本文整理汇总了Python中networkx.random_layout函数的典型用法代码示例。如果您正苦于以下问题:Python random_layout函数的具体用法?Python random_layout怎么用?Python random_layout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random_layout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: test_scale_and_center_arg
def test_scale_and_center_arg(self):
G = nx.complete_graph(9)
G.add_node(9)
vpos = nx.random_layout(G, scale=2, center=(4,5))
self.check_scale_and_center(vpos, scale=2, center=(4,5))
vpos = nx.spring_layout(G, scale=2, center=(4,5))
self.check_scale_and_center(vpos, scale=2, center=(4,5))
vpos = nx.spectral_layout(G, scale=2, center=(4,5))
self.check_scale_and_center(vpos, scale=2, center=(4,5))
# circular can have twice as big length
vpos = nx.circular_layout(G, scale=2, center=(4,5))
self.check_scale_and_center(vpos, scale=2*2, center=(4,5))
vpos = nx.shell_layout(G, scale=2, center=(4,5))
self.check_scale_and_center(vpos, scale=2*2, center=(4,5))
# check default center and scale
vpos = nx.random_layout(G)
self.check_scale_and_center(vpos, scale=1, center=(0.5,0.5))
vpos = nx.spring_layout(G)
self.check_scale_and_center(vpos, scale=1, center=(0.5,0.5))
vpos = nx.spectral_layout(G)
self.check_scale_and_center(vpos, scale=1, center=(0.5,0.5))
vpos = nx.circular_layout(G)
self.check_scale_and_center(vpos, scale=2, center=(0,0))
vpos = nx.shell_layout(G)
self.check_scale_and_center(vpos, scale=2, center=(0,0))
开发者ID:JFriel,项目名称:honours_project,代码行数:26,代码来源:test_layout.py
示例2: generateNetworkCoordinates
def generateNetworkCoordinates(G, forRadius=4, forSize=(800,600)):#, layout='dot'):
'''
"""
generates network coordinates in the attribute 'pos'
:param G:
:Param layout: neato|dot|twopi|circo|fdp|nop
:return:
"""
ag = networkx.nx_agraph.to_agraph(G)
ag.layout(prog=layout)
ag.write(path='dot.dot')
G = networkx.nx_agraph.from_agraph(ag)
'''
import networkx as nx
if forSize[0] > forSize[1]:
scale = 1.0-(float(forRadius)/float(forSize[1]))
else:
scale = 1.0-(float(forRadius)/float(forSize[0]))
try:
G = nx.random_layout(G, dim=2, scale=scale, center=(0,0))
except TypeError: # Fixes the problem of having another version of nx
G = nx.random_layout(G, dim=2)
for (key,(x,y)) in G.items():
x = 2 * x - 1
y = 2 * y - 1
G[key] = [x,y]
return G
开发者ID:etteerr,项目名称:NeuronNet,代码行数:29,代码来源:python27Ca2VideoMaker.py
示例3: simplePlot
def simplePlot(graph, layout = "shell", nodeSize= 600, widthEdge=2):
""" Plot a directed graph using igraph library.
