The purpose and functioning of
std::for_each is very different from that of the macros
std::for_each is, first and foremost, a function call. It is an algorithm. You call it, providing a pair of iterators. On each member of the iterator range, it will call the given function with the value fetched from the iterator in question.
The purpose of
std::for_each, conceptually speaking, is really to match up with the more specific algorithms that already exist. With algorithms like
copy, etc, it makes sense to have one that simply executes arbitrary code for every element.
Q_FOREACH are equivalent constructs (which I will collectively call
FOREACH), but behave differently from
FOREACH is, first and foremost, a for loop. Now, that might not sound so different, but think about it. You cannot call
break from within
continue can be emulated easily enough with
return (though this also means you can't return from the function that issues the
std::for_each call). But there's no way to escape from the
std::for_each loop if you want to stop. Similarly, you can't
goto out of a
for_each loop. The best you can do in either case is throw an exception, and that's using exceptions for flow control (ie: not a good idea).
When you use
std::for_each, you must provide some callable function. This could be a function pointer or function object. Because of that, your code is somewhat de-localized. This is fine if what you're doing in each iteration is a complex, multi-line function. But if each iteration's logic is quite simple, then code readability decreases a bit.
FOREACH executes a local block of code. So the code is right there; you don't have to track down a function to see what's happening on each iteration.
Also, calling a function means having to write that function. If you need to keep track of state, you now need a functor, which requires more code to write.
std::for_each much more attractive with lambda functions. This removes the code locality problem: the source code is right there. And since lambdas can capture stuff, it can work almost exactly like a regular
for loop. Well, except for no
break functionality, but that's usually avoidable.
Of course, C++11 also makes it effectively obsolete (along with
FOREACH) with range-based
for loops. But since there are different levels of conformance with C++11, there are some environments where you have lambda but not range-based
What you ought to use is up to you.
FOREACH is nice, and if you're already using Boost and/or Qt, then feel free. But I wouldn't suddenly start using these just for
FOREACH. Personally, I wouldn't use
std::for_each unless you're also using lambdas or something, due to code locality issues. Just use a