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Stand-alone STL algorithms (like std::count_if) take pair of iterators. In all cases where I use those (and in all examples I've seen online!), I find myself typing

std::count_if(myContainer.begin(),myContainer.end(), /* ... */ );

Is there a reason why shorthand templates of the style

std::count_if(myContainer, /* ... */ );

are not provided, given that more of than not is the operaation performed on the whole container? Did I just overlook it? Is the answer different for c++11 and c++03?

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1  
It is a simply a design decision. Many people don't find it such a good choice (see slideshare.net/rawwell/iteratorsmustgo). Boost provides those algorithms using their Range concepts. –  visitor Nov 17 '11 at 9:32
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5 Answers

up vote 7 down vote accepted

There is a nice blog-post by Herb Sutter discussing the question. The gist is that adding container-based overloads for algorithms can create ambiguities if an overload for that algorithm with the same number of template-parameters already exists. Concepts were intended to fix that problem.

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One reason could be to provide the flexibility for iterator range. You may not need to iterate through all elements sometime:

<iterator> it = myContainer.begin();
it++; // do something
it++; // do something
...
std::count_if(it, myContainer.end(), /* ... */ );

Also, you can always have a wrapper which does this for you:

template<typename T>
... count_if (T myContainer, ...)
{
  std::count_if(myContainer.begin(), myContainer.end(), /* ... */ );
}
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In C++11, use begin(myContainer) and end(myContainer) in order to make it work with arrays as well. –  Sjoerd Nov 17 '11 at 9:34
1  
The 0.1%-case where you need to iterate only over a part of the container justify typing .begin() and .end() in the 99.9% cases, if it is possible to have both. –  eudoxos Nov 17 '11 at 10:09
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@Euxodos: Yes, those 0.1% of cases would be trivially solved with count_if(make_range(it, myContainer.end()), /*...*/);. - Historically it seems that algorithms were added to the standard library in a hurry, and iterators were such a novel idea at a time. Had they had a bit more experience with them, things could have turned out different. But now it seems, they can't let go of the old things, and can't add new things, unless it can be done cleanly. –  UncleBens Nov 17 '11 at 16:12
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STL principle and flexibility is mainly because of operating on iterators instead of containers. It is not a big problem, you can re-use trick I am using from my early C years:

#define FULL_RANGE(c) (c).begin(), (c).end()

std::copy(FULL_RANGE(c), std::ostream_iterator<c::value_type>(cout, "\n")); 
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Simply because STL algorithms are connected / talks with container using iterators.

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STL containers do not have a common base class. The algorithms would not know, how to get the begin and end iterator of the container. This approach is more flexible because it works with custom classes as well. They do not have to inherit from a specific base class but only provide iterators.

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Obviously if it were implemented that way, it would still use templates. –  visitor Nov 17 '11 at 9:30
1  
iterators don't need to have a common base class either. –  Sjoerd Nov 17 '11 at 9:31
    
In C++11, there's a standard way to get the start and end of a container: std::begin, std::end. –  Steve Jessop Nov 17 '11 at 9:40
    
@SteveJessop: Those allow container-like access to non-containers such as C-style arrays. They might help in the general area, but not much has changed since C++03 in this regard. –  Potatoswatter Nov 19 '11 at 3:05
    
@Potatoswatter: True, in C++03 there's also a standard way to get the iterators for any container: the begin() and end() member functions. My main point should have been that "the algorithms would not know, how to get the begin and end iterator of the container" isn't true. As you say, the significant improvement in C++11 is to introduce range objects that are not containers. –  Steve Jessop Nov 19 '11 at 16:27
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