def draw(self): scene.background(0, 0, 1) # 0,0,1 = blue scene.fill(0, 1, 0) # 0,1,0 = green scene.rect( *self.rect1) # *self.rect1 = self.rect1[0], ..., self.rect1[3] scene.fill(1, 0, 0) # 1,0,0 = red scene.rect(*self.rect2)
def draw(self): scene.background(0,0,1) # 0,0,1 = blue if self.color == 1: scene.fill(0,1,0) # 0,1,0 = green elif self.color == 2: scene.fill(1,0,0) # 1,0,0 = red scene.rect(50,50,50,50)
def draw(self): scene.background(0,0,0) self.root_layer.update(self.dt) self.root_layer.draw() scene.fill(1,1,1) # watch+battery -> white background scene.rect(0, self.bounds.h, self.bounds.w, 20) # watch+battery locations = [[0,0],[0,0]] i = 0 if len(self.touches) == 2: for touch in self.touches.values(): locations[i] = touch.location i += 1 if self.reset: self.reset = False self.distance_old = math.sqrt(math.pow((locations[1][0] - locations[0][0]),2) + pow((locations[1][1] - locations[0][1]),2)) else: self.distance_new = math.sqrt(math.pow((locations[1][0] - locations[0][0]),2) + pow((locations[1][1] - locations[0][1]),2)) self.distance_abs = self.distance_new - self.distance_old self.reset = True if self.distance_abs != 0: zoom_new = self.distance_abs/self.bounds.w*self.zoom_speed if zoom_new < 0: self.zoom += zoom_new else: self.zoom += zoom_new if self.zoom < self.zoom_min: self.zoom = self.zoom_min elif self.zoom > self.zoom_max: self.zoom = self.zoom_max self.root_layer.animate('scale_x', self.zoom, duration=0.0) self.root_layer.animate('scale_y', self.zoom, duration=0.0)
def draw(self): scene.background(0,0,1) # 0,0,1 = blue self.rect1_layer.update(self.dt) # alpha animation self.rect1_layer.draw() # alpha animation #scene.fill(0,1,0) # 0,1,0 = green #scene.ellipse(*self.rect1) # *self.rect1 = self.rect1[0], ..., self.rect1[3] scene.fill(1,0,0) # 1,0,0 = red
def draw(self): scene.background(0, 0, 1) # 0,0,1 = blue if self.color == 1: scene.fill(0, 1, 0) # 0,1,0 = green elif self.color == 2: scene.fill(1, 0, 0) # 1,0,0 = red scene.rect(50, 50, 50, 50)
def draw(self): scene.background(0, 0.5, 1.0) scene.fill(1, 1, 1) scene.rect(self.x,self.y, 32, 32) # player scene.fill(0, 0, 0) scene.rect(self.x - 70, self.y + 75, 700, 32) # roof self.floor = scene.rect(self.x - 70, self.y - 75, 700, 32) # floor print('self.floor is always None:', self.floor) if not self.grav: self.acel += 1 #text scene.tint(0, 0, 0, 1) if self.dead: scene.text('You are DEAD', 'Arial', 12, 48, self.y + 16) else: self.pts += 1 scene.text('Points: %i' % self.pts, 'Arial', 12, self.x-48, self.y + 32) # Touch input: scene.fill(1,0,0) if not self.grav: self.acel += 1 # Physics if not self.dead: self.y += self.acel if self.y < self.floor: self.y = self.floor self.acel = 0 else: print('problem: {} > {}'.format(self.y, self.floor)) self.acel -= self.g self.acel = max(min(self.acel, self.ms), -self.ms)
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): self.invocations += 1 scene.background(0, 0, 0) scene.fill(1, 0, 0) self.active_scene.touches = self.touches self.active_scene.t = self.t - self.tmp_t self.active_scene.draw()
def draw(self): scene.background(0, 0, 0) self.root_layer.update(self.dt) self.root_layer.draw() scene.fill(1, 1, 1) # watch+battery -> white background scene.rect(0, self.bounds.h, self.bounds.w, 20) # watch+battery locations = [[0, 0], [0, 0]] i = 0 if len(self.touches) == 2: for touch in self.touches.values(): locations[i] = touch.location i += 1 if self.reset: self.reset = False self.distance_old = math.sqrt( math.pow((locations[1][0] - locations[0][0]), 2) + pow((locations[1][1] - locations[0][1]), 2)) else: self.distance_new = math.sqrt( math.pow((locations[1][0] - locations[0][0]), 2) + pow((locations[1][1] - locations[0][1]), 2)) self.distance_abs = self.distance_new - self.distance_old self.reset = True if self.distance_abs != 0: zoom_new = self.distance_abs / self.bounds.w * self.zoom_speed if zoom_new < 0: self.zoom += zoom_new else: self.zoom += zoom_new if self.zoom < self.zoom_min: self.zoom = self.zoom_min elif self.zoom > self.zoom_max: self.zoom = self.zoom_max self.root_layer.animate('scale_x', self.zoom, duration=0.0) self.root_layer.animate('scale_y', self.zoom, duration=0.0)
def draw(self): portrait = self.size.h > self.size.w scene.background(0.40, 0.80, 1.00) # light blue background color if portrait: self.play_btn_rect = scene.Rect(200, 358, 600, 100) self.char_btn_rect = scene.Rect(140, 485, 470, 100) else: self.play_btn_rect = scene.Rect( 20, 358, 350, 100) self.char_btn_rect = scene.Rect( 20, 485, 230, 100) scene.fill(0.50, 1.00, 0.00) # play button fill color scene.rect(*self.play_btn_rect) scene.fill(1.00, 1.00, 1.00) # character select button fill color scene.rect(*self.char_btn_rect) scene.tint(1.00, 1.00, 1.00) # white text color fs, x, y = (100, 385, 850) if portrait else (150, 525, 600) scene.text('Cloud Jump', MENU_FONT, font_size=fs, x=x, y=y) fs, x, y = ( 65, 380, 650) if portrait else ( 65, 200, 400) scene.text('Play Game', BUTTON_FONT, font_size=fs, x=x, y=y) scene.tint(0.00, 0.50, 1.00) # blue text color fs, x, y = ( 54, 380, 521) if portrait else ( 54, 260, 285) scene.text('Character Select', BUTTON_FONT, font_size=fs, x=x, y=y) scene.tint(1.00, 1.00, 1.00) # white text color fs = 30 if portrait: x, y = self.bounds.w / 2.0, self.bounds.h / 1.34 else: x, y = self.bounds.w / 1.4, self.bounds.h / 1.7 s = 'Welcome {}!'.format(player_name) scene.text(s, MENU_FONT, font_size=fs, x=x, y=y) for i in xrange(11): scene.image('PC_Grass_Block', self.bounds.w / 11 * i, 0)
def draw(self): x,y,z = motion.get_attitude() if use_motion else scene.gravity() r,g,b = abs(x), abs(y), abs(z) scene.background(r, g, b) super(Advice, self).draw() scene.tint(1-r, 1-g, 1-b) scene.text(self.answer, 'Futura', 45, *self.center)
def draw(self): x,y,z = motion.get_attitude() if use_motion else scene.gravity() r,g,b = abs(x), abs(y), abs(z) # No negative colors scene.background(r, g, b) scene.tint(1-r, 1-g, 1-b) scene.text(fmt.format(x, y, z), font_size=32, x=self.center.x, y=self.center.y)
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)
def draw(self): scene.background(0, 0, 0) for piece in self.pieces: img = self.img_names[piece.pythonista_gui_img_name] pos = piece.coord.as_screen scene.image(img, pos.x, pos.y, scale_factor, scale_factor) tpos = Coord(screen_width / 2, screen_height / 2 + 2 * scale_factor) scene.text('Select a piece to promote to', x=tpos.x, y=tpos.y)
def draw(self): # Called for every frame (typically 60 per second). scene.background(0, 0, 0) # Draw a circle for every finger touch scene.fill(*self.fgColor) for touch in self.touches.values(): scene.ellipse(touch.location.x - 50, touch.location.y - 50, 100, 100)
def draw(self): scene.background(0, 0, 0) for c in self.cells.values(): if c.alive: c.draw() scene.stroke(1, 1, 1) scene.stroke_weight(1) scene.image(self.grid_img, 0, 0)
def draw(self): scene.background(0, 0, 1) # 0,0,1 = blue self.rect1_layer.update(self.dt) # alpha animation self.rect1_layer.draw() # alpha animation #scene.fill(0,1,0) # 0,1,0 = green #scene.ellipse(*self.rect1) # *self.rect1 = self.rect1[0], ..., self.rect1[3] scene.fill(1, 0, 0) # 1,0,0 = red scene.ellipse(*self.circle2)
