Exemplo n.º 1
0
 def update_position(self):
     # print("RS Helper updating position")
     self.style['position']='absolute'
     self.style['left'] = \
         gui.to_pix(
             gui.from_pix(self.refWidget.style['left'])
         + from_px(
                 # self.refWidget.style['width']
                 self, 'width', self.parent
             )
         - from_px(
                 # self.style['width']
                 self, 'width', self.parent
             )/2)
     self.style['top'] = \
         gui.to_pix(
             gui.from_pix(self.refWidget.style['top'])
             + from_px(
                 # self.refWidget.style['height']
                 self, 'height', self.parent
             )
             - from_px(
                 # self.style['height']
                 self, 'height', self.parent
             )/2)
Exemplo n.º 2
0
    def onchange_miniature_selection(self, emitter, selected, miniature):
        print(selected)
        if selected:
            self.miniature_selection_list.append(miniature)
        else:
            self.miniature_selection_list.remove(miniature)
        if len(self.miniature_selection_list) > 1:
            print("stitching %s images"%len(self.miniature_selection_list))
            result = self.miniature_selection_list[0].image.img.copy()

            roi_logo_x = gui.from_pix(self.roi_logo_widget.style['left'])
            roi_logo_w = gui.from_pix(self.roi_logo_widget.style['width'])
            t = time.time()

            w = float(self.spin_horizontal_perspective.get_value())
            h = float(self.spin_vertical_perspective.get_value())

