EGR 103/Concept List Fall 2019

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This page will be used to keep track of the commands and major concepts for each lecture in EGR 103.

Lecture 1 - Introduction

  • Class web page: EGR 103L; assignments, contact info, readings, etc - see slides on Errata/Notes page
  • Sakai page: Sakai 103L page; grades, surveys and tests, some assignment submissions
  • Piazza page: Piazza 103L page; message board for questions

Lecture 2 - Programs and Programming

  • To play with Python:
    • Install it on your machine or a public machine: Download
  • Quick tour of Python
    • Editing window, variable explorer, and console
    • Variable explorer is your friend
  • From Dewey - programming language typically have ability to work with input, output, math, conditional execution, and repetition
  • Hilton and Bracy Seven Steps
  • Class work developing algorithm for program to determine if a number is prime
  • Inputs in Python using input() command - always grab strings
  • Convert strings containing integer characters to integers using int()
  • Some commands are only available by importing from modules; import numpy as np will bring in all the functions of the numpy module. Access these commands by typing np.VALUE or np.FUNCTION (for example, np.pi or np.cos(2))

Lecture 3

  • Python has several different variable types, each with their own purpose and operators.
  • Main ones this lecture: int, float, string, tuple, list.

Lecture 4

  • Brief discussion of disctionaries, how to build, and how to access.
  • Two main types of function - lambda functions and defined functions
  • Lambda functions are one line of code; can have multiple inputs but only one expression.
    • c = lambda a,b: np.sqrt(a**2 + b**2)
  • Defined functions can be multiple lines of code and have multiple outputs.
    • Four different types of argument:
      • Required (listed first)
      • Named with defaults (second)
      • Additional positional arguments ("*args") (third)
        • Function will create a tuple containing these items in order
      • Additional keyword arguments ("**kwargs") (last)
        • Function will create a dictionary of keyword and value pairs

Lecture 5

  • Creating formatted strings using {} and .format() (format strings, standard format specifiers -- focus was on using e or f for type, minimumwidth.precision, and possibly a + in front to force printing + for positive numbers.
  • Basics of decisions using if...elif...else
  • Basics of loops using for and while
  • Building a program to count the number of numbers, vowels, consonants, and other characters in a phrase
# letter_counter.py from class:
def counter(phrase):
    counts = [0, 0, 0, 0]
    nums = "0123456789"
    vowels = "aeiou"
    cons = "bcdfghjklmnpqrstvwxyz"

    for k in phrase.lower():
        #print(k)
        if k in nums:
            # print('{:s} is a number!'.format(k))
            counts[0] += 1
        elif k in vowels:
            counts[1] += 1
        elif k in cons:
            counts[2] += 1
        else:
            counts[3] += 1
               
    return counts
        
c = counter("Hello! Go 2022! East Campus Rocks!")
print(c)

Lecture 6

  • The Price Is Right - Clock Game:
# tpir.py from class:
# -*- coding: utf-8 -*-
"""
The Price Is Right - Clock Game
"""

import numpy as np
import time

def create_price(low, high):
    return np.random.randint(low, high+1)

def get_guess():
    guess = int(input('Guess: '))
    return guess

def check_guess(new_guess, price):
    if new_guess  > price:
        print('${:0.0f} is too high - Lower!'.format(new_guess))
    elif new_guess < price:
        print('Higher!')
    else:
        print('You win!')


price = create_price(100, 1000)
# print(price)
new_guess = price + 1
start_time = time.clock()

while new_guess != price and (time.clock()-start_time)<30:
    new_guess = get_guess()
    # print(new_guess)
    check_guess(new_guess, price)
    
if new_guess != price:
    print('You lose :( '))

Lecture 7

  • Robust programming
  • isinstance to check type
  • # validator.py from class:
    
def check_for_int(x):
    '''
    returns true if string contains an valid int
    returns false otherwise
    '''
    for k in x:
        if k not in '0123456789':
            return False

    return True


def get_good():
    x = input('Integer between 0 and 10: ')
    bad = True
    ''' not quite
    while bad:
        if check_for_int(x) is False:
            pass
        elif int(x)>=0 and int(x)<=10:
            bad = False
    return int(x)
    '''
    while bad:
        if check_for_int(x) is False:
            print('Wrong type of input')
            x = input('INTEGER between 0 and 10: ')
        elif int(x) < 0 or int(x) > 10:
            print('Invalid value')
            x = input('Integer BETWEEN 0 and 10: ')
        else:
            bad = False

    return int(x)


if __name__ == "__main__":
    check_for_int('1.1')
    y = get_good()
    print(y)
  • Note: my_string.isdigit() works like check_for_int() above

Lecture 8

  • Taylor series fundamentals
  • Maclaurin series approximation for exponential
\( y=e^x=\sum_{n=0}^{\infty}\frac{x^n}{n!} \)
so
\( \begin{align} y_{init}&=1\\ y_{new}&=y_{old}+\frac{x^n}{n!} \end{align} \)
  • Newton Method for finding square roots - to find \(y\) where \(y=\sqrt{x}\):
    \( \begin{align} y_{init}&=1\\ y_{new}&=\frac{y_{old}+\frac{x}{y_{old}}}{2} \end{align} \)
  • See Python version of Fig. 4.2 and modified version of 4.2 in the Resources section of Sakai page under Chapra Pythonified