# What is the difference between Linear search and Binary search?

What is the difference between Linear search and Binary search?

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Please read the appropriate sections in your course material which, has hopefully, been selected and prepared by your instructor(s). Failing that, a general wikipedia, c2 or google search can answer may of these sort of questions. There is a good amount of well-done course/lecture notes to be found online as well. –  user166390 Dec 10 '10 at 5:32

A linear search looks down a list, one item at a time, without jumping. In complexity terms this is an `O(n)` search - the time taken to search the list gets bigger at the same rate as the list does.

A binary search is when you start with the middle of a sorted list, and see whether that's greater than or less than the value you're looking for, which determines whether the value is in the first or second half of the list. Jump to the half way through the sublist, and compare again etc. This is pretty much how humans typically look up a word in a dictionary (although we use better heuristics, obviously - if you're looking for "cat" you don't start off at "M"). In complexity terms this is an `O(log n)` search - the number of search operations grows more slowly than the list does, because you're halving the "search space" with each operation.

As an example, suppose you were looking for U in an A-Z list of letters (index 0-25; we're looking for the value at index 20).

`list[0] == 'U'`? No.
`list[1] == 'U'`? No.
`list[2] == 'U'`? No.
`list[3] == 'U'`? No.
`list[4] == 'U'`? No.
`list[5] == 'U'`? No.
... `list[20] == 'U'`? Yes. Finished.

Compare `list[12]` ('M') with 'U': Smaller, look further on. (Range=13-25)
Compare `list[19]` ('T') with 'U': Smaller, look further on. (Range=20-25)
Compare `list[22]` ('W') with 'U': Bigger, look earlier. (Range=20-21)
Compare `list[20]` ('U') with 'U': Found it! Finished.

Comparing the two:

• Binary search requires the input data to be sorted; linear search doesn't
• Binary search requires an ordering comparison; linear search only requires equality comparisons
• Binary search has complexity O(log n); linear search has complexity O(n) as discussed earlier
• Binary search requires random access to the data; linear search only requires sequential access (this can be very important - it means a linear search can stream data of arbitrary size)
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+1, although I don't particularly like your dictionary analogy. A better analogy would be the "guess my number between 1 and 100 game" with responses of "you got it", "too high", or "too low". –  Adam Rosenfield May 4 '09 at 22:06
The dictionary analogy seems fine to me, though it's a better match for interpolation search. –  Nick Johnson Oct 17 '09 at 13:31

Think of it as two different ways of finding your way in a phonebook. A linear search is starting at the beginning, reading every name until you find what you're looking for. A binary search, on the other hand, is when you open the book (usually in the middle), look at the name on top of the page, and decide if the name you're looking for is bigger or smaller than the one you're looking for. If the name you're looking for is bigger, then you continue searching the upper part of the book in this very fashion.

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very nice analogy: explains it in a very small amount of words! Congratulations! –  Peter Parker Oct 17 '09 at 11:08
Thank you Peter Parker, that's very nice of you to say. –  Mia Clarke Oct 17 '09 at 16:21

A linear search starts at the beginning of a list of values, and checks 1 by 1 in order for the result you are looking for.

A binary search starts in the middle of a sorted array, and determines which side (if any) the value you are looking for is on. That "half" of the array is then searched again in the same fashion, dividing the results in half by two each time.

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I would like to add one difference-

For linear search values need not to be sorted.

But for binary search the values must be in sorted order.

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Linear search also referred to as sequential search looks at each element in sequence from the start to see if the desired element is present in the data structure. When the amount of data is small, this search is fast.Its easy but work needed is in proportion to the amount of data to be searched.Doubling the number of elements will double the time to search if the desired element is not present.

Binary search is efficient for larger array. In this we check the middle element.If the value is bigger that what we are looking for, then look in the first half;otherwise,look in the second half. Repeat this until the desired item is found. The table must be sorted for binary search. It eliminates half the data at each iteration.Its logarithmic.

If we have 1000 elements to search, binary search takes about 10 steps, linear search 1000 steps.

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@Prabu - Incorrect - Best case would be 1, worst 1000, with an average of 500. –  mP. May 4 '09 at 21:10

binary search runs in O(logn) time whereas linear search runs in O(n) times thus binary search has better performance

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Make sure to deliberate about whether the win of the quicker binary search is worth the cost of keeping the list sorted (to be able to use the binary search). I.e. if you have lots of insert/remove operations and only an occasional search the binary search could in total be slower than the linear search.

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Try this: Pick a random name "Lastname, Firstname" and look it up in your phonebook.

1st time: start at the beginning of the book, reading names until you find it, or else find the place where it would have occurred alphabetically and note that it isn't there.

2nd time: Open the book at the half way point and look at the page. Ask yourself, should this person be to the left or to the right. Whichever one it is, take that 1/2 and find the middle of it. Repeat this procedure until you find the page where the entry should be and then either apply the same process to columns, or just search linearly along the names on the page as before.

Time both methods and report back!

[also consider what approach is better if all you have is a list of names, not sorted...]

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A linear search looks down a list, one item at a time, without jumping. In complexity terms this is an O(n) search - the time taken to search the list gets bigger at the same rate as the list does.

A binary search is when you start with the middle of a sorted list, and see whether that's greater than or less than the value you're looking for, which determines whether the value is in the first or second half of the list. Jump to the half way through the sublist, and compare again etc. This is pretty much how humans typically look up a word in a dictionary (although we use better heuristics, obviously - if you're looking for "cat" you don't start off at "M"). In complexity terms this is an O(log n) search - the number of search operations grows more slowly than the list does, because you're halving the "search space" with each operation.

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