Difference between revisions of "CSC212 Homework 5 2014"
(18 intermediate revisions by the same user not shown) | |||
Line 1: | Line 1: | ||
--[[User:Thiebaut|D. Thiebaut]] ([[User talk:Thiebaut|talk]]) 23:24, 22 October 2014 (EDT) | --[[User:Thiebaut|D. Thiebaut]] ([[User talk:Thiebaut|talk]]) 23:24, 22 October 2014 (EDT) | ||
---- | ---- | ||
− | |||
<br /> | <br /> | ||
− | + | __TOC__ | |
+ | <br /> | ||
+ | <bluebox> | ||
+ | This assignment is due Friday (note the different day) Oct. 31st, at 11:55 p.m. | ||
+ | </bluebox> | ||
+ | <br /> | ||
<!-- | <!-- | ||
=Problem #1= | =Problem #1= | ||
Line 16: | Line 20: | ||
=Problem #1= | =Problem #1= | ||
<br /> | <br /> | ||
− | * Write a recursive Java program called '''Hw5_1.java''' that implements a modified recursive binary search that, instead of returning the index where the ''key'' was found, returns an ArrayList of all the indexes where the ''key'' is located. | + | * Write a recursive Java program called '''Hw5_1.java''' that implements a modified recursive binary search that, instead of returning the index where the ''key'' was found, returns an ArrayList of all the indexes where the ''key'' is located. By ''returning'', I mean either return with a <tt>return</tt> statement, or an ArrayList that is passed as a parameter, or an ArrayList that is a member variable of the class. |
* You must use this function to create a sorted array of dimension ''N'': | * You must use this function to create a sorted array of dimension ''N'': | ||
<br /> | <br /> | ||
Line 48: | Line 52: | ||
* You cannot use an iterative method that is not recursive. | * You cannot use an iterative method that is not recursive. | ||
+ | * Your program should get ''N'', the dimension of the array, and the ''key'' from the command line. Here's the code you should use: | ||
+ | <br /> | ||
+ | ::<source lang="java"> | ||
+ | public static void main(String[] args) { | ||
+ | if ( args.length == 0 ) { | ||
+ | System.out.println( "Syntax: javac Hw5_1 N key" ); | ||
+ | return; | ||
+ | } | ||
+ | int N = Integer.parseInt( args[0] ); | ||
+ | int key = Integer.parseInt( args[1] ); | ||
+ | } | ||
+ | </source> | ||
+ | <br /> | ||
+ | '''Note'''<br /> | ||
+ | ::* If you are using Eclipse (which I hope you are), then passing parameters on the command line is a bit tricky, though totally possible. Here's how you do would do it. First click on the little black down arrow next to the Green Circle/White Triangle icon (Run icon) you click to run your programs. | ||
+ | <br /> | ||
+ | <center> | ||
+ | [[Image:EclipseRunConfiguration.png|400px]] | ||
+ | </center> | ||
+ | ::* Make sure your program is the one currently highlighted in the list, and click on '''Run Configurations'''. | ||
+ | ::* Click on the '''Arguments''' tab, and enter N and the key in the '''Program Arguments''' window ("20 24" in this case). | ||
+ | ::* Run your program. From then on, whenever you press the run-icon it will use these two numbers for N and key. If you want to change them, go through these same two steps again. | ||
+ | <br /> | ||
+ | <center> | ||
+ | [[Image:EclipseRunConfiguration2.png|500px]] | ||
+ | </center> | ||
+ | <br /> | ||
+ | * Your output should be sorted. To sort an ArrayList of integers, you can use the ''Collections'' library, as illustrated below: | ||
+ | <br /> | ||
+ | ::<source lang="java"> | ||
+ | import java.util.Collections; | ||
+ | |||
+ | ... | ||
+ | |||
+ | ArrayList<Integer> indexes = new ArrayList<Integers>(); | ||
+ | |||
+ | // add some ints to the array | ||
+ | ... | ||
+ | |||
+ | // sort the ArrayList | ||
+ | Collections.sort(indexes); | ||
+ | |||
+ | </source> | ||
+ | <br /> | ||
* Submit your program on Moodle, in the Homework 5, Problem 1 section. | * Submit your program on Moodle, in the Homework 5, Problem 1 section. | ||
Line 54: | Line 102: | ||
<br /> | <br /> | ||
+ | |||
=Problem #2= | =Problem #2= | ||
<br /> | <br /> | ||
