Which is better (or faster), a C++ for loop or the foreach operator provided by Qt? For example, the following condition

QList<QString> listofstrings;

Which is better?

foreach(QString str, listofstrings)


int count = listofstrings.count();
QString str = QString();
for(int i=0;i<count;i++)
    str = listofstrings.at(i);
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    Just a quick note that if you don't plan on modifying the foreach loop variable, you should use a const QString& instead - that has implications on speed as well. – swongu Apr 21 '09 at 17:24
  • Here is an explanation of why you want to be careful to include the const: labs.qt.nokia.com/2009/01/23/iterating-efficiently – Jeff Allen Jul 12 '11 at 15:01
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    The important addition to this question is that you should never ever use Qt foreach for non Qt containers, most likely deep copy will be performed and this is the thing you do not want even without profiling it beforehand. – Predelnik Apr 16 '15 at 7:29
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    Since Qt 5.7 the foreach macro is deprecated, see my answer below for details. – ymoreau Oct 24 '19 at 17:41

11 Answers 11


It really doesn't matter in most cases.

The large number of questions on StackOverflow regarding whether this method or that method is faster, belie the fact that, in the vast majority of cases, code spends most of its time sitting around waiting for users to do something.

If you are really concerned, profile it for yourself and act on what you find.

But I think you'll most likely find that only in the most intense data-processing-heavy work does this question matter. The difference may well be only a couple of seconds and even then, only when processing huge numbers of elements.

Get your code working first. Then get it working fast (and only if you find an actual performance issue).

Time spent optimising before you've finished the functionality and can properly profile, is mostly wasted time.

  • 51
    The number passed the joke stage long ago. We should write an answer bot that looks for "which is faster" and auto-replies: profile it – JaredPar Apr 21 '09 at 4:28
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    See stackoverflow.com/questions/771092/… : let's see if it survives :-) – paxdiablo Apr 21 '09 at 4:57
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    Not that it really applies so much to the simple example, but what I like to say is, "Incorrect code is as unoptimized as you can get". – Michael Burr Apr 21 '09 at 5:27
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    @paxdiablo I strongly disagree. The answer you have given is "If you're really concerned, profile it for yourself.". Just because you got lucky and the OP did not get the code working first and was doing premature optimization does not mean that its a good answer. You answer would have been really great if you would have actually answered the question like several people below have and THEN added your comment. Just to say test it for yourself if you really need to is not an answer. – scigor Nov 3 '16 at 9:56
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    I work at a market. A big one. A big one that sells millions of products in one month. And when I need to generate a report of that to the government, it makes a looooot of difference. Using QT's foreach, the report took 4 hours. Simply trading it for normal fors changed the speed to 15 min. So depending on your application, the difference is absurd. – Dalton Nov 19 '16 at 17:20

First off, I'd just like to say I agree with Pax, and that the speed probably doesn't enter into it. foreach wins hands down based on readability, and that's enough in 98% of cases.

But of course the Qt guys have looked into it and actually done some profiling: http://blog.qt.io/blog/2009/01/23/iterating-efficiently/

The main lesson to take away from that is: use const references in read only loops as it avoids the creation of temporary instances. It also make the purpose of the loop more explicit, regardless of the looping method you use.


It really doesn't matter. Odds are if your program is slow, this isn't the problem. However, it should be noted that you aren't make a completely equal comparison. Qt's foreach is more similar to this (this example will use QList<QString>):

for(QList<QString>::iterator it = Con.begin(); it != Con.end(); ++it) {
    QString &str = *it;
    // your code here

The macro is able to do this by using some compiler extensions (like GCC's __typeof__) to get the type of the container passed. Also imagine that boost's BOOST_FOREACH is very similar in concept.

The reason why your example isn't fair is that your non-Qt version is adding extra work.

You are indexing instead of really iterating. If you are using a type with non-contiguous allocation (I suspect this might be the case with QList<>), then indexing will be more expensive since the code has to calculate "where" the n-th item is.

That being said. It still doesn't matter. The timing difference between those two pieces of code will be negligible if existent at all. Don't waste your time worrying about it. Write whichever you find more clear and understandable.

