Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I am using Visual Studio 2012 C++ and I want to set two vectors with unique pointers equal to one another.

    using namespace std;
    vector<unique_ptr<Unit>> unitVector;
    vector<unique_ptr<Unit>> nonDeadUnits;

    .... (stuff added to unitVector) ....

    for (auto unit = unitVector.begin(); unit != unitVector.end(); ++unit) {
            if ((*unit)->health > 0) {

    unitVector = nonDeadUnits; // error here (see below error code)

I want to remove all of the units that have health less than 0, but if I try and directly remove them from the vector, I attempt to access memory that I shouldn't, killing the program. That is why I have opted to do it this way. The only problem is that unique_ptr does not allow the type of copying that I want. Here is the error:

    error C2248: 'std::unique_ptr<_Ty>::operator =' : cannot access private member declared in class 'std::unique_ptr<_Ty>' c:\program files (x86)\microsoft visual studio 11.0\vc\include\xutility 2089

I would like to have unique_ptr's because the vectors call sub-class methods within a for loop later on, and it helps with overriding. So how do I set the vectors equal to one another or is there a better way?

share|improve this question
I suspect that std::remove_if might be your friend here. I'll try to work up an example and post it as an answer. – Quuxplusone Jun 19 '13 at 23:10
unitVector = std::move(nonDeadUnits); would fix your issue, but like Quuxplusone said, there's a better solution. – Mike Vine Jun 19 '13 at 23:20
"unique" ptr ..... – Lightness Races in Orbit Jun 19 '13 at 23:21

3 Answers 3

up vote 8 down vote accepted

The general idea is to use std::remove_if to swap elements within unitsVector, and then once all the dead units are at the end of the vector, you just chop them off.

#include <memory>
#include <vector>

struct Unit {
    int health;

// The non-working version.
// void remove_dead_units(std::vector<std::unique_ptr<Unit>> &unitVector)
// {
//     std::vector<std::unique_ptr<Unit>> nonDeadUnits;
//     for (auto unit : unitVector)
//         if (unit->health > 0)
//             nonDeadUnits.push_back(unit);
//     unitVector = nonDeadUnits;
// }

void remove_dead_units(std::vector<std::unique_ptr<Unit>> &unitVector)
    auto isDead = [](const std::unique_ptr<Unit> &u) -> bool { return (u->health <= 0); };
    auto newEnd = std::remove_if(unitVector.begin(), unitVector.end(), isDead);
    unitVector.erase(newEnd, unitVector.end());

I'm sure there are other ways to do it, hewing more closely to what you tried (EDIT: in fact KerrekSB just posted one, using only a single std::move and a swap); but I think the "shuffle and chop" method is more modern-C++ish.

share|improve this answer

Perhaps the following logic would be simpler:

vector<unique_ptr<Unit>> unitVector = /* ... */;
vector<unique_ptr<Unit>> nonDeadUnits;

for (auto & p : unitvector)
    if (p->health > 0) { nonDeadUnits.push_back(std::move(p)); }


Otherwise, the standard remove-erase idiom is probably more main-stream:

unitVector.erase(remove_if(unitVector.begin(), unitVector.end(),
                           [](unique_ptr<Unit> const & p) -> bool { return p->health <= 0; }),
share|improve this answer
Why swap and not move? – Yakk Jun 20 '13 at 0:33

The fast way to do this is with remove_if and erase, but that idiom violates DRY (don't repeat yourself) and I have seen people make subtle mistakes when using it (forgetting the 2nd iterator to erase passing (inadequate) test cases, then failing in production!)

My solution to this kind of problem -- filtering a std::vector for some property -- is to write a container-based algorithm to do it for me.

template<typename SeqContainer, typename Lambda>
SeqContainer&& remove_erase_if( SeqContainer&& c, Lambda&& test ) {
  using std::begin; using std::end;
  auto new_end = std::remove_if( begin(c), end(c), std::forward<Lambda>(test) );
  c.erase( new_end, end(c) );
  return std::forward<SeqContainer>(c);

now that you have a container based remove_erase_if, we can filter the list:

// const & is important, we don't want to copy a `unique_ptr`
remove_erase_if( unitVector, [&]( std::unique_ptr<Unit> const& unit ) {
  return (unit->health() <= 0);

... and that is it. Everything with health() <= 0 is removed from the std::vector.

Other useful container based algorithms I find I use quite often include remove_erase and sort_unique_erase and binary_search. Amusingly, while the above code works std::vector, std::list and std::deque, I almost always use std::vector: but writing it to work with any sequential container is easier than writing it to work with a std::vector.

Another option for the design of these container algorithms is to take the container by value, and return it by value. This forces some std::move spam, but is basically equally efficient at runtime.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.