@type graph: graph
@param graph: a graph to plot
@type layout: string
@param layout: node position method (shell, circular, random, spring, spectral)
"""
G=nx.DiGraph()
for node in graph.keys():
G.add_node(node)
#add edges
for v1 in graph.keys():
for v2 in graph[v1]:
G.add_edge(v1, v2)
# draw graph
if layout == 'circular':
pos = nx.circular_layout(G)
elif layout == 'random':
pos = nx.random_layout(G)
elif layout == 'spring':
pos = nx.random_layout(G)
elif layout == 'spectral':
pos = nx.spectral_layout(G)
else:
pos = nx.shell_layout(G)
nx.draw(G, pos, edge_color='#796d54', alpha=1, node_color='#4370D8',cmap=plt.cm.Blues, node_size=nodeSize, width=widthEdge)
plt.show()
开发者ID:emanuelepesce,项目名称:NetworksSimulator,代码行数:33,代码来源:drawGraph.py
示例4: test_empty_graph
def test_empty_graph(self):
G=nx.Graph()
vpos = nx.random_layout(G)
vpos = nx.circular_layout(G)
vpos = nx.spring_layout(G)
vpos = nx.fruchterman_reingold_layout(G)
vpos = nx.shell_layout(G)
vpos = nx.spectral_layout(G)
# center arg
vpos = nx.random_layout(G, scale=2, center=(4,5))
vpos = nx.circular_layout(G, scale=2, center=(4,5))
vpos = nx.spring_layout(G, scale=2, center=(4,5))
vpos = nx.shell_layout(G, scale=2, center=(4,5))
vpos = nx.spectral_layout(G, scale=2, center=(4,5))
开发者ID:JFriel,项目名称:honours_project,代码行数:14,代码来源:test_layout.py
示例5: test_single_node
def test_single_node(self):
G = nx.Graph()
G.add_node(0)
vpos = nx.random_layout(G)
vpos = nx.circular_layout(G)
vpos = nx.spring_layout(G)
vpos = nx.fruchterman_reingold_layout(G)
vpos = nx.shell_layout(G)
vpos = nx.spectral_layout(G)
# center arg
vpos = nx.random_layout(G, scale=2, center=(4,5))
vpos = nx.circular_layout(G, scale=2, center=(4,5))
vpos = nx.spring_layout(G, scale=2, center=(4,5))
vpos = nx.shell_layout(G, scale=2, center=(4,5))
vpos = nx.spectral_layout(G, scale=2, center=(4,5))
开发者ID:JFriel,项目名称:honours_project,代码行数:15,代码来源:test_layout.py
示例6: draw_graph
def draw_graph(self):
"""
Draws the graph of relations
"""
G=nx.Graph()
list_location1 = []
list_location2 = []
list_location3 = []
list_location4 = []
for citizen in self.citizens:
G.add_node(citizen.id)
if citizen.location == 1:
list_location1.append(citizen.id)
elif citizen.location == 2:
list_location2.append(citizen.id)
elif citizen.location == 3:
list_location3.append(citizen.id)
else:
list_location4.append(citizen.id)
for citizen in self.citizens:
for friend in citizen.friends:
G.add_edge(citizen.id,friend.id)
pos = nx.random_layout(G)
nx.draw_networkx_nodes(G,pos,node_size=60,nodelist=list_location1, node_color='r')
nx.draw_networkx_nodes(G,pos,node_size=60,nodelist=list_location2, node_color='g')
nx.draw_networkx_nodes(G,pos,node_size=60,nodelist=list_location3, node_color='b')
nx.draw_networkx_nodes(G,pos,node_size=60,nodelist=list_location4, node_color='y')
nx.draw_networkx_edges(G,pos, width=1)
plt.show()
开发者ID:guilhermeamorim,项目名称:neodemocracy,代码行数:34,代码来源:simulator.py
示例7: display_community_graph
def display_community_graph(self):
"""
Display the subgraph identified by community detection
"""
plt.figure(num=None, figsize=(70, 50), dpi=80)
up_pos_cnm=nx.random_layout(user_post_graph_cnm)
for (idx, comm) in enumerate(self.sig_communities_by_id):
comm_u_cnm = []
comm_p_cnm = []
for n in self.all_post_users:
if n in comm:
comm_u_cnm.append(n)
for n in self.all_posts_res:
if n in comm:
comm_p_cnm.append(n)
nx.draw_networkx_nodes(self.user_post_graph_cnm,up_pos_cnm,
nodelist=comm_u_cnm,
node_color=self.group_colors[idx],
alpha=0.8)
nx.draw_networkx_nodes(self.user_post_graph_cnm,up_pos_cnm,
nodelist=comm_p_cnm,
node_color=self.group_colors[idx],
alpha=0.8)