def draw(self): scene.background(0.40, 0.80, 1.00) self.root_layer.update(self.dt) self.root_layer.draw() self.cloud.frame.x += 1 if not self.bounds.intersects(self.cloud.frame): del self.cloud # whack the old cloud self.setup() # and create a new one
def draw(self): ''' real time drawing only''' scene.background(0, 0, 0) if self.touch: scene.fill(self.spot_color) loc = self.touch.location scene.ellipse(loc.x - 50, loc.y - 50, 100, 100) scene.text('{}, {}'.format(*loc), 'Futura', 20, 100, 50)
def draw(self): scene.background(0, 0, 0) for c in self.cells.values(): if c.alive: c.draw() scene.stroke(1,1,1) scene.stroke_weight(1) scene.image(self.grid_img, 0, 0)
def draw(self): scene.background(bg_color.r, bg_color.g, bg_color.b) fg_color = inverse_color(bg_color) scene.tint(*fg_color) # .r, fg_color.g, fg_color.b) the_text = fmt.format(*bg_color) if local_ip_addr: # if remote user has not yet connected the_text += '\n\n' + ip_fmt.format(local_ip_addr) scene.text(the_text, font_size=40, x=self.x, y=self.y)
def draw(self): scene.background(0, 0, 0) for i, piece in enumerate(self.pieces): img = self.img_names[piece.pythonista_gui_imgname] pos = piece.coord.as_screen() scene.image(img, pos.x, pos.y, scale_factor, scale_factor) tpos = Coord(screen_width/2, screen_height/2 + 2*scale_factor) scene.text('Select a piece to promote to', x=tpos.x, y=tpos.y)
def draw(self): scene.background(0.9, 0.9, 0.9) sx, sy = self.size mx = 0.5 * (sx - self.wall.bounds.w) my = 0.5 * (sy - self.wall.bounds.h) self.wall.move(mx, my) self.draw_tiles(self.wall.tiles) self.wall.update()
def draw(self): self.game_loop() scene.background(0.40, 0.80, 1.00) self.root_layer.update(self.dt) self.root_layer.draw() for sprite in self.scenery: sprite.draw() self.draw_text()
def draw(self): scene.background(0.00, 0.05, 0.20) super(MyScene, self).draw() s = 45 if self.size.w > 100 else 7 scene.text('Welcome to\nMyMagic8Ball\n\n\n', 'Futura', s, *self.center) t = 100 if self.size.w > 100 else 7 scene.text('\n🎱', 'Futura', t, *self.center) s = 27 if self.size.w > 100 else 7 scene.text('\n\n\n\n\n\n\n\n\n\n\n\nBy: Adedayo Ogunnoiki', 'Futura', s, *self.center)
def draw(self): scene.background(0, 0, 0) for button in self.buttons: name, title, value, position, action = button if action: # toggles have action == None self.draw_button(title, position) else: self.draw_toggle(title, self.data[name], position)
def draw(self): scene.background(0, 0, 0) self.root_layer.update(self.dt) self.root_layer.draw() if not self.frame_count % 180: # once every three seconds if self.photo_layer.image: # unload old image to save RAM scene.unload_image(self.photo_layer.image) self.photo_layer.image = get_random_photo() self.frame_count += 1
def draw(self): scene.background(0, 0, 0) for b in self.buttons: # use '== True' here to avoid catching values like "NA" if b[2] == True: self.draw_toggle(b[1], self.data[b[0]], b[3]) elif b[2] in (False, 'NA'): self.draw_button(b[1], b[3])
def draw(self): scene.background(*color('black')) self.root_layer.update(self.dt) self.root_layer.draw() scene.tint(*self.current_color()) # draw the user's text scene.text(self.text, self.current_font(), self.fontsize, self.position[0], self.position[1]+self.btn_height, 5) # add ...position[1]+self.btn_height scene.fill(*color('white')) # watch+battery -> white background scene.rect(0, self.bounds.h, self.bounds.w, 20) # watch+battery
def draw(self): scene.background(*color('black')) self.root_layer.update(self.dt) self.root_layer.draw() scene.tint(*self.current_color()) # draw the user's text scene.text(self.text, self.current_font(), self.fontsize, self.position[0], self.position[1] + self.btn_height, 5) # add ...position[1]+self.btn_height scene.fill(*color('white')) # watch+battery -> white background scene.rect(0, self.bounds.h, self.bounds.w, 20) # watch+battery
