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Let's consider a template function written in C++11 which iterates over a container. Please exclude from consideration the range loop syntax because it is not yet supported by the compiler I'm working with.

template <typename Container>
void DoSomething(const Container& i_container)
  {
  // Option #1
  for (auto it = std::begin(i_container); it != std::end(i_container); ++it)
    {
    // do something with *it
    }

  // Option #2
  std::for_each(std::begin(i_container), std::end(i_container), 
    [] (typename Container::const_reference element)
    {
    // do something with element
    });
  }

What are pros/cons of for loop vs std::for_each in terms of:

a) performance? (I don't expect any difference)

b) readability and maintainability?

Here I see many disadvantages of for_each. It wouldn't accept a c-style array while the loop would. The declaration of the lambda formal parameter is so verbose, not possible to use auto there. It is not possible to break out of for_each.

In pre- C++11 days arguments against for were a need of specifying the type for the iterator (doesn't hold any more) and an easy possibility of mistyping the loop condition (I've never done such mistake in 10 years).

As a conclusion, my thoughts about for_each contradict the common opinion. What am I missing here?

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3  
std::for_each does work on c-style arrays. –  juanchopanza Aug 14 '12 at 16:36
3  
@juanchopanza: The typename Container::const_reference won't. OP should be using std::iterator_traits<>::const_reference instead. –  André Caron Aug 14 '12 at 16:37
    
@Andrey: you can't use auto in the lambda parameter, but you can certainly typedef if in the function body to make the lambda easier to read. –  André Caron Aug 14 '12 at 16:38
2  
for ( Container::const_reference r : container ) { –  David Rodríguez - dribeas Aug 14 '12 at 16:53
2  
Wouldn't something like decltype(*begin(i_container)) help for lambda case? –  John Aug 14 '12 at 18:12
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5 Answers

up vote 12 down vote accepted

I think there are some other differences not yet covered by the answers so far.

  1. a for_each can accept any appropriate callable object, allowing one to 'recycle' the loop body for different for loops. For example (pseudo code)

    for( range_1 ) { lengthy_loop_body }    // many lines of code
    for( range_2 ) { lengthy_loop_body }    // the same many lines of code again
    

    becomes

    auto loop_body = some_lambda;           // many lines of code here only
    std::for_each( range_1 , loop_body );   // a single line of code
    std::for_each( range_2 , loop_body );   // another single line of code
    

    thus avoiding duplication and simplifying code maintenance. (Of course, in a funny mix of styles one could also use a similar approach with the for loop.)

  2. another difference regards breaking out of the loop (with break or return in the for loop). As far as I know, in an for_each loop this can only be done by throwing an exception. For example

    for( range )
    {
      some code;
      if(condition_1) return x; // or break
      more code;
      if(condition_2) continue;
      yet more code;
    }
    

    becomes

    try {
      std::for_each( range , [] (const_reference x)
                    {
                      some code;
                      if(condition_1) throw x;
                      more code;
                      if(condition_2) return;
                      yet more code;
                    } );
    } catch(const_reference r) { return r; }
    

    with the same effects regarding calling of destructors for objects with scope of the loop body and the function body (around the loop).

  3. the main benefit of for_each is, IMHO, that one can overload it for certain container types, when plain iteration is not as efficient. For example, consider a container that holds a linked list of data blocks, each block containing a contiguous array of elements, similar to (omitting irrelevant code)

    namespace my {
      template<typename data_type, unsigned block_size>
      struct Container
      {
        struct block
        {
          const block*NEXT;
          data_type DATA[block_size];
          block() : NEXT(0) {}
        } *HEAD;
      };
    }
    

    then an appropriate forward iterator for this type would require to check for the end of block at each increment and the comparison operator needs to compare both the block pointer and the index within each block (omitting irrelevant code):

    namespace my {
      template<typename data_type, unsigned block_size>
      struct Container
      {
        struct iterator
        {
          const block*B;
          unsigned I;
          iterator() = default;
          iterator&operator=(iterator const&) = default;
          iterator(const block*b, unsigned i) : B(b), I(i) {}
          iterator& operator++()
          {
            if(++I==block_size) { B=B->NEXT; I=0; }    // one comparison and branch
            return*this;
          }
          bool operator==(const iterator&i) const
          { return B==i.B && I==i.I; }                 // one or two comparisons
          bool operator!=(const iterator&i) const
          { return B!=i.B || I!=i.I; }                 // one or two comparisons
          const data_type& operator*() const
          { return B->DATA[I]; }
        };
        iterator begin() const
        { return iterator(HEAD,0); }
        iterator end() const
        { return iterator(0,0); }
      };
    }
    

