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Coming from Java and C#, I'm used to doing the following:

byte[] myArray = new byte[10];

and not caring about having to clean it up. However, now that I'm using C++, you obviously have to be careful about allocation and memory leaks.

I've heard some people say that you should avoid dynamic allocation at all costs, but I've also seen some people use it 'liberally', using the new operator to instantiate classes when a local stack variable would have sufficed:

DatabaseConnection conn = new DatabaseConnection("");
// or
DatabaseConnection conn("");

I'm aware that arrays allocated on the heap are much slower, but I would favor more readable and extensible code over a small performance hit that may occur as a result of using dynamic memory.

So, my question is: is it true that you should avoid heap allocation at all costs?

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"but I've also seen some people use it 'liberally', using the new operator to instantiate classes when a local stack variable would have sufficed" => those people probably don't know what they are doing. For this specific case, use std::vector<byte> (without any new). – R. Martinho Fernandes Aug 8 '13 at 17:34
And you don't have to worry about it nearly as much if you use RAII instead of new/delete. – chris Aug 8 '13 at 17:35
@krsteeve, Umm, smart pointers are C++. Code that doesn't use them and uses new/delete instead is more like C. – chris Aug 8 '13 at 17:42
@krsteeve I don't know what there is to learn by not using them. You might become good at using a debugger, but that is a side effect. – juanchopanza Aug 8 '13 at 17:43
@krsteeve Don't tell me you're one of those "abstractions get in the way of learning" guys... – Etienne de Martel Aug 8 '13 at 17:43

5 Answers 5

up vote 5 down vote accepted

I would suggest that in this case, using this is fine:

byte myArray[10]; 

If you need an array you can copy (e.g. return from a function), then using vector<byte> is the right soluton.

The very last resort should be to use new, and only allocate small regions if the data needs to presist outside the function.

Unfortunately, books don't always tell you good practices, or shows good examples of when you should and shouldn't use, for example new - instead, they show things like int *arr = new int[5]; - which probably takes up more space in overhead than the actual data.

And of course, all new must be deleted. Using smart pointers (shared_ptr or unique_ptr) will help a lot by doing automatic cleanup.

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std::array<byte> can also be copied. – Pete Becker Aug 8 '13 at 17:52
This proposal is actually really bad. having maintained such code with buffer overflows. i recommend to never use it. Never use magic numbers like that. – Frodo Aug 8 '13 at 17:52
@Frodo: But calling new and buffer overflowing doesn't work any better, does it? There are situations where buffers won't overflow, because the hardware or protocol determines the size - if the network card doesn't have more than 4 bytes in an IP address, then I shouldn't have to deal with a variable length array (e.g. vector) simply because of some rule that I can't use fixed size arrays. There are situations when you shouldn't use fixed size arrays too - no doubt. But forcing the use of one or another is not a good idea. (Of course, naming a constant instead of using 10 is a good idea!) – Mats Petersson Aug 8 '13 at 22:23
@Mats Petersson: yes you are correct. But fix allocations is often a quick fix which will later be costly. It was used a lot before we had STL. – Frodo Aug 8 '13 at 22:26

Whenever possible? Yes. At all costs? No. Dynamic allocation is, very often, the simplest solution to a problem.

However, do avoid using new at virtually all costs. Rely on make_shared and make_unique to produce single objects, and containers like std::vector for more than one. There is no excuse for you to ever use delete.

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make_unique is C++14 if I remember correctly – nijansen Aug 8 '13 at 17:48
@nijansen, Yes, it is, but you can make your own in C++11, and C++14 is coming fairly soon :) – chris Aug 8 '13 at 17:49
@nijansen It was an oversight in C++11 and IIRC, it's relatively easy to implement your own or carefully wrap any necessary new call in the unique_ptr constructor. – Anthony Vallée-Dubois Aug 8 '13 at 17:50
@nijansen That is no excuse for bad code. The underlying ideas of those constructs are what matters. Use them. – R. Martinho Fernandes Aug 8 '13 at 18:07

You can always approach such questions from two vectors; Maintainability/Readability and Performance. Sometimes the second is important, sometimes not. Sometimes you don't care about the first. However, in this case, I'd say that putting stuff as much as possible on automatic memory ("stack") versus dynamic memory ("heap") wins in both points (most of the time).

Allocating dynamic memory is just so slow compared to changing the stack pointer, there can hardly be an argument regarding performance. But if you allocate stuff that doesn't leave its scope in dynamic memory, you have to take care to release the memory after the scope, if you forget, you are not only leaking memory, you are likely breaking correctness because the destructors are not called. It's less maintainable in that regard.

It helps to be sceptical about every single new and consider it smelly. It prevents you from unnecessarily overdoing it.

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Yes it is true, you should avoid heap allocations whenever possible. In the case you mentioned, you should use containers provided by the standard library, like std::vector<byte>, as suggested in the comments.

If you absolutely must store something on the heap, use RAII (Resource Acquisition Is Initialization), meaning an object (on the stack) that performs acquisition when constructed, and releases the resource when destructed. Since C++11 there is std::unique_ptr for this, or the more sophisticated std::shared_ptr (together with std::weak_ptr), if you need multiple owners of a resource:

std::unique_ptr<int> unique(new int(42));
auto sp = std::make_shared<int>(42);

If you cannot use C++11 yet, almost every library will provide you with some kind of smartpointer - boost gives you scoped_ptr/scoped_array, shared_ptr/shared_array, weak_ptr, and intrusive_ptr; Poco gives you AutoPtr, etc. There is even a smartpointer in C++03, the auto_ptr, but I strongly discourage from using that one; its use is now deprecated, and it has really weird copying behavior, because C++03 does not support rvalue references / move semantics.

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I don't think Boost has unique_ptr, unless it's some kind of recent addition. – chris Aug 8 '13 at 17:51
@chris You're right, I fixed that. – nijansen Aug 8 '13 at 17:56

Some problems with dynamic allocations:

  1. Memory leaks (if you forget to delete the object)
  2. High number of alloc/free requests - stack allocations on the other hand simply moves the stack pointer once when function is called. Some automatic variables may even reside in registers without taking up memory.
  3. Heap fragmentation.

Basically, only use heap if you exhausted all other options.

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Not when using std::vector to do the job, but I am sure you just did not write that. – Frodo Aug 8 '13 at 17:49

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