Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

The MSDN article, How to: Write a Move Constuctor, has the following recommendation.

If you provide both a move constructor and a move assignment operator for your class, you can eliminate redundant code by writing the move constructor to call the move assignment operator. The following example shows a revised version of the move constructor that calls the move assignment operator:

// Move constructor.
MemoryBlock(MemoryBlock&& other)
   : _data(NULL)
   , _length(0)
   *this = std::move(other);

Is this code inefficient by doubly initializing MemoryBlock's values, or will the compiler be able to optimize away the extra initializations? Should I always write my move constructors by calling the move assignment operator?

share|improve this question

4 Answers 4

up vote 8 down vote accepted

I wouldn't do it this way. The reason for the move members to exist in the first place is performance. Doing this for your move constructor is like shelling out megabucks for a super-car and then trying to save money by buying regular gas.

If you want to reduce the amount of code you write, just don't write the move members. Your class will copy just fine in a move context.

If you want your code to be high performance, then tailor your move constructor and move assignment to be as fast as possible. Good move members will be blazingly fast, and you should be estimating their speed by counting loads, stores and branches. If you can write something with 4 load/stores instead of 8, do it! If you can write something with no branches instead of 1, do it!

When you (or your client) put your class into a std::vector, a lot of moves can get generated on your type. Even if your move is lightning fast at 8 loads/stores, if you can make it twice as fast, or even 50% faster with only 4 or 6 loads/stores, imho that is time well spent.

Personally I'm sick of seeing waiting cursors and am willing to donate an extra 5 minutes to writing my code and know that it is as fast as possible.

If you're still not convinced this is worth it, write it both ways and then examine the generated assembly at full optimization. Who knows, your compiler just might be smart enough to optimize away extra loads and stores for you. But by this time you've already invested more time than if you had just written an optimized move constructor in the first place.

share|improve this answer
There is some good advice here but I think this answer neglects to take into account that the cost of duplicate code is more than just 5 minutes spent writing it a second time-- dup code has much more significant costs than that in readability, maintainability and robustness. Specifically when there is duplicate code, it invites a very common type of bug: that is, when something is fixed or changed in one instance of the code and not in the other. Having been bitten by that more times than I care to in my life, I would not duplicate code unless there is a very strong proven reason to. –  Don Hatch Jul 22 at 23:00

I don't think you're going to notice significant performance difference. I consider it good practice to use the move assignment operator from the move constructor.

However I would rather use std::forward instead of std::move because it's more logical:

*this = std::forward<MemoryBlock>(other);
share|improve this answer
std::forward is meant for use in templates, when you don't know whether you can move the object or not. –  aschepler Oct 10 '13 at 21:52
Isn't the "other" variable already an rvalue, so there is no need for std::move? –  Mike Fisher Jan 20 at 22:17
@MikeFisher Nope, a named rvalue is an lvalue –  TiMoch Mar 5 at 16:11

It depends what your move assignment operator does. If you look at the one in the article you linked to, you see in part:

  // Free the existing resource.
  delete[] _data;

So in this context, if you called the move assignment operator from the move constructor without initialising _data first, you would end up trying to delete an uninitialized pointer. So in this example, inefficient or not, it's actually crucial that you do initialize the values.

share|improve this answer
You wouldn't need to initialize the value twice if you used the initializer list :_data(other._data) –  Elliot Hatch Jun 15 '13 at 17:52
No but then you're re-implementing the move code, rather than calling the assignment operator which was what your question was about. –  Jonathan Potter Jun 15 '13 at 20:52

My C++11 version of the MemoryBlock class.

#include <algorithm>
#include <vector>
// #include <stdio.h>

class MemoryBlock
  explicit MemoryBlock(size_t length)
    : length_(length),
      data_(new int[length])
    // printf("allocating %zd\n", length);

  ~MemoryBlock() noexcept
    delete[] data_;

  // copy constructor
  MemoryBlock(const MemoryBlock& rhs)
    : MemoryBlock(rhs.length_) // delegating to another ctor
    std::copy(rhs.data_, rhs.data_ + length_, data_);

  // move constructor
  MemoryBlock(MemoryBlock&& rhs) noexcept
    : length_(rhs.length_),
    rhs.length_ = 0;
    rhs.data_ = nullptr;

  // unifying assignment operator.
  // move assignment is not needed.
  MemoryBlock& operator=(MemoryBlock rhs) // yes, pass-by-value
    return *this;

  size_t Length() const
    return length_;

  void swap(MemoryBlock& rhs)
    std::swap(length_, rhs.length_);
    std::swap(data_, rhs.data_);

  size_t length_;  // note, the prefix underscore is reserved.
  int*   data_;

int main()
   std::vector<MemoryBlock> v;
   // v.reserve(10);

   v.insert(v.begin() + 1, MemoryBlock(50));

With a correct C++11 compiler, MemoryBlock::MemoryBlock(size_t) should only be called 3 times in the test program.

share|improve this answer
You should use std::unique_ptr<int[]> instead of manually deleting your array ; that would make it more c++11ish –  TiMoch Mar 5 at 16:15

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.