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Consider the code :

#include <stdio.h>

class Base {
    virtual void gogo(int a){
        printf(" Base :: gogo (int) \n");

    virtual void gogo(int* a){
        printf(" Base :: gogo (int*) \n");

class Derived : public Base{
    virtual void gogo(int* a){
        printf(" Derived :: gogo (int*) \n");

int main(){
    Derived obj;

Got this error :

>g++ -pedantic -Os test.cpp -o test
test.cpp: In function `int main()':
test.cpp:31: error: no matching function for call to `Derived::gogo(int)'
test.cpp:21: note: candidates are: virtual void Derived::gogo(int*) 
test.cpp:33:2: warning: no newline at end of file
>Exit code: 1

Here, the Derived class's function is eclipsing all functions of same name (not signature) in the base class. Somehow, this behaviour of C++ does not look OK. Not polymorphic.

share|improve this question
Duplicate:… – psychotik Oct 27 '09 at 4:30
Go through the following link and you will find your answer. The article was authored by Bjarne Stroustrup. – Ashish Oct 27 '09 at 7:25
brilliant question, i only discovered this recently too – Matt Joiner Oct 27 '09 at 7:30
I think Bjarne (from the link Mac posted) put it best in one sentence: "In C++, there is no overloading across scopes - derived class scopes are not an exception to this general rule." – sivabudh Feb 11 '10 at 17:56
@Ashish That link is broken. Here's the correct one (as of now) - – nisargshah95 Oct 25 '15 at 11:37
up vote 257 down vote accepted

Judging by the wording of your question (you used the word "hide"), you already know what is going on here. The phenomenon is called "name hiding". For some reason, every time someone asks a question about why name hiding happens, people who respond either say that this called "name hiding" and explain how it works (which you probably already know), or explain how to override it (which you never asked about), but nobody seems to care to address the actual "why" question.

The decision, the rationale behind the name hiding, i.e. why it actually was designed into C++, is to avoid certain counterintuitive, unforeseen and potentially dangerous behavior that might take place if the inherited set of overloaded functions were allowed to mix with the current set of overloads in the given class. You probably know that in C++ overload resolution works by choosing the best function from the set of candidates. This is done by matching the types of arguments to the types of parameters. The matching rules could be complicated at times, and often lead to results that might be perceived as illogical by an unprepared user. Adding new functions to a set of previously existing ones might result in a rather drastic shift in overload resolution results.

For example, let's say the base class B has a member function foo that takes a parameter of type void *, and all calls to foo(NULL) are resolved to B::foo(void *). Let's say there's no name hiding and this B::foo(void *) is visible in many different classes descending from B. However, let's say in some [indirect, remote] descendant D of class B a function foo(int) is defined. Now, without name hiding D has both foo(void *) and foo(int) visible and participating in overload resolution. Which function will the calls to foo(NULL) resolve to, if made through an object of type D? They will resolve to D::foo(int), since int is a better match for integral zero (i.e. NULL) than any pointer type. So, throughout the hierarchy calls to foo(NULL) resolve to one function, while in D (and under) they suddenly resolve to another.

This behavior was deemed undesirable when the language was designed. As a better approach, it was decided to follow the "name hiding" specification, meaning that each class starts with a "clean sheet" with respect to each method name it declares. In order to override this behavior, an explicit action is required from the user: originally a redeclaration of inherited method(s) (currently deprecated), now an explicit use of using-declaration.

As you correctly observed in your original post (I'm referring to the "Not polymorphic" remark), this behavior might be seen as a violation of IS-A relationsip between the classes. This is true, but apparently back then it was decided that in the end name hiding would prove to be a lesser evil.

share|improve this answer
Yes, this is a real answer to the question. Thank you. I was curious too. – Omnifarious Oct 27 '09 at 6:55
Great answer! Also, as a practical matter, compilation would probably get a lot slower if the name search had to go all the way to the top every time. – Drew Hall Oct 27 '09 at 11:24
(Old answer, I know.) Now will nullptr I would object to your example by saying "if you wanted to call the void* version, you should use a pointer type". Is there a different example where this can be bad? – GManNickG May 17 '11 at 19:26
The name hiding isn't really evil. The "is-a" relationship is still there, and available through the base interface. So maybe d->foo() won't get you the "Is-a Base", but static_cast<Base*>(d)->foo() will, including dynamic dispatch. – Kerrek SB Jan 9 '14 at 13:36
This answer is unhelpful because the example given behaves the same with or without hiding: D::foo(int) will be called either because it is a better match or because it has hidden B:foo(int). – Richard Wolf Jul 8 '14 at 3:06

The name resolution rules say that name lookup stops in the first scope in which a matching name is found. At that point, the overload resolution rules kick in to find the best match of available functions.

In this case, gogo(int*) is found (alone) in the Derived class scope, and as there's no standard conversion from int to int*, the lookup fails.

The solution is to bring the Base declarations in via a using declaration in the Derived class:

using Base::gogo;

...would allow the name lookup rules to find all candidates and thus the overload resolution would proceed as you expected.

share|improve this answer
But whyyyy????? – Matt Joiner Jul 8 '14 at 3:58
OP: "Why does an overridden function in the derived class hide other overloads of the base class?" This answer: "Because it does". – Richard Wolf Jul 8 '14 at 3:58

This is "By Design". In C++ overload resolution for this type of method works like the following.

  • Starting at the type of the reference and then going to the base type, find the first type which has a method named "gogo"
  • Considering only methods named "gogo" on that type find a matching overload

Since Derived does not have a matching function named "gogo", overload resolution fails.

share|improve this answer
Unfortunate but true. – Mark Ransom Oct 27 '09 at 4:29

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