コード例 #1
0
class MainView(QMainWindow):
  def __init__(self, title, parent=None):
    super(MainView, self).__init__(parent)
    self.setWindowTitle(title)

    
    self.vbox = QWidget(self)
    self.vlayout = QVBoxLayout(self.vbox)
    self.vlayout.setAlignment(Qt.AlignTop)
    
    # Create labeled combobox in vbox.
    self.labeled_combobox = ZLabeledComboBox(self.vbox, "LabledCombobox", orientation=Qt.Horizontal)
    self.vlayout.addWidget(self.labeled_combobox)
  
    #self.vbox.setLayout(self.vlayout)
    self.labeled_combobox.setGeometry(0, 0, 160, 60)

    self.labeled_combobox.add_activated_callback(self.combobox_activated)
      
    self.labeled_combobox.set_label("Months")
    items = ["January", "Februaty", "March", "April", "May", "June", "July", 
             "August",  "September", "October", "November", "December"]
             
    self.labeled_combobox.add_items(items)
    
    self.setCentralWidget(self.vbox)
    self.show()

  def get_labeled_combobox(self):
    return self.labeled_combobox
    
  # comobobox activated callback. 
  def combobox_activated(self, text):
    print("MainView.combobox_activated:{}".format(text))
コード例 #2
0
class MainView(ZApplicationView):
    # Inner classes
    #--------------------------------------------
    class SourceImageView(ZOpenCVImageView):
        def __init__(self, parent):
            ZOpenCVImageView.__init__(self, parent)

        def load(self, filename):
            self.load_opencv_image(filename)
            self.update()

    class DetectedImageView(ZOpenCVImageView):
        def __init__(self, parent):
            ZOpenCVImageView.__init__(self, parent)

        def load(self, filename):
            source_image = self.load_opencv_image(filename)
            self.gray_image = cv2.cvtColor(source_image, cv2.COLOR_RGB2GRAY)

        def detect(self, adaptive_method_id, threshold_type_id, block_size,
                   threshold1, threshold2):
            MAX_PIXEL_VALUE = 255
            C = 9.0

            adapted_image = cv2.adaptiveThreshold(self.gray_image,
                                                  MAX_PIXEL_VALUE,
                                                  adaptive_method_id,
                                                  threshold_type_id,
                                                  block_size, C)

            detected_image = cv2.Canny(adapted_image, threshold1, threshold2)

            self.set_opencv_image(detected_image)
            self.update()

    #--------------------------------------------

    # MainView Constructor
    def __init__(self, title, x, y, width, height):
        super(MainView, self).__init__(title, x, y, width, height)

        filename = "../images/SuperCar2.png"

        # 1 Create first imageview.
        self.source_image_view = self.SourceImageView(self)

        # 2 Create second imageview.
        self.detected_image_view = self.DetectedImageView(self)

        # 3 Load the file
        self.load_file(filename)

        # 4 Add imageviews to the main_layout which is a horizontal layouter.
        self.add(self.source_image_view)
        self.add(self.detected_image_view)

        self.detected_image_view.detect(self.adaptive_method_id,
                                        self.threshold_type_id,
                                        self.block_size, self.threshold1,
                                        self.threshold2)

        self.show()

    def add_control_pane(self, fixed_width=220):
        # Control pane widget
        self.block_size = 11
        self.vpane = ZVerticalPane(self, fixed_width)

        self.adaptive_method_id = 0
        self.threshold_type_id = 0

        self.methods = {
            "ADAPTIVE_THRESH_MEAN_C": cv2.ADAPTIVE_THRESH_MEAN_C,
            "ADAPTIVE_THRESH_GAUSSIAN_C": cv2.ADAPTIVE_THRESH_GAUSSIAN_C
        }

        self.types = {
            "THRESH_BINARY": cv2.THRESH_BINARY,
            "THRESH_BINARY_INV": cv2.THRESH_BINARY_INV
        }

        self.adaptive_method = ZLabeledComboBox(self.vpane, "AdaptiveMethod")
        self.adaptive_method.add_items(list(self.methods.keys()))
        self.adaptive_method.add_activated_callback(
            self.adaptive_method_activated)

        self.threshold_type = ZLabeledComboBox(self.vpane, "ThresholdType")
        self.threshold_type.add_items(list(self.types.keys()))
        self.threshold_type.add_activated_callback(
            self.threshold_type_activated)

        self.block_size_slider = ZLabeledSlider(self.vpane,
                                                "BlockSize",
                                                take_odd=True,
                                                minimum=3,
                                                maximum=43,
                                                value=self.block_size,
                                                fixed_width=200)
        self.block_size_slider.add_value_changed_callback(
            self.block_size_changed)
        self.vpane.add(self.adaptive_method)
        self.vpane.add(self.threshold_type)
        self.vpane.add(self.block_size_slider)

        self.threshold1 = 50
        self.threshold2 = 100

        self.threshold1_slider = ZLabeledSlider(self.vpane,
                                                "Threshold1",
                                                take_odd=True,
                                                minimum=0,
                                                maximum=300,
                                                value=self.threshold1)
        self.threshold1_slider.add_value_changed_callback(
            self.slider1_value_changed)

        self.threshold2_slider = ZLabeledSlider(self.vpane,
                                                "Threshold2",
                                                take_odd=True,
                                                minimum=0,
                                                maximum=300,
                                                value=self.threshold2)
        self.threshold2_slider.add_value_changed_callback(
            self.slider2_value_changed)

        self.vpane.add(self.threshold1_slider)
        self.vpane.add(self.threshold2_slider)

        self.set_right_dock(self.vpane)

    def file_open(self):
        options = QFileDialog.Options()
        filename, _ = QFileDialog.getOpenFileName(
            self,
            "FileOpenDialog",
            "",
            "All Files (*);;Image Files (*.png;*jpg;*.jpeg)",
            options=options)
        if filename:
            self.load_file(filename)

    def load_file(self, filename):
        self.source_image_view.load(filename)
        self.detected_image_view.load(filename)
        self.detected_image_view.detect(self.adaptive_method_id,
                                        self.threshold_type_id,
                                        self.block_size, self.threshold1,
                                        self.threshold2)
        self.set_filenamed_title(filename)

    def block_size_changed(self, value):
        self.block_size = int(value)
        if self.block_size % 2 == 0:
            # Block size should be odd.
            self.block_size = int((self.block_size * 2) / 2 + 1)
        #print("block_size_changed:{}".format(block_size))
        self.detected_image_view.detect(self.adaptive_method_id,
                                        self.threshold_type_id,
                                        self.block_size, self.threshold1,
                                        self.threshold2)

    def adaptive_method_activated(self, text):
        self.adaptive_method_id = self.methods[text]
        #print("adaptive_method_activated:{}{}".format(text, self.adaptive_method_id))
        self.detected_image_view.detect(self.adaptive_method_id,
                                        self.threshold_type_id,
                                        self.block_size, self.threshold1,
                                        self.threshold2)

