join(self.dirname, self.namespace['project_structure'][0], assignments, tmp, '*.h5')
					tmp = glob.glob(tmp)
					if not data_viewer.is_shown():
						data_viewer.show_data_viewer(self)
					data_viewer.add_files(tmp)
					utils.print2projectLog(self.dirname, "Add %s results of %s to data viewer." % (assignments, selected_runs[0]))
			elif len(selected_runs) == 1 and action in b:
				tmp = str(action.text()).split('.')
				jid = self.JobCenter.get_jid(tmp[0], tmp[1], tmp[2], tmp[3])
				re = utils.show_warning("Terminate job %d of %s ?" % (jid, str(selected_runs)))
				if re == 1:
					tmp = self.JobCenter.kill_job(jid)
					if tmp[0] == 1:
						utils.print2projectLog(self.dirname, "Terminate job %d of %s" % (jid, str(selected_runs)))
						utils.show_message("Job %s is successfully terminated" % str(action.text()))
					else:
						utils.print2projectLog(self.dirname, "Fail to terminate job %d of %s" % (jid, str(selected_runs)))
						utils.show_message("**FAIL** to terminate job !" % str(action.text()))
					# refresh
					self.update_table_runs()
					self.draw_table()
			elif len(selected_runs) > 1 and action in b:
				assign = str(action.text())
				all_jid = []
				for run_name in selected_runs:
					tag_remarks = self.get_existing_runtags(assign, run_name)
					for tr in tag_remarks:
						tr_status = self.JobCenter.get_run_status(run_name, self.namespace['project_structure'][0], assign, tr[0], tr[1])
						if tr_status == self.JobCenter.RUN:
							tmp_jid = self.JobCenter.run_view[utils.fmt_runview_key(assign, run_name, tr[0], tr[1])]
							all_jid.append(tmp_jid)
				re = utils.show_warning("Terminate all these %d jobs ?" % len(all_jid))
				if re == 1:
					killed = 0
					for tmp_jid in all_jid:
						killed += self.JobCenter.kill_job(jid)
					utils.print2projectLog("Terminate %d %s jobs of %s" % (killed, assign, str(selected_runs)))
					utils.show_message("Successfully terminate %d jobs" % killed)
					# refresh
					self.update_table_runs()
					self.draw_table()
			elif len(selected_runs) > 1 and action == a4:
				if not data_viewer.is_shown():
					data_viewer.show_data_viewer(self)
				for selected_run in selected_runs:
					tmp = utils.fmt_job_dir(selected_run, \
						selected_tag_remarks[selected_run][0], selected_tag_remarks[selected_run][1])
					tmp = os.path.join(self.dirname, self.namespace['project_structure'][0], assignments, tmp, '*.h5')
					tmp = glob.glob(tmp)
					data_viewer.add_files(tmp)
				utils.print2projectLog(self.dirname, "Add %s results of %s to data viewer." % (assignments, str(selected_runs)))
			else:
				pass
		else:
			menu = QtGui.QMenu()
			if self.ui.tableWidget.horizontalHeader().resizeMode(0) == QtGui.QHeaderView.Stretch:
				a1 = menu.addAction("Unfill table window")	
			else:
				a1 = menu.addAction("Fill table window")
			menu.addSeparator()
			a2 = menu.addAction("Set 'force overwrite' to %s" % str(not self.JobCenter.force_overwrite))

			action = menu.exec_(self.ui.tableWidget.mapToGlobal(position))
			if action == a1:
				if self.ui.tableWidget.horizontalHeader().resizeMode(0) == QtGui.QHeaderView.Stretch:
					self.ui.tableWidget.horizontalHeader().setResizeMode(QtGui.QHeaderView.Interactive)
				else:
					self.ui.tableWidget.horizontalHeader().setResizeMode(QtGui.QHeaderView.Stretch)
			elif action == a2:
				self.JobCenter.reverseForceOverwrite()
			else:
				pass


	def update_table_runs(self):
		if not os.path.isdir(self.datapath):
			utils.show_message("Data directory is invalid, please reopen the software.")
			return

		# subdir ?
		if not self.datapathtype:
			all_in_dir = utils.parse_multi_runs_nosubdir(self.datapath, self.data_format)
		else:
			all_in_dir = [f for f in os.listdir(self.datapath) if "." not in f and f[0]!="$" \
									and os.path.isdir(os.path.join(self.datapath, f))]

		prev_runs = self.process_data.keys()
		prev_runs_checked = [0] * len(prev_runs)
		run_name = ""
		run_streams_num = "0"

