Homework 1: Control
Due by 11:59pm on Thursday, September 2
Instructions
Download hw01.zip.
Submission: When you are done, submit with python3 ok
--submit. You may submit more than once before the deadline; only the
final submission will be scored. Check that you have successfully submitted
your code on okpy.org. See Lab 0 for more instructions on
submitting assignments.
Using Ok: If you have any questions about using Ok, please refer to this guide.
Readings: You might find the following references useful:
Important: The lecture on Monday 8/30 will cover readings 1.3-1.5, which contain the material required for questions 4, 5, and 6.
Grading: Homework is graded based on correctness. Each incorrect problem will decrease the total score by one point. There is a homework recovery policy as stated in the syllabus. This homework is out of 2 points.
Required Questions
Q1: Welcome Forms
Please fill out both the Syllabus Quiz, which is based off of our policies found on the course syllabus, as well as the optional Welcome Survey.
Q2: A Plus Abs B
Fill in the blanks in the following function for adding a to the
absolute value of b, without calling abs. You may not modify any
of the provided code other than the two blanks.
def a_plus_abs_b(a, b):
"""Return a+abs(b), but without calling abs.
>>> a_plus_abs_b(2, 3)
5
>>> a_plus_abs_b(2, -3)
5
"""
if b < 0:
f = _____
else:
f = _____
return f(a, b)Use Ok to test your code:
python3 ok -q a_plus_abs_bQ3: Two of Three
Write a function that takes three positive numbers as arguments and returns the sum of the squares of the two smallest numbers. Use only a single line for the body of the function.
def two_of_three(x, y, z):
"""Return a*a + b*b, where a and b are the two smallest members of the
positive numbers x, y, and z.
>>> two_of_three(1, 2, 3)
5
>>> two_of_three(5, 3, 1)
10
>>> two_of_three(10, 2, 8)
68
>>> two_of_three(5, 5, 5)
50
"""
return _____
Hint: Consider using the
maxorminfunction:>>> max(1, 2, 3) 3 >>> min(-1, -2, -3) -3
Use Ok to test your code:
python3 ok -q two_of_threeQ4: Largest Factor
Write a function that takes an integer n that is greater than 1 and
returns the largest integer that is smaller than n and evenly divides n.
def largest_factor(n):
"""Return the largest factor of n that is smaller than n.
>>> largest_factor(15) # factors are 1, 3, 5
5
>>> largest_factor(80) # factors are 1, 2, 4, 5, 8, 10, 16, 20, 40
40
>>> largest_factor(13) # factor is 1 since 13 is prime
1
"""
"*** YOUR CODE HERE ***"
Hint: To check if
bevenly dividesa, you can use the expressiona % b == 0, which can be read as, "the remainder of dividingabybis 0."
Use Ok to test your code:
python3 ok -q largest_factorQ5: If Function Refactor
Here are two functions that have a similar structure. In both, if prevents a
ZeroDivisionError when x is 0.
def invert(x, limit):
"""Return 1/x, but with a limit.
>>> x = 0.2
>>> 1/x
5.0
>>> invert(x, 100)
5.0
>>> invert(x, 2) # 2 is smaller than 5
2
>>> x = 0
>>> invert(x, 100) # No error, even though 1/x divides by 0!
100
"""
if x != 0:
return min(1/x, limit)
else:
return limit
def change(x, y, limit):
"""Return abs(y - x) as a fraction of x, but with a limit.
>>> x, y = 2, 5
>>> abs(y - x) / x
1.5
>>> change(x, y, 100)
1.5
>>> change(x, y, 1) # 1 is smaller than 1.5
1
>>> x = 0
>>> change(x, y, 100) # No error, even though abs(y - x) / x divides by 0!