    def threshold_type_activated(self, text):
        self.threshold_type_id = self.types[text]
        #print("threshold_type_activated:{}{}".format(text, self.threshold_type_id))
        self.detected_image_view.detect(self.adaptive_method_id,
                                        self.threshold_type_id,
                                        self.block_size, self.threshold1,
                                        self.threshold2)

    def slider1_value_changed(self, value):
        self.threshold1 = int(value)
        #print("slider1_value_changed:{}".format(value))
        self.detected_image_view.detect(self.adaptive_method_id,
                                        self.threshold_type_id,
                                        self.block_size, self.threshold1,
                                        self.threshold2)

    def slider2_value_changed(self, value):
        self.threshold2 = int(value)
        #print("slider2_value_changed:{}".format(value))
        self.detected_image_view.detect(self.adaptive_method_id,
                                        self.threshold_type_id,
                                        self.block_size, self.threshold1,
                                        self.threshold2)
コード例 #3
0
class MainView(ZApplicationView):
  # Inner classes
  #--------------------------------------------
  class SourceImageView(ZOpenCVImageView):
    def __init__(self, parent):
      ZOpenCVImageView.__init__(self, parent)

    def load(self, filename):
      self.load_opencv_image(filename)
      self.update()

  class BinarizedImageView(ZOpenCVImageView):
    def __init__(self, parent):
      ZOpenCVImageView.__init__(self, parent)
      
    def load(self, filename):
      source_image = self.load_opencv_image(filename)
      image =  cv2.GaussianBlur(source_image, (3,3), 0, 0, borderType = cv2.BORDER_DEFAULT );

      self.gray_image = cv2.cvtColor(source_image, cv2.COLOR_RGB2GRAY)
             
    def binarize(self, adaptive_method_id, threshold_type_id, block_size):
      MAX_PIXEL_VALUE = 255
      C               = 9.0
    
      binarizered_image = cv2.adaptiveThreshold(self.gray_image,  MAX_PIXEL_VALUE, 
          adaptive_method_id, threshold_type_id, block_size,  C);
          
      self.set_opencv_image(binarizered_image)
      self.update()
      
  #--------------------------------------------
  


  # MainView Constructor
  def __init__(self, title, x, y, width, height):
    super(MainView, self).__init__(title, x, y, width, height)

    filename = "images/flower.png"
    
    # 1 Create first imageview.
    self.source_image_view = self.SourceImageView(self) 

    # 2 Create second imageview.
    self.binarized_image_view = self.BinarizedImageView(self) 
  
    # 3 Load the file
    self.load_file(filename)
      
    # 4 Add two image views to a main_layout of this main view.
    self.add(self.source_image_view)
    self.add(self.binarized_image_view)

    self.show()


  def add_control_pane(self, fixed_width=220):
    # Control pane widget
    self.vpane = ZVerticalPane(self, fixed_width)
    
    self.block_size         = 11
    self.adaptive_method_id = 0;
    self.threshold_type_id  = 0;

    
    self.methods = {"ADAPTIVE_THRESH_MEAN_C": cv2.ADAPTIVE_THRESH_MEAN_C, 
                    "ADAPTIVE_THRESH_GAUSSIAN_C": cv2.ADAPTIVE_THRESH_GAUSSIAN_C}
    self.types   = {"THRESH_BINARY":  cv2.THRESH_BINARY  , 
                    "THRESH_BINARY_INV": cv2.THRESH_BINARY_INV }
    
    self.adaptive_method = ZLabeledComboBox(self.vpane, "AdaptiveMethod")
    self.adaptive_method.add_items(list(self.methods.keys() ))
    self.adaptive_method.add_activated_callback(self.adaptive_method_activated)
    
    self.threshold_type  = ZLabeledComboBox(self.vpane, "ThresholdType")
    self.threshold_type.add_items(list(self.types.keys()) )
    self.threshold_type.add_activated_callback(self.threshold_type_activated)
    
    self.labeled_slider = ZLabeledSlider(self.vpane, "BlockSize", take_odd =True,  
              minimum=3, maximum=43, value=self.block_size, fixed_width=200)
    self.labeled_slider.add_value_changed_callback(self.slider_value_changed)
    
    self.vpane.add(self.adaptive_method)
    self.vpane.add(self.threshold_type)    
    self.vpane.add(self.labeled_slider)

    self.set_right_dock(self.vpane)

  def file_open(self):
    options = QFileDialog.Options()
    filename, _ = QFileDialog.getOpenFileName(self,"FileOpenDialog", "",
                     "All Files (*);;Image Files (*.png;*jpg;*.jpeg)", options=options)
    if filename:
      self.load_file(filename)
      
  def load_file(self, filename):
    self.source_image_view.load(filename)
    self.binarized_image_view.load(filename)
    self.binarized_image_view.binarize(self.adaptive_method_id, self.threshold_type_id, self.block_size)
    self.set_filenamed_title(filename)
      
  
  def slider_value_changed(self, value):
    self.block_size = int(value)
    if self.block_size % 2 == 0:
      # Block size should be odd.
      self.block_size = int((self.block_size * 2)/2 + 1)
    #print("slider_value_changed:{}".format(block_size))
    self.binarized_image_view.binarize(self.adaptive_method_id, self.threshold_type_id, self.block_size)
     
  def adaptive_method_activated(self, text):
    #print("adaptive_method_activated:{}".format(text))
    self.adaptive_method_id = self.methods[text]
    
    self.binarized_image_view.binarize(self.adaptive_method_id, self.threshold_type_id, self.block_size)
     
  def threshold_type_activated(self, text):
    #print("threshold_type_activated:{}".format(text))
    self.threshold_type_id = self.types[text]
    self.binarized_image_view.binarize(self.adaptive_method_id, self.threshold_type_id, self.block_size)
コード例 #4
0
class MainView(ZApplicationView):
    # Inner classes
    #--------------------------------------------
    class SourceImageView(ZOpenCVImageView):
        def __init__(self, parent):
            ZOpenCVImageView.__init__(self, parent)

        def load(self, filename):
            self.load_opencv_image(filename)
            self.update()

    class NonPhotorealisticView(ZOpenCVImageView):
        def __init__(self, parent):
            ZOpenCVImageView.__init__(self, parent)

        def load(self, filename):
            self.load_opencv_image(filename)
            self.update()

        def transform(self, renderer_type_id):
            print("transform {}".format(renderer_type_id))
            try:
                src_image = self.get_opencv_image()
                self.transformed_image = None

                if src_image.any() != None:
                    if renderer_type_id == MainView.EdgePreserveSmoothingByNormalizedConvolutionFilter:
                        self.transformed_image = cv2.edgePreservingFilter(
                            src_image, flags=1)

                    if renderer_type_id == MainView.EdgePreserveSmoothingByRecursiveFilter:
                        self.transformed_image = cv2.edgePreservingFilter(
                            src_image, flags=2)

                    if renderer_type_id == MainView.DetailEnhancement:
                        self.transformed_image = cv2.detailEnhance(src_image)

                    if renderer_type_id == MainView.MonochromePencilSketch:
                        self.transformed_image, _ = cv2.pencilSketch(
                            src_image,
                            sigma_s=10,
                            sigma_r=0.1,
                            shade_factor=0.03)

                    if renderer_type_id == MainView.ColorPencilSketch:
                        _, self.transformed_image = cv2.pencilSketch(
                            src_image,
                            sigma_s=10,
                            sigma_r=0.1,
                            shade_factor=0.03)

                    if renderer_type_id == MainView.Stylization:
                        self.transformed_image = cv2.stylization(src_image)

                    if self.transformed_image.all() != None:
                        self.set_opencv_image(self.transformed_image)
                        self.update()
            except:
                traceback.print_exc()

