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I plan to execute an operation on each data of a std::vector array as the following codes show:

std::vector<int> abc;
abc.push_back(1);
abc.push_back(5);
abc.push_back(2);
std::sort(abc);
int min = abc[0];
int max = abc[2];
for(int i=0; i<3; i++)
  abc[i] = (abc[i]-min)/(max-min);

The question I have now is that whehter I have more elegant way of performing

 for(int i=0; i<3; i++)
      abc[i] = (abc[i]-min)/(max-min)

with for_each , trasnform or other methods in stl. The difficulty I have with these functions lies in the fact that I do not know how to incorporate external parameters within them.

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up vote 4 down vote accepted

Here is an example that uses for_each to update each element in abc:

std::for_each(abc.begin(),    // Start of range
              abc.end(),      // End of range
              [=](int &value) // The operation to apply
              {
                value=(value-min)/(max-min);
              });

Changing the sequence being iterated over by for_each is often frowned upon, despite the fact that for_each guarantees the order of traversal as well as how many invocations occur per element. However, to appease the naysayers, you may want to use transform instead which has no such guarantees (neither of the order of traversal nor of the number of calls of the predicate other than via a complexity guarantee {Note: the complexity has been modified to a guarantee of the number of calls in C++11, see 25.3.4.4}):

std::transform(abc.begin(),    // Start of source range
               abc.end(),      // End of source range
               abc.begin(),    // Start of destination range
               [=](int value)  // The operation to apply
               {
                 return (value-min)/(max-min);
               });

By the way, since you're doing integer division in your formula, you have to be very careful with the truncation of the result. You should probably check for a divide by zero, as well.

share|improve this answer
2  
This is in the border line of undefined behavior... std::for_each explicitly allows calling non-constant functions through the dereferenced iterator. It is otherwise inside the group non-modifying sequence operations. I assume it will work, but the assignment in the lambda is not a member function and does change the sequence values... – David Rodríguez - dribeas Aug 14 '13 at 14:14
1  
@David, I beg to differ, the predicate used with for_each may modify the elements being iterated over. See for example cppreference. – Michael Goldshteyn Aug 14 '13 at 14:26
    
Well, I would suggest that you check with the standard or one of the drafts. See for example N3337, which is the closest draft to the C++11 standard. Also std::transform does offer those guarantees. The iterators are InputIterators, so the only way of transversing is moving forward (order guarantee), and the standard guarantes that exactly last1-first1 applications of the operator are performed. – David Rodríguez - dribeas Aug 14 '13 at 14:31
1  
@juanchopanza: "non-modifying" because the algorithm itself doesn't modify anything, and doesn't require mutable iterators. – Mike Seymour Aug 14 '13 at 14:49
1  
@juanchopanza: The non-modifying sequence operations category is in reference to the algorithm logic itself. In other words, you won't find any assignments against the dereferenced iterator inside the for_each code. – Benjamin Lindley Aug 14 '13 at 14:49

With C++11 you could use a lambda that captures the needed variables:

std::transform(std::begin(abc), std::end(abc),
               std::begin(abc),
               [=](int x) { return (x-min)/(max-min); });

This is equivalent to your loop, although you might want to verify whether the logic was correct in the first place.

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This is easily achieved using std::transform and a suitable functor. Here, a lambda is used for brevity:

std::transform(std::begin(abc), 
               std::end(abc),
               std::begin(abc), 
               [&](int i) { return (i-min)/(max-min); }); 

It isn't clear whether this is an improvement. I would just write a plain range-based loop:

for(int& i : abc)
  i = (i-min)/(max-min);
share|improve this answer
1  
@jrok: Juancho edited the answer, he initially was calling std::for_each with a lambda that took the argument by reference and modified it internally. I removed the comment as he has fixed the code. – David Rodríguez - dribeas Aug 14 '13 at 14:18

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