picture

Module for drawing, displaying, and saving simple pictures.

Example usage:

import picture

picture.new_picture(400, 300)  #Create a blank, 400x300 picture
picture.set_pen_width(8)

# Draw O
picture.set_outline_color("black")
picture.set_fill_color("#A6192E")
picture.draw_filled_rectangle(40,20,150,200)

picture.set_fill_color("white")
picture.draw_filled_oval(115,120,40,60)

# Draw C
picture.set_fill_color("#FFC72C")
picture.draw_filled_chord(315,120,100,70,290)

picture.set_outline_color("white")
picture.set_fill_color("white")
picture.draw_filled_circle(315,120,60)

picture.set_outline_color("black")
picture.draw_arc(315,120,60,55,305)

# Draw line
picture.set_outline_color("aquamarine")
picture.set_position(40,260)
picture.set_direction(-45)
for i in range(9):
  picture.display()
  picture.delay(500)
  picture.draw_forward(50)
  picture.set_direction(picture.get_direction() * -1)

# Text
picture.set_outline_color((0,0,0))
picture.draw_text(120,275,"Made with Code", 24)

# Save and display
picture.save_picture("example.png") 
picture.run()

The following is a list of supported color names:

antiquewhite, aqua, aquamarine, azure, beige, bisque, black, blanchedalmond, blue, blueviolet, brown, burlywood, cadetblue, chartreuse, chocolate, coral, cornflowerblue, cornsilk, crimson, cyan, darkblue, darkcyan, darkgoldenrod, darkgray, darkgrey, darkgreen, darkkhaki, darkmagenta, darkolivegreen, darkorange, darkorchid, darkred, darksalmon, darkseagreen, darkslateblue, darkslategray, darkslategrey, darkturquoise, darkviolet, deeppink, deepskyblue, dimgray, dimgrey, dodgerblue, firebrick, floralwhite, forestgreen, fuchsia, gainsboro, ghostwhite, gold, goldenrod, gray, grey, green, greenyellow, honeydew, hotpink, indianred, indigo, ivory, khaki, lavender, lavenderblush, lawngreen, lemonchiffon, lightblue, lightcoral, lightcyan, lightgoldenrodyellow, lightgreen, lightgray, lightgrey, lightpink, lightsalmon, lightseagreen, lightskyblue, lightslategray, lightslategrey, lightsteelblue, lightyellow, lime, limegreen, linen, magenta, maroon, mediumaquamarine, mediumblue, mediumorchid, mediumpurple, mediumseagreen, mediumslateblue, mediumspringgreen, mediumturquoise, mediumvioletred, midnightblue, mintcream, mistyrose, moccasin, navajowhite, navy, oldlace, olive, olivedrab, orange, orangered, orchid, palegoldenrod, palegreen, paleturquoise, palevioletred, papayawhip, peachpuff, peru, pink, plum, powderblue, purple, rebeccapurple, red, rosybrown, royalblue, saddlebrown, salmon, sandybrown, seagreen, seashell, sienna, silver, skyblue, slateblue, slategray, slategrey, snow, springgreen, steelblue, tan, teal, thistle, tomato, turquoise, violet, wheat, white, whitesmoke, yellow, yellowgreen

View Source
"""
Module for drawing, displaying, and saving simple pictures.

Example usage:
```
import picture

picture.new_picture(400, 300)  #Create a blank, 400x300 picture
picture.set_pen_width(8)

# Draw O
picture.set_outline_color("black")
picture.set_fill_color("#A6192E")
picture.draw_filled_rectangle(40,20,150,200)

picture.set_fill_color("white")
picture.draw_filled_oval(115,120,40,60)

# Draw C
picture.set_fill_color("#FFC72C")
picture.draw_filled_chord(315,120,100,70,290)

picture.set_outline_color("white")
picture.set_fill_color("white")
picture.draw_filled_circle(315,120,60)

picture.set_outline_color("black")
picture.draw_arc(315,120,60,55,305)

# Draw line
picture.set_outline_color("aquamarine")
picture.set_position(40,260)
picture.set_direction(-45)
for i in range(9):
  picture.display()
  picture.delay(500)
  picture.draw_forward(50)
  picture.set_direction(picture.get_direction() * -1)

# Text
picture.set_outline_color((0,0,0))
picture.draw_text(120,275,"Made with Code", 24)

# Save and display
picture.save_picture("example.png") 
picture.run()
```

The following is a list of supported color names:

`antiquewhite`, `aqua`, `aquamarine`, `azure`, `beige`, `bisque`, `black`, `blanchedalmond`, `blue`, `blueviolet`, `brown`, `burlywood`, `cadetblue`, `chartreuse`, `chocolate`, `coral`, `cornflowerblue`, `cornsilk`, `crimson`, `cyan`, `darkblue`, `darkcyan`, `darkgoldenrod`, `darkgray`, `darkgrey`, `darkgreen`, `darkkhaki`, `darkmagenta`, `darkolivegreen`, `darkorange`, `darkorchid`, `darkred`, `darksalmon`, `darkseagreen`, `darkslateblue`, `darkslategray`, `darkslategrey`, `darkturquoise`, `darkviolet`, `deeppink`, `deepskyblue`, `dimgray`, `dimgrey`, `dodgerblue`, `firebrick`, `floralwhite`, `forestgreen`, `fuchsia`, `gainsboro`, `ghostwhite`, `gold`, `goldenrod`, `gray`, `grey`, `green`, `greenyellow`, `honeydew`, `hotpink`, `indianred`, `indigo`, `ivory`, `khaki`, `lavender`, `lavenderblush`, `lawngreen`, `lemonchiffon`, `lightblue`, `lightcoral`, `lightcyan`, `lightgoldenrodyellow`, `lightgreen`, `lightgray`, `lightgrey`, `lightpink`, `lightsalmon`, `lightseagreen`, `lightskyblue`, `lightslategray`, `lightslategrey`, `lightsteelblue`, `lightyellow`, `lime`, `limegreen`, `linen`, `magenta`, `maroon`, `mediumaquamarine`, `mediumblue`, `mediumorchid`, `mediumpurple`, `mediumseagreen`, `mediumslateblue`, `mediumspringgreen`, `mediumturquoise`, `mediumvioletred`, `midnightblue`, `mintcream`, `mistyrose`, `moccasin`, `navajowhite`, `navy`, `oldlace`, `olive`, `olivedrab`, `orange`, `orangered`, `orchid`, `palegoldenrod`, `palegreen`, `paleturquoise`, `palevioletred`, `papayawhip`, `peachpuff`, `peru`, `pink`, `plum`, `powderblue`, `purple`, `rebeccapurple`, `red`, `rosybrown`, `royalblue`, `saddlebrown`, `salmon`, `sandybrown`, `seagreen`, `seashell`, `sienna`, `silver`, `skyblue`, `slateblue`, `slategray`, `slategrey`, `snow`, `springgreen`, `steelblue`, `tan`, `teal`, `thistle`, `tomato`, `turquoise`, `violet`, `wheat`, `white`, `whitesmoke`, `yellow`, `yellowgreen`

"""

import base64
import io
import math
import tkinter

from PIL import Image, ImageColor, ImageDraw, ImageFont, ImageTk

__all__ = [
    "blank_image",
    "change_picture_size",
    "delay",
    "display",
    "draw_arc",
    "draw_chord",
    "draw_circle",
    "draw_forward",
    "draw_image",
    "draw_line",
    "draw_oval",
    "draw_polygon",
    "draw_polyline",
    "draw_rectangle",
    "draw_square",
    "draw_text",
    "draw_filled_chord",
    "draw_filled_circle",
    "draw_filled_oval",
    "draw_filled_polygon",
    "draw_filled_rectangle",
    "draw_filled_square",
    "get_blue",
    "get_direction",
    "get_fill_color",
    "get_green",
    "get_outline_color",
    "get_pen_width",
    "get_pixel",
    "get_position",
    "get_red",
    "image_height",
    "image_width",
    "load_image",
    "new_picture",
    "parse_color",
    "rotate",
    "run",
    "save_image",
    "save_picture",
    "set_blue",
    "set_direction",
    "set_fill_color",
    "set_green",
    "set_outline_color",
    "set_pen_width",
    "set_pen_x",
    "set_pen_y",
    "set_pixel",
    "set_position",
    "set_red",
]

ROBOTO_FONT = 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"

def parse_color(*color):
    """
    Parses the various ways colors may be specified and returns a (red, green, blue) tuple.