def draw(self): scene.background(0.40, 0.80, 1.00) scene.fill(1.00, 1.00, 1.00) scene.image('Boy', *self.p1_rect) scene.image('Girl', *self.p2_rect) scene.image('Guardsman', *self.p3_rect) scene.image('Hamster_Face', *self.p4_rect) scene.image('Mouse_Face', *self.p5_rect) scene.image('Man', *self.p6_rect)
def draw(self): scene.background(0.09,0.09,0.102) scene.image(self.bgImages[self.bgIndex], 200, 300, 300, 300) scene.fill(0.3, 0.3, 0.3, 1) scene.no_stroke() scene.text(theMessage, font_name='Chalkduster', font_size=22, alignment=9) scene.ellipse(self.tapLoc.x - 50, self.tapLoc.y - 50, 100, 100)
def draw(self): scene.background(0, 0.5, 1) self.player.draw() self.player.keep_in_bounds(self.bounds) player_frame = self.player.frame for enemy in self.enemies: enemy.draw() enemy.keep_in_bounds(self.bounds) if (self.player.is_moving and enemy.frame.intersects(player_frame)): sound.play_effect('arcade:Explosion_1')
def draw(self): scene.background(0, 0, 0) self.root_layer.update(self.dt) self.root_layer.draw() # draw the text name_text = animal_name(self.current_animal.image) score_text = "Score: %d" % self.score w, h = self.size y = h - 100 scene.text(name_text, font_name=font_name, font_size=72.0, x=w * 0.5, y=y, alignment=5) scene.text(score_text, font_name=font_name, font_size=24.0, x=w / 20, y=y, alignment=6)
def draw(self): scene.background(0, 0, 0) if self.touch: scene.fill('red') loc = self.touch.location scene.ellipse(loc.x - 50, loc.y - 50, 100, 100) scene.text('{}, {}'.format(*loc), 'Futura', 20, 100, 50) points.append(loc) # is it be useful to check if loc == prev_loc? elif points: scene.fill('blue') for loc in points: scene.ellipse(loc.x - 50, loc.y - 50, 100, 100)
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)
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])
def draw(self): scene.background(0, 0, 0) scene.fill(1, 1, 1) x = screen_width / 2 s_y = screen_height / 2 + 100 d_y = s_y - 30 l_y = d_y - 75 scene.tint(0.32645,0.28306,0.93492) scene.text('PhantomChess version {}'.format(version), x=x, y=s_y, font_size=20.0) scene.tint(1, 1, 1) if debug: scene.text('Debugger set to level {}'.format(debug), x=x, y=d_y) for i, line in enumerate(short().splitlines()): scene.text(line, x=x, y=l_y - (i*20))
def draw(self): ui.background(*COLORS["mbg"]) ui.fill(*COLORS["bg"]) ui.rect(*self.bounds) ui.fill(*COLORS["walls"]) for wall in self.walls: self.draw_cell(*wall) self.apple.draw(self) self.snake.update(self) self.snake.draw(self) sx, sy = self.scorepos ui.text("Score: %d" % self.score, "Monofur", 30, sx, sy, 9) if self.snake.dead: self.draw_text_center("Game Over")
def draw(self): if not self.frameCount % framesPerSound: try: self.soundName = next(getSoundName) #sound.load_effect(self.soundName) sound.play_effect(self.soundName) except StopIteration: self.soundName = None self.frameCount += 1 scene.background(0, 0, 0) self.root_layer.update(self.dt) self.root_layer.draw() if self.soundName: x, y = self.bounds.center() scene.text(self.soundName, x=x, y=y, font_size=self.fontSize)
def draw(self): scene.background(0, 0, 0) scene.fill(1, 1, 1) x, y = self.bounds.center() #print(self.bounds) s_y = y + 100 d_y = s_y - 30 l_y = s_y - 75 scene.tint(0.32645, 0.28306, 0.93492) scene.text('PhantomChess version {}'.format(C.version), x=x, y=s_y, font_size=20.0) scene.tint(1, 1, 1) if C.debug: scene.text('Debugger set to level {}'.format(C.debug), x=x, y=d_y) for i, line in enumerate(short().splitlines()): scene.text(line, x=x, y=l_y - (i*20))
