Exemplo n.º 1
0
    def __init__(self):
        tk.Tk.__init__(self)

        self.geometry(f'{WIDTH}x{HEIGHT}')
        self.title('GooMPy')

        self.canvas = tk.Canvas(self, width=WIDTH, height=HEIGHT)
        self.canvas.pack(fill='both')

        self.bind("<Key>", self.check_quit)
        self.bind('<B1-Motion>', self.drag)
        self.bind('<Button-1>', self.click)

        self.radiogroup = tk.Frame(self.canvas)
        self.radiovar = tk.IntVar()
        self.maptypes = ['roadmap', 'terrain', 'satellite', 'hybrid']
        self.add_radio_button(0)
        self.add_radio_button(1)
        self.add_radio_button(2)
        self.add_radio_button(3)

        self.zoom_in_button = self.add_zoom_button('+', +1)
        self.zoom_out_button = self.add_zoom_button('-', -1)

        self.zoomlevel = ZOOM
        self.radiovar.set(0)

        self.goompy = GooMPy(
            WIDTH, HEIGHT, LATITUDE, LONGITUDE, ZOOM, radius_meters=RADIUS)

        self.goompy.use_map_type(MAPTYPE)
        self.redraw()
Exemplo n.º 2
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def GetGPSPMAP(lat, long):
    ZOOM = 15
    MAPTYPE = 'roadmap'
    goompy = GooMPy(WIDTH, HEIGHT, lat, long, ZOOM, MAPTYPE)
    file_jpg = goompy.getFileName()
    print(file_jpg)
    return file_jpg
Exemplo n.º 3
0
    def geolocation(self):
        self.maplist = []
        self.buttonHeightCounter = .05
        API_KEY = 'AIzaSyBPGAbevdKkeXaZT0ZsR0qbO30Bpqqm0Mc'

        google_places = GooglePlaces(API_KEY)

        self.query_result = google_places.nearby_search(
            location=self.entry.get(),
            radius=700,
            types=[types.TYPE_RESTAURANT])
        self.current_places = self.query_result

        if self.query_result.has_attributions:
            print(self.query_result.html_attributions)

        for place in self.query_result.places:
            place.get_details()

            markers = "&markers=size:big|label:S|color:red|" + str(
                place.details['geometry']['location']['lat']) + "," + str(
                    place.details['geometry']['location']['lng']) + "|"
            self.maplist.append(markers)
            print(place.name)
            self.button_list.append(
                Button(self,
                       text=place.name,
                       command=lambda pname=place.name: self.on_click(pname),
                       width=25))
            self.button_list[-1].place(relx=.70,
                                       rely=self.buttonHeightCounter,
                                       anchor="c")
            self.buttonHeightCounter += .035
            print(place.formatted_address + "\n")

        google_maps = GoogleMaps(
            api_key='AIzaSyDlJqxwlOWWAPwf54ivrpAZw4R1Yb5j6Yk')

        location = google_maps.search(
            location=self.entry.get())  # sends search to Google Maps.

        my_location = location.first()  # returns only first location.

        #MARKER = '&markers=color:blue' + '%' + str(7) + 'Clabel:S%' + str(7) + 'C' + str(my_location.lat) + ',' + str(my_location.lng)
        #MARKER = "&markers=size:big|label:S|color:blue|" + str(my_location.lat) + "," + str(my_location.lng) + "|" + \

        MARKER = self.maplist[1] + self.maplist[2] + self.maplist[3]

        self.zoomlevel = ZOOM

        maptype_index = 0
        self.radiovar.set(maptype_index)

        self.goompy = GooMPy(WIDTH, HEIGHT, my_location.lat, my_location.lng,
                             ZOOM, MAPTYPE, MARKER)

        self.restart()
        print(self.query_result)
        print(str(my_location.lat))
        print(str(my_location.lng))
Exemplo n.º 4
0
def getMap():
    global mapCurr

    lat, lan = getLatLan()
    if not lat:
        lat = 0
        lan = 0

    goompy = GooMPy(mapW, mapH, lat, lan, 20, 'roadmap')
    image = goompy.getImage()

    mapCurr = pygame.image.fromstring(image.tobytes(), image.size, image.mode)
Exemplo n.º 5
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    def __init__(self, root):
        self.root = root

        self.max_height = self.root.winfo_screenheight()
        self.max_width  = self.root.winfo_screenwidth()
        self.root.geometry((str(int(self.max_width/2))+"x"+str(int(self.max_height/2))))

##        self.radiogroup = Frame()

##        self.root.bind("<Key>", self.user_input)
##        self.root.bind("<Button>", self.user_input)
        self.root.bind("<Escape>", lambda e: self.root.destroy())
        
        # The user is able to select differnt modes of transportation
        # They are diffined here, as well as the mechanism for storing them
        self.transport_mode  = tk.StringVar()
        self.transport_mode.set("Walking")
        self.transport_modes = ["Walking", "Bicycling", "Driving", "Transit"] 

        # All the locations the user is using, stored in a list
        self.locations = []

        # The index used to calualate which locations are currently visable
        self.location_view = 0

        # Used to limit the system from attempting to display more locations
        # than possible
        self.VIEW_SIZE = 10

        # The coordinates of the current location of the user
        self.latitude  = float(
            location.CURRENT_LOCATION[:location.CURRENT_LOCATION.find(",")]
            )
        self.longitude = float(
            location.CURRENT_LOCATION[location.CURRENT_LOCATION.find(",")+1:]
            )

        # The zoom level on the map
        self.zoom = 15

        # The dimentions of the map
        self.map_width  = 500
        self.map_height = 500

        # GooMPy object to act as an API
        self.goompy = GooMPy(self.map_width, self.map_height, self.latitude, self.longitude, self.zoom, "roadmap")

        self.live = False

        # Starts the system
        self._draw_UI()
        self.root.mainloop()
def gps_update_map(x, y, image_plot):
    gps_map_coordinate = [x, y]
    gps_map_zoom = 19
    gps_map_type = 'satellite'
    gps_map_resolution = 1200
    gps_map = GooMPy(gps_map_resolution, gps_map_resolution,
                     gps_map_coordinate[0], gps_map_coordinate[1],
                     gps_map_zoom, gps_map_type)
    gps_map_tile = gps_map.bigimage
    gps_map_corner_upper_left = gps_map.northwest
    gps_map_corner_lower_right = gps_map.southeast
    gps_map_width = (gps_map_corner_lower_right[1] -
                     gps_map_corner_upper_left[1]) * 4 / 3
    gps_map_height = (gps_map_corner_upper_left[0] -
                      gps_map_corner_lower_right[0]) * 4 / 3
    gps_map_aspect_ratio = gps_map_width / gps_map_height
    gps_map_array = np.array(
        gps_map_tile.resize((int(gps_map_resolution * gps_map_aspect_ratio),
                             gps_map_resolution)))
    gps_map_array = np.swapaxes(gps_map_array[::-1, :], 0, 1)
    gps_map_effective_size = gps_map_height / gps_map_resolution
    image_plot.setScale(gps_map_effective_size)
    image_plot.setImage(gps_map_array)
    image_plot.setX(gps_map_corner_upper_left[1] - gps_map_width / 8)
    image_plot.setY(gps_map_corner_upper_left[0] - gps_map_height +
                    gps_map_height / 8)
    image_plot.update()
Exemplo n.º 7
0
    def __init__(self):

        Tk.__init__(self)

        self.geometry('%dx%d+500+500' % (WIDTH,HEIGHT))
        self.title('GooMPy')

        self.canvas = Canvas(self, width=WIDTH, height=HEIGHT)

        self.canvas.pack()

        self.bind("<Key>", self.check_quit)
        self.bind('<B1-Motion>', self.drag)
        self.bind('<Button-1>', self.click)

        self.label = Label(self.canvas)

        self.radiogroup = Frame(self.canvas)
        self.radiovar = IntVar()
        self.maptypes = ['OSM', 'GoogleSatellite', 'Satellite']
        self.add_radio_button('OSM',  0)
        self.add_radio_button('GoogleSatellite', 1)
        self.add_radio_button('Satellite',    2)

        self.zoom_in_button  = self.add_zoom_button('+', +1)
        self.zoom_out_button = self.add_zoom_button('-', -1)

        self.zoomlevel = ZOOM

        maptype_index = 0
        self.radiovar.set(maptype_index)

        self.goompy = GooMPy(WIDTH, HEIGHT, LATITUDE, LONGITUDE, ZOOM, MAPTYPE)

        self.restart()
Exemplo n.º 8
0
def getMap():
    global mapCurr

    mapOffline = pygame.image.load("icons/offline.jpg")

    lat, lan = getLatLan()
    if not lat:
        lat = 0
        lan = 0
    try:
        goompy = GooMPy(mapW, mapH, lat, lan, 20, 'roadmap')
        image = goompy.getImage()

        mapCurr = pygame.image.fromstring(image.tobytes(), image.size, image.mode)
    except Exception as e:
        mapCurr = mapOffline
Exemplo n.º 9
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    def __init__(self):

