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Within a struct, to minimize padding, one should declare the elements largest to smallest, correct?

An std::vector allocates memory on a section that is not necessarily contiguous, correct?

Within a struct, how many bits should I consider the std::vector to be when considering its placement within the struct with respect to padding?

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  • 2
    An std::vector allocates memory on a section that is not necessarily contiguous, correct? Wrong.
    – drescherjm
    Jan 19, 2015 at 22:33
  • 1
    Within a struct, to minimize padding, one should declare the elements largest to smallest, correct? Implementation defined.
    – drescherjm
    Jan 19, 2015 at 22:34
  • 1
    @drescherjm: And naturally, the reverse normally works equally well. Jan 19, 2015 at 22:34
  • @drescherjm: Sure, but the mechanism 99% of practical implementations use would follow this rule. Jan 19, 2015 at 22:37

2 Answers 2

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Within a struct, to minimize padding, one should declare the elements largest to smallest, correct?

That depends. You may be optimizing for cache behavior in some cases which may not necessarily result in that ordering. On most implementations ordering things that way will result in a structure of the smallest size (with the least padding), but that's not guaranteed by the standard or anything like that.1

An std::vector allocates memory on a section that is not necessarily contiguous, correct?

That is not correct. vector is required to use one contiguous section. See N3936 23.3.6.1/1:

A vector is a sequence container that supports random access iterators. In addition, it supports (amortized) constant time insert and erase operations at the end; insert and erase in the middle take linear time. Storage management is handled automatically, though hints can be given to improve efficiency. The elements of a vector are stored contiguously, meaning that if v is a vector<T, Allocator> where T is some type other than bool, then it obeys the identity &v[n] == &v[0] + n for all 0 <= n < v.size().

Within a struct, how many bits should I consider the std::vector to be when considering its placement within the struct with respect to padding?

Vector can't see anything about the members in your structure; it only knows the size.


1Consider a hypothetical machine which has 4 byte ints and requires everything be 5 byte aligned. (I don't know of such a machine, but the standard is written in such a way that such a machine would be possible) In that case a structure like:

struct X
{
    int a;
    int b;
    char c;
    char d;
};

would waste space because

struct X
{
    int a;
    char c;
    int b;
    char d;
};

would have each of the chars stored into the unused 5th byte. Which is why the standard leaves this implementation defined.

1

I assume you're imagining something like this:

struct foo {
  // ...
  std::vector<T> vec;
  // ...
};

I think the thing you're missing is the distinction between the std::vector object itself and the memory it allocates for its elements. The std::vector itself takes up sizeof(std::vector) bytes, so will contribute at least this many bytes to a struct it is contained within if you account for padding.

Internally, the std::vector object allocates a contiguous region of memory elsewhere in which the elements are stored. To allow an increase or reduction in size, the std::vector may allocate different sizes of memory as you add or remove elements. However, this is irrelevent to your question, as this memory does not contribute to the size of the std::vector and not therefore to the size of the struct of which it is a member.

2
  • Thank you. That was indeed what I was confused about. Tequila does strange things to a man. What's a good rule of thumb to determine sizeof(std::vector) before compiling knowing the object type it will store but not the amount of objects? Jan 19, 2015 at 23:51
  • @Dr.McBucketO.ChickenM.D. That completely depends on how it's implemented, so you cannot say. The element type is unlikely to have any effect though. Jan 20, 2015 at 0:09

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