An interview question I was asked last week:

I need a function to print out whether a number is positive or negative without using conditional statements like if else while for switch a? b:c etc. How can i do that.

I told the interviewer that it's impossible cuz the question is 'conditional' in nature. He told me it's possible but didn't tell me how. I did quite a bit of search but no good answers.

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    Correct answer- "It doesn't matter because the question is stupid. Anyone using tricks in production code instead of using an if statement deserves to be fired." – Gabe Sechan Jun 29 '14 at 5:32
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    What's the point of such questions in interviews? I doubt the employer finds the best candidate with this. Sure, thinking is stretched but the solution is less than readable. – bbalchev Jun 29 '14 at 5:33
  • I hope this was for a job close to bits or hardware. – David Ehrmann Jun 29 '14 at 6:47
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    @GabeSechan If this is a good idea depends on the nature of the code. Such tricks can be useful in high performance code. And in cryptography code they are essential to avoid side channel attacks. Many modern crypto libraries mandate that there must not be any branches depending on secret data. So I strongly disagree with your statement in such a general form. – CodesInChaos Jun 29 '14 at 10:40
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    a ? b : c is not a conditional statement, it's a conditional expression. In fact, being an expression, not a statement, is the whole raison d'être for the conditional operator in the first place! Therefore, the question is wrong ;-) (Hey, if you want to play tricks with your interviewees, get your frigging questions right!) – Jörg W Mittag Jun 29 '14 at 10:47

One possible solution:

String[] responses = {"Positive", "Negative"};
System.out.println(responses[(i >> 31) & 1]);

This also counts zero as a positive number.

Because integers in Java are required to be stored in two's complement (or behave as if they are) the highest bit of any negative number is 1, and the highest bit of any other number is 0. (i >> 31) copies the highest bit to every other bit (so negative numbers become 11111111 11111111 11111111 11111111 and positive/zero numbers become 00000000 00000000 00000000 00000000). & 1 sets all but the lowest bit to 0. The combination (i >> 31) & 1 effectively reads only the highest bit of i.

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    Good answer! Can you expand on why this works? – Michael Petrotta Jun 29 '14 at 5:31
  • Yes. But my explanation might be confusing. – user253751 Jun 29 '14 at 5:36
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    The question didn't specify only integers. You could get around that with casting i/abs(i) to int32 before doing the above. – ebarr Jun 29 '14 at 8:01
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    @ebarr you can use Double.doubleToLongBits or Float.floatToIntBits and then the same thing - floats and doubles also use the highest bit for sign. – user253751 Jun 29 '14 at 9:16
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    Shifting to the right 31 bits moves the 'sign bit' to the lowest-order bit; 'anding' that with 1 will produce either 1 or 0. Now you have the index into the array of strings. I think >>> would shift it without extending the sign bit, and eliminate the need for the and, so that another answer would be to use responses[i >>> 31)]. – arcy Jun 29 '14 at 17:26

Just to elaborate on immibis' answer a bit:

int index(int i) {
    return 1 + (i>>31) - (-i>>31);

String[] text = {"negative", "zero", "positive"};

private String text(int i) {
    return text[index(i)];

The signed shift i>>31 converts every negative number into -1 and every other into 0. Computing -i>>31 allows to tell positive numbers from non-positive ones. Now look at the computed index:

positive: 1 +    0 - (-1) = 2
zero:     1 +    0 -    0 = 1
negative: 1 + (-1) -    0 = 0

Here is a variation, accounting for the fact that zero is neither positive or negative:

    int x = (int)Math.sqrt(Math.pow(n, 2));
    try {
        x = n / x;
    catch (ArithmeticException e) {
        x = 0;

    String[] result = {"negative", "zero", "positive"};
    System.out.println(result[x + 1]);
  • Cool out of the box answer. – meaning-matters Jun 29 '14 at 8:35
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    This thinks integers > 46340 or < -46340 are zero. I disagree. – dave_thompson_085 Jun 29 '14 at 11:52
  • @dave_thompson_085 good point. I should have used Math.pow. Answer edited accordingly. – Wcrousse Jun 29 '14 at 16:47
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    You could also use Math.signum – Darkhogg Jun 29 '14 at 20:44

Super simple solution abusing the fact that arrays cannot have a negative size:

void printPositive(int i) {
    try { new int[i]; System.out.println("positive"); } 
    catch( NegativeArraySizeException e) { System.out.println("negative"); }

Okay, this answer may allocate a huge array if i is positive and the VM might use conditionals under its hood when evaluating new int[i], but at least it would show the interviewer some kind of creativity. In addition, it might show the interviewer that you can think out of the box (because he might anticipate that you will do some bit magic as most of the other answers use) and do something completely different.

