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I've made some researches but I didn't find a good article.
I am adding multiple Vectors to one Vector, after that I am printing it:

Iterator it =vector.iterator();

How do I determine the Big-O notation for this function?
For example if the output were:

[Something, Something, Something, Something]
[Something, Something, Something, Something, Something]
[Something, Something, Something, Something, Something, Something]
[Something, Something, Something, Something, Something, Something, Something]
[Something, Something, Something, Something, Something, Something, Something, Something]

And what I am not understanding each line is a vector, for the main vector we need a loop, but for the vectors inside it we don't need a loop, Why ?

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closed as too localized by Brian Roach, Rachel Gallen, john.k.doe, Soner Gönül, Roman C May 9 '13 at 6:06

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O(n) with n being the size of your vector. Simple as that. –  jlordo May 8 '13 at 22:24
The question is a bit unclear. if you want to big O notation of your print, you just have to look at the number of operations you are performing. Say there are N elements in your vector, your printout will have O(N) as asymptotic equivalence ( which is big O notation.) –  Stefan Pante May 8 '13 at 22:26
what about the other vectors inside the main one ? –  Azad May 8 '13 at 22:35

2 Answers 2

When you call toString on a collection (like a Vector), you get a comma separated list, enclosed by square brackets, of the toString of every element in that collection.

So, what your code is doing is calling toString on every Vector in your main Vector which in turn calls toString on every element. So the efficiency is O(n) where n is the total number of objects upon which toString is being called.

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So every vector.get(i) will returns element in that index.toString() ? –  Azad May 8 '13 at 23:12

Assuming you allways follow this "ladder pattern":

If the size of the first vector is 1, and the size of the last vector is K, using summation formulas, the complexity is:


Now, if the size of the first vector is k < K, we have:

K(K+1)/2 - (k-1)(k)/2

Finally, if we dont have the "ladder pattern" but N vectors of size < K, the complexity is:


Hope it helps.

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