            #result = self.calibrate_image(result)
            result = image_utils.perspective_correction(result, w, h)
            for m in self.miniature_selection_list[1:]:
                img = m.image.img#self.calibrate_image(m.image.img)
                img = image_utils.perspective_correction(img, w, h)
                result = image_utils.stitch_fast(result, img, roi_logo_x, roi_logo_x+roi_logo_w, 30.0) #image_utils.stitch(result, m.image.img, 20.0)
            print(time.time() - t)
            self.camera_image.refresh(result)
Exemplo n.º 3
0
 def on_dropped(self, left, top):
     try:
         self.refWidget.style['width'] = gui.to_pix(gui.from_pix(self.refWidget.style['width']) + gui.from_pix(left) - gui.from_pix(self.style['left']))
         self.refWidget.style['height'] = gui.to_pix(gui.from_pix(self.refWidget.style['height']) + gui.from_pix(top) - gui.from_pix(self.style['top']))
     except:
         pass
     self.update_position()
Exemplo n.º 4
0
 def update_position(self):
     self.style['position'] = 'absolute'
     if self.refWidget:
         if 'left' in self.refWidget.style and 'top' in self.refWidget.style:
             self.style['left'] = gui.to_pix(
                 gui.from_pix(self.refWidget.style['left']))
             self.style['top'] = gui.to_pix(
                 gui.from_pix(self.refWidget.style['top']))
Exemplo n.º 5
0
 def update_position(self):
     self.style['position'] = 'absolute'
     self.style['left'] = gui.to_pix(
         gui.from_pix(self.refWidget.style['left']) -
         gui.from_pix(self.style['width']) / 2)
     self.style['top'] = gui.to_pix(
         gui.from_pix(self.refWidget.style['top']) -
         gui.from_pix(self.style['height']) / 2)
Exemplo n.º 6
0
def from_px(obj, attr_name, parent, default=200):
    try:
        return G.from_pix(obj.style[attr_name])
    except ValueError:
        try:
            return G.from_pix(parent.style[attr_name])
        except ValueError:
            return default
Exemplo n.º 7
0
Arquivo: editor.py Projeto: CSCG/remi 
 def update_position(self):
     if self.refWidget == None:
         return
     if self.refWidget.style['position'] != 'absolute':
         self.style['display'] = 'none'
         return
     self.style['position'] = 'absolute'
     self.style['display'] = 'block'
     self.style['left'] = gui.to_pix(gui.from_pix(self.refWidget.style['width'])+gui.from_pix(self.refWidget.style['left'])-gui.from_pix(self.style['width'])/2)
     self.style['top'] = gui.to_pix(gui.from_pix(self.refWidget.style['height'])+gui.from_pix(self.refWidget.style['top'])-gui.from_pix(self.style['height'])/2)
Exemplo n.º 8
0
 def on_drag(self, emitter, x, y):
     if self.active:
         if self.origin_x == -1:
             self.origin_x = float(x)
             self.origin_y = float(y)
             self.refWidget_origin_x = gui.from_pix(self.refWidget.style['left'])
             self.refWidget_origin_y = gui.from_pix(self.refWidget.style['top'])
         else:
             self.refWidget.style['left'] = gui.to_pix( self.round_grid( self.refWidget_origin_x + float(x) - self.origin_x ) )
             self.refWidget.style['top'] = gui.to_pix( self.round_grid( self.refWidget_origin_y + float(y) - self.origin_y ) )
             self.update_position()
Exemplo n.º 9
0
 def on_drag(self, emitter, x, y):
     if self.active:
         if self.origin_x == -1:
             self.origin_x = float(x)
             self.origin_y = float(y)
             self.refWidget_origin_x = gui.from_pix(self.refWidget.style['left'])
             self.refWidget_origin_y = gui.from_pix(self.refWidget.style['top'])
         else:
             self.refWidget.style['left'] = gui.to_pix(self.refWidget_origin_x + float(x) - self.origin_x )
             self.refWidget.style['top'] = gui.to_pix(self.refWidget_origin_y + float(y) - self.origin_y)
             self.update_position()
Exemplo n.º 10
0
 def on_drag(self, emitter, x, y):
     if self.active:
         if self.origin_x == -1:
             self.origin_x = float(x)
             self.origin_y = float(y)
             self.refWidget_origin_w = gui.from_pix(self.refWidget.style['width'])
             self.refWidget_origin_h = gui.from_pix(self.refWidget.style['height'])
         else:
             self.refWidget.style['width'] = gui.to_pix(self.refWidget_origin_w + float(x) - self.origin_x )
             self.refWidget.style['height'] = gui.to_pix(self.refWidget_origin_h + float(y) - self.origin_y)
             self.update_position()
Exemplo n.º 11
0
 def on_drag(self, emitter, x, y):
     if self.active:
         if self.origin_x == -1:
             self.origin_x = float(x)
             self.origin_y = float(y)
             self.refWidget_origin_w = gui.from_pix(self.refWidget.style['width'])
             self.refWidget_origin_h = gui.from_pix(self.refWidget.style['height'])
         else:
             self.refWidget.style['width'] = gui.to_pix( self.round_grid( self.refWidget_origin_w + float(x) - self.origin_x ) )
             self.refWidget.style['height'] = gui.to_pix( self.round_grid( self.refWidget_origin_h + float(y) - self.origin_y ) )
             self.update_position()
Exemplo n.º 12
0
 def on_drag(self, emitter, x, y):
     if self.active:
         if self.origin_x == -1:
             self.origin_x = int(x)
             self.origin_y = int(y)
             self.refWidget_origin_w = gui.from_pix(self.refWidget.style['width'])
             self.refWidget_origin_h = gui.from_pix(self.refWidget.style['height'])
         else:
             self.refWidget.style['width'] = gui.to_pix(self.refWidget_origin_w + int(x) - self.origin_x )
             self.refWidget.style['height'] = gui.to_pix(self.refWidget_origin_h + int(y) - self.origin_y)
             self.update_position()
         return self.eventManager.propagate(self.EVENT_ONDRAG, ())
Exemplo n.º 13
0
def append_with_label(parent,text,field,button,width=300,key=''):
    fields_spacing = 5   #horizontal spacing
    field_height = int(gui.from_pix(field.style['height']))
    field_width = int(gui.from_pix(field.style['width']))
    label = gui.Label(text,width=width-field_width - 3*fields_spacing-20, height=field_height)
    _container = gui.Widget(width=width, height=field_height)
    _container.set_layout_orientation(gui.Widget.LAYOUT_HORIZONTAL)
    _container.style['margin']='4px'
    _container.append(label,key='lbl' + str(key))
    _container.append(field,key='field'+str(key))
    if button is not None:
        _container.append(button,key='button'+str(key))
    parent.append(_container,key=key)
Exemplo n.º 14
0
    def onclick_bt_set_logo(self, emitter):
        x = gui.from_pix(self.selection_area_widget.style['left'])
        y = gui.from_pix(self.selection_area_widget.style['top'])
        w = gui.from_pix(self.selection_area_widget.style['width'])
        h = gui.from_pix(self.selection_area_widget.style['height'])

