def draw(self):
        scene.background(0,0,0)
        scene.stroke_weight(4)

        for colored_line in self.colored_lines:
            scene.stroke(*colored_line.color)
            scene.line(*colored_line.line)
 def draw(self):
     scene.background(0, 0, 0)
     self.root_layer.update(self.dt)
     self.root_layer.draw()
     scene.fill(1, 1, 1)
     scene.stroke(*self.stroke_color)
     scene.stroke_weight(4)
     scene.rect(0, 180, 320, 15)
     scene.rect(0, 290, 320, 15)
     scene.rect(92, 87, 15, 310)
     scene.rect(208, 87, 15, 310)
     for l in self.lines:
         scene.line(*l)
예제 #3
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 def scene_draw(self):
     if self.touch:
         if (self.magnitude < 0.99 * self.max_length):
             scene.stroke_weight(self.color['normal']['weight'])
             scene.stroke(*self.color['normal']['stroke'])
             scene.fill(*self.color['normal']['fill'])
         else:
             scene.stroke_weight(self.color['highlight']['weight'])
             scene.stroke(*self.color['highlight']['stroke'])
             scene.fill(*self.color['highlight']['fill'])
         scene.ellipse(self.boundary['left'], self.boundary['lower'],
                       2.0 * self.max_length, 2.0 * self.max_length)
         scene.line(self.ref_x, self.ref_y, self.clamp_x, self.clamp_y)
         scene.text(self.label, x=self.ref_x, y=self.ref_y)
예제 #4
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 def scene_draw(self):
     if self.touch:
         if not (int(self.x) or int(self.y)):
             scene.stroke_weight(self.color['normal']['weight'])
             scene.stroke(*self.color['normal']['stroke'])
             scene.fill(*self.color['normal']['fill'])
         else:
             scene.stroke_weight(self.color['highlight']['weight'])
             scene.stroke(*self.color['highlight']['stroke'])
             scene.fill(*self.color['highlight']['fill'])
         scene.rect(self.boundary['left'], self.boundary['lower'],
                    2.0 * self.max_length, 2.0 * self.max_length)
         scene.line(self.clamp_x, self.boundary['upper'], self.clamp_x,
                    self.boundary['lower'])
         scene.line(self.boundary['left'], self.clamp_y,
                    self.boundary['right'], self.clamp_y)
         scene.text(self.label, x=self.ref_x, y=self.ref_y)
예제 #5
0
 def scene_draw(self):
     if self.touch:
         scene.stroke_weight(self.color['highlight']['weight'])
         scene.stroke(*self.color['highlight']['stroke'])
         scene.fill(*self.color['highlight']['fill'])
         scene.line(self.touch.location.x, self.respond_area['y1'],
                    self.touch.location.x, self.respond_area['y2'])
         scene.line(self.respond_area['x1'], self.touch.location.y,
                    self.respond_area['x2'], self.touch.location.y)
     else:
         scene.stroke_weight(self.color['normal']['weight'])
         scene.stroke(*self.color['normal']['stroke'])
         scene.fill(*self.color['normal']['fill'])
     scene.rect(self.respond_area['x1'], self.respond_area['y1'],
                self.respond_area['x2'], self.respond_area['y2'])
     scene.text(self.label,
                x=self.respond_area['x1'],
                y=self.respond_area['y1'])
 def draw(self):
     scene.background(0, 0, 1)  # 0,0,1 = blue
     scene.stroke(1, 0, 0)  # 1,0,0 = red
     scene.stroke_weight(5)
     scene.line(50, 50, 100, 50)
     scene.line(100, 50, 75, 75)
     scene.line(75, 75, 50, 50)
예제 #7
0
    def draw(self):
        if self.xy_velocity and not self.cur_touch:
            #self.dx += self.xy_velocity[0] * self.dt
            self.dy += self.xy_velocity[1] * self.dt
            decay = exp(-self.dt / self.velocity_decay_timescale_seconds)
            self.xy_velocity = (self.xy_velocity[0] * decay,
                                self.xy_velocity[1] * decay)
            if ((abs(self.xy_velocity[0]) <=
                 self.min_velocity_points_per_second)
                    and (abs(self.xy_velocity[1]) <=
                         self.min_velocity_points_per_second)):
                self.xy_velocity = None

        # Save battery life
        #scene.frame_interval = 3

        scene.translate(self.dx, self.dy)
        scene.stroke(1, 1, 1)
        # Line thickness
        scene.stroke_weight(1)

        scene.line(1, 25, 20, 25)

