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I have an std::vector<SomeType>, whereas SomeType is a struct instantiated from various template parameters.

Eventually in my specific case it turns out to be a large structure (about 1MB). Allocating such a structure on the stack (i.e. using an automatic variable of this type) immediately leads to the stack overflow. But since std::vector allocates the memory on the heap - there should be no problem.

Surprisingly there is a problem with this. Specifically, the problem is with the initialization. I do the following:

std::vector<SomeType> myVec;
// ...
for (size_t i = 0; i < N; i++)
    SomeType& x = myVec[i];
    // initialize it

I get a stack overflow exception in myVec.resize(). Stepping inside resize() with the debugger revealed that if resize() causes the vector to grow - besides of allocating the memory it also initializes the new elements by "default values".

The "default value" is obtained by creating an automatic variable of the given type, using default (i.e. empty) constructor, and assigning the new element to it.

I wonder if there's a way to overcome this. I mean, tell std::vector not to initialize the new elements. But I'd like to achieve this without generating unneeded code.

I can think of using a vector of (smart/shared/scoped/unique) pointers to type. Or alternatively use push_back whereas each new element is allocated on heap. But all this inevitable involves extra code. Which is not justified.

Is there a way to achieve what I need? Whereas:

  • still using std::vector<SomeType>
  • No redundant heap allocations

Thanks in advance

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Your SomeTypeis about 1MB in size? Maybe you should allocate its members on heap too? –  yuri kilochek Jul 31 '12 at 12:48
I am guessing your struct has at least one huge array in it, right? How about making that array dynamic (for example with a vector)? –  Shahbaz Jul 31 '12 at 12:49
Refactor SomeType to be something simpler. –  Tadeusz A. Kadłubowski Jul 31 '12 at 12:49
But all this inevitable involves extra code. Which is not justified. The fact that without modification your application crashes is a good justification for changing the code, at least in my books... Voting to close as not a question until you decide what you want: if you don't want changes, then there is no answer... –  David Rodríguez - dribeas Jul 31 '12 at 13:06
@JamesKanze: I agree, this can be solved at the OS level (1M is not that much for stack size, which made me think that it might be an embedded system), but as you might have noticed from valdo's response to your comment he is not really looking for answers (I know how to solve this). He just wants someone to tell him what he wants to hear. –  David Rodríguez - dribeas Jul 31 '12 at 15:29

3 Answers 3

up vote 4 down vote accepted

In C++03 it's impossible:

  • Vectors cannot contain uninitialized elements
  • Vectors only know how to initialize elements by copying

Therefore you need an element to copy from. It doesn't fit on the stack (ruling out the default argument) and you don't want to explicitly put it elsewhere, so you're out of luck.

In C++11 there are new means of initializing elements in a container, and for example the size_t constructor no longer takes an extra default argument. Instead it value-initializes each element, which is probably what you want.

So in C++11, the answer is std::vector<SomeType> myVec(N);. Perhaps you could check whether your compiler has a C++11 mode that you could use to compile your code. Of course, migrating to C++11 isn't completely trivial.

share|improve this answer
Thanks a lot. Your answer is the only one that answers my question. –  valdo Jul 31 '12 at 13:19
"It doesn't fit on the stack, and you don't want to put it on the heap"---so that leaves static memory. –  James Kanze Jul 31 '12 at 13:54
@JamesKanze: I ignored that accidentally, but it turns out that the questioner doesn't want it there either (see comments elsewhere) - the goal is to do it without an element to copy from. Since I said, "the heap" rather than "dynamically allocated memory", I might be able to weasel out with the observation that on desktop-like systems, static memory is in point of fact allocated from the same source anyway, by the dynamic linker ;-) –  Steve Jessop Jul 31 '12 at 14:12

Use reserve and then push_back.

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From the question, "Or alternatively use push_back whereas each new element is allocated on heap. But all this inevitable involves extra code. Which is not justified." –  Steve Jessop Jul 31 '12 at 12:50
Use C++11, reserve and then emplace_back? –  araqnid Jul 31 '12 at 12:50
@Steve define extra code. –  Anon Mail Jul 31 '12 at 12:52
My point is that the questioner has already considered your suggestion in the question, and rejected it. Albeit for reasons only vaguely defined. –  Steve Jessop Jul 31 '12 at 12:55

The best solution is to change SomeType so that it is smaller. But resizing vector without using stack nor heap is possible. Just use a static local variable:

static SomeType intialValue;
myVec.resize(N, initialValue);

Be aware, that such function is not re-entrant.

share|improve this answer
Yes, It's not re-entrant. Plus it's not thread-safe. And, in any case, this means extra code generated. –  valdo Jul 31 '12 at 13:04
@valdo What extra code? I writing one line too much for you? If you want some different behavior you have to change something –  Tadeusz Kopec Jul 31 '12 at 13:12
No. I meant the machine code in the executable. Using static leads to (huge) increase in the global memory consumed by the executable. Plus some extra in function prolog, ensuring the initialValue is initialized. Plus extra CRT cleanup code at program termination that ensure the static object is destroyed (if it was created). And the point is that all this is absolutely not necessary. It's just a consequence of an imperfect design. –  valdo Jul 31 '12 at 13:18
Doesn't help with the questioner's objections, but you could make it re-entrant by using a (static and/or const) global variable instead of a local. –  Steve Jessop Jul 31 '12 at 13:30
What's not thread safe (or not reentrant) about it? C++11 requires it to be thread safe (as long as you never modify initialValue), and pre-C++11 compilers (at least some of them) made it thread safe anyway. –  James Kanze Jul 31 '12 at 13:56

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