    #--------------------------------------------

    # Class variables
    EdgePreserveSmoothingByNormalizedConvolutionFilter = 0
    EdgePreserveSmoothingByRecursiveFilter = 1
    DetailEnhancement = 2
    MonochromePencilSketch = 3
    ColorPencilSketch = 4
    Stylization = 5

    # MainView Constructor
    def __init__(self, title, x, y, width, height):
        super(MainView, self).__init__(title, x, y, width, height)

        self.filename = "../images/Figure.png"

        # 1 Create source imageview.
        self.source_image_view = self.SourceImageView(self)

        # 2 Create NonPhotorealisticView imageview.
        self.transformed_image_view = self.NonPhotorealisticView(self)

        # 3 Add two image views to a main_layout of this main view.
        self.add(self.source_image_view)
        self.add(self.transformed_image_view)

        # 4 Add a labeled combobox to top dock area
        self.add_renderer_combobox()

        # 5 Load the file
        self.load_file(self.filename)

        self.show()

    def add_renderer_combobox(self):
        self.renderer_id = MainView.EdgePreserveSmoothingByNormalizedConvolutionFilter
        self.renderer_combobox = ZLabeledComboBox(self, "RenderingType",
                                                  Qt.Horizontal)

        self.renderers = {
            "EdgePreserve Smoothing By Normalized Convolution Filter":
            MainView.EdgePreserveSmoothingByNormalizedConvolutionFilter,
            "EdgePreserve Smoothing By Recursive Filter":
            MainView.EdgePreserveSmoothingByRecursiveFilter,
            "Detail Enhancement": MainView.DetailEnhancement,
            "Monochrome Pencil Sketch": MainView.MonochromePencilSketch,
            "Color Pencil Sketch": MainView.ColorPencilSketch,
            "Stylization": MainView.Stylization
        }

        self.renderer_combobox.add_items(self.renderers.keys())
        self.renderer_combobox.add_activated_callback(self.renderer_activated)
        self.renderer_combobox.set_current_text(self.renderer_id)

        self.set_top_dock(self.renderer_combobox)

    # Show FileOpenDialog and select an image file.
    def file_open(self):
        options = QFileDialog.Options()
        filename, _ = QFileDialog.getOpenFileName(
            self,
            "FileOpenDialog",
            "",
            "All Files (*);;Image Files (*.png;*jpg;*.jpeg)",
            options=options)
        if filename:
            self.load_file(filename)

    def load_file(self, filename):
        self.filename = filename
        self.source_image_view.load(filename)
        self.transformed_image_view.load(filename)
        self.transformed_image_view.transform(self.renderer_id)

        self.set_filenamed_title(filename)

    def renderer_activated(self, text):
        print("renderer_activated {} {}".format(text, self.renderer_id))
        self.renderer_id = self.renderers[text]
        self.transformed_image_view.transform(self.renderer_id)
コード例 #5
0
ファイル: BruteForceMatcher.py プロジェクト: ivartz/vid2fft
class MainView(ZApplicationView):
  
  FIRST  = 0
  SECOND = 1
  THIRD  = 2

  DETECTOR_AKAZE = 0   
  DETECTOR_BRISK = 1
  DETECTOR_ORB   = 2
  
  SOURCE_IMAGES   = 2
  
  # MainView Construsctor
  def __init__(self, title, x, y, width, height):
    super(MainView, self).__init__(title, x, y, width, height)
    
    self.filenames = ["../images/Tower1.png", "../images/Tower2.png", "../images/Blank.png"]
    
    self.grid = ZGridLayouter(self)
    
    self.image_views = [None, None, None]

    flags = cv2.IMREAD_COLOR

    # Create three imageviews.
    self.image_views[self.FIRST]  = ZOpenCVImageView(self.grid, self.filenames[self.FIRST], flags) 
    self.image_views[self.SECOND] = ZOpenCVImageView(self.grid, self.filenames[self.SECOND], flags) 
    self.image_views[self.THIRD]  = ZOpenCVImageView(self.grid, self.filenames[self.THIRD], flags) 
    self.grid.add(self.image_views[self.FIRST],  0, 0)
    self.grid.add(self.image_views[self.SECOND], 0, 1)
    self.grid.add(self.image_views[self.THIRD],  1, 0, 1, 2)
    
    self.detector_id   =  self.DETECTOR_AKAZE 
 
    self.detector= None

    self.show()

  
  # Redefined add_file_menu.    
  def add_file_menu(self):
    # Typical file menu    
    self.file_menu = QMenu('&File', self)
    self.file_menu.addAction('&New',  self.file_new)
    self.file_menu.addAction('&Open First File', self.first_file_open)
    self.file_menu.addAction('&Open Second File', self.second_file_open)

    self.file_menu.addAction('&Save', self.file_save)
    self.file_menu.addAction('&Save As', self.file_save_as)
    self.file_menu.addAction('&Quit', self.file_quit)
    self.menuBar().addMenu(self.file_menu)

  # Add control pane to MainView
  def add_control_pane(self, fixed_width=200):
    # Control pane widget
    self.vpane = ZVerticalPane(self, fixed_width)
    
    # 1 Stitcher detector selection combobox
    self.detectors = {"AKAZEFeatureDetector" : self.DETECTOR_AKAZE,   
                      "BRISKFeatureDetector" : self.DETECTOR_BRISK,
                      "ORBFeatureDetector"   : self.DETECTOR_ORB}

    self.detector_id = self.DETECTOR_AKAZE
    
    self.detector_combobox = ZLabeledComboBox(self.vpane, "FeatureDetector")
    self.detector_combobox.add_activated_callback(self.detector_changed)
    self.detector_combobox.add_items(self.detectors.keys())
    self.detector_combobox.set_current_text(self.detector_id)
    
    self.best_top = {"10" : 10,   "20" : 20, "30" : 30, "40" : 40,
                     "50" : 50,   "60" : 60, "70" : 70, "80" : 80,
                     "90" : 90,   "100": 100}
    self.best_top_value = 10

    self.best_top_combobox = ZLabeledComboBox(self.vpane, "BestTopNumber")
    self.best_top_combobox.add_activated_callback(self.best_top_changed)
    self.best_top_combobox.add_items(self.best_top.keys())
    self.best_top_combobox.set_current_text(0)
    
