Metadata-Version: 2.1
Name: replit-play
Version: 0.0.14
Summary: The easiest way to make games and media projects in Python.
Home-page: https://github.com/replit/play
Author: Repl.it
Author-email: gchiacchieri@gmail.com
License: MIT
Description: # Python Play (beta)
        
        [![Try on repl.it](https://repl-badge.jajoosam.repl.co/try.png)](https://repl.it/@glench/Python-Play-sample-game)
        
        ## The easiest way to start coding games and graphics projects in Python
        
        Python Play is an open-source code library for the Python programming language that makes it as easy as possible to start making games. Here's the code to make a simple game using Play:
        
        ```python
        import play
        
        cat = play.new_text('=^.^=', font_size=70)
        
        @play.repeat_forever
        async def move_cat():
            cat.x = play.random_number(-200, 200)
            cat.y = play.random_number(-200, 200)
            cat.color = play.random_color()
            
            cat.show()
        
            await play.timer(seconds=0.4)
        
            cat.hide()
        
            await play.timer(seconds=0.4)
        
        @cat.when_clicked
        def win_function():
            cat.show()
            cat.words = 'You won!'
        
        play.start_program()
        ```
        
        The code above makes a game where you have to click the cat to win:
        
        ![Clicking a cat game](example.gif)
        
        **[You can try playing and changing this game on repl.it!](https://repl.it/@glench/Python-Play-sample-game)**
        
        # How to install Python Play
        
        Run the following command in your terminal:
        
            pip install replit-play
        
        Or you can just go to [repl.it](https://repl.it/@glench/Python-Play-sample-game) and you won't have to install anything :)
        
        # How to use Python Play
        
        All Python Play programs start with `import play` and end with `play.start_program()`, like this:
        
        ```python
        import play # this is the first line in the program
        
        
        
        play.start_program() # this is the last line in the program
        ```
        
        All other commands go between those two commands.
        
        To try any of the following examples, go to **[repl.it and try pasting code in](https://repl.it/@glench/Replit-Play-Template)**.
        
        ## Commands
        
        The rest of this document is divided into the following sections:
        
        - [Basic Commands](#basic-commands) - Getting graphics, shapes, and text on the screen. Also changing the backdrop.
        - [Animation and Control Commands](#animation-and-control-commands) - Animating and controlling graphics, shapes, and text.
        - [Sprite Commands](#sprite-commands) - Controlling sprites.
        - [Mouse Commands](#mouse-commands) - Detecting mouse actions (clicks, movement).
        - [Keyboard Commands](#keyboard-commands) - Detecting keyboard actions.
        - [Other Useful Commands](#other-useful-commands) - General commands.
        - [Why use Python Play?](#why-use-python-play) - How this library is different from other graphics libraries.
        
        ## Basic Commands
        
        To get images or text on the screen, use the following commands. (Copy and paste the code below to try it out.)
        
        #### `play.new_box()`
        ```python
        box = play.new_box(color='black', x=0, y=0, width=100, height=200, border_color="light blue", border_width=0)
        ```
        
        This will put a tall, black box in the middle of the screen.
        
        If you want to change where the image is on the screen, try changing `x=0` (horizontal position) and `y=0` (vertical position). Positive x is to the right and positive y is up. You can also change the color by changing `'black'` to another color name, like `'orange'`.
        
        
        #### `play.new_sprite()`
        ```python
        character = play.new_sprite(image='character.png', x=0, y=0, angle=0, size=100, transparency=100)
        ```
        
        This will place an image in the middle of the screen. Make sure you have a file named `character.png` in your project files for the code above to work.
        
        
        
        #### `play.new_text()`
        ```python
        greeting = play.new_text(words='hi :)', x=0, y=0, angle=0, font=None, font_size=50, color='black', transparency=100)
        ```
        
        This will put some text on the screen.
        
        If you want to change the font, you'll need a font file (usually named something like `Arial.ttf`) in your project files. Then you can change `font=None` to `font='Arial.ttf'`.
        
        
        
        #### `play.new_circle()`
        ```python
        ball = play.new_circle(color='black', x=0, y=0, radius=100, border_color="light blue", border_width=0, transparency=100)
        ```
        
        This will put a black circle in the middle of the screen.
        
