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I was wondering if you can help me with this program. I have been struggling with it for hours and have just trashed my code because the TA doesn't like how I executed it. I am completely hopeless and if anyone can help me out step by step, I would greatly appreciate it.


In this project you will write a Java program that reads a positive integer n from standard input, then prints out the first n prime numbers. We say that an integer m is divisible by a non-zero integer d if there exists an integer k such that m = k d , i.e. if d divides evenly into m. Equivalently, m is divisible by d if the remainder of m upon (integer) division by d is zero. We would also express this by saying that d is a divisor of m. A positive integer p is called prime if its only positive divisors are 1 and p. The one exception to this rule is the number 1 itself, which is considered to be non-prime. A positive integer that is not prime is called composite. Euclid showed that there are infinitely many prime numbers. The prime and composite sequences begin as follows:

Primes: 2, 3, 5, 7, 11, 13, 17, 19, 23, 29, … 

Composites: 1, 4, 6, 8, 9, 10, 12, 14, 15, 16, 18, 20, 21, 22, 24, 25, 26, 27, 28, … 

There are many ways to test a number for primality, but perhaps the simplest is to simply do trial divisions. Begin by dividing m by 2, and if it divides evenly, then m is not prime. Otherwise, divide by 3, then 4, then 5, etc. If at any point m is found to be divisible by a number d in the range 2 d m−1, then halt, and conclude that m is composite. Otherwise, conclude that m is prime. A moment’s thought shows that one need not do any trial divisions by numbers d which are themselves composite. For instance, if a trial division by 2 fails (i.e. has non-zero remainder, so m is odd), then a trial division by 4, 6, or 8, or any even number, must also fail. Thus to test a number m for primality, one need only do trial divisions by prime numbers less than m. Furthermore, it is not necessary to go all the way up to m−1. One need only do trial divisions of m by primes p in the range 2 p m . To see this, suppose m >1 is composite. Then there exist positive integers a and b such that 1 < a < m, 1 < b < m, and m = ab . But if both a > m and b > m , then ab > m, contradicting that m = ab . Hence one of a or b must be less than or equal to m .

To implement this process in java you will write a function called isPrime() with the following signature:

static boolean isPrime(int m, int[] P) 

This function will return true or false according to whether m is prime or composite. The array argument P will contain a sufficient number of primes to do the testing. Specifically, at the time isPrime() is called, array P must contain (at least) all primes p in the range 2 p m . For instance, to test m = 53 for primality, one must do successive trial divisions by 2, 3, 5, and 7. We go no further since 11 > 53 . Thus a precondition for the function call isPrime(53, P) is that P[0] = 2 , P[1] = 3 , P[2] = 5, and P[3] = 7 . The return value in this case would be true since all these divisions fail. Similarly to test m =143 , one must do trial divisions by 2, 3, 5, 7, and 11 (since 13 > 143 ). The precondition for the function call isPrime(143, P) is therefore P[0] = 2 , P[1] = 3 , P[2] = 5, P[3] = 7 , and P[4] =11. The return value in this case would be false since 11 divides 143. Function isPrime() should contain a loop that steps through array P, doing trial divisions. This loop should terminate when 2 either a trial division succeeds, in which case false is returned, or until the next prime in P is greater than m , in which case true is returned. Function main() in this project will read the command line argument n, allocate an int array of length n, fill the array with primes, then print the contents of the array to stdout according to the format described below. In the context of function main(), we will refer to this array as Primes[]. Thus array Primes[] plays a dual role in this project. On the one hand, it is used to collect, store, and print the output data. On the other hand, it is passed to function isPrime() to test new integers for primality. Whenever isPrime() returns true, the newly discovered prime will be placed at the appropriate position in array Primes[]. This process works since, as explained above, the primes needed to test an integer m range only up to m , and all of these primes (and more) will already be stored in array Primes[] when m is tested. Of course it will be necessary to initialize Primes[0] = 2 manually, then proceed to test 3, 4, … for primality using function isPrime().