    # Match pushbutton
    self.match_button = QPushButton("Match", self.vpane)
    self.match_button.clicked.connect(self.match_button_clicked)

    self.spacer = QLabel("", self.vpane)
    self.matched_number = QLabel("", self.vpane)
    
    self.vpane.add(self.detector_combobox)
    self.vpane.add(self.best_top_combobox)
    self.vpane.add(self.match_button)
    self.vpane.add(self.spacer)
    self.vpane.add(self.matched_number)
    
    self.set_right_dock(self.vpane)
    

  def first_file_open(self):
    options = QFileDialog.Options()
    self.filenames[self.FIRST], _ = QFileDialog.getOpenFileName(self,"FileOpenDialog", "",
                     "All Files (*);;Image Files (*.png;*jpg;*.jpeg)", options=options)
    if self.filenames[self.FIRST]:
      self.image_views[self.FIRST].load_opencv_image(self.filenames[self.FIRST],  cv2.IMREAD_COLOR)
    filename = self.filenames[self.FIRST] + " " + self.filenames[self.SECOND]
    
    self.set_filenamed_title(filename)
      
  def second_file_open(self):
    options = QFileDialog.Options()
    self.filenames[self.SECOND], _ = QFileDialog.getOpenFileName(self,"FileOpenDialog", "",
                     "All Files (*);;Image Files (*.png;*jpg;*.jpeg)", options=options)
    if self.filenames[self.SECOND]:
      self.image_views[self.SECOND].load_opencv_image(self.filenames[self.SECOND],  cv2.IMREAD_COLOR)
    
    filename = self.filenames[self.FIRST] + " " + self.filenames[self.SECOND]
    
    self.set_filenamed_title(filename)
      
  # Detector Combobox changed callback.
  def detector_changed(self, text):
    self.detector_id  = self.detectors[text]

    self.feature_matching()
    
  # Best_top Combobox changed callback.
  def best_top_changed(self, text):
    self.best_top_value  = int(text)
    print("Best top value {}".format(self.best_top_value))
    self.matched_number
    self.feature_matching()
    
  # Match button clicked callback  
  def match_button_clicked(self):
    self.feature_matching()

  # Feature matching operation.    
  def feature_matching(self):
    try:
      self.detector = None
      
      # 1 Create a feature detector by self.detector_id.
      if self.detector_id == self.DETECTOR_AKAZE:
        self.detector =  cv2.AKAZE_create()
        
      if self.detector_id == self. DETECTOR_BRISK:
        self.detector =  cv2.BRISK_create()
        
      if self.detector_id == self.DETECTOR_ORB:
        self.detector =  cv2.ORB_create()
        
      self.keypoints   = [None, None]
      self.descriptors = [None, None]
      self.images      = [None, None]
      
      # 2 Call dector.detectAndCompute
      for i in range(self.SOURCE_IMAGES):
        self.images[i] = self.image_views[i ].get_opencv_image()
        self.keypoints[i], self.descriptors[i] = self.detector.detectAndCompute(self.images[i], None)

      # 3 Create Brute-Force Matcher object.
      bf_matcher = cv2.BFMatcher(cv2.NORM_HAMMING, crossCheck=True)


      # 4 Match two descriptors by using bf_matcher.
      matches = bf_matcher.match(self.descriptors[self.FIRST], self.descriptors[self.SECOND])
      
      # 5 Update matche_number label.      
      self.total_matched_number = len(matches)
      label = "Matched Number:" + str(self.best_top_value) + "/" + str(self.total_matched_number)
      self.matched_number.setText(label)
      print("matched number {}".format(len(matches)))
    
      # 6 Sort matches by distance.  
      matches = sorted(matches, key=lambda x:x.distance)


      # 7 Call cv2.drawMatches.
      out_image = self.images[self.FIRST]
      
      matched_image = cv2.drawMatches(self.images[self.FIRST],  self.keypoints[self.FIRST], 
                                      self.images[self.SECOND], self.keypoints[self.SECOND], 
                                      matches[:self.best_top_value], out_image, flags=2)

      # 8 Set matched_image to the THIRD image_view
      self.image_views[self.THIRD].set_opencv_image(matched_image);
      self.image_views[self.THIRD].update()
      
    except:
      traceback.print_exc()
コード例 #6
0
class MainView(ZApplicationView):
    # Inner classes
    #--------------------------------------------
    class SourceImageView(ZOpenCVImageView):
        def __init__(self, parent):
            ZOpenCVImageView.__init__(self, parent)

        def load(self, filename):
            self.load_opencv_image(filename)
            self.update()

    class TransformedImageView(ZOpenCVImageView):
        def __init__(self, parent):
            ZOpenCVImageView.__init__(self, parent)

        def load(self, filename):
            self.load_opencv_image(filename)

        def transform(self, shape_id, ksize):
            src_image = self.get_opencv_image()

            element = cv2.getStructuringElement(shape_id, (ksize, ksize),
                                                (-1, -1))

            transformed_image = cv2.dilate(src_image, element)

            if transformed_image.all() != None:
                self.set_opencv_image(transformed_image)
                self.update()

    #--------------------------------------------

    # MainView Constructor
    def __init__(self, title, x, y, width, height):
        super(MainView, self).__init__(title, x, y, width, height)

        filename = "../images/HelloWorld.png"

        # 1 Create first imageview.
        self.source_image_view = self.SourceImageView(self)

        # 2 Create second imageview.
        self.transformed_image_view = self.TransformedImageView(self)

        # 3 Load the file
        self.load_file(filename)

        # 4 Add two image views to a main_layout of this main view.
        self.add(self.source_image_view)
        self.add(self.transformed_image_view)

        self.show()

    def add_control_pane(self, fixed_width=220):
        # Control pane widget
        self.vpane = ZVerticalPane(self, fixed_width)

        self.ksize = 3

        self.shape_id = 2

        self.shapes = {"MORPH_RECT": 0, "MORPH_CROSS": 1, "MORPH_ELLIPSE": 2}

        self.shape = ZLabeledComboBox(self.vpane, "AdaptiveMethod")
        self.shape.add_items(list(self.shapes.keys()))
        self.shape.add_activated_callback(self.shape_activated)

        self.ksize_slider = ZLabeledSlider(self.vpane,
                                           "KernelSize",
                                           take_odd=True,
                                           minimum=1,
                                           maximum=33,
                                           value=self.ksize,
                                           fixed_width=200)
        self.ksize_slider.add_value_changed_callback(self.ksize_value_changed)

        self.vpane.add(self.shape)
        self.vpane.add(self.ksize_slider)