* Modify the N-Queens problem seen in [[CSC212_Lab_9_2014| Lab #9]] and make it compute the total number of different solutions existing for an NxN board. The program as we have seen in the lab stops when it finds a solution, but there might be many different possible ways of putting N queens on the NxN board. Make your program compute the total number of such solutions. | * Modify the N-Queens problem seen in [[CSC212_Lab_9_2014| Lab #9]] and make it compute the total number of different solutions existing for an NxN board. The program as we have seen in the lab stops when it finds a solution, but there might be many different possible ways of putting N queens on the NxN board. Make your program compute the total number of such solutions. | ||
+ | * Call your program '''Hw5_2.java'''. | ||
* The output of your program should just be an integer number representing the number of solutions. | * The output of your program should just be an integer number representing the number of solutions. | ||
+ | * Your program will get ''N'' from the command line, as in: | ||
+ | |||
+ | java Hw5_2 20 | ||
+ | |||
+ | :which will compute the total number of different ways we can organize 20 queens on a 20x20 chessboard. | ||
+ | * Submit your program to Moodle, Homework 5, Problem 2. | ||
<br /> | <br /> | ||
<br /> | <br /> | ||
+ | ==Some Solutions== | ||
<br /> | <br /> | ||
+ | * I modified the solution program to make it display the different solutions found: | ||
+ | ::<source lang="text"> | ||
+ | java Hw5_2_printSolutions 4 | ||
+ | -------- | ||
+ | . Q . . | ||
+ | . . . Q | ||
+ | Q . . . | ||
+ | . . Q . | ||
+ | -------- | ||
+ | . . Q . | ||
+ | Q . . . | ||
+ | . . . Q | ||
+ | . Q . . | ||
+ | 2 | ||
+ | |||
+ | java Hw5_2_printSolutions 5 | ||
+ | ---------- | ||
+ | Q . . . . | ||
+ | . . Q . . | ||
+ | . . . . Q | ||
+ | . Q . . . | ||
+ | . . . Q . | ||
+ | ---------- | ||
+ | Q . . . . | ||
+ | . . . Q . | ||
+ | . Q . . . | ||
+ | . . . . Q | ||
+ | . . Q . . | ||
+ | ---------- | ||
+ | . Q . . . | ||
+ | . . . Q . | ||
+ | Q . . . . | ||
+ | . . Q . . | ||
+ | . . . . Q | ||
+ | ---------- | ||
+ | . Q . . . | ||
+ | . . . . Q | ||
+ | . . Q . . | ||
+ | Q . . . . | ||
+ | . . . Q . | ||
+ | ---------- | ||
+ | . . Q . . | ||
+ | Q . . . . | ||
+ | . . . Q . | ||
+ | . Q . . . | ||
+ | . . . . Q | ||
+ | ---------- | ||
+ | . . Q . . | ||
+ | . . . . Q | ||
+ | . Q . . . | ||
+ | . . . Q . | ||
+ | Q . . . . | ||
+ | ---------- | ||
+ | . . . Q . | ||
+ | Q . . . . | ||
+ | . . Q . . | ||
+ | . . . . Q | ||
+ | . Q . . . | ||
+ | ---------- | ||
+ | . . . Q . | ||
+ | . Q . . . | ||
+ | . . . . Q | ||
+ | . . Q . . | ||
+ | Q . . . . | ||
+ | ---------- | ||
+ | . . . . Q | ||
+ | . Q . . . | ||
+ | . . . Q . | ||
+ | Q . . . . | ||
+ | . . Q . . | ||
+ | ---------- | ||
+ | . . . . Q | ||
+ | . . Q . . | ||
+ | Q . . . . | ||
+ | . . . Q . | ||
+ | . Q . . . | ||
+ | 10 | ||
+ | |||
+ | (Note that the solutions below are all rotations of the same solution!) | ||
+ | java Hw5_2_printSolutions 6 | ||
+ | ------------ | ||
+ | . Q . . . . | ||
+ | . . . Q . . | ||
+ | . . . . . Q | ||
+ | Q . . . . . | ||
+ | . . Q . . . | ||
+ | . . . . Q . | ||
+ | ------------ | ||
+ | . . Q . . . | ||
+ | . . . . . Q | ||
+ | . Q . . . . | ||
+ | . . . . Q . | ||
+ | Q . . . . . | ||
+ | . . . Q . . | ||
+ | ------------ | ||
+ | . . . Q . . | ||
+ | Q . . . . . | ||
+ | . . . . Q . | ||
+ | . Q . . . . | ||
+ | . . . . . Q | ||
+ | . . Q . . . | ||
+ | ------------ | ||
+ | . . . . Q . | ||
+ | . . Q . . . | ||
+ | Q . . . . . | ||
+ | . . . . . Q | ||
+ | . . . Q . . | ||
+ | . Q . . . . | ||
+ | 4 | ||
+ | |||
+ | java Hw5_2_printSolutions 4 | ||
+ | -------- | ||
+ | . Q . . | ||
+ | . . . Q | ||
+ | Q . . . | ||
+ | . . Q . | ||
+ | -------- | ||
+ | . . Q . | ||
+ | Q . . . | ||
+ | . . . Q | ||
+ | . Q . . | ||
+ | 2 | ||
+ | |||
+ | </source> | ||
<br /> | <br /> | ||
<br /> | <br /> |
Latest revision as of 18:45, 12 November 2014
--D. Thiebaut (talk) 23:24, 22 October 2014 (EDT)
Contents
This assignment is due Friday (note the different day) Oct. 31st, at 11:55 p.m.