		# go through alll files/dirs
		# detect raw data status
		for d in all_in_dir:
			# parse run name
			if not self.datapathtype:
				tmp = d.split("?_?^=^")  # this magic code, defined in utils.parse_multi_runs_nosubdir
				run_name = tmp[0]
				run_streams_num = tmp[1]
			else:
				run_name = d
			# check avaliable
			if run_name not in prev_runs:
				# init process_data & rawdata_changelog
				self.process_data[run_name] = ['--'] * self.columnCount
				self.rawdata_changelog[run_name] = {}
				# update process_data
				if not self.datapathtype:
					self.process_data[run_name][0] = utils.parse_multi_run_streams(self.datapath, run_name, self.data_format, False)
					self.process_data[run_name][2] = self.namespace['process_status'][0] + " (%s)" % run_streams_num
				else:
					subpath = os.path.join(self.datapath, d)
					datafile = utils.parse_multi_run_streams(subpath, run_name, self.data_format)
					if len(datafile) >= 1:
						self.process_data[run_name][0] = datafile
						run_streams_num = str(len(datafile))
						self.process_data[run_name][2] = self.namespace['process_status'][0] + " (%s)" % run_streams_num
					else:
						self.process_data[run_name][0] = []
						self.process_data[run_name][2] = self.namespace['process_status'][5]
			else:
				prevdatafile = self.process_data[run_name][0]
				if not self.datapathtype:
					datafile = utils.parse_multi_run_streams(self.datapath, run_name, self.data_format, False)
					run_streams_num = str(len(datafile))
					if len(datafile) == 0:                                            # deleted
						tmp = self.process_data.pop(run_name)
						self.rawdata_changelog[run_name].update(utils.rawdata_changelog(prevdatafile, None))
					elif len( (set(datafile) | set(prevdatafile)) - (set(datafile) & set(prevdatafile)) ) != 0:           # changed
						self.process_data[run_name][2] = self.namespace['process_status'][6] + " (%s)" % run_streams_num
						self.process_data[run_name][0] = datafile
						self.rawdata_changelog[run_name].update(utils.rawdata_changelog(prevdatafile, datafile))
					else:                                                             # stays still
						self.process_data[run_name][2] = self.namespace['process_status'][0] + " (%s)" % run_streams_num
						self.process_data[run_name][0] = datafile
				else:
					subpath = os.path.join(self.datapath, d)
					datafile = utils.parse_multi_run_streams(subpath, run_name, self.data_format)
					run_streams_num = str(len(datafile))
					if len(datafile) == 0:                                            # no data
						self.process_data[run_name][0] = []
						self.process_data[run_name][2] = self.namespace['process_status'][5]
						self.rawdata_changelog[run_name].update(utils.rawdata_changelog(prevdatafile, None))
					elif len( (set(datafile) | set(prevdatafile)) - (set(datafile) & set(prevdatafile)) ) != 0:           # changed
						self.process_data[run_name][2] = self.namespace['process_status'][6] + " (%s)" % run_streams_num
						self.process_data[run_name][0] = datafile
						self.rawdata_changelog[run_name].update(utils.rawdata_changelog(prevdatafile, datafile))
					else:                                                             # stays still
						self.process_data[run_name][2] = self.namespace['process_status'][0] + " (%s)" % run_streams_num
						self.process_data[run_name][0] = datafile

				prev_runs_checked[prev_runs.index(run_name)] = 1

		for i,c in enumerate(prev_runs_checked):
			if c == 0 :
				run_name = prev_runs[i]
				tmp = self.process_data.pop(run_name)
				self.rawdata_changelog[run_name].update(utils.rawdata_changelog(tmp[0], "This run is Deleted"))

		# go through all job dir
		# detect job status
		# self.process_data[run_name][1] shows only hit-finding
		prev_runs = self.process_data.keys()
		hf_module = self.namespace['project_structure'][0]
		self.num_running_jobs = 0
		for i,run_name in enumerate(prev_runs):
			self.process_data[run_name][3:6] = ['--'] * 3
			# get tag
			# assignments = self.namespace['process_HF']
			assignments = str(self.ui.comboBox.currentText())
			if not (self.tag_buffer[assignments].has_key(run_name) and self.is_existed_runtag(assignments, run_name, self.tag_buffer[assignments][run_name])):
				tag_remarks = self.get_latest_runtag(str(assignments), run_name)
				self.process_data[run_name][1] = self.combine_tag_remarks(tag_remarks)
			else:
				self.process_data[run_name][1] = self.tag_buffer[assignments][run_name]
			# get jobs status
			for aindex in range(self.ui.comboBox.count()):
				assignments_tmp = str(self.ui.comboBox.itemText(aindex))
				# get tag from processe_data or tag_buffer or fresh data ?
				if assignments_tmp == assignments:
					tag_remarks = self.split_tag_remarks(self.process_data[run_name][1])
				else:
					try:
						tag_remarks = self.split_tag_remarks(self.tag_buffer[assignments_tmp][run_name])
					except:
						tag_remarks = self.get_latest_runtag(assignments_tmp, run_name)
				# tag_remarks is ['tag','remarks']
				if type(tag_remarks) != list or len(tag_remarks) != 2:
					continue
				job_status = self.JobCenter.get_run_status(run_name, hf_module, assignments_tmp, tag_remarks[0], tag_remarks[1])
				if job_status is None:
					job_status = "--"
				elif job_status == self.JobCenter.RUN:
					self.num_running_jobs += 1
				else:
					pass
				if assignments_tmp == self.namespace['process_HF']:
					self.process_data[run_name][3] = job_status
				elif assignments_tmp == self.namespace['process_FA']:
					self.process_data[run_name][4] = job_status
				elif assignments_tmp == self.namespace['process_FAA']:
					self.process_data[run_name][4] = job_status
				elif assignments_tmp == self.namespace['process_AP']:
					self.process_data[run_name][5] = job_status
				else:
					pass
			# get hit rate
			# output status format : see scripts/HitFinder.py
			if assignments != self.namespace['process_HF']:
				try:
					tag_remarks = self.tag_buffer[self.namespace['process_HF']][run_name]
					tag_remarks = self.split_tag_remarks(tag_remarks)
				except:
					tag_remarks = '--'
			else:
				tag_remarks = self.split_tag_remarks(self.process_data[run_name][1])
			if type(tag_remarks) != list or len(tag_remarks) < 2:
				self.process_data[run_name][6] = '--'
				continue
			elif tag_remarks[0].lower() == "darkcal":
				if self.process_data[run_name][6] != "Current-Darkcal":
					self.process_data[run_name][6] = '--'
				continue
			hf_status = os.path.join(self.dirname, hf_module, '%s/%s.%s.%s/status' % \
				(self.namespace['process_HF'], run_name, tag_remarks[0], tag_remarks[1]))
			if not os.path.isdir(hf_status):
				self.process_data[run_name][6] = '--'
				continue
			elif os.path.exists(os.path.join(hf_status, 'summary.txt')):
				summary = utils.read_status(os.path.join(hf_status, 'summary.txt'))
				thishits = int(summary['hits'])
				thisprocessed = int(summary['processed'])
				self.process_data[run_name][6] = "%.2f%% (%d/%d)" % (100*float(thishits)/(thisprocessed+1e-6), thishits, thisprocessed)
			else:
				status_files = glob.glob(os.path.join(hf_status, 'status*'))
				thishits = 0
				thisprocessed = 0
				for status_file in status_files:
					summary = utils.read_status(status_file)
					thishits += int(summary['hits'])
					thisprocessed += int(summary['processed'])
				self.process_data[run_name][6] = "%.2f%% (%d/%d)" % (100*float(thishits)/(thisprocessed+1e-6), thishits, thisprocessed)


