Setup
Register for the lab using grinch
: https://grinch.caltech.edu/register and clone the repository as explained in the setup instructions.
Goals and Outcomes
By the end of this lab, you will…
- have more experience with recursive backtracking
- have seen how small changes in a problem result in wildly different solutions and runtimes
The Anagrams Problem
An anagram is a word or phrase made by rearranging the letters of another word or
phrase. In this lab, we differentiate between two types of anagrams of a String
\(s\):
- Word Anagrams are single words from a dictionary that are exact permutations of the letters of \(s\)
- Phrase Anagrams are a list of one or more words from a dictionary that together (ignoring spaces and capitalization) form an exact permutation of the letters of \(s\)
As always, examples make this significantly more clear.
\[\begin{align} \require{extpfeil}\text{meat} &\xmapsto[\text{word}]{} \{\text{mate}, \text{meat}, \text{tame}, \text{team}\}\\ \text{meat} &\xmapsto[\text{phrase}]{} \{\text{mate}, \text{meat}, \text{tame}, \text{team}\}\\ \text{magikarp} &\xmapsto[\text{word}]{} \{\}\\ \text{magikarp} &\xmapsto[\text{phrase}]{} \{\text{karma pig}, \text{magi park}, \text{park magi}, \text{pig karma}\}\\ \text{listen} &\xmapsto[\text{word}]{} \{\text{listen}, \text{silent}, \text{tinsel}\}\\ \text{listen} &\xmapsto[\text{phrase}]{} \{\text{let sin}, \text{listen}, \text{lit sen}, \text{nil set}, \text{sen lit}, \text{sen til}, \text{set nil}, \text{silent}, \text{sin let}, \text{til sen}, \text{tinsel}\} \end{align}\]Provided Helper Class: LetterBag
We have provided you with a simple LetterBag
class which you will find helpful in your implementation.
public LetterBag(String s)
The LetterBag
constructor takes in a String
and creates a mapping between characters in that string and the
number of times they appear in that string.
public LetterBag subtract(LetterBag other)
Takes in another LetterBag
and creates a new LetterBag that represents the difference between this
and other
by subtracting the counts for each letter.
Note: this method returns null
if there are more of any given character in other
than in this
.
public boolean isEmpty()
Checks if there are any letters in this LetterBag
.
Solving the Phrase Anagrams Problem
One of the goals of this lab is to implement a recursive backtracking algorithm. As discussed in lecture, enumeration problems lend themselves very nicely to the recursive backtracking pattern.
public static printPhrases(String phrase, List<String> dictionary)
Prints all the phrase anagrams of phrase
ignoring all non-lowercase letters.
- You will need an accumulator like used in lecture. In this case, you will want to use a
List
ofString
s. - You will need to keep track of “what letters are left to use” in a choice. (Hint: the
LetterBag
class could be useful here.) - It is very easy to get stuck on this type of problem. Please remember to use the members of course staff that are in the room. We will be especially helpful for this lab.
Task 1.
Implement the printPhrases
method using recursion.
At this point, if printPhrases
is implemented properly, all of the PhraseAnagramsTests
should pass.
Solving the Word Anagrams Problem
The second goal of this lab is to see how small changes in problems can allow more clever solutions which run significantly faster. Our phrase anagram solution effectively runs over all multisets of dictionary words.
This is extremely inefficient if all we care about is printing matching words. It’s possible to find the word anagrams of a phrase in time proportional to the size of the dictionary.
This time, you should use an algorithmic pattern centered around a data structure, rather than recursive backtracking. There are ways to make this very fast, but they are not necessary to get credit for this lab.
public static printWords(String phrase, List<String> dictionary)
Prints all the word anagrams of phrase
ignoring all non-lowercase letters.
This method must run in time proportional to the size of the dictionary. You may not use recursion.
Task 1.
Implement the printWords
method without using recursion.
At this point, if printWords
is implemented properly, all of the WordAnagramsTests
should pass.
Checking the Results on gitlab
Task 2. Check to make sure you are passing all the tests on gitlab.
Getting Checked Off
At the end of every lab, you will need to call over a member of course staff to review your work. Sometimes, we will ask you to think about questions that you’ll review with the person who checks you off. For this lab, please answer the following questions:
Task 3.
Click the “Submit OpenEndeds” button below.
Then, call over a member of course staff by typing “!question done
” into your workspace
text channel. Someone will get to you as soon as possible.