elsg1_cnm = [e for e in self.up_likes if e[0] in comm_u_cnm and e[1] in comm_p_cnm]
ecsg1_cnm = [e for e in self.up_comments if e[0] in comm_u_cnm and e[1] in comm_p_cnm]
epsg1_cnm = [e for e in self.up_posts if e[0] in comm_u_cnm and e[1] in comm_p_cnm]
nx.draw_networkx_edges(self.user_post_graph_cnm,up_pos,edgelist=elsg1_cnm,alpha=0.5,edge_color='m')
nx.draw_networkx_edges(self.user_post_graph_cnm,up_pos,edgelist=ecsg1_cnm,alpha=0.5,edge_color='teal')
nx.draw_networkx_edges(self.user_post_graph_cnm,up_pos,edgelist=epsg1_cnm,alpha=0.5,edge_color='y')
开发者ID:charlescearl,项目名称:blogs,代码行数:29,代码来源:graph_analysis.py
示例8: draw_graph
def draw_graph(graph, labels=None, graph_layout='spring',
node_size=1600, node_color='blue', node_alpha=0.3,
node_text_size=12,
edge_color='blue', edge_alpha=0.3, edge_tickness=1,
edge_text_pos=0.3,
text_font='sans-serif'):
# create networkx graph
G=nx.Graph()
# add edges
for edge in graph:
G.add_edge(edge[0], edge[1])
# these are different layouts for the network you may try
if graph_layout == 'spring':
graph_pos=nx.spring_layout(G)
elif graph_layout == 'spectral':
graph_pos=nx.spectral_layout(G)
elif graph_layout == 'random':
graph_pos=nx.random_layout(G)
else:
graph_pos=nx.shell_layout(G)
# draw graph
nx.draw_networkx_nodes(G,graph_pos,node_size=node_size, alpha=node_alpha, node_color=node_color)
nx.draw_networkx_edges(G,graph_pos,width=edge_tickness, alpha=edge_alpha,edge_color=edge_color)
nx.draw_networkx_labels(G, graph_pos,font_size=node_text_size,font_family=text_font)
plt.show()
开发者ID:yh1008,项目名称:socialNetwork,代码行数:29,代码来源:social_graph.py
示例9: calcMetrics
def calcMetrics():
print('\nTrips:')
for trip in trips:
trip.display()
print('\nPairs:')
for a, b in itertools.combinations(trips, 2):
# if isTimeTestFail(): continue
bestDist = getBestDist(a, b)
sumDist = a.dist + b.dist
if bestDist > sumDist: continue
minDist = min(a.dist, b.dist)
maxDist = max(a.dist, b.dist)
delta = sumDist - bestDist
coPathCoeff = maxDist / bestDist
effect = delta / bestDist
weight = effect * coPathCoeff
G.add_edge(a, b, weight=weight)
print('edge is added', weight)
pos = nx.random_layout(G)
nx.draw_networkx_nodes(G, pos)
nx.draw_networkx_edges(G, pos, width=weight,)
plt.axis('off')
plt.savefig("weighted_graph.png") # save as png
plt.show() # display
开发者ID:LukeSkypewalker,项目名称:Python,代码行数:25,代码来源:metrica.py
示例10: draw_graph
def draw_graph(G, labels=None, graph_layout='shell',
node_size=1600, node_color='blue', node_alpha=0.3,
node_text_size=12,
edge_color='blue', edge_alpha=0.3, edge_tickness=1,
edge_text_pos=0.3,
text_font='sans-serif'):
# these are different layouts for the network you may try
# shell seems to work best
if graph_layout == 'spring':
graph_pos=nx.spring_layout(G)
elif graph_layout == 'spectral':
graph_pos=nx.spectral_layout(G)
elif graph_layout == 'random':
graph_pos=nx.random_layout(G)
else:
graph_pos=nx.shell_layout(G)
# draw graph
nx.draw_networkx_nodes(G,graph_pos,node_size=node_size,
alpha=node_alpha, node_color=node_color)
nx.draw_networkx_edges(G,graph_pos,width=edge_tickness,
alpha=edge_alpha,edge_color=edge_color)
nx.draw_networkx_labels(G, graph_pos,font_size=node_text_size,
font_family=text_font)
nx.draw_networkx_edge_labels(G, graph_pos, edge_labels=labels,
label_pos=edge_text_pos)
# show graph
frame = plt.gca()
frame.axes.get_xaxis().set_visible(False)
frame.axes.get_yaxis().set_visible(False)
plt.show()
开发者ID:alanshutko,项目名称:hia-examples,代码行数:32,代码来源:disease_graph.py
示例11: test_layouts
def test_layouts():
G =nx.gnm_random_graph(10,15)
rand = [nx.random_layout(G)]
circ = [nx.circular_layout(G)]
#shell = [nx.shell_layout(G)] #same as circular layout...