	def draw_table(self, sel_rows = None):
		# sel_rows : [row1, row2 , ...]
		'''NOTE
		If sel_rows is not None, then only the ROWs in sel_rows will be updated.
		Please make sure no rows are added or deleted in self.process_data if sel_rows is not None ! 
		'''
		runs = self.process_data.keys()
		runs.sort()
		hits = 0
		patterns = 0
		for i,r in enumerate(runs):
			infomation = self.process_data[r]
			# cal hits and patterns
			hitinfo = utils.findnumber(infomation[6])
			if len(hitinfo) == 3:
				hits += int(hitinfo[1])
				patterns += int(hitinfo[2])
			# judge if it is selected
			if sel_rows is not None and i not in sel_rows :
				continue				
			# insert row ?
			if i >= self.ui.tableWidget.rowCount():
				self.ui.tableWidget.insertRow(i)
			# set run name
			newitem = QtGui.QTableWidgetItem(str(r))
			newitem.setTextAlignment(QtCore.Qt.AlignHCenter | QtCore.Qt.AlignVCenter)
			self.ui.tableWidget.setItem(i, 0, newitem)
			# set others
			for j,info in enumerate(infomation[1:self.columnCount]):
				j = j + 1
				newitem = QtGui.QTableWidgetItem(info)
				if j == 1:
					assignments = str(self.ui.comboBox.currentText())
					self.tag_buffer[assignments][r] = info
				if j in [2,3,4,5] and info != "--":
					cindex = self.namespace['process_status'].index(info.split(" ")[0])
					color = self.namespace['process_colors'][cindex]
					newitem.setBackgroundColor(QtGui.QColor(color[0], color[1], color[2], 127))
				newitem.setTextAlignment(QtCore.Qt.AlignHCenter | QtCore.Qt.AlignVCenter)
				self.ui.tableWidget.setItem(i, j, newitem)
		# write other ctrls
		self.ui.label_73.setText( utils.fmt_process_status(self.data_format, hits, patterns) )
		self.ui.lcdNumber.display(self.num_running_jobs)
		# logging table
		utils.logging_table(self.process_data, self.rawdata_changelog, \
				os.path.join(self.dirname, self.namespace['project_structure'][0]))


	def refresh_table(self):
		# lock button
		self.ui.pushButton_6.setEnabled(False)
		# refresh
		self.update_table_runs()
		self.draw_table()
		# utils.print2projectLog(self.dirname, "Table updated.")
		# unlock button
		self.ui.pushButton_6.setEnabled(True)


	def autorefresh(self, state):
		if state == QtCore.Qt.Checked:
			self.table_monitor = utils.TableMonitor(self.namespace['monitor_time'], self.refresh_table)
			self.refresh_table()
			self.table_monitor.start()
		else:
			self.table_monitor.stop()
			del self.table_monitor
			self.table_monitor = None



	"""
		Classify Tab
	"""

	def decomp_changed(self, index):
		if self.ui.comboBox_3.itemText(index) == self.namespace['classify_LLE']:
			self.ui.widget_11.setVisible(True)
			self.ui.widget_12.setVisible(True)
		else:
			self.ui.widget_11.setVisible(False)
			self.ui.widget_12.setVisible(False)



	def view_job(self):
		jobview.show_jobView(self)
		utils.print2projectLog(self.dirname, "Open job viewer.")


	def view_history(self):
		pass



	'''
class MainProgram(QtWidgets.QMainWindow):
    def __init__(self, *args, **kwargs):
        super().__init__(*args, **kwargs)
        self.ui = Ui_MainWindow()
        self.ui.setupUi(self)

        self.ui.actionOpen.triggered.connect(self.clicked_open)
        self.ui.actionMirror.triggered.connect(self.clicked_mirror)
        self.ui.actionFlip_Upside_Down.triggered.connect(self.clicked_flip)
        self.ui.actionBrightness_Increase.triggered.connect(
            self.clicked_brightnessup)
        self.ui.actionBrightness_Decrease.triggered.connect(
            self.clicked_brightnessdown)
        self.ui.actionContrast_Increase.triggered.connect(
            self.clicked_contrastup)
        self.ui.actionContrast_Decrease.triggered.connect(
            self.clicked_contrastdown)
        self.ui.actionRed_Green.triggered.connect(self.clicked_swap_rg)
        self.ui.actionGreen_Blue.triggered.connect(self.clicked_swap_gb)
        self.ui.actionBlue_Red.triggered.connect(self.clicked_swap_br)
        self.ui.actionNegative.triggered.connect(self.clicked_negative)
        self.ui.actionBlack_and_White.triggered.connect(
            self.clicked_converttobw)
        self.ui.actionReplace_Color.triggered.connect(
            self.clicked_replacecolor)
        self.ui.actionMedian.triggered.connect(self.clicked_blur_median)
        self.ui.actionGaussian_2.triggered.connect(self.clicked_blur_gaussian)
        self.ui.actionAverage.triggered.connect(self.clicked_blur_average)
        self.ui.actionIntensity_Map.triggered.connect(
            self.clicked_intensity_map)
        self.ui.actionPixelate.triggered.connect(self.clicked_pixelate)
        self.ui.actionCartoonify.triggered.connect(self.clicked_cartoonify)
        self.ui.actionGamma_Correction.triggered.connect(self.clicked_gamma)
        self.ui.actionDithering.triggered.connect(self.clicked_dither)
        self.ui.actionEdge_Detection.triggered.connect(self.clicked_canny)
        self.ui.actionGaussian.triggered.connect(self.clicked_gaussian_noise)
        self.ui.actionVertical_Bands.triggered.connect(
            self.clicked_vertical_noise_bands)
        self.ui.actionHorizontal_Bands.triggered.connect(
            self.clicked_horizontal_noise_bands)
        self.ui.actionExtract_Color.triggered.connect(
            self.clicked_extract_color)
        self.ui.actionAdd_Border.triggered.connect(self.clicked_add_border)
        self.ui.actionHistogram_Equalization.triggered.connect(
            self.clicked_histogramequalization)
        self.ui.actionImage_Histogram.triggered.connect(
            self.clicked_image_histogram)
        self.ui.actionSave.triggered.connect(self.clicked_save)
        self.ui.actionPyramid.triggered.connect(
            self.clicked_pyramid_blending_loadfiles)
        self.ui.actionAlpha.triggered.connect(self.clicked_alpha_blending)
        self.ui.actionResize.triggered.connect(self.resize_image)
        self.ui.actionRotate.triggered.connect(self.clicked_rotate_image)
        self.ui.actionApply_Mask.triggered.connect(self.clicked_apply_mask)
        self.ui.actionExit.triggered.connect(self.clicked_exit)

