I'm just beginning to get into C++ and I want to pick up some good habits. If I have just allocated an array of type int with the new operator, how can I initialise them all to 0 without looping through them all myself? Should I just use memset? Is there a “C++” way to do it?

  • 20
    If you want to pickup a good C++ habit, then avoid using arrays directly and use vector instead. Vector will initialize all the items regardless of the type, and then you don't need to remember to call the delete[] operator.
    – brianegge
    Feb 5, 2010 at 0:37
  • @brianegge: What if I need to pass an array to an external C function, can I just give it the vector?
    – dreamlax
    Feb 5, 2010 at 1:28
  • 12
    You can pass &vector[0].
    – jamesdlin
    Feb 5, 2010 at 1:54
  • Of course, when you pass arrays to C functions, you typically have to specify the pointer to the first element, &vector[0] as @jamesdlin said, and the size of the array, provided in this case by vector.size(). Mar 25, 2014 at 20:39
  • Related (asks for non-array types): stackoverflow.com/questions/7546620/…
    – Aconcagua
    Nov 19, 2018 at 7:08

10 Answers 10


It's a surprisingly little-known feature of C++ (as evidenced by the fact that no-one has given this as an answer yet), but it actually has special syntax for value-initializing an array:

new int[10]();

Note that you must use the empty parentheses — you cannot, for example, use (0) or anything else (which is why this is only useful for value initialization).

This is explicitly permitted by ISO C++03 5.3.4[expr.new]/15, which says:

A new-expression that creates an object of type T initializes that object as follows:


  • If the new-initializer is of the form (), the item is value-initialized (8.5);

and does not restrict the types for which this is allowed, whereas the (expression-list) form is explicitly restricted by further rules in the same section such that it does not allow array types.

  • 2
    While I agree that this is little-known, I can't (entirely) agree that it's really very surprising -- it was added in C++ 03, which most people seem to have nearly ignored (since this was one of the few new things it did add). Feb 5, 2010 at 3:14
  • 2
    @Jerry: I must admit that I didn't knew yet (probably because when I got to reading the standard, it was C++03 already). That said, it's remarkable that all implementations I know of support this (I guess it's because it's so trivial to implement). Feb 5, 2010 at 3:28
  • 3
    Yes, it is pretty trivial to implement. As far as being new, all "value initialization" was new in C++ 03. Feb 5, 2010 at 4:01
  • 52
    In C++11 you can use uniform initializtion as well: new int[10] {}. You can also provide values to initialize with: new int[10] {1,2,3}
    – bames53
    Aug 13, 2013 at 18:13
  • 1
    Please don't confuse default-initialized with value-initialized: They are both clearly defined in the standard and are different initializations. Oct 5, 2014 at 16:45

There is number of methods to allocate an array of intrinsic type and all of these method are correct, though which one to choose, depends...

Manual initialisation of all elements in loop

int* p = new int[10];
for (int i = 0; i < 10; i++)
    p[i] = 0;

Using std::memset function from <cstring>

int* p = new int[10];
std::memset(p, 0, sizeof *p * 10);

Using std::fill_n algorithm from <algorithm>

int* p = new int[10];
std::fill_n(p, 10, 0);

Using std::vector container

std::vector<int> v(10); // elements zero'ed

If C++11 is available, using initializer list features

int a[] = { 1, 2, 3 }; // 3-element static size array
vector<int> v = { 1, 2, 3 }; // 3-element array but vector is resizeable in runtime
  • 1
    should be vector<int> If you added p= new int[10]() you had a complete list.
    – karsten
    Jan 20, 2017 at 9:44
  • @mloskot, in the first case where you have initialized an array using "new", how pass by reference will happen? If I used int array[SIZE] ={1,2,3,4,5,6,7}; notation, I can use void rotateArray(int (& input)[SIZE], unsigned int k); would be my function declaration, what would be when using the first convention? any suggestion?
    – Anu
    Jan 28, 2019 at 16:50
  • 2
    I am afraid the example with std::memset is wrong - you pass 10, it seems to expect number of bytes - see en.cppreference.com/w/cpp/string/byte/memset. (I think this nicely shows why should one avoid such low-level construct when possible.)
    – Suma
    Dec 3, 2019 at 14:45
  • @Suma Great catch! Fixed. This seems to be a candidate for a decade old bug :-) Yes, I agree with your comment.
    – mloskot
    Dec 4, 2019 at 15:40

Assuming that you really do want an array and not a std::vector, the "C++ way" would be this

#include <algorithm> 

int* array = new int[n]; // Assuming "n" is a pre-existing variable

std::fill_n(array, n, 0); 

But be aware that under the hood this is still actually just a loop that assigns each element to 0 (there's really not another way to do it, barring a special architecture with hardware-level support).

  • I don't mind if the loop is implemented underneath a function, I just wanted to know whether or not I had to implement such a loop myself. Thanks for the tip.
    – dreamlax
    Feb 5, 2010 at 0:10
  • 4
    You might be surprised. I was. On my STL (both GCC and Dinkumware), std::copy actually turns into a memcpy if it detects it is being called with built in types. I wouldn't be surprised if std::fill_n used memset.
    – Brian Neal
    Feb 5, 2010 at 1:12
  • 2
    Nope. Use 'Value-Initialization' to set all members to 0. Feb 5, 2010 at 4:19
  • int * array = new int[n]()
    Jan 23, 2022 at 2:21

Possible ways of initializing the plain dyanmic array. Choose the one as per your requirement.

int* x = new int[5];          // gv gv gv gv gv (gv - garbage value)
int* x = new int[5]();        // 0  0  0  0  0 
int* x = new int[5]{};        // 0  0  0  0  0  (Modern C++)
int* x = new int[5]{1,2,3};   // 1  2  3  0  0  (Modern C++)

If the memory you are allocating is a class with a constructor that does something useful, the operator new will call that constructor and leave your object initialized.