        self.roi_logo_widget.style['left'] = self.selection_area_widget.style['left']
        self.roi_logo_widget.style['top'] = "1px" #self.selection_area_widget.style['top']
        self.roi_logo_widget.style['width'] = self.selection_area_widget.style['width']
        self.roi_logo_widget.style['height'] = gui.to_pix(self.camera_image.img.shape[0])#self.selection_area_widget.style['height']

        img = self.camera_image.img[y:y+h, x:x+w]
        self.logo_image = img
        self.save_image_add_miniature(img, "logo.png")
Exemplo n.º 15
0
 def update_position(self):
     if self.refWidget == None:
         return
     if self.refWidget.style['position'] != 'absolute' or ('right' in self.refWidget.style) or ('bottom' in self.refWidget.style):
         self.style['display'] = 'none'
         return
     try:
         self.style['position'] = 'absolute'
         self.style['display'] = 'block'
         if ('left' in self.refWidget.style) and ('top' in self.refWidget.style) and ('height' in self.refWidget.style) and ('width' in self.refWidget.style) and ('height' in self.style) and ('width' in self.style):
             self.style['left'] = gui.to_pix(gui.from_pix(self.refWidget.style['width'])+gui.from_pix(self.refWidget.style['left'])-gui.from_pix(self.style['width'])/2)
             self.style['top'] = gui.to_pix(gui.from_pix(self.refWidget.style['height'])+gui.from_pix(self.refWidget.style['top'])-gui.from_pix(self.style['height'])/2)
     except:
         self.style['display'] = 'none'
Exemplo n.º 16
0
def append_with_label(parent, text, field, button, width=300, key=''):
    fields_spacing = 5  #horizontal spacing
    field_height = int(gui.from_pix(field.style['height']))
    field_width = int(gui.from_pix(field.style['width']))
    label = gui.Label(text,
                      width=width - field_width - 3 * fields_spacing - 20,
                      height=field_height)
    _container = gui.Container(width=width, height=field_height)
    _container.set_layout_orientation(gui.Container.LAYOUT_HORIZONTAL)
    _container.style['margin'] = '4px'
    _container.append(label, key='lbl' + str(key))
    _container.append(field, key='field' + str(key))
    if button is not None:
        _container.append(button, key='button' + str(key))
    parent.append(_container, key=key)
Exemplo n.º 17
0
 def move_widget(self, css_key, value):
     # css_key can be 'top' or 'left'
     # value (int): positive or negative value
     if issubclass(self.selectedWidget.__class__,
                   gui.Widget) and css_key in self.selectedWidget.style:
         self.selectedWidget.style[css_key] = gui.to_pix(
             gui.from_pix(self.selectedWidget.style[css_key]) + value)
Exemplo n.º 18
0
 def on_drag(self, emitter, x, y):
     if self.active:
         if self.origin_x == -1:
             self.origin_x = int(x)
             self.origin_y = int(y)
             self.refWidget_origin_w = gui.from_pix(
                 self.refWidget.style['width'])
             self.refWidget_origin_h = gui.from_pix(
                 self.refWidget.style['height'])
         else:
             self.refWidget.style['width'] = gui.to_pix(
                 self.refWidget_origin_w + int(x) - self.origin_x)
             self.refWidget.style['height'] = gui.to_pix(
                 self.refWidget_origin_h + int(y) - self.origin_y)
             self.update_position()
         return self.eventManager.propagate(self.EVENT_ONDRAG, ())
Exemplo n.º 19
0
 def update_position(self):
     if self.refWidget == None:
         return
     if self.refWidget.style['position'] != 'absolute' or (
             'right' in self.refWidget.style) or ('bottom'
                                                  in self.refWidget.style):
         self.style['display'] = 'none'
         return
     try:
         self.style['position'] = 'absolute'
         self.style['display'] = 'block'
         if ('left' in self.refWidget.style) and (