    Examples:
    ```
    picture.parse_color("aquamarine")    # returns (127, 255, 212)
    picture.parse_color((245, 245, 220)) # "beige"; returns (245, 245, 220)
    picture.parse_color(95, 158, 160)    # "CadetBlue"; returns (95, 158, 160)
    picture.parse_color("#FF802A")       # returns (255, 128, 42)
    ```
    """
    if len(color) == 1 and isinstance(color[0], str):
        return ImageColor.getrgb(color[0])
    if len(color) == 1 \
       and isinstance(color, tuple) \
       and all(isinstance(channel, int) for channel in color[0]):
        rgb = color[0]
    elif len(color) == 3 \
            and all(isinstance(channel, int) for channel in color):
        rgb = tuple(channel for channel in color)
    else:
        raise TypeError("Expected a string naming a color, 3 ints, or a tuple "
                        "containing 3 ints")
    if any(channel < 0 or channel > 255 for channel in rgb):
        raise ValueError("Invalid color component.\n"
                         "Color components must be between 0 and 255 but given"
                         " {}".format(repr(rgb)))
    return rgb


ROOT = None
FRAME = None
CANVAS = None
IMAGE = None
DRAW = None
TK_IMAGE = None

OUTLINE_COLOR = parse_color("black")
FILL_COLOR = parse_color("white")
PEN_WIDTH = 1
PEN_POSITION = (0, 0)
PEN_ROTATION = 0


def new_picture(width, height):
    """
    Create a new picture with the given width and height. This function will clear
    any existing pictures.

    Example:
    ```
    picture.new_picture(800, 600) #Creates a blank 800x600 picture
    ```
    """
    global ROOT, FRAME, CANVAS, IMAGE, DRAW

    if ROOT is None:
        ROOT = tkinter.Tk()
        FRAME = tkinter.Frame(ROOT, None, borderwidth=0)
        FRAME.grid()

    if CANVAS is None:
        CANVAS = tkinter.Canvas(ROOT, width=width, height=height,
                                background="white", bd=0,
                                highlightthickness=0)
        CANVAS.grid()
    else:
        CANVAS.delete('all')
        change_picture_size(width, height)
    IMAGE = Image.new("RGB", (width, height), color=(255, 255, 255))
    DRAW = ImageDraw.Draw(IMAGE)


def save_picture(path):
    """
    Save the current picture to a file.  
    WARNING: This *will* overwrite existing files so be CAREFUL!

    Example:
    ```
    picture.new_picture(100, 100)
    picture.draw_rectangle(10, 10, 50, 50)
    picture.save_picture("rectangle.png")
    ```
    """
    IMAGE.save(path)


def change_picture_size(width, height):
    """
    Change the size of the current picture to be width and height.
    """
    CANVAS.config(width=width, height=height)


def set_position(*position):
    """
    Set the current drawing position.

    Examples:
    ```
    picture.set_position(10, 20)
    picture.set_position((10, 20))
    ```
    """
    global PEN_POSITION
    if len(position) == 1 \
       and isinstance(position[0], tuple) \
       and all(isinstance(coord, int) for coord in position[0]):
        PEN_POSITION = position[0]
    elif len(position) == 2 \
            and all(isinstance(coord, int) for coord in position):
        PEN_POSITION = (position[0], position[1])
    else:
        raise TypeError("set_position() expected either a single pair of ints "
                        "or two intarguments")


def get_position():
    """
    Returns the current drawing position.

    Example:
    ```
    pos = picture.get_position()     #Store current position

    for theta in range(0, 360, 60):
        picture.set_direction(theta)
        picture.draw_forward(25)
        picture.set_position(pos)    #Reset position
    ```
    """
    return PEN_POSITION


def set_pen_x(x):
    """
    Set the x-coordinate of the pen's position.

    Example:
    ```
    picture.set_pen_x(10)
    ```
    """
    global PEN_POSITION
    PEN_POSITION = (x, PEN_POSITION[1])


def set_pen_y(y):
    """
    Set the y-coordinate of the pen's position.

    Example:
    ```
    picture.set_pen_y(20)
    ```
    """
    global PEN_POSITION
    PEN_POSITION = (PEN_POSITION[0], y)


def set_pen_width(width):
    """
    Set the width of the pen in pixels.

    Example:
    ```
    picture.set_pen_width(10)
    ```
    """
    global PEN_WIDTH
    if width > 0 and width == int(width):
        PEN_WIDTH = int(width)
    else:
        raise ValueError("Pen width must be a positive integer")


def get_pen_width():
    """
    Returns the current pen width.

    Example:
    ```
    width = picture.get_pen_width()
    ```
    """
    return PEN_WIDTH


def rotate(theta):
    """
    Rotate the current drawing direction by `theta` degrees.

    Example:
    ```
    picture.rotate(45)
    picture.draw_forward(10)
    picture.rotate(-45)
    picture.draw_forward(10)
    ```
    """
    global PEN_ROTATION
    PEN_ROTATION += theta
    PEN_ROTATION %= 360


def set_direction(theta):
    """
    Set the current drawing direction to `theta` degrees.
    An angle of 0 degrees points East, and the degrees increase
    in a clockwise direction.

    Example:
    ```
    picture.set_direction(45) #Set direction to point Southeast
    picture.draw_forward(20)
    ```
    """
    global PEN_ROTATION
    PEN_ROTATION = theta
    PEN_ROTATION %= 360


def get_direction():
    """
    Returns the current drawing direction in degrees.

    Example:
    ```
    theta = picture.get_direction()
    picture.set_direction(180)
    picture.draw_forward(10)
    picture.set_direction(theta)
    ```
    """
    return PEN_ROTATION


def draw_forward(distance):
    """
    Draw a line starting from the current pen position in the current direction
    the given distance.

    Example:
    ```
    picture.set_direction(0)
    picture.set_position(100, 100)
    picture.draw_forward(10)
    picture.rotate(90)
    picture.draw_forward(10)
    picture.rotate(90)
    picture.draw_forward(10)
    ```
    """
    global PEN_POSITION
    radian = math.radians(PEN_ROTATION)
    start_x = PEN_POSITION[0]
    start_y = PEN_POSITION[1]
    if (PEN_ROTATION == 90) or (PEN_ROTATION == 270):
      end_x = start_x
      end_y = start_y + math.sin(radian) * distance
    elif (PEN_ROTATION == 0) or (PEN_ROTATION == 180):
      end_x = start_x + math.cos(radian) * distance
      end_y = start_y
    else:
      end_x = start_x + math.cos(radian) * distance
      end_y = start_y + math.sin(radian) * distance
    PEN_POSITION = (end_x, end_y)
    draw_line(start_x, start_y, end_x, end_y)


def set_fill_color(*color):
    """
    Set the fill color. The function accepts either
    - a string naming the color (list of supported color names at top of page),
    - a (red, green, blue) tuple, or
    - three arguments specifying red, green, and blue.

