31

While debugging something, I saw the STL vector::empty() implementation:

bool empty() const
        {return (size() == 0); }

I believe, whenever we are probing the emptiness of vector it is always recommended to use empty over size(). But seeing that implementation, I am wondering, what is the benefit of doing so? Instead, there is a function call overhead in calling empty as it internally calls size()==0.

I thought empty() may be helpful in case of list as size() doesn't guarantees the constant time in list. To verify my assumption, I checked the list implementation and surprisingly, found the same implementation in list as well,

return (size() == 0);

I am bit confused now. If empty internally uses size() then why should we prefer empty over size() ?

23

You would need to write the condition out everytime you use size(). It's convenient to use empty(). This is of course, provided you don't switch containers. As others have pointed out, it is upto the implementation to use size() in empty() or not. However, the standard does guarantee that: empty() is a constant-time operation for all standard containers.

  • is that the only difference ? a convenient factor – aJ. Apr 13 '09 at 6:52
  • aJ: No, not just for convenience. Read the two other comments (including mine). – Chris Jester-Young Apr 13 '09 at 6:54
  • Agreed. With respect to client code, yes, writing generic code using empty makes sense. I was bit bemused about my STL internal impl of using size inside empty. – aJ. Apr 13 '09 at 6:59
  • @aJ: This is one of the items in Scott Meyers, Effective STL. – dirkgently Apr 13 '09 at 7:04
  • Okay, I will check that. Thanks for the info. – aJ. Apr 13 '09 at 7:06
41

Because if you switch from std::vector to std::list or other container, it may be different.

For example some implementations of std::list::size take O(n) and not O(1).

  • Indeed. I'd like to add that this is useful when writing generic code and you don't know which container is actually being used. – Iraimbilanja Apr 13 '09 at 6:50
  • 1
    That is exactly the reason, size() should be a constant time operation but the standard allows the implementor to have a non-constant time implementation. In the other hand, empty() must be a constant time operation in all implementations. – David Rodríguez - dribeas Dec 21 '09 at 7:23
  • Of course, if you decide to switch from std::vector to something like std::list you will have a lot bigger problems. Like totally different iterator invalidation rules. – Frerich Raabe Aug 6 '12 at 7:41
  • 7
    This answer is correct in C++03. In C++11 size must be constant time. – Billy ONeal Jul 18 '13 at 17:36
8

Well, as you say, that's just an implementation detail. std::list can be implemented either with a stored size (constant-time size() but linear-time splice()), or without (constant-time splice() but linear-time size()). By choosing to use empty(), you avoid betting on an implementation detail, when you don't need to know the size.

6

Following the standard, empty() should be preferred as it has constant time complexity regardless of the container type.

In C++03 standard, chapter 23.1, table 65: Container Requirements

Operation:   empty()
Return_type: convertible to bool
Semantics:   equivalent to size()==0
Complexity:  constant

It seems as if in your STL implementation, they took the semantics as the real implementation ignoring the complexity requirements, or size() is constant time in the implementation (stored field).

If size() is not constant time, contact your vendor about std::list<>::empty() not fulfilling the standard container requirements.

  • I don't think that there is any hard evidence that his STL implementation is non-conformant. The standard even says that size() should be constant time for all containers, including list. – CB Bailey Apr 13 '09 at 7:47
  • I edited the last part of the post, but forgot to update the top part. – David Rodríguez - dribeas Apr 13 '09 at 8:25
  • 1
    i'm not sure, but the sgi STL site describes empty() as having amorized constant time complexity. whereas the c++ standard indeed describes it as having constant time complexity. therefor i think it's important to not mix "STL" and "Standard C++ Library". neither is a subset of the other. – Johannes Schaub - litb Apr 13 '09 at 14:12
  • or if one says STL one should say one means STandardc++Library instead of StandardTemplateLibrary . I find it often mixed :) – Johannes Schaub - litb Apr 13 '09 at 14:13
  • if you look in my answers, i never say STL when i mean the standard c++ library, because it only causes confusion. e.g why should one not include std::cout into the STL (Standardc++Library)? so if someone says STL and includes coutinto it, other people may not include it. and then confusion arises:) – Johannes Schaub - litb Apr 13 '09 at 14:16
5

1st, using a function called empty() when you want to know if something is empty makes code more readable, and means you don't have to worry about implementation details. It also means that your code can more easily be adapted to other types of containers, with other characteristics.

2nd, that's just one STL implementation. My GNU C++ one looks like this:

bool
empty() const
{ return begin() == end(); }

This will eventually result in a pointer comparison, while using size() would result in a subtraction (in this implementation).

3rd, it's not very likely to incur the overhead of an extra function call, since the empty()-function is probably inlined (in both of the implementations).

3

empty() has O(1) implementations for ALL container classes. size() can only provide O(n) implementations for some containers; this is why empty() is preferred.

1

In addition to the reasons given above, it's also arguably clearer than foo.size() == 0 and/or !foo.size()

  • 1
    Oor arguably not. After years of using it, when glancing at code I still sometimes get the impression that alist.empty() is emptying the list. I think it should be called is_empty() (like is_open() in iostreams) – anon Apr 13 '09 at 8:59
0

Besides the readability point, which is very valid, what you experienced is simply the artifacts of one particular implementation, not the only possible one.

That is, there is no reason or requirement that empty() be implemented in terms of size() in both the vector and list case, or in deed any other container. If there are better performing alternatives, they should be used, unless the author(s) of the library are incompetent, or more reasonably, lazy.

As for the list and the O(1)-ness of size(), or the lack thereof, you should take into account that list may implement either size() as O(1) or splice(), but not both (thinking about the reason is an interesting exercise.) So in your case, the library you inspected may have implemented size() as O(1) (in which case splice() would be O(n)) and therefore could implement empty() in terms of size() without sacrificing performance, otherwise, that would be a really bad library.

0

Prefer to use use empty() than size() because, each container might implement empty() implementation in a different way to get the constant time operation.

example:

vector implements as : bool empty() const { // test if sequence is empty return (size() == 0); }

list implements as :

        bool empty() const
    {   // test if sequence is empty
    return (_Mysize == 0);
    }

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