Added extra functionality to Point class( an iterator ) and PersistenceDiagram( dimension property and __len__ func ).
persistence-diagram.h:
Added a new read-only dimension member and member function to access it.
With a new constructor that that takes in an int type to initialize dimension.
persistence-diagram.cpp:
Added new bp::init constructor. Takes in an integer type to initialize the dimension. Exposed the dimension property. Exposed the size property via a __len__ method.
__init__.py:
Added an iterator for Point objects. This iterates over the coords and then the data( if present ).
#/usr/bin/env python
from dionysus import Rips, PairwiseDistances, StaticPersistence, Filtration, points_file, \
ExplicitDistances, data_dim_cmp
from sys import argv, exit
import time
def main(filename, skeleton, max):
points = [p for p in points_file(filename)]
distances = PairwiseDistances(points)
# distances = ExplicitDistances(distances) # speeds up generation of the Rips complex at the expense of memory usage
rips = Rips(distances)
print time.asctime(), "Rips initialized"
simplices = Filtration()
rips.generate(skeleton, max, simplices.append)
print time.asctime(), "Generated complex: %d simplices" % len(simplices)
# While this step is unnecessary (Filtration below can be passed rips.cmp),
# it greatly speeds up the running times
for s in simplices: s.data = rips.eval(s)
print time.asctime(), simplices[0], '...', simplices[-1]
simplices.sort(data_dim_cmp) # could be rips.cmp if s.data for s in simplices is not set
print time.asctime(), "Set up filtration"
p = StaticPersistence(simplices)
print time.asctime(), "Initialized StaticPersistence"
p.pair_simplices()
print time.asctime(), "Simplices paired"
print "Outputting persistence diagram"
smap = p.make_simplex_map(simplices)
for i in p:
if i.sign():
b = smap[i]
if b.dimension() >= skeleton: continue
if i.unpaired():
print b.dimension(), b.data, "inf"
continue
d = smap[i.pair()]
print b.dimension(), b.data, d.data
if __name__ == '__main__':
if len(argv) < 4:
print "Usage: %s POINTS SKELETON MAX" % argv[0]
exit()
filename = argv[1]
skeleton = int(argv[2])
max = float(argv[3])
main(filename, skeleton, max)