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Is there any known header-only STL-like container/allocator for appending chunks of memory to another continuos memory area until it's filled? At the moment I am using a std::vector<char> vec, because it has some useful interface, but it's not optimal and somehow I think I am abusing it for my needs.

I first use std::vector::reserve to fix its capacity and allocate the required memory once for all to avoid unnecessary reallocations and then use std::copy(&chunk[0], &chunk[size], vec.data() + vec.size()) each time to append the new chunks of memory to the unfilled memory area behind the vector (of course size() <= capacity()). After each copy I explicitly update the size of the vector accordingly. Ok, I could use a back_inserter. But this not the point now (see below).

Of course std::copy could be specialized for char by any implementation so that it can just call memcpy at the end, but this is not a guarantee. Calling memcpy by myself to append the chunk to the memory already allocated by the vector to have such guarantee is just ugly. Are there better/more elegant options?

EDIT: I have no control on how the chunks of memory are allocated. They are given.

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I'd say stick with vector<char> until you've proven beyond doubt that this is inferior to a hand-rolled memcpy solution, and then work on encapsulating that one into a C++ construct. –  Kerrek SB Jan 25 '13 at 10:21
did you see this: stackoverflow.com/questions/3482941/how-do-you-realloc-in-c –  0x90 Jan 25 '13 at 10:28
And why not use a char array? –  Dariusz Jan 25 '13 at 10:39
@0x90: that does not answer my question. There is no guarantee std::vector<char> calls realloc on resize(). But in my case I already know the final size, so I can call reserve() instead. My concern is more about std::copy() which is not guaranteed to call memcpy. Doing memcpy by myself on the memory reserved by the vector is the only efficient solution I have found. –  Martin Jan 25 '13 at 10:40
This question doesn't seem to be about appending chunks of memory to a continuous memory area. I think it's about copying memory. –  Peter Wood Jan 25 '13 at 12:27

3 Answers 3

Basically the only way to "really" append memory to a contiguous memory area is to use the Posix function realloc(). Even with these allocated regions you can use std::copy, you only have to maintain knowledge about the end position in your region.

However, realloc() does not guarantee that the memory area will be at the previous memory location, but rather that the new block is fully contiguous. See man page for more details.

Few things to remember:

  • If you allocated memory via posix_memalign() it is not guaranteed that the memory alignment will be kept
  • There is no way to find out if the realloc() copied the data or not.
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hmm, I don't think your answer answers my question. I have made it more clear. I'd really like to have a vector interface for the memory. realloc() is not point really. I could just call reserve() once for all, std::copy might be not efficient and memcpy is ugly. I have no control on how/where the chunks are allocated. –  Martin Jan 25 '13 at 10:49
std::copy is quite efficient. –  Puppy Jan 25 '13 at 11:38
@DeadMG : there is no guarantee it uses memcpy/memmove, so there is no guarantee it is efficient. –  Martin Jan 25 '13 at 11:49
@Martin, I still don't get why you want to use a stl container for something it's not meant to. Plus with your requirements you're basically relying on hidden properties of the implementation. The allocator used by the vector could do magic that you do not know and the vector does not promise contiguous memory. –  grundprinzip Jan 25 '13 at 14:33
@grundprinzip I do rely on standard guarantees. vector does provide contiguous memory. –  Martin Jan 25 '13 at 14:41

I know it's not exactly what you want, but std::deque usually stitches together contiguous blocks of memory.

There aren't any re-allocations as it grows, but the whole data may not be contiguous.


Using a vector with preallocated memory, you can insert values at the end, which won't result in a reallocation unless the new values would make the size exceed the capacity:

vector<char> values(PRE_ALLOCATED_SIZE);
// ...
values.insert(values.end(), chunk, chunk+CHUNK_SIZE);
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thanks, but the area must be contiguous :) –  Martin Jan 25 '13 at 11:18
You cannot add previously allocated chunks on to an existing chunk. –  Puppy Jan 25 '13 at 11:39
@DeadMG: what are you talking about? –  Martin Jan 25 '13 at 11:50
@Martin, you said you wanted to append chunks of memory to another contiguous memory area. It is not possible to put two chunks of contiguous memory together so that they are contiguous (unless they happened to be contiguous to start with). –  Peter Wood Jan 25 '13 at 11:54
@Peter : Ok. I see your point. I think I was not clear enough, I'll edit my question again. The contiguous area is fixed and preallocated once. Chunks need to be appended until this single area is filled, so that the size of the vector<char> will grow, but not its capacity. –  Martin Jan 25 '13 at 12:02

This probably is not what you're looking for, since they are designed for homogenous containers (i.e. where all the elements have the same type). I don't know if that fits your use case. On the off chance that you find it useful, I point you at:

get_temporary_buffer -- allocate raw storage (there's also a way to return the storage).

raw_storage_iterator -- output iterator over raw storage.

uninitialized_copy_n -- Copy construct several objects into raw storage (there is also a single element version).

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