        Tk.__init__(self)

        self.geometry('%dx%d+500+500' % (WIDTH, HEIGHT))
        self.title('GooMPy')

        self.canvas = Canvas(self, width=WIDTH, height=HEIGHT)

        self.canvas.pack()

        self.bind("<Key>", self.check_quit)
        self.bind('<B1-Motion>', self.drag)
        self.bind('<Button-1>', self.click)

        self.label = Label(self.canvas)

        self.radiogroup = Frame(self.canvas)
        self.radiovar = IntVar()
        self.maptypes = [
            'satellite', 'roadmap', 'terrain', 'roadmap2', 'roadsonly',
            'terrainonly', 'hybrid'
        ]
        self.add_radio_button('Satellite', 0)
        self.add_radio_button('Road Map', 1)
        self.add_radio_button('Terrain', 2)
        self.add_radio_button('Road Map 2', 3)
        self.add_radio_button('Roads Only', 4)
        self.add_radio_button('Terrain', 5)
        self.add_radio_button('Hybrid', 6)

        self.zoom_in_button = self.add_zoom_button('+', +1)
        self.zoom_out_button = self.add_zoom_button('-', -1)

        self.zoomlevel = ZOOM

        maptype_index = 0
        self.radiovar.set(maptype_index)

        self.goompy = GooMPy(WIDTH, HEIGHT, LATITUDE, LONGITUDE, ZOOM, MAPTYPE,
                             None, 4, 1, KMLFILE)

        self.restart()
Exemplo n.º 10
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    def update_gps_map(self, use_map=None):
        if type(use_map) == str:
            map_file = np.load(use_map)
            gps_map_effective_size = map_file['scale']
            gps_map_array = map_file['map']
            gps_map_x_position = map_file['x']
            gps_map_y_position = map_file['y']
        elif type(use_map) == int:
            path = sys.argv[0][:-8]
            print path, path + 'maps/map' + str(use_map) + '.npz'
            map_file = np.load(path + 'maps/map' + str(use_map) + '.npz')
            gps_map_effective_size = map_file['scale']
            gps_map_array = map_file['map']
            gps_map_x_position = map_file['x']
            gps_map_y_position = map_file['y']
        elif 'phoenix' in self.gps_positions.keys():
            try:
                cur_pos_lon = self.gps_positions['phoenix']['pos'][0]
                cur_pos_lat = self.gps_positions['phoenix']['pos'][1]

                gps_map_coordinate = [cur_pos_lon, cur_pos_lat]
                gps_map_zoom = 19
                gps_map_type = 'satellite'
                gps_map_resolution = 1200
                gps_map = GooMPy(gps_map_resolution, gps_map_resolution,
                                 gps_map_coordinate[0], gps_map_coordinate[1],
                                 gps_map_zoom, gps_map_type)
                gps_map_tile = gps_map.bigimage
                gps_map_corner_upper_left = gps_map.northwest
                gps_map_corner_lower_right = gps_map.southeast
                gps_map_width = (gps_map_corner_lower_right[1] -
                                 gps_map_corner_upper_left[1]) * 4 / 3
                gps_map_height = (gps_map_corner_upper_left[0] -
                                  gps_map_corner_lower_right[0]) * 4 / 3
                gps_map_aspect_ratio = gps_map_width / gps_map_height
                gps_map_array = np.array(
                    gps_map_tile.resize(
                        (int(gps_map_resolution * gps_map_aspect_ratio),
                         gps_map_resolution)))
                gps_map_array = np.swapaxes(gps_map_array[::-1, :], 0, 1)
                gps_map_effective_size = gps_map_height / gps_map_resolution
                gps_map_x_position = gps_map_corner_upper_left[
                    1] - gps_map_width / 8
                gps_map_y_position = gps_map_corner_upper_left[
                    0] - gps_map_height + gps_map_height / 8
            except:
                pass
        else:
            return
        # update map from loaded data
        self.gps_background_image.setScale(gps_map_effective_size)
        self.gps_background_image.setImage(gps_map_array)
        self.gps_background_image.setX(gps_map_x_position)
        self.gps_background_image.setY(gps_map_y_position)
        self.gps_background_image.update()
Exemplo n.º 11
0
class TestAU:
    ''' ----------------------- SYDNEY TEST (+LON, -LAT) ------------- '''
    test_set_au = {
        'LATITUDE': -33.8566,
        'LONGITUDE': 151.2153,
        'longitude_result': 151.2540,
        'latitude_result': -33.8839,
        'x_pixels': 581,
        'y_pixels': 446,
    }

    LONGITUDE = test_set_au.get('LONGITUDE')
    LATITUDE = test_set_au.get('LATITUDE')

    goompy = GooMPy(WIDTH,
                    HEIGHT,
                    LATITUDE,
                    LONGITUDE,
                    zoom,
                    MAPTYPE,
                    radius_meters=None)
    goompy.use_map_type(MAPTYPE)

    goompy.leftx = 1600
    goompy.uppery = 1600

    def test_get_lon_from_x_au(self):
        x_pixels = self.test_set_au.get('x_pixels')
        longitude_result = self.test_set_au.get('longitude_result')

        lon = self.goompy.get_lon_from_x(x_pixels)
        assert f'{lon:0.4f}' == f'{longitude_result:0.4f}'

    def test_get_lat_from_y_au(self):
        latitude_result = self.test_set_au.get('latitude_result')
        y_pixels = self.test_set_au.get('y_pixels')

        lat = self.goompy.get_lat_from_y(y_pixels)
        assert f'{lat:0.4f}' == f'{latitude_result:0.4f}'

    def test_get_x_from_lon_au(self):
        longitude_result = self.test_set_au.get('longitude_result')
        x_pixels_result = self.test_set_au.get('x_pixels') + self.goompy.leftx

        x = self.goompy.get_x_from_lon(longitude_result)
        assert abs(x - x_pixels_result) <= 1

    def test_get_y_from_lat_au(self):
        latitude_result = self.test_set_au.get('latitude_result')
        y_pixels_result = self.test_set_au.get('y_pixels') + self.goompy.uppery

        y = self.goompy.get_y_from_lat(latitude_result)
        assert abs(y - y_pixels_result) <= TEST_TOLERANCE
Exemplo n.º 12
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class TestNL:
    ''' ----------------------- AMSTERDAM TEST (+LON, +LAT) -------------- '''
    test_set_nl = {
        'LONGITUDE': 4.8994,
        'LATITUDE': 52.3755,
        'longitude_result': 4.8882,
        'latitude_result': 52.3774,
        'x_pixels': 60,
        'y_pixels': 246,
    }

    LONGITUDE = test_set_nl.get('LONGITUDE')
    LATITUDE = test_set_nl.get('LATITUDE')

    goompy = GooMPy(WIDTH,
                    HEIGHT,
                    LATITUDE,
                    LONGITUDE,
                    zoom,
                    MAPTYPE,
                    radius_meters=None)
    goompy.use_map_type(MAPTYPE)

    goompy.leftx = 960
    goompy.uppery = 960

    def test_get_lon_from_x_nl(self):
        x_pixels = self.test_set_nl.get('x_pixels')
        longitude_result = self.test_set_nl.get('longitude_result')

        lon = self.goompy.get_lon_from_x(x_pixels)
        assert f'{lon:0.4f}' == f'{longitude_result:0.4f}'

    def test_get_lat_from_y_nl(self):
        latitude_result = self.test_set_nl.get('latitude_result')
        y_pixels = self.test_set_nl.get('y_pixels')

        lat = self.goompy.get_lat_from_y(y_pixels)
        assert f'{lat:0.4f}' == f'{latitude_result:0.4f}'

    def test_get_x_from_lon_nl(self):
        longitude_result = self.test_set_nl.get('longitude_result')
        x_pixels_result = self.test_set_nl.get('x_pixels') + self.goompy.leftx

        x = self.goompy.get_x_from_lon(longitude_result)
        assert abs(x - x_pixels_result) <= 1

    def test_get_y_from_lat_nl(self):
        latitude_result = self.test_set_nl.get('latitude_result')
        y_pixels_result = self.test_set_nl.get('y_pixels') + self.goompy.uppery

        y = self.goompy.get_y_from_lat(latitude_result)
        assert abs(y - y_pixels_result) <= TEST_TOLERANCE
Exemplo n.º 13
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class TestAR:
    ''' ----------------------- BUENOS AIRES TEST (-LON, -LAT) ------------- '''
    test_set_ar = {
        'LATITUDE': -34.6246,
        'LONGITUDE': -58.4017,
        'longitude_result': -58.4515,
        'latitude_result': -34.6678,
        'x_pixels': 117,
        'y_pixels': 584,
    }

    LONGITUDE = test_set_ar.get('LONGITUDE')
    LATITUDE = test_set_ar.get('LATITUDE')

    goompy = GooMPy(WIDTH,
                    HEIGHT,
                    LATITUDE,
                    LONGITUDE,
                    zoom,
                    MAPTYPE,
                    radius_meters=None)
    goompy.use_map_type(MAPTYPE)

    goompy.leftx = 2
    goompy.uppery = 1919

    def test_get_lon_from_x_ar(self):
        x_pixels = self.test_set_ar.get('x_pixels')
        longitude_result = self.test_set_ar.get('longitude_result')

        lon = self.goompy.get_lon_from_x(x_pixels)
        assert f'{lon:0.4f}' == f'{longitude_result:0.4f}'

    def test_get_lat_from_y_ar(self):
        latitude_result = self.test_set_ar.get('latitude_result')
        y_pixels = self.test_set_ar.get('y_pixels')

        lat = self.goompy.get_lat_from_y(y_pixels)
        assert f'{lat:0.4f}' == f'{latitude_result:0.4f}'

    def test_get_x_from_lon_ar(self):
        longitude_result = self.test_set_ar.get('longitude_result')
        x_pixels_result = self.test_set_ar.get('x_pixels') + self.goompy.leftx

        x = self.goompy.get_x_from_lon(longitude_result)
        assert abs(x - x_pixels_result) <= 1

    def test_get_y_from_lat_ar(self):
        latitude_result = self.test_set_ar.get('latitude_result')
        y_pixels_result = self.test_set_ar.get('y_pixels') + self.goompy.uppery

        y = self.goompy.get_y_from_lat(latitude_result)
        assert abs(y - y_pixels_result) <= TEST_TOLERANCE
Exemplo n.º 14
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class TestUS:
    ''' ----------------------- NEW YORK TEST (-LON, +LAT) ------------- '''
    test_set_us = {
        'LONGITUDE': -74.012,
        'LATITUDE': 40.7044,
        'longitude_result': -74.0045,
        'latitude_result': 40.7097,
        'x_pixels': 495,
        'y_pixels': 156,
    }

