Exemple #1
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def are_equivalent(mat1, mat2):
    tr1 = oapackage.reduceGraphNauty(mat1, verbose=0)
    tri1 = inverse_permutation(tr1)
    mat1_reduced = oapackage.transformGraphMatrix(mat1, tri1)

    tr2 = oapackage.reduceGraphNauty(mat2, verbose=0)
    tri2 = inverse_permutation(tr2)
    mat2_reduced = oapackage.transformGraphMatrix(mat2, tri2)

    return np.all(mat1_reduced == mat2_reduced)
Exemple #2
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def reduce_mod_equivalence(candidates, verbose=False):
    reps = []
    reduced_reps = {}
    for k, cand in enumerate(candidates):
        tr = oapackage.reduceGraphNauty(cand, verbose=0)
        tri = inverse_permutation(tr)
        cand_reduced = oapackage.transformGraphMatrix(cand, tri)
        cand_reduced_list = tuple(map(tuple, cand_reduced))
        if cand_reduced_list not in reduced_reps:
            reduced_reps[cand_reduced_list] = 1
            reps.append(cand)
            if verbose:
                print('\t{} reps from {} candidates'.format(len(reps), k + 1))
    return reps
Exemple #3
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def reduce_mod_equivalence_short(candidates, verbose=False):
    # May offer advantages over standard proc if few candidates
    # As then cost of array list comparison cheaper than
    # conversion to tuple for hash lookup
    reps = []
    reduced_reps = []
    for k in range(len(candidates)):
        cand = candidates[k]
        tr = oapackage.reduceGraphNauty(cand, verbose=0)
        tri = inverse_permutation(tr)
        cand_reduced = oapackage.transformGraphMatrix(cand, tri)
        if not any(np.array_equal(cand_reduced, c) for c in reduced_reps):
            reduced_reps.append(cand_reduced)
            reps.append(cand)
            if verbose:
                print('\t{} reps for {} candidates'.format(len(reps), k + 1))
    return reps
Exemple #4
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# -*- coding: utf-8 -*-
"""
Example script to use Nauty from Python

"""

#%% Load packages
import numpy as np
import oapackage

# define some graph and colors
G = np.zeros((5, 5), dtype=int)
G[0, 1] = G[0, 2] = G[0, 3] = G[1, 3] = 1
colors = [0, 0, 0, 1, 1]

tr = oapackage.reduceGraphNauty(G, colors=colors, verbose=2)
Gx = oapackage.transformGraphMatrix(G, tr)

print('input graph: ')
print(G)

print('reduced graph: ')
print(Gx)
Exemple #5
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 def test_reduceGraphNauty(self):
     G = np.zeros((5, 5), dtype=int)
     G[1, 0] = G[0, 1] = 1
     v = oapackage.reduceGraphNauty(G)
     self.assertTrue(len(v) == G.shape[0])