53

Before C++11 I used boost::bind or boost::lambda a lot. The bind part made it into the standard library (std::bind) the other part became part of the core language (C++ lambdas) and made the use of lambdas a lot easier. Nowadays, I hardly use std::bind, since I can do almost anything with C++ lambdas. There's one valid use-case for std::bind that I can think of:

struct foo
{
  template < typename A, typename B >
  void operator()(A a, B b)
  {
    cout << a << ' ' << b;
  }
};

auto f = bind(foo(), _1, _2);
f( "test", 1.2f ); // will print "test 1.2"

The C++14 equivalent for that would be

auto f = []( auto a, auto b ){ cout << a << ' ' << b; }
f( "test", 1.2f ); // will print "test 1.2"

Much shorter and more concise. (In C++11 this does not work yet because of the auto parameters.) Is there any other valid use case for std::bind beating the C++ lambdas alternative or is std::bind superfluous with C++14?

  • 8
    I thought that lambdas should already be preferred to bind wherever that made sense. – Bartek Banachewicz Jun 28 '13 at 10:55
  • interfacing with foreign (eg. C) code? – didierc Jun 28 '13 at 10:56
  • 3
    @BartekBanachewicz the question is what is that wherever. – didierc Jun 28 '13 at 10:59
  • Lambdas can be inlined - binds can't – doctorlove Jun 28 '13 at 11:01
  • 9
    The C++11 example doesn't even need a bind. Just use auto f = foo{}; – aschepler Jun 28 '13 at 11:01
59

Scott Meyers gave a talk about this. This is what I remember:

In C++14 there is nothing useful bind can do that can't also be done with lambdas.

In C++11 however there are some things that can't be done with lambdas:

  1. You can't move the variables while capturing when creating the lambdas. Variables are always captured as lvalues. For bind you can write:

    auto f1 = std::bind(f, 42, _1, std::move(v));
    
  2. Expressions can't be captured, only identifiers can. For bind you can write:

    auto f1 = std::bind(f, 42, _1, a + b);
    
  3. Overloading arguments for function objects. This was already mentioned in the question.

  4. Impossible to perfect-forward arguments

In C++14 all of these possible.

  1. Move example:

    auto f1 = [v = std::move(v)](auto arg) { f(42, arg, std::move(v)); };
    
  2. Expression example:

    auto f1 = [sum = a + b](auto arg) { f(42, arg, sum); };
    
  3. See question

  4. Perfect forwarding: You can write

    auto f1 = [=](auto&& arg) { f(42, std::forward<decltype(arg)>(arg)); };
    

Some disadvantages of bind:

  • Bind binds by name and as a result if you have multiple functions with the same name (overloaded functions) bind doesn't know which one to use. The following example won't compile, while lambdas wouldn't have a problem with it:

    void f(int); void f(char); auto f1 = std::bind(f, _1, 42);
    
  • When using bind functions are less likely to be inlined

On the other hand lambdas might theoretically generate more template code than bind. Since for each lambda you get a unique type. For bind it is only when you have different argument types and a different function (I guess that in practice however it doesn't happen very often that you bind several time with the same arguments and function).

What Jonathan Wakely mentioned in his answer is actually one more reason not to use bind. I can't see why you would want to silently ignore arguments.

  • Is there a way to move variadic template arguments into a C++14 closure? Something like: template<typename F, typename ...Args> auto make_thunk(F&& f, Args&&... args) { return [a = std::move(args)] { f(a); } – Zendel May 19 '16 at 21:20
  • Link to the talk is unfortunately broken – Ayxan Apr 17 at 7:19
29

std::bind can still do one thing polymorphic lambdas can't: invoke overloaded functions

struct F {
  bool operator()(char, int);
  std::string operator()(char, char);
};

auto f = std::bind(F(), 'a', std::placeholders::_1);
bool b = f(1);
std::string s = f('b');

The call wrapper created by the bind expression calls different functions depending on the arguments you give it, the closure from a C++14 polymorphic lambda can take different types of arguments but can't take a different number of arguments, and always invokes (specializations of) the same function on the closure. Correction: see the comments below

The wrapper returned by std::bind can also be called with too many arguments and it will ignore them, whereas a closure created by a lambda will diagnose attempts to pass too many arguments ... but I don't consider that a benefit of std::bind :)

