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代寫Lab 6: Boggle、留學生Boggle程序代做

放大字體  縮小字體 發布日期:2019-10-10 16:18:01    來源:民族品牌網     瀏覽次數:114    評論:0
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Lab 6: BoggleDeadline: 2019-10-10 10:10:10 pm.Please compress your source code as lab6-STUDENTID.zip and upload it toftp://dmkaplony:[email protected]:/upload/c++2019/lab6/ before the deadline

Lab 6: Boggle

Deadline: 2019-10-10 10:10:10 pm.

Please compress your source code as lab6-STUDENTID.zip and upload it to

ftp://dmkaplony:[email protected]:/upload/c++2019/lab6/ before the deadline.

The game of Boggle

The Boggle game board is a square grid onto which you randomly distribute a set of letter

cubes. The goal is to find words on the board by tracing a path through adjoining letters. Two

letters adjoin if they are next to each other horizontally, vertically, or diagonally. There are

up to eight letters adjoining a cube. Each cube can be used at most once in a word. In the

original version, all players work concurrently listing the words they find. When time is

called, duplicates are removed from the lists and the players receive points for their

remaining words.

Your assignment is to write a program that plays a fun, graphical rendition of this little

charmer, adapted for the human and computer to play pitted against one another. You’ll

quickly learn you have little hope of defeating the computer, but it’s awesome to realize you

wrote this program that can so soundly thrash you again and again!

This assignment will give you a little more practice as a class client, but the main focus is on

designing and implementing recursive algorithms. At the heart of the program are two

recursive functions that find words on the board, one for the human player and another for the

computer. Although each function is only a dozen lines of code, recursive algorithms can be

dense and tricky and will require your best recursion mojo to conquer. When you are done,

you will have earned the right to call yourself a journeyman in the way of recursion.

How’s this going to work?

You set up the letter cubes, shake them up, and lay them out on the board. The human player

gets to go first (nothing like trying to give yourself the advantage). The player enters words

one by one. After verifying that a word is legitimate, you highlight its letters on the board,

add it to the player’s word list, and award the player points according to the word’s length.

once the player has found as many words as he or she can, the computer takes a turn. The

computer searches through the board to find all the remaining words and awards itself points

for those words. The computer typically beats the player mercilessly, but the player is free to

try again and again, until finally ready to acknowledge the superiority of silicon.

The letter cubes

The letters in Boggle are not simply chosen at random. Instead, the letter cubes are designed

in such a way that common letters come up more often and it is easier to get a good mix of

vowels and consonants. To recreate this, we give an array of the cubes from the original

Boggle. Each cube is described using a string of 6 letters, as shown below:

const string BIG_BOGGLE_CUBES[25] = {

"AAAFRS", "AAEEEE", "AAFIRS", "ADENNN", "AEEEEM",

"AEEGMU", "AEGMNN", "AFIRSY", "BJKQXZ", "CCNSTW",

"CEIILT", "CEILPT", "CEIPST", "DDLNOR", "DDHNOT",

"DHHLOR", "DHLNOR", "EIIITT", "EMOTTT", "ENSSSU",

"FIPRSY", "GORRVW", "HIPRRY", "NOOTUW", "OOOTTU"

};

These strings are used to initialize the cubes on the board. At the beginning of each game,

“shake” the board cubes. There are two different random aspects to consider. First, the cubes

themselves need to be shuffled so that the same cube is not always in the same location on

the board. Second, a random side from each cube needs to be chosen to be the face-up letter.

To rearrange the cubes on the board, you should use the following shuffling algorithm,

presented here in pseudocode form:

Copy the constant array into a vector vec so you can modify it.

Shuffle vec using the following approach:

for (int i = 0; i < vec.size(); i++) {

Choose a random index r between i and the last element position, inclusive.

Swap the element at positions i and r.

}

Fill the Boggle grid by choosing the elements of vec in order.

This code makes sure that the cubes are arranged randomly in the grid. Choosing a random

side to put face-up is straightforward. Put these two together and you can shake the cubes into

many different board combinations.

Alternatively, the user can choose to enter a custom board configuration. In this case, you

still use your same board data structure. The only difference is where the letters come from.

The user enters a string of characters, representing the cubes from left to right, top to bottom.

Verify that this string is long enough to fill the board and re-prompt if it is too short. If it’s

too long, just ignore the ones you don’t need. You do not need to verify that the entered

characters are legal letters.

The human player’s turn

The human player enters each word she finds on the board. For each word, check that:

? It is at least four letters long.

? It is contained in the English lexicon.

? It has not already been included in the player’s word list (even if there is an alternate

path on the board to form the same word, the word is counted at most once).

? It can be formed on the board (i.e., it is composed of adjoining letters and each cube is

used at most once).

If any of these conditions fail, the word is rejected. If all is good, you add the word to the

player’s word list and score. In addition, you graphically show the word’s path by

temporarily highlighting its cubes on the board. The length of the word determines the

score: one point for a 4-letter word, two points for 5-letters, and so on.

