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According to this cplusplus.com page, std::copy is in the <algorithm> header, as is std::swap and yet this works:

#include <iostream>  // std::cout
#include <vector>  // std::vector
#include <iterator>  // std::ostream_iterator()
#include <cstdlib>  // rand(), srand()

// NOT including <algorithm>

int main()
{
  srand(time(NULL));

  const int SIZE = 10;
  std::vector<int> vec; 

  for(int i = 0; i < SIZE; ++i)
  {
     vec.push_back(rand() % 256);
  }

  copy(vec.begin(), vec.end(), std::ostream_iterator<int>(std::cout, " "));
  std::cout << "\n";
}

The only thing I could think of is that they are exported by <vector> as well...but then why do we need the <algorithm> header at all?

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2  
<algorithm> (and <utility> for std::swap in C++11) are needed. Other headers might include them, but you cannot rely on that. –  juanchopanza Jan 5 at 22:17
    
At least, you shouldn't rely on that. But yeah, look at your other includes. They are pulling in <algorithm>. –  Ed S. Jan 5 at 22:17
    
Related pointless trivia: while the C++ standard allows one standard header to include another, that isn't permitted by the C standard. –  Michael Burr Jan 5 at 22:21
    
@MichaelBurr: Does that mean that if a standard header uses NULL, it must define it (in the header) rather than include stddef.h/stdlib.h/etc? And that it must forward declare needed functions from other headers rather than include those headers? Or is it even more stringent than that? –  Cornstalks Jan 5 at 22:31
    
@Cornstalks: in C a standard header wouldn't typically need to use a definition of NULL; there are seven headers that need to define it. Similarly with forward declarations of functions - those aren't needed in the headers (as far as I know). Some typedefs, like size_t, are declared in more than one header; an implementation will typically use a macro with a reserved name to prevent redeclaring the typedef for when a user includes more than one of those headers. –  Michael Burr Jan 5 at 22:46

3 Answers 3

up vote 6 down vote accepted

The particular implementation of <vector> that you're using here probably includes definitions for copy and swap (possibly by including <algorithm>, or possibly by including some other private header that contains them), but that's just an implementation detail and isn't guaranteed to be portable. It's entirely possible that if you were to switch compilers, you'd end up using an implementation of the C++ standard libraries where copy and swap weren't imported by <vector>, in which case your code will no longer compile.

In other words, just because it happens to work on your compiler doesn't mean it's portable, so for maximum portability and correctness you should include <algorithm> anyway.

Hope this helps!

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1  
It doesn't necessarily include <algorithm>. std::copy may be defined in another file which is included by both <algorithm> and <vector>. –  Benjamin Lindley Jan 5 at 22:22
    
That's a good point. Thanks for pointing that out! –  templatetypedef Jan 5 at 22:25

"exported by <vector>"...

In C++, things aren't exported.

But yeah, <vector> is allowed to #include <algorithm>, which means you get access to all of <algorithm> when you use <vector>. But to be safe, you should still #include <algorithm> yourself, as a different implementation (or even a different version) may not do this, and if you don't include it yourself it could break your code.

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What's the correct verbiage for this? I guess export is more of a Java thing? –  bcf Jan 5 at 22:22
    
@David: It would be better to say "<algorithm> might be included by <vector>", but if you're talking about the functions std::copy and std::swap (rather than the whole <algorithm> header), I might say something like "declarations for std::swap and std::copy might be (indirectly) included in <vector>". –  Cornstalks Jan 5 at 22:27

The implementation of <vector> in the Clang Standard C++ library includes <algorithm>. Notably, std::vector<T> has a swap() method, so this might be a clue why.

Remember that algorithms in <algorithm> work, in many cases, on iterators, and that pointers are often interchangeable. It's perfectly feasible to be using the algorithms contained within on data structures that are not STL containers.

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