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I saw this nice graphic which classifies which STL container would suit based on different requirements of data such as:

-- Fixed Size Vs Variable size

-- Data of same tyme Vs different type

-- Sorted Vs unsorted data

-- Sequential Vs random access

http://plasmahh.projectiwear.org/cce_clean.svg

I notice in that image, that C++ STL there is no container which is

  1. Variable Size
  2. Heterogenous (data of different types).

Doesn't C++ have something for this?

PS - There can be many permutations made out the different properties of the containers and many others too might not be provided in STL.

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From the image I could make out that many containers like vector, queue, stack etc. are shown as variable size based on their colors. Not sure though. –  iammilind Oct 18 '11 at 9:23
    
you can use a vector of pointer to abstract base class, even if other solutions are probably better –  Ruggero Turra Oct 18 '11 at 9:28
1  
This graphic isn't about the STL, it is about the C++11 standard library. –  PlasmaHH Oct 18 '11 at 9:47

5 Answers 5

up vote 12 down vote accepted

Well generally C++ Containers are designed to hold objects of a single type using templates. If you want different types that are all derived from one type you can store a container of pointers (I guess you could also have a container of void* to anything...) e.g. std::vector<MyBaseType*>.

If you want completely unrelated types, you can store objects that can safely reference those other types, such as boost::any.

http://www.boost.org/doc/libs/1_47_0/doc/html/any.html

Some examples off the boost site:

#include <list>
#include <boost/any.hpp>

using boost::any_cast;
typedef std::list<boost::any> many;

void append_int(many & values, int value)
{
    boost::any to_append = value;
    values.push_back(to_append);
}

void append_string(many & values, const std::string & value)
{
    values.push_back(value);
}

bool is_int(const boost::any & operand)
{
    return operand.type() == typeid(int);
}
bool is_char_ptr(const boost::any & operand)
{
    try
    {
        any_cast<const char *>(operand);
        return true;
    }
    catch(const boost::bad_any_cast &)
    {
        return false;
    }
}

boost::variant is similar, but you specify all the allowed types, rather than allowing any type in your container.

http://www.boost.org/doc/libs/1_47_0/doc/html/variant.html

std::vector< boost::variant<unsigned, std::string> > vec;
vec.push_back( 44);
vec.push_back( "str" );
vec.push_back( SomthingElse(55, 65) ); //not allowed
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The basic principle in the standard library is that "containers" are homogeneous; the C++ standard doesn't consider things like std::pair or std::tuple to be containers. (I'd consider the graph misleading, since it does consider them as containers.) If you need a heterogeneous container, you'd have to use a container of boost::variant, or something along those lines.

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std::pair and std::tuple are hardly C++ containers.... so no, there is no heterogeneous containers in the STL, because it's not necessary to have them built-in.

There are several approaches to create such containers. The approaches I would recommend are:

  • using polymorphism
  • using a variant type

For Polymorphism, you can check Boost Pointer Container library.

boost::ptr_vector<Base> vec;
vec.push_back(new Derived);
vec.push_back(new Derived2);

It mimicks the STL containers, but provides functionalities geared toward polymorphism:

  • Access elements as Base&
  • Automatic memory handling
  • Specific copy behavior (using new_clone methods)
  • Syntactic sugar: given boost::ptr_vector<Base>::iterator it;, *it is a Base&

If your types are unrelated, the other possibility is to use Boost Variant. Basically, a variant is similar to:

enum { Type1, Type2, ... } _type;
union {
  SomeType1 _1;
  SomeType2 _2;
  ...
} _u;

Of course, since it's boost, it provides specific guarantees to make sure that you can only access the member of the union that is currently active and lifts the restriction on classes with constructors / destructors not being usable in traditional unions.

It also provides facilities, like the static_visitor, which is the equivalent of a switch on the type, and will make the compilation error out if one of the possible states is not visited.

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The fixed size heterogenous containers (like std::tuple require the types to be known at compile time. If you want to make a variable sized heterogeneous container, just make a std::vector<std::tuple<T1,T2,...,TN>>.

If you want a heterogeneous container where the types is not known at compile time (whether that would be variable or fixed sized) you'll have to store pointers (or smart pointers) to a base type known at compile time, or alternatively consider something like a container of boost::any. The STL doesn't directly provide such a container in either fixed or variable sized with heterogeneous elements determined at run time.

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2  
A std::tuple and std::pair is a heterogeneous container as much as any given UDT. For instance struct foo { int i; float f; std::string s; };, a heterogeneous container. –  dalle Oct 18 '11 at 9:30
    
+1, the STL is all about composition. There's no need to have all possible combinations pre-defined. –  MSalters Oct 18 '11 at 9:34
    
@dalle: Not really, you can iterate through the members of a tuple. –  MSalters Oct 18 '11 at 9:35
    
I'm not sure how these are comments on my answer. I didn't say the std doesn't have heterogeneous containers, I just said it doesn't have containers which have an unknown type at compile time. –  Clinton Oct 18 '11 at 23:59

If the element you store would be a boost::any or boost::variant then you can indirectly store heterogeneous data.

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