lecture6

lecture6

Welcome!

  • In previous weeks, you were introduced to the fundamental building blocks of programming.
  • You learned about programming in a lower-level programming language called C.
  • Today, we are going to work with a higher-level programming language called Python.
  • As you learn this new language, you’re going to find that you are going to be more able to teach yourself new programming languages.

Python

  • Humans, over the decades, have seen how previous design decisions could be improved upon.
  • Python is a programming language that builds upon what you have already learned in C.

Hello

  • Up until this point, the code has looked like this:

    // A program that says hello to the world
    
    #include <stdio.h>
    
    int main(void) {
        printf("hello, world\n");
    }
    
  • Today, you’ll find that the process of writing and compiling code has been simplified.

  • For example, the above code will be rendered in Python as:

    # A program that says hello to the world
    
    print("hello, world")
    

    Notice that the semicolon is gone.

  • In C, you might remember this code:

    // get_string and printf with %s
    
    #include <cs50.h>
    #include <stdio.h>
    
    int main(void) {
        string answer = get_string("What's your name? ");
        printf("hello, %s\n", answer);
    }
    
  • This code is transformed in Python to:

    # get_string and print, with concatenation
    
    from cs50 import get_string
    
    answer = get_string("What's your name? ")
    print("hello, " + answer)
    

    You can write this code by executing code hello.py in the terminal window. Then, you can execute this code by running python hello.py. Notice how the + sign concatenates "hello, " and answer.

  • Similarly, you could implement the above code as:

    # get_string and print, with format strings
    
    from cs50 import get_string
    
    answer = get_string("What's your name? ")
    print(f"hello, {answer}")
    

    Notice how the curly braces allow for the print function to interpolate the answer such that answer appears within.

Types

  • Data types in Python do not need to be explicitly declared. For example, you saw how answer above is a string, but we did not have to tell the interpreter this was the case: It knew on its own.

  • In Python, commonly used types include:

    Notice that long and double are missing. Python will handle what data type should be used for larger and smaller numbers.

  • Some other data types in Python include:

    bool
      float
      int
      str
    
  • Each of these data types can be implemented in C, but in Python they can be implemented more simply.

Speller

  • To illustrate this simplicity, let’s type ‘code dictionary.py’ in the terminal window and write code as follows:

    range
      list
      tuple
      dict
      set
    

    Notice that there are four functions above. In the check function, if a word is in words, it returns True. So much easier than an implementation in C! Similarly, in the load function the dictionary file is opened. For each line in that file, we add that line to words. Using rstrip, the trailing new line is removed from the added word. size simply returns the len or length of words. unload only needs to return True because Python handles memory management on its own.

  • The above code illustrates why higher-level languages exist: To simplify and allow you to write code more easily.

  • However, speed is a tradeoff. Because C allows you, the programmer, to make decisions about memory management, it may run faster than Python – depending on your code. While C only runs your lines of code, Python runs all the code that comes under the hood with it when you call Python’s built-in functions.

  • You can learn more about functions in the Python documentation

Image Recognition

  • Numerous libraries have been written by contributors to Python.
  • You can utilize these libraries in your own code.
  • For example, you could simply import facial recognition utilizing a Python library like PIL.
  • David provided a demo of facial recognition utilizing Python and third-party libraries.

CS50 Library

  • As with C, the CS50 library can be utilized within Python.

