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I want to make a program in Java that generates numbers between 1 and 1 million, no number should be duplicated nor should anyone be missed. I dont know where to start. I cant keep a record of all the numbers i have used, that would be unpractical. How do i do this?

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closed as not a real question by T.J. Crowder, Eitan T, Mike Mooney, Matteo, Graviton Nov 29 '12 at 2:48

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center. If this question can be reworded to fit the rules in the help center, please edit the question.

What have you tried? What part is giving you trouble? How do you think you should approach it? –  T.J. Crowder Nov 28 '12 at 11:11
What have you tried? The only way not having to remember printed numbers, is to pregenerate all numbers and remove the printed ones. –  jlordo Nov 28 '12 at 11:12
" I cant keep a record of all the numbers i have used, that would be unpractical" Let's see, a million numbers, eight bits per byte, that's 122k to store bitflags for the numbers. Unless you're running in a microcontroller, that shouldn't be a problem. –  T.J. Crowder Nov 28 '12 at 11:13

5 Answers 5

up vote 2 down vote accepted

Store the integers from 1 to 1,000,000 in an array list. Randomly shuffle the list and print out its contents.

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Note what the OP said: " I cant keep a record of all the numbers i have used" –  T.J. Crowder Nov 28 '12 at 11:12
He said he can't keep that record, but I'm not convinced without more evidence –  Brian Agnew Nov 28 '12 at 11:13
@T.J.Crowder: He said it would be "unpractical". Unfortunately he can not solve his problem without that. –  igrimpe Nov 28 '12 at 11:14
@igrimpe: I wouldn't be so sure there isn't a cryptographic trick available, but I'm not a cryptographer. Though if we're talking all of the numbers, 1 - 1,000,000, I'm not sanguine there is. –  T.J. Crowder Nov 28 '12 at 11:15
i've used Random, defined min an max as 1 and 1 million respectively,but it duplicates and misses some of the numbers –  user1859596 Nov 28 '12 at 11:15

So you need to:

  • Output the numbers 1 - 1,000,000 (inclusive)
  • In random order
  • Without duplicates or repetitions
  • Without keeping track of which numbers you've output

This is one of those frustrating questions where the answer is: You can't do that.

So I'll challenge the basis of the question: A million numbers, eight bits per byte, that's 122k to store bitflags for the numbers. Unless you're running in a microcontroller, that shouldn't be a problem. So you should, even in a fairly constrained environment, be able to do something like what NPE has suggested.

But unless you can store the numbers, you just can't do it.

(Made this a CW because I'm just summing up what the community has said in the comments, and because other than "you can't do that" it's just saying "look at NPE's answer".)

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Let's consider your bitmask approach. How exactly do you propose, on step n, to generate a random number that differs from the previous n-1 numbers? If you know of a method that would give a better than O(n^2) overall algorithm, I'd love to hear about it. –  NPE Nov 28 '12 at 11:27
@NPE: I didn't say it would be fast. :-) I think the requirement is dumb and should be tossed. Without it, yours is quite obviously the best approach. (Not my downvote, btw; I think your answer is useful, even though it contradicts the requirements. I also think the question is a time-waster.) –  T.J. Crowder Nov 28 '12 at 11:29
+1 for I didnt say it would be fast. The approach saves memory, not time. If the OP is concerned about memory, it would be the "best" solution. –  igrimpe Nov 28 '12 at 11:36

The one way to do this is to use a pseudo random walk. A simple pseudo random walk uses any large prime (to ensure it has no common factors with the limit) and modulus to wrap the value so that it takes all N values before it repeats.

Here is a smaller example using 100 as the limit and 47 as the prime. You can change this to use 1000000 as the limit and a larger prime like 513239

int last = 0;
for (int i = 0; i < 100; i++) {
    last = (last + 47) % 100;
    System.out.println(last + 1);


48 95 42 89 36 83 30 77 24 71 18 65 12 59 6 53 100 47 94 41 88 35 82 29 76 23 70 17 64 11 58 5 52 99 46 93 40 87 34 81 28 75 22 69 16 63 10 57 4 51 98 45 92 39 86 33 80 27 74 21 68 15 62 9 56 3 50 97 44 91 38 85 32 79 26 73 20 67 14 61 8 55 2 49 96 43 90 37 84 31 78 25 72 19 66 13 60 7 54 1

To make this appear more random you can use a combination of two pseudo random walks.

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+1 way cool. probably not extremely "random", but for some cases "good enough"? –  igrimpe Nov 28 '12 at 16:17
At the very least, its cheap esp if your limit is a power of 2 as you can replace % n with an & (n-1) –  Peter Lawrey Nov 28 '12 at 17:22

Depends on what you mean by 'Random'. You could do something like generate random number between 1 to 100 and then say if the random number generated is 52 print current number + 52 and then print all numbers between current number + 52 and keep on repeating till you reach 1 million.

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Ok so heres the problem with your request.

From what I read you seem to want to obtain a O(1) where you just do a loop 1,000,000 times. Now the only way to do it by having a very good random is by going back and referencing it from and array that the size of 1,000,000. When you print one out you just make that particular spot = 1 unless the spot is already 1 or something like that. But from what you are saying you dont want to keep a record which will now make your random horrible and almost not even random

See there really isnt anything truly random. There is always a pattern but using certain mathematical operations you can create a pretty unrecognizable pattern.

The problem with the random you would have to use is that is that it would only be able to repeat its self after being printed 1,000,000 times.

This could be done like this:

Example randomizing 20 numbers

1 3 5 7 9 11 13 15 17 19 2 4 6 8 10 12 14 16 18 20

Now all that is, is num = (num + 2) % 20

Now of course you can make the difference larger but the situation is the same. This may look a lot like how a hash map works. But mainly I wanted to point out how this can be done with holding a record and printed in a O(1) but its not a good random at all.

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