    LONGITUDE = test_set_us.get('LONGITUDE')
    LATITUDE = test_set_us.get('LATITUDE')

    goompy = GooMPy(WIDTH,
                    HEIGHT,
                    LATITUDE,
                    LONGITUDE,
                    zoom,
                    MAPTYPE,
                    radius_meters=None)
    goompy.use_map_type(MAPTYPE)

    goompy.leftx = 960
    goompy.uppery = 960

    def test_get_lon_from_x_us(self):
        x_pixels = self.test_set_us.get('x_pixels')
        longitude_result = self.test_set_us.get('longitude_result')

        lon = self.goompy.get_lon_from_x(x_pixels)
        assert f'{lon:0.4f}' == f'{longitude_result:0.4f}'

    def test_get_lat_from_y_us(self):
        latitude_result = self.test_set_us.get('latitude_result')
        y_pixels = self.test_set_us.get('y_pixels')

        lat = self.goompy.get_lat_from_y(y_pixels)
        assert f'{lat:0.4f}' == f'{latitude_result:0.4f}'

    def test_get_x_from_lon_us(self):
        longitude_result = self.test_set_us.get('longitude_result')
        x_pixels_result = self.test_set_us.get('x_pixels') + self.goompy.leftx

        x = self.goompy.get_x_from_lon(longitude_result)
        assert abs(x - x_pixels_result) <= 1

    def test_get_y_from_lat_us(self):
        latitude_result = self.test_set_us.get('latitude_result')
        y_pixels_result = self.test_set_us.get('y_pixels') + self.goompy.uppery

        y = self.goompy.get_y_from_lat(latitude_result)
        assert abs(y - y_pixels_result) <= TEST_TOLERANCE
Exemplo n.º 15
0
    def __init__(self, main_window):
        super(ReadUpdater, self).__init__()

        # ########## Reference to top level window ##########
        self.main_window = main_window  # type: QtWidgets.QMainWindow

        # ########## Get the settings instance ##########
        self.settings = QtCore.QSettings()

        # ########## Get the Pick And Plate instance of the logger ##########
        self.logger = logging.getLogger("RoverBaseStation")

        self.goompy = GooMPy(2 * WIDTH, HEIGHT, LATITUDE, LONGITUDE, ZOOM,
                             MAPTYPE, 1500)

        self.tab_widget = self.main_window.tabWidget  # type: QtWidgets.QTabWidget

        # ########## Some Flags ##########
        self.run_thread_flag = True

        # ########## Class variables ##########
        self.data_last_seen = time.time()
Exemplo n.º 16
0
class UI(Tk):

    def __init__(self):

        Tk.__init__(self)

        self.geometry('%dx%d+500+500' % (WIDTH,HEIGHT))
        self.title('GooMPy')

        self.canvas = Canvas(self, width=WIDTH, height=HEIGHT)

        self.canvas.pack()

        self.bind("<Key>", self.check_quit)
        self.bind('<B1-Motion>', self.drag)
        self.bind('<Button-1>', self.click)

        self.label = Label(self.canvas)

        self.radiogroup = Frame(self.canvas)
        self.radiovar = IntVar()
        self.maptypes = ['roadmap', 'terrain', 'satellite', 'hybrid']
        self.add_radio_button('Road Map',  0)
        self.add_radio_button('Terrain',   1)
        self.add_radio_button('Satellite', 2)
        self.add_radio_button('Hybrid',    3)

        self.zoom_in_button  = self.add_zoom_button('+', +1)
        self.zoom_out_button = self.add_zoom_button('-', -1)

        self.zoomlevel = ZOOM

        maptype_index = 0
        self.radiovar.set(maptype_index)

        self.goompy = GooMPy(WIDTH, HEIGHT, LATITUDE, LONGITUDE, ZOOM, MAPTYPE)

        self.restart()

    def add_zoom_button(self, text, sign):

        button = Button(self.canvas, text=text, width=1, command=lambda:self.zoom(sign))
        return button

    def reload(self):

        self.coords = None
        self.redraw()

        self['cursor']  = ''


    def restart(self):

        # A little trick to get a watch cursor along with loading
        self['cursor']  = 'watch'
        self.after(1, self.reload)

    def add_radio_button(self, text, index):

        maptype = self.maptypes[index]
        Radiobutton(self.radiogroup, text=maptype, variable=self.radiovar, value=index, 
                command=lambda:self.usemap(maptype)).grid(row=0, column=index)

    def click(self, event):

        self.coords = event.x, event.y

    def drag(self, event):

        self.goompy.move(self.coords[0]-event.x, self.coords[1]-event.y)
        self.image = self.goompy.getImage()
        self.redraw()
        self.coords = event.x, event.y

    def redraw(self):

        self.image = self.goompy.getImage()
        self.image_tk = ImageTk.PhotoImage(self.image)
        self.label['image'] = self.image_tk

        self.label.place(x=0, y=0, width=WIDTH, height=HEIGHT) 

        self.radiogroup.place(x=0,y=0)

        x = int(self.canvas['width']) - 50
        y = int(self.canvas['height']) - 80

        self.zoom_in_button.place(x= x, y=y)
        self.zoom_out_button.place(x= x, y=y+30)

    def usemap(self, maptype):

        self.goompy.useMaptype(maptype)
        self.restart()

    def zoom(self, sign):

        newlevel = self.zoomlevel + sign
        if newlevel > 0 and newlevel < 22:
            self.zoomlevel = newlevel
            self.goompy.useZoom(newlevel)
            self.restart()

    def check_quit(self, event):

        if ord(event.char) == 27: # ESC
            exit(0)
Exemplo n.º 17
0
class RoutePlanGUI:
    '''The GUI for the Route Planning System

    All the GUI features are created and run though this class. All expected
    user input will come though this GUI, along with all output to the user

    Attributes:
    root               The Root from which the application is running
        #max_height     Maximium height for the window
        #max_width
    transport_mode     Transport mode setting 
    locations          List of all the current locations
    location_view      Index of what can currently be viewed
    VIEW_SIZE          A limit of how many items can be viewed at one time to ensure they fit on screen
    latitude           The current latitude  of the device running the system
    longitude          The cyrrent longitude of the device running the system
    zoom               The zoom level of the tiles
    map_width          The width  of the displayed map
    map_height         The height of the displayed map
    goompy             A goompy object to act as the API to download the map tiles

    Methods:
    _draw_UI           Creates the UI features and places them in the correct location
    _redraw_map        Redraws the map
    _add_location      Adds a location to the list of locations
    _remove_location   Removes a location from the list of locations
    _move_boxes        Moves the displayed list of locations
    _search            Runs the search algorithm after fetching and passing it data
    '''

    def __init__(self, root):
        self.root = root

        self.max_height = self.root.winfo_screenheight()
        self.max_width  = self.root.winfo_screenwidth()
        self.root.geometry((str(int(self.max_width/2))+"x"+str(int(self.max_height/2))))

##        self.radiogroup = Frame()

##        self.root.bind("<Key>", self.user_input)
##        self.root.bind("<Button>", self.user_input)
        self.root.bind("<Escape>", lambda e: self.root.destroy())
        
        # The user is able to select differnt modes of transportation
        # They are diffined here, as well as the mechanism for storing them
        self.transport_mode  = tk.StringVar()
        self.transport_mode.set("Walking")
        self.transport_modes = ["Walking", "Bicycling", "Driving", "Transit"] 

        # All the locations the user is using, stored in a list
        self.locations = []

        # The index used to calualate which locations are currently visable
        self.location_view = 0

        # Used to limit the system from attempting to display more locations
        # than possible
        self.VIEW_SIZE = 10

        # The coordinates of the current location of the user
        self.latitude  = float(
            location.CURRENT_LOCATION[:location.CURRENT_LOCATION.find(",")]
            )
        self.longitude = float(
            location.CURRENT_LOCATION[location.CURRENT_LOCATION.find(",")+1:]
            )

        # The zoom level on the map
        self.zoom = 15

        # The dimentions of the map
        self.map_width  = 500
        self.map_height = 500

        # GooMPy object to act as an API
        self.goompy = GooMPy(self.map_width, self.map_height, self.latitude, self.longitude, self.zoom, "roadmap")

        self.live = False

        # Starts the system
        self._draw_UI()
        self.root.mainloop()
        

    def _draw_UI(self):
        '''Draw the UI

        '''

        # Backbone of the GUI layout
        self.frame = tk.Frame(self.root)

        # Placement of Radiobuttons with correct control assignment
        for index, mode in enumerate(self.transport_modes):
            tk.Radiobutton(
                self.frame,
                text=mode,
                variable=self.transport_mode,
                value=mode
                ).grid(row=0, column=index)

        # Movement buttons
        self.up_button   = tk.Button(
            self.frame,
            text="  Up   ",
            bg="yellow",
            command=lambda: self._move_boxes(1)
            )
        self.down_button = tk.Button(
            self.frame,
            text="Down",
            bg="yellow",
            command=lambda: self._move_boxes(-1)
            )
        self.showing_movement_buttons = False

        # Start button
        self.go_button = tk.Button(
            self.frame,
            text="Start Search",
            bg="yellow",
            command=lambda: self._search()
            )

        # Entry box for user input, along with an associated button
        self.entry_box = tk.Entry(self.frame)
        self.entry_box.insert("end", "Add Location")
        self.entry_box.bind("<Return>", self._add_location)
        self.entry_button = tk.Button(
            self.frame,
            text="+",
            bg="green",
            command=self._add_location
            )

        # Configureation of the widgets just defined
        self.entry_box.grid(row=2, column=0, columnspan=4, sticky="ew")
        self.entry_button.grid(row=2, column=4)
        self.go_button.grid(row=1, column=3, columnspan=2, sticky="e")

        # Canvas to hold the map
        self.canvas = tk.Canvas(
            self.root,
            width=self.map_width,
            height=self.map_height,
            bg="black"
            )

        # Underlay to configure the tile image
        self.label = tk.Label(self.canvas)

        self.zoom_in_button  = tk.Button(self.canvas, text="+", width=1, command=lambda:self._map_zoom(+1))
        self.zoom_out_button = tk.Button(self.canvas, text="-", width=1, command=lambda:self._map_zoom(-1))

        # Packing of the two layout features
        self.frame.pack(side="left", fill="y")
        self.canvas.pack(side="right", expand=True, fill="both")

        ##        x = int(self.canvas['width']) - 50
##        y = int(self.canvas['height']) - 80
##
##        self.zoom_in_button.place(x=x, y=y)
##        self.zoom_out_button.place(x=x, y=y+30)

        # Load a tile
        self._reload()


        
    def _redraw_map(self):
        '''Fetch a new tile and place that on the map

        '''
##        print("redrawing")
        # Get the tile that goompy has been told to fetch
        self.goompy._fetch_and_update()
        self.image = self.goompy.getImage()

        # Load the image tile onto the map
        self.image_tk = ImageTk.PhotoImage(self.image)
        self.label['image'] = self.image_tk
        self.label.place(
            x=0,
            y=0,
            width=self.map_width,
            height=self.map_height
            )

    def _reload(self):
        self.coords = None
        if self.live:
            self._redraw_map()


    def _add_location(self, event=None):
        '''Make the user's input a Location and add to the list of locations