  • The following functions will be of particular use:

    # Words in dictionary
    words = set()
    
    def check(word):
        """Return true if word is in dictionary else false"""
        if word.lower() in words:
            return True
        else:
            return False
    
    def load(dictionary):
        """Load dictionary into memory, returning true if successful else false"""
        file = open(dictionary, "r")
        for line in file:
            word = line.rstrip()
            words.add(word)
        file.close()
        return True
    
    def size():
        """Returns number of words in dictionary if loaded else 0 if not yet loaded"""
        return len(words)
    
    def unload():
        """Unloads dictionary from memory, returning true if successful else false"""
        return True
    
  • You also have the option of importing only specific functions from the CS50 library as follows:

    get_float
      get_int
      get_string
    

Conditionals

  • In C, you might remember a program like this:

    from CS50 import get_float, get_int, get_string
    
  • In Python, it would appear as follows:

    // Conditionals, Boolean expressions, relational operators
    
    #include <cs50.h>
    #include <stdio.h>
    
    int main(void) {
        // Prompt user for integers
        int x = get_int("What's x? ");
        int y = get_int("What's y? ");
    
        // Compare integers
        if (x < y)
        {
            printf("x is less than y\n");
        }
        else if (x > y)
        {
            printf("x is greater than y\n");
        }
        else
        {
            printf("x is equal to y\n");
        }
    }
    

    Notice that there are no more curly braces. Instead, indentations are utilized. Second, a colon is utilized in the if statement. Further, elif replaces else if. Parentheses are also no longer required in the if and elif statements.

Variables

  • Variable declaration is simplified too. In C, you might have int counter = 1;. In Python, this same line would read counter = 1. You need not declare the type of the variable.
  • Python favors counter += 1 to increment by one, losing the ability found in C to type counter++.

Loops

  • Loops in Python are very similar to C. You may recall the following code in C:

    # Conditionals, Boolean expressions, relational operators
    
    from cs50 import get_int
    
    # Prompt user for integers
    x = get_int("What's x? ")
    y = get_int("What's y? ")
    
    # Compare integers
    if x < y:
        print("x is less than y")
    elif x > y:
        print("x is greater than y")
    else:
        print("x is equal to y")
    
  • In Python, this code appears as:

    // Demonstrates while loop
    
    #include <stdio.h>
    
    int main(void) {
        int i = 0;
        while (i < 3)
        {
            printf("meow\n");
            i++;
        }
    }
    
  • for loops can be implemented in Python as follows:

    # Demonstrates while loop
    
    i = 0
    while i < 3:
        print("meow")
        i += 1
    
  • Similarly, one could express the above code as:

    # Better design
    
    for i in range(3):
        print("meow")
    

    Notice that a function is utilized to abstract away the meowing.

Calculator

  • We can implement a simple calculator just as we did within C. Type code calculator.py into the terminal window and write code as follows:

    # Abstraction with parameterization
    
    def main():
        meow(3)
    
    # Meow some number of times
    def meow(n):
        for i in range(n):
            print("meow")
    
    
    main()
    

    Notice how the CS50 library is imported. Then, x and y are gathered from the user. Finally, the result is printed. Notice that the main function that would have been seen in a C program is gone entirely! While one could utilize a main function, it is not required.

  • It’s possible for one to remove the training wheels of the CS50 library. Modify your code as follows:

    # Addition with int [using get_int]
    
    from cs50 import get_int
    
    # Prompt user for x
    x = get_int("x: ")
    
    # Prompt user for y
    y = get_int("y: ")
    
    # Perform addition
    print(x + y)
    

    Notice how executing the above code results in strange program behavior. Why might this be so?

  • You may have guessed that the interpreter understood x and y to be strings. You can fix your code by employing the int function as follows:

    # Addition with int [using input]
    
    # Prompt user for x
    x = input("x: ")
    
    # Prompt user for y
    y = input("y: ")
    
    # Perform addition
    print(x + y)
    

    Notice how the input for x and y is passed to the int function which converts it to an integer.

  • We can expand the abilities of our calculator. Modify your code as follows:

    # Addition with int [using input]
    
    # Prompt user for x
    x = int(input("x: "))
    
    # Prompt user for y
    y = int(input("y: "))
    
    # Perform addition
    print(x + y)
    

    Notice that executing this code results in a value, but that if you were to see more digits after .333333 you’d see that we are faced with floating-point imprecision.