        # Get day of week...Monday=1, etc
        day = datetime.datetime.today().isoweekday()

        # Rotate a color for each day of week
        r, g, b = self.get_background_color(day)
        scene.background(r, g, b)
        '''
    Set text size for best mix of space &
    apperance...all text defaults to white unless
    tint() is used.
    '''
        font_sz = 10

        x1 = -((self.size.w / 2) - 2)  # -205 for iP6p, -158 for iP5
        x2 = (self.size.w / 2) - 2  # 205 for iP6p, 158 for iP5

        # If Pythonista 2 & iPhone 6+ or larger...
        if py_ver == '2' and is_P6:
            y_anchor = 325
            l_margin = x1 + 10
            # 24 hour temps in a 3x8 matrix
            rows = 3
            hrs_per_row = 8
        else:
            y_anchor = 240
            l_margin = x1 + 8
            # 24 hour temps in a 4x6 matrix
            rows = 4
            hrs_per_row = 6

        # Vertical lines for sides of main border
        scene.line(x1, y1_y2[7], x1, y_anchor)
        scene.line(x2, y1_y2[7], x2, y_anchor)
        # Display city header and info
        scene.line(x1, y_anchor, x2, y_anchor)
        scene.text(city_name,
                   font_size=font_sz * 2,
                   x=0,
                   y=y_anchor - 20,
                   alignment=5)
        scene.text(conditions,
                   font_size=font_sz + 4,
                   x=0,
                   y=y_anchor - 45,
                   alignment=5)
        scene.text(temp_now,
                   font_size=font_sz + 4,
                   x=0,
                   y=y_anchor - 68,
                   alignment=5)
        # Display header box and current conditions
        scene.line(x1, y_anchor - 85, x2, y_anchor - 85)
        scene.line(x1, y_anchor - 110, x2, y_anchor - 110)
        l_margin = x1 + 10
        scene.text(w,
                   font_size=font_sz,
                   x=l_margin,
                   y=y_anchor - 90,
                   alignment=3)
        # Display header box for 24 hr forecast
        scene.line(x1, y_anchor - 280, x2, y_anchor - 280)
        scene.text('Next 24 Hours:',
                   font_size=font_sz,
                   x=l_margin,
                   y=y_anchor - 285,
                   alignment=3)
        # Division lines for 24 hr forecast
        # Divide 24 hrs into 'rows' rows of 'hrs_per_row' hrs each
        y = y_anchor - 305
        for i in range(int(rows)):
            scene.line(x1, y, x2, y)
            y = y - 80

        x = x1 - 45
        y = y_anchor - 310
        count = 0
        the_x = []
        the_y = []

        for i in range(24):
            # Display 'hrs_per_row' hours per row
            if count % int(hrs_per_row) == 0 and count <> 0:
                x = x1 - 45
                y = y - 80
            x = x + 53
            # Get coordinates for icon placement
            the_x.append(x - 4)
            the_y.append(y - 55)
            count += 1
            # Percent of precip...no zeros
            if the_pops[i] == '0%':
                the_pops[i] = ''
            # Display hour, pop, & temp in grid
            scene.text('{}\n{}\n\n\n\n{}'.format(the_hours[i], the_pops[i],
                                                 the_temps[i]),
                       font_size=font_sz,
                       x=x,
                       y=y,
                       alignment=3)

        # Insert icons into 24 hour forecast
        for i, image in enumerate(self.images):
            if i <= 23:
                # Reduce icon size for space
                scene.image(image, the_x[i], the_y[i], 30, 30)

        if py_ver == '2' and is_P6:
            # Display header box for extended forecast
            scene.line(x1, y_anchor - 545, x2, y_anchor - 545)
            scene.text('Next 7 Days:',
                       font_size=font_sz,
                       x=l_margin,
                       y=y_anchor - 550,
                       alignment=3)
            # Display extended forecast
            scene.line(x1, y_anchor - 570, x2, y_anchor - 570)
            scene.text(txt_wrapped_f,
                       font_size=font_sz,
                       x=l_margin,
                       y=y_anchor - 563,
                       alignment=3)
        else:
            # Display header box for extended forecast
            scene.line(x1, y_anchor - 625, x2, y_anchor - 625)
            scene.text('Next 7 Days:',
                       font_size=font_sz,
                       x=l_margin,
                       y=y_anchor - 630,
                       alignment=3)
            # Display extended forecast
            scene.line(x1, y_anchor - 650, x2, y_anchor - 650)
            scene.text(txt_wrapped_f,
                       font_size=font_sz,
                       x=l_margin,
                       y=y_anchor - 643,
                       alignment=3)

