What games are made with python code?
Today we’re going to learn how to code some easy games in Python using a few common Python modules. Why are we using Python? Python is a well-known programming language. Python is very easy to understand and code. It is believed to be developer-friendly. Any beginner can learn to code in python within a short span of
time. Some of most interesting features of this language are as follows : Let’s now implement some easy games in Python that you can build as a beginner to get a headstart in your learning curve! This is a very simple text-based game in python. It a small quiz which you can make for yourself
as well or your friends. We do not need to import any modules for this game which makes it easier! Try it yourself 😉 Here are use: Output: Welcome to AskPython Quiz Are you ready to play the Quiz ? (yes/no) :yes Question 1: What is your Favourite programming language?python correct Question 2: Do you follow any author on AskPython? yes correct Question 3: What is the name of your favourite website for learning Python?askpython correct Thankyou for Playing this small quiz game, you attempted 3 questions correctly! Marks obtained: 100.0 BYE! 2. Pong Game in PythonMost of us have heard about the famous pong game. Many of us love playing it. Today lets learn how to code this classic game using the python programming language! Before starting with the coding part we first need to install the turtle module. The turtle module is a Python library that enables users to create pictures and shapes by providing them with a virtual canvas. If you don’t already have it, you can install the library using pip. C:\Users\Admin>pip install turtle Read more about the turtle library in their official documentation. Try the code yourself! import turtle as t playerAscore=0 playerBscore=0 #create a window and declare a variable called window and call the screen() window=t.Screen() window.title("The Pong Game") window.bgcolor("green") window.setup(width=800,height=600) window.tracer(0) #Creating the left paddle leftpaddle=t.Turtle() leftpaddle.speed(0) leftpaddle.shape("square") leftpaddle.color("white") leftpaddle.shapesize(stretch_wid=5,stretch_len=1) leftpaddle.penup() leftpaddle.goto(-350,0) #Creating the right paddle rightpaddle=t.Turtle() rightpaddle.speed(0) rightpaddle.shape("square") rightpaddle.color("white") rightpaddle.shapesize(stretch_wid=5,stretch_len=1) rightpaddle.penup() rightpaddle.goto(-350,0) #Code for creating the ball ball=t.Turtle() ball.speed(0) ball.shape("circle") ball.color("red") ball.penup() ball.goto(5,5) ballxdirection=0.2 ballydirection=0.2 #Code for creating pen for scorecard update pen=t.Turtle() pen.speed(0) pen.color("Blue") pen.penup() pen.hideturtle() pen.goto(0,260) pen.write("score",align="center",font=('Arial',24,'normal')) #code for moving the leftpaddle def leftpaddleup(): y=leftpaddle.ycor() y=y+90 leftpaddle.sety(y) def leftpaddledown(): y=leftpaddle.ycor() y=y+90 leftpaddle.sety(y) #code for moving the rightpaddle def rightpaddleup(): y=rightpaddle.ycor() y=y+90 rightpaddle.sety(y) def rightpaddledown(): y=rightpaddle.ycor() y=y+90 rightpaddle.sety(y) #Assign keys to play window.listen() window.onkeypress(leftpaddleup,'w') window.onkeypress(leftpaddledown,'s') window.onkeypress(rightpaddleup,'Up') window.onkeypress(rightpaddledown,'Down') while True: window.update() #moving the ball ball.setx(ball.xcor()+ballxdirection) ball.sety(ball.ycor()+ballxdirection) #border set up if ball.ycor()>290: ball.sety(290) ballydirection=ballydirection*-1 if ball.ycor()<-290: ball.sety(-290) ballydirection=ballydirection*-1 if ball.xcor() > 390: ball.goto(0,0) ball_dx = ball_dx * -1 player_a_score = player_a_score + 1 pen.clear() pen.write("Player A: {} Player B: {} ".format(player_a_score,player_b_score),align="center",font=('Monaco',24,"normal")) os.system("afplay wallhit.wav&") if(ball.xcor()) < -390: # Left width paddle Border ball.goto(0,0) ball_dx = ball_dx * -1 player_b_score = player_b_score + 1 pen.clear() pen.write("Player A: {} Player B: {} ".format(player_a_score,player_b_score),align="center",font=('Monaco',24,"normal")) os.system("afplay wallhit.wav&") # Handling the collisions with paddles. if(ball.xcor() > 340) and (ball.xcor() < 350) and (ball.ycor() < rightpaddle.ycor() + 40 and ball.ycor() > rightpaddle.ycor() - 40): ball.setx(340) ball_dx = ball_dx * -1 os.system("afplay paddle.wav&") if(ball.xcor() < -340) and (ball.xcor() > -350) and (ball.ycor() < leftpaddle.ycor() + 40 and ball.ycor() > leftpaddle.ycor() - 40): ball.setx(-340) ball_dx = ball_dx * -1 os.system("afplay paddle.wav&") Output: Pong Game3. Hungry Snake Game in PythonThis was most of our favorite game when we were kids. We can actually code this game in python by importing just two modules! How cool is that! Let’s get started! Firstly, we need to install turtle. If you don’t have it already installed, open your cmd and type in the following command. C:\Users\Admin>pip install turtle Now we will install the random module. The random module is used to generate random numbers. In your cmd type in the following command. C:\Users\Admin>pip install random2 Code and Try it yourself and enjoy the game! import turtle import random w = 500 h = 500 food_size = 10 delay = 100 offsets = { "up": (0, 20), "down": (0, -20), "left": (-20, 0), "right": (20, 0) } def reset(): global snake, snake_dir, food_position, pen snake = [[0, 0], [0, 20], [0, 40], [0, 60], [0, 80]] snake_dir = "up" food_position = get_random_food_position() food.goto(food_position) move_snake() def move_snake(): global snake_dir new_head = snake[-1].copy() new_head[0] = snake[-1][0] + offsets[snake_dir][0] new_head[1] = snake[-1][1] + offsets[snake_dir][1] if new_head in snake[:-1]: reset() else: snake.append(new_head) if not food_collision(): snake.pop(0) if snake[-1][0] > w / 2: snake[-1][0] -= w elif snake[-1][0] < - w / 2: snake[-1][0] += w elif snake[-1][1] > h / 2: snake[-1][1] -= h elif snake[-1][1] < -h / 2: snake[-1][1] += h pen.clearstamps() for segment in snake: pen.goto(segment[0], segment[1]) pen.stamp() screen.update() turtle.ontimer(move_snake, delay) def food_collision(): global food_position if get_distance(snake[-1], food_position) < 20: food_position = get_random_food_position() food.goto(food_position) return True return False def get_random_food_position(): x = random.randint(- w / 2 + food_size, w / 2 - food_size) y = random.randint(- h / 2 + food_size, h / 2 - food_size) return (x, y) def get_distance(pos1, pos2): x1, y1 = pos1 x2, y2 = pos2 distance = ((y2 - y1) ** 2 + (x2 - x1) ** 2) ** 0.5 return distance def go_up(): global snake_dir if snake_dir != "down": snake_dir = "up" def go_right(): global snake_dir if snake_dir != "left": snake_dir = "right" def go_down(): global snake_dir if snake_dir!= "up": snake_dir = "down" def go_left(): global snake_dir if snake_dir != "right": snake_dir = "left" screen = turtle.Screen() screen.setup(w, h) screen.title("Snake") screen.bgcolor("blue") screen.setup(500, 500) screen.tracer(0) pen = turtle.Turtle("square") pen.penup() food = turtle.Turtle() food.shape("square") food.color("yellow") food.shapesize(food_size / 20) food.penup() screen.listen() screen.onkey(go_up, "Up") screen.onkey(go_right, "Right") screen.onkey(go_down, "Down") screen.onkey(go_left, "Left") reset() turtle.done() Output: ConclusionAnd that’s it! These are some of the easy games in Python that you can create as a beginner and have some fun! We loved building these projects and we hope you do too! |