  • We can reveal this imprecision by modifying our codes slightly:

    # Division with integers, demonstration lack of truncation
    
    # Prompt user for x
    x = int(input("x: "))
    
    # Prompt user for y
    y = int(input("y: "))
    
    # Divide x by y
    z = x / y
    print(z)
    

    Notice that this code reveals the imprecision. Python still faces this issue, just as C does.

Compare

  • In C, we faced challenges when we wanted to compare two values. Consider the following code:

    # Floating-point imprecision
    
    # Prompt user for x
    x = int(input("x: "))
    
    # Prompt user for y
    y = int(input("y: "))
    
    # Divide x by y
    z = x / y
    print(f"{z:.50f}")
    
  • In Python, we can execute the above as follows:

    // Conditionals, Boolean expressions, relational operators
    
    #include <cs50.h>
    #include <stdio.h>
    
    int main(void) {
        // Prompt user for integers
        int x = get_int("What's x? ");
        int y = get_int("What's y? ");
    
        // Compare integers
        if (x < y)
        {
            printf("x is less than y\n");
        }
        else if (x > y)
        {
            printf("x is greater than y\n");
        }
        else
        {
            printf("x is equal to y\n");
        }
    }
    

    Notice that the CS50 library is imported. Further, minor changes exist in the if statement.

  • Further looking at comparisons, consider the following code in C:

    # Conditionals, Boolean expressions, relational operators
    
    from cs50 import get_int
    
    # Prompt user for integers
    x = get_int("What's x? ")
    y = get_int("What's y? ")
    
    # Compare integers
    if x < y:
        print("x is less than y")
    elif x > y:
        print("x is greater than y")
    else:
        print("x is equal to y")
    
  • The above can be implemented as follows:

    // Logical operators
    
    #include <cs50.h>
    #include <stdio.h>
    
    int main(void) {
        // Prompt user to agree
        char c = get_char("Do you agree? ");
    
        // Check whether agreed
        if (c == 'Y' || c == 'y')
        {
            printf("Agreed.\n");
        }
        else if (c == 'N' || c == 'n')
        {
            printf("Not agreed.\n");
        }
    }
    

    Notice that the two vertical bars utilized in C is replaced with or. Indeed, people often enjoy Python because it is more readable by humans. Also, notice that char does not exist in Python. Instead, strs are utilized.

  • Another approach to this same code could be as follows:

    # Logical operators
    
    from cs50 import get_string
    
    # Prompt user to agree
    s = get_string("Do you agree? ")
    
    # Check whether agreed
    if s == "Y" or s == "y":
        print("Agreed.")
    elif s == "N" or s == "n":
        print("Not agreed.")
    

    Notice how we are able to express multiple keywords like y and yes.

Object-Oriented Programming

  • Up until this point, our programs in this course have been linear: sequential.

  • It’s possible to have certain types of values not only have properties or attributes inside of them but have functions as well. In Python, these values are known as objects

  • In C, we could create a struct where you could associate multiple variables inside a single self-created data type. In Python, we can do this and also include functions in a self-created data type. When a function belongs to a specific object, it is known as a method.

  • For example, strs in Python have a built-in methods. Therefore, you could modify your code as follows:

    # Logical operators, using lists
    
    from cs50 import get_string
    
    # Prompt user to agree
    s = get_string("Do you agree? ")
    
    # Check whether agreed
    if s in ["y", "yes"]:
        print("Agreed.")
    elif s in ["n", "no"]:
        print("Not agreed.")
    

    Notice how we are able to express multiple keywords like y and yes and convert any user input to lowercase.

  • This could be further simplified as:

    # Logical operators, using lists
    
    from cs50 import get_string
    
    # Prompt user to agree
    s = get_string("Do you agree? ")
    
    # Check whether agreed
    if s.lower() in ["y", "yes"]:
        print("Agreed.")
    elif s.lower() in ["n", "no"]:
        print("Not agreed.")
    

    Notice how the old value of s is overwritten with the result of s.lower().

