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What data structure in Java (or C++) offers random access ?

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closed as not a real question by PlasmaHH, aromero, casperOne Mar 1 '12 at 20:49

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

3  
Erm, arrays? Anything that can be accesses through the index? Maybe you want to specify more ur question? –  Alecs Mar 1 '12 at 16:14
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Show some effort. Question as stated can be answered by Google. –  Deestan Mar 1 '12 at 16:16
    
Can you specify how you are going to use this data structure? Random access data structures are many but they are used in different contexts –  akram Mar 1 '12 at 18:03

6 Answers 6

up vote 1 down vote accepted

Among standard C++03 containers, it's the

  • plain array //does not conform the container concept though
  • std::vector
  • std::deque
  • std::string //not technically a container, either
  • std::bitset //not technically a container, either

C++11 adds

  • std::array

  • std::unordered_set

  • std::unordered_map

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plain arrays will conform to container concept in C++11 as you call begin() and end() on the containers, not c.begin(), c.end() thus you can define T*begin(T(&arr)[N}){ return &arr[0]; } T*end(T(&arr)[N]){ return &arr[0]+N; } with of course the template definitions. –  CashCow Mar 1 '12 at 16:33

Quite a few, most obviously arrays. If you want a "big list" though, then SOF isn't the place to ask. Make your question most specific!

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Java's HashMap offers random access. The STL for C++ also has a hash map class.

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Is it really random access? Or just using some kind of array underneath to store the elements by their hashed-values? Would you loop over it from 0 to size()-1 with constant time access for each lookup? –  CashCow Mar 1 '12 at 16:19
    
From the JavaDoc: "This implementation provides constant-time performance for the basic operations (get and put), assuming the hash function disperses the elements properly among the buckets." I'm assuming that the hash map stores elements in an array indexed by their hash. Thus, in the average case, hash map lookups will be O(1). In the worst case, it'll be O(n), but you shouldn't have to worry about that, unless your hash function is especially poor. –  quanticle Mar 1 '12 at 16:24
    
that, though, is element lookup, not lookup by position. –  CashCow Mar 1 '12 at 16:30
    
That's true. I guess I didn't know what the OP meant when he or she said, "Get random element." Yes, for lookup by position, an array (or, better yet, a vector) would be more appropriate. –  quanticle Mar 1 '12 at 16:35

In C++, std::vector and std::deque both do.

std::string isn't really a container of char (or actually basic_string a container of its char type) but it works like a container with most features of one, and has constant-time random access.

If you call an array a container then it also does.

C++ also has std::valarray which has random access. Not sure if many people use it.

Note that deque is normally implemented as a collection of fixed-sized buffers of data, each containing the same number of elements. It could be done with something like:

vector< vector<T>* >

where each inner-vector has the same size. Getting the nth element is not quite as simple as with a vector but is still constant time in that it is the same regardless of the number of elements in your collections. In this case you must divide your N by the fixed size of the container (let's call it M). As deque has a "grow on either end" policy, the front vector may not be full, in which case its empty elements would be at the back end. (Technically it's unlikely they'd use vector but we'll just pretend they do). Therefore there is a certain "shift" that must take place. The collection can, however, store the size of the first page and apply this to the N before dividing.

Growing at the front, if it did use the above, wouldn' be totally constant time either as it would have to grow at the front of the vector above. However the shifting of a few pointers would be far more efficient than the shifting of potentially thousands of elements, so you can sort-of lie and call it constant time. Growing at the end of a regular vector isn't guaranteed to be constant either if the vector has to re-allocate.

In any case, deque has random access of a constant time, but that constant time is likely to be larger than that of a vector. If you are loaded with memory and can afford a slower vector load but it is then essential you get the fastest random access time, use vector rather than deque.

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The default 0(1) container for C++ is the

std::vector

this is suitable for a fixed size contiguous container, it can be resized but it is inefficeint.

std::deque

is better at pushing back new elements as it doesn't require copying of all the existing elements.

in C++11 there are

std::array
std::unordered_map
std::unordered_set

a std::array is stack allocated (or where you put it -- no indirection) fixed size container.

an unordered map is an associative container (based on hash maps) and unordered set is the non associative equivalent.

plain C arrays are generally considered bad form in C++.

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deque is efficient for insertions and deletions at either and and also never needs to re-allocate so in many cases it out-performs vector. This is not really a question about performance of insertions or deletions though, it is about constant-time lookup of nth element. –  CashCow Mar 1 '12 at 16:17

Below I list those I know. There might be more

In C++

std::vector does a plain array does

In Java

ArrayList does probably a plain array does

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