Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

In his book The C++ Standard Library (Second Edition) Nicolai Josuttis states that lambdas can be better optimized by the compiler than plain functions.

In addition, C++ compilers optimize lambdas better than they do ordinary functions. (Page 213)

Why is that?

I thought when it comes to inlining there shouldn't be any difference any more. The only reason I could think of is that compilers might have a better local context with lambdas and such can make more assumptions and perform more optimizations.

share|improve this question
Related. –  iammilind Dec 5 '12 at 11:46
Basically, the statement applies to all function objects, not just lambdas. –  newacct Dec 5 '12 at 22:45
That would be incorrect because function pointers are function objects too. –  Johannes Schaub - litb Dec 8 '12 at 23:23
@litb: I think I disagree with that.^W^W^W^W^W^W (after looking into standard) I wasn't aware of that C++ism, though I think in common parlance (and according to wikipedia), people mean instance-of-some-callable-class when they say function object. –  phresnel Oct 18 '13 at 6:35

2 Answers 2

up vote 93 down vote accepted

The reason is that lambdas are function objects so passing them to a function template will instantiate a new function specifically for that object. The compiler can thus trivially inline the lambda call.

For functions, on the other hand, the old caveat applies: a function pointer gets passed to the function template, and compilers traditionally have a lot of problems inlining calls via function pointers. They can theoretically be inlined, but only if the surrounding function is inlined as well.

As an example, consider the following function template:

template <typename Iter, typename F>
void map(Iter begin, Iter end, F f) {
    for (; begin != end; ++begin)
        *begin = f(*begin);

Calling it with a lambda like this:

int a[] = { 1, 2, 3, 4 };
map(begin(a), end(a), [](int n) { return n * 2; });

Results in this instantiation (created by the compiler):

template <>
void map<int*, _some_lambda_type>(int* begin, int* end, _some_lambda_type f) {
    for (; begin != end; ++begin)
        *begin = f.operator()(*begin);

… the compiler knows _some_lambda_type::operator () and can inline calls to it trivially. (And invoking the function map with any other lambda would create a new instantiation of map since each lambda has a distinct type.)

But when called with a function pointer, the instantiation looks as follows:

template <>
void map<int*, int (*)(int)>(int* begin, int* end, int (*f)(int)) {
    for (; begin != end; ++begin)
        *begin = f(*begin);

… and here f points to a different address for each call to map and thus the compiler cannot inline calls to f unless the surrounding call to map has also been inlined so that the compiler can resolve f to one specific function.

share|improve this answer
"They can theoretically be inlined, but only if the surrounding function is inlined as well" why this limit? (you don't mean a theoretic limit?) In your examples, does it means: p may be inlined only when filter is inlined? in other words, there will be only one non-inlined version of filter for a given function pointer type? –  rafak Dec 5 '12 at 12:12
@rafak Well, if the call to filter is inlined then obviously the call to p inside it can also be inlined since then the target of the call is known at compile time. If, on the other hand, filter isn’t inlined then the target of p isn’t always the same for each call to filter, so the call to p cannot be inlined. –  Konrad Rudolph Dec 5 '12 at 12:50
Perhaps it's worth mentioning that instantiating the same function template with a different lambda expression will create a whole new function with a unique type, which might well be a drawback. –  chill Dec 5 '12 at 13:19
FWIW: if the function passed to map (via function pointer) is small and defined in the same source file, it's quite possible that it will get inlined when the loop is expanded. –  greggo Mar 4 at 16:32
@greggo I know. This is literally what the last sentence of my answer says, though. –  Konrad Rudolph Mar 4 at 17:43

Because when you pass a "function" to an algorithm you are in fact passing in a pointer to function so it has to do an indirect call via the pointer to the function. When you use a lambda you are passing in an object to a template instance specially instantiated for that type and the call to the lambda function is a direct call, not a call via a function pointer so can much more likely be inlined.

share|improve this answer
Other answer is much better than this, voted for that one! –  jcoder Dec 5 '12 at 12:01
"the call to the lambda function is a direct call" - indeed. And the same thing is true for all function objects, not just lambdas. It's just function pointers that can't be inlined as easily, if at all. –  Pete Becker Dec 5 '12 at 12:45

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.