Problem #1
- Write a recursive Java program called Hw5_1.java that implements a modified recursive binary search that, instead of returning the index where the key was found, returns an ArrayList of all the indexes where the key is located. By returning, I mean either return with a return statement, or an ArrayList that is passed as a parameter, or an ArrayList that is a member variable of the class.
- You must use this function to create a sorted array of dimension N:
private static int[] initSortedArray( int N ) {
if ( N<10 ) N = 10;
int[] array = new int[N];
array[0] = 3;
for ( int i=1; i<N; i++ )
array[ i ] = array[i-1] + (i*11)%7;
// duplicate some keys
for ( int i=1; i<4; i++ )
array[ N/3 + i] = array[N/3];
return array;
}
- This way the indexes for a given key will be known to the testing program in Moodle. For verification, this is the array created by the function for N = 20:
3 7 8 13 15 21 24 24 24 24 34 36 42 45 45 49 50 55 57 63
- If the array contains [3 7 8 13 15 21 24 24 24 24 34 36 42 45 45 49 50 55 57 63], and we are searching for key 24, then your program will output
6 7 8 9
- You cannot use an iterative method that is not recursive.
- Your program should get N, the dimension of the array, and the key from the command line. Here's the code you should use:
public static void main(String[] args) { if ( args.length == 0 ) { System.out.println( "Syntax: javac Hw5_1 N key" ); return; } int N = Integer.parseInt( args[0] ); int key = Integer.parseInt( args[1] ); }
Note
- If you are using Eclipse (which I hope you are), then passing parameters on the command line is a bit tricky, though totally possible. Here's how you do would do it. First click on the little black down arrow next to the Green Circle/White Triangle icon (Run icon) you click to run your programs.
- Make sure your program is the one currently highlighted in the list, and click on Run Configurations.
- Click on the Arguments tab, and enter N and the key in the Program Arguments window ("20 24" in this case).
- Run your program. From then on, whenever you press the run-icon it will use these two numbers for N and key. If you want to change them, go through these same two steps again.
- Your output should be sorted. To sort an ArrayList of integers, you can use the Collections library, as illustrated below:
import java.util.Collections; ... ArrayList<Integer> indexes = new ArrayList<Integers>(); // add some ints to the array ... // sort the ArrayList Collections.sort(indexes);
- Submit your program on Moodle, in the Homework 5, Problem 1 section.
Problem #2
- Modify the N-Queens problem seen in Lab #9 and make it compute the total number of different solutions existing for an NxN board. The program as we have seen in the lab stops when it finds a solution, but there might be many different possible ways of putting N queens on the NxN board. Make your program compute the total number of such solutions.
- Call your program Hw5_2.java.
- The output of your program should just be an integer number representing the number of solutions.
- Your program will get N from the command line, as in:
java Hw5_2 20
- which will compute the total number of different ways we can organize 20 queens on a 20x20 chessboard.
- Submit your program to Moodle, Homework 5, Problem 2.
Some Solutions
- I modified the solution program to make it display the different solutions found:
java Hw5_2_printSolutions 4 -------- . Q . . . . . Q Q . . . . . Q . -------- . . Q . Q . . . . . . Q . Q . . 2 java Hw5_2_printSolutions 5 ---------- Q . . . . . . Q . . . . . . Q . Q . . . . . . Q . ---------- Q . . . . . . . Q . . Q . . . . . . . Q . . Q . . ---------- . Q . . . . . . Q . Q . . . . . . Q . . . . . . Q ---------- . Q . . . . . . . Q . . Q . . Q . . . . . . . Q . ---------- . . Q . . Q . . . . . . . Q . . Q . . . . . . . Q ---------- . . Q . . . . . . Q . Q . . . . . . Q . Q . . . . ---------- . . . Q . Q . . . . . . Q . . . . . . Q . Q . . . ---------- . . . Q . . Q . . . . . . . Q . . Q . . Q . . . . ---------- . . . . Q . Q . . . . . . Q . Q . . . . . . Q . . ---------- . . . . Q . . Q . . Q . . . . . . . Q . . Q . . . 10 (Note that the solutions below are all rotations of the same solution!) java Hw5_2_printSolutions 6 ------------ . Q . . . . . . . Q . . . . . . . Q Q . . . . . . . Q . . . . . . . Q . ------------ . . Q . . . . . . . . Q . Q . . . . . . . . Q . Q . . . . . . . . Q . . ------------ . . . Q . . Q . . . . . . . . . Q . . Q . . . . . . . . . Q . . Q . . . ------------ . . . . Q . . . Q . . . Q . . . . . . . . . . Q . . . Q . . . Q . . . . 4 java Hw5_2_printSolutions 4 -------- . Q . . . . . Q Q . . . . . Q . -------- . . Q . Q . . . . . . Q . Q . . 2