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So I am learning Java and doing a bit of basic algorithms (still really new to this).

Say the requirement is to reverse an integer of 5143 so it becomes 3415.

Which of the following is the better way to do it (or is there an even better way)? The two different functions are reverse() and reverseNum (Ability to reverse 0 value is neglected):

public class ReverseIntegers {

public static void main(String[] args) {



public static void reverse(int number) {

    String numString = Integer.toString(number);
    String result = "";

    char[] cArray = numString.toCharArray();

    for (int i = (cArray.length - 1); i >= 0; i--) {
        result += Character.toString(cArray[i]);    // concatenate the String numbers in reverse order




public static void reverseNum(int number) {

    int numLength = Integer.toString(number).length();

    int[] numArray;
    numArray = new int[numLength];

    int numMod;
    int numModLength;
    int result = 0;

    for (int i = numLength - 1; i >= 0; i--) {

        numMod = (int)(number % Math.pow(10, i + 1));    // eliminate first integer value one by one
        numModLength = Integer.toString(numMod).length();

        while (numModLength > 1) {    // obtain the first integer value of the remainder
            numMod = (numMod / 10); 

        numArray[i] = numMod;    // assign the first integer value to the array

    int digits = numArray.length - 1;

    for (int i = 0; i < numArray.length; i++) {    // put numbers in the array in reverse sequence

        result += numArray[i] * Math.pow(10, digits);



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I don't think the competition is between reverse and reverseNum. I think the real contest is between reverse and an implementation that's purely based on integer math and doesn't use strings at all. –  NPE Jan 9 '12 at 15:49
Yes, but from a programming perspective, is there a preferred way of doing something like this? Such as best practice being using the String one because it is easier to understand? –  bash- Jan 9 '12 at 15:51
Both methods do not consider negative values. –  khachik Jan 9 '12 at 15:53

7 Answers 7

up vote 4 down vote accepted

The first function is roughly equivalent to:

String rev = new StringBuilder().append(number).reverse().toString();

The second function is (in my opinion) quite hard to read. It is also quite inefficient due to the repeated calls to Integer.toString().

A third alternative (which you haven't coded up) is to have a function that's purely based on integer maths and doesn't use strings at all. It'll probably be the most efficient of the lot. It will, however, require some care in how it deals with numbers that end in zeroes.

In my view the contest is between the first and the third alternatives; the second function has the shortcomings of both and the advantages of neither.

In the absence of any further information, I'd probably use the code at the start of this answer, and would replace it with something that doesn't using strings if and only if profiling the app suggests it's worth doing.

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How about this:

public static int reverseInt(int n)
    int result = 0;
    while(n != 0)
        result *= 10;
        result += (n % 10);
        n /= 10;

    return result;
share|improve this answer
Try it on n = -12345. Are you sure it's what OP wants? –  alf Jan 9 '12 at 16:01
@alf reverseInt(-12345) returns -54321, what is wrong with that? –  Eng.Fouad Jan 9 '12 at 16:02
Well, it's not defined by the task definition, that's the problem :) –  alf Jan 9 '12 at 16:04
+1: You can also write public static int reverseInt(int n) { int result = 0; for (;n != 0;n /= 10) result = result * 10 + n % 10; return result; } –  Peter Lawrey Jan 9 '12 at 16:45

When analyzing algorithms consider the following (and others depending on your situation): development effort, resource cost, and maintainability.

  • Development Effort - Which was more difficult / time consuming to create? You will have to answer that question. Could this be solved by a more elegant (StringBuffer.reverse()) solution?

  • Resource Cost - It seems to be that the first is cheaper in most cases (first glance, I may be wrong), but this heavily depends on your problem (often they have the same complexity, here the first can be reduced to O(N) if you use a StringBuffer, but currently the second algorithm wins here).

For example, the choice may change depending on how many digits there are, which can cause memory or time problems at very large N (digits). Resource cost is often not important with small problems (will you be running this all the time)? If you invest too much into resource cost, you have increased development effort. This is why it is often suggested that optimization is done when a resource problem arises.

If you really need to know and you cannot determine by analysis of algorithms, an instinct should always be to empirically test the code.

  • Maintainability - Will someone else looking at your code be able to quickly understand and change it? For me the simplicity of the first algorithm wins (by far).
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and your answer to the OP question is? –  alf Jan 9 '12 at 15:56
In each of the 3 parts I compared the two algorithms - ultimately the first algorithm wins but there are other algorithms out there as mentioned in the first part. –  Cameron S Jan 9 '12 at 15:58
even with O(n^2) complexity? are you sure? –  alf Jan 9 '12 at 15:59
result += Character.toString(cArray[i]); == O(result.length), where result length goes from 0 to N. That gives us O(n * n/2) = O(n^2) –  alf Jan 9 '12 at 16:02
True - I'll edit. thank you that was valuable to learn! –  Cameron S Jan 9 '12 at 16:05

Even better way:

new StringBuilder("" + number).reverse().toString()
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I would suggest to always check existing API because there is usually some handy method around already. Like:

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You can achieve the same result using string operations:

int n = 5143;
String nStr = Integer.toString(n);
String nStrRev = new StringBuilder(nStr).reverse().toString();
int nRev = Integer.parseInt(nStrRev); // nRev == 3415
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The best way to approach an algorithm is to realize that the algorithm measures something that is distinct from the correctness of the program.

Assuming that two programs both provide the same output, can you prove that one performs better under certain circumstances? If you can, then you have made an argument that it is the better algorithm under those circumstances. As long as those circumstances hold, that implementation of the solution will be the better program.

A good example is an address book. Very simple address books are just notebooks. Addresses are written in as they are received. A more complex address book is printed with pages which provide easy indexing by the alphabet.

If you only write down addresses, and rarely look them up, the unsorted address book might be faster to use than the one where you must jump to the correct letter. If you mostly look up addresses that are rarely written down, then the name indexed address book is clearly superior. If you are trying to look up a name based on when it is written in the book, then the unsorted address book is better than the indexed one (although a date oriented address book might be even better).

So know you understand what the field of algorithms is meant to analyze, the only trick is that you have to get good at describing operations mathematically, and proving your point with more than mere anecdote.

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