        self.ui.actionUndo.triggered.connect(self.clicked_undo)
        self.ui.actionRedo.triggered.connect(self.clicked_redo)
        self.original = None  #Original Image
        self.current = None  # this is the image in progress
        self.redo = None
        self.currentminusone = None
        self.counter_undo = 0
        self.counter_redo = 0

    def perform_updates(self, current_):
        print('inside perform updates')
        if self.current is not None:
            self.update_current_minus_one(self.current.copy())
        elif self.current is None:
            self.update_current_minus_one(current_)
        self.update_current(current_)
        print('progressing inside perform updates')
        self.update_imagebox()

    def update_current_minus_one(self, image):
        self.currentminusone = image

    # def update_for_redo(self):
    #     self.redo_image = self.current

    def clicked_undo(self):
        # if self.counter_redo == self.counter_undo and self.current is not None and self.currentminusone is not None:
        if self.current is not None and self.currentminusone is not None:
            self.redo = self.current.copy()
            self.update_current(self.currentminusone)
            self.update_imagebox()
            self.counter_undo += 1

    def clicked_redo(self):
        if self.counter_undo != 0 and self.counter_undo > self.counter_redo:
            self.currentminusone = self.current.copy()
            self.update_current(self.redo)
            self.update_imagebox()
            self.counter_redo += 1

    def update_current(self, image):
        self.current = image

    def clicked_exit(self):
        sys.exit()

    def update_imagebox(self):
        print('inside updatebox')
        if len(self.current.shape) == 3:  #for color images
            copyofcurrent = self.current.copy()
            # copyofcurrent[:,:,[0,2]] = copyofcurrent[:,:,[2,0]]
            print(copyofcurrent.dtype)
            self.updated_pic = QtGui.QImage(
                copyofcurrent, copyofcurrent.shape[1], copyofcurrent.shape[0],
                copyofcurrent.shape[1] * 3,
                QtGui.QImage.Format_BGR888)  #QtGui.QImage.Format_BGR888)

        elif len(self.current.shape) == 2:  #for color images
            print('here')
            copyofcurrent = self.current.copy()
            self.updated_pic = QtGui.QImage(
                copyofcurrent, copyofcurrent.shape[1], copyofcurrent.shape[0],
                copyofcurrent.shape[1] * 1,
                QtGui.QImage.Format_Grayscale8)  #.QtGui.QImage.rgbSwapped()

        self.updated_pic = QtGui.QPixmap(self.updated_pic)
        self.ui.label_imagebox.setPixmap(self.updated_pic)

    def check_canvas(self):
        if self.current is None:
            QtWidgets.QMessageBox.warning(self, 'No image found',
                                          'Please load an image first.')
            return
        return 1

    def get_filename(self, msg):
        print('get file name')
        options = QtWidgets.QFileDialog.Options()
        fileName, _ = QtWidgets.QFileDialog.getOpenFileName(self,
                                                            msg,
                                                            "",
                                                            "All Files (*)",
                                                            options=options)

        return fileName

    def clicked_open(self):
        # options = QtWidgets.QFileDialog.Options()
        # fileName, _ = QtWidgets.QFileDialog.getOpenFileName(self, "QFileDialog.getOpenFileName()", "", "All Files (*)",
        #                                           options=options)

        fileName = self.get_filename('Load image')

        if len(fileName) == 0:
            return

        self.original = cv2.imread(fileName)  #.astype(np.float32)
        self.update_current(self.original)
        print(self.original.dtype)

        self.pixmap = QtGui.QPixmap(fileName)
        self.ui.label_imagebox.setPixmap(self.pixmap)

    def clicked_save(self):
        if self.current is None:
            QtWidgets.QMessageBox.warning(self, "No file to save",
                                          "File can't be saved.")
            return

        filePath, _ = QtWidgets.QFileDialog.getSaveFileName(
            self, "Save Image", "",
            "PNG(*.png);;JPEG(*.jpg *.jpeg);;All Files(*.*) ")
        print('filepath')
        print(len(filePath))
        print(filePath)
        print('_')
        print(_)
        if len(filePath) != 0:
            cv2.imwrite(filePath, self.current)

    def clicked_mirror(self):
        if self.check_canvas() == None: return
        img = image_editor.mirror(self.current)
        # self.update_current_minus_one(self.current.copy())
        # self.update_current(img)
        # self.update_imagebox()
        self.perform_updates(img)

    def clicked_flip(self):
        if self.check_canvas() == None: return
        img = image_editor.flip_upsidedown(self.current)
        # self.update_current(img)
        # self.update_imagebox()
        self.perform_updates(img)

    def clicked_brightnessup(self):
        img = image_editor.brightness_contrast(self.current, 1, 1)
        self.perform_updates(img)

    def clicked_brightnessdown(self):
        img = image_editor.brightness_contrast(self.current, 1, -1)
        # img = image_editor.brightness_down(self.current, 1, 1)
        self.perform_updates(img)

    def clicked_contrastup(self):
        img = image_editor.brightness_contrast(self.current, 1.01, 0)
        self.perform_updates(img.astype(np.uint8))

    def clicked_contrastdown(self):
        img = image_editor.brightness_contrast(self.current, 0.99, 0)
        self.perform_updates(img)

    def clicked_swap_rg(self):
        if self.check_canvas() == None: return
        if len(self.current.shape) == 2:
            error = 'No colors to swap.'
            QtWidgets.QMessageBox.warning(self, 'Image is grayscale.', error)
        else:
            img = image_editor.swap_gr(self.current)
            # self.update_current(img)
            # self.update_imagebox()
            self.perform_updates(img)

