n, d = _split_rat(you)
return type(me)(me._n*n, me._d*d)
__rmul__ = __mul__
- def __div__(me, you):
+ def __truediv__(me, you):
n, d = _split_rat(you)
return type(me)(me._n*d, me._d*n)
- def __rdiv__(me, you):
+ def __rtruediv__(me, you):
n, d = _split_rat(you)
return type(me)(me._d*n, me._n*d)
+ __div__ = __truediv__
+ __rdiv__ = __rtruediv__
def __cmp__(me, you):
n, d = _split_rat(you)
return cmp(me._n*d, n*me._d)
def mont(x): return MPMont(x)
def barrett(x): return MPBarrett(x)
def reduce(x): return MPReduce(x)
- def __div__(me, you): return IntRat(me, you)
- def __rdiv__(me, you): return IntRat(you, me)
+ def __truediv__(me, you): return IntRat(me, you)
+ def __rtruediv__(me, you): return IntRat(you, me)
+ __div__ = __truediv__
+ __rdiv__ = __rtruediv__
_repr_pretty_ = _pp_str
_augment(MP, _tmp)
def halftrace(x, y): return x.reduce().halftrace(y)
def modsqrt(x, y): return x.reduce().sqrt(y)
def quadsolve(x, y): return x.reduce().quadsolve(y)
- def __div__(me, you): return GFRat(me, you)
- def __rdiv__(me, you): return GFRat(you, me)
+ def __truediv__(me, you): return GFRat(me, you)
+ def __rtruediv__(me, you): return GFRat(you, me)
+ __div__ = __truediv__
+ __rdiv__ = __rtruediv__
_repr_pretty_ = _pp_str
_augment(GF, _tmp)