  • In this class, we will only scratch the surface of Python. Therefore, the Python documentation will be of particular importance as you continue.

  • You can learn more about string methods in the Python documentation

Meow

  • Returning to meow.c from weeks earlier, recall the following code:

    # Logical operators, using lists
    
    from cs50 import get_string
    
    # Prompt user to agree
    s = get_string("Do you agree? ")
    
    s = s.lower()
    
    # Check whether agreed
    if s in ["y", "yes"]:
        print("Agreed.")
    elif s in ["n", "no"]:
        print("Not agreed.")
    
  • The above can be implemented within Python as:

    // Demonstrates while loop
    
    #include <stdio.h>
    
    int main(void) {
        int i = 0;
        while (i < 3)
        {
            printf("meow\n");
            i++;
        }
    }
    
  • Similarly, using a for loop, we can write code as follows:

    # Demonstrates while loop
    
    i = 0
    while i < 3:
        print("meow")
        i += 1
    
  • As we hinted at earlier today, you can further improve upon this code using functions. Modify your code as follows:

    # Better design
    
    for i in range(3):
        print("meow")
    

    Notice that the meow function abstracts away the print statement. Further, notice that the main function appears at the top of the file. At the bottom of the file, the main function is called. By convention, it’s expected that you create a main function in Python.

  • Indeed, we can pass variables between our functions as follows:

    # Abstraction
    
    def main():
        for i in range(3):
            meow()
    
    # Meow once
    def meow():
        print("meow")
    
    
    main()
    

    Notice how meow now takes a variable n. In the main function, you can call meow and pass a value like 3 to it. Then, meow utilizes the value of n in the for loop.

  • Reading the above code, notice how you, as a C programmer, are able to quite easily make sense of the above code. While some conventions are different, the building blocks you previously learned are very apparent in this new programming language.

Mario

  • Recall a few weeks ago our challenge of building three blocks on top of one another, like in Mario.

  • In Python, we can implement something akin to this as follows:

    # Abstraction with parameterization
    
    def main():
        meow(3)
    
    # Meow some number of times
    def meow(n):
        for i in range(n):
            print("meow")
    
    
    main()
    
  • In C, we had the advantage of a do-while loop. However, in Python it is convention to utilize a while loop, as Python does not have a do while loop. You can write code as follows in a file called mario.py:

    # Prints a column of 3 bricks with a loop
    
    for i in range(3):
        print("#")
    

    Notice how the scope of n is everywhere in the get_height function once it is assigned a value. Further notice that by convention, there are double spaces between functions.

  • We can take away the training wheels of the CS50 library as follows:

    # Prints a column of bricks, using a helper function to get input
    
    from cs50 import get_int
    
    def main():
        height = get_height()
        for i in range(height):
            print("#")
    
    def get_height():
        while True:
            n = get_int("Height: ")
            if n > 0:
                return n
    
    
    main()
    

    Notice that try is utilized to attempt to convert n to an integer. If it cannot do so, an error is outputted.

  • Consider the following image:

  • In Python, we could implement by modifying your code as follows:

    # Prints a column of bricks, catching exceptions
    
    def main():
        height = get_height()
        for i in range(height):
            print("#")
    
    def get_height():
        while True:
            try:
                n = int(input("Height: "))
                if n > 0:
                    return n
            except ValueError:
                print("Not an integer")
    
    
    main()
    

    Notice that you can override the behavior of the print function to stay on the same line as the previous print.

  • Similar in spirit to previous iterations, we can further simplify this program:

    # Prints a row of 4 question marks with a loop
    
    for i in range(4):
        print("?", end="")
    print()
    

    Notice that we can utilize * to multiply the print statement to repeat 4 times.

  • What about a large block of bricks?

  • To implement the above, you can modify your code as follows:

    # Prints a row of 4 question marks without a loop
    
    print("?" * 4)
    

    Notice how one for loop exists inside another. The print statement adds a new line at the end of each row of bricks.