def draw(self): if not self.frameCount % framesPerSound: try: self.soundName = getSoundName.next() #sound.load_effect(self.soundName) sound.play_effect(self.soundName) except StopIteration: self.soundName = None self.frameCount += 1 scene.background(0, 0, 0) self.root_layer.update(self.dt) self.root_layer.draw() if self.soundName: x, y = self.bounds.center() scene.text(self.soundName, x=x, y=y, font_size=self.fontSize)
def draw(self): self.frameCount += 1 if self.frameCount % 80 == 0: try: fontName = getFontName.next() print(fontName) self.add_layer(FontSampleLayer(fontName)) except StopIteration: pass scene.background(0, 0, 0) self.root_layer.update(self.dt) self.root_layer.draw() for theLayer in self.root_layer.sublayers: if isinstance(theLayer, FontSampleLayer): theLayer.move()
def draw(self): x,y,z = motion.get_attitude() if use_motion else scene.gravity() r,g,b = abs(x), abs(y), abs(z) scene.background(r, g, b) scene.tint(1-r, 1-g, 1-b) scene.text(answer.format(x, y, z), font_size=45, x=self.center.x, y=self.center.y) for p in self.particles: p.update() p.draw() for t in self.touches.values(): for p in self.particles: tx, ty = t.location.x, t.location.y d = (p.x - tx)*(p.x - tx)+(p.y - ty)*(p.y - ty) d = sqrt(d) p.vx = p.vx - 5/d*(p.x-tx) p.vy = p.vy - 5/d*(p.y-ty) p.colour = Color(random.random(), random.random(), random.random())
def draw(self): if not self.frameCount % (imageWidth / 2): try: self.addMovingImage(getImageName.next()) except StopIteration: self.imageName = None #for theLayer in self.root_layer.sublayers: # if isinstance(theLayer, MovingImage): # theLayer.drop() self.frameCount += 1 scene.background(0, 0, 0) if self.imageName: scene.text(self.imageName, alignment=9) self.root_layer.update(self.dt) self.root_layer.draw() for theLayer in self.root_layer.sublayers: if isinstance(theLayer, MovingImage): theLayer.move()
def draw(self): scene.background(0, 0, 0) scene.fill(1, 1, 1) x, y = self.bounds.center() #print(self.bounds) s_y = y + 100 d_y = s_y - 30 l_y = s_y - 75 scene.tint(0.32645, 0.28306, 0.93492) scene.text('PhantomChess version {}'.format(C.version), x=x, y=s_y, font_size=20.0) scene.tint(1, 1, 1) if C.debug: scene.text('Debugger set to level {}'.format(C.debug), x=x, y=d_y) for i, line in enumerate(short().splitlines()): scene.text(line, x=x, y=l_y - (i * 20))
def draw(self): x, y, z = motion.get_attitude() if use_motion else scene.gravity() r, g, b = abs(x), abs(y), abs(z) scene.background(r, g, b) scene.tint(1 - r, 1 - g, 1 - b) scene.text(answer.format(x, y, z), font_size=45, x=self.center.x, y=self.center.y) for p in self.particles: p.update() p.draw() for t in self.touches.values(): for p in self.particles: tx, ty = t.location.x, t.location.y d = (p.x - tx) * (p.x - tx) + (p.y - ty) * (p.y - ty) d = sqrt(d) p.vx = p.vx - 5 / d * (p.x - tx) p.vy = p.vy - 5 / d * (p.y - ty) p.colour = Color(random.random(), random.random(), random.random())
def draw(self): scene.background(0, 0, 0) self.root_layer.update(self.dt) self.root_layer.draw() # draw the text name_text = animal_name(self.current_animal.image) score_text = 'Score: %d' % self.score w, h = self.size y = h - 100 scene.text(name_text, font_name=font_name, font_size=72.0, x=w * 0.5, y=y, alignment=5) scene.text(score_text, font_name=font_name, font_size=24.0, x=w / 20, y=y, alignment=6)
