As answer answer has already pointed out you could use dynamic_cast to do this. However you should not do it using dynamic_cast for 3 main reasons
dynamic_cast has a run-time performance impact
If you have to use dynamic_cast to get your code to work, its probably badly implemented and fragile
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Added edit for the copy, oops missed that :D. Also how does this require 'them' to know what type it is? This is a template with the only requirement that it inherits from BaseClass (as far as i can see anyway)
This only works if you know the type at compile time. With types that use virtual functions like BaseClass that is rarely ever the case. You have a pointer to a base class that could be a Right or Left object you can't tell what it points at (that is the point). In any real situation you would have a reference to an object that was created many layers away from the point you want to make the copy. Thus your template function is actually doing the wrong thing as it will only ever make a copy of the current known type not of the actual derived real runtime type of the object.
Even after you comment about throwing a compile time error. That's not true. Lets imagine we have another type class RightRightClass: public RightClass {} Now you have a pointer of type RightClass* that points at an object of type RightRightClass. Now your function when passed a RightClass* object still compiles as RightClass is not abstract type but will generates the wrong result as the underlying object is at runtime a different type.
No, because the template will mean that you will copy RightRightClass and then add it to the vector as a RightClass (assuming your vector is now a RightClass vector ofc)
But you only have a pointer to RightClass. So you will not get a RightRightClass object. The vector is still BaseClass*.
If you have a RightClass* tmp = getMeARightClass(); Function(tmp); This will compile and fail (if the object returned is derived from RightClass i.e. RightRightClass).
No, honestly im interested as to why you think it is? In my understanding, If RightRightClass is passed the compiler will generate a new function to deal with RightRightClass, causing it to successfully copy and then place into into the vector of BaseClass's, Same with RightClass. Whats the issue with this?
Function(tmp1) obviously fails because BaseClass is pure virtual. I see how it fails for non-direct dependencies but how does dynamic_cast fix this?, unless you added a dynamic_cast for RightRightClass as well
The trouble is that given a pointer class (RightClass*) you can tell what it points at at runtime (in the general case). You only know that it is RightClass or derived from RightClass in some way
But the question was not whether a desendent of RightClass could be passed successfully only whether a direct desendent of BaseClass could be passed and copied successfully
No. The question is if you have a BaseClass pointer how do you copy the obejct that it points at. You donn't know what a BaseClass pointer points at runtime with compile time information. I have shown you that your code breaks.
