本文整理汇总了Python中networkx.triangles函数的典型用法代码示例。如果您正苦于以下问题:Python triangles函数的具体用法?Python triangles怎么用?Python triangles使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了triangles函数的20个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的Python代码示例。
示例1: fast_graph_could_be_isomorphic
def fast_graph_could_be_isomorphic(G1,G2):
"""Returns False if graphs G1 and G2 are definitely not isomorphic.
True does NOT garantee isomorphism.
Checks for matching degree and triangle sequences.
"""
# Check global properties
if G1.order() != G2.order(): return False
# Check local properties
d1=G1.degree(with_labels=True)
t1=networkx.triangles(G1,with_labels=True)
props1=[ [d1[v], t1[v]] for v in d1 ]
props1.sort()
d2=G2.degree(with_labels=True)
t2=networkx.triangles(G2,with_labels=True)
props2=[ [d2[v], t2[v]] for v in d2 ]
props2.sort()
if props1 != props2: return False
# OK...
return True
开发者ID:conerade67,项目名称:biana,代码行数:26,代码来源:isomorph.py
示例2: test_path
def test_path(self):
G = nx.path_graph(10)
assert_equal(list(nx.triangles(G).values()),
[0, 0, 0, 0, 0, 0, 0, 0, 0, 0])
assert_equal(nx.triangles(G),
{0: 0, 1: 0, 2: 0, 3: 0, 4: 0,
5: 0, 6: 0, 7: 0, 8: 0, 9: 0})
开发者ID:AmesianX,项目名称:networkx,代码行数:7,代码来源:test_cluster.py
示例3: node_wcc
def node_wcc(x, S, V):
tS, tV = nx.triangles(S, x), nx.triangles(V, x)
vtS, vtV = number_of_triangle_nodes(S, x), number_of_triangle_nodes(V, x)
vtV_S = vtV - vtS
result = 0.0 if tV == 0 else tS / tV * vtV / (S.number_of_nodes() - 1 + vtV_S)
print("node: {}, tS: {}, tV: {}, vtS: {}, vtV: {}, vtV_S: {} wcc: {}".format(x, tS, tV, vtS, vtV, vtV_S, result))
return result
开发者ID:ma3axaka,项目名称:npl-lab6s,代码行数:7,代码来源:community_metrics.py
示例4: test_holme
def test_holme():
for N in (5, 10, 15):
for m in (1, 2, 3, 4):
m0 = max(3, m+1) # must reproduce logic of the model.
g = HolmeGraph.get(N=N, m=m, Pt=1, m0=m0)
assert_equal(g.number_of_edges(), (N-m0)*m)
for N in (5, 10, 15):
for m in (1, 2, 3, 4):
m0 = max(3, m+1) # must reproduce logic of the model.
g = HolmeGraph.get(N=N, m=m, Pt=.5, m0=m0)
assert_equal(g.number_of_edges(), (N-m0)*m)
# Should return itself
g0 = networkx.complete_graph(5)
g = HolmeGraph.get(N=5, m=3, Pt=1, g0=g0)
assert_equal(networkx.triangles(g), dict((i,4*3/2) for i in range(5)))
# Test number of triangles created for new nodes.
g0 = networkx.complete_graph(5)
g = HolmeGraph.get(N=6, m=3, Pt=1, g0=g0)
assert_equal(networkx.triangles(g)[5], 3)
g0 = networkx.complete_graph(6)
g = HolmeGraph.get(N=7, m=3, Pt=1, g0=g0)
assert_equal(networkx.triangles(g)[6], 3)
# Test number of triangles created for new nodes.
def _make():
g = HolmeGraph.get(N=6, m=3, m0=5, Pt=0)
return networkx.triangles(g)
sizes = [_make() for _ in range(10)]
assert_true(any(_[5]==0 for _ in sizes))
开发者ID:rkdarst,项目名称:pcd,代码行数:35,代码来源:test_grow.py
示例5: fast_could_be_isomorphic
def fast_could_be_isomorphic(G1, G2):
"""Returns False if graphs are definitely not isomorphic.
