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Is there a C++ container that I could use or build that can contain, say, int and string and double types? The problem I'm facing is that whenever I try to populate, say, a map, vector or list with, say, the following:

int x;
string y;
double z;

I'm restricted with the format:

list<int> mycountainer;
vector<string> mycontainer;

which forces mycontainer to only consist of one type.

Before anyone suggest generics, that wouldn't work either since the standard vector and list containers that come with C++ are already generic - they can be container for any types but cannot contain multiple types.

I would like to avoid using Boost also if at all possible - I'd prefer it if there is a simple way I could code this myself.

[edit] Hey guy, many thanks for your suggestions - I should explain how I'll use this container, but it's a tad complicated hence the (big) simplification above. I think the best option from here is using the Boost. Thanks again.

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Er... struct anyone? Or class? – Dirk Jan 19 '11 at 17:16
have you tried to use union? – Elalfer Jan 19 '11 at 17:19
@Elalfer: In the current standard (this will change with C++0x) you cannot use std::string inside an union. – David Rodríguez - dribeas Jan 19 '11 at 17:21
Why do you want to do that? How do you intend on using the container? How will you verify what you have inserted? – David Rodríguez - dribeas Jan 19 '11 at 17:21
Is this sort of a dup of… ? – T.E.D. Jan 19 '11 at 17:27
up vote 8 down vote accepted

You could use (or re-implement) boost::any and store instances of boost::any in a container. That would be the safest, since boost::any has probably dealt with much of the edge cases and complexity involved in solving this kind of problem in the general case.

If you want to do something quick and dirty, create a structure or perhaps a union containing members of all potential types along with an enumeration or other indicator of which type is 'active' in the object. Be especially careful with unions as they have some interesting properties (such as invoking undefined behavior if you read the wrong union member, only one of the members can be 'active' at a time, the one that was most recently written to).

I'm curious what you're doing that you need such a construct, though.

share|improve this answer
+1 on using boost::any. Also, as I already stated in the comment to @Elalfer, you cannot store std::string in an union. – David Rodríguez - dribeas Jan 19 '11 at 17:25
Er, yup, you're right, oversight on my part. I happened to be glancing through the 0x standard draft at the time (which apparently allow std::strings and such in unions via its 'implicitly deleted function' magic). – Josh Petrie Jan 19 '11 at 17:28

Well, the first question would be: Why do you think you need to store objects of different, totally unrelated types in the same container? That seems fishy to me.

If I had the need, I'd look into boost::variant or boost::any.

share|improve this answer
+1 for sounds fishy – Sam Miller Jan 19 '11 at 19:45
Not fishy at all. I often write programs where I'd like to store overrides in a map keyed on a string or enum ident. I want them in a single structure so I can pass them around altogether, I want them to be any type because the alternative is storing them as strings and parsing them every-time. But yes, boost::any or boost::variant is the way to go. – Steve Knight Dec 23 '14 at 10:42
I think a better question is, "what is the purpose of boost::variant" before I dismissed someone quickly. What difference does it make? It's abstract, it's practical, it's whatever you want it to be. Get over it. – Dylan_Larkin Dec 9 '15 at 18:44
@Dylan: The purpose of boost::variant and boost::any is to store unrelated objects. As such I have used such types, but I doubt it was more than once per decade. Thus my advice to question the design. – sbi Dec 9 '15 at 23:12

You can use either structures, or classes or std::pair.


For classes and structs:

struct XYZ {
    int x;
    string y;
    double z;
std::vector<XYZ> container;

XYZ el;
el.x = 10;
el.y = "asd";
el.z = 1.123;

For std::pair:

#include <pair>
typedef std::pair<int, std::pair<string, double> > XYZ;
std::vector<XYZ> container;
container.push_back(std::make_pair(10, std::make_pair("asd", 1111.222)));
share|improve this answer

What you want is called a "hetrogenious container". C++ doesn't technically support them in the STL, but Boost does.

Given that, I think you'll find your answer in this question: how-do-you-make-a-heterogeneous-boostmap

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You could use a struct that contains all three.

struct Data
    int intVal;
    std::string stringVal;
    double doubleVal;

Then you could just declare list mycontainer<Data> and use the appropriate value, provided you know what the value type is. If not, add an addition field to the struct that tells you which of the three data types is in use.

struct Data

    int intVal;
    std::string stringVal;
    double doubleVal;

If you're worried about memory usage, you could probably use a union, though I tend to avoid using them. It might be needless paranoia on my part though.

share|improve this answer
Unions are restricted to simple data types, which std::string are not. However there are boost::variant; – Viktor Sehr Jan 19 '11 at 17:22
Unions are not restricted to simple data types - you can store a pointer to any object you want inside of a union. – Nathan Adams Jun 22 '13 at 20:03

If you have a finite number of items you need to store, put them in a class or structure.

If there is no limit to the items you would need to store in this container then look at a different way of doing things because the only way of doing it is by storing them as an object, and then casting them to their own type when you need to access them.

However, if any item could potentially be in the container, then you have no way of knowing what type specific items in the container are, and therefore will not be able to cast them.

If C++ contained reflection, there would possibly be a way to do this, but C++ doesn't have reflection.

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The simplest method is of course to define a struct or class that has members of each of the types you wish to store. Josh's answer suggests Boost.Any, which will hold pretty much anything. If you want to restrict values to only those of types int, double, and std::string, then the better choice would be Boost.Variant.

If you simply don't want to use Boost, then I suggest you get over your hang-ups and use it anyway. "Not Invented Here" is a self-destructive policy. But if you can't use Boost, then you can write your own variant class instead. Andrei Alexandrescu wrote a three-part series on that (part 1, part 2, part 3) a few years ago, and its design inspired the one Boost uses.

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