        
        
        #### `play.new_line()`
        ```python
        line = play.new_line(color='black', x=0, y=0, length=100, angle=0, thickness=1, x1=None, y1=None)
        ```
        
        This will create a thin line on the screen.
        
        
        
        #### `play.set_backdrop()`
        You can change the background color with the `play.set_backdrop()` command:
        
        ```python
        play.set_backdrop('light blue')
        ```
        
        There are [lots of named colors to choose from](https://upload.wikimedia.org/wikipedia/commons/2/2b/SVG_Recognized_color_keyword_names.svg). Additionally, if you want to set colors by RGB (Red Green Blue) values, you can do that like this:
        
        ```python
        # Sets the background to white. Each number can go from 0 to 255
        play.set_backdrop( (255, 255, 255) )
        ```
        
        Anywhere you can set a color in Python Play, you can do it using a named color like `'red'` or an RGB value above like `(255, 255, 255)` or even an RGBA value like `(0, 0, 0, 127)` (the fourth number is transparency from 0 to 255). You can get the current background color with `play.backdrop`.
        
        
        
        
        ## Animation and Control Commands
        
        #### `@play.repeat_forever`
        To make things move around, you can start by using `@play.repeat_forever`, like this:
        
        ```python
        cat = play.new_text('=^.^=')
        
        @play.repeat_forever
        def do():
        
            cat.turn(10)  
        ```    
        
        The above code will make the cat turn around forever. Sprites have other commands that you can see in the next section called Sprite Commands.
        
        #### `@play.when_program_starts`
        
        To make some code run just at the beginning of your project, use `@play.when_program_starts`, like this:
        
        ```python
        cat = play.new_text('=^.^=')
        
        @play.when_program_starts
        def do():
        
            cat.turn(180)  
        ```
        
        This will make the cat turn upside down instantly when the program starts.
        
        
        #### `await play.timer(seconds=1)`
        
        To run code after a waiting period, you can use the `await play.timer()` command like this:
        
        ```python
        cat = play.new_text('=^.^=')
        
        @play.when_program_starts
        async def do():
        
            cat.turn(180)  
            await play.timer(seconds=2)
            cat.turn(180)  
        ```
        
        This will make the cat turn upside down instantly when the program starts, wait 2 seconds, then turn back up again.
        
        
        #### `play.repeat()` and `await play.animate()`
        
        To smoothly animate a character a certain number of times, you can use `play.repeat()` with `await play.animate()`, like this:
        
        
        ```python
        cat = play.new_text('=^.^=')
        
        @play.when_program_starts
        async def do():
            for count in play.repeat(180):
                cat.turn(1)
                await play.animate()
        ```
        
        This code will animate the cat turning upside down smoothly when the program starts.
        
        To break down the code:
        - `for count in play.repeat(180):` runs the code 180 times.
        - `cat.turn(1)` turns that cat 1 degree each time.
        - `await play.animate()` makes the cat animate smoothly. Without this command, the cat would just turn upside down instantly.
        
        Note: to use `await play.animate()` and `await play.timer()`, the word `async` must be included before `def` in your function definition.
        
        
        
        
        
        
        ## Sprite Commands
        
        
        #### Simple commands
        
        Sprites (images and text) have a few simple commands:
        
        - **`sprite.move(10)`** — moves the sprite 10 pixels in the direction it's facing (starts facing right). Use negative numbers (-10) to go backward.
        - **`sprite.turn(20)`** — Turns the sprite 20 degrees counter-clockwise. Use negative numbers (-20) to turn the other way.
        - **`sprite.go_to(other_sprite)`** — Makes `sprite` go to another sprite named `other_sprite`'s position on the screen.
        - **`sprite.go_to(x=100, y=50)`** — Makes `sprite` go to x=100, y=50 (right and up a little).
        - **`sprite.point_towards(other_sprite)`** — Turns `sprite` so it points at another sprite called `other_sprite`.
        - **`sprite.point_towards(x=100, y=50)`** — Turns `sprite` so it points toward x=100, y=50 (right and up a little).
        - **`sprite.hide()`** — Hides `sprite`. It can't be clicked when it's hidden.
        - **`sprite.show()`** — Shows `sprite` if it's hidden.
        - **`sprite.clone()`** — Makes a copy or clone of the sprite and returns it.
        - **`sprite.remove()`** — Removes a sprite from the screen permanently. Calling sprite commands on a removed sprite won't do anything.
        
