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Why is there a delete[]? From my understanding its to behave differently for arrays. However, why does it really exist? There's only free in C and no free_array. Also in syntax the only difference between delete var and delete []var is the [] which has no params (I'm not telling the length of the array).

So why does delete[] really exist? I know someone will say you can overload delete and delete[] (at least i think that is possible) but lets say we are not overloading it. Why does it exist?

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The obviuos reason for delete[] to be is it will call destructors for array elements. See stackoverflow.com/questions/659270/… –  Captain Comic Sep 12 '10 at 9:35
@jamesdlin: Because we didn't always have std::vector? And because std::vector wouldn't work without them? –  Oliver Charlesworth Sep 12 '10 at 10:16
And because the C++ language allows users to implement the behaviour of std::vector themselves, or more likely other things which are similar to std::vector but different in some useful way. The language is designed to support low-level and specialised development. –  Steve Jessop Sep 12 '10 at 11:12
@Oli Charlesworth: But you could implement std::vector with realloc and placement new instead of new[] (and that would support reallocating memory in-place). –  jamesdlin Sep 12 '10 at 17:56
Actually, I realize realloc wouldn't work if the memory needs to be moved since there'd be no opportunity to do proper copy construction and destruction. Still, there's malloc and free, and std::vector doesn't use new[] directly anyway; it uses the specified allocator. –  jamesdlin Sep 12 '10 at 18:51

4 Answers 4

up vote 19 down vote accepted

Typically, for non-POD classes, a delete[] expression must call destructors on a variable number of class instances that cannot be determined at compile time. The compiler typically has to implement some run time "magic" that can be used to determine the correct number of objects to destroy.

A delete expression doesn't have to worry about this, it simply has to destroy the one object that the supplied pointer is pointing to. Because of this, it can have a more efficient implementation.

By splitting up delete and delete[], delete can be implemented without the overhead needed to correctly implement delete[] as well.

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+1: as always, in C++, you don't pay for what you don't need... –  Matthieu M. Sep 12 '10 at 16:52
What?? Could someone give an example on where the number of destructors can not be determined on compile time? –  lvella Apr 21 '12 at 22:12
@Ivella: How about in this function: void freearray(Type* x) { delete[] x; } –  Charles Bailey Apr 21 '12 at 22:38
and new[] usually put the number of objects at the beginning of the memory - although you can always calculate the size in runtime, I guess it is a time/space trade-off –  Baiyan Huang Sep 11 '12 at 1:39
@lvella to get the number of objects, we need: sizeof(allocation)/sizeof(Type), while the sizeof(allocation) is stored by heapmanager somewhere else, you have to get it in runtime, not compile time –  Baiyan Huang Sep 11 '12 at 1:40

If you delete an array, only first object's destructor will be called. delete[] calls destructors of all objects in array and frees array's memory.

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+1: Beat me to it :-) –  Jon Cage Sep 12 '10 at 9:34
If you delete something that was the result of new xxx[N], you get undefined behaviour. Calling the destructor on only the first object is just one possible result. –  Charles Bailey Sep 12 '10 at 9:36

Assume delete[] didn't exist, write the code for deleting the array vs deleting only the first element in the array.

delete array;        // Deletes first element, oops    
delete &array;       // Deletes first element, oops
delete &array[0];    // Deletes first element

A pointer to an array being an alias for a pointer to the first element of the array is of course an old C "feature".

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@stakx: it doesn't demonstrate delete[] is needed, as such - the implementation could somehow flag whether an allocation is an array or not, just as it currently tracks the length of all allocations made with new[]. Then delete could check the flag and just do the right thing. Deleting the first element of an array is always wrong, so there's no need for a syntax to do it. –  Steve Jessop Sep 12 '10 at 11:15
@Steve: that would require a runtime test, which C++ usually tries to avoid when possible. –  Mike Seymour Sep 12 '10 at 12:13
@Hans: I don't know what you mean. What does vector::operator[] have to do with deleting anything? My complaint is that you've said, "write the code for deleting an array vs. [something that's invalid]". Who cares what the code looks like to do something that's invalid? In our imagined version of C++, delete array would mean, "delete the whole array", and there would be no way to say, "delete the first element". vector uses an explicit call to the destructor to destroy elements, so that's unaffected. –  Steve Jessop Sep 12 '10 at 12:43
@Steve: sorry, I had no idea that you were contemplating an imaginary version of the C++ language. My answer was based on the real one, the one that inherited the broken C arrays. –  Hans Passant Sep 12 '10 at 12:49
@Hans: when you said, "assume delete[] didn't exist", you embarked upon a consideration of an imaginary version of the C++ language, which I continued. If you're unwilling to consider hypotheticals, you probably shouldn't attempt a proof by contradiction ;-) Clearly if, as you hypotheise, delete[] didn't exist, then delete would be the way to delete arrays. It could quite easily be made to work, although as Mike says, the cost of my flag implementation would be a runtime check to distinguish arrays from "normal objects". Or objects could just be arrays of size 1, also costing a branch. –  Steve Jessop Sep 12 '10 at 17:15


int* a = new int[25];
int* b = a;

delete b;  // only deletes the first element

The C++ compiler has no idea whether b points to an array or a single element. Calling delete on an array will only delete the first element.

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To be fair, you could say the same for delete [] b; how does it know that there are 25 items in the array? The answer is behind-the-scenes meta-information. In principle, the compiler could also store a boolean array/non-array flag in this meta-information. I think Charles' answer is the real reason. –  Oliver Charlesworth Sep 12 '10 at 10:11
The [] tells the compiler that there is meta information. –  Alexander Rafferty Sep 12 '10 at 12:01
Even plain delete needs meta-information to be able to release the memory back to the heap, for example pointers to previous and next allocated blocks or something similar (heavily implementation dependent). –  fredoverflow Sep 12 '10 at 15:14
The reason for delete and delete[] is so the compiler knows if you want to delete just that block or the whole array. –  Alexander Rafferty Sep 12 '10 at 21:39

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