spectral = [nx.spectral_layout(G)]
tripod = [tripod_layout(G)]
layouts = [rand,circ,spectral, tripod]
regimes = ["random","circular","spectral", "tripod"]
for layout in layouts:
layout.append(nx.spring_layout(G,2,layout[0]))
layout.append(iterate_swaps(G,layout[0]))
layout.append(nx.spring_layout(G,2,layout[2]))
layout.append(greedy_swapper(G,layout[0]))
# Now have list of lists... Find lengths of edgecrossings...
num_crossings = []
for layout in layouts:
for sublayout in layout:
num_crossings.append(count_crosses(G,sublayout))
names = []
for regime in regimes:
names.append(regime)
names.append(regime + "-spring")
names.append(regime + "-swap")
names.append(regime + "-swap-spr")
names.append(regime + "-greedy")
return G, layouts, names, num_crossings
开发者ID:natlund,项目名称:disentangler,代码行数:34,代码来源:disentangler.py
示例12: draw_graph
def draw_graph(graph, labels=None, graph_layout='shell',
node_size=120, node_color='blue', node_alpha=0.3,
node_text_size=8,
edge_color='blue', edge_alpha=0.3, edge_tickness=1,
edge_text_pos=0.3,
text_font='sans-serif'):
# create networkx graph
G=nx.Graph()
# add edges
for edge in graph:
G.add_edge(edge[0], edge[1])
print G.nodes()
nodeColors = []
nodeClients = []
for node in G.nodes():
if is_number(node):
nodeColors.append(0)
else:
nodeColors.append(1)
nodeClients.append(node)
edgeColors = []
for edge in G.edges():
if (edge[0] in nodeClients) or (edge[1] in nodeClients):
edgeColors.append(1)
else:
edgeColors.append(0)
# these are different layouts for the network you may try
# shell seems to work best
if graph_layout == 'spring':
graph_pos=nx.spring_layout(G)
elif graph_layout == 'spectral':
graph_pos=nx.spectral_layout(G)
elif graph_layout == 'random':
graph_pos=nx.random_layout(G)
else:
graph_pos=nx.shell_layout(G)
# draw graph
nx.draw_networkx_nodes(G,graph_pos,node_size=node_size,
alpha=node_alpha, node_color=nodeColors)
nx.draw_networkx_edges(G,graph_pos,width=edge_tickness,
alpha=edge_alpha,edge_color=edgeColors)
nx.draw_networkx_labels(G, graph_pos,font_size=node_text_size,
font_family=text_font, font_weight='normal', alpha=1.0)
# if labels is None:
# labels = range(len(graph))
# edge_labels = dict(zip(graph, labels))
# nx.draw_networkx_edge_labels(G, graph_pos, edge_labels=edge_labels,
# label_pos=edge_text_pos)
# show graph
plt.show()
开发者ID:ephemeral2eternity,项目名称:parseTopology,代码行数:60,代码来源:drawNetwork.py
示例13: opti
def opti(nodeList, colorList, edgeList, cList, firstDistance):
#Only recheck for node with new color
for i in range(10):
v = random.randint(0, len(nodeList))
currentDistance = 0
cListBis = cList
cListBis.pop(i)
newColor = random.choice(cListBis)
colorList[i] = newColor
newDistance = 0
for (u,v) in graph.edges():
if graph.node[u]['color'] == graph.node[v]['color']:
newDistance += 1
if newDistance <= distance :
pos=nx.random_layout(graph)
plt.figure(3,figsize=(12,9))
for nodes in graph.nodes():
nx.draw_networkx_nodes(graph, pos, nodelist=[nodes], node_color=graph.node[nodes]['color'])
nx.draw_networkx_edges(graph, pos)
plt.axis('off')
plt.draw()
开发者ID:fonfonx,项目名称:GraphColoring,代码行数:25,代码来源:Project.py
示例14: draw_graph
def draw_graph(G, labels=None, graph_layout='shell',