        self.set_right_dock(self.vpane)

    def file_open(self):
        options = QFileDialog.Options()
        filename, _ = QFileDialog.getOpenFileName(
            self,
            "FileOpenDialog",
            "",
            "All Files (*);;Image Files (*.png;*jpg;*.jpeg)",
            options=options)
        if filename:
            self.load_file(filename)

    def load_file(self, filename):
        self.source_image_view.load(filename)
        self.transformed_image_view.load(filename)
        self.transformed_image_view.transform(self.shape_id, self.ksize)
        self.set_filenamed_title(filename)

    def ksize_value_changed(self, value):
        self.ksize = int(value)
        if self.ksize % 2 == 0:
            self.ksize = int((self.ksize * 2) / 2 + 1)
            # Block size should be odd.
        #print("ksize_value_changed:{}".format(ksize))
        self.transformed_image_view.transform(self.shape_id, self.ksize)

    def shape_activated(self, text):
        self.shape_id = self.shapes[text]
        print("shape_activated:{} {}".format(text, self.shape_id))
        self.transformed_image_view.transform(self.shape_id, self.ksize)
コード例 #7
0
ファイル: ImageStitcher.py プロジェクト: ivartz/vid2fft
class MainView(ZApplicationView):

    FIRST = 0
    SECOND = 1
    THIRD = 2

    # MainView Constructor
    def __init__(self, title, x, y, width, height):
        super(MainView, self).__init__(title, x, y, width, height)

        self.filenames = [
            "../images/Lake2.png", "../images/Lake1.png", "../images/Blank.png"
        ]

        self.grid = ZGridLayouter(self)

        self.image_views = [None, None, None]

        flags = cv2.IMREAD_COLOR

        # 1 Create first imageview.
        self.image_views[self.FIRST] = ZOpenCVImageView(
            self.grid, self.filenames[self.FIRST], flags)
        self.image_views[self.SECOND] = ZOpenCVImageView(
            self.grid, self.filenames[self.SECOND], flags)
        self.image_views[self.THIRD] = ZOpenCVImageView(
            self.grid, self.filenames[self.THIRD], flags)
        self.grid.add(self.image_views[self.FIRST], 0, 0)
        self.grid.add(self.image_views[self.SECOND], 0, 1)
        self.grid.add(self.image_views[self.THIRD], 1, 0, 1, 2)

        self.mode = False  #cv2.cv.PANORAMA

        #self.stitcher = cv2.createStitcher(self.mode)
        self.stitcher = cv2.Stitcher_create(self.mode)

        self.stitch()

        self.show()

    # Redefined add_file_menu.
    def add_file_menu(self):
        # Typical file menu
        self.file_menu = QMenu('&File', self)
        self.file_menu.addAction('&New', self.file_new)
        self.file_menu.addAction('&Open First File', self.first_file_open)
        self.file_menu.addAction('&Open Second File', self.second_file_open)

        self.file_menu.addAction('&Save', self.file_save)
        self.file_menu.addAction('&Save As', self.file_save_as)
        self.file_menu.addAction('&Quit', self.file_quit)
        self.menuBar().addMenu(self.file_menu)

    # Add control pane to MainView
    def add_control_pane(self, fixed_width=130):
        # Control pane widget
        self.ksize = 11
        self.vpane = ZVerticalPane(self, fixed_width)

        # 1 Stitcher mode selection combobox
        self.modes = {"PANORAM": 0, "SCANS": 1}
        self.labeled_combobox = ZLabeledComboBox(self.vpane, "Sticher Mode")
        self.labeled_combobox.add_activated_callback(self.mode_changed)
        self.labeled_combobox.add_items(self.modes.keys())

        # Stitch pushbutton
        self.stitch_button = QPushButton("Stitch", self.vpane)
        self.stitch_button.clicked.connect(self.stitch)

        self.vpane.add(self.labeled_combobox)

        self.vpane.add(self.stitch_button)
        self.set_right_dock(self.vpane)

    def first_file_open(self):
        options = QFileDialog.Options()
        self.filenames[self.FIRST], _ = QFileDialog.getOpenFileName(
            self,
            "FileOpenDialog",
            "",
            "All Files (*);;Image Files (*.png;*jpg;*.jpeg)",
            options=options)
        if self.filenames[self.FIRST]:
            self.image_views[self.FIRST].load_opencv_image(
                self.filenames[self.FIRST], cv2.IMREAD_COLOR)
        filename = self.filenames[self.FIRST] + " " + self.filenames[
            self.SECOND]
        #self.stitch()

        self.set_filenamed_title(filename)

    def second_file_open(self):
        options = QFileDialog.Options()
        self.filenames[self.SECOND], _ = QFileDialog.getOpenFileName(
            self,
            "FileOpenDialog",
            "",
            "All Files (*);;Image Files (*.png;*jpg;*.jpeg)",
            options=options)
        if self.filenames[self.SECOND]:
            self.image_views[self.SECOND].load_opencv_image(
                self.filenames[self.SECOND], cv2.IMREAD_COLOR)

        filename = self.filenames[self.FIRST] + " " + self.filenames[
            self.SECOND]
        #self.stitch()

        self.set_filenamed_title(filename)

    # combobox changed callback.
    def mode_changed(self, text):
        new_mode = self.modes[text]
        print("prev mode {}".format(self.mode))
        if new_mode != self.mode:
            # Need to recreate stitcher object.
            self.mode = new_mode
            print("Recreated new stitcher {}".format(self.mode))

            self.stitcher = cv2.createStitcher(self.mode)  #

        self.stitch()

    def stitch(self):
        image1 = self.image_views[self.FIRST].get_opencv_image()
        image2 = self.image_views[self.SECOND].get_opencv_image()
        if image1.all() == None or image2.all() == None:
            QMessageBox.critical(self, "Stitcher ",
                                 "First and/or second image is empty!")
            return

        images = (image1, image2)

        status, stitched_image = self.stitcher.stitch(images, self.mode)

        if status == 0:
            print("Stitched two images")
            self.image_views[self.THIRD].set_opencv_image(stitched_image)
            self.image_views[self.THIRD].update()
        else:
            error = self.get_error_message(status)
            QMessageBox.critical(self, "Stitcher Failed", error)

    def get_error_message(self, key):
        key = str(key)

        status = {  #"0": "OK",  
            "1": "Err_Need_More_Image",
            "2": "Err_Homography_Est_Fail",
            "3": "Err_Camera_Params_Adjust_Fail"
        }
        return status[key]
コード例 #8
0
class MainView(ZApplicationView):
    # Inner classes
    #--------------------------------------------
    class SourceImageView(ZOpenCVImageView):
        def __init__(self, parent):
            ZOpenCVImageView.__init__(self, parent)

        def load(self, filename):
            self.load_opencv_image(filename)
            self.update()