    Examples:
    ```
    picture.set_fill_color("aquamarine")
    picture.set_fill_color((245, 245, 220)) #"beige"
    picture.set_fill_color(95, 158, 160)    #"CadetBlue"
    ```
    """
    global FILL_COLOR
    FILL_COLOR = parse_color(*color)


def get_fill_color():
    """
    Returns the current fill color as a (red, green, blue) tuple.

    Example:
    ```
    current_color = picture.get_fill_color()
    ```
    """
    return FILL_COLOR


def set_outline_color(*color):
    """
    Set the outline color. The function accepts either
    - a string naming the color (list of supported color names at top of page),
    - a (red, green, blue) tuple, or
    - three arguments specifying red, green, and blue.

    Examples:
    ```
    picture.set_outline_color("aquamarine")
    picture.set_outline_color((245, 245, 220)) #"beige"
    picture.set_outline_color(95, 158, 160)    #"CadetBlue"
    ```
    """
    global OUTLINE_COLOR
    OUTLINE_COLOR = parse_color(*color)


def get_outline_color():
    """
    Returns the current outline color as a (red, green, blue) tuple.

    Example:
    ```
    current_color = picture.get_outline_color()
    ```
    """
    return OUTLINE_COLOR


def display():
    """
    Draw the current picture.

    Example:
    ```
    picture.display()
    ```
    """
    global TK_IMAGE
    TK_IMAGE = ImageTk.PhotoImage(IMAGE)
    CANVAS.delete('all')
    CANVAS.create_image(0, 0, image=TK_IMAGE, anchor="nw")
    CANVAS.update()


def delay(milliseconds):
    """
    Pause for the given number of milliseconds.

    Example:
    ```
    picture.delay(1000) #1000 milliseconds or 1 second
    ```
    """
    CANVAS.after(milliseconds)


def draw_oval(x, y, hrad, vrad):
    """
    Draw an oval centered at (x, y) with horizontal radius `hrad` and vertical
    radius `vrad` with the current outline color.

    Example:
    ```
    picture.draw_oval(100, 200, 10, 20)
    ```
    """
    DRAW.ellipse([(x - hrad, y - vrad), (x + hrad, y + vrad)],
                 outline=OUTLINE_COLOR, width=PEN_WIDTH)


def draw_filled_oval(x, y, hrad, vrad):
    """
    Draw a filled oval centered at (x, y) with horizontal radius `hrad` and vertical
    radius `vrad` with the current fill and outline colors.

    Example:
    ```
    picture.draw_filled_oval(100, 200, 10, 20)
    ```
    """
    DRAW.ellipse([(x - hrad, y - vrad), (x + hrad, y + vrad)],
                 fill=FILL_COLOR,
                 outline=OUTLINE_COLOR,
                 width=PEN_WIDTH)

def draw_circle(x, y, r):
    """
    Draw a circle centered at (x, y) with radius `r` with the current outline
    color.

    Example:
    ```
    picture.draw_circle(100, 200, 10)
    ```
    """
    draw_oval(x, y, r, r)


def draw_filled_circle(x, y, r):
    """
    Draw a filled circle centered at (x, y) radius `r` with the current fill 
    and outline colors.

    Example:
    ```
    picture.draw_filled_circle(100, 200, 10)
    ```
    """
    draw_filled_oval(x, y, r, r)


def draw_arc(x, y, r, start, end):
    """
    Draw an arc (a portion of a circle) with the current outline color. 
    The circle is centered at (x, y) and has radius `r`. The portion drawn 
    starts at the `start` angle and ends at the `end` angle.

    Example:
    ```
    picture.draw_arc(100, 100, 25, 45, 90) #45 degrees to 90 degrees
    ```
    """
    DRAW.arc([(x - r, y - r), (x + r, y + r)],
             start,
             end,
             fill=OUTLINE_COLOR,
             width=PEN_WIDTH)

def draw_chord(x, y, r, start, end):
    """
    Draw an arc (a portion of a circle) and connect the two end points with a
    line using the current outline color. The circle is centered at (x, y) and
    has radius `r`. The portion drawn starts at the `start` angle and ends at 
    the `end` angle.

    Example:
    ```
    picture.draw_chord(100, 100, 25, 45, 90) #45 degrees to 90 degrees
    ```
    """
    DRAW.chord([(x - r, y - r), (x + r, y + r)],
               start,
               end,
               outline=OUTLINE_COLOR,
               width=PEN_WIDTH)

def draw_filled_chord(x, y, r, start, end):
    """
    Draw a filled arc (a portion of a circle) with connected end points using 
    the current fill and outline colors. The circle is centered at (x, y) and 
    has radius `r`. The portion drawn starts at the `start` angle and ends at the `end` angle.

    Example:
    ```
    picture.draw_filled_chord(100, 100, 25, 45, 90) #45 degrees to 90 degrees
    ```
    """
    DRAW.chord([(x - r, y - r), (x + r, y + r)],
               start,
               end,
               outline=OUTLINE_COLOR,
               fill=FILL_COLOR,
               width=PEN_WIDTH)

def draw_rectangle(x, y, w, h):
    """
    Draw a rectangle with corners (x, y), (x+w, y), (x, y+h), 
    and (x+w, y+h) with the current outline color. The coordinates
    (x, y) represent the top-left corner of the rectangle.

    Example:
    ```
    picture.draw_rectangle(10, 20, 100, 50)
    ```
    """
    DRAW.rectangle([(x, y), (x + w, y + h)],
                   outline=OUTLINE_COLOR,
                   width=PEN_WIDTH)


def draw_filled_rectangle(x, y, w, h):
    """
    Draw a filled rectangle with corners (x, y), (x+w, y), (x, y+h), 
    and (x+w, y+h) with the current fill and outline colors. The coordinates
    (x, y) represent the top-left corner of the rectangle.

    Example:
    ```
    picture.draw_filled_rectangle(10, 20, 100, 50)
    ```
    """
    DRAW.rectangle([(x, y), (x + w, y + h)],
                   fill=FILL_COLOR,
                   outline=OUTLINE_COLOR,
                   width=PEN_WIDTH)


def draw_square(x, y, side):
    """
    Draw a square with corners (x, y), (x+side, y), (x, y+side), and
    (x+side, y+side) with the current outline color. The coordinates
    (x, y) represent the top-left corner of the square.

    Example:
    ```
    picture.draw_square(10, 20, 100, 50)
    ```
    """
    draw_rectangle(x, y, side, side)


def draw_filled_square(x, y, side):
    """
    Draw a filled square with corners (x, y), (x+side, y), (x, y+side), and
    (x+side, y+side) with the current fill and outline colors. The coordinates
    (x, y) represent the top-left corner of the square.

    Example:
    ```
    picture.draw_filled_square(10, 20, 100)
    ```
    """
    draw_filled_rectangle(x, y, side, side)


def draw_polygon(vertices):
    """
    Draw a polygon defined by a list of vertices using the current outline color.

    Example:
    ```
    picture.draw_polygon([(10, 10), (20, 10), (15, 20)])
    ```
    """
    DRAW.line(vertices + [vertices[0]],
              fill=OUTLINE_COLOR,
              width=PEN_WIDTH)


def draw_filled_polygon(vertices):
    """
    Draw a filled polygon defined by a list of vertices using the current fill and 
    outline colors.

    Example:
    ```
    picture.draw_filled_polygon([(10, 10), (20, 10), (15, 20)])
    ```
    """
    DRAW.polygon(vertices,
                 fill=FILL_COLOR,
                 outline=None)
    DRAW.line(vertices + [vertices[0]],
              fill=OUTLINE_COLOR,
              width=PEN_WIDTH)


def draw_polyline(vertices):
    """
    Draws a polyline defined by a list of vertices using the current outline color and
    pen width.

