# Optimised array shift method

I have an `NSMutableArray` holding `NSStrings` e.g. `{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}`

I would like to be able to shift elements with wrapping.

So e.g. move 1 to the centre, shifting all elements, wrapping the remaining ones (that cross the bounds) to the start again, and vice versa e.g. 10 to the centre.

`{7, 8, 9, 10, 1, 2, 3, 4, 5, 6}` and `{6, 7, 8, 9, 10, 1, 2, 3, 4, 5}`

Is there an optimised `sort` method like this already existing?

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I think we can do that in linear time with one `for` loop, one for the first `k` elements say 1-6 and next for remaining `m` elements i.e 7-10. and `k+m = n` which is size of the array. But i am not aware of any standard algorithm as such. –  Praveen S Jun 7 '13 at 11:09
@PraveenS - `trueIndex = (offset + index) % array.count`. I think that's better than linear time. –  Hot Licks Jun 7 '13 at 12:45

The most efficient approach would be to create a wrapper object which maintains the current "origin" of the array and re-interprets indexes by adding that origin, modulo the length. In fact, if the array is only accessed in a handful of places this is easily done with 1-2 lines of code in-line.

``````-(id)objectForIndex:(NSInteger) index {
NSInteger realIndex = (origin + index) % array.count;
return [array objectAtIndex:realIndex];
}
``````

(If this extends NS(Mutable)Array then "array" is "super". If only a wrapper then "array" is an instance var. "origin" is an instance var/property in either case.)

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Smart, no need to mutate. –  Helium3 Jun 7 '13 at 20:20
Modulo! Genius! –  Albert Renshaw Oct 30 '14 at 2:10

I'm unaware of any methods on `NSArray` for this, but:

``````static NSArray *shiftArray(NSArray *array, NSInteger pos)
{
NSInteger length = [array count];
NSArray *post = [array subarrayWithRange:(NSRange){ .location = length - pos, .length = pos }];
NSArray *pre = [array subarrayWithRange:(NSRange){ .location = 0, .length = length - pos}];
}
``````

e.g.:

``````NSArray *array = @[@"A", @"B", @"C", @"D", @"E", @"F", @"G", @"H", @"I"];
NSLog(@"array = %@",shiftArray(array, 4));
``````

Should do what you describe.

Logs to the console:

``````array = (
F,
G,
H,
I,
A,
B,
C,
D,
E
)
``````

Likely not performant.

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``````-(NSArray*)shiftForward:(BOOL)forward withbits:(int)bit
{
NSInteger length = [array count];
NSArray *right;
NSArray *left;

if (forward) {
//code for right shift
right = [array subarrayWithRange:(NSRange){ .location = length - bit, .length = bit }];
left = [array subarrayWithRange:(NSRange){ .location = 0, .length = length - bit}];
}else{
//code for left shift
left = [array subarrayWithRange:(NSRange){ .location =0, .length = bit }];
right= [array subarrayWithRange:(NSRange){ .location = bit, .length = length - bit}];
}
}

{
array = @[@"1", @"2", @"3", @"4", @"5", @"6", @"7", @"8", @"9"];
NSLog(@"array is %@",[self shiftForward:YES withbits:3]);
}
``````
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Rotating is essentially done by taking N elements from one end of the array and putting them on the other end instead. You could do this with immutable arrays if you wanted, but mutable arrays offer a slightly cleaner implementation.

For rotate left, the simplest way is probably just:

``````// Make sure we don't overrun the array if the rotation is larger.
numberOfObjectsToRotateLeft %= array.count;

NSRange range = NSMakeRange(0, numberOfObjectsToRotateLeft);
NSMutableArray * rotatedArray = [array mutableCopy];

[rotatedArray removeObjectsInRange:range];

// now return or use rotatedArray
``````

Rotate right would be similar, but the range would be at the end of the array, and you'd insert the objects starting at index 0 with `-insertObjects:atIndexes:`:

``````// Make sure we don't overrun the array if the rotation is larger.
numberOfObjectsToRotateRight %= array.count;

NSRange range = NSMakeRange(array.count - numberOfObjectsToRotateRight, numberOfObjectsToRotateRight);
NSMutableArray * rotatedArray = [array mutableCopy];

NSArray * movedObjects = [rotatedArray subarrayWithRange:range];
[rotatedArray removeObjectsInRange:range];
[rotatedArray insertObjects:movedObjects atIndexes:[NSIndexSet indexSetWithIndexesInRange:NSMakeRange(0, numberOfObjectsToRotateRight)]];

// now return or use rotatedArray
``````
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surely if you are shifting by `N` elements that must wrap around all you would do is take the last `N` array elements and stick them at the front?

and if you are shifting the other way, take the front and put at the back.

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