def max(self, axis=None): if self.getMesh().communicator.Nproc > 1 and (axis is None or axis == len(self.getShape()) - 1): def maxParallel(a): return self._maxminparallel_(a=a, axis=axis, default=-numerix.inf, fn=a.max, fnParallel=self.getMesh().communicator.epetra_comm.MaxAll) return self._axisOperator(opname="maxVar", op=maxParallel, axis=axis) else: return Variable.max(self, axis=axis)
def max(self, axis=None): if parallel.Nproc > 1 and (axis is None or axis == len(self.getShape()) - 1): from PyTrilinos import Epetra def maxParallel(a): return self._maxminparallel_(a=a, axis=axis, default=-numerix.inf, fn=a.max, fnParallel=Epetra.PyComm().MaxAll) return self._axisOperator(opname="maxVar", op=maxParallel, axis=axis) else: return Variable.max(self, axis=axis)
def max(self, axis=None): if self.mesh.communicator.Nproc > 1 and (axis is None or axis == len(self.shape) - 1): def maxParallel(a): return self._maxminparallel_( a=a, axis=axis, default=-numerix.inf, fn=a.max, fnParallel=self.mesh.communicator.MaxAll) return self._axisOperator(opname="maxVar", op=maxParallel, axis=axis) else: return Variable.max(self, axis=axis)