True does NOT guarantee isomorphism.
Parameters
----------
G1, G2 : graphs
The two graphs G1 and G2 must be the same type.
Notes
-----
Checks for matching degree and triangle sequences.
"""
# Check global properties
if G1.order() != G2.order():
return False
# Check local properties
d1 = G1.degree()
t1 = nx.triangles(G1)
props1 = [[d1[v], t1[v]] for v in d1]
props1.sort()
d2 = G2.degree()
t2 = nx.triangles(G2)
props2 = [[d2[v], t2[v]] for v in d2]
props2.sort()
if props1 != props2:
return False
# OK...
return True
开发者ID:NikitaVAP,项目名称:pycdb,代码行数:34,代码来源:isomorph.py
示例6: test_cubical
def test_cubical(self):
G = nx.cubical_graph()
assert_equal(list(nx.triangles(G).values()),
[0, 0, 0, 0, 0, 0, 0, 0])
assert_equal(nx.triangles(G,1),0)
assert_equal(list(nx.triangles(G,[1,2]).values()),[0, 0])
assert_equal(nx.triangles(G,1),0)
assert_equal(nx.triangles(G,[1,2]),{1: 0, 2: 0})
开发者ID:AmesianX,项目名称:networkx,代码行数:8,代码来源:test_cluster.py
示例7: test_k5
def test_k5(self):
G = nx.complete_graph(5)
assert_equal(list(nx.triangles(G).values()),[6, 6, 6, 6, 6])
assert_equal(sum(nx.triangles(G).values())/3.0,10)
assert_equal(nx.triangles(G,1),6)
G.remove_edge(1,2)
assert_equal(list(nx.triangles(G).values()),[5, 3, 3, 5, 5])
assert_equal(nx.triangles(G,1),3)
开发者ID:AmesianX,项目名称:networkx,代码行数:8,代码来源:test_cluster.py
示例8: triangles_distribution
def triangles_distribution(G, return_dictionary=False):
"""This returns a distribution of the number of triangles each
vertex in G is involved in, amenable to applications similar to
Borges, Coppersmith, Meyer, and Priebe 2011.
If return_dictionary is specified, we return a dictionary indexed by
vertex name, rather than just the values (as returned by default).
"""
if return_dictionary:
return nx.triangles(G)
else:
return nx.triangles(G).values()
开发者ID:jovo,项目名称:shuffled-graph-theory,代码行数:11,代码来源:graph_invariants.py
示例9: compare
def compare(f1, f2):
g1 = read_data(f1)
g2 = read_data(f2)
avg1, avg2 = 0, 0
for node in g1.nodes():
avg1 += g1.degree(node)
for node in g2.nodes():
avg2 += g2.degree(node)
print "Average degree......: ", avg1*1.0/(len(g1.nodes())), avg2*1.0/(len(g2.nodes()))
trg1, trg2 = 0, 0
tr_list1 = list(nx.triangles(g1).values())
tr_list2 = list(nx.triangles(g2).values())
print "Triangles......: ", sum(tr_list1)/3, sum(tr_list2)/3
开发者ID:ngohoa,项目名称:graphdp,代码行数:14,代码来源:compare.py
示例10: clust
def clust(Graph):
"""
Returns the graph that merges artificial loops into a
single node. Detects the nodes included to the triangles
and merges them. Uses the extern function merge_nodes.
