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from abp import GraphState, clifford |
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from anders_briegel import graphsim |
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import numpy as np |
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from tqdm import tqdm |
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import dummy |
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import itertools as it |
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import networkx as nx |
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def all_simple_graphs(filename="tests/graph5.g6"): |
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""" Generate all possible simple graphs """ |
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with open(filename) as f: |
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for line in tqdm(f): |
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yield nx.parse_graph6(line.strip()) |
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def rotated(simple_graphs): |
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for g in simple_graphs: |
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for r in it.product(*[range(24)]*2): |
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yield g, r |
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print len(list(rotated(all_simple_graphs()))) |
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#N = 3 |
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#m = {1: graphsim.lco_X, 2: graphsim.lco_Y, 3: graphsim.lco_Z} |
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#measurements = (3, 2, 1) |
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#outcomes = (0, 1) |
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#local_ops = it.combinations_with_replacement(range(24), N) |
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#edge_patterns = |
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#print list(local_ops) |
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#print len(list(local_ops)) |
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#print list(edge_patterns) |
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