    Example:
    ```
    picture.draw_polyline([(10, 15), (35, 10), (5, 40)])
    ```
    """
    DRAW.line(vertices,
              fill=OUTLINE_COLOR,
              width=PEN_WIDTH)


def draw_line(x1, y1, x2, y2):
    """
    Draws a line from (x1, y1) to (x2, y2) using the current outline color and
    pen width.

    Example:
    ```
    picture.draw_line(10, 20, 100, 100)
    ```
    """
    DRAW.line([(x1, y1), (x2, y2)],
              fill=OUTLINE_COLOR,
              width=PEN_WIDTH)

def draw_text(x, y, text, font_size):
    """
    Draws the text at (x, y) using the `font_size` and the current outline color.

    Example:
    ```
    picture.draw_text(10, 20, "Hello!", 16)
    ```
    """

    # Convert base64 font to binary file-like object
    file_like_font = io.BytesIO(base64.b64decode(ROBOTO_FONT))

    try:
        font = ImageFont.truetype(file_like_font, font_size)
    except OSError:
        font = ImageFont.load_default()

    DRAW.text((x, y),
              text,
              font=font,
              fill=OUTLINE_COLOR,
              width=PEN_WIDTH)



class Picture():
    """
    This class holds a PIL.Image as well as a PixelAccess for the image.
    """

    def __init__(self, image):
        """
        Create a new picture from a PIL.Image.
        """
        self.image = image
        self.px = image.load()


def blank_image(width, height):
    """
    Returns a blank image with the given width and height.

    Example:
    ```
    image = picture.blank_image(200, 300)
    for y in range (picture.image_height(image)):
        for x in range(picture.image_width(image)):
            picture.set_pixel(image, x, y, (255, 0, 0))
    picture.draw_image(100, 100, image)
    ```
    """
    return Picture(Image.new("RGB", (width, height), color=(255, 255, 255)))


def load_image(path):
    """
    Create an image by loading it from the file system at the given `path`.

    Example:
    ```
    image = picture.load_image("pretty_image.png")
    picture.draw_image(100, 100, image) #Draws the image at (100, 100).
    ```
    """
    image = Image.open(path)
    if image.mode == "RGB":
        pass
    elif image.mode == "RGBA":
        # Code adapted from http://stackoverflow.com/a/9459208/284318
        image.load()  # needed for split()
        new_image = Image.new('RGB', image.size, color=(255, 255, 255))
        new_image.paste(image, mask=image.split()[3])  # 3 is the alpha channel
        image = new_image
    else:
        image = image.convert("RGB")
    return Picture(image)


def save_image(image, path):
    """
    Save an image by writing it to the file system.  
    WARNING: This *will* overwrite existing files so be CAREFUL!

    Example:
    ```
    image = picture.blank_image(200, 200)
    for i in range(200):
        picture.set_pixel(image, i, i, (25, 183, 200))
    picture.save_image(image, "fancy.png")
    ```
    """
    image.image.save(path)


def image_width(image):
    """
    Returns the number of pixels in each row of the image.

    Example:
    ```
    image = picture.load_image("pretty_image.png")
    width = picture.image_width(image)
    ```
    """
    return image.image.width


def image_height(image):
    """
    Returns the number of pixels in each column of the image.

    Example:
    ```
    image = picture.load_image("pretty_image.png")
    height = picture.image_height(image)
    ```
    """
    return image.image.height


def get_pixel(image, x, y):
    """
    Returns the pixel at (x, y) as a (red, green, blue) tuple.

    Example:
    ```
    image = picture.load_image("pretty_image.png")
    color = picture.get_pixel(image, 0, 0) #Top-left pixel
    ```
    """
    return image.px[(x, y)]


def get_red(image, x, y):
    """
    Returns the red value for the pixel at (x, y).

    Example:
    ```
    image = picture.load_image("pretty_image.png")
    red = picture.get_red(image, 0, 0) #Top-left pixel
    ```
    """
    return image.px[(x, y)][0]


def get_green(image, x, y):
    """
    Returns the green value for the pixel at (x, y).
    
    Example:
    ```
    image = picture.load_image("pretty_image.png")
    green = picture.get_green(image, 0, 0) #Top-left pixel
    ```
    """
    return image.px[(x, y)][1]


def get_blue(image, x, y):
    """
    Returns the blue value for the pixel at (x, y).
    
    Example:
    ```
    image = picture.load_image("pretty_image.png")
    blue = picture.get_blue(image, 0, 0) #Top-left pixel
    ```
    """
    return image.px[(x, y)][2]


def set_red(image, x, y, val):
    """
    Sets the red value for the pixel at (x, y) to `val`.

    Example:
    ```
    picture.set_red(image, 10, 10, 255) #Brightest red
    ```
    """
    red, green, blue = image.px[(x, y)]
    image.px[(x, y)] = (val, green, blue)


def set_green(image, x, y, val):
    """
    Sets the green value for the pixel at (x, y) to `val`.

    Example:
    ```
    picture.set_green(image, 10, 10, 255) #Brightest green
    ```
    """
    red, green, blue = image.px[(x, y)]
    image.px[(x, y)] = (red, val, blue)


def set_blue(image, x, y, val):
    """
    Sets the blue value for the pixel at (x, y) to `val`.

    Example:
    ```
    picture.set_blue(image, 10, 10, 255) #Brightest blue
    ```
    """
    red, green, blue = image.px[(x, y)]
    image.px[(x, y)] = (red, green, val)


def set_pixel(image, x, y, *color):
    """
    Sets the pixel at location (x, y) in `image` to be `color`.

    Examples:
    ```
    picture.set_pixel(image, 10, 10, "red")
    picture.set_pixel(image, 20, 15, (123, 255, 0))
    picture.set_pixel(image, 100, 10, 0, 0, 0)      #black
    ```
    """
    image.px[(x, y)] = parse_color(*color)


def draw_image(x, y, image):
    """
    Draws the image at (x, y).

    Example:
    ```
    image = picture.load_image("pretty_image.png")
    width = picture.image_width(image)
    height = picture.image_height(image)
    picture.new_picture(width, height)
    picture.draw_image(0, 0, image)
    ```
    """
    IMAGE.paste(image.image, box=(x, y))


def run():
    """
    Displays the image until the window is closed.

    Example:
    ```
    picture.new_picture(800, 600)
    picture.draw_rectangle(100, 100, 50, 50)
    picture.run()
    ```
    """
    display()
    ROOT.mainloop()
#   def blank_image(width, height):
View Source
def blank_image(width, height):
    """
    Returns a blank image with the given width and height.

    Example:
    ```
    image = picture.blank_image(200, 300)
    for y in range (picture.image_height(image)):
        for x in range(picture.image_width(image)):
            picture.set_pixel(image, x, y, (255, 0, 0))
    picture.draw_image(100, 100, image)
    ```
    """
    return Picture(Image.new("RGB", (width, height), color=(255, 255, 255)))

Returns a blank image with the given width and height.

Example:

image = picture.blank_image(200, 300)
for y in range (picture.image_height(image)):
    for x in range(picture.image_width(image)):
        picture.set_pixel(image, x, y, (255, 0, 0))
picture.draw_image(100, 100, image)
#   def change_picture_size(width, height):
View Source
def change_picture_size(width, height):
    """
    Change the size of the current picture to be width and height.
    """
    CANVAS.config(width=width, height=height)

Change the size of the current picture to be width and height.

#   def delay(milliseconds):
View Source
def delay(milliseconds):
    """
    Pause for the given number of milliseconds.

    Example:
    ```
    picture.delay(1000) #1000 milliseconds or 1 second
    ```
    """
    CANVAS.after(milliseconds)

Pause for the given number of milliseconds.