Parameters
--------
Graph : input graph with artificial loops
Returns
-------
G : a graph without loops; triangles of neighboring nodes
are replaced by a single node

"""
G = Graph.copy()
size = G.number_of_nodes()
for i in G.nodes():
neigh = nx.get_node_attributes(G, 'neig')
index = nx.get_node_attributes(G, 'index')
if (i in G.nodes() and nx.triangles(G, i))>0:
n = nx.all_neighbors(G,i)
l = [i]
for k in n:
if ((neigh[k]>2) and
(nx.get_edge_attributes(G, 'length')[min(i,k), max(i,k)]<2)):
l = np.append(l, k)
merge_nodes(G,l,size+1,index = index[i], neig = neigh[i])
size+=1
if (i==G.number_of_nodes()):
break
G = nx.convert_node_labels_to_integers(G, first_label=1)
return G
开发者ID:YuliyaKar,项目名称:Skeleton_to_graph,代码行数:35,代码来源:skel_to_graph.py
示例11: calculate_num_triangles
def calculate_num_triangles(graph):
########## need to see this ###########
count = 0
triang = nx.triangles(graph)
for itr in graph.nodes():
count += triang[itr]
return count
开发者ID:bhuvneshdev,项目名称:social_media_mining,代码行数:7,代码来源:phase2.py
示例12: basic_stats
def basic_stats(self):
#not decided on what level to deal with this yet:
#either return error un not dealing with unconnected files,
#or making it deal with unconnected files: the latter.
#How about with dealing with each independently.
# if not nx.is_connected(g):
# conl= nx.connected_components(g)
# for n in conl:
# turn n into graph if it isnt
# calculate ec, per, cnt
# how and when to visualise the subgraphs?
# iterate to next n
if nx.is_connected(self.nx_graph):
ec = nx.eccentricity(self.nx_graph)
else:
ec = 'NA - graph is not connected'
per = nx.periphery(self.nx_graph)
cnt = nx.center(self.nx_graph)
result = { #"""fast betweenness algorithm"""
'bbc': nx.brandes_betweenness_centrality(self.nx_graph),
'tn': nx.triangles(self.nx_graph), # number of triangles
'ec': ec,
'per': per,
'cnt': cnt,
'Per': self.nx_graph.subgraph(per),
'Cnt': self.nx_graph.subgraph(cnt)
}
return result
开发者ID:mayera,项目名称:netx,代码行数:30,代码来源:nets.py
示例13: get_network_property
def get_network_property(graph):
"""Returns various property of the graph.
It calculates the richness coefficient, triangles and transitivity
coefficient. To do so, it removes self-loops *in-place*. So, there
is a possibility that the graph passed as parameter has been
changed.
"""
remove_self_loop(graph)
# If number of nodes is less than three
# no point in calculating these property.
if len(graph.nodes()) < 3:
return ({0: 0.0}, 0, 0)
try:
richness = nx.rich_club_coefficient(graph)
except nx.NetworkXAlgorithmError:
# NetworkXAlgorithmError is raised when
# it fails achieve desired swaps after
# maximum number of attempts. It happened
# for a really small graph. But, just to
# guard against those cases.
richness = nx.rich_club_coefficient(graph, False)
triangle = nx.triangles(graph)
transitivity = nx.transitivity(graph)
return (richness, triangle, transitivity)
开发者ID:saeed-abdullah,项目名称:github-social,代码行数:30,代码来源:networkutil.py
示例14: get_motifs
def get_motifs(filename):
import networkx as nx
from math import factorial
threshold = 0
f = open(filename[:-4]+'_motifs.dat','w')
for i in range(0,101):
threshold = float(i)/100
G = get_threshold_matrix(filename, threshold)
tri_dict = nx.triangles(G)
summe = 0
for node in tri_dict:
summe += tri_dict[node]
N = nx.number_of_nodes(G)
ratio = summe / (3. * binomialCoefficient(N,3))
transi = nx.transitivity(G)
if transi > 0:
triads = summe / transi
ratio_triads = triads / (3 * binomialCoefficient(N,3))
else:
triads = 0.
ratio_triads = 0.
