2

I have created a custom numpy class that I can give periodic boundary conditions to any given array with Periodic_Lattice() which can be used as follows

import numpy as np
from lattice import Periodic_Lattice
a = np.arange(100)
periodic_a = Periodic_Lattice(a)
print periodic_a[1001]

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1

The method below __array_finalize__ is taking a bizarre amount of time. I followed this scipy tutorial on subclassing and wrote the following constructor.

def __array_finalize__(self, obj):
    """ ndarray.__new__ passes __array_finalize__ the new object, 
    of our own class (self) as well as the object from which the view has been taken (obj). 
    """
    if obj is None: return

    try: # this is a way faster method of doing this
        self.lattice_shape   = obj.lattice_shape        # getattr(obj, 'lattice_shape', obj.shape)
        self.lattice_dim     = obj.lattice_dim          # getattr(obj, 'lattice_dim', len(obj.shape)) 
        self.lattice_spacing = obj.lattice_spacing      # getattr(obj, 'lattice_spacing', None)
    except: 
        self.lattice_shape   = obj.shape
        self.lattice_dim     = len(self.lattice_shape)
        self.lattice_spacing = None
    pass

Please see Periodic_Lattice() for the full class which is just 36 lines of code excluding comments

I achieved significant speed gains by dropping getattr() and using the try/except method but any alternatives are welcomed

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