    class DetectedImageView(ZOpenCVImageView):
        def __init__(self, parent):
            ZOpenCVImageView.__init__(self, parent)

        def load(self, filename):
            self.load_opencv_image(filename)

        def detect(self, hog_descriptor_id, stride):
            detected_image = self.get_opencv_image().copy()

            self.hog = None

            if hog_descriptor_id == MainView.DEFAULT:
                winSize = (64, 128)
                blockSize = (16, 16)
                blockStride = (8, 8)
                cellSize = (8, 8)
                nbins = 9
                self.hog = cv2.HOGDescriptor(winSize, blockSize, blockStride,
                                             cellSize, nbins)
                self.hog.setSVMDetector(
                    cv2.HOGDescriptor_getDefaultPeopleDetector())

            if hog_descriptor_id == MainView.DAIMLER:
                winSize = (48, 96)
                blockSize = (16, 16)
                blockStride = (8, 8)
                cellSize = (8, 8)
                nbins = 9
                self.hog = cv2.HOGDescriptor(winSize, blockSize, blockStride,
                                             cellSize, nbins)
                self.hog.setSVMDetector(
                    cv2.HOGDescriptor_getDaimlerPeopleDetector())

            if hog_descriptor_id == MainView.USER_DEFINED:
                winSize = (32, 64)
                blockSize = (8, 8)
                blockStride = (4, 4)
                cellSize = (4, 4)
                nbins = 9
                self.hog = cv2.HOGDescriptor(winSize, blockSize, blockStride,
                                             cellSize, nbins)
                self.hog.setSVMDetector(
                    cv2.HOGDescriptor_getDefaultPeopleDetector())

            (rectangles,
             weights) = self.hog.detectMultiScale(detected_image,
                                                  hitThreshold=0,
                                                  winStride=(stride, stride),
                                                  padding=(0, 0),
                                                  scale=1.05,
                                                  finalThreshold=2)

            for (x, y, w, h) in rectangles:
                cv2.rectangle(detected_image, (x, y), (x + w, y + h),
                              (0, 0, 255), 2)

            self.set_opencv_image(detected_image)
            self.update()

    #--------------------------------------------

    DEFAULT = 0
    DAIMLER = 1
    USER_DEFINED = 2

    # MainView Constructor
    def __init__(self, title, x, y, width, height):
        super(MainView, self).__init__(title, x, y, width, height)

        filename = "../images/Pedestrian.png"

        # 1 Create first imageview.
        self.source_image_view = self.SourceImageView(self)

        # 2 Create second imageview.
        self.detected_image_view = self.DetectedImageView(self)

        # 3 Load the file
        self.load_file(filename)

        # 4 Add two image views to a main_layout of this main view.
        self.add(self.source_image_view)
        self.add(self.detected_image_view)

        self.show()

    def add_control_pane(self, fixed_width=220):
        # Control pane widget
        self.vpane = ZVerticalPane(self, fixed_width)

        self.stride = 6

        self.hog_descriptor_id = self.DEFAULT

        self.hog_descriptors = {
            "Default": self.DEFAULT,
            "Daimler": self.DAIMLER,
            "UserDefined": self.USER_DEFINED
        }

        self.hog_descriptor = ZLabeledComboBox(self.vpane, "HOG Descriptor")
        self.hog_descriptor.add_items(list(self.hog_descriptors.keys()))
        self.hog_descriptor.add_activated_callback(
            self.hog_descriptor_activated)
        self.hog_descriptor.set_current_text(self.hog_descriptor_id)

        self.stride_slider = ZLabeledSlider(self.vpane,
                                            "WinStride",
                                            take_odd=False,
                                            minimum=1,
                                            maximum=16,
                                            value=self.stride,
                                            fixed_width=180)
        self.stride_slider.add_value_changed_callback(
            self.stride_value_changed)

        self.vpane.add(self.hog_descriptor)
        self.vpane.add(self.stride_slider)

        self.set_right_dock(self.vpane)

    def file_open(self):
        options = QFileDialog.Options()
        filename, _ = QFileDialog.getOpenFileName(
            self,
            "FileOpenDialog",
            "",
            "All Files (*);;Image Files (*.png;*jpg;*.jpeg)",
            options=options)
        if filename:
            self.load_file(filename)

    def load_file(self, filename):
        self.source_image_view.load(filename)
        self.detected_image_view.load(filename)
        self.detected_image_view.detect(self.hog_descriptor_id, self.stride)
        self.set_filenamed_title(filename)

    def stride_value_changed(self, value):
        self.stride = int(value)
        self.detected_image_view.detect(self.hog_descriptor_id, self.stride)

    def hog_descriptor_activated(self, text):
        self.hog_descriptor_id = self.hog_descriptors[text]
        print("hog_descriptor_activated:{} {}".format(text,
                                                      self.hog_descriptor_id))
        self.detected_image_view.detect(self.hog_descriptor_id, self.stride)
コード例 #9
0
ファイル: ShapeMatcher.py プロジェクト: ivartz/vid2fft
class MainView(ZApplicationView):

    # Inner classes
    #---------------------------------------------------------
    class BinarizedImageView(ZOpenCVImageView):
        def __init__(self, parent, filename=None, flags=cv2.IMREAD_COLOR):
            ZOpenCVImageView.__init__(self, parent, filename, flags)
            src_mage = self.get_opencv_image()
            self.gray_image = cv2.cvtColor(src_mage, cv2.COLOR_BGR2GRAY)
            print("BinarizedImage")
            self.binarized_image = None

        def get_binarized_image(self):
            return self.binarized_image

        def binarize(self, threshold_type, threshold_value):
            try:
                THRESHOLD_VALUE_MAX = 255
                _, self.binarized_image = cv2.threshold(
                    self.gray_image, threshold_value, THRESHOLD_VALUE_MAX,
                    threshold_type)
                #self.update()
                #print("bin {}".format(self.binarized_image.shape))

                return self.binarized_image
            except:
                traceback.print_exc()

    class MatchedImageView(ZOpenCVImageView):
        def __init__(self, parent, filename=None, flags=cv2.IMREAD_COLOR):
            ZOpenCVImageView.__init__(self, parent, filename, flags)

        def set_matched_image(self, image):
            self.set_opencv_image(image)
            self.update()

        def set_image(self, image):
            self.set_opencv_image(image)
            self.update()

    #---------------------------------------------------------

    FIRST = 0
    SECOND = 1
    THIRD = 2

    # MainView Constructor
    def __init__(self, title, x, y, width, height):
        super(MainView, self).__init__(title, x, y, width, height)

        self.filenames = [
            "../images/CatImage.png", "../images/CatFace.png",
            "../images/Blank.png"
        ]

        self.image_views = [None, None, None]

        self.grid = ZGridLayouter(self)

        flags = cv2.IMREAD_COLOR

        # 1 Create three image views.
        self.image_views[self.FIRST] = self.BinarizedImageView(
            self, self.filenames[self.FIRST], flags)
        self.image_views[self.SECOND] = self.BinarizedImageView(
            self, self.filenames[self.SECOND], flags)
        self.image_views[self.THIRD] = self.MatchedImageView(
            self, self.filenames[self.THIRD], flags)

