def dispatch(angle: typing.Any, v1: typing.Any, v2: typing.Any) -> typing.Any: function, *returns = _from_signature( __name__, dispatch_map, ( _aztype(v1), # v1 is the axis about which we're rotating _ltype(v1), _aztype(v2), # v2 is the primary vector, the one being rotated _ltype(v2), ), ) with numpy.errstate(all="ignore"): return _handler_of(v2)._wrap_result( # note: _handler_of(v2) _flavor_of(v2), # note: _flavor_of(v2) function( _lib_of(v1, v2), angle, *v1.azimuthal.elements, *v1.longitudinal.elements, *v2.azimuthal.elements, *v2.longitudinal.elements, ), returns, 1, )
def dispatch(tolerance: typing.Any, v1: typing.Any, v2: typing.Any) -> typing.Any: function, *returns = _from_signature( __name__, dispatch_map, ( _aztype(v1), _ltype(v1), _aztype(v2), _ltype(v2), ), ) with numpy.errstate(all="ignore"): return _handler_of(v1, v2)._wrap_result( _flavor_of(v1, v2), function( _lib_of(v1, v2), tolerance, *v1.azimuthal.elements, *v1.longitudinal.elements, *v2.azimuthal.elements, *v2.longitudinal.elements, ), returns, 2, )
def dispatch( rtol: typing.Any, atol: typing.Any, equal_nan: typing.Any, v1: typing.Any, v2: typing.Any, ) -> typing.Any: function, *returns = _from_signature( __name__, dispatch_map, ( _aztype(v1), _aztype(v2), ), ) with numpy.errstate(all="ignore"): return _handler_of(v1, v2)._wrap_result( _flavor_of(v1, v2), function( _lib_of(v1, v2), rtol, atol, equal_nan, *v1.azimuthal.elements, *v2.azimuthal.elements, ), returns, 2, )