def __new__(cls, *args, **options): if len(args) != 1: raise ValueError('Expecting 1 entry, ' 'given {0}'.format(len(args))) variable = args[0] return Basic.__new__(cls, variable)
def __new__(cls, *args, **options): if not(len(args) == 1): raise ValueError('Expecting 1 entry, ' 'given {0}'.format(len(args))) n = args[0] return Basic.__new__(cls, n)
def __new__(cls, *args, **options): if not(len(args) in [0, 1]): raise ValueError('Expecting 0 or 1 entries, ' 'given {0}'.format(len(args))) n = None if len(args) == 1: n = args[0] return Basic.__new__(cls, n)
def __new__(cls, *args, **options): if not(len(args) in [1, 2]): raise ValueError('Expecting 1 or 2 entries, ' 'given {0}'.format(len(args))) kind = args[0] chunk_size = None if len(args) == 2: chunk_size = args[1] return Basic.__new__(cls, kind, chunk_size)
def __new__(cls, loop, clauses): if not iterable(clauses): raise TypeError('Expecting an iterable for clauses') _valid_clauses = (ACC_Collapse, ACC_Gang, ACC_Worker, ACC_Vector, ACC_Seq, ACC_Auto, ACC_Tile, ACC_DeviceType, ACC_Independent, ACC_Private, ACC_Reduction) for clause in clauses: if not isinstance(clause, _valid_clauses): raise TypeError('Wrong clause for ACC_For, ' 'given {0}'.format(type(clause))) return Basic.__new__(cls, loop, clauses)
def __new__(cls, loop, clauses, nowait): if not iterable(clauses): raise TypeError('Expecting an iterable for clauses') _valid_clauses = (OMP_Schedule, \ OMP_Private, \ OMP_FirstPrivate, \ OMP_LastPrivate, \ OMP_Reduction, \ OMP_Collapse, \ OMP_Ordered, \ OMP_Linear) for clause in clauses: if not isinstance(clause, _valid_clauses): raise TypeError('Wrong clause for OMP_For, ' 'given {0}'.format(type(clause))) return Basic.__new__(cls, loop, clauses, nowait)
def __new__(cls, *args, **options): variables = args[0:-1] step = args[-1] return Basic.__new__(cls, variables, step)
def __new__(cls, *args, **options): op = args[0] arguments = args[1:] return Basic.__new__(cls, op, arguments)
def __new__(cls, *args, **options): return Basic.__new__(cls, args)
def __new__(cls, *args, **options): status = args[0] return Basic.__new__(cls, status)
def __new__(cls, *args, **options): test = args[0] return Basic.__new__(cls, test)
def __new__(cls, *args, **options): num_threads = args[0] return Basic.__new__(cls, num_threads)
def __new__(cls, group, rank=None): comm = Basic.__new__(cls, group, rank) if not isinstance(group, UniversalGroup): group.set_communicator(comm) return comm