Example:

picture.delay(1000) #1000 milliseconds or 1 second
#   def display():
View Source
def display():
    """
    Draw the current picture.

    Example:
    ```
    picture.display()
    ```
    """
    global TK_IMAGE
    TK_IMAGE = ImageTk.PhotoImage(IMAGE)
    CANVAS.delete('all')
    CANVAS.create_image(0, 0, image=TK_IMAGE, anchor="nw")
    CANVAS.update()

Draw the current picture.

Example:

picture.display()
#   def draw_arc(x, y, r, start, end):
View Source
def draw_arc(x, y, r, start, end):
    """
    Draw an arc (a portion of a circle) with the current outline color. 
    The circle is centered at (x, y) and has radius `r`. The portion drawn 
    starts at the `start` angle and ends at the `end` angle.

    Example:
    ```
    picture.draw_arc(100, 100, 25, 45, 90) #45 degrees to 90 degrees
    ```
    """
    DRAW.arc([(x - r, y - r), (x + r, y + r)],
             start,
             end,
             fill=OUTLINE_COLOR,
             width=PEN_WIDTH)

Draw an arc (a portion of a circle) with the current outline color. The circle is centered at (x, y) and has radius r. The portion drawn starts at the start angle and ends at the end angle.

Example:

picture.draw_arc(100, 100, 25, 45, 90) #45 degrees to 90 degrees
#   def draw_chord(x, y, r, start, end):
View Source
def draw_chord(x, y, r, start, end):
    """
    Draw an arc (a portion of a circle) and connect the two end points with a
    line using the current outline color. The circle is centered at (x, y) and
    has radius `r`. The portion drawn starts at the `start` angle and ends at 
    the `end` angle.

    Example:
    ```
    picture.draw_chord(100, 100, 25, 45, 90) #45 degrees to 90 degrees
    ```
    """
    DRAW.chord([(x - r, y - r), (x + r, y + r)],
               start,
               end,
               outline=OUTLINE_COLOR,
               width=PEN_WIDTH)

Draw an arc (a portion of a circle) and connect the two end points with a line using the current outline color. The circle is centered at (x, y) and has radius r. The portion drawn starts at the start angle and ends at the end angle.

Example:

picture.draw_chord(100, 100, 25, 45, 90) #45 degrees to 90 degrees
#   def draw_circle(x, y, r):
View Source
def draw_circle(x, y, r):
    """
    Draw a circle centered at (x, y) with radius `r` with the current outline
    color.

    Example:
    ```
    picture.draw_circle(100, 200, 10)
    ```
    """
    draw_oval(x, y, r, r)

Draw a circle centered at (x, y) with radius r with the current outline color.

Example:

picture.draw_circle(100, 200, 10)
#   def draw_forward(distance):
View Source
def draw_forward(distance):
    """
    Draw a line starting from the current pen position in the current direction
    the given distance.

    Example:
    ```
    picture.set_direction(0)
    picture.set_position(100, 100)
    picture.draw_forward(10)
    picture.rotate(90)
    picture.draw_forward(10)
    picture.rotate(90)
    picture.draw_forward(10)
    ```
    """
    global PEN_POSITION
    radian = math.radians(PEN_ROTATION)
    start_x = PEN_POSITION[0]
    start_y = PEN_POSITION[1]
    if (PEN_ROTATION == 90) or (PEN_ROTATION == 270):
      end_x = start_x
      end_y = start_y + math.sin(radian) * distance
    elif (PEN_ROTATION == 0) or (PEN_ROTATION == 180):
      end_x = start_x + math.cos(radian) * distance
      end_y = start_y
    else:
      end_x = start_x + math.cos(radian) * distance
      end_y = start_y + math.sin(radian) * distance
    PEN_POSITION = (end_x, end_y)
    draw_line(start_x, start_y, end_x, end_y)

Draw a line starting from the current pen position in the current direction the given distance.

Example:

picture.set_direction(0)
picture.set_position(100, 100)
picture.draw_forward(10)
picture.rotate(90)
picture.draw_forward(10)
picture.rotate(90)
picture.draw_forward(10)
#   def draw_image(x, y, image):
View Source
def draw_image(x, y, image):
    """
    Draws the image at (x, y).

    Example:
    ```
    image = picture.load_image("pretty_image.png")
    width = picture.image_width(image)
    height = picture.image_height(image)
    picture.new_picture(width, height)
    picture.draw_image(0, 0, image)
    ```
    """
    IMAGE.paste(image.image, box=(x, y))

Draws the image at (x, y).

Example:

image = picture.load_image("pretty_image.png")
width = picture.image_width(image)
height = picture.image_height(image)
picture.new_picture(width, height)
picture.draw_image(0, 0, image)
#   def draw_line(x1, y1, x2, y2):
View Source
def draw_line(x1, y1, x2, y2):
    """
    Draws a line from (x1, y1) to (x2, y2) using the current outline color and
    pen width.

    Example:
    ```
    picture.draw_line(10, 20, 100, 100)
    ```
    """
    DRAW.line([(x1, y1), (x2, y2)],
              fill=OUTLINE_COLOR,
              width=PEN_WIDTH)

Draws a line from (x1, y1) to (x2, y2) using the current outline color and pen width.

Example:

picture.draw_line(10, 20, 100, 100)
#   def draw_oval(x, y, hrad, vrad):
View Source
def draw_oval(x, y, hrad, vrad):
    """
    Draw an oval centered at (x, y) with horizontal radius `hrad` and vertical
    radius `vrad` with the current outline color.

    Example:
    ```
    picture.draw_oval(100, 200, 10, 20)
    ```
    """
    DRAW.ellipse([(x - hrad, y - vrad), (x + hrad, y + vrad)],
                 outline=OUTLINE_COLOR, width=PEN_WIDTH)

Draw an oval centered at (x, y) with horizontal radius hrad and vertical radius vrad with the current outline color.

Example:

picture.draw_oval(100, 200, 10, 20)
#   def draw_polygon(vertices):
View Source
def draw_polygon(vertices):
    """
    Draw a polygon defined by a list of vertices using the current outline color.

    Example:
    ```
    picture.draw_polygon([(10, 10), (20, 10), (15, 20)])
    ```
    """
    DRAW.line(vertices + [vertices[0]],
              fill=OUTLINE_COLOR,
              width=PEN_WIDTH)

Draw a polygon defined by a list of vertices using the current outline color.

Example:

picture.draw_polygon([(10, 10), (20, 10), (15, 20)])
#   def draw_polyline(vertices):
View Source
def draw_polyline(vertices):
    """
    Draws a polyline defined by a list of vertices using the current outline color and
    pen width.

    Example:
    ```
    picture.draw_polyline([(10, 15), (35, 10), (5, 40)])
    ```
    """
    DRAW.line(vertices,
              fill=OUTLINE_COLOR,
              width=PEN_WIDTH)

Draws a polyline defined by a list of vertices using the current outline color and pen width.

Example:

picture.draw_polyline([(10, 15), (35, 10), (5, 40)])
#   def draw_rectangle(x, y, w, h):
View Source
def draw_rectangle(x, y, w, h):
    """
    Draw a rectangle with corners (x, y), (x+w, y), (x, y+h), 
    and (x+w, y+h) with the current outline color. The coordinates
    (x, y) represent the top-left corner of the rectangle.

    Example:
    ```
    picture.draw_rectangle(10, 20, 100, 50)
    ```
    """
    DRAW.rectangle([(x, y), (x + w, y + h)],
                   outline=OUTLINE_COLOR,
                   width=PEN_WIDTH)

Draw a rectangle with corners (x, y), (x+w, y), (x, y+h), and (x+w, y+h) with the current outline color. The coordinates (x, y) represent the top-left corner of the rectangle.