        '''
        # The details of the new location
        user_input = self.entry_box.get()
        new_location = location.Location(user_input)
        self.locations.append(new_location)
        precise = new_location.location

        # goompy loading a new tile as per the location
        self.goompy.lat = float(precise[:precise.find(",")])
        self.goompy.lon = float(precise[precise.find(",")+1:])
        self._reload()


        # Differnt actions depending on how many locations currently exist
        if len(self.locations) > self.VIEW_SIZE:

            # Configure the movement buttons is not configured
            if not self.showing_movement_buttons:
                self.up_button.grid(row=1, column=0, columnspan=2, sticky="w")
                self.down_button.grid(
                    row=self.VIEW_SIZE+10,
                    column=0,
                    columnspan=2,
                    sticky="w"
                    )
            # Ensures the latest location is displayed at the bottom
            while len(self.locations)-self.location_view > self.VIEW_SIZE:
                self._move_boxes(1)
        else:
            # Move the entry box, and its button, down on space
            self.entry_box.grid_configure(
                row=self.entry_box.grid_info()["row"]+1
                )
            self.entry_button.grid_configure(
                row=self.entry_box.grid_info()["row"]
                )
            
            # The row the the entry box moved from
            row = self.entry_box.grid_info()["row"]-1

            # Create a Label and a Button for the new location
            tk.Label(
                self.frame,
                text=user_input,
                bg="white",
                anchor="w"
                ).grid(row=row, column=0, sticky="ew", columnspan=4)
            tk.Button(
                self.frame,
                text="X",
                bg="red",
                command=lambda: self._remove_location(len(self.locations))
                ).grid(row=row, column=4, sticky="ew")

        # Reset the text in the entry box
        self.entry_box.delete(0, "end")
        self.entry_box.insert("end", "Add Location")

        
    def _remove_location(self, row):
        '''Remove the location selected by the user by visualy and from list

        '''
        # Remove the location from the location list
        self.locations.pop(row+self.location_view-1)

        # Marker to indicate if the locations below should move up
        move = False

        # List of all the locations, as per what is on the Labels
        remaining_locations = [x.user_input for x in self.locations]

        # Index to keep track of where is being investigated
        index = 0

        # Looping though all the slaves and adjusting them as needed
        for slave in self.frame.grid_slaves()[::-1]: # Reversed for simplicity
            
            # Anaylse and configure the Labels
            if type(slave) == tk.Label:
                if self.location_view+index == len(self.locations):
                    slave.grid_forget()
                else:
                    if slave.cget("text") not in remaining_locations:
                        move = True
                    if move:
                        slave.config(
                            text=self.locations[
                                self.location_view+index
                                ].user_input
                            )
                index += 1
            # Ensure that the final button is removed if needed
            if (type(slave) == tk.Button and
                self.location_view+index-1 == len(self.locations)):
                slave.grid_forget()
                
        self.location_view -= 1

    def _move_boxes(self, direction):
        '''Move the visual list of locations in required direction

        '''

        for i in self.locations:
            print(i)

        # Ensure that the given command is valid in the current configuration
        if ((self.location_view == 0 and
            direction == -1) or
            (self.location_view+self.VIEW_SIZE == len(self.locations) and
             direction == 1)):
            return None
        else:
            self.location_view += direction
            
            # Iterate though the Labels and change their values
            for index, slave in enumerate(self.frame.grid_slaves()[::-1]):
                if type(slave) == tk.Label:
                    slave.config(
                        text=self.locations[
                            self.location_view+index
                            ].user_input
                        )


##    def user_input(self, event):
##        if event.char == "a":
##            print(self.transport_mode.get())

    def _search(self):
        '''Calculate and return the most efficent route

        '''
        # Using the Latitude and Longitude, calculate the distance matrix
        precise_locations = [l.location for l in self.locations]
        distance_matrix_info = location.GM.distance_matrix(
            precise_locations, precise_locations,
            mode=self.transport_mode.get().lower()
            )
        self.distance_matrix = []
        for origin in distance_matrix_info["rows"]:
            self.distance_matrix.append(
                [dest["duration"]["value"] for dest in origin["elements"]]
                )

########################################################################################################################
        t = time()
        _time, _route = search.nearest_neighbour(self.distance_matrix)
        print("nn time")
        print(time()-t)
        t2 = time()
        _time2, _route2 = search.brute_force(self.distance_matrix)
        print("bf time")
        print(time()-t2)
        print(_time)
        print(_route)
########################################################################################################################

        # Write message to the user about the best route
        msg = "The best route to visit every location in the minimun amount of time is "
        for loc in _route[:-1]:
            msg += self.locations[loc].user_input
            msg += ", then "
        msg += "and then finally "
        msg += self.locations[_route[-1]].user_input
        
        # Set up the message to tell the user which route is best
        self.route_box = tk.Toplevel(master=self.root)
        self.route_box.title("Best Route")

        # Configure widgets in message box
        tk.Message(self.route_box, text=msg).pack()
        tk.Button(
            self.route_box,
            text="OK",
            command=lambda:self.route_box.destroy()
            ).pack()
Exemplo n.º 18
0
class UI(tk.Tk):

    def __init__(self):
        tk.Tk.__init__(self)

        self.geometry(f'{WIDTH}x{HEIGHT}')
        self.title('GooMPy')

        self.canvas = tk.Canvas(self, width=WIDTH, height=HEIGHT)
        self.canvas.pack(fill='both')

        self.bind("<Key>", self.check_quit)
        self.bind('<B1-Motion>', self.drag)
        self.bind('<Button-1>', self.click)

        self.radiogroup = tk.Frame(self.canvas)
        self.radiovar = tk.IntVar()
        self.maptypes = ['roadmap', 'terrain', 'satellite', 'hybrid']
        self.add_radio_button(0)
        self.add_radio_button(1)
        self.add_radio_button(2)
        self.add_radio_button(3)

        self.zoom_in_button = self.add_zoom_button('+', +1)
        self.zoom_out_button = self.add_zoom_button('-', -1)

        self.zoomlevel = ZOOM
        self.radiovar.set(0)

        self.goompy = GooMPy(
            WIDTH, HEIGHT, LATITUDE, LONGITUDE, ZOOM, radius_meters=RADIUS)

        self.goompy.use_map_type(MAPTYPE)
        self.redraw()

    def add_zoom_button(self, text, sign):
        button = tk.Button(
            self.canvas, text=text, width=1, command=lambda: self.zoom(sign))
        return button

    def set_cursor_to_normal(self):
        self.config(cursor='')
        self.update_idletasks()

    def set_cursor_to_wait(self):
        # A little trick to get a watch cursor along with loading
        self.config(cursor='watch')
        self.update_idletasks()

    def add_radio_button(self, index):
        maptype = self.maptypes[index]
        tk.Radiobutton(self.radiogroup, text=maptype, variable=self.radiovar, value=index,
                       command=lambda: self.usemap(maptype)).grid(row=0, column=index)

    def click(self, event):
        self.coords = event.x, event.y
        lon = self.goompy.get_lon_from_x(self.coords[0])
        lat = self.goompy.get_lat_from_y(self.coords[1])

        # TODO debug print statement
        print(f'x: {self.coords[0]}, y: {self.coords[1]} '
              f'lon: {lon:.4f}, lat: {lat:.4f}')

    def drag(self, event):
        self.goompy.move(self.coords[0] - event.x, self.coords[1] - event.y)
        self.redraw()
        self.coords = event.x, event.y

    def redraw(self):
        # clear the canvas
        self.canvas.delete('all')

        image = self.goompy.get_image()
        self.my_image = ImageTk.PhotoImage(image)
        self.canvas.create_image(0, 0, image=self.my_image, anchor='nw')

        self.radiogroup.place(x=0, y=0)

        x = int(self.canvas['width']) - 50
        y = int(self.canvas['height']) - 80
        self.zoom_in_button.place(x=x, y=y)
        self.zoom_out_button.place(x=x, y=y + 30)

        self.draw_point(LATITUDE, LONGITUDE, fill='blue')

    def usemap(self, maptype):
        self.set_cursor_to_wait()
        self.goompy.use_map_type(maptype)
        self.set_cursor_to_normal()
        self.redraw()

    def zoom(self, sign):
        self.set_cursor_to_wait()
        self.zoomlevel = self.goompy.get_zoom
        newlevel = self.zoomlevel + sign
        if 0 < newlevel < 22:
            self.zoomlevel = newlevel
            self.goompy.use_zoom(newlevel)
            self.redraw()

        self.set_cursor_to_normal()

    def draw_point(self, lat, lon, size=None, **kwargs):
        x = self.goompy.get_xwin_from_lon(lon)
        y = self.goompy.get_ywin_from_lat(lat)

        if size is None:
            size = int(DEFAULT_SYMBOL_SIZE / 2)

        elif not -1 < size <= MAX_SYMBOL_SIZE:
            raise ValueError(f'size drawing object must be positive and '
                             f'less than {MAX_SYMBOL_SIZE + 1}')

        else:
            size = int(size/2)

        bbox = (x - size, y - size, x + size, y + size)
        self.canvas.create_oval(*bbox, **kwargs)

    def check_quit(self, event):
        if ord(event.char) == 27:  # ESC
            exit(0)
Exemplo n.º 19
0
class UI(tk.Tk):

    def __init__(self):

        tk.Tk.__init__(self)

        self.geometry('%dx%d+500+500' % (WIDTH,HEIGHT))
        self.title('GooMPy')

        self.canvas = tk.Canvas(self, width=WIDTH, height=HEIGHT)

        self.canvas.pack()

        self.bind("<Key>", self.check_quit)
        self.bind('<B1-Motion>', self.drag)
        self.bind('<Button-1>', self.click)

        self.label = tk.Label(self.canvas)

        self.radiogroup = tk.Frame(self.canvas)
        self.radiovar = tk.IntVar()
        self.maptypes = ['roadmap', 'terrain', 'satellite', 'hybrid']
        self.add_radio_button('Road Map',  0)
        self.add_radio_button('Terrain',   1)
        self.add_radio_button('Satellite', 2)
        self.add_radio_button('Hybrid',    3)

        self.zoom_in_button  = self.add_zoom_button('+', +1)
        self.zoom_out_button = self.add_zoom_button('-', -1)

        self.zoomlevel = ZOOM

        maptype_index = 0
        self.radiovar.set(maptype_index)

        self.goompy = GooMPy(WIDTH, HEIGHT, LATITUDE, LONGITUDE, ZOOM, MAPTYPE)

        self.restart()

    def add_zoom_button(self, text, sign):

        button = tk.Button(self.canvas, text=text, width=1, command=lambda:self.zoom(sign))
        return button

    def reload(self):

        self.coords = None
        self.redraw()

        self['cursor']  = ''


    def restart(self):

