To gain a better understanding of search algorithms and symbol tables by implementing an autocompletion engine.
In order to make typing on a mobile device quick and easy, an autocomplete feature is commonly implemented to try to guess what word a user wishes to type before they are finished. Such a feature requires extensive use of search algorithms.
- First, download a copy of the English dictionary that you will use for this
project from here
and place it in your repository folder
- Do not add this file to your git repository, however! (i.e., do not run
git add dictionary.txt
).
- Do not add this file to your git repository, however! (i.e., do not run
- You must implement a De La Briandais (DLB) trie data structure (as described in lecture) to use in your project.
- When your program is run, it should first create a new DLB trie and add all
of the words in
dictionary.txt
to that trie (this will be the dictionary trie). - Once the dictionary trie is established, you should prompt the user
to start typing a word. For this project, you will be writing only a simple
program to test autocomplete functionality. Due to complexities with
gathering single character input in Java, you should accept a single character at a time, each followed by
Enter
. After each character, present the user with the list of predictions of the word that they are trying to type. If the user types a number (1-5), you should consider the user to have selected the corresponding prediction, and restart the process for a new word. Consider$
to be a terminator character; if the user enters a$
, consider the characters input so far to be the full word as intended (regardless of suggestions). Finally, if the user enters a!
at any point, your program should exit. - To generate the list of predictions, your program should not only consult the dictionary trie, but also keep track of what words the user has entered in the past. If the user has previously entered the same sequence of characters as a prefix to a word, you should prioritize the words that most frequently resulted from this sequence previously. If the user has never entered the current sequence before, or has entered fewer than 5 words with the current seequence as a prefix (i.e., not enough words to complete the list of 5 predictions), your program should suggest words from dictionary.txt that have the current sequence as a prefix.
- You program should propose at most 5 suggestions at a time. If there are fewer than 5 suggestions available from the user's history and the dictionary trie, then only print out the available suggestions.
- If the current sequence of characters has not been entered by the user
before and does not appear in
dictionary.txt
, you should display a message to the user stating that no predicions were found, and allow the user to continue entering characters one at a time. Once the user enters a "$", you should consider the word to be finished and add it to the user's history so that you can predict it in the future. - Your program should run in a case sensitive manner in order to allow for easier prediction of proper nouns and acronyms.
- The design of the data structure that keeps track of a user's previously
entered words is entirely up to you. You must create a file named
approach.txt
that both describes your approach to implementing this symbol table and justifies your decision to take this approach. Note that this file does not need to be extensive, just a few lines so the TA is aware of what to look for in your code and why you chose this approach. - The history of the user's entered words should persist across runs of your
program. To enable this, your program should save a representation of
this data structure to the file
user_history.txt
before exiting.- Do not add this file to your git repository! (i.e., do not run
git add user_history.txt
) It should be generated by your program if it does not exist.
- Do not add this file to your git repository! (i.e., do not run
- Each time the user enters a character, you should use Java's
[
System.nanoTime()
] (https://docs.oracle.com/javase/8/docs/api/java/lang/System.html#nanoTime--) to calculate how long your program takes to find the predictions. You should display this time along with the list of predictions. - After the user enters
!
, your program should output the average time that was required to produce a list of predictions.
An example run of the program would proceed as follows:
Enter your first character: t
(0.000251 s)
Predictions:
(1) t (2) ta (3) tab (4) tab's (5) tabbed
Enter the next character: h
(0.000159 s)
Predictions:
(1) thalami (2) thalamus (3) thalamus's (4) thalidomide (5) thalidomide's
Enter the next character: e
(0.000052 s)
Predictions:
(1) the (2) theater (3) theater's (4) theatergoer (5) theatergoer's
Enter the next character: r
(0.000225 s)
Predictions:
(1) therapeutic (2) therapeutically (3) therapeutics (4) therapeutics's (5) therapies
Enter the next character: e
(0.000182 s)
Predictions:
(1) there (2) there's (3) thereabout (4) thereabouts (5) thereafter
Enter the next character: 3
WORD COMPLETED: thereabout
Enter first character of the next word: t
(0.000128 s)
Predictions:
(1) thereabout (2) t (3) ta (4) tab (5) tab's
Enter the next character: h
(0.000094 s)
Predictions:
(1) thereabout (2) thalami (3) thalamus (4) thalamus's (5) thalidomide
Enter the next character: e
(0.000085 s)
Predictions:
(1) thereabout (2) the (3) theater (4) theater's (5) theatergoer
Enter the next character: r
(0.000145 s)
Predictions:
(1) thereabout (2) therapeutic (3) therapeutically (4) therapeutics (5) therapeutics's
Enter the next character: e
(0.000130 s)
Predictions:
(1) thereabout (2) there (3) there's (4) thereabouts (5) thereafter
Enter the next character: !
Average time: 0.000145 s
Bye!
- DO NOT add
dictionary.txt
to your git repository. - DO NOT add
user_history.txt
to your git repository, it must be generated by your program. - DO NOT SUBMIT any IDE package files.
- You must name your main program file
ac_test.java
. - You must be able to compile your program by running
javac ac_test.java
. - You must be able to run your program by running
java ac_test
. - You must fill out
info_sheet.txt
. - Be sure to remember to push the latest copy of your code back to your GitHub repository before the the assignment is due. At the deadline, the repositories will automatically be copied for grading. Whatever is present in your GitHub repository at that time will be considered your submission for this assignment.
- You are free to use any data structures written by you, the textbook authors,
or in the Java standard library to implement the user history symbol table.
However, if you use code that you do not write yourself, you must research
the runtime of that particular implementation and discuss that in your
approach.txt
. - Note that if your user history predictions contain a word that is also contained in the dictionary predictions, this word should not be presented as a suggestion to the user twice in the same prompt (e.g., the final list of predictions in the example above).
- You do not need to implement any sort of autocorrect. You can assume that each character entered by the user is intentional.
- You can assume that the user will not try to enter any numerical characters aside from selecting a prediction.
- DLB trie implemented as described in class: 20
- Dictionary predictions are correctly populated: 25
- User history predictions are correctly populated: 30
- Sufficient justification of user history approach: 10
- User interaction works as specified: 5
- Timing data presented: 5
- Assignment info sheet/submission: 5