        # Insert icons into extended forecast
        for i, image in enumerate(self.images):
            if i >= 24:
                # Tweak icon placement a bit more for best appearance
                if wa.pythonista_version()[:1] == '2' and wa.is_iP6p():
                    scene.image(image, 160, icon_y[i - 24], 40, 40)
                else:
                    scene.image(image, 113, icon_y[i - 24], 40, 40)

        # Division lines for days of week
        for i in range(len(y1_y2)):
            if i > 0:
                scene.line(x1, y1_y2[i], x2, y1_y2[i])
    def draw(self):
        if self.xy_velocity and not self.cur_touch:
            #self.dx += self.xy_velocity[0] * self.dt
            self.dy += self.xy_velocity[1] * self.dt
            decay = exp(-self.dt / self.velocity_decay_timescale_seconds)
            self.xy_velocity = (self.xy_velocity[0] * decay,
                                self.xy_velocity[1] * decay)
            if ((abs(self.xy_velocity[0]) <=
                 self.min_velocity_points_per_second)
                    and (abs(self.xy_velocity[1]) <=
                         self.min_velocity_points_per_second)):
                self.xy_velocity = None

        # Save battery life
        #scene.frame_interval = 3

        scene.translate(self.dx, self.dy)
        scene.stroke(1, 1, 1)
        # Line thickness
        scene.stroke_weight(1)

        scene.line(1, 25, 20, 25)

        # Get day of week...Monday=1, etc
        day = datetime.datetime.today().isoweekday()

        # Rotate a color for each day of week
        r, g, b = get_background_color(day)
        scene.background(r, g, b)

        # Vertical lines for sides of main border
        scene.line(-155, y1_y2[7], -155, 240)
        scene.line(155, y1_y2[7], 155, 240)

        # Horizontal line constants
        x1 = -155
        x2 = 155
        '''
    Set text size for best mix of space &
    apperance...all text defaults to white unless
    tint() is used.
    '''
        font_sz = 10

        # Display city header and info
        scene.line(x1, 240, x2, 240)
        scene.text(city_name, font_size=font_sz * 2, x=0, y=220, alignment=5)
        scene.text(conditions, font_size=font_sz + 4, x=0, y=195, alignment=5)
        scene.text(temp_now, font_size=font_sz + 4, x=0, y=172, alignment=5)

        # Display header box and current conditions
        scene.line(x1, 155, x2, 155)
        scene.line(x1, 130, x2, 130)
        scene.text(w, font_size=font_sz, x=-150, y=150, alignment=3)

        # Display header box for 24 hr forecast
        scene.line(x1, -40, x2, -40)
        scene.text('Next 24 Hours:',
                   font_size=font_sz,
                   x=-150,
                   y=-45,
                   alignment=3)

        # Division lines for 24 hr forecast
        y = -65
        for i in range(4):
            scene.line(x1, y, x2, y)
            y = y - 80

        # Divide 24 hrs into 4 rows of 6 hrs each
        x = -205
        y = -70
        count = 0
        the_x = []
        the_y = []
        for i in range(24):
            # Display six hours per row
            if count % 6 == 0 and count <> 0:
                x = -205
                y = y - 80
            x = x + 55
            # Get coordinates for icon placement
            the_x.append(x - 4)
            the_y.append(y - 55)
            count += 1
            # Percent of precip...no zeros
            if the_pops[i] == '0%':
                the_pops[i] = ''
            # Display hour, pop, & temp in grid
            scene.text('{}\n{}\n\n\n\n{}'.format(the_hours[i], the_pops[i],
                                                 the_temps[i]),
                       font_size=font_sz,
                       x=x,
                       y=y,
                       alignment=3)

        # Insert icons into 24 hour forecast
        for i, image in enumerate(self.images):
            if i <= 23:
                # Reduce icon size for space
                scene.image(image, the_x[i], the_y[i], 30, 30)

        # Display header box for extended forecast
        scene.line(x1, -385, x2, -385)
        scene.text('Next 7 Days:',
                   font_size=font_sz,
                   x=-150,
                   y=-390,
                   alignment=3)