                 'top' in self.refWidget.style
         ) and ('height' in self.refWidget.style) and (
                 'width' in self.refWidget.style) and (
                     'height' in self.style) and ('width' in self.style):
             self.style['left'] = gui.to_pix(
                 gui.from_pix(self.refWidget.style['width']) +
                 gui.from_pix(self.refWidget.style['left']) -
                 gui.from_pix(self.style['width']) / 2)
             self.style['top'] = gui.to_pix(
                 gui.from_pix(self.refWidget.style['height']) +
                 gui.from_pix(self.refWidget.style['top']) -
                 gui.from_pix(self.style['height']) / 2)
     except:
         self.style['display'] = 'none'
Exemplo n.º 20
0
Arquivo: editor.py Projeto: CSCG/remi 
 def on_dropped(self, left, top):
     self.refWidget.style['width'] = gui.to_pix(
         gui.from_pix(self.refWidget.style['width']) + gui.from_pix(left) -
         gui.from_pix(self.style['left']))
     self.refWidget.style['height'] = gui.to_pix(
         gui.from_pix(self.refWidget.style['height']) + gui.from_pix(top) -
         gui.from_pix(self.style['top']))
     self.update_position()
Exemplo n.º 21
0
Arquivo: editor.py Projeto: CSCG/remi 
 def update_position(self):
     if self.refWidget == None:
         return
     if self.refWidget.style['position'] != 'absolute':
         self.style['display'] = 'none'
         return
     self.style['position'] = 'absolute'
     self.style['display'] = 'block'
     self.style['left'] = gui.to_pix(
         gui.from_pix(self.refWidget.style['width']) +
         gui.from_pix(self.refWidget.style['left']) -
         gui.from_pix(self.style['width']) / 2)
     self.style['top'] = gui.to_pix(
         gui.from_pix(self.refWidget.style['height']) +
         gui.from_pix(self.refWidget.style['top']) -
         gui.from_pix(self.style['height']) / 2)
Exemplo n.º 22
0
 def on_dropped(self, left, top):
     try:
         if ('left' in self.refWidget.style) and (
                 'top' in self.refWidget.style
         ) and ('height' in self.refWidget.style) and (
                 'width' in self.refWidget.style) and (
                     'height' in self.style) and ('width' in self.style):
             self.refWidget.style['width'] = gui.to_pix(
                 gui.from_pix(self.refWidget.style['width']) +
                 gui.from_pix(left) - gui.from_pix(self.style['left']))
             self.refWidget.style['height'] = gui.to_pix(
                 gui.from_pix(self.refWidget.style['height']) +
                 gui.from_pix(top) - gui.from_pix(self.style['top']))
     except:
         pass
     self.update_position()
Exemplo n.º 23
0
 def update_position(self):
     self.style['position']='absolute'
     self.style['left']=gui.to_pix(gui.from_pix(self.refWidget.style['left']) + gui.from_pix(self.refWidget.style['width']) - gui.from_pix(self.style['width'])/2)
     self.style['top']=gui.to_pix(gui.from_pix(self.refWidget.style['top']) + gui.from_pix(self.refWidget.style['height']) - gui.from_pix(self.style['height'])/2)
Exemplo n.º 24
0
 def _update_size(self):
     width = gui.from_pix(self.style.get('width', "100").replace("%", ""))
     height = gui.from_pix(self.style.get('height', "100").replace("%", ""))
     radius = min(width, height) / 2
     self.style['border-radius'] = gui.to_pix(radius)
Exemplo n.º 25
0
def image_overprint_thread(app,
                camera,
                perspective_correction_value_horiz, 
                perspective_correction_value_vert):
    """ Si prende un'immagine
        tutte le successive immagini vengono matchate unite e sovrapposte a questa
    """
    app.process_thread_stop_flag = False
    
    images_buffer = None


    immagine_nastro = None
    vel_nastro_array = []
    similarity_array = []
    while not app.process_thread_stop_flag:
        try:
            images_buffer = camera.get_image_buf()
            
