Pseudocode

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This is a basic concept in computer science

Pseudocodean informal high-level description of the operating principle of a computer program or other algorithm. is an informal high-level description of the operating principle of a computer program or other algorithm. It uses the structural conventions of a normal programming language, but is intended for human reading rather than machine reading.[1]

Pseudocodean informal high-level description of the operating principle of a computer program or other algorithm. is a simple way of writing programming code in English. Pseudocodean informal high-level description of the operating principle of a computer program or other algorithm. is not actual programming language. It uses short phrases to write code for programs before you actually create it in a specific language. Once you know what the program is about and how it will function, then you can use pseudocode to create statements to achieve the required results for your program.[2]

Official IB pseudocode guide

There are two different versions of the IB Pseudocodean informal high-level description of the operating principle of a computer program or other algorithm. guide:

Common psuedocode verbs

Common Action Keywords[3]

Several keywords are often used to indicate common input, output, and processing operations.

  • Input: READ, OBTAIN, GET
  • Output: PRINT, DISPLAY, SHOW
  • Compute: COMPUTE, CALCULATE, DETERMINE
  • Initialize: SET, INIT
  • Add one: INCREMENT, BUMP

Examples of pseudocode

[4] Example 1:

If student's grade is greater than or equal to 60

Print "passed"
else
Print "failed"

Question for you to think about:

  • What do you notice about the structure of this code?
  • Could you program this in Python or PHP?


[5] Example 2:

Set total to zero

Set grade counter to one

While grade counter is less than or equal to ten

Input the next grade
Add the grade into the total
Set the class average to the total divided by ten

Print the class average.

Do you understand this?

Review the python code below and then re-type it in pseudocode. There is a suggested answer to this below.


Please paste and run this code into your Python IDE :

import random
secret_number = random.randint(0,100)
guess = 0
game = 1 
while True: 
    print("This is guess: " + str(guess))
    print("This is game: " + str(game))
    players_guess = input("I'm thinking of a number between 1 and 100. What is your guess: ")
    if players_guess == secret_number:
        print("You won!")
        play_again = raw_input("Do you want to play again (Y or N)? ")
        if play_again == "Y" or play_again == "y" or play_again == "yes":
            guess == 0
            game = game + 1
            secret_number = random.randint(0,100)
        else:    
            break
    elif players_guess < secret_number:
        print("This guess is to low.")
        guess = guess + 1
    elif players_guess > secret_number: 
         print("This guess is to high")
         guess = guess + 1

Please see below for a possible solution to this:


Click the expand link to see one possible solution, but NOT before you have tried and failed! The solution below was graciously provided by Emiko, an 8th grade student in 2016.


Pick a random number.
Set the secret number to a number that is between 0  and 100.
Set the number of guesses to start with.
Set the number of games to 1.
While true, print ("This is guess: " +(number of guesses) and print ("This is game: + (number of games).
Obtain the player's guess by asking for an input of their guess.
If the player guessed the secret number, print ("You won!") and ask "do you want to play again?"
If play again is "y", set guess back to zero and add one to the number of games played. Also, choose another different random secret
number between 0 and 100. Else, if play again is no, end or break the code.
If the player's guess is is lower than the secret number, print ("The guess is too low.") and add one to the number of guesses.
Else, if the number is higher than the secret number, print ("This guess is too high.") and add one to the number of guesses.


Why is this so important?

When you are first building a program, we don't really care about the actual LANGUAGE or SYNTAX you will use. Rather, we care about your logic. Pseudocodean informal high-level description of the operating principle of a computer program or other algorithm. helps you by forcing you to think logically rather than about syntax.

References