# Rotating an array

I'm trying to rotate an array such that given a number and an array, rotate the array by that amount. IE:

abcdefgh

given 3:

fghabcde

What is the best way to do this without using additional data structures/minimal space?

``````public static char[] rotateString(char[] s, int rotateAmount){

}
``````
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I don't think this is really all that language agnostic. A C answer would look very different from a Haskell answer. –  deceze Feb 14 '12 at 2:05
Sorry, changed to java –  Matt Feb 14 '12 at 2:06
"without additional data structures", ie I can't copy the elements to build a new array? –  jb. Feb 14 '12 at 2:07
Yes, basically. –  Matt Feb 14 '12 at 2:07
You're right. My bad, I changed the input to char[]. –  Matt Feb 14 '12 at 2:16

Firstly, I will make a big assumption that "better" means "I do not want any/as few new data structures".

If this is the case, then the simplest solution is the best, since I don't need to bother optimising by time. I know that the other solutions are much more elegant, I've only posted it because I've read the question as "make sure it's minimal space-wise".

``````private static String rotate( final char[] a, final int n ) {
for(int i = 0; i < n; i++) {
char tmp = a[a.length-1];
for(int j = a.length-1; j >= 0; j--) {
a[j] = j == 0 ? tmp : a[(j-1+a.length)%a.length];
}
}
return new String(a);
}
``````

So I hacked this out pretty quickly. Basically, I'm just doing rotates by lengths of one until I've rotated `n` number of times. To optimise it you probably could take `gcd(n, a.length)`.

Now, since my solution is pretty terrible, I'll also post the following code taken from here

``````void reverse_string(char* str, int left, int right) {
char* p1 = str + left;
char* p2 = str + right;
while (p1 < p2) {
char temp = *p1;
*p1 = *p2;
*p2 = temp;
p1++;
p2--;
}
}

void rotate(char* str, int k) {
int n = strlen(str);
reverse_string(str, 0, n-1);
reverse_string(str, 0, k-1);
reverse_string(str, k, n-1);
}
``````

This is, what I assume to be a C-style implementation that runs faster than mine, using a basic idea that with three reverses, you can implement an inline shift.

As is said here,

The trick is to do three reverse operation. One for the entire string, one from index 0 to k-1, and lastly index k to n-1. Magically, this will yield the correct rotated array, without any extra space! (Of course, you need a temporary variable for swapping).

I haven't verified this property on the blog I've linked to, so I will post it with a grain of salt that it would appear to work but I've never tested it myself...

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you actually do not need any tmp variable for swapping if you think about it! ;) –  Gevorg Feb 14 '12 at 14:19
In C or C++ you should rotate by memory movement. But the question was on java... –  Gangnus Feb 14 '12 at 22:39
@Gevorg, I'm sure you're right, XOR swaps and other things that I'm bad at remembering vaguely come to mind =P There are much cooler and more efficient ways for swapping things that I don't remember at all ^^' –  blahman Feb 15 '12 at 1:31
`char a = 'a'; char b = 'b'; a = (char)(a + b); b = (char)(a - b); a = (char)(a - b);` ;) –  Gevorg Feb 15 '12 at 15:35
A tricky way to swap without tmp variable: swap(x,y) { x ^= y ^= x ^=y; } –  Uri Feb 16 '12 at 9:50
show 1 more comment

Something like this ? It requires O(1) extra storage for `temp`. Try running this with `shift=1`, to see the idea behind it.

``````public static String rotateString(char[] s, int rotateAmount) {
int length = s.length;
int shift = (length - rotateAmount) % length;
for (int start = 0; start < gcd(length, shift); start++) {
char temp = s[start];
for (int i = (start + shift)%length; i != start; i = (i + shift) % length) {
s[(length + i - shift) % length] = s[i];
}
s[(length + start - shift) % length] = temp;
}
return new String(s);
}
``````

`gcd(a,b)` is the greatest common denominator of `a` and `b`, and can be computed using e.g., Euclid's Algorithm.

The time complexity is O(n), where `n` is the length of the array.

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This got an IndexOutOfBoundsException when I did it. I used shift = 3 and length = 8 (the test case the poster provides in the question). I'm not entirely sure what went wrong though... –  blahman Feb 14 '12 at 2:30
Fixed; this time also tested it :) –  user1071136 Feb 14 '12 at 2:52

Should I do this?

``````public static char[] rotateString(char[] s, int rotateAmount){
String oldStr=new String(s);
String newStr=oldStr.substring(oldStr.length()-rotateAmount,oldStr.length())+oldStr.substring(0,oldStr.length()-rotateAmount);
return newStr.toCharArray();
}
``````
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The author wanted less data structures. But you've made...lots of data structures? I wouldn't say this'd be exactly to what the author wanted...but I'll let him/her decide. –  blahman Feb 14 '12 at 2:25

The Java implementation of `Collections.rotate(List, int)` can be found here; it uses only constant overhead, and it's quite clean and easy to understand. I wouldn't necessarily just call it (although with a wrapper like Guava's `Chars.asList`, there would only be a constant overhead), but the algorithm is neat and clean, and you could adapt it easily enough to your needs.

It's `O(n)`, but the reason why isn't quite obvious; most of the work is figuring out why it will never visit any one index more than once. I'll leave that as an exercise.

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The author wanted less data structures. But this implementation makes...lots of data structures? I wouldn't say this'd be exactly to what the author wanted...but I'll let him/her decide. Mind, I'm no stellar programmer myself, and I think that implementation's great, it's just it constructs extra structures is all... –  blahman Feb 14 '12 at 2:38
Sorry if I wasn't clear, I was suggesting borrowing the algorithm, not using it directly. –  Louis Wasserman Feb 14 '12 at 3:31
Ah. That's fair enough. I was reading through the implementation and I thought I saw it creating new data structures, which was why I commented as I did. Perhaps I may have mis-stated that since the link I provided uses the same/a similar idea. ^^' –  blahman Feb 14 '12 at 4:03

Let me explain. When you push abcdefgh to stack it becomes hgfedcba

Now Pop one element at a time and prepend the string. lets assume rotation amount is 3.

When you pop first elemnt you get h. Since 3 is less than number of characters popped pop one more element and prepend to h. So when you pop the next element you get g. Prepend g to h. So it becomes hg. Repeat the process for the amount of rotation(here it is 3) hence it becomes fgh.

Now Create a new string and pop the rest of elements from the stack and prepend each character popped. Hence it becomes "abcd".

Combine the two strings. which is fghabcd.

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As you have to return a result array, you have to create it anyway.

``````public static char[] rotateString(char[] s, int rotateAmount){
char[] res;
int n=s.length;
int j=rotateAmount>0 ? rotateAmount: rotateAmount+n;
for (i=0; i<n; i++){
j++;
if(j=n) j=0;
res[j]=s[i];
}
}
``````
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