        # Display extended forecast
        scene.line(x1, -410, x2, -410)
        scene.text(txt_wrapped_f,
                   font_size=font_sz,
                   x=-150,
                   y=-402,
                   alignment=3)

        # Insert icons into extended forecast
        for i, image in enumerate(self.images):
            if i >= 24:
                # Tweak icon placement a bit more for best appearance
                scene.image(image, 113, icon_y[i - 24], 40, 40)

        # Division lines for days of week
        for i in range(len(y1_y2)):
            if i > 0:
                scene.line(x1, y1_y2[i], x2, y1_y2[i])
  def draw(self):
    if self.xy_velocity and not self.cur_touch:
      #self.dx += self.xy_velocity[0] * self.dt
      self.dy += self.xy_velocity[1] * self.dt
      decay = exp( - self.dt / self.velocity_decay_timescale_seconds )
      self.xy_velocity = (self.xy_velocity[0] * decay, self.xy_velocity[1] * decay)
      if ((abs(self.xy_velocity[0]) <= self.min_velocity_points_per_second)
      and (abs(self.xy_velocity[1]) <= self.min_velocity_points_per_second)):
        self.xy_velocity = None

    # Save battery life
    #scene.frame_interval = 3

    scene.translate(self.dx, self.dy)
    scene.stroke(1, 1, 1)
    # Line thickness
    scene.stroke_weight(1)

    # Get day of week...Monday=1, etc
    day = datetime.datetime.today().isoweekday()

    # Rotate a color for each day of week
    r, g, b = get_background_color(day)
    scene.background(r, g, b)

    # Vertical lines for sides of main border
    scene.line(-155, y1_y2[7], -155, 240)
    scene.line(155, y1_y2[7], 155, 240)

    # Horizontal line constants
    x1 = -155
    x2 = 155
    '''
    Set text size for best mix of space &
    apperance...all text defaults to white unless
    tint() is used.
    '''
    font_sz = 10

    # Display city header and info
    scene.line(x1, 240, x2, 240)
    scene.text(city_name, font_size = font_sz * 2, x = 0, y = 220, alignment = 5)
    scene.text(conditions, font_size = font_sz + 4, x = 0, y = 195, alignment = 5)
    scene.text(temp_now, font_size = font_sz + 4, x = 0, y = 172, alignment = 5)

    # Display header box and current conditions
    scene.line(x1, 155, x2, 155)
    scene.line(x1, 130, x2, 130)
    scene.text(w, font_size = font_sz, x = -150, y = 150, alignment = 3)

    # Display header box for 24 hr forecast
    scene.line(x1, -40, x2, -40)
    scene.text('Next 24 Hours:', font_size = font_sz, x = -150, y = -45, alignment = 3)

    # Division lines for 24 hr forecast
    y = -65
    for i in range(4):
      scene.line(x1, y, x2, y)
      y = y - 80

    # Divide 24 hrs into 4 rows of 6 hrs each
    x = -205
    y = -70
    count = 0
    the_x = []
    the_y = []
    for i in range(24):
      # Display six hours per row
      if count%6 == 0 and count <> 0:
        x = -205
        y = y - 80
      x = x + 55
      # Get coordinates for icon placement
      the_x.append(x - 4)
      the_y.append(y - 55)
      count += 1
      # Percent of precip...no zeros
      if the_pops[i] == '0%':
        the_pops[i] = ''
      # Display hour, pop, & temp in grid
      msg = '{}\n{}\n\n\n\n{}'.format(the_hours[i], the_pops[i], the_temps[i])
      scene.text(msg, font_size = font_sz, x = x, y = y, alignment = 3)

    # Insert icons into 24 hour forecast
    for i, image in enumerate(self.images):
      if i <= 23:
        # Reduce icon size for space
        scene.image(image, the_x[i], the_y[i], 30, 30)

    # Display header box for extended forecast
    scene.line(x1, -385, x2, -385)
    scene.text('Next 7 Days:', font_size = font_sz, x = -150, y = -390, alignment = 3)

    # Display extended forecast
    scene.line(x1, -410, x2, -410)
    scene.text(txt_wrapped_f, font_size = font_sz, x = -150, y = -402, alignment = 3)

    # Insert icons into extended forecast
    for i, image in enumerate(self.images):
      if i >= 24:
        # Tweak icon placement a bit more for best appearance
        scene.image(image, 113, icon_y[i-24], 40, 40)

