def exercise_random(rng, n_nodes):
# meant to discover endless loops or similar bugs
connections = []
for i_node in range(n_nodes):
if (rng.randrange(10) > 7):
continue
n_del = max(int(n_nodes * 0.6), rng.randrange(n_nodes))
deps = list(range(n_nodes))
for i_del in range(n_del):
i = rng.randrange(len(deps))
del deps[i]
connections.append((i_node, deps))
from libtbx.topological_sort import stable
stable(connections=connections)
#
from libtbx.topological_sort import strongly_connected_components as scc
from libtbx.topological_sort import find_path
sbn = dict(connections)
components = scc(successors_by_node=sbn)
for component in components:
for a in component:
for b in component:
path = find_path(successors_by_node=sbn,
from_node=a,
to_node=b)
assert path is not None
def exercise_specific():
from libtbx.topological_sort import stable
from libtbx.topological_sort import strongly_connected_components as scc
connections = [("a", ["b", "d"]), ("b", []), ("c", []), ("d", ["c"])]
node_list = stable(connections=connections)
assert node_list == ["b", "c", "d", "a"]
assert scc(dict(connections)) == []
assert scc(dict(connections), omit_single_node_components=False) \
== [("b",), ("c",), ("d",), ("a",)]
connections = [("a", ["d", "b"]), ("b", []), ("c", []), ("d", ["c"])]
node_list = stable(connections=connections)
assert node_list == ["b", "c", "d", "a"]
assert scc(dict(connections)) == []
connections = [(0, [1]), (1, [2]), (2, [1, 3]), (3, [3])]
node_list = stable(connections=connections)
assert node_list == [3, 2, 1, 0]
assert scc(dict(connections)) == [(1, 2)]
connections = [("a", ["d", "b", "e"]), ("b", []), ("c", []), ("d", ["c"])]
node_list = stable(connections=connections)
assert node_list == ["b", "c", "d", "e", "a"]
assert scc(dict(connections)) == []
#
assert len(
scc(successors_by_node={
"node1": ["successor1", "successor2"],
"node2": ["successor1", "successor3"]
},
omit_single_node_components=False)) == 5
def exercise_random(rng, n_nodes):
# meant to discover endless loops or similar bugs
connections = []
for i_node in xrange(n_nodes):
if (rng.randrange(10) > 7):
continue
n_del = max(int(n_nodes*0.6), rng.randrange(n_nodes))
deps = range(n_nodes)
for i_del in xrange(n_del):
i = rng.randrange(len(deps))
del deps[i]
connections.append((i_node, deps))
from libtbx.topological_sort import stable
stable(connections=connections)
#
from libtbx.topological_sort import strongly_connected_components as scc
from libtbx.topological_sort import find_path
sbn = dict(connections)
components = scc(successors_by_node=sbn)
for component in components:
for a in component:
for b in component:
path = find_path(successors_by_node=sbn, from_node=a, to_node=b)
assert path is not None
def exercise_specific():
from libtbx.topological_sort import stable
from libtbx.topological_sort import strongly_connected_components as scc
connections = [
("a", ["b", "d"]),
("b", []),
("c", []),
("d", ["c"])]
node_list = stable(connections=connections)
assert node_list == ["b", "c", "d", "a"]
assert scc(dict(connections)) == []
assert scc(dict(connections), omit_single_node_components=False) \
== [("b",), ("c",), ("d",), ("a",)]
connections = [
("a", ["d", "b"]),
("b", []),
("c", []),
("d", ["c"])]
node_list = stable(connections=connections)
assert node_list == ["b", "c", "d", "a"]
assert scc(dict(connections)) == []
connections = [
(0, [1]),
(1, [2]),
(2, [1,3]),
(3, [3])]
node_list = stable(connections=connections)
assert node_list == [3,2,1,0]
assert scc(dict(connections)) == [(1, 2)]
connections = [
("a", ["d", "b", "e"]),
("b", []),
("c", []),
("d", ["c"])]
node_list = stable(connections=connections)
assert node_list == ["b", "c", "d", "e", "a"]
assert scc(dict(connections)) == []
#
assert len(scc(
successors_by_node={
"node1": ["successor1", "successor2"],
"node2": ["successor1", "successor3"]},
omit_single_node_components=False)) == 5
