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best way to populate NSArray in this algorithm

I intend to make a program that does the following:

``````Create an NSArray populated with numbers from 1 to 100,000.
Loop over some code that deletes certain elements of the NSArray when certain conditions are met.
Store the resultant NSArray.
``````

However the above steps will also be looped over many times and so I need a fast way of making this NSArray that has 100,000 number elements.

So what is the fastest way of doing it?

Is there an alternative to iteratively populating an Array using a for loop? Such as an NSArray method that could do this quickly for me?

Or perhaps I could make the NSArray with the 100,000 numbers by any means the first time. And then create every new NSArray (for step 1) by using method arraywithArray? (is it quicker way of doing it?)

Or perhaps you have something completely different in mind that will achieve what I want.

edit: replace NSArray with NSMutableArray in above post

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Why do you need this 100000 element array? – ZhangChn Oct 23 '12 at 2:20

You may want to look at `NSMutableIndexSet`. It is designed to efficiently store ranges of numbers.

You can initialize it like this:

``````NSMutableIndexSet *set = [[NSMutableIndexSet alloc]
initWithIndexesInRange:NSMakeRange(1, 100000)];
``````

Then you can remove, for example, 123 from it like this:

``````[set removeIndex:123];
``````

Or you can remove 400 through 409 like this:

``````[set removeIndexesInRange:NSMakeRange(400, 10)];
``````

You can iterate through all of the remaining indexes in the set like this:

``````[set enumerateIndexesUsingBlock:^(NSUInteger i, BOOL *stop) {
NSLog(@"set still includes %lu", (unsigned long)i);
}];
``````

or, more efficiently, like this:

``````[set enumerateRangesUsingBlock:^(NSRange range, BOOL *stop) {
NSLog(@"set still includes %lu indexes starting at %lu",
(unsigned long)range.length, (unsigned long)range.location);
}];
``````
-

It is difficult to tell in advance which method will be the fastest. I like the block based functions, e.g.

``````NSMutableArray *array = ...; // your mutable array

NSIndexSet *toBeRemoved = [array indexesOfObjectsPassingTest:^BOOL(NSNumber *num, NSUInteger idx, BOOL *stop) {
// Block is called for each number "num" in the array.
// return YES if the element should be removed and NO otherwise;
}];
[array removeObjectsAtIndexes:toBeRemoved];
``````

You should probably start with a correctly working algorithm and then use Instruments for profiling.

-

I'm quite certain it will be fastest to create the array using a c array, then creating an `NSArray` from that (benchmark coming soon). Depending on how you want to delete the numbers, it may be fastest to do that in the initial loop:

``````const int max_num = 100000;
...
id *nums = malloc(max_num * sizeof(*nums));
int c = 0;
for(int i = 1; i <= max_num; i++) {
if(!should_skip(i)) nums[c++] = @(i);
}
NSArray *nsa = [NSArray arrayWithObjects:nums count:c];
``````

First benchmark was somewhat surprising. For 100M objects:

``````NSArray alloc init:             8.6s
NSArray alloc initWithCapacity: 8.6s
id *nums:                       6.4s
``````

So an array is faster, but not by as much as I expected.

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+1, not only faster, but lighter as well. NSArray incurs penalties for keeping it's contents indexed. – CodaFi Oct 23 '12 at 4:03

You can use fast enumeration to search through the array.

``````for(NSNumber item in myArrayOfNumbers)
{
If(some condition)
{
NSLog(@"Found an Item: %@",item);
}
}
``````
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Please take into account I am on a mobile on a train so the layout isn't nice. – Ste Prescott Oct 23 '12 at 2:23
It should be noted that you cannot modify an array while using fast enumeration. – sosborn Oct 23 '12 at 2:27
Thanks to @Kevin for sorting out the formatting. – Ste Prescott Oct 23 '12 at 2:40

You might want to reconsider what you are doing here. Ask yourself why you want such an array. If your goal is to manipulate an arbitrarily large collection of integers, you'll likely prefer to use `NSIndexSet` (and its mutable counterpart).

If you really want to manipulate a `NSArray` in the most efficient way, you will want to implement a dedicated subclass that is especially optimized for this kind of job.

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