        # A little trick to get a watch cursor along with loading
        self['cursor']  = 'watch'
        self.after(1, self.reload)

    def add_radio_button(self, text, index):

        maptype = self.maptypes[index]
        tk.Radiobutton(self.radiogroup, text=maptype, variable=self.radiovar, value=index, 
                command=lambda:self.usemap(maptype)).grid(row=0, column=index)

    def click(self, event):

        self.coords = event.x, event.y

    def drag(self, event):

        self.goompy.move(self.coords[0]-event.x, self.coords[1]-event.y)
        self.image = self.goompy.getImage()
        self.redraw()
        self.coords = event.x, event.y

    def redraw(self):

        self.image = self.goompy.getImage()
        self.image_tk = ImageTk.PhotoImage(self.image)
        self.label['image'] = self.image_tk

        self.label.place(x=0, y=0, width=WIDTH, height=HEIGHT) 

        self.radiogroup.place(x=0,y=0)

        x = int(self.canvas['width']) - 50
        y = int(self.canvas['height']) - 80

        self.zoom_in_button.place(x= x, y=y)
        self.zoom_out_button.place(x= x, y=y+30)

    def usemap(self, maptype):

        self.goompy.useMaptype(maptype)
        self.restart()

    def zoom(self, sign):

        newlevel = self.zoomlevel + sign
        if newlevel > 0 and newlevel < 22:
            self.zoomlevel = newlevel
            self.goompy.useZoom(newlevel)
            self.restart()

    def check_quit(self, event):

        if ord(event.char) == 27: # ESC
            exit(0)
Exemplo n.º 20
0
    def create_tabPages(self, tag, tabPage):
        if tag == 'parse':
            self.tree_parseDate = ttk.Treeview(tabPage, selectmode='browse')
            verticalScroll = ttk.Scrollbar(tabPage,
                                           orient='vertical',
                                           command=self.tree_parseDate.yview)
            verticalScroll.pack(side='right', fill='y')
            horScroll = ttk.Scrollbar(tabPage,
                                      orient='horizontal',
                                      command=self.tree_parseDate.xview)
            horScroll.pack(side='bottom', fill='x')

            self.tree_parseDate.configure(yscrollcommand=verticalScroll.set)
            self.tree_parseDate.configure(xscrollcommand=horScroll.set)

            self.tree_parseDate['columns'] = ('latitude', 'longhitude',
                                              'altitude', 'distance',
                                              'satellites', 'quality', 'speed',
                                              'course', 'date')
            #self.tree_parseDate['show'] = 'headings'
            self.tree_parseDate.heading("#0", text='Timestamp', anchor='w')
            self.tree_parseDate.column("#0", anchor="w", width=40)
            self.tree_parseDate.heading('latitude', text='Latitude')
            self.tree_parseDate.column('latitude',
                                       stretch='yes',
                                       anchor='w',
                                       width=14)

            self.tree_parseDate.heading('longhitude', text='Longhitude')
            self.tree_parseDate.column('longhitude', anchor='w', width=20)

            self.tree_parseDate.heading('altitude', text='Altitude')
            self.tree_parseDate.column('altitude', anchor='w', width=20)

            self.tree_parseDate.heading('distance', text='Distance')
            self.tree_parseDate.column('distance', anchor='w', width=20)

            self.tree_parseDate.heading('satellites', text='Satellites')
            self.tree_parseDate.column('satellites', anchor='w', width=10)

            self.tree_parseDate.heading('quality', text='Quality')
            self.tree_parseDate.column('quality', anchor='w', width=20)

            self.tree_parseDate.heading('speed', text='Speed')
            self.tree_parseDate.column('speed', anchor='w', width=20)

            self.tree_parseDate.heading('course', text='Course')
            self.tree_parseDate.column('course', anchor='w', width=20)

            self.tree_parseDate.heading('date', text='Date')
            self.tree_parseDate.column('date', anchor='w', width=20)

            #self.init_workspaces()
            self.tree_parseDate.pack(expand=1, fill='both')
        elif tag == 'raw':
            self.txt_rawData = Text(tabPage)
            self.txt_rawData.pack(expand=1, fill='both')
            self.txt_rawData.insert(END, 'GPS Logger started...')
            pass
        elif tag == 'summary':
            pass
        else:
            self.canvas = Canvas(tabPage)
            self.canvas.pack(expand=1, fill='both')
            self.label = Label(self.canvas)
            self.label.bind('<B1-Motion>', self.goompy_drag)
            self.label.bind('<Button-1>', self.goompy_click)
            self.label.bind("<Double-1>", lambda e: self.goompy_zoom(+1))
            self.label.bind("<Double-3>", lambda e: self.goompy_zoom(-1))
            self.label.bind_all("<MouseWheel>", self.goompy_mousewheel)
            self.zoomlevel = ZOOM
            self.goompy = GooMPy(WIDTH, HEIGHT, LATITUDE, LONGITUDE, ZOOM,
                                 MAPTYPE)
            self.goompy_restart()
            pass
        pass
Exemplo n.º 21
0
class Application(Frame):
    def __init__(self, parent):
        Frame.__init__(self, parent)
        self.parent = parent
        self.parent.protocol("WM_DELETE_WINDOW", self.onExit)
        self.parent.bind("<Destroy>", lambda e: self.onExit)

        self.init_settings()
        self.init_classes()
        self.init_variables()
        self.init_images()

        self.init_menubar()
        self.init_toolbar()
        self.init_tabs()
        self.init_statusbar()

        self.init_connections()

        self.pack()

    def init_settings(self):
        pass

    def init_classes(self):
        self.config_menus = configparser.ConfigParser()
        self.config_tools = configparser.ConfigParser()
        self.config_tabs = configparser.ConfigParser()
        self.config_map = configparser.ConfigParser()
        self._serial = serial.Serial()
        self._parser = parsenmea.ParseNmea()
        self._storage = StorageDB('gps.sqlite')
        self._settings = Settings()
        self._gpgga = nmea.GPGGA()
        self._gprmc = nmea.GPRMC()

        pass

    def init_variables(self):
        self.images_ui = {}
        self.toolbars = {}
        self.menus = {}

        self.lbl_status = StringVar()
        self.connection_status = StringVar()
        self.port_label = StringVar()
        self.port = StringVar()
        self.baud = StringVar()

        self.line_raw = IntVar()
        self.progress = IntVar()
        self.progress_maximum = IntVar()

        self.lastLat = 0.0
        self.lastLon = 0.0

        self.is_zoomIn = True

        # get current project root path
        self.dir_name = os.path.dirname(os.path.realpath(__file__))
        self.menu_file = os.path.join(self.dir_name, "configs/menus.ini")
        self.tool_file = os.path.join(self.dir_name, "configs/toolbars.ini")
        self.tabs_file = os.path.join(self.dir_name, "configs/tabs.ini")
        self.config_file = os.path.join(self.dir_name, "configs/global.ini")
        self.img_path = os.path.join(self.dir_name, "images")
        self.output_path = os.path.join(self.dir_name, "outputs")
        pass

    def init_images(self):
        for file in os.listdir(self.img_path):
            if file.endswith(".png"):
                self.images_ui[file.replace(".png", "")] = PhotoImage(
                    file=str(os.path.join(self.img_path, file)))
        pass

    def init_menubar(self):
        # Load the menus configuration file
        self.config_menus.read(self.menu_file)
        # Initialize menus from configuration file
        self.menubar = Menu(self.parent)
        for section in self.config_menus.sections():
            topMenu = Menu(self.menubar, tearoff=0)
            for option in self.config_menus.options(section):
                if option.strip() == "-":
                    topMenu.add_separator()
                else:
                    topMenu.add_command(
                        label=self.config_menus.get(section, option),
                        compound=LEFT,
                        image=self.images_ui[option],
                        command=lambda tag=option: self.doClickEvent(0, tag))
                    self.menus[option] = topMenu
            self.menubar.add_cascade(label=section, menu=topMenu)
        self.parent.config(menu=self.menubar)
        #for entry in self.menus:
        #self.menus[entry].config(fg= 'green', image= self.images_ui['connect'])
        pass

    def init_toolbar(self):
        # Load the toolbars configuration file
        self.config_tools.read(self.tool_file)
        # Initialize toolbars from configuration file

        self.toolbar = Frame(self.parent, bd=1, relief=RAISED)
        for section in self.config_tools.sections():
            for option in self.config_tools.options(section):
                self.btn_tool = Button(
                    self.toolbar,
                    image=self.images_ui[option],
                    text=option,
                    relief=FLAT,
                    justify=CENTER,
                    command=lambda tag=option: self.doClickEvent(0, tag))
                self.btn_tool.image = self.images_ui[option]
                self.btn_tool.pack(side=LEFT, padx=2, pady=2)
                self.toolbars[option] = self.btn_tool
        self.toolbar.pack(side=TOP, fill=X)

