I have an incredibly exciting library that can translate points: it should work with any point types
template<class T>
auto translate_point(T &p, int x, int y) -> decltype(p.x, p.y, void())
{
p.x += x;
p.y += y;
}
template<class T>
auto translate_point(T &p, int x, int y) -> decltype(p[0], void())
{
p[0] += x;
p[1] += y;
}
translate_point
will work with points that have public x
and y
members, and it will also work with tuples/indexable containers where x
and y
are represented by the first and second element, respectively.
The problem is, another library defines a point class with public x
and y
, but also allows indexing:
struct StupidPoint
{
int x, y;
int operator[](int i) const
{
if(i == 0) return x;
else if(i == 1) return y;
else throw "you're terrible";
}
};
My application, using both libraries, is the following:
int main(int argc, char **argv)
{
StupidPoint stupid { 8, 3 };
translate_point(stupid, 5, 2);
return EXIT_SUCCESS;
}
but this makes GCC (and clang) unhappy:
error: call of overloaded ‘translate_point(StupidPoint&, int, int)’ is ambiguous
Now I can see why this is happening, but I want to know how to fix this (assuming I can't change the internals of StupidPoint), and, if there is no easy workaround, how I might as a library implementer make this easier to deal with.
operator[]
also has a non-const overload returning anint&
, which I omitted in my simple test case.