    def clicked_swap_gb(self):
        if self.check_canvas() == None: return
        if len(self.current.shape) == 2:
            error = 'No colors to swap.'
            QtWidgets.QMessageBox.warning(self, 'Image is grayscale.', error)
        else:
            img = image_editor.swap_bg(self.current)
            # self.update_current(img)
            # self.update_imagebox()
            self.perform_updates(img)

    def clicked_swap_br(self):
        if self.check_canvas() == None: return
        if len(self.current.shape) == 2:
            error = 'No colors to swap.'
            QtWidgets.QMessageBox.warning(self, 'Image is grayscale.', error)
        else:
            img = image_editor.swap_rb(self.current)
            # self.update_current(img)
            # self.update_imagebox()
            self.perform_updates(img)

    def clicked_negative(self):
        if self.check_canvas() == None: return
        img = image_editor.negative_color_picture(self.current)
        self.perform_updates(img)

    def clicked_converttobw(self):
        if self.check_canvas() == None: return
        img = image_editor.convert_to_bw(self.current)
        self.perform_updates(img)

    def clicked_replacecolor(self):
        if self.check_canvas() == None: return
        Dialog_replacecolor = QtWidgets.QDialog()
        dialog = replace_color.Ui_Dialog_replacecolor()
        dialog.setupUi(Dialog_replacecolor)
        Dialog_replacecolor.show()
        result = Dialog_replacecolor.exec_()

        if dialog.radioButton_greater.isChecked():
            operator = '>'
        elif dialog.radioButton_lesser.isChecked():
            operator = '<'
        else:
            operator = '='

        if result:
            img = image_editor.replace_color(self.current,
                                             dialog.lineEdit.text(),
                                             dialog.lineEdit_2.text(),
                                             operator)
            self.perform_updates(img)

    def clicked_blur_median(self):
        if self.check_canvas() == None: return
        Dialog = QtWidgets.QDialog()
        ui = blur_median.Ui_Dialog()
        ui.setupUi(Dialog)
        Dialog.show()
        result = Dialog.exec_()

        if result == False:
            print('rejected')
            return

        elif result and (int(ui.spinBox_kernelsize.text()) == 0
                         or int(ui.spinBox_numberofapplications.text()) == 0):
            return

        elif result and int(ui.spinBox_kernelsize.text()) % 2 == 0:
            print('try again')
            error = 'Kernel size can only be odd.'
            QtWidgets.QMessageBox.warning(self, 'Error', error)
            self.clicked_blur_median()
        elif result:
            img = image_editor.median_blur(
                self.current, ui.spinBox_kernelsize.text(),
                ui.spinBox_numberofapplications.text())
            print('accepted')
            # self.update_current(img)
            # self.update_imagebox()
            self.perform_updates(img)

    def clicked_blur_gaussian(self):
        if self.check_canvas() == None: return
        Dialog = QtWidgets.QDialog()
        ui = blur_gaussian.Ui_Dialog()
        ui.setupUi(Dialog)
        Dialog.show()
        result = Dialog.exec_()

        if result == False:
            print('rejected')
            return

        elif result and (int(ui.spinBox_kernelsize.text()) == 0
                         or int(ui.spinBox_numberofapplications.text()) == 0):
            return

        elif result and int(ui.spinBox_kernelsize.text()) % 2 == 0:
            print('try again')
            error = 'Kernel size can only be odd.'
            QtWidgets.QMessageBox.warning(self, 'Error', error)
            self.clicked_blur_gaussian()
        elif result:
            img = image_editor.gaussian_blur(
                self.current, ui.spinBox_kernelsize.text(),
                ui.spinBox_numberofapplications.text())
            print('accepted')
            # self.update_current(img)
            # self.update_imagebox()
            self.perform_updates(img)

    def clicked_blur_average(self):
        if self.check_canvas() == None: return
        Dialog = QtWidgets.QDialog()
        ui = blur_average.Ui_Dialog_avgblur()
        ui.setupUi(Dialog)
        Dialog.show()
        result = Dialog.exec_()

        if result == False:
            print('rejected')
            return

        if result and (int(ui.spinBox_kernelsize.text()) == 0
                       or int(ui.spinBox_numberofapplications.text() == 0)):
            return

        elif result:
            img = image_editor.avg_blur(self.current,
                                        ui.spinBox_kernelsize.text(),
                                        ui.spinBox_numberofapplications.text())
            print('accepted')
            # self.update_current(img)
            # self.update_imagebox()
            self.perform_updates(img)

    def clicked_intensity_map(self):
        if self.check_canvas() == None: return
        Dialog = QtWidgets.QDialog()
        ui = heatmap.Ui_Dialog_heatmap()
        ui.setupUi(Dialog)
        Dialog.show()
        result = Dialog.exec_()

        if result:
            img = image_editor.intensity_map(self.current,
                                             ui.comboBox_heatmap.currentText())
            self.perform_updates(img)

    def clicked_pixelate(self):
        if self.check_canvas() == None: return
        Dialog = QtWidgets.QDialog()
        ui = pixelate.Ui_Dialog_pixelate()
        ui.setupUi(Dialog)
        Dialog.show()
        result = Dialog.exec_()

        if result:
            if ui.spinBox_pixelate.text() == 0:
                return
            img = image_editor.pixelate(self.current,
                                        ui.spinBox_pixelate.text())
            self.perform_updates(img)

    def clicked_cartoonify(self):
        if self.check_canvas() == None: return
        Dialog = QtWidgets.QDialog()
        ui = cartoonify.Ui_Dialog_cartoonify()
        ui.setupUi(Dialog)
        Dialog.show()
        result = Dialog.exec_()

        if result:
            img = image_editor.cartoonify(self.current,
                                          ui.spinBox_thresh1.text(),
                                          ui.spinBox_thresh2.text())
            self.perform_updates(img)

    def clicked_gamma(self):
        if self.check_canvas() == None: return
        Dialog = QtWidgets.QDialog()
        ui = gamma.Ui_Dialog()
        ui.setupUi(Dialog)
        Dialog.show()
        result = Dialog.exec_()