  • It would always fail for number close to Integer.MAX_VALUE as the maximum array size is a bit smaller (the JVM needs some place for a header). Note also, that avoiding branches has a good reason: branches are slow (and most answers to this question are even slower). – maaartinus Jun 29 '14 at 18:35
  • @maaartinus: Right, we should catch OutOfMemoryError, too. Of course, this solution is nothing one would use for real code. Branches are not slow by default; only branches that cannot be predicted well are slow. So if the input to your function is positive 95% of the time, the branch will be virtually free for positive inputs. – gexicide Jun 30 '14 at 7:53
  • Concerning branches, I know. And there's also the (in)famous question. – maaartinus Jun 30 '14 at 8:11

Old answer. The reason I am making this new answer is because I was using Boolean's compareTo method, which uses a ternary operator to convert boolean expressions to binary.

Here is my new answer, which is much more unreadable.

public static String positiveOrNegative(int n) {

    ArrayList<String> responses = new ArrayList<String>();
    // first element should be "Zero", so if n is 0, the response is "Zero"

    // this populates the ArrayList with elements "Positive" for n elements
    // so that if n is positive, n will be an index in the ArrayList
    // and the return will be "Positive"
    // but still if n is negative, it will never be an index in the ArrayList
    for (int i = 0; i < n; i++) {

    String response = "";
    try {
        // try to get a response from the ArrayList
        response = responses.get(n);
    } catch (Exception e) {
         // index is out of bounds, so it must have been negative
        response = "Negative";

    return response;

public static void main(String[] args) {
    System.out.println(positiveOrNegative(4)); // Positive
    System.out.println(positiveOrNegative(1)); // Positive
    System.out.println(positiveOrNegative(0)); // Zero
    System.out.println(positiveOrNegative(-1)); // Negative
    System.out.println(positiveOrNegative(-4)); // Negative
  • 2
    -1 because Boolean's internal implementation of compareTo is: return (x == y) ? 0 : (x ? 1 : -1); which, according to requirements, is disallowed. – bbalchev Jun 29 '14 at 6:58
  • @bbalchev I knew that, but I was just hoping it would be an exception to the rule because we never saw it in the function. However, the code is still being used, so you're right. I've edited the answer now to eliminate all use of conditional statements. It's ugly, but at least it's correct. You can take away your downvote if you find this answer suitable now. – Michael Yaworski Jun 29 '14 at 8:16
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    The for loop is also disallowed. – Joe Jun 29 '14 at 18:15
  • @Joe Oh wow I didn't see that one. I'll figure it out later. – Michael Yaworski Jun 29 '14 at 18:26
  • @mikeyaworski probably because the for loop contains a conditional statement. – Joe Jun 29 '14 at 18:59

Another possible solution:

boolean isPositive(int n) {
  return n > ((n + 1) % n);

It does not work for 0 though.

---- EDIT -----

New algorithm:

String isPositive(int n) {
  String[] results = {"-", "", "+"};
  return results[1+(1+((n+1)%n)*((n-1)%n))/n];

It still does not work for 0.

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    you still need code like if (isPositive) print "positive" – OMGPOP Jun 29 '14 at 6:20
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    this isn't really what the question asked. you may as well just do: return n > 0; – Wcrousse Jun 29 '14 at 6:20
  • Ooops, I think I misunderstood the question. – fajarkoe Jun 29 '14 at 6:23
  • Answer fixed. It does not work for 0 though. – fajarkoe Jun 29 '14 at 7:06

Folks, it's not really hard, don't need to shift bits or do weird calls, just use the signum method in the Math class! ;p

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    Which in turn simply uses an if; very clever... – gexicide Jun 29 '14 at 14:02
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    If I were the interviewer, I would employ this person. No point re-inventing wheels. – Dawood says reinstate Monica Jun 30 '14 at 0:45

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