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I'm trying to get to grips with lambdas in C++.

Here's my code (variables simplified for understanding):

template <typename Container>
void do_function(const Container& c, const item &w){

complex<double> a(w.x1, w.y1);
complex<double> b(w.x3, w.y3);

for_each(begin(c), end(c), [] {
    p->inner_function(a, b);

I know p means nothing, it's just there to illustrate what I want to do.

Essentially, I want to use this function on any kind of container (list/vector etc) which holds instances of pointers of an abstract class called Animal. These instances all have an implemention of 'inner_function(complex, complex)'.

I want to call that function on each of these in a for_each loop using lambdas in C++ 11..

The examples online are all a bit confusing though.

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What's wrong with what you're doing? – 0x499602D2 Nov 23 '13 at 23:35
Well for starters, 'p' hasn't been declared, and apparently no 'capture mode' has been specified so it doesn't know what a and b are. – Chris G Nov 23 '13 at 23:36
up vote 4 down vote accepted

It seems, you want to use

std::for_each(std::begin(c), std::end(c), [=](Animal* p) { p->inner_function(a, b); });

Your lambda function will need to take one argument as std::for_each() expects a function which can be called with the result of *std::begin(c). The arguments need to be explicitly declared. You also need to choose how the arguments a and b are captured. Using [] means there is no captured context and you can't access any local variables at all. You can use

  • [=] to capture all variables in the context by value.
  • [&] to capture all variables in the context by references.
  • you can override the default set up by explicitly mentioning the variables:
    • [=,&a] would capture b by value and a by reference.
    • [&,b] the same but starting with a different default
    • [&a,b] the same but explicitly listing all arguments.

It may be easier to use a std::bind() expression, actually:

std::for_each(std::begin(c), std::end(c), std::bind(&Animal::inner_function, _1, a, b));

Since you didn't ask a question, it is unclear what the question is, though.

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This is perfect and I actually understand why now. I essentially wasn't sure what to use when you've used (Animal* p), and I didn't know about [=] and [&]. Thank you! – Chris G Nov 23 '13 at 23:40

If Container is going to be vector<Animal*>, list<shared_ptr<Animal>> etc, then I think what you want is:

for_each(begin(c), end(c), [&](typename Container::value_type p) {
    p->inner_function(a, b);

To also support unique_ptr, you might want to make it typename Container::value_type const &p.

Or use a "range-based for loop":

for(auto p : c) {
    p->inner_function(a, b);

Similarly with the option of auto & to allow for non-copyable p.

share|improve this answer
typename Container::value_type – bames53 Nov 23 '13 at 23:39
@bames53: I know I should remember whether or not a lambda's parameter declaration is a context that implies a type, but I'll take your word for it :-) – Steve Jessop Nov 23 '13 at 23:40
You are actually going to want to use something like [&](decltype(*end(c)) p){ p->inner_function(a, b); } because you want p to be a reference (possibly to const, depending on c) in the case where c is a container of unique_ptr. – Nevin Nov 25 '13 at 17:43

The container must contain pointers in order to use polymorphism. I'll use smart pointers:

std::vector<std::unique_ptr<Animal>> v;
item w;

do_function(v, w);

The algorithm std::for_each passes each element to the functor. It passes them such that the functor can take the argument either by value or reference as necessary. unique_ptr needs to be taken by reference:

for_each(begin(c), end(c), [] (std::unique_ptr<Animal> &p) {
    p->inner_function(a, b);

The functor also needs access to a and b. You can capture them explicitly:

[a,b] (std::unique_ptr<Animal> &p) {

Or as Steve Jessop suggests, just use range-based for, which is much simpler. With unique_ptr it would look like:

for(auto &p : c) {
    p->inner_function(a, b);
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