Example:

picture.draw_rectangle(10, 20, 100, 50)
#   def draw_square(x, y, side):
View Source
def draw_square(x, y, side):
    """
    Draw a square with corners (x, y), (x+side, y), (x, y+side), and
    (x+side, y+side) with the current outline color. The coordinates
    (x, y) represent the top-left corner of the square.

    Example:
    ```
    picture.draw_square(10, 20, 100, 50)
    ```
    """
    draw_rectangle(x, y, side, side)

Draw a square with corners (x, y), (x+side, y), (x, y+side), and (x+side, y+side) with the current outline color. The coordinates (x, y) represent the top-left corner of the square.

Example:

picture.draw_square(10, 20, 100, 50)
#   def draw_text(x, y, text, font_size):
View Source
def draw_text(x, y, text, font_size):
    """
    Draws the text at (x, y) using the `font_size` and the current outline color.

    Example:
    ```
    picture.draw_text(10, 20, "Hello!", 16)
    ```
    """

    # Convert base64 font to binary file-like object
    file_like_font = io.BytesIO(base64.b64decode(ROBOTO_FONT))

    try:
        font = ImageFont.truetype(file_like_font, font_size)
    except OSError:
        font = ImageFont.load_default()

    DRAW.text((x, y),
              text,
              font=font,
              fill=OUTLINE_COLOR,
              width=PEN_WIDTH)

Draws the text at (x, y) using the font_size and the current outline color.

Example:

picture.draw_text(10, 20, "Hello!", 16)
#   def draw_filled_chord(x, y, r, start, end):
View Source
def draw_filled_chord(x, y, r, start, end):
    """
    Draw a filled arc (a portion of a circle) with connected end points using 
    the current fill and outline colors. The circle is centered at (x, y) and 
    has radius `r`. The portion drawn starts at the `start` angle and ends at the `end` angle.

    Example:
    ```
    picture.draw_filled_chord(100, 100, 25, 45, 90) #45 degrees to 90 degrees
    ```
    """
    DRAW.chord([(x - r, y - r), (x + r, y + r)],
               start,
               end,
               outline=OUTLINE_COLOR,
               fill=FILL_COLOR,
               width=PEN_WIDTH)

Draw a filled arc (a portion of a circle) with connected end points using the current fill and outline colors. The circle is centered at (x, y) and has radius r. The portion drawn starts at the start angle and ends at the end angle.

Example:

picture.draw_filled_chord(100, 100, 25, 45, 90) #45 degrees to 90 degrees
#   def draw_filled_circle(x, y, r):
View Source
def draw_filled_circle(x, y, r):
    """
    Draw a filled circle centered at (x, y) radius `r` with the current fill 
    and outline colors.

    Example:
    ```
    picture.draw_filled_circle(100, 200, 10)
    ```
    """
    draw_filled_oval(x, y, r, r)

Draw a filled circle centered at (x, y) radius r with the current fill and outline colors.

Example:

picture.draw_filled_circle(100, 200, 10)
#   def draw_filled_oval(x, y, hrad, vrad):
View Source
def draw_filled_oval(x, y, hrad, vrad):
    """
    Draw a filled oval centered at (x, y) with horizontal radius `hrad` and vertical
    radius `vrad` with the current fill and outline colors.

    Example:
    ```
    picture.draw_filled_oval(100, 200, 10, 20)
    ```
    """
    DRAW.ellipse([(x - hrad, y - vrad), (x + hrad, y + vrad)],
                 fill=FILL_COLOR,
                 outline=OUTLINE_COLOR,
                 width=PEN_WIDTH)

Draw a filled oval centered at (x, y) with horizontal radius hrad and vertical radius vrad with the current fill and outline colors.

Example:

picture.draw_filled_oval(100, 200, 10, 20)
#   def draw_filled_polygon(vertices):
View Source
def draw_filled_polygon(vertices):
    """
    Draw a filled polygon defined by a list of vertices using the current fill and 
    outline colors.

    Example:
    ```
    picture.draw_filled_polygon([(10, 10), (20, 10), (15, 20)])
    ```
    """
    DRAW.polygon(vertices,
                 fill=FILL_COLOR,
                 outline=None)
    DRAW.line(vertices + [vertices[0]],
              fill=OUTLINE_COLOR,
              width=PEN_WIDTH)

Draw a filled polygon defined by a list of vertices using the current fill and outline colors.

Example:

picture.draw_filled_polygon([(10, 10), (20, 10), (15, 20)])
#   def draw_filled_rectangle(x, y, w, h):
View Source
def draw_filled_rectangle(x, y, w, h):
    """
    Draw a filled rectangle with corners (x, y), (x+w, y), (x, y+h), 
    and (x+w, y+h) with the current fill and outline colors. The coordinates
    (x, y) represent the top-left corner of the rectangle.

    Example:
    ```
    picture.draw_filled_rectangle(10, 20, 100, 50)
    ```
    """
    DRAW.rectangle([(x, y), (x + w, y + h)],
                   fill=FILL_COLOR,
                   outline=OUTLINE_COLOR,
                   width=PEN_WIDTH)

Draw a filled rectangle with corners (x, y), (x+w, y), (x, y+h), and (x+w, y+h) with the current fill and outline colors. The coordinates (x, y) represent the top-left corner of the rectangle.

Example:

picture.draw_filled_rectangle(10, 20, 100, 50)
#   def draw_filled_square(x, y, side):
View Source
def draw_filled_square(x, y, side):
    """
    Draw a filled square with corners (x, y), (x+side, y), (x, y+side), and
    (x+side, y+side) with the current fill and outline colors. The coordinates
    (x, y) represent the top-left corner of the square.

    Example:
    ```
    picture.draw_filled_square(10, 20, 100)
    ```
    """
    draw_filled_rectangle(x, y, side, side)

Draw a filled square with corners (x, y), (x+side, y), (x, y+side), and (x+side, y+side) with the current fill and outline colors. The coordinates (x, y) represent the top-left corner of the square.

Example:

picture.draw_filled_square(10, 20, 100)
#   def get_blue(image, x, y):
View Source
def get_blue(image, x, y):
    """
    Returns the blue value for the pixel at (x, y).
    
    Example:
    ```
    image = picture.load_image("pretty_image.png")
    blue = picture.get_blue(image, 0, 0) #Top-left pixel
    ```
    """
    return image.px[(x, y)][2]

Returns the blue value for the pixel at (x, y).

Example:

image = picture.load_image("pretty_image.png")
blue = picture.get_blue(image, 0, 0) #Top-left pixel
#   def get_direction():
View Source
def get_direction():
    """
    Returns the current drawing direction in degrees.

    Example:
    ```
    theta = picture.get_direction()
    picture.set_direction(180)
    picture.draw_forward(10)
    picture.set_direction(theta)
    ```
    """
    return PEN_ROTATION

Returns the current drawing direction in degrees.

Example:

theta = picture.get_direction()
picture.set_direction(180)
picture.draw_forward(10)
picture.set_direction(theta)
#   def get_fill_color():
View Source
def get_fill_color():
    """
    Returns the current fill color as a (red, green, blue) tuple.

    Example:
    ```
    current_color = picture.get_fill_color()
    ```
    """
    return FILL_COLOR

Returns the current fill color as a (red, green, blue) tuple.

Example:

current_color = picture.get_fill_color()
#   def get_green(image, x, y):
View Source
def get_green(image, x, y):
    """
    Returns the green value for the pixel at (x, y).
    
    Example:
    ```
    image = picture.load_image("pretty_image.png")
    green = picture.get_green(image, 0, 0) #Top-left pixel
    ```
    """
    return image.px[(x, y)][1]

Returns the green value for the pixel at (x, y).

