# At = AdjMatrixSequence(fs.dataPath("T_edgelist.txt"),directed=True,columns=(0,1,3),write_label_file=True)
# At = AdjMatrixSequence(fs.dataPath("D_sw_uvd_01JAN2009_31MAR2010.txt"),directed=True,write_label_file=True)
print "Hier ", len(At)
c = At.unfold_accessibility()
# At=AdjMatrixSequence("Temp/Randomized_edges.txt",directed=True)
# C=At.cumulated(ende=308)
# mmwrite("Hit_aggregated_308.mtx",C)
# C=At.clustering_matrix(500)
# mmwrite("Clustering_Matrix_113.mtx",C)
# spd=At.static_path_density()
# gwh.dict2file(spd,"Static_path_density.txt")
# At.time_reversed()
# At.time_shuffled()
# At.write("Randomized/Time_reversed.txt")
# den=At.density()
gwh.dict2file(c, "cumu.txt")
# E=TemporalEdgeList(fs.dataPath("T_edgelist.txt"),directed=True,timecolumn=3)
# E=TemporalEdgeList(fs.dataPath("sexual_contacts.dat"),directed=False)
# E=TemporalEdgeList(fs.dataPath("D_sw_uvd_01JAN2009_31MAR2010_matrixlabels.txt"),directed=True)
# E.shuffle_edge_times()
# E.random_times()
# E.random_times_uniform()
# E.randomize_edges()
# E.write("Randomized/Randomized_edges.txt")
# print 'Alle: ',len(At)
# A=At.cumulated()
# print A.nnz
# At.write(