        # 2 Add the image views to the grid layouter.
        self.grid.add(self.image_views[self.FIRST], 0, 0)
        self.grid.add(self.image_views[self.SECOND], 0, 1)
        self.grid.add(self.image_views[self.THIRD], 1, 0, 1, 2)

        filename = self.filenames[self.FIRST] + " " + self.filenames[
            self.SECOND]

        self.set_filenamed_title(filename)

        self.show()

    # Redefined add_file_menu.
    def add_file_menu(self):
        # Typical file menu
        self.file_menu = QMenu('&File', self)
        self.file_menu.addAction('&New', self.file_new)
        self.file_menu.addAction('&Open First File', self.first_file_open)
        self.file_menu.addAction('&Open Second File', self.second_file_open)

        self.file_menu.addAction('&Save', self.file_save)
        self.file_menu.addAction('&Save As', self.file_save_as)
        self.file_menu.addAction('&Quit', self.file_quit)
        self.menuBar().addMenu(self.file_menu)

    def add_control_pane(self, fixed_width=200):
        # Control pane widget
        self.threshold_value = 11
        self.vpane = ZVerticalPane(self, fixed_width)

        self.threshold_type_id = 0

        self.types = {
            "THRESH_BINARY": cv2.THRESH_BINARY,
            "THRESH_BINARY_INV": cv2.THRESH_BINARY_INV,
            "THRESH_TRUNC": cv2.THRESH_TRUNC,
            "THRESH_TOZERO": cv2.THRESH_TOZERO,
            "THRESH_TOZERO_INV": cv2.THRESH_TOZERO_INV,
            "THRESH_OTSU": cv2.THRESH_OTSU,
            "THRESH_TRIANGLE": cv2.THRESH_TRIANGLE
        }

        self.threshold_type = ZLabeledComboBox(self.vpane, "ThresholdType")
        self.threshold_type.add_items(list(self.types.keys()))
        self.threshold_type.add_activated_callback(
            self.threshold_type_activated)
        self.threshold_type.set_current_text(self.threshold_type_id)

        self.threshold_value = 60

        self.threshold_value_slider = ZLabeledSlider(
            self.vpane,
            "ThresholdValue",
            take_odd=True,
            minimum=0,
            maximum=255,
            value=self.threshold_value,
            fixed_width=200)
        self.threshold_value_slider.add_value_changed_callback(
            self.threshold_value_changed)
        self.vpane.add(self.threshold_type)
        self.vpane.add(self.threshold_value_slider)

        self.match_min_size = 60
        self.match_max_size = 240

        self.match_min_size_slider = ZLabeledSlider(self.vpane,
                                                    "MatchMinSize",
                                                    take_odd=True,
                                                    minimum=10,
                                                    maximum=100,
                                                    value=self.match_min_size)
        self.match_min_size_slider.add_value_changed_callback(
            self.match_min_size_value_changed)

        self.match_max_size_slider = ZLabeledSlider(self.vpane,
                                                    "MatchMaxSize",
                                                    take_odd=True,
                                                    minimum=100,
                                                    maximum=400,
                                                    value=self.match_max_size)
        self.match_max_size_slider.add_value_changed_callback(
            self.match_max_size_value_changed)

        self.vpane.add(self.match_min_size_slider)
        self.vpane.add(self.match_max_size_slider)

        self.clear_button = QPushButton("Clear", self.vpane)
        self.clear_button.clicked.connect(self.clear_button_clicked)

        self.match_button = QPushButton("Match", self.vpane)
        self.match_button.clicked.connect(self.match_button_clicked)

        self.vpane.add(self.clear_button)
        self.vpane.add(self.match_button)

        self.set_right_dock(self.vpane)

    def first_file_open(self):
        options = QFileDialog.Options()
        filename, _ = QFileDialog.getOpenFileName(
            self,
            "FileOpenDialog",
            "",
            "All Files (*);;Image Files (*.png;*jpg;*.jpeg)",
            options=options)
        if filename:
            self.filenames[self.FIRST] = filename
            self.image_views[self.FIRST].load_opencv_image(filename)
            self.image_views[self.THIRD].load_opencv_image(
                self.filenames[self.THIRD])
        filename = self.filenames[self.FIRST] + " " + self.filenames[
            self.SECOND]
        self.set_filenamed_title(filename)

    def second_file_open(self):
        options = QFileDialog.Options()
        filename, _ = QFileDialog.getOpenFileName(
            self,
            "FileOpenDialog",
            "",
            "All Files (*);;Image Files (*.png;*jpg;*.jpeg)",
            options=options)
        if filename:
            self.filenames[self.SECOND] = filename
            self.image_views[self.SECOND].load_opencv_image(filename)
            self.image_views[self.THIRD].load_opencv_image(
                self.filenames[self.THIRD])

        filename = self.filenames[self.FIRST] + " " + self.filenames[
            self.SECOND]
        self.set_filenamed_title(filename)

    def threshold_type_activated(self, text):
        self.threshold_type_id = self.types[text]
        self.shapeMatching()

    def threshold_value_changed(self, value):
        self.threshold_value = int(value)
        if self.threshold_value % 2 == 0:
            # Block size should be odd.
            self.threshold_value = int((self.threshold_value * 2) / 2 + 1)
        self.shapeMatching()

    def match_min_size_value_changed(self, value):
        self.match_min_size = int(value)
        self.shapeMatching()

    def match_max_size_value_changed(self, value):
        self.match_max_size = int(value)
        self.shapeMatching()

    def clear_button_clicked(self):
        src_image = self.image_views[self.FIRST].get_opencv_image().copy()
        self.image_views[self.THIRD].set_image(src_image)

    def match_button_clicked(self):
        self.shapeMatching()

    # Shape matching operation to two images in image_views[self.FIRST] and image_views[self.SECOND].
    # A matched rectangle will be draw on image_views[self.THIRD].
    def shapeMatching(self):
        src_image = self.image_views[self.FIRST].get_opencv_image().copy()
        self.image_views[self.THIRD].set_image(src_image)

        src_bin = self.image_views[self.FIRST].binarize(
            self.threshold_type_id, self.threshold_value)
        tmp_bin = self.image_views[self.SECOND].binarize(
            self.threshold_type_id, self.threshold_value)
        nlabels, labels, stats, centroids = cv2.connectedComponentsWithStats(
            src_bin)
        print("labels:{}".format(nlabels))

        dest_image = src_image.copy()

