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Suppose I have a std::vector (let's call it myVec) of size N. What's the simplest way to construct a new vector consisting of a copy of elements X through Y, where 0 <= X <= Y <= N-1? For example, myVec [100000] through myVec [100999] in a vector of size 150000.

If this cannot be done efficiently with a vector, is there another STL datatype that I should use instead?

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10 Answers 10

up vote 136 down vote accepted
vector<T>::const_iterator first = myVec.begin() + 100000;
vector<T>::const_iterator last = myVec.begin() + 101000;
vector<T> newVec(first, last);

It's an O(N) operation to construct the new vector, but there isn't really a better way.

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Makes sense, thanks. – An̲̳̳drew Jan 7 '09 at 20:01
+1, also it's O(Y-X), which is less than or equal to O(N) (and in his example much less) – orip Jan 7 '09 at 21:53
@orip Well, then it's O(N) after all. – Johann Gerell Jan 8 '09 at 7:56
Its O(N) where N is 1000... – Greg Rogers Jan 8 '09 at 20:02
@GregRogers: It doesn't make sense to use the big-O notation where N is a specific number. Big-O communicates the rate of growth with respect to how N changes. Johann: It's best not to use one variable name in two ways. We'd normally say either O(Y-X), or we'd say O(Z) where Z=Y-X. – Mooing Duck Sep 11 '13 at 17:51

Just use the vector constructor.

std::vector<int>   data();
// Load Z elements into data so that Z > Y > X

std::vector<int>   sub(&data[100000],&data[101000]);
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Ok, I didn't realize it was that simple to obtain an iterator from an arbitrary vector element. – An̲̳̳drew Jan 7 '09 at 19:58
Well, you actually get pointers to the elements, which in most cases are equivalent to iterators. However, I assume that they won't be checked like iterators when you have a checked-iterators implementation. Could be some magic I'm unaware of though that makes that work too... – Niklas Jan 7 '09 at 20:56
Taking the address of those vector elements is an unportable hack that will break if the vector storage is not in fact contiguous. Use begin() + 100000 etc. – j_random_hacker Jan 8 '09 at 6:29
@j_random_hacker: Sorry have to disagree. The STL specification for std::vector was explicitly changed to support this type of procedure. Also a pointer is valid type of iterator. Look up iterator_traits<> – Loki Astari Jan 8 '09 at 7:35
Yep, pointers aren't necessarily valid std::vector<T>::iterator's but they are valid iterators for an array in continuous storage, which is how it is used. – Greg Rogers Jan 8 '09 at 20:04

std::vector(input_iterator, input_iterator), in your case foo = std::vector(myVec.begin () + 100000, myVec.begin () + 150000);, see for example here

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Since Andrew is trying to construct a new vector, I would recommend "std::vector foo(..." instead of copying with "foo = std::vector(..." – Drew Dormann Jan 7 '09 at 19:34
Yeah, of course, but whether you type std::vector<int> foo = std::vector(...) or std::vector<int> foo (...) should not matter. – Anteru Jan 7 '09 at 20:06

If both are not going to be modified (no adding/deleting items - modifying existing ones is fine as long as you pay heed to threading issues), you can simply pass around data.begin() + 100000 and data.begin() + 101000, and pretend that they are the begin() and end() of a smaller vector.

Or, since vector storage is guaranteed to be contiguous, you can simply pass around a 1000 item array:

T *arrayOfT = &data[0] + 100000;
size_t arrayOfTLength = 1000;

Both these techniques take constant time, but require that the length of data doesn't increase, triggering a reallocation.

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This is also good if you want the original vector and the subvector to be linked. – PyRulez Mar 1 '15 at 19:38

You can get the first iterator using begin, and advance it by whatever amount you need:

vector<int> sub(advance(begin(myVec), 100000),
                advance(begin(myVec), 101000));
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Keep in mind: advance is available since C++17, so not useful for C++14 or older. – Nicolay77 Jul 22 at 21:32
@Nicolay77 its signature will change with C++17 to be a constexpr. It has been in C++ for a long time. – Peter Wood Jul 24 at 11:06

You didn't mention what type std::vector<...> myVec is, but if it's a simple type or struct/class that doesn't include pointers, and you want the best efficiency, then you can do a direct memory copy (which I think will be faster than the other answers provided). Here is a general example for std::vector<type> myVec where type in this case is int:

typedef int type; //choose your custom type/struct/class
int iFirst = 100000; //first index to copy
int iLast = 101000; //last index + 1
int iLen = iLast - iFirst;
std::vector<type> newVec;
newVec.resize(iLen); //pre-allocate the space needed to write the data directly
memcpy(&newVec[0], &myVec[iFirst], iLen*sizeof(type)); //write directly to destination buffer from source buffer
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The only way to project a collection that is not linear time is to do so lazily, where the resulting "vector" is actually a subtype which delegates to the original collection. For example, Scala's List#subseq method create a sub-sequence in constant time. However, this only works if the collection is immutable and if the underlying language sports garbage collection.

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in c++ way to do that would be to have vector of shared_ptr to X instead of vector of X and then copy SPs, but unfortunately I dont think that is faster because atomic operation involved with cpying SP. Or the original vector could be a const shared_ptr of vector instead and you just take reference to subrange in it. ofc you dont need to make it a shared_ptr of vector but then you have lifetime problems... all this is off top of my head, could be wrong... – NoSenseEtAl Oct 22 '13 at 14:30

Ok. This is a pretty old discussion. But I just discovered something neat:

slice_array - Could this be a fast alternative ? I have not tested it.

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No, since this for valarray's, not vectors – nbubis Sep 25 '13 at 2:08
@nbubis: True. But considering that the OP is open to other STLs, would you think that slice_array (using valarray) is not an efficient alternative ? – user2000581 Sep 25 '13 at 9:53

You can use STL copy with O(M) performance when M is the size of the subvector.

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std::copy is probably not the correct choice. – Loki Astari Jan 7 '09 at 19:23

Posting this late just for others..I bet the first coder is done by now. For simple datatypes no copy is needed, just revert to good old C code methods.

std::vector <int>   myVec;
int *p;
// Add some data here and set start, then

Then pass the pointer p and a len to anything needing a subvector.

notelen must be!! len < myVec.size()-start

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Why use pointers when you can use iterators? – Troyseph Mar 2 at 11:32

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