    this type of iterator works correctly with for and for_each, for example

    my::Container<int,5> C;
    for(auto i=C.begin();
        i!=C.end();              // one or two comparisons here
        ++i)                     // one comparison here and a branch
      f(*i);
    

    but requires two to three comparisons per iteration as well as a branch. A more efficient way is to overload the for_each() function to loop on the block pointer and index separately:

    namespace my {
      template<typename data_type, int block_size, typename FuncOfDataType>
      FuncOfDataType&&
      for_each(typename my::Container<data_type,block_size>::iterator i,
               typename my::Container<data_type,block_size>::iterator const&e,
               FuncOfDataType f)
      {
        for(; i.B != e.B; i.B++,i.I=0)
          for(; i.I != block_size; i.I++)
            f(*i);
        for(; i.I != e.I; i.I++)
          f(*i);
        return std::move(f);
      }
    }
    using my::for_each;     // ensures that the appropriate
    using std::for_each;    // version of for_each() is used
    

    which requires only one comparison for most iterations and has no branches (note that branches can have a nasty impact on performance). Note that we don't need to define this in namespace std (which might be illegal), but can ensure that the correct version is used by appropriate using directives. This is equivalent to using std::swap; when specialising swap() for certain user-defined types.

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this is cute :) so effectively break becomes throw and continue becomes return –  Fiktik Aug 15 '12 at 9:17
    
@Fiktik I added another point, which IMHO is the most important –  Walter Aug 15 '12 at 10:01
    
is it legal to add function overloads into namespace std? I forget what the standard says about this –  haohaolee Aug 16 '12 at 14:51
    
@haohaolee good point. It's actually not necessary. I amended my answer. –  Walter Nov 12 '13 at 12:15
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Regarding perfomance, your for loop calls std::end repeatedly, while std::for_each will not. This might or might not result in a performance difference depending on the container used.

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Good point. But would it be an issue for any standard container? –  Andrey Aug 14 '12 at 16:22
    
@Andrey: Probably not (IIRC a constant complexity end function is a requirement for all STL containers, although I'm not entirely sure of the newer ones). They're typically not no-ops however, so the difference might be measurable with a very simple loop body. –  eq- Aug 14 '12 at 16:29
    
@Andrey however, your code doesn't have to do that. You can declare and initialize the iterator outside of the loop. –  juanchopanza Aug 14 '12 at 16:37
    
I don't think this answer is correct, but maybe citing the standard would make it more valid. –  Klaim Aug 14 '12 at 17:41
    
@Klaim, why do you think so? Do you think that for will not evaluate the middle expression repeatedly, or that for_each will, for some reason, call end (although it doesn't know the container it should call it with)? –  eq- Aug 14 '12 at 17:48
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  • The std::for_each version will visit each element exactly once. Somebody reading the code can know that as soon as they see std::for_each, as there's nothing that can be done in the lambda to mess with the iterator. In the traditional for loop, you have to study the body of the loop for unusual control flow (continue, break, return) and dinking with the iterator (e.g., in this case, skip the next element with ++it).

  • You can trivially change the algorithm in the lambda solution. For example, you could make an algorithm that visits every nth element. In many cases, you didn't really want a for loop anyway, but a different algorithm like copy_if. Using an algorithm+lambda, is often more amenable to change and is a bit more concise.

  • On the flip side, programmers are much more used to traditional for loops, so they may find algorithm+lambda to be harder to read.

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You can trivially change the algorithm in the lambda solution Could you provide an example which supports this claim? One which is trivial to change in for_each but not trivial in for loop? –  Andrey Aug 14 '12 at 18:32
    
@Andrey: I did give a couple right in the answer. I believe Herb Sutter gives more examples in this talk: vimeo.com/23975522 –  Adrian McCarthy Aug 15 '12 at 18:14
1  
By "algorithm" he means the looping part, not the body of the loop. An example would be replacing for_each with parallel_for_each. –  Brangdon Aug 18 '12 at 13:49
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First, I cannot see much difference between these two, because for_each is implemented using for loop. But note that for_each is a function which has a return value.

Second, I will use range loop syntax once available in this case since this day would come soon anyway.

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The problem with C-style arrays is in the declaration of the lambda. The array doesn't have typename Container::const_reference –  Andrey Aug 14 '12 at 16:19
    
Sorry, after a second glance, I realize what you mean... –  haohaolee Aug 14 '12 at 16:21
    
You could substitute decltype(*std::begin(i_container)) for typename Container::const_reference, I think. –  MSalters Aug 16 '12 at 12:29
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Indeed; in the case of using a Lambda expression, you have to declare the parameter type and name, so nothing is won.

But it will be awesome as soon as you want to call one (named) function or function-object with this. (Remember that you can combine function-like things via std::bind.)

The books from Scott Meyers (I believe it was Effective STL) describe such programming styles very good and clear.

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