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delete vs delete[] operators in C++

I've written a class that contains two pointers, one is char* color_ and one in vertexesset* vertex_ where vertexesset is a class I created. In the destractor I've written at start

delete [] color_;
delete [] vertex_;

When It came to the destructor it gave me a segmentation fault.

Then I changed the destructor to:

delete [] color_;
delete vertex_;

And now it works fine. What is the difference between the two?


9 Answers 9


You delete [] when you newed an array type, and delete when you didn't. Examples:

typedef int int_array[10];

int* a = new int;
int* b = new int[10];
int* c = new int_array;

delete a;
delete[] b;
delete[] c; // this is a must! even if the new-line didn't use [].
  • 8
    +1 for mentioning the case with int_array. Jan 12, 2011 at 16:06
  • 2
    Copying from the comment to the other answer: It is a bad idea to use array typedefs, but it's not a bad idea to mention it, people get bitten by it. Also, the point is that even when you wrote new, you sometimes need to write delete[].
    – etarion
    Jan 12, 2011 at 16:48
  • Someone edited the typedef - the way it is now (and has been originally) is the correct one, please try your "fixes" before you edit. See ideone.com/fYh6MK vs ideone.com/w9fPKr
    – etarion
    Mar 18, 2013 at 19:49
  • I'm interested to know what you would require if you had the following: char** strings = new char*[2]; strings[0]=new char[10]; strings[1] = new char[10]; Would delete [] strings clear all the memory or just the string array, leaving me to clear the two char arrays?
    – Mahen
    Oct 7, 2013 at 7:34
  • @Mahen it would just delete the pointers to the strings, delete the array contents beforehand.
    – etarion
    Oct 7, 2013 at 19:22

delete and delete[] are not the same thing! Wikipedia explains this, if briefly. In short, delete [] invokes the destructor on every element in the allocated array, while delete assumes you have exactly one instance. You should allocate arrays with new foo[] and delete them with delete[]; for ordinary objects, use new and delete. Using delete[] on a non-array could lead to havoc.

  • 3
    This should be the answer, it actually explains the difference. Thanks.
    – Andrew
    May 13, 2015 at 23:51
  • 1
    yea this lost 40 upvotes because it was 2 minutes later. important to note you can't use delete[] as a catch-all solution to handle raw pointers.
    – jiggunjer
    Jul 2, 2015 at 18:45
  • Why doesn't the C++ runtime just figure out the difference between array and non-array types so that programmers can just use a single delete statement?
    – Carl G
    Feb 3, 2020 at 23:47
  • It would have to be the compiler, not the runtime. The runtime only sees calls to malloc and free (for example). Feb 8, 2020 at 2:04
  • If you allocate with malloc(), you use free()
  • If you allocate with new you use delete
  • If you allocate with new[] you use delete[]
  • If you construct with placement-new you call the destructor direct
  • If it makes sense to use vector rather than new[] then use it
  • If it makes sense to use smart-pointers then use them and don't bother to call delete (but you'll still need to call new). The matching delete will be in the smart-pointer.


  • If you allocate with new you use delete - this is not always the case, see my answer.
    – etarion
    Jan 12, 2011 at 16:01
  • @etarion: I see nothing in your answer that contradicts this statement; your use of a type alias sill invokes new[] not new, the type alias simply obfuscates that fact and is probably a bad idea (even to mention it!).
    – Clifford
    Jan 12, 2011 at 16:22
  • 1
    It is a bad idea to use array typedefs, but it's not a bad idea to mention it, people get bitten by it. Also, the point is that even when you wrote new, you sometimes need to write delete[].
    – etarion
    Jan 12, 2011 at 16:47

You have to use delete [] if you allocated memory on the heap with operator new[] (e.g. a dynamic array).

If you used operator new, you must use operator delete, without the square brackets.

It is not related to deleting a built-in type or a custom class.

  • It does not hurt, however, to use delete[] on anything created with new. The segfault must have another reason.
    – ypnos
    Jan 12, 2011 at 15:54
  • 8
    Where do you get the idea that it doesn't hurt? It's wrong.
    – etarion
    Jan 12, 2011 at 15:56
  • 3
    @ypnos: In what universe does undefined behavior not hurt? :) Jan 12, 2011 at 15:57
  • 3
    Undefined behavior always hurts, just not always right away. Jan 12, 2011 at 15:57

When we want to free a memory allocated to a pointer to an object then "delete" is used.

int * p;
p=new int;

// now to free the memory 
delete p;

But when we have allocated memory for array of objects like

int * p= new int[10]; //pointer to an array of 10 integer

then to free memory equal to 10 integers:

 delete []p;

NOTE: One can free the memory even by delete p;, but it will free only the first element memory.


If you have Effective C++ part 1 refer to Item #5: Use the same form in corresponding uses of new and delete.

  • 3
    And if you don't have Effective C++, buy it now! Jan 12, 2011 at 15:58

Raymond Chen provides a detailed description of how scaler and vector delete works in his blog titled Mismatching scalar and vector new and delete.

Here's a link to the InformIT article that is mis-linked in the above article: http://www.informit.com/articles/article.aspx?p=30642


And now it works fine.

More by luck that judgement if it does, and are you certain that it is really working?

The destructor for every object must be called, the delete[] operator uses information set by new[] to determine how many objects to destroy. So while delete on its own may recover the memory (though whether it does or not is implementation dependent), it may not call the destructor for each object allocated.

It is possible for the information about how the object's were allocated to be included when new or new[] are called so that the correct form of deletion is used regardless, but again that is implementation dependent and not guaranteed.


In addition, consider not using pointers if you don't really have to. e.g. char* can be replaced with std::string, and if your vertexesset member is not polymorphic, you can make it a member object. In this case, you wouldn't need delete at all

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