        MATCHING_THRESHOLD = 0.005

        minimum = [0, 0, 0, 0]  #cv2.Rect(0, 0, 0, 0)
        MIN_SIMILARITY = 1.0
        found = False
        CV_CONTOURS_MATCH_I1 = 1
        for i in range(nlabels):
            x, y, w, h, a = stats[i]
            rect = [x, y, w, h]

            # Region of interest
            roi = src_bin[y:(y + h), x:(x + w)]

            similarity = cv2.matchShapes(
                tmp_bin, roi, CV_CONTOURS_MATCH_I1,
                0)  #method=CV_CONTOURS_MATCH_I1, parameter=0);
            if ((w >= self.match_min_size or h >= self.match_min_size) and
                (w <= self.match_max_size or h <= self.match_max_size)):
                if (similarity <= MIN_SIMILARITY):
                    MIN_SIMILARITY = similarity
                    minimum = rect
                    print("matching similarity={}  x={} y={} w={} h={}".format(
                        similarity, x, y, w, h))
                    found = True

        if found:
            x, y, w, h = minimum
            cv2.rectangle(dest_image, (x, y), (x + w, y + h), (0, 0, 255), 3)
            self.image_views[self.THIRD].set_matched_image(dest_image)
コード例 #10
0
class MainView(ZApplicationView):
    # Inner classes
    #--------------------------------------------
    class SourceImageView(ZOpenCVImageView):
        def __init__(self, parent):
            ZOpenCVImageView.__init__(self, parent)

        def load(self, filename):
            self.load_opencv_image(filename)
            self.update()

    class BinarizedImageView(ZOpenCVImageView):
        def __init__(self, parent):
            ZOpenCVImageView.__init__(self, parent)

        def load(self, filename):
            image = self.load_opencv_image(filename)
            self.source_image = image.copy()
            #self.gray_image = cv2.cvtColor(self.source_image, cv2.COLOR_RGB2GRAY)
            self.gray_image = cv2.cvtColor(self.source_image,
                                           cv2.COLOR_BGR2GRAY)

        def binarize(self, adaptive_method_id, threshold_type_id, block_size):
            MAX_PIXEL_VALUE = 255
            C = 9.0

            self.binarizered_image = cv2.adaptiveThreshold(
                self.gray_image, MAX_PIXEL_VALUE, adaptive_method_id,
                threshold_type_id, block_size, C)

            #self.set_opencv_image(binarizered_image)
            self.update()

        def detect_connected_components(self):
            target = self.source_image.copy()

            nlabels, labels, stats, centroids = cv2.connectedComponentsWithStats(
                self.binarizered_image, 4)
            #stats = cv2.connectedComponentsWithStats(self.gray_image)
            print("labels:{}".format(nlabels))
            ih, iw, c = target.shape
            print("target:width={} height={} channels={}".format(iw, ih, c))
            for i in range(nlabels):
                x, y, w, h, a = stats[i]
                print("x,y,w,h, a={},{},{},{}, {}".format(x, y, w, h, a))

                cv2.rectangle(target, (x, y), (x + w, y + h), (0, 0, 255), 3)

            self.set_opencv_image(target)
            self.update()

    #--------------------------------------------

    # MainView Constructor
    def __init__(self, title, x, y, width, height):
        super(MainView, self).__init__(title, x, y, width, height)

        filename = "../images/Shapes.png"

        # 1 Create first imageview.
        self.source_image_view = self.SourceImageView(self)

        # 2 Create second imageview.
        self.binarized_image_view = self.BinarizedImageView(self)

        # 3 Load the file
        self.load_file(filename)

        # 4 Add two image views to a main_layout of this main view.
        self.add(self.source_image_view)
        self.add(self.binarized_image_view)

        self.show()

    def add_control_pane(self, fixed_width=220):
        # Control pane widget
        self.block_size = 11
        self.vpane = ZVerticalPane(self, fixed_width)

        self.adaptive_method_id = 0
        self.threshold_type_id = 0

        self.methods = {
            "ADAPTIVE_THRESH_MEAN_C": cv2.ADAPTIVE_THRESH_MEAN_C,
            "ADAPTIVE_THRESH_GAUSSIAN_C": cv2.ADAPTIVE_THRESH_GAUSSIAN_C
        }
        self.types = {
            "THRESH_BINARY": cv2.THRESH_BINARY,
            "THRESH_BINARY_INV": cv2.THRESH_BINARY_INV
        }

        self.adaptive_method = ZLabeledComboBox(self.vpane, "AdaptiveMethod")
        self.adaptive_method.add_items(list(self.methods.keys()))
        self.adaptive_method.add_activated_callback(
            self.adaptive_method_activated)

        self.threshold_type = ZLabeledComboBox(self.vpane, "ThresholdType")
        self.threshold_type.add_items(list(self.types.keys()))
        self.threshold_type.add_activated_callback(
            self.threshold_type_activated)

        self.labeled_slider = ZLabeledSlider(self.vpane,
                                             "BlockSize",
                                             take_odd=True,
                                             minimum=3,
                                             maximum=43,
                                             value=self.block_size,
                                             fixed_width=200)
        self.labeled_slider.add_value_changed_callback(
            self.slider_value_changed)

        self.vpane.add(self.adaptive_method)
        self.vpane.add(self.threshold_type)
        self.vpane.add(self.labeled_slider)

        self.set_right_dock(self.vpane)

    def file_open(self):
        options = QFileDialog.Options()
        filename, _ = QFileDialog.getOpenFileName(
            self,
            "FileOpenDialog",
            "",
            "All Files (*);;Image Files (*.png;*jpg;*.jpeg)",
            options=options)
        if filename:
            self.load_file(filename)

    def load_file(self, filename):
        self.source_image_view.load(filename)
        self.binarized_image_view.load(filename)

        self.binarized_image_view.binarize(self.adaptive_method_id,
                                           self.threshold_type_id,
                                           self.block_size)
        self.binarized_image_view.detect_connected_components()
        self.set_filenamed_title(filename)

    def slider_value_changed(self, value):
        self.block_size = int(value)
        if self.block_size % 2 == 0:
            self.block_size = int((self.block_size * 2) / 2 + 1)
            # Block size should be odd.
        print("slider_value_changed:{}".format(self.block_size))
        self.binarized_image_view.binarize(self.adaptive_method_id,
                                           self.threshold_type_id,
                                           self.block_size)
        self.binarized_image_view.detect_connected_components()

    def adaptive_method_activated(self, text):
        print("adaptive_method_activated:{}".format(text))
        self.adaptive_method_id = self.methods[text]

        self.binarized_image_view.binarize(self.adaptive_method_id,
                                           self.threshold_type_id,
                                           self.block_size)
        self.binarized_image_view.detect_connected_components()

    def threshold_type_activated(self, text):
        print("threshold_type_activated:{}".format(text))
        self.threshold_type_id = self.types[text]
        self.binarized_image_view.binarize(self.adaptive_method_id,
                                           self.threshold_type_id,
                                           self.block_size)
        self.binarized_image_view.detect_connected_components()