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When I was in college i did some C/C++, but in near future i was working in PHP, and now I wish to put more time in learning C/C++.

In PHP i was using print_r() or var_dump() in order to display datas from structures or arrays. Do I have such a default functionality in C, in order to see what do i have in a struct or array?

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5 Answers 5

up vote 10 down vote accepted

There is no such functionality in C++. You can of course write your own Dump() functions. The reason such a feature cannot be generally provided is that the C++ compilation process removes the object metadata needed to structure the dump output. You can of course display structure contents in a debugger, where such metadata is maintained in the debug information.

BTW, are you asking about C or C++? The two languages are quite different, both in features and approach, although neither has var_dump() or similar.

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C++ in itself doesn't provide something like var_dump, but with libraries like Boost.Fusion and the ADAPT_STRUCT and ADAPT_ADT facility it's easily doable.

Indeed as told in the other response, the C++ compiler doesn't generate the metadata needed to generate such an output. However it is possible to generate these metadata and use a bit of template metaprogramming to use them.

That way I've implemented here an adapted_struct_printer, which can print std::container, any classes or structures, boost::variant and boost::tuple.

The only requirement is that you call BOOST_FUSION_ADAPT_STRUCT/BOOST_FUSION_ADAPT_ADT on your classes (See http://www.boost.org/doc/libs/1_57_0/libs/fusion/doc/html/fusion/adapted.html)

So that this example :

#include <iostream>

#include <swissarmyknife/boost/fusion/adapted_struct_printer.hpp>

#include <boost/fusion/include/define_struct.hpp>
#include <boost/variant.hpp>
#include <boost/tuple/tuple.hpp>


namespace bla {

  struct someclass {
     int i = 12;
     int j = 15;
  };

  using boost::fusion::detail::operator <<;
}

BOOST_FUSION_ADAPT_STRUCT(bla::someclass,
  (int, i)
  (int, j)
)

BOOST_FUSION_DEFINE_STRUCT((bla), innerbim,
    (std::string, mystring)
    )

BOOST_FUSION_DEFINE_STRUCT((bla), bimbim,
    (int, boom)
    (int, bam)
    (bla::innerbim, my_inner_bim)
    )


typedef boost::variant<int, double, bla::innerbim> myvariant_t;
typedef boost::tuple<std::string, int, bla::innerbim, myvariant_t> my_tuple_t;


BOOST_FUSION_DEFINE_STRUCT((bla), blabla,
    (bla::bimbim, bim)
    (int, i)
    (int, j)
    (std::vector<double>, list)
    (std::list<bla::bimbim>, list_of_bimbim)
    (my_tuple_t, mytuple)
    (myvariant_t, myvariant)
    )

int main(int argc, char** argv) {
  using namespace swak;

  bla::blabla instance{
    {22, 12, bla::innerbim{"COOL"} }, 
    23,
    43, 
    {2.00, 39.07, 24.05},
    { 
      {24, 9, bla::innerbim{"FEEL GOOD"} },
      {26, 14, bla::innerbim{"SO BAD"} },
    },
    {"Hey that's not an int", 1, bla::innerbim{"hello"}, 12},
    bla::innerbim("I'm in the variant")
  };
  std::cout << instance << std::endl;

  bla::someclass otherinstance{};
  std::cout << "Other instance : " << otherinstance << std::endl;

  return 0;
}

Prints out the following :

{
    bim :
        {
            boom : 22,
            bam : 12,
            my_inner_bim :
                {
                    mystring : COOL,
                }
        }
    i : 23,
    j : 43,
    list : [2, 39.07, 24.05],
    list_of_bimbim : [    
        {
            boom : 24,
            bam : 9,
            my_inner_bim :
                {
                    mystring : FEEL GOOD,
                }
        }
    ,     
        {
            boom : 26,
            bam : 14,
            my_inner_bim :
                {
                    mystring : SO BAD,
                }
        }
    ],
    mytuple :
        {
            0 (Ss) : Hey that's not an int,
            1 (i) : 1,
            2 (N3bla8innerbimE) :
                {
                    mystring : hello,
                }
            3 (N5boost7variantIidN3bla8innerbimENS_6detail7variant5void_ES5_S5_S5_S5_S5_S5_S5_S5_S5_S5_S5_S5_S5_S5_S5_S5_EE) : 

                {
                    12}
        }
    myvariant : 

        {

            {
                mystring : I'm in the variant,
            }
        }
}

Other instance :     
    {
        i : 12,
        j : 15,
    }

I'm improving the implementation to get it at some point as a possible new feature in boost fusion, but it's already usable as shown there :

https://github.com/daminetreg/lib-cpp-swissarmyknife/blob/feature/adapted_struct_printer_improved/test/adapted_struct_printer.cpp

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No, you have to roll your own using one from the cout or C style printf family of output functions for user defined data structures. Similarly, for arrays, (except C-style strings) you will have to loop over all the elements and print each one.

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No, there isn't. Use a debugger like ddd, for example. Most IDEs have one integrated.

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It is possible but it would take a lot of work if debug symbols were enabled and all optimisations were disabled. Also it would be slow and perhaps not very reliable[*1].

Anything that a debugger can do could be replicated by a dump() function that causes a breakpoint, and logged out information.

Some debuggers can be automated, so perhaps the dump function itself would be written in the debugger.

*1 e.g. debuggers sometimes crash when dealing with some breakpoints. e.g. the program would need to have a breakpoint and halt all threads before trying to dump data. e.g. programs that need to deal with realtime interrupts probably wouldn't work. e.g. the debugger needs to be reliable enough to deal with many many breakpoints and not introduce other issues.

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