        
        #### Properties
        
        Sprites also have properties that can be changed to change how the sprite looks. Here they are:
        
        - **`sprite.x`** — The sprite's horizontal position on the screen. Positive numbers are right, negative numbers are left. The default is 0.
        - **`sprite.y`** — The sprite's vertical position on the screen. Positive numbers are up, negative numbers are down. The default is 0.
        - **`sprite.size`** — How big the sprite is. The default is 100, but it can be made bigger or smaller.
        - **`sprite.angle`** — How much the sprite is turned. Positive numbers are counter-clockwise. The default is 0 degrees (pointed to the right).
        - **`sprite.transparency`** — How see-through the sprite is from 0 to 100. 0 is completely see-through, 100 is not see-through at all. The default is 100.
        - **`sprite.left`** — The x position of the left-most part of the sprite.
        - **`sprite.right`** — The x position of the right-most part of the sprite.
        - **`sprite.top`** — The y position of the top-most part of the sprite.
        - **`sprite.bottom`** — The y position of the bottom-most part of the sprite.
        
        
        
        Image-sprite-only properties:
        
        - **`sprite.image`** — The filename of the image shown. If `None` is provided initially, a blank image will show up.
        
        Text-sprite-only properties:
        
        - **`text.words`** — The displayed text content. The default is `'hi :)'`.
        - **`text.font`** — The filename of the font e.g. 'Arial.ttf'. The default is `None`, which will use a built-in font.
        - **`text.font_size`** — The text's size. The default is `50` (pt).
        - **`text.color`** — The text's color. The default is black.
        
        Box-sprite-only properties:
        - **`box.color`** — The color filling the box. The default is `black`.
        - **`box.width`** — The width of the box. The default is `100` pixels.
        - **`box.height`** — The height of the box. The default is `200` pixels.
        - **`box.border_width`** — The width of the box's border, the line around it. The default is `0`.
        - **`box.border_color`** — The color of the box's border. The default is `'light blue'`.
        
        If the box has a border, the box's total width, including the border, will be the width defined by the `width` property.
        
        Circle-sprite-only properties:
        - **`circle.color`** — The color filling the circle. The default is `black`.
        - **`circle.radius`** — How big the circle is, measured from the middle to the outside. The default is `100` pixels, making a 200-pixel-wide circle.
        - **`circle.border_width`** — The width of the circle's border, the line around it. The default is `0`.
        - **`circle.border_color`** — The color of the circle's border. The default is `'light blue'`.
        
        If the circle has a border, the circle's total width, including the border, will be the width defined by the `radius` property.
        
        
        def new_line(color='black', x=0, y=0, length=None, angle=None, thickness=1, x1=None, y1=None, transparency=100, size=100):
        
        Line-sprite-only properties:
        - **`line.color`** — The line's color. The default is `black`.
        - **`line.length`** — How long the line is. Defaults to `100` (pixels).
        - **`line.angle`** — The angle the line points in. Defaults to `0` (degrees).
        - **`line.x1`** — The `x` coordinate of the end of the line.
        - **`line.y1`** — The `y` coordinate of the end of the line.
        
        For lines, the `x` and `y` coordinates are where the start of the line is. You can set either the `length` and `angle` or the `x1` and `y1` properties to change where the line points. If you update one, the others will be updated automatically.
        
        
        
        These properties can changed to do the same things as the sprite commands above. For example,
        
        ```python
        sprite.go_to(other_sprite)
        
        # the line above is the same as the two lines below
        
        sprite.x = other_sprite.x
        sprite.y = other_sprite.y
        ```
        
        You can change the properties to animate the sprites. The code below makes the cat turn around.
        