The player enters a blank line when done finding words, which signals the end of the

human’s turn.

The computer’s turn

The computer then searches the entire board to find the remaining words missed by the

human player. The computer earns points for each word found that meets the requirements

(minimum length, contained in English lexicon, not already found, and can be formed on

board).

As with any exponential search algorithm, it is important to look for ways to limit the search

to ensure that the process can be completed in a reasonable time. One of the most important

Boggle strategies is to prune dead end searches. For example, if you have a path starting zx,

the lexicon’s containsPrefix member function will inform you that there are no English

words down that path. Thus, you should stop right here and move on to more promising

combinations. If you miss this optimization, you’ll find yourself taking long coffee breaks

while the computer is futilely looking for words like zxgub, zxaep, etc. Even though you may

love coffee, this is obviously not the best idea.

Our provided resources

We provided an EnglishWords.txt file containing over 125,000 words, which is about four

times as large as the average person’s vocabulary, so it’s no wonder that the computer player

is so hard to beat!

Solution strategies

In a project of this complexity, it is important that you get an early start and work

consistently toward your goal. To be sure that you’re making progress, it also helps to divide

up the work into manageable pieces, each of which has identifiable milestones. Here’s a

suggested plan of attack that breaks the problem down into the following five phases:

? Task 1—Cube setup, board drawing, cube shaking. Design your data structure for the

cubes and board. It will help to group related data into sensible structures rather than

pass a dozen parameters around. As usual, no global variables. Set up and shuffle the

cubes. You need to use a 5x5 board configuration.

? Task 2—Human’s turn (except for finding words on the board). Write the loop that

allows the user to enter words. Reject words that have already been entered or that don’t

meet the minimum word length or that aren’t in the lexicon. Add words to the graphical

display and keep score.

? Task 3—Find a given word on the board. Now put your recursive talents to work in

verifying that a word can be formed on the board, subject to the adjacency and nonduplication

rules. You will employ recursive backtracking that “fails fast”: as soon as

you realize you can’t form the word starting at a position, you move on to the next

position. If a path is found, highlight the cubes that form the word.

? Task 4—Find all the words on the board (computer’s turn). Now it’s time to implement

the killer computer player. Employing the power of recursion, your computer player

traverses the board using an exhaustive search to find all remaining words. Be sure to use

the lexicon prefix search to abandon searches down dead-end paths.

? Task 5—Loop to play many games, add polish. once you can successfully play one

game, it’s a snap to play many. With everything now working, it’s time to finish off the

details. Be sure to gracefully handle all user input. Make sure your comments are

thoughtful and complete. Pat yourself on the back and go eat some ice cream!

? Task 6—Make the Q a useful letter. Because the Q is largely useless unless it is adjacent

to a U, the commercial version of Boggle prints Qu together on a single face of the cube.

You use both letters together—a strategy that not only makes the Q more playable but

also allows you to increase your score because the combination counts as two letters.

? Task 7—Play by Mouse. Since we have prepared a graphical user interface, the player

could explore words by clicking on the board. Your program should track and highlight

which cubes have been clicked (and thus, selected) and their order. once the selected

cubes form a valid word that hasn’t been explored before, your program should award

the player and append the word to the player’s list. The selection and highlight should be

cleared if 1) a word has been added to the player’s list; or 2) the current selected cubes

cannot form any word

Requirements and suggestions

Here are a few details about our expectations for your solutions:

? Words should be considered case-insensitively: PEACE is the same as peace.

? The program contains two recursive searches: one to find a specific word entered by

the human player and another to search the board exhaustively for the computer’s

turn. They are somewhat similar, and you may be tempted to try to integrate the two

into one combined function. In general, we applaud this instinct to unify similar code.

However, we need to tell you that it doesn’t play out well in this case. There are

enough differences between the two that they don’t combine cleanly and the unified

code is actually made worse, not better, as a result. Given the tricky nature of

recursion, you should focus on writing exceptionally clean code that clearly

communicates its algorithm and thus can be easily maintained and debugged. An

important goal for this assignment is that you to learn how to employ these two

different varieties of recursion into the context of a larger program, and we expect you

to do so by writing two separate recursive searches.

? Our solution is about 250 lines of code (not counting comments) and is decomposed

into about 30 functions.

A little more challenge: for fun but not profit

Boggle has many opportunities for extension. You could consider the following extensions.

? Board exploration. As you will learn, some Boggle boards are a lot more fruitful that

others. Write some code to discover things about the possible boards. Is there an

arrangement of the standard cubes that produces a board containing no words? What

about an arrangement that produces a longest word, maybe even using all the cubes?

What is the highest-scoring board you can construct? Recursion will be handy in

trying out all the possible arrangements, but there are a lot of options (do the math on

all the permutations . . .), so you may need to come up with some heuristics to direct

your explorations.

因為專業,所以值得信賴。如有需要,請加QQ:99515681或郵箱:[email protected]

微信:codehelp

 
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