100
"""
if x != 0:
return min(abs(y - x) / x, limit)
else:
return limitTo "refactor" a program means to rewrite it so that it has the same behavior but
with some change to the design. Below is an attempt to refactor both functions
to have short one-line definitions by defining a new function limited
that contains their common structure.
def limited(x, z, limit):
"""Logic that is common to invert and change."""
if x != 0:
return min(z, limit)
else:
return limit
def invert_short(x, limit):
"""Return 1/x, but with a limit.
>>> x = 0.2
>>> 1/x
5.0
>>> invert_short(x, 100)
5.0
>>> invert_short(x, 2) # 2 is smaller than 5
2
>>> x = 0
>>> invert_short(x, 100) # No error, even though 1/x divides by 0!
100
"""
return limited(x, 1/x, limit)
def change_short(x, y, limit):
"""Return abs(y - x) as a fraction of x, but with a limit.
>>> x, y = 2, 5
>>> abs(y - x) / x
1.5
>>> change_short(x, y, 100)
1.5
>>> change_short(x, y, 1) # 1 is smaller than 1.5
1
>>> x = 0
>>> change_short(x, y, 100) # No error, even though abs(y - x) / x divides by 0!
100
"""
return limited(x, abs(y - x) / x, limit)
There's a problem with this refactored code! Try invert_short(0, 100) and see.
It causes a ZeroDivisionError while invert(0, 100) did not.
Your first job is to understand why the behavior changed. In invert, division
by x only happens when x is not 0, but in invert_short it always happens.
Read the
rules of evaluation for if statements
and call expressions to see why.
Your second job is to edit invert_short and change_short so that they have
the same behavior as invert and change but still have just one line each.
You will also need to edit limited. You don't need to use and or or or
if in invert; just pay attention to when the division takes place.
Use Ok to test your code:
python3 ok -q invert_short
python3 ok -q change_shortQ6: Hailstone
Douglas Hofstadter's Pulitzer-prize-winning book, Gödel, Escher, Bach, poses the following mathematical puzzle.
- Pick a positive integer
nas the start. - If
nis even, divide it by 2. - If
nis odd, multiply it by 3 and add 1. - Continue this process until
nis 1.
The number n will travel up and down but eventually end at 1 (at least for
all numbers that have ever been tried -- nobody has ever proved that the
sequence will terminate). Analogously, a hailstone travels up and down in the
atmosphere before eventually landing on earth.
This sequence of values of n is often called a Hailstone sequence. Write a
function that takes a single argument with formal parameter name n, prints
out the hailstone sequence starting at n, and returns the number of steps in
the sequence:
def hailstone(n):
"""Print the hailstone sequence starting at n and return its
length.
>>> a = hailstone(10)
10
5
16
8
4
2
1
>>> a
7
"""
"*** YOUR CODE HERE ***"
Hailstone sequences can get quite long! Try 27. What's the longest you can find?
Use Ok to test your code:
python3 ok -q hailstoneCurious about hailstones or hailstone sequences? Take a look at these articles:
- Check out this article to learn more about how hailstones work!
- In 2019, there was a major development in understanding how the hailstone conjecture works for most numbers!
Just for fun Question
This question is out of scope for 61A. You can try it if you want an extra challenge, but it's just a puzzle that has no practical value and is not required or recommended at all. Almost all students will skip it, and that's fine.
Q7: Quine
Write a one-line program that prints itself, using only the following features of the Python language:
- Number literals
- Assignment statements
- String literals that can be expressed using single or double quotes
- The arithmetic operators
+,-,*, and/ - The built-in
printfunction - The built-in
evalfunction, which evaluates a string as a Python expression - The built-in
reprfunction, which returns an expression that evaluates to its argument
You can concatenate two strings by adding them together with + and repeat a
string by multipying it by an integer. Semicolons can be used to separate
multiple statements on the same line. E.g.,
>>> c='c';print('a');print('b' + c * 2)
a
bccHint: Explore the relationship between single quotes, double quotes, and the
reprfunction applied to strings.
A program that prints itself is called a Quine. Place your solution in the multi-line string named quine.
Use Ok to test your code:
python3 ok -q quine_test