Day three of our Pong celebration leads us here, to HackSpace magazine’s ultrasonic hack of Eben’s Code the Classics Pong tribute, Boing!
If you haven’t yet bought your copy of Code the Classics, you have until 11:59pm GMT tonight to get £1 off using the discount code PONG. Click here to visit the Raspberry Pi Press online store to secure your copy, and read on to see how you can use ultrasonic sensors to turn this classic game into something a lot more physical.
Over to the HackSpace magazine team…
Code the Classics is an entertaining book for a whole bunch of reasons, but one aspect of it that is particularly exciting to us makers is that it means there are some games out there that are really fun to play, but also written to be easy to understand and have high-quality game art to go along with them. Why does this excite us as makers? Because it makes them ideal candidates for testing out novel DIY games controllers!
We’re going to start right at the beginning of the book (and also at the beginning of computer game history) with the game Pong. There’s a great chapter on this seminal game in the book, but we’ll dive straight into the source code of our Boing! tribute game. This code should run on any computer with Python 3 (and a few dependencies) installed, but we’ll use a Raspberry Pi, as this has GPIO pins that we can use to add on our extra controller.
Download the code here by clicking the ‘Clone or download’ button, and then ‘Download ZIP’. Unzip the downloaded file, and you should have a directory called
Code‑The‑Classics-master, and inside this, a directory called
Open a terminal and navigate to this directory, then run:
If everything works well, you’ll get a screen asking you to select one or two players – press SPACE to confirm your selection, and have a play.
Hacking Code the Classics
So that’s how Eben Upton designed the game to be played. Let’s put our own spin on it. Games controllers are basically just sensors that take input from the real world in some way and translate that into in-game actions. Most commonly, these sensors are buttons that you press, but there’s no need for that to be the case. You can use almost any sensor you can get input from – it sounds trite, but the main limitation really is your imagination!
We were playing with ultrasonic distance sensors in the last issue of HackSpace magazine, and this sprung to mind a Pong controller. After all, distance sensors measure in one dimension and Pong bats travel in one dimension.
Last issue we learned that the main challenge when using the cheap HC-SR04 sensors with 3.3V devices is that they use 5V, so we need to reduce their output to 3.3V. A simple voltage divider does the trick, and we used three 330Ω resistors to achieve this – see Figure 1 for more details.
There’s support for these sensors in the GPIO Zero Python library. As a simple test, you can obtain the distance with the following Python code:
import gpiozero import time sensor = gpiozero.DistanceSensor(echo=15,trigger=14) while True: print(sensor.distance) time.sleep(0.1)
That will give you a constant read-out of the distance between the ultrasonic sensor and whatever object is in front of it. If you wave your hand around in front of the sensor, you’ll see the numbers changing from 0 to 1, which is the distance in metres.
So far, so straightforward. We only need to add a few bits to the code of our Boing! game to make it interact with the sensor. You can download an updated version of Boing! here, but the changes are as follows.
Add this line to the import statements at the top:
Add this line to instantiate the distance sensor object at the end of the file (just before
p1_distance = DistanceSensor(echo=15,trigger=14,queue_len=5)
We added the queue_len parameter to get the distances through a little quicker.
Finally, overwrite the p1_controls function with the following:
def p1_controls(): move = 0 distance = p1_distance.distance print(distance) if distance < 0.1: move = PLAYER_SPEED elif distance > 0.2: move = -PLAYER_SPEED return move
This uses the rather arbitrary settings of 10 cm and 20 cm to define whether the paddle moves up or down. You can adjust these as required.
That’s all there is to our ultrasonic Pong. It’s great fun to play, but there are, no doubt, loads of other versions of this classic game you can make by adding different sensors. Why not see what you can come up with?
Code the Classics
Today is the last day to get £1 off Code the Classics with the promo code PONG, so visit the Raspberry Pi Press online store to order your discounted copy before 11:59pm GMT tonight.
You can also download Code the Classics as a free PDF here, but the book, oh, the book – it’s a marvellous publication that deserves a physical presence in your home.
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