EDIT: As a bonus, currently I strongly favor the C++11 version of container iteration, it is clean, concise and simple:

for(QString &s : Con) {
    // you code here
  • Your statement concerning at() vs operator[] performance is not correct for Qt. Both do or do not perform bounds checking depending on compilation options. Exceptions are not used in Qt. In contrast, the documentation says "at() can be faster than operator[](), because it never causes a deep copy to occur." – Tim Hoffmann Jun 23 '16 at 1:46

Since Qt 5.7 the foreach macro is deprecated, Qt encourages you to use the C++11 for instead.

(more details about the difference here : https://www.kdab.com/goodbye-q_foreach/)

  • Please also add this as a comment to the question, more people need to see this! – Gerhard Burger Oct 24 '19 at 14:29

I don't want to answer the question which is faster, but I do want to say which is better.

The biggest problem with Qt's foreach is the fact that it takes a copy of your container before iterating over it. You could say 'this doesn't matter because Qt classes are refcounted' but because a copy is used you don't actually change your original container at all.

In summary, Qt's foreach can only be used for read-only loops and thus should be avoided. Qt will happily let you write a foreach loop which you think will update/modify your container but in the end all changes are thrown away.

  • I agree. I ran into a foreach while profiling: It turned out I had changed a QList to a QVarLengthArray (again after profiling) and found the foreach copying my QVarLengthArray. Oops. I went for a regular for loop and that stack trace no longer showed up in the profiler. – Ben Jun 20 '14 at 17:22

First, I completely agree with the answer that "it doesn't matter". Pick the cleanest solution, and optimize if it becomes a problem.

But another way to look at it is that often, the fastest solution is the one that describes your intent most accurately. In this case, QT's foreach says that you'd like to apply some action for each element in the container.

A plain for loop say that you'd like a counter i. You want to repeatedly add one to this value i, and as long as it is less than the number of elements in the container, you would like to perform some action.

In other words, the plain for loop overspecifies the problem. It adds a lot of requirements that aren't actually part of what you're trying to do. You don't care about the loop counter. But as soon as you write a for loop, it has to be there.

On the other hand, the QT people have made no additional promises that may affect performance. They simply guarantee to iterate through the container and apply an action to each.

In other words, often the cleanest and most elegant solution is also the fastest.


The foreach from Qt has a clearer syntax for the for loop IMHO, so it's better in that sense. Performance wise I doubt there's anything in it.

You could consider using the BOOST_FOREACH instead, as it is a well thought out fancy for loop, and it's portable (and presumably will make it's way into C++ some day and is future proof too).


A benchmark, and its results, on this can be found at http://richelbilderbeek.nl/CppExerciseAddOneAnswer.htm

IMHO (and many others here) it (that is speed) does not matter.

But feel free to draw your own conclusions.


For small collections, it should matter and foreach tends to be clearer.

However, for larger collections, for will begin to beat foreach at some point. (assuming that the 'at()' operator is efficient.

If this is really important (and I'm assuming it is since you are asking) then the best thing to do is measure it. A profiler should do the trick, or you could build a test version with some instrumentation.


You might look at the STL's for_each function. I don't know whether it will be faster than the two options you present, but it is more standardized than the Qt foreach and avoids some of the problems that you may run into with a regular for loop (namely out of bounds indexing and difficulties with translating the loop to a different data structure).

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    IMO, STL is not more "standard" than Qt. STL-style code is often extremely ugly. If you have to integrate with non-Qt C++ apps/libs, then it may be worthwhile. If you're just building a Qt app, using STL functions doesn't help you at all, instead, you'll be typecasting all the time. – Wim Leers May 19 '11 at 11:02

I would expect foreach to work nominally faster in some cases, and the about same in others, except in cases where the items are an actual array in which case the performace difference is negligible.

If it is implemented on top of an enumerator, it may be more efficient than a straight indexing, depending on implementation. It's unlikely to be less efficient. For example, if someone exposed a balanced tree as both indexable and enumerable, then foreach will be decently faster. This is because each index will have to independently find the referenced item, while an enumerator has the context of the current node to more efficiently navigate to the next ont.

If you have an actual array, then it depends on the implementation of the language and class whether foreach will be faster for the same as for.

If indexing is a literal memory offset(such as C++), then for should be marginally faster since you're avoiding a function call. If indexing is an indirection just like a call, then it should be the same.

All that being said... I find it hard to find a case for generalization here. This is the last sort of optimization you should be looking for, even if there is a performance problem in your application. If you have a performance problem that can be solved by changing how you iterate, you don't really have a performance problem. You have a BUG, because someone wrote either a really crappy iterator, or a really crappy indexer.

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