    # Division lines for days of week
    for i in range(len(y1_y2)):
      if i > 0:
        scene.line(x1, y1_y2[i], x2, y1_y2[i])
예제 #10
0
def poly(points):
	for index in range(len(points) - 1):
		scene.line(*points[index] + points[index + 1])
	scene.line(*points[0] + points[len(points) - 1])
예제 #11
0
def line(pt1, pt2, w=1):
	scene.stroke_weight(w)
	scene.line(*pt1 + pt2)
예제 #12
0
  def draw(self):
    if self.xy_velocity and not self.cur_touch:
      #self.dx += self.xy_velocity[0] * self.dt
      self.dy += self.xy_velocity[1] * self.dt
      decay = exp( - self.dt / self.velocity_decay_timescale_seconds )
      self.xy_velocity = (self.xy_velocity[0] * decay, self.xy_velocity[1] * decay)
      if ((abs(self.xy_velocity[0]) <= self.min_velocity_points_per_second) and (abs(self.xy_velocity[1]) <= self.min_velocity_points_per_second)):
        self.xy_velocity = None

    # Get day of week...Monday=1, etc
    day = datetime.datetime.today().isoweekday()

    # Rotate a color for each day in week
    r,g,b = get_background_color(day)
    scene.background(r,g,b)

    scene.translate(self.dx, self.dy)
    scene.fill(1, 1, 1)
    scene.stroke(1, 1, 1)
    # Line thickness
    scene.stroke_weight(1)

    # Vertical lines
    scene.line(-150,-931,-150,255)
    scene.line(150,-931,150,255)

    # Horizontal lines
    scene.line(-150,255,150,255)
    scene.line(-150,230,150,230)
    scene.line(-150,60,150,60)
    scene.line(-150,35,150,35)
    scene.line(-150,-104,150,-104)
    scene.line(-150,-241,150,-241)
    scene.line(-150,-379,150,-379)
    scene.line(-150,-517,150,-517)
    scene.line(-150,-655,150,-655)
    scene.line(-150,-794,150,-794)
    scene.line(-150,-931,150,-931)

    '''
    Text will be white by default and
    images drawn in their natural colors
    unless tint(r,g,b,a) function is used
    '''
    scene.text(weather_now,font_size=12,x=-140,y=250, alignment=3)
    scene.text(forecast,font_size=12,x=-140,y=55, alignment=3)

    # Insert icons into scene
    for i, image in enumerate(self.images):
      scene.image(image,75,y[i])
예제 #13
0
def poly(points):
    for index in range(len(points) - 1):
        scene.line(*points[index] + points[index + 1])
    scene.line(*points[0] + points[len(points) - 1])
예제 #14
0
def line(pt1, pt2, w=1):
    scene.stroke_weight(w)
    scene.line(*pt1 + pt2)
 def draw(self):
     scene.background(0,0,1) # 0,0,1 = blue
     scene.stroke(1,0,0)       # 1,0,0 = red
     scene.stroke_weight(5)
     scene.line(50,50,100,50)
     scene.line(100,50,75,75)
  def draw(self):
    if self.xy_velocity and not self.cur_touch:
      #self.dx += self.xy_velocity[0] * self.dt
      self.dy += self.xy_velocity[1] * self.dt
      decay = exp( - self.dt / self.velocity_decay_timescale_seconds )
      self.xy_velocity = (self.xy_velocity[0] * decay, self.xy_velocity[1] * decay)
      if ((abs(self.xy_velocity[0]) <= self.min_velocity_points_per_second) and (abs(self.xy_velocity[1]) <= self.min_velocity_points_per_second)):
        self.xy_velocity = None

    # Save battery life
    #scene.frame_interval = 3

    scene.translate(self.dx, self.dy)
    scene.stroke(1, 1, 1)
    # Line thickness
    scene.stroke_weight(1)

    scene.line(1, 25, 20, 25)

    # Get day of week...Monday=1, etc
    day = datetime.datetime.today().isoweekday()

    # Rotate a color for each day of week
    r, g, b = self.get_background_color(day)
    scene.background(r, g, b)

    '''
    Set text size for best mix of space &
    apperance...all text defaults to white unless
    tint() is used.
    '''
    font_sz = 10

    x1 = - ((self.size.w / 2) -2) # -205 for iP6p, -158 for iP5
    x2 = (self.size.w / 2) -2     # 205 for iP6p, 158 for iP5