print 'threshold: %f, number of triangles: %f, ratio: %f, triads: %f, ratio: %f' %(threshold, summe/3, ratio, triads, ratio_triads)
f.write("%f\t%d\t%f\t%f\t%f\n" % (threshold, summe/3, ratio, triads, ratio_triads))
f.close()
print "1:threshold 2:#triangles 3:ratio-to-potential-triangles 4:triads 5:ratio-to-potential-triads"
开发者ID:sheyma,项目名称:lab_rot_berlin,代码行数:28,代码来源:threshold_matrix.py
示例15: test_fast_versions_properties_threshold_graphs
def test_fast_versions_properties_threshold_graphs(self):
cs='ddiiddid'
G=nxt.threshold_graph(cs)
assert_equal(nxt.density('ddiiddid'), nx.density(G))
assert_equal(sorted(nxt.degree_sequence(cs)),
sorted(G.degree().values()))
ts=nxt.triangle_sequence(cs)
assert_equal(ts, list(nx.triangles(G).values()))
assert_equal(sum(ts) // 3, nxt.triangles(cs))
c1=nxt.cluster_sequence(cs)
c2=list(nx.clustering(G).values())
assert_almost_equal(sum([abs(c-d) for c,d in zip(c1,c2)]), 0)
b1=nx.betweenness_centrality(G).values()
b2=nxt.betweenness_sequence(cs)
assert_true(sum([abs(c-d) for c,d in zip(b1,b2)]) < 1e-14)
assert_equal(nxt.eigenvalues(cs), [0, 1, 3, 3, 5, 7, 7, 8])
# Degree Correlation
assert_true(abs(nxt.degree_correlation(cs)+0.593038821954) < 1e-12)
assert_equal(nxt.degree_correlation('diiiddi'), -0.8)
assert_equal(nxt.degree_correlation('did'), -1.0)
assert_equal(nxt.degree_correlation('ddd'), 1.0)
assert_equal(nxt.eigenvalues('dddiii'), [0, 0, 0, 0, 3, 3])
assert_equal(nxt.eigenvalues('dddiiid'), [0, 1, 1, 1, 4, 4, 7])
开发者ID:NikitaVAP,项目名称:pycdb,代码行数:28,代码来源:test_threshold.py
示例16: wcc1
def wcc1(g, G):
q = 0
nodes = g.node.keys()
nodes_len = len(nodes)
for n in nodes:
tG = nx.triangles(G, n)
if tG != 0:
tS = float(nx.triangles(g, n))
vtG = count_trinodes(n, G)
vtGS = count_trinodes(n, G, g)
q += tS / tG * vtG / (nodes_len - 1 + vtGS)
return q / nodes_len
开发者ID:ololobus,项目名称:vk-cache,代码行数:16,代码来源:stats.py
示例17: tpr_metric
def tpr_metric(num_nodes_s, comm_subgraph):
#Dictionary where nodes are the keys and values are the number of triangles that include the node as a vertex
triangles = nx.triangles(comm_subgraph)
tri_count = sum(x > 0 for x in triangles.values())
tpr = tri_count / num_nodes_s
return tpr
开发者ID:aganeshLab41,项目名称:Circulo,代码行数:8,代码来源:allMetrics.py
示例18: analyze_graph
def analyze_graph(G):
print nx.info(G)
degree_freq = nx.degree_histogram(G)
diameter = nx.diameter(G)
print "Diameter: {0}".format(diameter)
triangles = nx.triangles(G)
triangles_values = sorted(triangles.values(), reverse=True)
print "Triangles: {0}".format(triangles_values)
开发者ID:anuragreddygv323,项目名称:Yelp-Data-Analysis,代码行数:8,代码来源:socialgraph.py
示例19: init
def init(self, graph, initPart):
"""Initialize the SCDMetaData of a graph with every node in one community"""
self.T = nx.triangles(graph)
self.com2nodes = dict()
self.node2coms = dict()
for comm, nodes in initPart.items():
self.com2nodes[comm] = nodes
for node in nodes:
self.node2coms[node] = set([comm])
开发者ID:amirubin87,项目名称:MA,代码行数:9,代码来源:SCDGraphMetaData.py
示例20: triangleRatio
def triangleRatio(g, center):
triangleCoef = nx.triangles(g, nodes=[center])[center]
deg = len(g.neighbors(center))
maxTriangles = float(deg*(deg-1))/2.0
return float(triangleCoef)/maxTriangles
开发者ID:cbuntain,项目名称:redditResponseExtractor,代码行数:9,代码来源:analyzer.py
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