The following is an outline of the steps to be performed in function main(). • Check that the user supplied exactly one command line argument which can be interpreted as a positive integer n. If the command line argument is not a single positive integer, your program will print a usage message as specified in the examples below, then exit. • Allocate array Primes[] of length n and initialize Primes[0] = 2 . • Enter a loop which will discover subsequent primes and store them as Primes[1] , Primes[2], Primes[3] , ..., Primes[n −1] . This loop should contain an inner loop which walks through successive integers and tests them for primality by calling function isPrime() with appropriate arguments. • Print the contents of array Primes[] to stdout, 10 to a line separated by single spaces. In other words Primes[0] through Primes[9] will go on line 1, Primes[10] though Primes[19] will go on line 2, and so on. Note that if n is not a multiple of 10, then the last line of output will contain fewer than 10 primes.

Your program, which will be called, will produce output identical to that of the sample runs below. (As usual % signifies the unix prompt.)

% java Prime 
Usage: java Prime [PositiveInteger] 
% java Prime xyz 
Usage: java Prime [PositiveInteger] 
% java Prime 10 20 
Usage: java Prime [PositiveInteger] 
% java Prime 75 
2 3 5 7 11 13 17 19 23 29 
31 37 41 43 47 53 59 61 67 71 
73 79 83 89 97 101 103 107 109 113 
127 131 137 139 149 151 157 163 167 173 
179 181 191 193 197 199 211 223 227 229 
233 239 241 251 257 263 269 271 277 281 
283 293 307 311 313 317 331 337 347 349 
353 359 367 373 379 

As you can see, inappropriate command line argument(s) generate a usage message which is similar to that of many unix commands. (Try doing the more command with no arguments to see such a message.) Your program will include a function called Usage() having signature

static void Usage() 

that prints this message to stderr, then exits. Thus your program will contain three functions in all: main(), isPrime(), and Usage(). Each should be preceded by a comment block giving it’s name, a short description of it’s operation, and any necessary preconditions (such as those for isPrime().) See examples on the webpage.

Attempted Solution

class Prime {
    public static void main(String[] args) {
        int num1 = 0;
        int num2 = 0;
        int num3;
        for (num1 = 1; num1 < 101; num1++)
        for (num2 = 1; num2 < 101; num1++)
        num3 = num2 % num1;
        if (num3 == 0)
            System.out.println("The prime numbers are " + num1);
            System.out.println("The prime numbers are " + (num1 += 1));
share|improve this question
Maybe you should post the code you just trashed, rather than the problem. Someone might be able to point out something that is not quite right. – Andy White May 14 '10 at 0:53
You've spent "hours" writing code where you have been given the exact algorithm to use for perhaps the most common problem in all of computer science, and couldn't figure out how to do it? Somehow, I doubt this very much... – John Rasch May 14 '10 at 0:57
can you help me in understanding it? – Ben May 14 '10 at 1:05
"We go no further since 11 > 53". Tell your professor he should proofread his assignments :). (He meant 11^2 > 53) – Michael Mrozek May 14 '10 at 1:13
@Ben Some sort of idea of what you've tried would be helpful; as John said, the assignment literally gives you the algorithm you need to implement, and makes it trivial to write isPrime() by having it take an array of already known primes -- all the function needs to do is divide in a loop – Michael Mrozek May 14 '10 at 1:15
up vote 3 down vote accepted

Your example solution doesn't really follow the problem's specification at all. You should focus first on writing the static boolean isPrime(int m, int[] P) method. All that method needs to do is:

  • Iterate over the contents of P
  • If an element evenly divides m, m is composite -- return false
  • If an element's square is greater than m, m is prime -- return true. It sounds like from the problem description this won't ever happen, P will only have the primes from 2 to the one just before crossing the sqrt(m) boundary
  • If all the elements of P have been tested, m is prime -- return true

After that you can write main to make the primes array and build it up using the described loop, and finally do argument checking and implement the static void Usage() function to call if the arguments are invalid

share|improve this answer
Also I suggest you even skip writting a main, write a couple unit tests to test your solution--you will find development will go quicker and you will find it easier to debug and re-run as you revise your code. – Bill K Jan 11 '13 at 0:37

Ben, it looks like you are attempting something that is far beyond your current capability. Start with some much simpler problems. Talk to your teacher and consider taking a more rudimentary course. You don't appear to understand either what the program is supposed to do, or how to write a program that might satisfy the requirements, and nothing we say here can overcome that - you have to develop more understanding of math and programming. We're happy to help with that, but just writing your program here won't help you, and you are too far away from a solution for suggestions to help. I'm sorry if this sounds harsh; honestly, I mean it constructively. Please stay with it - but start simpler.

share|improve this answer

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