        ```python
        cat = play.new_text('=^.^=')
        
        @play.repeat_forever
        def do():
            cat.angle += 1
            # the line above is the same as cat.turn(1)
        ```
        
        
        
        
        #### Other info
        
        Sprites also have some other useful info:
        
        - **`sprite.width`** — Gets how wide the sprite is in pixels.
        - **`sprite.height`** — Gets how tall the sprite is in pixels.
        - **`sprite.distance_to(other_sprite)`** — Gets the distance in pixels to `other_sprite`.
        - **`sprite.distance_to(x=100, y=100)`** — Gets the distance to the point x=100, y=100.
        - **`sprite.is_clicked()`** — Returns True if the sprite has just been clicked, otherwise returns False.
        - **`sprite.is_hidden()`** — Returns True if the sprite has been hidden with the `sprite.hide()` command. Otherwise returns False.
        - **`sprite.is_shown()`** — Returns True if the sprite has not been hidden with the `sprite.hide()` command. Otherwise returns False.
        - **`sprite.is_touching(other_sprite)`** — Returns True if the sprite is touching the other sprite. Otherwise returns False.
        - **`sprite.is_touching(point)`** — Returns True if the sprite is touching the point. For example: `sprite.is_touching(play.mouse)`
        
        
        
        
        
        
        
        ## Mouse Commands
        
        Working with the mouse in Python Play is easy. Here's a simple program that points a sprite at the mouse:
        
        ```python
        arrow = play.new_text('-->', font_size=100)
        
        @play.repeat_forever
        def do():
            arrow.point_towards(play.mouse)
        ```
        
        `play.mouse` has the following properties:
        
        - **`play.mouse.x`** — The horizontal x position of the mouse.
        - **`play.mouse.y`** — The vertical y position of the mouse.
        - **`play.mouse.is_clicked()`** — Returns `True` if the mouse is clicked down, or `False` if it's not.
        - **`play.mouse.is_touching(sprite)`** — Returns `True` if the mouse is touching a sprite, or `False` if it's not.
        
        
        
        #### `@sprite.when_clicked`
        
        Probably the easiest way to detect clicks is to use `@sprite.when_clicked`.
        
        In the program below, when the face is clicked it changes for 1 second then turns back to normal:
        
        ```python
        face = play.new_text('^.^', font_size=100)
        
        @face.when_clicked
        async def do():
            face.words = '*o*'
            await play.timer(seconds=1)
            face.words = '^.^'
        ```
        
        
        
        
        #### `@play.when_sprite_clicked()`
        
        If you wanted to run the same code when multiple sprites are clicked, you can use `@play.when_sprite_clicked()`:
        
        ```python
        face1 = play.new_text('^.^', x=-100, font_size=100)
        face2 = play.new_text('^_^', x=100, font_size=100)
        
        @play.when_sprite_clicked(face1, face2) # takes as many sprites as you want
        async def do(sprite):
            starting_words = sprite.words
            sprite.words = '*o*'
            await play.timer(seconds=1)
            sprite.words = starting_words
        ```
        
        In the above program, clicking `face1` or `face2` will run the code for each sprite separately. Note that the function is defined with a parameter e.g. `def do(sprite):` instead of just `def do():`.
        
        
        #### `@play.mouse.when_clicked` or `@play.when_mouse_clicked`
        
        To run code when the mouse is clicked anywhere, use `@play.mouse.when_clicked` or `@play.when_mouse_clicked` (they do the same exact thing).
        
        In the code below, when a click is detected, the text will move to the click location and the coordinates will be shown:
        
        ```python
        text = play.new_text('0, 0')
        
        @play.mouse.when_clicked
        def do():
            text.words = f'{play.mouse.x}, {play.mouse.y}'
            text.go_to(play.mouse)
        ```
        
        #### `@play.mouse.when_click_released` or `@play.when_click_released`
        
        To run code when the mouse button is released, use `@play.mouse.when_click_released` `@play.when_click_released` (they do the same exact thing).
        
        In the code below, the cat can be dragged around when it's clicked by the mouse:
        
        ```python
        cat = play.new_text('=^.^= drag me!')
        cat.is_being_dragged = False
        
        @cat.when_clicked
        def do():
            cat.is_being_dragged = True
        
        @play.mouse.when_click_released
        def do():
            cat.is_being_dragged = False
        
        @play.repeat_forever
        def do():
            if cat.is_being_dragged:
                cat.go_to(play.mouse)
        ```
        
        
        
        
        
        
        ## Keyboard Commands
        
        
        #### `play.key_is_pressed()`
        
        You can use `play.key_is_pressed()` to detect keypresses.
        
        In the code below, pressing the `arrow` keys or `w/a/s/d` will make the cat go in the desired direction.
        