        #for entry in self.toolbars:
        #    self.toolbars[entry]['state'] = DISABLED
        pass

    def init_tabs(self):
        # Load the tabs configuration file
        self.config_tabs.read(self.tabs_file)
        # Initialize tabs from configuration file
        self.tabs = ttk.Notebook(self.parent)
        for section in self.config_tabs.sections():
            for tab in self.config_tabs.options(section):
                tabPage = ttk.Frame(
                    self.tabs
                )  # first page, which would get widgets gridded into it
                self.tabs.add(tabPage,
                              text=self.config_tabs.get(section, tab),
                              image=self.images_ui[tab],
                              compound=LEFT)
                self.create_tabPages(tab, tabPage)
                pass
        self.tabs.pack(expand=1, fill="both")  # Pack to make visible

    def init_statusbar(self):
        self.status_frame = Frame(self.parent, bd=1, relief=GROOVE)
        self.status_frame.pack(fill=X)

        label_Status = Label(self.status_frame,
                             textvariable=self.lbl_status,
                             anchor=W)
        label_Status.pack(side=LEFT)
        label_Dummy = Label(self.status_frame, text='|  GPS Device:', anchor=W)
        label_Dummy.pack(side=LEFT)
        lbl_Connection = Label(self.status_frame,
                               textvariable=self.connection_status,
                               anchor=E,
                               fg='blue')
        lbl_Connection.pack(side=LEFT)
        self.connection_status.set("Disconnected")
        label_lineDummy = Label(self.status_frame, text='|  Line:', anchor=W)
        label_lineDummy.pack(side=LEFT)
        lbl_lineRaw = Label(self.status_frame,
                            textvariable=self.line_raw,
                            anchor=E,
                            fg='green')
        lbl_lineRaw.pack(side=LEFT)
        self.line_raw.set(0)

    def create_tabPages(self, tag, tabPage):
        if tag == 'parse':
            self.tree_parseDate = ttk.Treeview(tabPage, selectmode='browse')
            verticalScroll = ttk.Scrollbar(tabPage,
                                           orient='vertical',
                                           command=self.tree_parseDate.yview)
            verticalScroll.pack(side='right', fill='y')
            horScroll = ttk.Scrollbar(tabPage,
                                      orient='horizontal',
                                      command=self.tree_parseDate.xview)
            horScroll.pack(side='bottom', fill='x')

            self.tree_parseDate.configure(yscrollcommand=verticalScroll.set)
            self.tree_parseDate.configure(xscrollcommand=horScroll.set)

            self.tree_parseDate['columns'] = ('latitude', 'longhitude',
                                              'altitude', 'distance',
                                              'satellites', 'quality', 'speed',
                                              'course', 'date')
            #self.tree_parseDate['show'] = 'headings'
            self.tree_parseDate.heading("#0", text='Timestamp', anchor='w')
            self.tree_parseDate.column("#0", anchor="w", width=40)
            self.tree_parseDate.heading('latitude', text='Latitude')
            self.tree_parseDate.column('latitude',
                                       stretch='yes',
                                       anchor='w',
                                       width=14)

            self.tree_parseDate.heading('longhitude', text='Longhitude')
            self.tree_parseDate.column('longhitude', anchor='w', width=20)

            self.tree_parseDate.heading('altitude', text='Altitude')
            self.tree_parseDate.column('altitude', anchor='w', width=20)

            self.tree_parseDate.heading('distance', text='Distance')
            self.tree_parseDate.column('distance', anchor='w', width=20)

            self.tree_parseDate.heading('satellites', text='Satellites')
            self.tree_parseDate.column('satellites', anchor='w', width=10)

            self.tree_parseDate.heading('quality', text='Quality')
            self.tree_parseDate.column('quality', anchor='w', width=20)

            self.tree_parseDate.heading('speed', text='Speed')
            self.tree_parseDate.column('speed', anchor='w', width=20)

            self.tree_parseDate.heading('course', text='Course')
            self.tree_parseDate.column('course', anchor='w', width=20)

            self.tree_parseDate.heading('date', text='Date')
            self.tree_parseDate.column('date', anchor='w', width=20)

            #self.init_workspaces()
            self.tree_parseDate.pack(expand=1, fill='both')
        elif tag == 'raw':
            self.txt_rawData = Text(tabPage)
            self.txt_rawData.pack(expand=1, fill='both')
            self.txt_rawData.insert(END, 'GPS Logger started...')
            pass
        elif tag == 'summary':
            pass
        else:
            self.canvas = Canvas(tabPage)
            self.canvas.pack(expand=1, fill='both')
            self.label = Label(self.canvas)
            self.label.bind('<B1-Motion>', self.goompy_drag)
            self.label.bind('<Button-1>', self.goompy_click)
            self.label.bind("<Double-1>", lambda e: self.goompy_zoom(+1))
            self.label.bind("<Double-3>", lambda e: self.goompy_zoom(-1))
            self.label.bind_all("<MouseWheel>", self.goompy_mousewheel)
            self.zoomlevel = ZOOM
            self.goompy = GooMPy(WIDTH, HEIGHT, LATITUDE, LONGITUDE, ZOOM,
                                 MAPTYPE)
            self.goompy_restart()
            pass
        pass

    def goompy_reload(self):
        self.coords = None
        self.goompy_redraw()
        self.parent['cursor'] = ''
        pass

    def goompy_restart(self):
        # A little trick to get a watch cursor along with loading
        self.parent['cursor'] = 'watch'
        self.after(1, self.goompy_reload)

    def goompy_redraw(self):
        self.image = self.goompy.getImage()
        self.image_tk = ImageTk.PhotoImage(self.image)
        self.label['image'] = self.image_tk
        self.label.pack(expand=1, fill='both')

    def goompy_zoom(self, sign):
        newlevel = self.zoomlevel + sign
        if newlevel > 0 and newlevel < 22:
            self.zoomlevel = newlevel
            self.goompy.useZoom(newlevel)
            self.goompy_restart()

    def goompy_mousewheel(self, event):
        if event.num == 5 or event.delta < 0:
            self.goompy_zoom(-1)
        else:
            self.goompy_zoom(+1)
        pass

    def goompy_drag(self, event):
        try:
            # Ignore NONE value
            self.goompy.move(self.coords[0] - event.x,
                             self.coords[1] - event.y)
        except:
            pass
        self.image = self.goompy.getImage()
        self.goompy_redraw()
        self.coords = event.x, event.y

    def goompy_click(self, event):
        self.coords = event.x, event.y

    def init_connections(self):
        self.port_label.set(self._settings.GetSetting('port_label'))
        self.port.set(self._settings.GetSetting('port'))
        self.baud.set(self._settings.GetSetting('baud'))
        self.lbl_status.set(
            ('%s | %s' % (self.port_label.get(), self.baud.get())))

        self.port_old = self._settings.GetSetting('port_old')
        if self.port.get() != self.port_old:
            if self._serial.is_open == True:
                self._serial.close()
                self.connection_status.set("Disconnected")
                self.toolbars['connect']['image'] = self.images_ui['connect']
                self.menus['connect'].entryconfig(
                    1, image=self.images_ui['connect'], label='Connect')

        self._serial.baudrate = self.baud.get()
        self._serial.port = self.port.get()

    def connect_device(self):
        if self._serial.is_open == False:
            try:
                self._serial.open()  # Open serial port
            except:
                pass
        else:
            self._serial.close()

        if self._serial.is_open == True:
            self.connection_status.set("Connected")
            self.toolbars['connect']['image'] = self.images_ui['disconnect']
            self.menus['connect'].entryconfig(
                1, image=self.images_ui['disconnect'], label='Disconnect')
            self.thread = Thread(target=self.read_serial,
                                 name=str(datetime.datetime.now()))
            self.thread.start()
        else:
            self.connection_status.set("Disconnected")
            self.toolbars['connect']['image'] = self.images_ui['connect']
            self.menus['connect'].entryconfig(1,
                                              image=self.images_ui['connect'],
                                              label='Connect')

    def read_serial(self):
        self.txt_rawData.insert(END, '\n')  # add first line as line space
        self.line_raw.set(0)
        i = 0
        while self._serial.is_open:
            reading = self._serial.read(self._serial.in_waiting)
            self.txt_rawData.insert(END, reading)
            self.txt_rawData.see("end")
            self.line_raw.set(i)
            self.parse_data(reading)
            i += 1

    def read_data(self, filename):
        if filename.strip() == '':
            return
        self._parser.ParseGpsNmeaFile(filename)
        # If the gpsData is length zero the file was not in the
        # GPGGA, GPRMC pair format. Try the just GPRMC format
        if len(self._parser.gpsData) == 0:
            self._parser.ParseGpsNmeaGprmcFile(filename)
            if len(self._parser.gpsData) == 0:
                print("Error parsing data. Fix input file?")
                exit
        output_file = ''.join(ch for ch in str(datetime.datetime.now())
                              if ch.isalnum())
        self._parser.SaveReducedGpsData(
            '%s.txt' % os.path.join(self.output_path, output_file))

        self.txt_rawData.delete('1.0', END)
        self.txt_rawData.insert(END, '\n')  # add first line as line space
        with open(filename) as fp:
            self.line_raw.set(0)
            i = 0
            for cnt, line in enumerate(fp):
                #print("Line {}: {}".format(cnt, line))
                if line.strip() is not '':
                    self.txt_rawData.insert(END, line)
                    self.txt_rawData.see("end")
                    self.line_raw.set(i)
                    self.parse_data(line)
                    i += 1

    def parse_data(self, line):
        # Skip any sentence other than GPGGA
        if line.startswith('$GPGGA'):
            self._gpgga.parse(line)
            #if self._parser.DoNotHaveFix(self._gpgga.latitude):
            #    continue
            [lat, lon] = self._parser.ConvertLatLonToDecimalDegrees(
                self._gpgga.latitude, self._gpgga.lat_direction,
                self._gpgga.longitude, self._gpgga.lon_direction)
            distance = self._parser.HaversineDistance(lat, self.lastLat, lon,
                                                      self.lastLon)
            self.lastLat = lat
            self.lastLon = lon
            self.tree_parseDate.insert(
                '',
                'end',
                self._gpgga.timestamp,
                values=(lat, lon, self._gpgga.antenna_altitude, distance,
                        self._gpgga.num_sats, self._gpgga.gps_qual))

    '''
    This region starts with control events
    '''

    def doClickEvent(self, index, tag):
        if tag == 'zoom_out':
            self.is_zoomIn = False
            self.goompy_zoom(-1)
        elif tag == 'zoom_in':
            self.is_zoomIn = True
            self.goompy_zoom(+1)
        elif tag == 'port':
            self._settings.SetSettings('port_old', self.port.get())
            cd = ConnectionDialog(self.parent)
            if cd.OK[0] == True:
                self.init_connections()
        elif tag == 'connect':
            self.connect_device()
            pass

        elif tag == 'open':
            self.file_name = filedialog.askopenfilename()
            self.lbl_status.set(self.file_name)
            self.read_data(self.file_name)
            #self.thread = Thread(target=self.read_data, name = str(datetime.datetime.now()))
            #self.thread.start()
        elif tag == 'exit':
            self.onExit()
            pass
        else:
            print((index, tag))
            pass
        pass

    def onExit(self):
        try:
            if messagebox.askokcancel('Quit', 'Do you want to quit?'):
                self.parent.destroy()
        except:
            pass
Exemplo n.º 22
0
    def __init__(self):