  • You can learn more about the print function in the Python documentation

Scores

  • lists are a data structure within Python.

  • lists have built in methods or functions within them.

  • For example, consider the following code:

    # Prints a 3-by-3 grid of bricks with loops
    
    for i in range(3):
        for j in range(3):
            print("#", end="")
        print()
    

    Notice that you can use the built-in append method, whereby you can append the score to the list. Also notice that we use the sum function to add all elements in the list.

  • You can even ultilize the following syntax:

    # Averages three numbers using a list and a loop
    
    from cs50 import get_int
    
    # Get scores
    scores = []
    for i in range(3):
        score = get_int("Score: ")
        scores.append(score)
    
    # Print average
    average = sum(scores) / len(scores)
    print(f"Average: {average}")
    

    Notice that += is utilized to append the score to the list. In this case we place square brackets around score because only a list can be added to another list using + or +=.

  • You can learn more about lists in the Python documentation

  • You can also learn more about len in the Python documentation

Uppercase

  • Similarly, consider the following code:

    # Averages three numbers using a list and a loop with + operator
    
    from cs50 import get_int
    
    # Get scores
    scores = []
    for i in range(3):
        score = get_int("Score: ")
        scores += [score]
    
    # Print average
    average = sum(scores) / len(scores)
    print(f"Average: {average}")
    

    Notice that each character is uppercased one at a time.

  • Python has a built-in method for strs. You could modify your code as follows:

    # Uppercases string one character at a time
    
    before = input("Before: ")
    print("After:  ", end="")
    for c in before:
        print(c.upper(), end="")
    print()
    

    Notice the upper method is utilized to uppercase the entire string at once.

Greet

  • As with C, you can also utilize command-line arguments. Consider the following code:

    # Uppercases string all at once
    
    before = input("Before: ")
    after = before.upper()
    print(f"After:  {after}")
    

    Notice that argv[1] is printed using a formatted string, noted by the f present in the print statement.

  • You can print all the arguments in argv as follows:

    # Prints a command-line argument
    
    from sys import argv
    
    if len(argv) == 2:
        print(f"hello, {argv[1]}")
    else:
        print("hello, world")
    

    Notice that the above will not present the word python if executed, and the first argument will be the name of the file you are running. You can think of the word python as being analogous to ./ when we were running programs in C.

  • You can slice pieces of lists away. Consider the following code:

    # Printing command-line arguments, indexing into argv
    
    from sys import argv
    
    for i in range(len(argv)):
        print(argv[i])
    

    Notice that executing this code will result in the name of the file you are running being sliced away.

  • You can learn more about the sys library in the Python documentation

Exit Status

  • The sys library also has built-in methods. We can use sys.exit(i) to exit the program with a specific exit code:

    # Printing command-line arguments using a slice
    
    from sys import argv
    
    for arg in argv[1:]:
        print(arg)
    

    Notice that dot-notation is used to utilize the built-in functions of sys.

  • Python can also be utilized to search. In your terminal window, type code names.py and write code as follows:

    # Exits with explicit value, importing sys
    
    import sys
    
    if len(sys.argv) != 2:
        print("Missing command-line argument")
        sys.exit(1)
    
    print(f"hello, {sys.argv[1]}")
    sys.exit(0)
    

    Notice that this code functions. Indeed, it implements a linear search.

  • You can utilize the built-in abilities of Python as follows:

    # Implements linear search for names
    
    import sys
    
    # A list of names
    names = ["Bill", "Charlie", "Fred", "George", "Ginny", "Percy", "Ron"]
    
    # Ask for name
    name = input("Name: ")
    
    # Search for name
    for n in names:
        if n == name:
            print("Found")
            sys.exit(0)
    
    print("Not found")
    sys.exit(1)
    

    Notice that the in preposition is utilized. Python understands how to implement the lower-level code to do a linear search.

Phonebook

  • Recall that a dictionary or dict is a collection of key and value pairs.

