Modified WeightedRips::generate() to incorporate the simplex-appearance-value computation (before it would have to be done explicitly by the user by a for-loop after the call to generate())
# Computes the persistence diagram of the alpha shapes in both 2D and 3D
# (decided dynamically based on the input file)
from dionysus import Filtration, StaticPersistence, data_dim_cmp, vertex_cmp, \
fill_alpha3D_complex, fill_alpha2D_complex, points_file
from sys import argv, exit
from math import sqrt
if len(argv) < 2:
print "Usage: %s POINTS" % argv[0]
exit()
points = [p for p in points_file(argv[1])]
simplices = []
if len(points[0]) == 2: # 2D
fill_alpha2D_complex(points, simplices)
elif len(points[1]) == 3: # 3D
fill_alpha3D_complex(points, simplices)
simplices.sort(vertex_cmp) # Must ensure lexicographic ordering
print "Total number of simplices:", len(simplices)
f = Filtration(simplices, data_dim_cmp)
print "Filtration initialized"
p = StaticPersistence(f)
print "StaticPersistence initialized"
p.pair_simplices()
print "Simplices paired"
print "Outputting persistence diagram"
for i in p:
if i.sign():
b = simplices[f[p(i)]]
if i == i.pair:
print b.dimension(), sqrt(b.data), "inf"
continue
d = simplices[f[p(i.pair)]]
print b.dimension(), sqrt(b.data), sqrt(d.data)