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I've been learning a lot about algorithms lately, and the binary searched is hailed for its efficiency in finding an item in large amounts of sorted data. But what if the data is not sorted to begin with? at what points does a binary search provide an efficiency boost against sequential search, with binary search having to sort the given array first off THEN search. I'm interested in seeing at what points binary search passes over sequential search, if anyone has tested this before i would love to see some results.

Given an array foo[BUFF] with 14 elements

1 3 6 3 1 87 56 -2 4 61 4 9 81 7

I would assume a sequential sort would be more efficient to find a given number, let's say... 3, because binary search would need to first sort the array THEN search for the number 3. BUT:

Given an array bar[BUFF] with one thousand elements held

1 2 4 9 -2 3 8 9 4 12 4 56 //continued

A call to sort then binary search should in theory be more efficiently if i am not mistaken.

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You have to sort once, search multiple times. If you only search once, it's not worth sorting just to use binary search –  Jan Dvorak Dec 8 '12 at 10:36
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up vote 4 down vote accepted

In an unsorted array where no information is known, you are going to have to do linear time search.

Linear time search checks each element once, so it's complexity is O(n). Comparing that to sorting. Sorting algorithms which must check each element more than once and have a complexity of O(n * log n). So to even get it sorted is slower than a sequential search. Even though binary search is O(log n) it's pretty useless when you just have arbitrarily ordered data.

If your going to search for stuff multiple times though, consider sorting first as it'll increase your efficiency in the long run.

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It's only going to be faster to sort before searching if you need to do multiple searches. If you only need to find a single element, then sorting will be slower, as sorting will necessarily have to inspect every element at some point anyway.

If you are doing multiple searches it may be worth sorting first, but the break-even point (between linear search, and a pre-sort + binary searching) will depend on the number of searches required, the number of elements, the sorting algorithm used, and the data being sorted.

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It doesn't. I didn't say it did? I'm talking about the break even point in performance between a linear-search, and a binary-search + sort. That sort operation adds overhead which will influence which is faster in a given situation. The big-O complexity of the searches is well understood. –  JasonD Dec 8 '12 at 10:42
"the break-even point will depend on ... the sorting algorithm used" –  Jan Dvorak Dec 8 '12 at 10:43
If you want to include the sorting step into performance, you need to account for the number of searches as well (then I'll agree) –  Jan Dvorak Dec 8 '12 at 10:44
Yes. That's what I said. –  JasonD Dec 8 '12 at 10:44
Or you meant breaking point = at how many searches it's worth to sort? Please clarify then (in the answer). –  Jan Dvorak Dec 8 '12 at 10:46
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