For example -

#include <memory>

int main(){
    const auto bufSize = 1024;
    auto buffer = std::make_unique<char[]>(bufSize);

Is the buffer here already filled with '\0' characters or will I have to manually fill it to avoid garbage values.

And what would be the possible way to do this, will std::memset(&buffer.get(), 0, bufSize) suffice?

  • 6
    Is there a reason you're using std::unique_ptr<char[]> instead of std::vector<char>? – TartanLlama Feb 9 '17 at 15:10
  • 1
    You wouldn't need the std::memset to initialize all to 0 because std::make_unique<char[]>(bufSize) will use the expression new char[bufSize](). Notice the default initialization, () – WhiZTiM Feb 9 '17 at 15:12
  • @TartanLlama yes. – Abhinav Gauniyal Feb 9 '17 at 15:13
  • 2
    IIRC, if the datum is a class member, a std::vector will allocate some space, and then allocate again on the inevitable resize. (Others have looked at implementations and come to this conclusion.) The buffer pointer can just be null until allocated. As written here it makes no difference, but it matters in other cases. – user1329482 Nov 6 '17 at 20:31
  • 1
    I'm here because I want to allocate and manage a buffer using unique_ptr but, at some point, hand it off to a C function as a raw pointer with buffer.release(). – Khouri Giordano Mar 16 '19 at 16:35

All of the make_* functions use value-initialization for the type if you don't provide constructor parameters. Since the array-form of make_unique doesn't take any parameters, it will zero-out the elements.


Yes, all the elements will be value initialized by std::make_unique.

The function is equivalent to:

unique_ptr<T>(new typename std::remove_extent<T>::type[size]())


value initialization

This is the initialization performed when a variable is constructed with an empty initializer.


new T (); (2)


The effects of value initialization are:

3) if T is an array type, each element of the array is value-initialized;
4) otherwise, the object is zero-initialized.

then for each element of type char, they'll be value-initialized (zero-initialized) to '\0'.


According to cppreference, yes:

2) Constructs an array of unknown bound T. This overload only participates in overload resolution if T is an array of unknown bound. The function is equivalent to:

unique_ptr<T>(new typename std::remove_extent<T>::type[size]())
                                       value initialization ^

Value initialization indicated by me.

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