        if result:
            img = image_editor.gamma_correction(self.current,
                                                ui.doubleSpinBox_gamma.text())
            self.perform_updates(img)

    def clicked_dither(self):
        if self.check_canvas() == None: return
        Dialog = QtWidgets.QDialog()
        ui = dither.Ui_Dialog_dither()
        ui.setupUi(Dialog)
        Dialog.show()
        result = Dialog.exec_()

        if result:
            img = image_editor.dither(self.current, ui.spinBox_order.text())
            self.perform_updates(img)

    def clicked_canny(self):
        if self.check_canvas() == None: return
        Dialog = QtWidgets.QDialog()
        ui = canny.Ui_Dialog_canny()
        ui.setupUi(Dialog)
        Dialog.show()
        result = Dialog.exec_()

        if result and int(ui.spinBox_kernelsize.text()) % 2 == 0:
            print('try again')
            error = 'Kernel size can only be odd.'
            QtWidgets.QMessageBox.warning(self, 'Error', error)
            self.clicked_canny()
        elif result and int(ui.spinBox_thresh1.text()) == int(
                ui.spinBox_thresh2.text()):
            print('try again')
            error = 'Thresholds cannot be equal.'
            QtWidgets.QMessageBox.warning(self, 'Error', error)
            self.clicked_canny()

        elif result:
            img = image_editor.edge_detection(self.current,
                                              ui.spinBox_thresh1.text(),
                                              ui.spinBox_thresh2.text(),
                                              ui.spinBox_kernelsize.text(),
                                              ui.comboBox.currentText())
            self.perform_updates(img)

    def clicked_gaussian_noise(self):
        if self.check_canvas() == None: return
        Dialog = QtWidgets.QDialog()
        ui = noise_gaussian.Ui_Dialog_gaussian_noise()
        ui.setupUi(Dialog)
        Dialog.show()
        result = Dialog.exec_()

        if result:
            img = image_editor.add_Gaussian_noise(
                self.current, ui.doubleSpinBox_sigma.text(),
                ui.comboBox_channel.currentText())
            # self.update_current(img)
            # self.update_imagebox()
            self.perform_updates(img.astype(np.uint8))

    def clicked_vertical_noise_bands(self):
        if self.check_canvas() == None: return
        Dialog = QtWidgets.QDialog()
        ui = verticalnoisebands.Ui_Dialog_noiseband_vertical()
        ui.setupUi(Dialog)
        Dialog.show()
        result = Dialog.exec_()

        if result:
            if float(ui.spinBox_width.text()) == 0 or float(
                    ui.spinBox_period.text()) == 0 or float(
                        ui.spinBox_magnitude.text()) == 0:
                return
            img = image_editor.band_noise_vertical(self.current,
                                                   ui.spinBox_width.text(),
                                                   ui.spinBox_period.text(),
                                                   ui.spinBox_magnitude.text())
            self.perform_updates(img)

    def clicked_horizontal_noise_bands(self):
        if self.check_canvas() == None: return
        Dialog = QtWidgets.QDialog()
        ui = horizontalnoisebands.Ui_Dialog_horizontalnoise()
        ui.setupUi(Dialog)
        Dialog.show()
        result = Dialog.exec_()

        if result:
            if float(ui.spinBox_width.text()) == 0 or float(
                    ui.spinBox_period.text()) == 0 or float(
                        ui.spinBox_magnitude.text()) == 0:
                return

            img = image_editor.band_noise_horizontal(
                self.current, ui.spinBox_width.text(),
                ui.spinBox_period.text(), ui.spinBox_magnitude.text())
            self.perform_updates(img)

    def clicked_extract_color(self):
        if self.check_canvas() == None: return
        Dialog = QtWidgets.QDialog()
        ui = extractcolor.Ui_Dialog_extractcolor()
        ui.setupUi(Dialog)
        Dialog.show()
        result = Dialog.exec_()

        if result:
            img = image_editor.extract_color(self.current,
                                             ui.lineEdit_extractcolor.text())
            self.perform_updates(img)

    def clicked_add_border(self):
        if self.check_canvas() == None: return
        Dialog = QtWidgets.QDialog()
        ui = addborder.Ui_Dialog_addborder()
        ui.setupUi(Dialog)
        Dialog.show()
        result = Dialog.exec_()

        if result:
            top = int(ui.spinBox_top.text())
            bottom = int(ui.spinBox_bottom.text())
            left = int(ui.spinBox_left.text())
            right = int(ui.spinBox_right.text())
            value = [
                int(ui.spinBox_blue.text()),
                int(ui.spinBox_green.text()),
                int(ui.spinBox_red.text())
            ]

            if top == 0 and bottom == 0 and left == 0 and right == 0:
                return

            img = image_editor.add_border(self.current,
                                          top=top,
                                          bottom=bottom,
                                          left=left,
                                          right=right,
                                          bordertype=ui.comboBox.currentText(),
                                          value=value)

            self.perform_updates(img)

    def clicked_histogramequalization(self):
        if self.check_canvas() == None: return
        img = image_editor.histogram_equalization_bw(self.current)
        self.perform_updates(img)

    def clicked_image_histogram(self):
        if self.check_canvas() == None: return
        img = image_editor.image_histogram(self.current)
        # img[:,:,[0,3]] = img[:,:,[3,0]]
        print(img[:, :, 0].max())
        print(img[:, :, 1].max())
        print(img[:, :, 2].max())
        print(img[:, :, 3].max())
        print(img.dtype)
        # img[:,:,3] = np.ones_like(img[:,:,3]) * 255

        win = QtWidgets.QDialog()
        ui_ = image_histogram.Ui_Dialog()
        ui_.setupUi(win)

        hist_ = QtGui.QImage(img.data, img.shape[1], img.shape[0],
                             img.shape[1] * 4, QtGui.QImage.Format_RGBX8888)

        hist = QtGui.QPixmap(hist_)
        ui_.label_hist.setPixmap(hist)
        win.show()
        win.exec_()