        Tk.__init__(self)

        self.geometry('%dx%d+100+100' % (1200, 600))
        self.title('Crowdtour')
        self.audioCount = 0
        self.WAVE_OUTPUT_FILENAME = ''
        self.button_list = []
        self.current_places = []

        app = QApplication(sys.argv)

        self.canvas = Canvas(self, width=WIDTH, height=HEIGHT)

        self.canvas.pack()
        self.canvas.place(relx=0, rely=0)
        self.bind("<Key>", self.check_quit)
        self.bind('<B1-Motion>', self.drag)
        self.bind('<Button-1>', self.click)

        self.label = Label(self.canvas)

        self.radiogroup = Frame(self.canvas)
        self.radiovar = IntVar()
        self.maptypes = ['roadmap', 'terrain', 'satellite', 'hybrid']
        self.add_radio_button('Road Map', 0)
        self.add_radio_button('Terrain', 1)
        self.add_radio_button('Satellite', 2)
        self.add_radio_button('Hybrid', 3)

        #input
        self.entry = Entry(self, bd=3)
        self.button = Button(self, text="Location", command=self.geolocation)
        self.button.place(relx=.18, rely=.90, anchor="c")
        self.entry.place(relx=.05, rely=.80)

        #buttons
        self.recordButton = Button(self, text="Record", command=self.record)
        self.recordButton.place(relx=.30, rely=.75, anchor="c")

        self.uploadButton = Button(self, text="Upload", command=self.upload)
        self.uploadButton.place(relx=.30, rely=.80, anchor="c")

        self.playButton = Button(self, text="Play", command=self.play)
        self.playButton.place(relx=.30, rely=.85, anchor="c")

        self.deleteButton = Button(self, text="Delete", command=self.delete)
        self.deleteButton.place(relx=.30, rely=.90, anchor="c")
        ### adding part here ###
        self.sound = QSoundEffect()
        # This is where you set default sound source
        if not os.path.exists('sounds'):
            os.makedirs('sounds')

        defaultBytes = b'27\xe5\xb2\x81\xe5'
        waveTest = wave.open(os.path.join('sounds', 'DefaultSound.wav'), 'w')
        waveTest.setparams((2, 2, 44100, 440320, 'NONE', 'not compressed'))
        waveTest.writeframes(defaultBytes)

        self.sound.setSource(
            QUrl.fromLocalFile(os.path.join('sounds', 'DefaultSound.wav')))

        ### adding part here ###

        self.zoom_in_button = self.add_zoom_button('+', +1)
        self.zoom_out_button = self.add_zoom_button('-', -1)

        self.zoomlevel = ZOOM

        maptype_index = 0
        self.radiovar.set(maptype_index)
        MARKER = "markers=size:tiny|label:B|color:blue|" + str(
            LATITUDE) + "," + str(LONGITUDE)
        self.goompy = GooMPy(WIDTH, HEIGHT, LATITUDE, LONGITUDE, ZOOM, MAPTYPE,
                             MARKER)

        self.restart()
Exemplo n.º 23
0
class UI(Tk):
    def __init__(self):

        Tk.__init__(self)

        self.geometry('%dx%d+100+100' % (1200, 600))
        self.title('Crowdtour')
        self.audioCount = 0
        self.WAVE_OUTPUT_FILENAME = ''
        self.button_list = []
        self.current_places = []

        app = QApplication(sys.argv)

        self.canvas = Canvas(self, width=WIDTH, height=HEIGHT)

        self.canvas.pack()
        self.canvas.place(relx=0, rely=0)
        self.bind("<Key>", self.check_quit)
        self.bind('<B1-Motion>', self.drag)
        self.bind('<Button-1>', self.click)

        self.label = Label(self.canvas)

        self.radiogroup = Frame(self.canvas)
        self.radiovar = IntVar()
        self.maptypes = ['roadmap', 'terrain', 'satellite', 'hybrid']
        self.add_radio_button('Road Map', 0)
        self.add_radio_button('Terrain', 1)
        self.add_radio_button('Satellite', 2)
        self.add_radio_button('Hybrid', 3)

        #input
        self.entry = Entry(self, bd=3)
        self.button = Button(self, text="Location", command=self.geolocation)
        self.button.place(relx=.18, rely=.90, anchor="c")
        self.entry.place(relx=.05, rely=.80)

        #buttons
        self.recordButton = Button(self, text="Record", command=self.record)
        self.recordButton.place(relx=.30, rely=.75, anchor="c")

        self.uploadButton = Button(self, text="Upload", command=self.upload)
        self.uploadButton.place(relx=.30, rely=.80, anchor="c")

        self.playButton = Button(self, text="Play", command=self.play)
        self.playButton.place(relx=.30, rely=.85, anchor="c")

        self.deleteButton = Button(self, text="Delete", command=self.delete)
        self.deleteButton.place(relx=.30, rely=.90, anchor="c")
        ### adding part here ###
        self.sound = QSoundEffect()
        # This is where you set default sound source
        if not os.path.exists('sounds'):
            os.makedirs('sounds')

        defaultBytes = b'27\xe5\xb2\x81\xe5'
        waveTest = wave.open(os.path.join('sounds', 'DefaultSound.wav'), 'w')
        waveTest.setparams((2, 2, 44100, 440320, 'NONE', 'not compressed'))
        waveTest.writeframes(defaultBytes)

        self.sound.setSource(
            QUrl.fromLocalFile(os.path.join('sounds', 'DefaultSound.wav')))

        ### adding part here ###

        self.zoom_in_button = self.add_zoom_button('+', +1)
        self.zoom_out_button = self.add_zoom_button('-', -1)

        self.zoomlevel = ZOOM

        maptype_index = 0
        self.radiovar.set(maptype_index)
        MARKER = "markers=size:tiny|label:B|color:blue|" + str(
            LATITUDE) + "," + str(LONGITUDE)
        self.goompy = GooMPy(WIDTH, HEIGHT, LATITUDE, LONGITUDE, ZOOM, MAPTYPE,
                             MARKER)

        self.restart()

    def add_zoom_button(self, text, sign):

        button = Button(self.canvas,
                        text=text,
                        width=1,
                        command=lambda: self.zoom(sign))
        return button

    def reload(self):

        self.coords = None
        self.redraw()

        self['cursor'] = ''

    def restart(self):

        # A little trick to get a watch cursor along with loading
        self['cursor'] = 'watch'
        self.after(1, self.reload)

    def add_radio_button(self, text, index):

        maptype = self.maptypes[index]
        Radiobutton(self.radiogroup,
                    text=maptype,
                    variable=self.radiovar,
                    value=index,
                    command=lambda: self.usemap(maptype)).grid(row=0,
                                                               column=index)

    def click(self, event):

        self.coords = event.x, event.y

    def drag(self, event):

        self.goompy.move(self.coords[0] - event.x, self.coords[1] - event.y)
        self.image = self.goompy.getImage()
        self.redraw()
        self.coords = event.x, event.y

    def redraw(self):

        self.image = self.goompy.getImage()
        self.image_tk = ImageTk.PhotoImage(self.image)
        self.label['image'] = self.image_tk

        self.label.place(x=0, y=0, width=WIDTH, height=HEIGHT)

        self.radiogroup.place(x=0, y=0)

        x = int(self.canvas['width']) - 50
        y = int(self.canvas['height']) - 80

        self.zoom_in_button.place(x=x, y=y)
        self.zoom_out_button.place(x=x, y=y + 30)

    def usemap(self, maptype):

        self.goompy.useMaptype(maptype)
        self.restart()

    def zoom(self, sign):

        newlevel = self.zoomlevel + sign
        if newlevel > 0 and newlevel < 22:
            self.zoomlevel = newlevel
            self.goompy.useZoom(newlevel)
            self.restart()

    def check_quit(self, event):

        if ord(event.char) == 27:  # ESC
            exit(0)

    #input
    def geolocation(self):
        self.maplist = []
        self.buttonHeightCounter = .05
        API_KEY = 'AIzaSyBPGAbevdKkeXaZT0ZsR0qbO30Bpqqm0Mc'

        google_places = GooglePlaces(API_KEY)

        self.query_result = google_places.nearby_search(
            location=self.entry.get(),
            radius=700,
            types=[types.TYPE_RESTAURANT])
        self.current_places = self.query_result

        if self.query_result.has_attributions:
            print(self.query_result.html_attributions)

        for place in self.query_result.places:
            place.get_details()

            markers = "&markers=size:big|label:S|color:red|" + str(
                place.details['geometry']['location']['lat']) + "," + str(
                    place.details['geometry']['location']['lng']) + "|"
            self.maplist.append(markers)
            print(place.name)
            self.button_list.append(
                Button(self,
                       text=place.name,
                       command=lambda pname=place.name: self.on_click(pname),
                       width=25))
            self.button_list[-1].place(relx=.70,
                                       rely=self.buttonHeightCounter,
                                       anchor="c")
            self.buttonHeightCounter += .035
            print(place.formatted_address + "\n")

        google_maps = GoogleMaps(
            api_key='AIzaSyDlJqxwlOWWAPwf54ivrpAZw4R1Yb5j6Yk')

        location = google_maps.search(
            location=self.entry.get())  # sends search to Google Maps.

        my_location = location.first()  # returns only first location.