But if you're allocating a POD or something that doesn't have a constructor that initializes the object's state, then you cannot allocate memory and initialize that memory with operator new in one operation. However, you have several options:

  1. Use a stack variable instead. You can allocate and default-initialize in one step, like this:

     int vals[100] = {0}; // first element is a matter of style
  2. use memset(). Note that if the object you are allocating is not a POD, memsetting it is a bad idea. One specific example is if you memset a class that has virtual functions, you will blow away the vtable and leave your object in an unusable state.

  3. Many operating systems have calls that do what you want - allocate on a heap and initialize the data to something. A Windows example would be VirtualAlloc().

  4. This is usually the best option. Avoid having to manage the memory yourself at all. You can use STL containers to do just about anything you would do with raw memory, including allocating and initializing all in one fell swoop:

     std::vector<int> myInts(100, 0); // creates a vector of 100 ints, all set to zero

Yes there is:

std::vector<int> vec(SIZE, 0);

Use a vector instead of a dynamically allocated array. Benefits include not having to bother with explicitely deleting the array (it is deleted when the vector goes out of scope) and also that the memory is automatically deleted even if there is an exception thrown.

Edit: To avoid further drive-by downvotes from people that do not bother to read the comments below, I should make it more clear that this answer does not say that vector is always the right answer. But it sure is a more C++ way than "manually" making sure to delete an array.

Now with C++11, there is also std::array that models a constant size array (vs vector that is able to grow). There is also std::unique_ptr that manages a dynamically allocated array (that can be combined with initialization as answered in other answers to this question). Any of those are a more C++ way than manually handling the pointer to the array, IMHO.

  • 11
    this doesn't really answer the question that was asked. Feb 5, 2010 at 0:10
  • 1
    Should I always use std::vector instead of dynamically allocated arrays? What are the benefits of using an array over a vector, and vice versa?
    – dreamlax
    Feb 5, 2010 at 0:11
  • 1
    @John Knoller: The OP asked about a C++ way to do it, I'd say that vector is the c++ way to do this. Of course, you are correct that there might be situations that still would call for a plain array and not knowing the OP's situation this might be one. I'd guess no though, since it seems plausible that the OP does not know about vectors. Feb 5, 2010 at 0:16
  • 1
    @villintehaspam: Although this solution doesn't answer my question it is the path I am going to take. Tyler McHenry answers my question more directly, and should help especially for people who cannot—for whatever reason—use std::vector.
    – dreamlax
    Feb 5, 2010 at 0:33
  • 2
    @villintehaspam: No, it is not a C++ way to do it. It is Java way to do it. Sticking vector everywhere regardless of context is called "Writing Java code in C++". Feb 5, 2010 at 1:02

std::fill is one way. Takes two iterators and a value to fill the region with. That, or the for loop, would (I suppose) be the more C++ way.

For setting an array of primitive integer types to 0 specifically, memset is fine, though it may raise eyebrows. Consider also calloc, though it's a bit inconvenient to use from C++ because of the cast.

For my part, I pretty much always use a loop.

(I don't like to second-guess people's intentions, but it is true that std::vector is, all things being equal, preferable to using new[].)


you can always use memset:

int myArray[10];
memset( myArray, 0, 10 * sizeof( int ));
  • I understand that I can use memset, but I wasn't sure if this was the C++ way to approach the problem.
    – dreamlax
    Feb 5, 2010 at 0:15
  • 1
    It's not really the 'the C++ way', but then neither are raw arrays. Feb 5, 2010 at 0:21
  • 1
    @gbrandt:Which is to say that it doesn't work very well in either C or C++. It works for most values of the type is char or unsigned char. It works for most types of the value is 0 (at least in most implementations). Otherwise, it's generally useless. Feb 5, 2010 at 0:48
  • 1
    10 * sizeof( *myArray ) is more documented and change-proof than 10 * sizeof( int ).
    – Kevin Reid
    Feb 5, 2010 at 1:04
  • 1
    In any case, the OP has a raw array and memset is the fastest and easiest way to zero that array. Feb 5, 2010 at 3:43

For c++ use std::array<int/*type*/, 10/*size*/> instead of c-style array. This is available with c++11 standard, and which is a good practice. See it here for standard and examples. If you want to stick to old c-style arrays for reasons, there two possible ways:

  1. int *a = new int[5](); Here leave the parenthesis empty, otherwise it will give compile error. This will initialize all the elements in the allocated array. Here if you don't use the parenthesis, it will still initialize the integer values with zeros because new will call the constructor, which is in this case int().
  2. int *a = new int[5] {0, 0, 0}; This is allowed in c++11 standard. Here you can initialize array elements with any value you want. Here make sure your initializer list(values in {}) size should not be greater than your array size. Initializer list size less than array size is fine. Remaining values in array will be initialized with 0.
  • The size for std::array<> must be known at compile-time. It is not possible to declare std::array<> based on a size determined at runtime, so it is not always practical or possible to use std::array<> over new[] or std::vector<>.
    – dreamlax
    Feb 19, 2021 at 7:18
  • @dreamlax yes totally agree with you. We can use only fixed size array with std::array<> whose size must be known at compile time. Feb 19, 2021 at 7:34

Typically for dynamic lists of items, you use a std::vector.

Generally I use memset or a loop for raw memory dynamic allocation, depending on how variable I anticipate that area of code to be in the future.

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