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We know that we can solve the diamond problem using virtual inheritance.

For example:

   class Animal // base class
     int weight;
     int getWeight() { return weight;};
   class Tiger : public Animal { /* ... */ }; 
   class Lion : public Animal { /* ... */ };
   class Liger : public Tiger, public Lion { /* ... */ }; 
   int main()
     Liger lg ;
     /*COMPILE ERROR, the code below will not get past
     any C++ compiler */
     int weight = lg.getWeight();

When we compile this code we will get an ambiguity error. Now my question is how compiler internally detects this ambiguity problem (diamond problem).

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Note you are not using virtual inheritance in your code. Your description seems to imply that the example is about solving the diamond problem using virtual inheritance. – K-ballo Sep 12 '11 at 6:07
I up voted you just because the "Liger" made me laugh :-) – selalerer Sep 12 '11 at 6:08
I always thought the diamond problem was printing a diamond to the screen of a given size... took me a minute you meant inheritance conflict... – corsiKa Sep 12 '11 at 6:11
@downvoter... i dont know who voted down this question... please always comment when u do that. – amod0017 Sep 12 '11 at 7:24
I posted the source code on ideone: – Anderson Green Mar 10 '13 at 21:32
up vote 4 down vote accepted

The compiler builds tables that list all the members of every class, and also has links that allow it to go up and down the inheritance chain for any class.

When it needs to locate a member variable (weight in your example) the compiler starts from the actual class, in your case Liger. It won't find a weight member there, so it then moves one level up to the parent class(es). In this case there are two, so it scans both Tiger and Lion for a member of name weight. There aren't still any hits, so now it needs to go up one more level, but it needs to do it twice, once for each class at this level. This continues until the required member is found at some level of the inheritance tree. If at any given level it finds only one member considering all the multiple inheritance branches everything is good, if it finds two or more members with the required name then it cannot decide which one to pick so it errors.

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When compiler creates a table of function pointers for a class, every symbol must appear in it exactly once. In this example, getWeight appears twice: in Tiger and in Lion (because Liger doesn't implement it, so it goes up the tree to look for it), thus the compiler gets stuck.

It's pretty simple, actually.

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The error only happens when the method is called, not when the class is defined. The compiler doesn't care if the method name+signature appear twice as long as there's no call to this method. – selalerer Sep 12 '11 at 6:14
@sela, true, the compiler ignores methods that are not being called. The compiler only creates the table for methods actually being used. A good compiler, in any case, don't know if it's required per spec. – littleadv Sep 12 '11 at 6:44
-1, compilers usually don't produce tables of function pointers. Especially not "only methods being used". That just doesn't mesh with separate compilation; the set of methods used usually differs per Translation Unit. The closest is the export table in the object files. However, that doesn't contain a Liger::getWeight entry. So this doesn't answer the question at all. – MSalters Sep 12 '11 at 9:17
@MSalters - I'm not sure you understood what I was saying. Compilers usually do produce tables of function pointers, you probably thought I was referring to a v-table. I was not, I was referring to the compiler's internal structures used when compiling the code. After the code is compiled, if no errors - all functions are represented with a direct function call, but the pointer to this call has to be stored somewhere while the compilation is still in process, wouldn't you agree? Compilers 101. – littleadv Sep 12 '11 at 17:41
@litteadv: No, I didn't assume a vtable. I did assume a linker, however, and common object formats. Because you've got separate translation, the compiler does not know where functions will end up. The linker puts in the pointers and resolves function calls. During compilation, methods are represented by their mangled names. And there won't be a mangled name for Liger::getWeight. – MSalters Sep 13 '11 at 7:58

The compiler looks for getWeight in Liger, finds none, then check its parents and its parent's parents and so on and so forth, if it finds more than one, it returns an error and dies on you, because it can not tell which one it should use.

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Only when a symbol is found more than once at the same inheritance level there is an ambiguity. Generaly that ambiguity can be solved by qualifying the call; however in the particular case of the diamond problem it cannot since both symbols came from the same class. – K-ballo Sep 12 '11 at 6:10
@MMavipc The return value is not part of the signature of a method. The compiler doesn't examine the return value when it decides which method to call. – selalerer Sep 12 '11 at 6:16
@selalerer derp, thank you for pointing this out. – Avery3R Sep 12 '11 at 6:18

With your code, the structure for liger is


If you call an Animal function from a Liger pointer, there are actually two Animal a Liger can convert to (hence the ambiguity)

Virtual inheritance will generate a structure like


There is now just one Animal, indirectly reachable from both of the bases, so a conversion from Liger to Animal is anymore ambiguous.

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