This competition focuses on short and succinct code. The challenge is to produce answers to the provided problems with as little code as possible. Your score for each problem will be the file size of your source code for that problem. Your code will not be run. We will assume that your code runs. We will verify the answers your code produces. However, we will have the 1st, 2nd, and 3rd place contestants run their code live for proof that it runs and proof that it produces the correct output.
- The actual code you submit cannot be generated text
- Your code cannot call any external processes
- Your code must be able to be run independently of any other personal files (i. e. you can use standard libraries and other modules but you can't write code in another file and simply call it in your submission file)
You will need to submit the source code for each question, so there will be a total of 6 files to submit. Fork this GitHub repository, and just copy and paste your repository link here
- Each solution file (your actual code) must be in a directory titled
solutions
- Generate answer files using your solution. The input files are in the
inputs
directory. Each individual input is separated by a newline. Separate your output in the file by newlines. - Each answer file (your generated answers) must be in a directory titled
answers
- Each file must have the problem number somewhere in its name
- You should only submit the files we have asked for and nothing else
- There should be no dots ("." charachters) in your filename except before the extension
- The file size of your file will be evaluated with the python function os.path.getzise on an Ubuntu OS. Make sure this is not problematic for your source code.
- you cannot compress your files you must submit your raw source code
- prob_1.py
- prob1.py
- 1.java
- jibberish1jibberish.cpp
- i_dont_contain_a_number.py
- x.java
- get.ridOfThatExtraDot.cpp
- .filename.java
- prob_1_out.txt
- prob1.txt
- 1.txt
- whatever1whatever.txt
- i_dont_contain_a_number.py
- x.txt
- get.ridOfThatExtraDot.cpp
- .filename.txt
OVERVIEW Given a positive integer, π(x) is the number of prime numbers less than or equal to x.
For example:
- π(2) = 1
- π(10) = 4
- π(1000) = 168
The input has one value of x per line. You can expect x to be no greater than 1000. In the output, put one integer result per line.
OVERVIEW Given an expression in prefix notation, output the integer value.
For example:
- +34 = 7
- +5*34 = 17
The input has one expression per line. You can expect values between 0-9 (i.e. no numbers of multiple digits). Output one integer per line.
OVERVIEW Given a list of words, return all words that are not compound and not a part of a compound in the set. A compound word is a combination of two or more words in the set of words provided.
For example, if the set of words is:
cat
dog
catdog
some
sometimes
The output would be:
some
sometimes
Note that while some
is a part of sometimes
, sometimes
is not a compound word because it is not a combination of two or more words in the set.
The input has one word in the set per line. In the output, put one word that meets the criteria per line.
OVERVIEW
Given a list of x
and y
coordinates, produce the least-squares best fit line.
The input has one coordinate pair per line separated by a space.
Your output the ratio of b/m
, when the equation is in the form:
y = mx + b
- Truncate (not round!) your answer to three (3) decimal places.
- Include a negative sign (-) in front if necessary.
OVERVIEW Given a positive integer, you will create a factor tree in a simple HTML/XML-like format. For example, if the input was 2002 = 2 * 7 * 11 * 13, the correct output is:
<composite value="2002">
<prime value="2">
</prime>
<composite value="1001">
<prime value="7">
</prime>
<composite value="143">
<prime value="11">
</prime>
<prime value="13">
</prime>
</composite>
</composite>
</composite>
Each node must have 0 or 2 children. A composite node's first child must be the smallest prime that divides into it. No inputs will have prime factors larger than 40.
The input has one positive integer per line. In the output, put each factor tree (like above), separated by a newline.
OVERVIEW Given a spelled out integer between 0 and 999,999, your program will print out the numerical value of the number. There may or may not be commas and the word "and" in the standard places.
- zero = 0
- eighty-six = 86
- one hundred and one = 101
- nine hundred and ninety-nine = 999
- three thousand, three hundred and thirty-three = 3333
- nine hundred thousand, one hundred and eleven = 900111
- nine hundred thousand and eleven = 900011
The input has one spelled out integer per line. In the output, put each numerical value on it's own line.