        ```python
        cat = play.new_text('=^.^=')
        
        @play.repeat_forever
        def do():
            if play.key_is_pressed('up', 'w'):
                cat.y += 15
            if play.key_is_pressed('down', 's'):
                cat.y -= 15
        
            if play.key_is_pressed('right', 'd'):
                cat.x += 15
            if play.key_is_pressed('left', 'a'):
                cat.x -= 15
        ```
        
        #### `@play.when_key_pressed()`
        
        You can use `@play.when_key_pressed()` to run code when specific keys are pressed.
        
        In the code below, pressing the `space` key will change the cat's face, and pressing the `enter` key will change it to a different face.
        
        ```python
        cat = play.new_text('=^.^=')
        
        @play.when_key_pressed('space', 'enter') # if either the space key or enter key are pressed...
        def do(key):
            if key == 'enter':
                cat.words = '=-.-='
            if key == 'space':
                cat.words = '=*_*='
        ```
        
        
        
        
        #### `@play.when_any_key_pressed`
        
        If you just want to detect when any key is pressed, you can use `@play.when_any_key_pressed`.
        
        In the code below, any key you press will be displayed on the screen:
        
        ```python
        text = play.new_text('')
        
        @play.when_any_key_pressed
        def do(key):
            text.words = f'{key} pressed!'
        ```
        
        #### `@play.when_key_released`
        
        Exactly like `@play.when_key_pressed` but runs the code when specific keys are released.
        
        In the code below, text will appear on screen only if the `up` arrow is pressed.
        
        ```python
        text = play.new_text('')
        
        @play.when_key_released('up')
        async def do(key):
            text.words = 'up arrow released!'
            await play.timer(seconds=1)
            text.words = ''
        ```
        
        #### `@play.when_any_key_released`
        
        Exactly like `@play.when_any_key_pressed` but runs the code when any key is released.
        
        In the code below, the name of the most recently released key will show up on screen.
        
        ```python
        text = play.new_text('')
        
        @play.when_any_key_pressed
        def do(key):
            text.words = f'{key} key released!''
        ```
        
        
        ## Other Useful Commands
        
        
        #### `play.screen`
        
        The way to get information about the screen. `play.screen` has these properties:
        
        - `play.screen.width` - Defaults to 800 (pixels total).
        - `play.screen.height` - Defaults to 600 (pixels total).
        - `play.screen.left` - `x` coordinate for the left edge of the screen.
        - `play.screen.right` - `x` coordinate for the right edge of the screen.
        - `play.screen.top` - `y` coordinate for the top of the screen.
        - `play.screen.bottom` - `y` coordinate for the bottom of the screen.
        
        
        #### `play.all_sprites`
        
        A list of all the sprites (images, shapes, text) in the program.
        
        
        #### `play.random_number()`
        
        A function that makes random numbers.
        
        If two whole numbers are given, `play.random_number()` will give a whole number back:
        
        ```python
        play.random_number(lowest=0, highest=100)
        
        # example return value: 42
        ```
        (You can also do `play.random_number(0, 100)` without `lowest` and `highest`.)
        
        If non-whole numbers are given, non-whole numbers are given back:
        
        ```python
        play.random_number(0, 1.0)
        # example return value: 0.84
        ```
        
        `play.random_number()` is also inclusive, which means `play.random_number(0,1)` will return `0` and `1`.
        
        
        #### `play.random_color()`
        
        Returns a random RGB color, including white and black.
        
        ```python
        play.random_color()
        # example return value: (201, 17, 142)
        ```
        
        Each value varies from 0 to 255.
        
        #### `play.random_place()`
        
        Returns a random position on the screen. A position object has an `x` and `y` component.
        
        ```python
        text = play.text('WOO')
        @play.repeat_forever
        def do():
            text.go_to(play.random_place())
        
            # the above is equivalent to:
            position = play.random_place()
            text.x = position.x
            text.y = position.y
        ```
        
        #### `play.repeat()`
        
        `play.repeat()` is the same as Python's built-in `range` function, except it starts at 1. 'Repeat' is just a friendlier and more descriptive name than 'range'.
        
        ```python
        list(play.repeat(10))
        # return value: [1, 2, 3, 4, 5, 6, 7, 8, 9, 10]
        ```
        
        #### `await play.animate()`
        
        When used in a loop, this command will animate any sprite changes that happen.
        
