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I am working on a Ray Tracing task, here is the problematic source:

class Geometry
        virtual RayTask *intersectionTest(const Ray &ray) = 0;

class Sphere : public Geometry
        RayTask *intersectionTest(const Ray &ray);

class BoundingVolume
        virtual bool intersectionTest(const Ray &ray) = 0;

class BoundingSphere : public Sphere, BoundingVolume
        bool intersectionTest(const Ray &ray) // I want this to be inherited from BoundingVolume
            return Sphere::intersectionTest(ray) != NULL; // use method in Sphere

source above can not compile, error information:

error: conflicting return type specified for ‘virtual bool BoundingSphere::intersectionTest(const Ray&)’
error:   overriding ‘virtual RayTask Sphere::intersectionTest(const Ray&)

I want to implement BoundingSphere::intersectionTest using method in Sphere, so I need to inherit from both BoundingVolume and Sphere. but due to inherit functions that has the same parameter list with different return type, things messed up...

I do not want to duplicate codes with the same functionality... could any one give me a solution?...

share|improve this question
You cannot do that only by using different return type. The method signature is the method name and the number and type of its parameters, here both are same. –  DumbCoder Apr 29 '12 at 14:44
thanks... I have to change my function name... –  Tim Apr 29 '12 at 14:56
modifiers such as const also forms part of the method signature –  EdChum Apr 29 '12 at 15:08

1 Answer 1

up vote 1 down vote accepted

The compiler is attempting to override two virtual methods with different return types, which isn't allowed: how would the compiler know how much memory to allocate for a function call if it doesn't know what the return type will be? The two methods cannot have the same names; try changing one to a more suitable meaning.

If you feel that these names best represent the meanings of the actions they both provide (which I'm not sure of), I would also suggest that you consider your hierarchies carefully. Is a spherical BoundingVolume really a Sphere? Perhaps not: it's implemented in terms of Sphere (private inheritance, doesn't solve your problem), or it has a Sphere (composition, would solve your problem in this simple case). The latter case, though, might present problems for move complex classes, where you want a BoundingSphere to have all the methods of Sphere. Or, perhaps, do you need to differentiate between BoundingVolumes and normal Geometrys?

Another solution to the problem would be to use non-member functions for one of these hierarchies, with Koenig lookup (the type of the argument) calling the proper version. I can't say without really knowing what your hierarchies look like. But do consider your design: if you have the same-named operation giving you back completely different semantic results, is the operation properly named/designed?

share|improve this answer
Thanks a lot! you remind me of whether my design is appropriate for my need. BoundingVolume and Geometry should differentiate with each other, and implement BoundingSphere with an inside Sphere is more reasonable. –  Tim Apr 30 '12 at 3:12

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