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Is there a way of fixing the size of a vector and still changing the contents?

I have tried making a const vector const std::vector<int> vec(10); but that prevents me from changing the values.

vec[3] = 3; gives a compiler error: assignment of read-only location.

I have also tried with a const reference to a non-const vector

std::vector<int> vec(10);
const std::vector<int>& vecref(vec);

which gives the same compiler error.

I want to be able to fix the vector size either on declaration or after an initialisation stage. I could use an old fashioned array, but I want to be able to use the vector algorithms.

I'm using g++ if that makes any difference.

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What "vector algorithms" do you want to use? Anything in <algorithm> that works with a std::vector of fixed size, will work with a plain array, because the algorithms deal in iterators rather than containers. –  Steve Jessop Jul 8 '11 at 11:40
I'm using find_if, for_each and a few others. I didn't realise that I could use them with plain arrays. –  DanS Jul 8 '11 at 15:34
If you find here is a good answer, you should accept one :) –  phresnel Apr 17 '12 at 13:15

4 Answers 4

With C++0x, you can use std::array<>, which is like a good old array, with the added benefit of being an STL container, therefore allowing many std::algorithms.

Alternatively, you may want to try boost::array.

Note that there is also std::tr1::array<>.


Actually, one of the cases that I hadn't gone into was to grow the vector while reading configuration files and then fix the size after that - DanS

Then, why not this (illustrational):

#include <vector>

int main () {
    std::vector<int> foo;

    /* ... crunch upon foo ... */

    // make a copy vector->vector:
    const std::vector<int> bar (foo); 

    // make a copy any->vector
    const std::vector<int> frob (foo.begin(), foo.end());

Alternatively, if you need reset() semantics, but want to forbid resize() et al, you could write a container adapter:

template <typename T, typename Allocator = allocator<T> >
class resettable_array {
    // container ...
    typedef typename std::vector<T,Allocator>::iterator iterator;
    typedef typename std::vector<T,Allocator>::const_iterator const_iterator;

    iterator begin() { return vector_.begin() }
    const_iterator begin() const { return vector_.begin(); }

    void push_back (T const &v) { vector_.push_back (v); }

    // custom
    void reset () { ... }

    std::vector<T,Allocator> vector_;

See also:

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Another benefit of C++11 is std::begin and std::end, that also works with good-old standard fixed size arrays, like int[5], hence also enabling the use of std::algorithm and std::numeric amongst other stl goodness. –  Jean-Michaël Celerier Aug 1 '13 at 8:08

Embed it in an object that provides only the operations that you want to allow.

Cheers & hth.,

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You can make a const vector of pointers, and change the objects they point to. Not saying this is the right answer, just that it's possible.

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Take a look at boost.array, it gives you a fixed size array with vector semantics (with the exception of anything that would change the size of the array).

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"vector semantics" is misleading and wrong. push_back, pop_back, resize and more are not supported by boost.array. –  phresnel Jul 8 '11 at 10:56
@phresnel: yes, of course. Edited to reinforce the fixed size nature of arrays. –  Ferruccio Jul 8 '11 at 11:02
Well to be fair push_back couldn't be supported by any answer to the poster's question, as it by definition alters the size of the array. –  jcoder Jul 8 '11 at 11:03
Actually, one of the cases that I hadn't gone into was to grow the vector while reading configuration files and then fix the size after that. –  DanS Jul 8 '11 at 11:08
@DanS: in that case, std::array might not be for you. See me update answer (in some seconds). –  phresnel Jul 8 '11 at 11:19

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