  • You can implement a dictionary in Python as follows:

    # Implements linear search for names using `in`
    
    import sys
    
    # A list of names
    names = ["Bill", "Charlie", "Fred", "George", "Ginny", "Percy", "Ron"]
    
    # Ask for name
    name = input("Name: ")
    
    # Search for name
    if name in names:
        print("Found")
        sys.exit(0)
    
    print("Not found")
    sys.exit(1)
    

    Notice that the dictionary is implemented using curly braces. Then, the statement if name in people searches to see if the name is in the people dictionary. Further, notice how, in the print statement, we can index into the people dictionary using the value of name. Very useful!

  • Python has done their best to get to constant time using their built-in searches.

Comparison

  • We can implement comparisons as follows in Python:

    # Implements a phone book
    
    from cs50 import get_string
    
    people = {
        "Carter": "+1-617-495-1000",
        "David": "+1-949-468-2750"
    }
    
    # Search for name
    name = get_string("Name: ")
    if name in people:
        print(f"Number: {people[name]}")
    

    Notice how Python utilizes the == to be able to compare two variables. Further, notice that Python allows you to compare two strings without examining strings character by character using pointers as in C.

Swap

  • Further, we can implement a program that swaps values as we did in C. Consider the following code in Python:

    # Compares two strings
    
    # Get two strings
    s = input("s: ")
    t = input("t: ")
    
    # Compare strings
    if s == t:
        print("Same")
    else:
        print("Different")
    

    Notice that each value is swapped, using some very Pythonic syntax x, y = y, x.

CSV

  • You can also utilize Python to engage with CSV files. Consider the following program called phonebook.py:

    # Swaps two integers
    
    x = 1
    y = 2
    
    print(f"x is {x}, y is {y}")
    x, y = y, x
    print(f"x is {x}, y is {y}")
    

    Notice that utilizing the with block of code, with the writer and its work happening below it indented, prevents us from needing to close our file once finished.

  • Commonly, CSV files have columns that carry specific names. A DictWriter can used to create the CSV file and assign specific names to each column. Consider the following modification to our code:

    # Saves names and numbers to a CSV file
    
    import csv
    
    # Get name and number
    name = input("Name: ")
    number = input("Number: ")
    
    # Open CSV file
    with open("phonebook.csv", "a") as file:
    
        # Print to file
        writer = csv.writer(file)
        writer.writerow([name, number])
    

    Notice the name and number columns are defined in the penultimate row of code, and values are added in the final line.

  • You can learn more about the CSV files in Python in the Python documentation

Speech

  • Using a third-party library, Python can do text-to-speech.

    # Saves names and numbers to a CSV file using a DictWriter
    
    import csv
    
    # Get name and number
    name = input("Name: ")
    number = input("Number: ")
    
    # Open CSV file
    with open("phonebook.csv", "a") as file:
    
        # Print to file
        writer = csv.DictWriter(file, fieldnames=["name", "number"])
        writer.writerow({"name": name, "number": number})
    
  • Further, you can run the following code:

    # Says hello to someone
    
    import pyttsx3
    
    engine = pyttsx3.init()
    name = input("What's your name? ")
    engine.say(f"hello, {name}")
    engine.runAndWait()
    

Summing Up

In this lesson, you learned how the building blocks of programming from prior lessons can be implemented within Python. Further, you learned about how Python allowed for more simplified code. Also, you learned how to utilize various Python libraries. In the end, you learned that your skills as a programmer are not limited to a single programming language. Already, you are seeing how you are discovering a new way of learning through this course that could serve you in any programming language – and, perhaps, in nearly any avenue of learning! Specifically, we discussed…

  • Python
  • Variables
  • Conditionals
  • Loops
  • Types
  • Libraries
  • Dictionaries
  • Command-line arguments
  • Regular expressions

See you next time!

posted @ 2024-01-03 19:52  viewoverlook  阅读(3)  评论(0编辑  收藏  举报