Example:

image = picture.load_image("pretty_image.png")
green = picture.get_green(image, 0, 0) #Top-left pixel
#   def get_outline_color():
View Source
def get_outline_color():
    """
    Returns the current outline color as a (red, green, blue) tuple.

    Example:
    ```
    current_color = picture.get_outline_color()
    ```
    """
    return OUTLINE_COLOR

Returns the current outline color as a (red, green, blue) tuple.

Example:

current_color = picture.get_outline_color()
#   def get_pen_width():
View Source
def get_pen_width():
    """
    Returns the current pen width.

    Example:
    ```
    width = picture.get_pen_width()
    ```
    """
    return PEN_WIDTH

Returns the current pen width.

Example:

width = picture.get_pen_width()
#   def get_pixel(image, x, y):
View Source
def get_pixel(image, x, y):
    """
    Returns the pixel at (x, y) as a (red, green, blue) tuple.

    Example:
    ```
    image = picture.load_image("pretty_image.png")
    color = picture.get_pixel(image, 0, 0) #Top-left pixel
    ```
    """
    return image.px[(x, y)]

Returns the pixel at (x, y) as a (red, green, blue) tuple.

Example:

image = picture.load_image("pretty_image.png")
color = picture.get_pixel(image, 0, 0) #Top-left pixel
#   def get_position():
View Source
def get_position():
    """
    Returns the current drawing position.

    Example:
    ```
    pos = picture.get_position()     #Store current position

    for theta in range(0, 360, 60):
        picture.set_direction(theta)
        picture.draw_forward(25)
        picture.set_position(pos)    #Reset position
    ```
    """
    return PEN_POSITION

Returns the current drawing position.

Example:

pos = picture.get_position()     #Store current position

for theta in range(0, 360, 60):
    picture.set_direction(theta)
    picture.draw_forward(25)
    picture.set_position(pos)    #Reset position
#   def get_red(image, x, y):
View Source
def get_red(image, x, y):
    """
    Returns the red value for the pixel at (x, y).

    Example:
    ```
    image = picture.load_image("pretty_image.png")
    red = picture.get_red(image, 0, 0) #Top-left pixel
    ```
    """
    return image.px[(x, y)][0]

Returns the red value for the pixel at (x, y).

Example:

image = picture.load_image("pretty_image.png")
red = picture.get_red(image, 0, 0) #Top-left pixel
#   def image_height(image):
View Source
def image_height(image):
    """
    Returns the number of pixels in each column of the image.

    Example:
    ```
    image = picture.load_image("pretty_image.png")
    height = picture.image_height(image)
    ```
    """
    return image.image.height

Returns the number of pixels in each column of the image.

Example:

image = picture.load_image("pretty_image.png")
height = picture.image_height(image)
#   def image_width(image):
View Source
def image_width(image):
    """
    Returns the number of pixels in each row of the image.

    Example:
    ```
    image = picture.load_image("pretty_image.png")
    width = picture.image_width(image)
    ```
    """
    return image.image.width

Returns the number of pixels in each row of the image.

Example:

image = picture.load_image("pretty_image.png")
width = picture.image_width(image)
#   def load_image(path):
View Source
def load_image(path):
    """
    Create an image by loading it from the file system at the given `path`.

    Example:
    ```
    image = picture.load_image("pretty_image.png")
    picture.draw_image(100, 100, image) #Draws the image at (100, 100).
    ```
    """
    image = Image.open(path)
    if image.mode == "RGB":
        pass
    elif image.mode == "RGBA":
        # Code adapted from http://stackoverflow.com/a/9459208/284318
        image.load()  # needed for split()
        new_image = Image.new('RGB', image.size, color=(255, 255, 255))
        new_image.paste(image, mask=image.split()[3])  # 3 is the alpha channel
        image = new_image
    else:
        image = image.convert("RGB")
    return Picture(image)

Create an image by loading it from the file system at the given path.

Example:

image = picture.load_image("pretty_image.png")
picture.draw_image(100, 100, image) #Draws the image at (100, 100).
#   def new_picture(width, height):
View Source
def new_picture(width, height):
    """
    Create a new picture with the given width and height. This function will clear
    any existing pictures.

    Example:
    ```
    picture.new_picture(800, 600) #Creates a blank 800x600 picture
    ```
    """
    global ROOT, FRAME, CANVAS, IMAGE, DRAW

    if ROOT is None:
        ROOT = tkinter.Tk()
        FRAME = tkinter.Frame(ROOT, None, borderwidth=0)
        FRAME.grid()

    if CANVAS is None:
        CANVAS = tkinter.Canvas(ROOT, width=width, height=height,
                                background="white", bd=0,
                                highlightthickness=0)
        CANVAS.grid()
    else:
        CANVAS.delete('all')
        change_picture_size(width, height)
    IMAGE = Image.new("RGB", (width, height), color=(255, 255, 255))
    DRAW = ImageDraw.Draw(IMAGE)

Create a new picture with the given width and height. This function will clear any existing pictures.

Example:

picture.new_picture(800, 600) #Creates a blank 800x600 picture
#   def parse_color(*color):
View Source
def parse_color(*color):
    """
    Parses the various ways colors may be specified and returns a (red, green, blue) tuple.

    Examples:
    ```
    picture.parse_color("aquamarine")    # returns (127, 255, 212)
    picture.parse_color((245, 245, 220)) # "beige"; returns (245, 245, 220)
    picture.parse_color(95, 158, 160)    # "CadetBlue"; returns (95, 158, 160)
    picture.parse_color("#FF802A")       # returns (255, 128, 42)
    ```
    """
    if len(color) == 1 and isinstance(color[0], str):
        return ImageColor.getrgb(color[0])
    if len(color) == 1 \
       and isinstance(color, tuple) \
       and all(isinstance(channel, int) for channel in color[0]):
        rgb = color[0]
    elif len(color) == 3 \
            and all(isinstance(channel, int) for channel in color):
        rgb = tuple(channel for channel in color)
    else:
        raise TypeError("Expected a string naming a color, 3 ints, or a tuple "
                        "containing 3 ints")
    if any(channel < 0 or channel > 255 for channel in rgb):
        raise ValueError("Invalid color component.\n"
                         "Color components must be between 0 and 255 but given"
                         " {}".format(repr(rgb)))
    return rgb

Parses the various ways colors may be specified and returns a (red, green, blue) tuple.

Examples:

picture.parse_color("aquamarine")    # returns (127, 255, 212)
picture.parse_color((245, 245, 220)) # "beige"; returns (245, 245, 220)
picture.parse_color(95, 158, 160)    # "CadetBlue"; returns (95, 158, 160)
picture.parse_color("#FF802A")       # returns (255, 128, 42)
#   def rotate(theta):
View Source
def rotate(theta):
    """
    Rotate the current drawing direction by `theta` degrees.

    Example:
    ```
    picture.rotate(45)
    picture.draw_forward(10)
    picture.rotate(-45)
    picture.draw_forward(10)
    ```
    """
    global PEN_ROTATION
    PEN_ROTATION += theta
    PEN_ROTATION %= 360

Rotate the current drawing direction by theta degrees.

Example:

picture.rotate(45)
picture.draw_forward(10)
picture.rotate(-45)
picture.draw_forward(10)
#   def run():
View Source
def run():
    """
    Displays the image until the window is closed.

    Example:
    ```
    picture.new_picture(800, 600)
    picture.draw_rectangle(100, 100, 50, 50)
    picture.run()
    ```
    """
    display()
    ROOT.mainloop()

Displays the image until the window is closed.

Example:

picture.new_picture(800, 600)
picture.draw_rectangle(100, 100, 50, 50)
picture.run()
#   def save_image(image, path):
View Source
def save_image(image, path):
    """
    Save an image by writing it to the file system.  
    WARNING: This *will* overwrite existing files so be CAREFUL!