  • 9
    How does your f differ from auto f = [](auto x){return F()('a', x);}? Or is the only limitation number of arguments? – Yakk - Adam Nevraumont Jun 29 '13 at 2:07
  • 8
    good point, that lambda can reproduce the useful part, it's only the useless accepting too many args part it doesn't do then! – Jonathan Wakely Jun 29 '13 at 11:25
  • 1
    well, I don't think C++1y lambdas support [](auto... x){return F()(x...);}, the useful part of accepting variable number of arguments. (and if we go with the auto syntax, I am not sure how they expect perfect forwarding to work with lambdas...) – Yakk - Adam Nevraumont Jun 29 '13 at 11:47
  • 13
    @Yakk: variadic auto parameters are supported. So it would become something like: [](auto&&... args) { F()(std::forward<decltype(args)>(args)...);}; See isocpp.org/files/papers/N3649.html – BertR Jul 9 '13 at 12:33
2

For me, a valid use for std::bind is to make it clear that I'm using a member function as a predicate. That is, if all I do is call a member function, it's bind. If I do extra stuff with the argument (besides calling a memeber function), it's a lambda:

using namespace std;
auto is_empty = bind(&string::empty, placeholders::_1); // bind = just map member
vector<string> strings;
auto first_empty = any_of(strings.begin(), strings.end(), is_empty);

auto print_non_empty = [](const string& s) {            // lambda = more than member
    if(s.empty())                // more than calling empty
        std::cout << "[EMPTY]";  // more than calling empty
    else                         // more than calling empty
        std::cout << s;          // more than calling empty
};
vector<string> strings;
for_each(strings.begin(), strings.end(), print_non_empty);
  • 2
    Why use bind for that, when you could use mem_fn? – Jonathan Wakely Jun 28 '13 at 12:49
  • 1
    For convenience basically; You can use mem_fn for that. I think of bind as a "more generic" mem_fn (and now that bind has been added to the library I see no reason to use mem_fn). Similarly, "why use mem_fn when you can call the function directly"? I think a bind expression expresses intent (bind member as separated predicate) better than a lambda. – utnapistim Jun 28 '13 at 12:53
  • 1
    Huh? mem_fn was added to the language at the same time as bind, are you thinking of mem_fun? Your example should be auto is_empty = std::mem_fn(&string::empty);, that's simpler, more convenient and expresses the intent more clearly. – Jonathan Wakely Jun 28 '13 at 12:55
  • I was thinking of mem_fun (and didn't realize mem_fun != mem_fn). The code does indeed look simpler. TIL ... – utnapistim Jun 28 '13 at 12:56
2

Sometimes it is just less code. Consider this:

bool check(int arg1, int arg2, int arg3)
{
  return ....;
}

Then

wait(std::bind(check,a,b,c));

vs lambda

wait([&](){return check(a,b,c);});

I think that bind is easier to read here compared to the lambda which looks like a https://en.wikipedia.org/wiki/Brainfuck

0

Another difference is that arguments to bind must be copied or moved, while a lambda can use variables captured by reference. See example below:

#include <iostream>
#include <memory>

void p(const int& i) {
    std::cout << i << '\n';
}

int main()
{
    std::unique_ptr<int> f = std::make_unique<int>(3);

    // Direct
    p(*f);

    // Lambda ( ownership of f can stay in main )
    auto lp = [&f](){p(*f);};
    lp();

    // Bind ( does not compile - the arguments to bind are copied or moved)
    auto bp = std::bind(p, *f, std::placeholders::_1);
    bp();
}

Not sure if it's possible to workaround the issue to use bind above without changing the signature of void p(const int&).

  • We can use std::ref and std::cref – kyb Nov 13 '17 at 10:53
0

Just expanding @BertR's comment to this answer to something testable, though I confess I couldn't quite get a solution using std::forward<> to work.

#include <string>
#include <functional>
using namespace std::string_literals;

struct F {
    bool        operator()(char c, int  i) { return c == i;  };
    std::string operator()(char c, char d) { return ""s + d; };
};

void test() {
    { // using std::bind
        auto f = std::bind(F(), 'a', std::placeholders::_1);
        auto b = f(1);
        auto s = f('b');
    }
    { // using lambda with parameter pack
        auto x = [](auto... args) { return F()('a', args...); };
        auto b = x(1);
        auto s = x('b');
    }
}

Test at Compiler Explorer

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