        #MARKER = '&markers=color:blue' + '%' + str(7) + 'Clabel:S%' + str(7) + 'C' + str(my_location.lat) + ',' + str(my_location.lng)
        #MARKER = "&markers=size:big|label:S|color:blue|" + str(my_location.lat) + "," + str(my_location.lng) + "|" + \

        MARKER = self.maplist[1] + self.maplist[2] + self.maplist[3]

        self.zoomlevel = ZOOM

        maptype_index = 0
        self.radiovar.set(maptype_index)

        self.goompy = GooMPy(WIDTH, HEIGHT, my_location.lat, my_location.lng,
                             ZOOM, MAPTYPE, MARKER)

        self.restart()
        print(self.query_result)
        print(str(my_location.lat))
        print(str(my_location.lng))
        #print(self.button_list)

    def record(self):
        print("Hello Anthony")
        #audioCount = 0
        CHUNK = 1024
        FORMAT = pyaudio.paInt16
        CHANNELS = 2
        RATE = 44100
        RECORD_SECONDS = 10
        self.WAVE_OUTPUT_FILENAME = "output" + str(self.audioCount) + ".wav"
        self.audioCount += 1

        p = pyaudio.PyAudio()

        stream = p.open(format=FORMAT,
                        channels=CHANNELS,
                        rate=RATE,
                        input=True,
                        frames_per_buffer=CHUNK)

        print("recording...")

        frames = []

        for i in range(0, int(RATE / CHUNK * RECORD_SECONDS)):
            data = stream.read(CHUNK)
            frames.append(data)

        print("...done recording")

        stream.stop_stream()
        stream.close()
        p.terminate()

        wf = wave.open(os.path.join('sounds', self.WAVE_OUTPUT_FILENAME), 'wb')
        wf.setnchannels(CHANNELS)
        wf.setsampwidth(p.get_sample_size(FORMAT))
        wf.setframerate(RATE)
        wf.writeframes(b''.join(frames))
        wf.close()

        label = Label(self, text="recording is 10 seconds...done recording")
        #this creates a new label to the GUI
        label.place(relx=.35, rely=.80)

    def upload(self):
        #Convert .Wav into Binary
        self.w = wave.open(os.path.join('sounds', 'output0.wav'))

        #Parameters of the source file (keep this)
        #print(self.w.getparams())

        #Write the binary as a string...
        self.binary_data = self.w.readframes(self.w.getnframes())
        self.w.close()

        #Store binary into SQL
        cursorTest = connection.cursor()
        #TEST INSERT
        cursorTest.execute(
            "INSERT INTO `MARKERS` (`id`, `name`, `address`, `lat`, `lng`, `type`,`sound`) VALUES (%s, %s, %s, %s, %s, %s, %s)",
            ('9', 'Test Human', '999 Test Street, Rozelle, NSW', '-33.861034',
             '151.171936', 'restaurant', self.binary_data))
        #       cursorTest.execute("INSERT INTO `MARKERS` (`name`) VALUES (%s)", ('10'))
        #       cursorTest.execute("INSERT INTO `MARKERS` (`address`) VALUES (%s)", ('Insert Name Here'))
        #       cursorTest.execute("INSERT INTO `MARKERS` (`lat`) VALUES (%s)", ('0'))
        #       cursorTest.execute("INSERT INTO `MARKERS` (`lng`) VALUES (%s)", ('0'))
        #       cursorTest.execute("INSERT INTO `MARKERS` (`type`) VALUES (%s)", ('Insert Type Here'))
        #       cursorTest.execute("INSERT INTO `MARKERS` (`sound`) VALUES (%s)", ('Insert Sound Here'))

        #Read Binary from SQL
        cursors = connection.cursor(pymysql.cursors.DictCursor)
        cursors.execute("SELECT sound FROM MARKERS")
        result_set = cursors.fetchall()
        x = 0
        listSoundbytes = [None] * 1
        for row in result_set:
            listSoundbytes.insert(0, row["sound"])
            x += 1

        #Convert string to .wav file
        stringToByte = bytes(listSoundbytes[0])
        waveSave = wave.open(os.path.join('sounds', 'testFile.wav'), 'w')

        #Set parameters for writing
        waveSave.setparams((2, 2, 44100, 440320, 'NONE', 'not compressed'))
        waveSave.writeframes(stringToByte)
        connection.close()

        #Set sound source to soundbyte from SQL
        self.sound.setSource(
            QUrl.fromLocalFile(os.path.join('sounds', 'testFile.wav')))

        #The "All clear"
        print("Upload Successful")

        label1 = Label(self, text="Upload Successful!")
        #this creates a new label to the GUI
        label1.place(relx=.35, rely=.85)

    def play(self):
        pygame.init()
        pygame.mixer.init()
        sounda = pygame.mixer.Sound("./sounds/testFile.wav")
        sounda.play()

        #self.isPlaying = not self.isPlaying
        #self.isPlaying = True;
        #if self.isPlaying:
        #    self.sound.play()
        #    print('Play')
        #else:
        #    self.sound.stop()
        #    print('Stop')
        #print("play/stop")

    def delete(self):
        print("File Deleted from local device")
        try:
            os.remove('sounds/' + self.WAVE_OUTPUT_FILENAME)
            if self.audioCount < 0:
                self.audioCount -= 1
        except OSError as e:
            print("Error: %s - %s." % (e.filename, e.strerror))

    def on_click(self, pname):
        for place in self.query_result.places:
            if (place.name == pname):
                place.get_details()
                if (place.photos):
                    place.photos[0].get(200, 200)
                    place.photos[2].get(200, 200)
                    url = place.photos[0].url
                    url1 = place.photos[2].url
                    print(url)
                    resource = urllib.request.urlopen(url)
                    im = resource.read()
                    resource.close()
                    self.img = Image.open(BytesIO(im))
                    resource1 = urllib.request.urlopen(url1)
                    im1 = resource1.read()
                    resource1.close()
                    self.img1 = Image.open(BytesIO(im1))
                    canvas = Canvas(width=200, height=200, bg='black')
                    canvas1 = Canvas(width=200, height=200, bg='black')
                    canvas.pack()
                    canvas1.pack()
                    canvas.place(relx=.81, rely=.1)
                    canvas1.place(relx=.81, rely=.5)
                    img = self.img.resize((200, 200), Image.ANTIALIAS)
                    self.photo = ImageTk.PhotoImage(img)
                    img1 = self.img1.resize((200, 200), Image.ANTIALIAS)
                    self.photo1 = ImageTk.PhotoImage(img1)
                    canvas.create_image(105, 105, image=self.photo, anchor="c")
                    canvas1.create_image(105,
                                         105,
                                         image=self.photo1,
                                         anchor="c")

        self.restart()
Exemplo n.º 24
0
if __name__ == '__main__':
    test_set_ar = {
        'LATITUDE': -34.6246,
        'LONGITUDE': -58.4017,
        'longitude_result': -58.4589,
        'latitude_result': -34.6109,
        'x_pixels': 266,
        'y_pixels': 572,
    }

    print(test_set_ar)

    LONGITUDE = test_set_ar.get('LONGITUDE')
    LATITUDE = test_set_ar.get('LATITUDE')

    goompy = GooMPy(WIDTH,
                    HEIGHT,
                    LATITUDE,
                    LONGITUDE,
                    zoom,
                    MAPTYPE,
                    radius_meters=None)
    goompy.use_map_type(MAPTYPE)
    goompy.leftx = 0
    goompy.uppery = 572

    print(goompy.get_lon_from_x(test_set_ar.get('x_pixels')))
    print(goompy.get_lat_from_y(test_set_ar.get('y_pixels')))
    print(goompy.get_x_from_lon(test_set_ar.get('longitude_result')))
    print(goompy.get_y_from_lat(test_set_ar.get('latitude_result')))
Exemplo n.º 25
0
def main():
    for zoom in range(START_ZOOM, END_ZOOM):
        goompy = GooMPy(WIDTH, HEIGHT, LATITUDE, LONGITUDE, zoom, MAPTYPE,
                        None, 4, 1, KMLFILE)
        goompy._KML2XY()
        goompy._fetch()
Exemplo n.º 26
0
class ReadUpdater(QtCore.QThread):

    request_viewport_update = QtCore.pyqtSignal()

    def __init__(self, main_window):
        super(ReadUpdater, self).__init__()

        # ########## Reference to top level window ##########
        self.main_window = main_window  # type: QtWidgets.QMainWindow

        # ########## Get the settings instance ##########
        self.settings = QtCore.QSettings()

        # ########## Get the Pick And Plate instance of the logger ##########
        self.logger = logging.getLogger("RoverBaseStation")

        self.goompy = GooMPy(2 * WIDTH, HEIGHT, LATITUDE, LONGITUDE, ZOOM,
                             MAPTYPE, 1500)

        self.tab_widget = self.main_window.tabWidget  # type: QtWidgets.QTabWidget

        # ########## Some Flags ##########
        self.run_thread_flag = True

        # ########## Class variables ##########
        self.data_last_seen = time.time()

    def run(self):
        #self.logger.debug("Read Updater Thread Starting...")

        self.request_viewport_update.connect(
            self.main_window.show_graphics_view__slot)
        #self.goompy.move(650, 400)

        dx = 1
        dy = 1

        x_num = 0
        y_num = 0

        dir_x = 0
        dir_y = 0

        count_max = 500

        while self.run_thread_flag:

            #self.scene.clear()

            #self.scene = QtWidgets.QGraphicsScene(self)
            #self.graphics_view.setScene(self.scene)
            if dir_x:
                self.goompy.move(-dx, 0)
                x_num -= 1
            else:
                self.goompy.move(dx, 0)
                x_num += 1

            if dir_y:
                self.goompy.move(0, -dy)
                y_num -= 1
            else:
                self.goompy.move(0, dy)
                y_num += 1

            if x_num >= count_max:
                dir_y = 1
                dir_x = 1
            elif x_num <= 0:
                dir_y = 0
                dir_x = 0

            self.image = self.goompy.getImage().convert(
                "RGBA")  # type: PIL.Image.Image
            print(self.goompy.northwest)
            print(self.goompy.southeast)
            print(self.goompy.uppery)
            print(self.goompy.leftx)
            print(self.goompy.bigimage.size)
            #self.goompy.

            #self.image = self.image.crop((500, 500, 750, 750))

            print(self.image)

            # print(self.image.height)
            # print(self.image.width)

            qim = ImageQt(self.image)
            #self.pix.
            # type: QtGui.QPixmap

            # print(test)
            # test.setPixmap(pixmap)

            # print(self.pix.width())
            # print(self.pix.height())
            # print(self.pix.colorCount())

            # self.pix
            self.pix = QtGui.QPixmap.fromImage(qim)
            self.request_viewport_update.emit()

            # while self.wait_til_shown:
            #     self.msleep(1)

            self.msleep(20)

        #self.logger.debug("Read Updater Thread Stopping...")

    def connect_signals_to_slots__slot(self):

        self.main_window.kill_threads_signal.connect(
            self.on_kill_threads__slot)

    def on_image_shown__slot(self):
        self.wait_til_shown = False

    def on_kill_threads__slot(self):
        self.run_thread_flag = False