node_size=1600, node_color='blue', node_alpha=0.3,
node_text_size=12,
edge_color='blue', edge_alpha=0.3, edge_tickness=1,
edge_text_pos=0.3,
text_font='sans-serif'):
# these are different layouts for the network you may try
# shell seems to work best
if graph_layout == 'spring':
graph_pos=nx.spring_layout(G)
elif graph_layout == 'spectral':
graph_pos=nx.spectral_layout(G)
elif graph_layout == 'random':
graph_pos=nx.random_layout(G)
else:
graph_pos=nx.shell_layout(G)
# draw graph
nx.draw_networkx_nodes(G,graph_pos,node_size=node_size,
alpha=node_alpha, node_color=node_color)
nx.draw_networkx_edges(G,graph_pos,width=edge_tickness,
alpha=edge_alpha,edge_color=edge_color)
nx.draw_networkx_labels(G, graph_pos,font_size=node_text_size,
font_family=text_font)
if labels is None:
labels = range(len(G))
edge_labels = dict(zip(G, labels))
nx.draw_networkx_edge_labels(G, graph_pos, edge_labels=labels,
label_pos=edge_text_pos)
# show graph
plt.show()
开发者ID:RenanGreca,项目名称:wireless-networks,代码行数:35,代码来源:dijkstra.py
示例15: draw_graph
def draw_graph(graph):
# extract nodes from graph
nodes = set([n1 for n1, n2 in graph] + [n2 for n1, n2 in graph])
# create networkx graph
G=nx.Graph()
#G=nx.cubical_graph()
# add nodes
for node in nodes:
G.add_node(node)
# add edges
for edge in graph:
G.add_edge(edge[0], edge[1])
# draw graph
#pos = nx.shell_layout(G)
#pos = nx.spectral_layout(G)
pos = nx.random_layout(G) # Funciona melhor
#pos = nx.circular_layout(G) # Mais ou menos
#pos = nx.fruchterman_reingold_layout(G) # Funciona melhor
#nx.draw(G, pos)
nx.draw_networkx(G)
# show graph
plt.axis('off')
plt.show()
开发者ID:AnaSLCaldeira,项目名称:EADW,代码行数:30,代码来源:graph_functions.py
示例16: draw_graph
def draw_graph(graph, graph_layout='shell',
node_size=1600, node_color='blue', node_alpha=0.3, node_text_size=12,
edge_color='blue', edge_alpha=0.3, edge_tickness=1, edge_text_pos=0.3,
text_font='sans-serif', save=True, filename=None):
edge_labels=dict([((u,v,),d['weight']) for u,v,d in graph.edges(data=True)])
# these are different layouts for the network you may try
# shell seems to work best
if graph_layout == 'spring':
graph_pos=nx.spring_layout(graph)
elif graph_layout == 'spectral':
graph_pos=nx.spectral_layout(graph)
elif graph_layout == 'random':
graph_pos=nx.random_layout(graph)
elif graph_layout == 'circular':
graph_pos=nx.circular_layout(graph)
else:
graph_pos=nx.shell_layout(graph)
# draw graph
nx.draw_networkx_nodes(graph, graph_pos, node_size=node_size, alpha=node_alpha, node_color=node_color)
nx.draw_networkx_edges(graph, graph_pos, width=edge_tickness, alpha=edge_alpha, edge_color=edge_color)
nx.draw_networkx_labels(graph, graph_pos, font_size=node_text_size, font_family=text_font)
nx.draw_networkx_edge_labels(graph, graph_pos, edge_labels=edge_labels, label_pos=edge_text_pos)
# show graph
if save == True:
plt.savefig(filename, dpi=1000)
plt.show()
开发者ID:AdrienGuille,项目名称:EGC-Cup-2016,代码行数:29,代码来源:collaboration_graph.py
示例17: draw_graph
def draw_graph(self, type):
val_map = {}
if type == 'whole':
for user in self.extr_dic_users:
if self.extr_dic_users[user] == 'c':
val_map.update({ user : 'r'})