    def clicked_pyramid_blending_loadfiles(self):
        self.filenames_pyramidblend = self.get_filenames(
            'Load three images: two for blending and one mask')
        while len(self.filenames_pyramidblend) != 3 and len(
                self.filenames_pyramidblend
        ) != 0:  #program continues if user selects none or 2
            error = 'Please load exactly three files.'
            QtWidgets.QMessageBox.warning(self, 'Error loading files', error)
            self.filenames_pyramidblend = self.get_filenames(
                'Load three images: two for blending and one mask')

        if len(self.filenames_pyramidblend) == 0:
            return

        self.image0 = cv2.imread(self.filenames_pyramidblend[0])
        self.image1 = cv2.imread(self.filenames_pyramidblend[1])
        self.image2 = cv2.imread(self.filenames_pyramidblend[2])

        self.clicked_pyramid_blending()

    def clicked_pyramid_blending(self):
        Dialog = QtWidgets.QDialog()
        ui = pyramidblending_modified.Ui_Dialog()
        ui.setupUi(Dialog)
        ui.label_image0.setText('....' + self.filenames_pyramidblend[0][-30:])
        ui.label_image1.setText('....' + self.filenames_pyramidblend[1][-30:])
        ui.label_image2.setText('....' + self.filenames_pyramidblend[2][-30:])
        Dialog.show()
        result = Dialog.exec_()

        if result and (ui.comboBox_image0.currentText() == ui.comboBox_image1.currentText() or \
            ui.comboBox_image1.currentText() == ui.comboBox_image2.currentText() or \
                ui.comboBox_image2.currentText() == ui.comboBox_image0.currentText()):
            QtWidgets.QMessageBox.warning(
                self, 'Error', 'An image could either be Top, Bottom or Mask')
            return self.clicked_pyramid_blending()

        levels = int(ui.spinBox_levels.text())

        choice_dict = {
            ui.comboBox_image0.currentText(): self.image0,
            ui.comboBox_image1.currentText(): self.image1,
            ui.comboBox_image2.currentText(): self.image2
        }

        if result:
            img = image_editor.blending_pyramids(choice_dict['Top'],
                                                 choice_dict['Bottom'],
                                                 choice_dict['Mask'], levels)
            cv2.imwrite('saved_image.png', img)
            self.perform_updates(img)

    def get_filenames(self, msg):
        filenames, _ = QtWidgets.QFileDialog.getOpenFileNames(
            self,
            msg,
            '',
        )
        print(filenames)
        return filenames

    def clicked_alpha_blending(self):
        filenames = self.get_filenames('Load two images only')
        while len(filenames) != 2 and len(
                filenames) != 0:  #program continues if user selects none or 2
            error = 'Please load exactly two files.'
            QtWidgets.QMessageBox.warning(self, 'Error loading files', error)
            filenames = self.get_filenames('Load two images only')

        if len(filenames) == 0:
            return

        image1 = cv2.imread(filenames[0])
        image2 = cv2.imread(filenames[1])

        if image1.shape != image2.shape:
            QtWidgets.QMessageBox.warning(self, 'Cannot blend files',
                                          'Images are not the same shape.')
            return

        Dialog = QtWidgets.QDialog()
        ui = alphablending.Ui_Dialog_alphablending()
        ui.setupUi(Dialog)
        Dialog.show()
        result = Dialog.exec_()

        if result:
            alpha = float(ui.doubleSpinBox_alpha.text())
            img = image_editor.blend_images(image1, image2, alpha)
            self.perform_updates(img.astype(np.uint8))

    def resize_image(self):
        if self.check_canvas() == None: return

        Dialog = QtWidgets.QDialog()
        ui = resize_ui.Ui_Dialog_resize()
        ui.setupUi(Dialog)
        Dialog.show()
        result = Dialog.exec_()

        h = ui.doubleSpinBox_height.text()
        w = ui.doubleSpinBox_width.text()

        if result:
            try:
                img = image_editor.resize_image(self.current, w, h)
            except:
                QtWidgets.QMessageBox.warning(self, "Can't resize image.",
                                              'Please try again.')
                return
            self.perform_updates(img)

    def clicked_rotate_image(self):
        if self.check_canvas() == None: return
        img = image_editor.rotate_image(self.current)
        self.perform_updates(img)

    def clicked_apply_mask(self):
        if self.check_canvas() == None: return 1
        filename = self.get_filename('Load mask image')
        if len(filename) == 0:
            return

        mask = cv2.imread(filename, 0)

        if (self.current.shape[0], self.current.shape[1]) != (mask.shape[0],
                                                              mask.shape[1]):
            QtWidgets.QMessageBox.warning(self, "Can't apply mask",
                                          'Images are not the same shape.')
            return

        if len(self.current.shape) > 2:
            img = image_editor.mask_result_color(self.current, mask)
        else:
            img = image_editor.mask_result_bw(self.current, mask)
        self.perform_updates(img)
    def __init__(self, *args, **kwargs):
        super().__init__(*args, **kwargs)
        self.ui = Ui_MainWindow()
        self.ui.setupUi(self)

