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My C++ program needs a block of uninitialized memory and a void* pointer to that block so that I can give it to a third party library. I want to pass control of the block lifetime to the library, so I don't want to use std::vector. When the library is done with the block it will call a callback that I have to supply and that will deallocate the block. In C I would use malloc() and later free().

In C++ I can either call ::operator new or ::operator new[] and ::operator delete or operator delete[] respectively later:

void* newBlock = ::operator new( sizeOfBlock );
// then, later
::operator delete( newBlock );

Looks like both ::operator new and ::operator new[] have exactly the same signature and exactly the same behavior. The same for ::operator delete and ::operator delete[]. The only thing I shouldn't do is pairing operator new with operator delete[] and vice versa - undefined behavior. Other than that which pair do I choose and why?

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I assume you know you should use std::vector<char>, yadda yadda. – GManNickG Mar 23 '10 at 7:28
Why do you think that with std::vector you do not have control over the lifetime of the object? – Loki Astari Mar 23 '10 at 16:38
The question is unclear. Do you have control over deallocation, or do you pass that responsibility to a library? All of the answers from before that edit don't address the modified requirements. – Roger Pate Mar 26 '10 at 15:00
@Roger Pate: Clarified about deallocation. – sharptooth Mar 26 '10 at 15:06

4 Answers 4

up vote 7 down vote accepted

Use new with a single object and new[] with an array of objects. So, for example:

int* x = new int; // Allocates single int
int* y = new int[5]; // Allocates an array of integers

*x = 10; // Assignment to single value
y[0] = 8; // Assignment to element of the array

If all you are doing is allocating a memory buffer, then allocate an array of char as in:

int bufferlen = /* choose a buffer size somehow */
char* buffer = new char[bufferlen];
// now can refer to buffer[0] ... buffer[bufferlen-1]

However, in C++, you should really use std::vector for arbitrary arrays, and you should use std::string for character arrays that are to be interpreted or used as strings.

There is no reason to invoke ::operator new or ::operator new[] explicitly rather than using the ordinary syntax for these calls. For POD and primitive types (e.g. char) no initialization will take place. If you need to get a void* buffer, then simply use static_cast to convert char* to void*.

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The OP isn't talking about new int and new int[5], but specifically calling the functions with the given names, e.g. void* p = operator new(50); vs void* p = operator new[](50);. – Roger Pate Mar 23 '10 at 7:43
@Roger, thanks. This wasn't made clear until a later edit. – Michael Aaron Safyan Mar 23 '10 at 8:10
Your update is slightly wrong. There's a difference between new int and new int() (the latter object is guaranteed to be initialized to zero), and similarly for any POD type. One special case also works for new[]: new int[5](). – Roger Pate Mar 23 '10 at 8:16
@Roger, that is correct; however, in the syntax I gave, no initialization takes place. – Michael Aaron Safyan Mar 23 '10 at 14:27
That's why I said slightly, specifically: "For POD and primitive types (e.g. char) no initialization will take place." You don't make it clear that new int is different semantics than new int(), but do characterize the whole "ordinary syntax". – Roger Pate Mar 23 '10 at 16:45

The advantage of the C++ new operators over C's malloc() and free() is that the former throws an exception if there is not enough memory, rather than returning NULL.

Regarding choosing new(size) and new[] for character buffers, I'd advocate the latter since it is less likely to surprise people maintaining the code later i.e. char* buf = new char[size] and delete[] buf.

The values in the buffer will not be initialised, and there is no range-checking - you have to build a nice C++ object to do that for you, or use an existing object such as std::vector or std::string.

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The question cannot be answered sensibly.

Firstly, it is said that the program 'needs' a block of uninitialized memory but, from the code sample given, it seems that the program 'needs' a block of uninitialized and UNTYPED memory which seems not very C++ or OO.

Secondly, a std::vector gives sole and automatic control over a block of typed memory that may or may not change in size according to its use. You can lose this control if an instance of std::vector is created on the heap and tracked with raw pointers just as for any other C or C++ object such as a void* memory block.

Thirdly, what is the intended use of this memory block? The answer to this may or may not dictate the use of operator new or operator new[]. In the design of this program, is there a single interpretation of this memory block? What ownership semantics do you require, if any? Etc, etc.

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Note: These questions were answered in a later edit. – David Thornley Mar 25 '10 at 13:42

for allocating memory to array/list use new[] other than that use new...

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