elif self.extr_dic_users[user] == 'n':
val_map.update({ user : 'b'})
else:
val_map.update({ user : 'g'})
#for user in self.extr_dic_users:
# val_map.update({ user : 'g'})
self.m_extr_G = self.m_extr_G.to_undirected()
values = [val_map.get(node) for node in self.m_extr_G.nodes()]
nx.draw(self.m_extr_G, pos = nx.random_layout(self.m_extr_G, dim = 2), randomcmap = plt.get_cmap('jet'), node_color = values, width = 1, node_size = 40, with_labels=False)
plt.show()
elif type == 'internal':
for user in self.dic_users:
if self.dic_users[user][1] == 'c':
val_map.update({ user : 'r'})
else:
val_map.update({ user : 'b'})
#for user in self.extr_dic_users:
# val_map.update({ user : 'g'})
#self.G = self.G.to_undirected()
values = [val_map.get(node) for node in self.m_G.nodes()]
nx.draw(self.m_G, pos = nx.spring_layout(self.m_G, dim = 2), randomcmap = plt.get_cmap('jet'), node_color = values, width = 1, node_size = 200, with_labels=True)
plt.show()
开发者ID:huangbolun,项目名称:ElectionTweetsAnalysis,代码行数:28,代码来源:mention_graph.py
示例18: draw_graph
def draw_graph(G):
"""
@type G: DiGraph
@param G: DiGraph
"""
nx.draw(G, pos = nx.random_layout(G, dim = 2), randomcmap = plt.get_cmap('jet'), node_color = "blue", alpha = 0.5, width = 1, node_size = 400, with_labels=True)
plt.show()
开发者ID:JohnaLiu,项目名称:topic_tweet_analysis,代码行数:7,代码来源:hits.py
示例19: draw_graph
def draw_graph(graph, labels=None, graph_layout='shell',
node_size=1600, node_color='blue', node_alpha=0.3,
node_text_size=12,
edge_color='blue', edge_alpha=0.3, edge_tickness=1,
edge_text_pos=0.3,
text_font='sans-serif'):
# create networkx graph
G=nx.Graph()
# add edges
for edge in graph:
G.add_edge(edge[0], edge[1])
# these are different layouts for the network you may try
# shell seems to work best
if graph_layout == 'spring':
graph_pos=nx.spring_layout(G)
elif graph_layout == 'spectral':
graph_pos=nx.spectral_layout(G)
elif graph_layout == 'random':
graph_pos=nx.random_layout(G)
else:
graph_pos=nx.shell_layout(G)
nx.draw(G)
#nx.draw_random(G)
#nx.draw_spectral(G)
# show graph
newFolder = graphPath
if not os.path.exists(newFolder):
os.makedirs(newFolder)
plt.savefig(newFolder+anchor+"Network.png")
开发者ID:Israel-Andrade,项目名称:Project2CST205,代码行数:34,代码来源:networkMap.py
示例20: communities_histogram
def communities_histogram(graph, verbose=False):
graph, partition = detect_communities(graph, verbose)
#plt.hist(partition.values(), bins=25, color="#0f6dbc")
#plt.title("Size of Marvel Communities")
#plt.xlabel("Community")
#plt.ylabel("Nodes")
parts = defaultdict(int)
for part in partition.values():
parts[part] += 1
bubbles = nx.Graph()
for part in parts.items():
bubbles.add_node(part[0], size=part[1])
pos = nx.random_layout(bubbles)
plt.figure(figsize=(12,12))
plt.axis('off')
nx.draw_networkx_nodes(bubbles, pos,
alpha=0.6, node_size=map(lambda x: x*6, parts.values()),
node_color=[random.random() for x in parts.values()], cmap=plt.cm.RdYlBu)
#plt.show()
plt.savefig("figure/communities_histogram_alt.png")
开发者ID:saltfog,项目名称:r-code,代码行数:26,代码来源:cluster.py
注:本文中的networkx.random_layout函数示例由纯净天空整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。 |
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