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How should the following cases be handled:

I have some geometrical storage, which is a template from vertex type.

template <typename T> struct Geometry {

std::vector<T>& GetVertices() { ... }

const void* RawVertices() const { ... }


This works fine, unless I want to store different types of geometries (for instance, Geometry<Vertex1> g1 and Geometry<Vertex2> g2 in one container.

Is this possible?

Or how should I implement geometry storage (where I can store and retrieve different types of geometries using one container) or maybe somehow map T type to Geometry<T> type?

Any advices?

Thank you.

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By the way, how is GetVertices() returning a non-const reference from a const function? That looks a bit dodgy to me. –  Mike Seymour Aug 3 '10 at 12:44
My mistake, thank you. –  Yippie-Ki-Yay Aug 3 '10 at 12:45
What's the use case here, anyway? –  tzaman Aug 3 '10 at 13:05

4 Answers 4

up vote 2 down vote accepted

Since a container is tied to one type of data it can contain, you could create a class GeometryBase from which all Geometry<T> are derived and then store GeometryBase pointers in your container.

struct GeometryBase
    // Non-template methods might go here.
    // Don't forget to declare the base class destructor virtual.

template <typename T> struct Geometry : public GeometryBase
    // Template methods go here

At some point you will have to decide which type of vertex container you want to get (my approach) or what you want to do with a vertex (Vijay Mathew's approach) and then you'll have to dynamic_cast<> in order to get access to the derived class methods.

Another suggestion:
If the types are as different as your describe in your comments, it might actually be better to treat them as different types.
For example, you could create a separate container for each Geometry<> template instance.

class SomeStorageClass
/* ... */
    std::vector< Geometry<Vertex1> > m_vertex1Geometries;
    std::vector< Geometry<Vertex2> > m_vertex2Geometries;

If you have functions that operate on one kind of geometry (using Vertex1::GetPos(), to use your example) or the other (Vertex2::GetUV()) then these functions are probably implemented quite differently and thus deserve to be separate functions expecting diferent types of parameters.

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Remember to put a virtual destructor :) –  Vincent Robert Aug 3 '10 at 12:33
And how should I implement those GetVertices-like accessors if I choose your way? –  Yippie-Ki-Yay Aug 3 '10 at 12:33
Like - I can't return the std::vector<T>& anymore and calling dynamic_cast for each of the GeometryBase is nonsense... –  Yippie-Ki-Yay Aug 3 '10 at 12:36

As GetVertices will only return objects of type Vertex, I suggest you move to an Object Oriented design from generics.

class Vertex

class Vertex1 : public Vertex 

class Vertex2 : public Vertex 

typedef std::vector<Vertex*> Vertices;

struct Geometry
    const Vertices& GetVertices() const { .... }
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I guess that your sample fails if I want Vertex1 to have members like GetPos() and GetNormal() and Vertex2 to also introduce GetUV() method, which can't be added to base superclass. –  Yippie-Ki-Yay Aug 3 '10 at 12:39
@HardCoder1986: It still works, you'll just have to down-cast into the appropriate type at run-time. –  tzaman Aug 3 '10 at 12:45
@HardCoder1986 dynamic_cast. Moreover, that problem was not part of the original question. My answer shows the common C++ idiom for dealing with a situation like the one described. –  Vijay Mathew Aug 3 '10 at 12:49
@tzaman And how should I determine the type that I should cast into? (except the fact that downcasting isn't very cool :) –  Yippie-Ki-Yay Aug 3 '10 at 12:49
@HardCoder1986: Might not be cool, but it's necessary if you want to get differently typed objects out of a homogeneous container. –  tzaman Aug 3 '10 at 13:04

Heterogeneous containers (i.e., that store more than one type of object) introduce quite a few problems -- for an obvious example, when you retrieve an object, you have to do something to figure out which kind of object you're retrieving.

The containers built into C++ take the simple route: they're homogeneous -- they only store one type of object. If you want to store objects of two different types, it's up to you to wrap both of those into some third type that you store in the container (usually along with something to indicate which type a particular object really is). For example, you could do something like this:

class vertex1 {};

class vertex2 {};

class vertex {
    vertex1 *v1;
    vertex2 *v2;
    vertex(vertex1 *init1) : v1(init1), v2(NULL) {}
    vertex(vertex2 *init2) : v1(NULL), v2(init2) {}

std::vector<vertex> vertices;

Of course, there are lots of variations (e.g., storing a pointer to a base class), but in the end it comes down to one thing: the collection itself holding one type of object, and that type somehow or other managing the two other types you need to deal with.

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The typeof vertices ought to be std::vector<vertex*> or std::vector<vertex&> right? –  Vijay Mathew Aug 3 '10 at 12:39
@Vijay: no, not in this case. Instead of creating a container of pointers, we're creating a container of objects that themselves contain a couple of pointers. I'm reasonably certain containers of references are not allowed. –  Jerry Coffin Aug 3 '10 at 14:01
class IGeometry
    virtual const void* RawVertices() const = 0;
    virtual ~IGeometry() {}

    template <typename T>
    std::vector<T>& GetVertices() const 
        typedef const Geometry<T>* AppropriateDerivedClass;
        return dynamic_cast<AppropriateDerivedClass>(this)->GetVertices();
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