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#include <cstddef>
#include <iostream>

template<std::size_t R, std::size_t C>
struct foo {};

template<std::size_t R, std::size_t C>
class bar {
    bar(const foo<R, C>& = foo<R, C>()) {}

int main() {
    bar<10, 10> y;
    std::cout << 'x';

The above code compiles and runs correctly (printing x as output) on g++ v4.8, while the same does not even compile on clang++ v3.4, claiming an error: unknown type name 'C'. Why does the compilation's result differ between the two versions?

The commands used for compilation are:

g++-4.8 -std=c++11 -O2 -Wall -pedantic -pthread main.cpp && ./a.out
clang++ -std=c++11 -O2 -Wall -pedantic -pthread main.cpp && ./a.out
share|improve this question
At the very least you should include the header where std::size_t is defined. – juanchopanza Nov 15 '13 at 17:14
Looks like a compiler bug – uk4321 Nov 15 '13 at 17:19
FWIW, with a type alias Clang happily compiles it. – Daniel Frey Nov 15 '13 at 17:21
This is definitly a bug in Clang. As a work-around, try = (foo<R,C>()) - the parser seems to think that the , there seperates the parameter list. It also appears to be fixed higher in the trunk, at least on r191604. – Xeo Nov 15 '13 at 17:28
Please include the error message in the question. – Keith Thompson Nov 15 '13 at 17:33
up vote 2 down vote accepted

This is a defect in the Standard, handled as .

The problem is that name lookup in default arguments within classes should consider all class members (including the class members declared later), but when the default argument is T<X, Y>, we only know what the default argument is once we have completely parsed the class (the default argument could be T<X, Y> or could be T<X, with the comma terminating the default argument if T is not a template in the complete scope of the class).

In working around this problem, GCC and Clang apparently take differnet approaches on this. You can simply fix your code by parenthesizing your default argument.

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