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For example I have a sequence of functions f1, f2 and so on with the same two argument type. I want to using macro

RUN((f1)(f2)(f3), a, b)

to run the sequence of functions with the results

f1(a, b), f2(a, b), f3(a, b)

I think boost preprocessors can help. I tried

#define RUN_DETAIL(pR, pData, pF) pF(a, b);

But failed. How to do it?

Found an answer as below

#define RUN_DETAIL(pR, pData, pF) pF pData;
#define RUN(pFs, ...) BOOST_PP_SEQ_FOR_EACH(RUN_DETAIL, (__VA_ARGS__), pFs)

This technique works also for calling a sequence of macros.

share|improve this question
What are you trying to achieve? This seems to be possible with templates. –  polkovnikov.ph Jun 11 at 12:46
"But failed" - how did it fail? –  Martin Ba Jun 11 at 13:07
Regarding your edit: uh-uh. No. That's a totally different question so if you want to ask that please post it separately! You already have an outstanding answer to your original question below. I've rolled back your edit. –  Lightness Races in Orbit Jun 11 at 13:39
@edit: don't do this, just type it out, it's write-once code. = default exists for a reason. –  Cat Plus Plus Jun 11 at 13:42
@user1899020 They are different questions. Quite different, in fact. I can see how you might not realize that immediately, but please trust us on this one. Changing the question after sehe put so much effort into an answer is bad, as it can make his answer look like it doesn't apply to what you asked. But I think you've otherwise gotten your answer? –  Andrew Barber Jun 11 at 13:59

1 Answer 1

up vote 6 down vote accepted

You don't need to be using macros here. See it Live On Coliru:

#include <boost/fusion/adapted/std_tuple.hpp>
#include <boost/fusion/algorithm.hpp>
#include <boost/phoenix.hpp>

template <typename... F>
struct sequence_application
    explicit sequence_application(F... fs) : fs(fs...) { }

    template <typename... Args>
        void operator()(Args const&... args) const {
            namespace phx = boost::phoenix;
            using namespace phx::arg_names;

            boost::fusion::for_each(fs, phx::bind(arg1, phx::cref(args)...));
        std::tuple<F...> fs;

template <typename... F>
sequence_application<F...> apply_all(F&&... fs) {
    return sequence_application<F...>(std::forward<F>(fs)...);

Let's demonstrate this:

#include <iostream>
#include <string>

void foo(const char* v) { std::cout << __FUNCTION__ << ": " << v << "\n"; }
void bar(std::string v) { std::cout << __FUNCTION__ << ": " << v << "\n"; }

struct poly_functor {
    template <typename... T>
        void operator()(T&...) const { std::cout << __PRETTY_FUNCTION__ << "\n"; }

You can of course do the direct invocation as in the question:

poly_functor pf;
apply_all(&foo, &bar, pf)("fixed invocation is boring");

But, that's rather boring indeed. How about, we keep the compound functor around, and pass it to another algorithm?

auto combined = apply_all(&foo, &bar, pf);

        std::vector<const char*> {"hello", "world", "from", "various"},

Now, try that with your macro approach. Macros are not first class language citizens in C++.

Finally, let's showcase that it works with variadics argument lists:

struct /*anonymous*/ { int x, y; } point;

// the variadic case
apply_all(pf)("bye", 3.14, point);

The full demo prints:

foo: fixed invocation is boring
bar: fixed invocation is boring
void poly_functor::operator()(T &...) const [T = <char const[27]>]
foo: hello
bar: hello
void poly_functor::operator()(T &...) const [T = <const char *const>]
foo: world
bar: world
void poly_functor::operator()(T &...) const [T = <const char *const>]
foo: from
bar: from
void poly_functor::operator()(T &...) const [T = <const char *const>]
foo: various
bar: various
void poly_functor::operator()(T &...) const [T = <const char *const>]
void poly_functor::operator()(T &...) const [T = <char const[4], const double, const <anonymous struct at test.cpp:54:5>>]
share|improve this answer
Pulling in phoenix and fusion when the preprocessor suffices does seem like a bit of overkill to me. –  Martin Ba Jun 11 at 13:08
@MartinBa I tend to think of macros as a last resort. In this case, can you show the working macro solution? I'll probably upvote –  sehe Jun 11 at 13:16
The function is in fact a macro too. –  user1899020 Jun 11 at 13:31
@user1899020 oh great :( That makes the question pretty misleading. –  sehe Jun 11 at 13:36
@user1899020: You didn't "edit" it; you replaced it with an entirely different one. I rolled that back. –  Lightness Races in Orbit Jun 11 at 13:40

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