    # If Pythonista 2 & iPhone 6+ or larger...
    if py_ver == '2' and is_P6:
      y_anchor = 325
      l_margin = x1 + 10
      # 24 hour temps in a 3x8 matrix
      rows = 3
      hrs_per_row = 8
    else:
      y_anchor = 240
      l_margin = x1 + 8
      # 24 hour temps in a 4x6 matrix
      rows = 4
      hrs_per_row = 6

    # Vertical lines for sides of main border
    scene.line(x1, y1_y2[7], x1, y_anchor)
    scene.line(x2, y1_y2[7], x2, y_anchor)
    # Display city header and info
    scene.line(x1, y_anchor, x2, y_anchor)
    scene.text(city_name, font_size = font_sz * 2, x = 0, y = y_anchor - 20, alignment = 5)
    scene.text(conditions, font_size = font_sz + 4, x = 0, y = y_anchor - 45, alignment = 5)
    scene.text(temp_now, font_size = font_sz + 4, x = 0, y = y_anchor - 68, alignment = 5)
    # Display header box and current conditions
    scene.line(x1, y_anchor - 85, x2, y_anchor - 85)
    scene.line(x1, y_anchor - 110, x2, y_anchor - 110)
    l_margin = x1 + 10
    scene.text(w, font_size = font_sz, x = l_margin, y = y_anchor - 90, alignment = 3)
    # Display header box for 24 hr forecast
    scene.line(x1, y_anchor - 280, x2, y_anchor - 280)
    scene.text('Next 24 Hours:', font_size = font_sz, x = l_margin, y = y_anchor - 285, alignment = 3)
    # Division lines for 24 hr forecast
    # Divide 24 hrs into 'rows' rows of 'hrs_per_row' hrs each
    y = y_anchor - 305
    for i in range(int(rows)):
      scene.line(x1, y, x2, y)
      y = y - 80

    x = x1 - 45
    y = y_anchor - 310
    count = 0
    the_x = []
    the_y = []

    for i in range(24):
      # Display 'hrs_per_row' hours per row
      if count%int(hrs_per_row) == 0 and count <> 0:
        x = x1 - 45
        y = y - 80
      x = x + 53
      # Get coordinates for icon placement
      the_x.append(x - 4)
      the_y.append(y - 55)
      count += 1
      # Percent of precip...no zeros
      if the_pops[i] == '0%':
        the_pops[i] = ''
      # Display hour, pop, & temp in grid
      scene.text('{}\n{}\n\n\n\n{}'.format(the_hours[i], the_pops[i], the_temps[i]), font_size = font_sz, x = x, y = y, alignment = 3)

    # Insert icons into 24 hour forecast
    for i, image in enumerate(self.images):
      if i <= 23:
        # Reduce icon size for space
        scene.image(image, the_x[i], the_y[i], 30, 30)

    if py_ver == '2' and is_P6:
      # Display header box for extended forecast
      scene.line(x1, y_anchor - 545, x2, y_anchor - 545)
      scene.text('Next 7 Days:', font_size = font_sz, x = l_margin, y = y_anchor - 550, alignment = 3)
      # Display extended forecast
      scene.line(x1, y_anchor - 570, x2, y_anchor - 570)
      scene.text(txt_wrapped_f, font_size = font_sz, x = l_margin, y = y_anchor - 563, alignment = 3)
    else:
      # Display header box for extended forecast
      scene.line(x1, y_anchor - 625, x2, y_anchor - 625)
      scene.text('Next 7 Days:', font_size = font_sz, x = l_margin, y = y_anchor - 630, alignment = 3)
      # Display extended forecast
      scene.line(x1, y_anchor - 650, x2, y_anchor - 650)
      scene.text(txt_wrapped_f, font_size = font_sz, x = l_margin, y = y_anchor - 643, alignment = 3)

    # Insert icons into extended forecast
    for i, image in enumerate(self.images):
      if i >= 24:
        # Tweak icon placement a bit more for best appearance
        if wa.pythonista_version()[:1] == '2' and wa.is_iP6p():
          scene.image(image, 160, icon_y[i - 24], 40, 40)
        else:
          scene.image(image, 113, icon_y[i - 24], 40, 40)

    # Division lines for days of week
    for i in range(len(y1_y2)):
      if i > 0:
        scene.line(x1, y1_y2[i], x2, y1_y2[i])