# Fast concatenating of lists

In my program I calculate very much concatenations of lists with single items (i. e. I often perform "`concatenate(someList, <single-sized list containing one item>)`" operations). How to make those concatenations and iterating through resultant lists as fast as possible?

I have considered two implementations but may be there is faster one:

• Naive implementation of concatenation by copying all items to resultant list. That results in O(n) time cost of iterating but also O(n) performance of concatenating.
• Wrapping result of concatenation into new class, `ListsConcatenation` (which also has interface of `List`), which keeps references to all original lists and forwards all calls to corresponding one. That will result in O(1) time cost of concatenating but time cost of iterating will become O(n*log(n)).
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Please post your data-structure for the list. –  belisarius Nov 2 '10 at 8:16
Option 2 will also reflect changes made to the component lists after they have been concatenated, which Option 1 does not. And one could easily construct infinitely looping lists with Option 2. –  Thilo Nov 2 '10 at 8:17
Please tell us the programming language you are using –  Noe Nov 2 '10 at 8:19
@Lavir the Whiolet: Why is the cost of iterating through option 2 O(n lg n)? If ListsConcatenation returns an iterator that iterates through each one, and when it gets to the end of one list just goes straight on to the next one then you have no performance penalty? Did you mean random access is O(nlgn)? This is also not true if the ListsConcatenation can access each list's size, as it can then choose which index has the desired value, and iterate through that in O(n) steps (or access it directly if an arraylist in O(1))...? –  Nicholas White Nov 2 '10 at 14:55
(I'm assuming the n you use in the question is the size of each list, not the sum of the sizes of all the lists) –  Nicholas White Nov 2 '10 at 15:13
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Usually this requirement pops up when populating a list in left-to-right order. If so, then the question is not how to insert a single element in O(1) time, but how to insert n elements in O(n) time, and the simple answer is to build the list back-to-front and reverse it at the end.

I am, of course, assuming some functional language that provides immutable data types. If your data types are mutable, then you could simply remember the last node, and append a new element by assigning to its `next` pointer.

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All structures in my program are immutable. –  Lavir the Whiolet Nov 2 '10 at 9:39
@Lavir: I'm glad to hear it. Immutable data types are usually a much better choice. –  Marcelo Cantos Nov 2 '10 at 9:44
In such an algorithm concatenation will have O(1) time cost and iterating will have O(n) time cost. Please correct me if I'm not right. –  Lavir the Whiolet Nov 2 '10 at 9:46
@Lavir: From your question, I surmised (even though you didn't state it) that you are trying to create a list of elements. My solution creates a list of n elements in O(n) time, which amounts to the same thing as performing n appends, each taking O(1) time. If this is not what you are doing, then my answer is not suitable. –  Marcelo Cantos Nov 2 '10 at 11:28
That's what am I doing. Thanks again! –  Lavir the Whiolet Nov 2 '10 at 11:48