addition for a user defined type was defined by operator+, but += does not resolve to it, why?
typedef std::array<std::uint64_t,4> myvec_t;
inline myvec_t operator+(myvec_t foo, myvec_t bar){return mod_add(foo,bar);}
myvec_t a,b;
a+=b; // g++ says: error: no viable overloaded '+='
EDIT: several people sufficiently answered the narrow question, I will accept an answer which explains why did the standard allow people to overload '+='(a,b) to do something different from a=a+b ?
You declare/define an overload for operator+ and pass and return copies:
inline myvec_t operator+(myvec_t foo, myvec_t bar){return mod_add(foo,bar);}
you want to overload operator+= and pass and return references (assuming mod_add returns its result):
inline myvec_t& operator+=(myvec_t& foo, const myvec_t& bar)
{
foo = mod_add(foo, bar);
return foo;
}
Because you didn't proved an overload for operator+=, you provided an overaload for operator+
operator+= overaload is done with
inline myvec_t& operator+=(myvec_t& foo, const myvec_t& bar)
{
foo = mod_add(foo,bar);
return foo;
}
Note that your operator+ implementation is very inefficent because it copies both operand and return a copy of the object while should make 1 only copy in total (the latter).
+=operator is a separate operator, it's not+followed by assignment.+) this canonical implementations reference says that one should implement the operator through the combined assignment operator. That is youroperator+should useoperator+=in its implementation.a += bto do something different froma = a + b? Then the standard doesn't really allow it, but it also doesn't forbid it. If you as the programmer want+=do do something different from+followed by=then that's up to you. It's bad and will lead to confusion, but it's up to you. C++ doesn't hinder you in doing what you want, and if you want to shoot yourself in the foot then (again) it's up to you.+=you can reuse existing memory instead of creating a new object and assigning it tothis, while+doesn't need to return myvec_t (i.e. string builder like pattern).