    Example:
    ```
    image = picture.blank_image(200, 200)
    for i in range(200):
        picture.set_pixel(image, i, i, (25, 183, 200))
    picture.save_image(image, "fancy.png")
    ```
    """
    image.image.save(path)

Save an image by writing it to the file system.
WARNING: This will overwrite existing files so be CAREFUL!

Example:

image = picture.blank_image(200, 200)
for i in range(200):
    picture.set_pixel(image, i, i, (25, 183, 200))
picture.save_image(image, "fancy.png")
#   def save_picture(path):
View Source
def save_picture(path):
    """
    Save the current picture to a file.  
    WARNING: This *will* overwrite existing files so be CAREFUL!

    Example:
    ```
    picture.new_picture(100, 100)
    picture.draw_rectangle(10, 10, 50, 50)
    picture.save_picture("rectangle.png")
    ```
    """
    IMAGE.save(path)

Save the current picture to a file.
WARNING: This will overwrite existing files so be CAREFUL!

Example:

picture.new_picture(100, 100)
picture.draw_rectangle(10, 10, 50, 50)
picture.save_picture("rectangle.png")
#   def set_blue(image, x, y, val):
View Source
def set_blue(image, x, y, val):
    """
    Sets the blue value for the pixel at (x, y) to `val`.

    Example:
    ```
    picture.set_blue(image, 10, 10, 255) #Brightest blue
    ```
    """
    red, green, blue = image.px[(x, y)]
    image.px[(x, y)] = (red, green, val)

Sets the blue value for the pixel at (x, y) to val.

Example:

picture.set_blue(image, 10, 10, 255) #Brightest blue
#   def set_direction(theta):
View Source
def set_direction(theta):
    """
    Set the current drawing direction to `theta` degrees.
    An angle of 0 degrees points East, and the degrees increase
    in a clockwise direction.

    Example:
    ```
    picture.set_direction(45) #Set direction to point Southeast
    picture.draw_forward(20)
    ```
    """
    global PEN_ROTATION
    PEN_ROTATION = theta
    PEN_ROTATION %= 360

Set the current drawing direction to theta degrees. An angle of 0 degrees points East, and the degrees increase in a clockwise direction.

Example:

picture.set_direction(45) #Set direction to point Southeast
picture.draw_forward(20)
#   def set_fill_color(*color):
View Source
def set_fill_color(*color):
    """
    Set the fill color. The function accepts either
    - a string naming the color (list of supported color names at top of page),
    - a (red, green, blue) tuple, or
    - three arguments specifying red, green, and blue.

    Examples:
    ```
    picture.set_fill_color("aquamarine")
    picture.set_fill_color((245, 245, 220)) #"beige"
    picture.set_fill_color(95, 158, 160)    #"CadetBlue"
    ```
    """
    global FILL_COLOR
    FILL_COLOR = parse_color(*color)

Set the fill color. The function accepts either

  • a string naming the color (list of supported color names at top of page),
  • a (red, green, blue) tuple, or
  • three arguments specifying red, green, and blue.

Examples:

picture.set_fill_color("aquamarine")
picture.set_fill_color((245, 245, 220)) #"beige"
picture.set_fill_color(95, 158, 160)    #"CadetBlue"
#   def set_green(image, x, y, val):
View Source
def set_green(image, x, y, val):
    """
    Sets the green value for the pixel at (x, y) to `val`.

    Example:
    ```
    picture.set_green(image, 10, 10, 255) #Brightest green
    ```
    """
    red, green, blue = image.px[(x, y)]
    image.px[(x, y)] = (red, val, blue)

Sets the green value for the pixel at (x, y) to val.

Example:

picture.set_green(image, 10, 10, 255) #Brightest green
#   def set_outline_color(*color):
View Source
def set_outline_color(*color):
    """
    Set the outline color. The function accepts either
    - a string naming the color (list of supported color names at top of page),
    - a (red, green, blue) tuple, or
    - three arguments specifying red, green, and blue.

    Examples:
    ```
    picture.set_outline_color("aquamarine")
    picture.set_outline_color((245, 245, 220)) #"beige"
    picture.set_outline_color(95, 158, 160)    #"CadetBlue"
    ```
    """
    global OUTLINE_COLOR
    OUTLINE_COLOR = parse_color(*color)

Set the outline color. The function accepts either

  • a string naming the color (list of supported color names at top of page),
  • a (red, green, blue) tuple, or
  • three arguments specifying red, green, and blue.

Examples:

picture.set_outline_color("aquamarine")
picture.set_outline_color((245, 245, 220)) #"beige"
picture.set_outline_color(95, 158, 160)    #"CadetBlue"
#   def set_pen_width(width):
View Source
def set_pen_width(width):
    """
    Set the width of the pen in pixels.

    Example:
    ```
    picture.set_pen_width(10)
    ```
    """
    global PEN_WIDTH
    if width > 0 and width == int(width):
        PEN_WIDTH = int(width)
    else:
        raise ValueError("Pen width must be a positive integer")

Set the width of the pen in pixels.

Example:

picture.set_pen_width(10)
#   def set_pen_x(x):
View Source
def set_pen_x(x):
    """
    Set the x-coordinate of the pen's position.

    Example:
    ```
    picture.set_pen_x(10)
    ```
    """
    global PEN_POSITION
    PEN_POSITION = (x, PEN_POSITION[1])

Set the x-coordinate of the pen's position.

Example:

picture.set_pen_x(10)
#   def set_pen_y(y):
View Source
def set_pen_y(y):
    """
    Set the y-coordinate of the pen's position.

    Example:
    ```
    picture.set_pen_y(20)
    ```
    """
    global PEN_POSITION
    PEN_POSITION = (PEN_POSITION[0], y)

Set the y-coordinate of the pen's position.

Example:

picture.set_pen_y(20)
#   def set_pixel(image, x, y, *color):
View Source
def set_pixel(image, x, y, *color):
    """
    Sets the pixel at location (x, y) in `image` to be `color`.

    Examples:
    ```
    picture.set_pixel(image, 10, 10, "red")
    picture.set_pixel(image, 20, 15, (123, 255, 0))
    picture.set_pixel(image, 100, 10, 0, 0, 0)      #black
    ```
    """
    image.px[(x, y)] = parse_color(*color)

Sets the pixel at location (x, y) in image to be color.

Examples:

picture.set_pixel(image, 10, 10, "red")
picture.set_pixel(image, 20, 15, (123, 255, 0))
picture.set_pixel(image, 100, 10, 0, 0, 0)      #black
#   def set_position(*position):
View Source
def set_position(*position):
    """
    Set the current drawing position.

    Examples:
    ```
    picture.set_position(10, 20)
    picture.set_position((10, 20))
    ```
    """
    global PEN_POSITION
    if len(position) == 1 \
       and isinstance(position[0], tuple) \
       and all(isinstance(coord, int) for coord in position[0]):
        PEN_POSITION = position[0]
    elif len(position) == 2 \
            and all(isinstance(coord, int) for coord in position):
        PEN_POSITION = (position[0], position[1])
    else:
        raise TypeError("set_position() expected either a single pair of ints "
                        "or two intarguments")

Set the current drawing position.

Examples:

picture.set_position(10, 20)
picture.set_position((10, 20))
#   def set_red(image, x, y, val):
View Source
def set_red(image, x, y, val):
    """
    Sets the red value for the pixel at (x, y) to `val`.

    Example:
    ```
    picture.set_red(image, 10, 10, 255) #Brightest red
    ```
    """
    red, green, blue = image.px[(x, y)]
    image.px[(x, y)] = (val, green, blue)

Sets the red value for the pixel at (x, y) to val.

Example:

picture.set_red(image, 10, 10, 255) #Brightest red