        ```python
        cat = play.new_text('=^.^=')
        
        @play.when_program_starts
        async def do():
            for count in play.repeat(360):
                cat.turn(1)
                await play.animate()
        ```
        
        `await play.animate()` is the same as `await asyncio.sleep(0)` except it has a friendlier name for beginners.
        
        
        ## What's with all this `async`/`await` stuff? Is this Python?
        
        Yes, this is Python! Python added `async` and `await` as special keywords in Python 3.7. It's part of the [asyncio module](https://docs.python.org/3/library/asyncio.html).
        
        Using async functions means we can use the `await play.timer()` and `await play.animate()` functions, which makes some code a lot simpler and appear to run in-parallel, which new programmers find intuitive.
        
        ```python
        import play
        
        cat = play.new_text('=^.^=')
        
        # this code block uses async so it can use the 'await play.timer()' function
        @play.repeat_forever
        async def change_bg():
            play.set_backdrop('pink')
            await play.timer(seconds=1)
        
            play.set_backdrop('purple')
            await play.timer(seconds=1)
        
            play.set_backdrop('light blue')
            await play.timer(seconds=1)
        
        # this code block doesn't need async because it doesn't have `await play.timer()` or `await play.animate()`
        @play.repeat_forever
        def do():
            cat.turn(1)
        
        play.start_program()
        ```
        
        In the above program, the backdrop will change and the cat will appear to turn at the same time even though the code is running single-threaded.
        
        The `async` keyword isn't necessary to write unless you want to use `await` functions. If you try to use an `await` command inside a non-async function, Python will show you an error like this:
        
        ```  
          File "example.py", line 31
            await play.timer(seconds=1)
            ^
        SyntaxError: 'await' outside async function
        ```
        To fix that error, just put `async` before `def`.
        
        If you don't understand any of this, it's generally safe to just include `async` before `def`.
        
        ## Why use Python Play?
        
        Python Play was designed to be an excellent starting point for brand new programmers. The goal of the project is to give someone that has never programmed before a compelling and succesful experience in their first few minutes of programming. We aimed to make graphics programming as accessible as possible to as young an audience as possible.
        
        We found that many existing programming languages and graphics libraries presented unnecessary difficulties for new programmers — difficulties making simple things happen, confusing language, confusing program flow, unexplained concepts, etc. We know that even one initial disagreeable experience can turn people away from programming forever, and we wanted to prevent that outcome as much as possible.
        
        Python Play was inspired by [MIT's Scratch](https://scratch.mit.edu), which has introduced millions of children and adults to programming and helped them to create and share personally meaningful computational projects. In fact, Python Play's main designer worked on Scratch professionally for a brief period. But we found that for some learners, Scratch — with its graphical blocks and colorful interface — didn't feel like "real programming". For those learners wishing to use a mainstream textual programming language while removing the difficulties of graphics programming in these languages, we made Python Play.
        
        
        Python Play was designed with the following principles in mind:
        
        - No boilerplate - every line of code should do something meaningful and understandable. We want to limit the number of times a learner needs to ask "why do we have to include this line of code?"
        
        - As much as possible, commands should have immediate visual effects. For example, if a programmer types a `new_sprite` command the sprite should show up immediately on the screen, they shouldn't need to understand the invisible distinction between initializing a sprite and drawing the sprite.
        
        - Lines of code should be easily copy and pasted.
        
        - Command values should have descriptive labels that make it as clear as possible what the value means. Instead of `play.new_sprite('character.png', 50, 100)`, `play.new_sprite(image='character.png', x=50, y=100)`.
        
        - Use plain English as much as possible. For mathematical concepts, try to use language programmers might see in math classes. Try to use short names that are easier for younger people to type and spell. Make errors as clear and constructive as possible. Many of the commands and names were borrowed from Scratch, whose designers have spent decades working with children and observing what language makes sense to them.
        
        
        Python Play was also designed with a custom Repl.it IDE in mind (coming soon), one that significantly lowers the usability problems of programming (installing the language, using a text editor, using the terminal, running programs, showing which commands are available, etc).
        
        While the learning curve for Python and Python Play are still far from ideal for new programmers, we still think Python Play provides a great way for new programmers to start programming with graphics.
        
        <3
        
Platform: UNKNOWN
Classifier: License :: OSI Approved :: MIT License
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.7
Requires-Python: >=3.5
Description-Content-Type: text/markdown