            """
            print("attenzione, salvataggio immagini da disabilitare !!!")
            for t,img in images_buffer[:]: 
                filename = "%s.png"%str(time.time())
                cv2.imwrite("./immagini_processo/test/" + filename, img)
            """
            if not images_buffer is None:
                print("Thread loop - Immagini da giuntare: %s"%len(images_buffer))

                mem_t, img = images_buffer[0]
                immagine_nastro = image_utils.perspective_correction(img, perspective_correction_value_horiz, perspective_correction_value_vert)
                mem_image = img
                for t,img in images_buffer[1:]:
                    #img = image_utils.histogram_equalize(img)
                    #img = app.calibrate_image(img)

                    #memorizzazione area logo da selezione a video
                    roi_logo_x1 = gui.from_pix(app.selection_area_widget.style['left'])
                    roi_logo_x2 = roi_logo_x1 + gui.from_pix(app.selection_area_widget.style['width'])

                    #tentativo stitching di nuova immagine in immagine_base e viceversa
                    # lo stitching on similarity piu' vicino a 0 (migliore) viene considerato
                    ok, offset_y, similarity_result = image_utils.find_stitch_offset(img, mem_image, roi_logo_x1, roi_logo_x2, 100)
                    ok, offset_y, similarity_result2 = image_utils.find_stitch_offset(mem_image, img, roi_logo_x1, roi_logo_x2, 100)
                    if similarity_result<similarity_result2:
                        #normale stitching di img in immagine nastro (dove Y img risulta piu' in basso)
                        immagine_nastro = image_utils.stitch_offset(img, immagine_nastro, offset_y)
                    else:
                        #stitching contrario immagine nastro in img (dove Y img risulta piu' alto)
                        # ma siccome vogliamo mantenere l'immagine nastro di sfondo, e volendo inoltre mantenere il risultato
                        # allineato in alto (immagine ferma), copiamo img in immagine_nastro, prendendo di img solo la parte che si sovrappone
                        # a immagine_nastro
                        immagine_nastro = image_utils.stitch_offset(img[offset_y:,:], immagine_nastro, offset_y)

                    #ritagliamo il risultato solo in caso la dimensione supera quella impostata sulla spinbox
                    h = int(app.spin_h_logo.get_value())
                    if immagine_nastro.shape[0] > h:
                        immagine_nastro = immagine_nastro[0:h,:)     # 0:mem_image.shape[1]] 
                    
                if not immagine_nastro is None:
                    app.show_process_image(immagine_nastro)
                    #h = int(app.spin_h_logo.get_value()) #andrebbe determinato h logo
                    
                    #l'ultima immagine la rendo disponibile per il prossimo stitching
                    #img = image_utils.perspective_correction(img, perspective_correction_value_horiz, perspective_correction_value_vert)
                    #immagine_nastro = images_buffer[-1][1]#immagine_nastro[0:h,:]

                    #pulisco l'immagine per il successivo ciclo
                    immagine_nastro = None
                    #time.sleep(1.5)
        except:
            print("exception")
Exemplo n.º 26
0
 def update_position(self):
     self.style['position']='absolute'
     if self.refWidget:
         if 'left' in self.refWidget.style and 'top' in self.refWidget.style:
             self.style['left']=gui.to_pix(gui.from_pix(self.refWidget.style['left'])-gui.from_pix(self.style['width']))
             self.style['top']=gui.to_pix(gui.from_pix(self.refWidget.style['top'])-gui.from_pix(self.style['width']))