        self.ui.actionOpen.triggered.connect(self.clicked_open)
        self.ui.actionMirror.triggered.connect(self.clicked_mirror)
        self.ui.actionFlip_Upside_Down.triggered.connect(self.clicked_flip)
        self.ui.actionBrightness_Increase.triggered.connect(
            self.clicked_brightnessup)
        self.ui.actionBrightness_Decrease.triggered.connect(
            self.clicked_brightnessdown)
        self.ui.actionContrast_Increase.triggered.connect(
            self.clicked_contrastup)
        self.ui.actionContrast_Decrease.triggered.connect(
            self.clicked_contrastdown)
        self.ui.actionRed_Green.triggered.connect(self.clicked_swap_rg)
        self.ui.actionGreen_Blue.triggered.connect(self.clicked_swap_gb)
        self.ui.actionBlue_Red.triggered.connect(self.clicked_swap_br)
        self.ui.actionNegative.triggered.connect(self.clicked_negative)
        self.ui.actionBlack_and_White.triggered.connect(
            self.clicked_converttobw)
        self.ui.actionReplace_Color.triggered.connect(
            self.clicked_replacecolor)
        self.ui.actionMedian.triggered.connect(self.clicked_blur_median)
        self.ui.actionGaussian_2.triggered.connect(self.clicked_blur_gaussian)
        self.ui.actionAverage.triggered.connect(self.clicked_blur_average)
        self.ui.actionIntensity_Map.triggered.connect(
            self.clicked_intensity_map)
        self.ui.actionPixelate.triggered.connect(self.clicked_pixelate)
        self.ui.actionCartoonify.triggered.connect(self.clicked_cartoonify)
        self.ui.actionGamma_Correction.triggered.connect(self.clicked_gamma)
        self.ui.actionDithering.triggered.connect(self.clicked_dither)
        self.ui.actionEdge_Detection.triggered.connect(self.clicked_canny)
        self.ui.actionGaussian.triggered.connect(self.clicked_gaussian_noise)
        self.ui.actionVertical_Bands.triggered.connect(
            self.clicked_vertical_noise_bands)
        self.ui.actionHorizontal_Bands.triggered.connect(
            self.clicked_horizontal_noise_bands)
        self.ui.actionExtract_Color.triggered.connect(
            self.clicked_extract_color)
        self.ui.actionAdd_Border.triggered.connect(self.clicked_add_border)
        self.ui.actionHistogram_Equalization.triggered.connect(
            self.clicked_histogramequalization)
        self.ui.actionImage_Histogram.triggered.connect(
            self.clicked_image_histogram)
        self.ui.actionSave.triggered.connect(self.clicked_save)
        self.ui.actionPyramid.triggered.connect(
            self.clicked_pyramid_blending_loadfiles)
        self.ui.actionAlpha.triggered.connect(self.clicked_alpha_blending)
        self.ui.actionResize.triggered.connect(self.resize_image)
        self.ui.actionRotate.triggered.connect(self.clicked_rotate_image)
        self.ui.actionApply_Mask.triggered.connect(self.clicked_apply_mask)
        self.ui.actionExit.triggered.connect(self.clicked_exit)

        self.ui.actionUndo.triggered.connect(self.clicked_undo)
        self.ui.actionRedo.triggered.connect(self.clicked_redo)
        self.original = None  #Original Image
        self.current = None  # this is the image in progress
        self.redo = None
        self.currentminusone = None
        self.counter_undo = 0
        self.counter_redo = 0
class Ui_Dialog(object):
    def login(self):
        correct_user_name = "HOTEL"  #User name
        correct_password = "******"  #Password

        user_name = self.txt_user_name.text()
        password = self.txt_password.text()
        if (user_name == correct_user_name and password == correct_password):

            Dialog.hide()

            self.window = QtWidgets.QMainWindow()
            self.ui1 = Ui_MainWindow()
            self.ui1.setupUi(self.window)
            self.window.show()

        elif (user_name == correct_user_name):
            self.txt_password.setText("")
            msg = QMessageBox()
            msg.setWindowTitle("Error")
            msg.setText("Wrong Password")
            msg.setIcon(QMessageBox.Critical)
            msg.exec_()
        elif (password == correct_password):
            self.txt_user_name.setText("")
            msg = QMessageBox()
            msg.setWindowTitle("Error")
            msg.setText("Wrong Username")
            msg.setIcon(QMessageBox.Critical)
            msg.exec_()
        else:
            self.txt_user_name.setText("")
            self.txt_password.setText("")
            msg = QMessageBox()
            msg.setWindowTitle("Error")
            msg.setText("Wrong Username\nWrong Password")
            msg.setIcon(QMessageBox.Critical)
            msg.exec_()

    def setupUi(self, Dialog):
        Dialog.setObjectName("Dialog")
        Dialog.resize(580, 501)
        self.txt_user_name = QtWidgets.QLineEdit(Dialog)
        self.txt_user_name.setGeometry(QtCore.QRect(220, 120, 300, 51))
        font = QtGui.QFont()
        font.setPointSize(15)
        self.txt_user_name.setFont(font)
        self.txt_user_name.setText("")
        self.txt_user_name.setObjectName("txt_user_name")

        self.lbl_username = QtWidgets.QLabel(Dialog)
        self.lbl_username.setGeometry(QtCore.QRect(46, 120, 151, 51))
        font = QtGui.QFont()
        font.setPointSize(20)
        self.lbl_username.setFont(font)
        self.lbl_username.setObjectName("lbl_username")

        self.txt_password = QtWidgets.QLineEdit(Dialog)
        self.txt_password.setGeometry(QtCore.QRect(224, 210, 300, 51))
        font = QtGui.QFont()
        font.setPointSize(15)
        self.txt_password.setFont(font)
        #self.txt_password.setCursor(QtGui.QCursor(QtCore.Qt.IBeamCursor))
        #self.txt_password.setFocusPolicy(QtCore.Qt.StrongFocus)
        self.txt_password.setToolTip("")
        self.txt_password.setText("")
        self.txt_password.setObjectName("txt_password")
        self.txt_password.setEchoMode(QtWidgets.QLineEdit.Password)

        self.lbl_password = QtWidgets.QLabel(Dialog)
        self.lbl_password.setGeometry(QtCore.QRect(50, 210, 151, 51))
        font = QtGui.QFont()
        font.setPointSize(20)
        self.lbl_password.setFont(font)
        self.lbl_password.setObjectName("lbl_password")

        self.btn_login = QtWidgets.QPushButton(Dialog)
        self.btn_login.setGeometry(QtCore.QRect(224, 302, 151, 51))
        font = QtGui.QFont()
        font.setPointSize(20)
        self.btn_login.setFont(font)
        self.btn_login.setObjectName("btn_login")

        self.btn_login.clicked.connect(self.login)

        self.retranslateUi(Dialog)
        QtCore.QMetaObject.connectSlotsByName(Dialog)

    def retranslateUi(self, Dialog):
        _translate = QtCore.QCoreApplication.translate
        Dialog.setWindowTitle(_translate("Dialog", "Dialog"))
        self.lbl_username.setText(_translate("Dialog", "User Name"))
        self.lbl_password.setText(_translate("Dialog", "Password"))
        self.btn_login.setText(_translate("Dialog", "Login"))