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): scale_factor = self.square_size scene.background(0, 0, 0) scene.fill(1, 1, 1, 1) board = self.game_view.game.board if self.render_mode['pieces']: for piece in board.pieces: scene.tint(1, 1, 1, 0.5) pos = self.as_screen(piece) # piece.coord.as_screen #print(self.img_names) img = self.img_names[piece.name] scene.image(img, pos.x, pos.y, scale_factor, scale_factor) scene.tint(1, 1, 1, 1) if piece.fen_loc == self.selected: scene.fill(0.23347, 0.3564, 0.59917, 0.6) scene.rect(pos.x, pos.y, scale_factor, scale_factor) scene.fill(1, 1, 1, 1) if self.render_mode['timers']: white = str(board.player1.timer.get_run()) black = str(board.player2.timer.get_run()) bpos = Coord(992, 672) wpos = Coord(992, 96) scene.tint(1, 1, 1, 1) scene.text(black, x=bpos.x, y=bpos.y) scene.text(white, x=wpos.x, y=wpos.y) scene.tint(1, 1, 1, 1) if self.render_mode['sqrs']: for tile in board.tiles: x = int(tile.color == 'white') # zero or one Thi is code color = (x, x, x, 0.57) # alpha value scene.fill(*color) pos = self.as_screen(tile) # tile.as_screen scene.rect(pos.x, pos.y, scale_factor, scale_factor) scene.fill(1, 1, 1, 1) if self.render_mode['coords']: center = Coord(pos.x + (scale_factor / 2), pos.y + (scale_factor / 2)) chess_pos = center + Coord(0, 10) coord_pos = center - Coord(0, 10) chess = tile.coord.as_chess coord = str(tile.coord.as_tup) scene.text(chess, x=chess_pos.x, y=chess_pos.y) scene.text(coord, x=coord_pos.x, y=coord_pos.y) #if self.err_pos: # FIXME this needs to be reenabled! # sc = self.err_pos.as_screen # scene.fill(1, 0, 0, 0.3) # scene.rect(sc.x, sc.y, scale_factor, scale_factor) # scene.fill(1, 1, 1, 1) # scene.tint(0, 0, 1, 1) # scene.text('Move\nInvalid', x=(sc.x + scale_factor/2), y=(sc.y + scale_factor/2)) # scene.tint(1, 1, 1, 1) if self.render_mode['valid']: for tile in board.tiles: #if self.valid_cache: # print([x for x in self.valid_cache]) #if tile.coord in self.valid_cache: # FIXME if tile.fen_loc in self.valid_cache: pos = self.as_screen(tile) # tile.coord.as_screen scene.fill(0.47934, 0.81198, 0.41839, 0.3) scene.rect(pos.x, pos.y, scale_factor, scale_factor) scene.fill(1, 1, 1, 1) if self.render_mode['turn_color']: if board.turn == 'white': turn_y = 1 * scale_factor elif board.turn == 'black': turn_y = 7 * scale_factor pos = Coord(896, turn_y) size = Coord(scale_factor / 2, scale_factor / 2) scene.tint(1, 1, 1, 1) scene.image(self.turn_indicator_img, pos.x, pos.y, size.x, size.y) scene.tint(1, 1, 1, 1) if self.won: pos = Coord(self.size.w / 2, self.size.h / 2) scene.tint(0.32645, 0.28306, 0.93492) # commented out until the bug in ChessGame.is_won() is fixed to be # less annoying scene.text('{} wins'.format(self.won), x=pos.x, y=pos.y, font_size=40.0) scene.tint(1, 1, 1, 1) # Buttons x = scale_factor / 2 scene.text('AI Easy', x=x, y=scale_factor * 6 - x) scene.text('AI Hard', x=x, y=scale_factor * 5 - x) scene.text('Get score', x=x, y=scale_factor * 4 - x) if self.disp_score: scene.text(str(self.pos_score), x=x, y=scale_factor * 4 - scale_factor / 1.5) scene.text('Undo', x=x, y=scale_factor * 3 - x) scene.text('Deselect', x=x, y=scale_factor * 2 - x) scene.text('Options', x=x, y=scale_factor * 7 - x)
def draw(self): self.game_loop() background(0.40, 0.80, 1.00) self.root_layer.update(self.dt) self.root_layer.draw() self.draw_text()
def draw(self): scene.background(0.7, 0.7, 0.7) self.root_layer.update(self.dt) self.root_layer.draw()
def draw(self): scene.background(0, 0, 0) self.root_layer.update(self.dt) self.root_layer.draw() scene.fill(1, 1, 1) # watch+battery -> white background scene.rect(0, self.bounds.h, self.bounds.w, 20) # watch+battery
def draw(self): scene.background(0.7, 0.7, 0.7) # grey self.root_layer.update(self.dt) self.root_layer.draw() scene.text(self.text, font_size=40, x=self.center.x, y=self.center.y)