本文整理汇总了Python中networkx.min_cost_flow_cost函数的典型用法代码示例。如果您正苦于以下问题:Python min_cost_flow_cost函数的具体用法?Python min_cost_flow_cost怎么用?Python min_cost_flow_cost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min_cost_flow_cost函数的9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_zero_capacity_edges
def test_zero_capacity_edges(self):
"""Address issue raised in ticket #617 by arv."""
G = nx.DiGraph()
G.add_edges_from([(1, 2, {'capacity': 1, 'weight': 1}),
(1, 5, {'capacity': 1, 'weight': 1}),
(2, 3, {'capacity': 0, 'weight': 1}),
(2, 5, {'capacity': 1, 'weight': 1}),
(5, 3, {'capacity': 2, 'weight': 1}),
(5, 4, {'capacity': 0, 'weight': 1}),
(3, 4, {'capacity': 2, 'weight': 1})])
G.nodes[1]['demand'] = -1
G.nodes[2]['demand'] = -1
G.nodes[4]['demand'] = 2
flowCost, H = nx.network_simplex(G)
soln = {1: {2: 0, 5: 1},
2: {3: 0, 5: 1},
3: {4: 2},
4: {},
5: {3: 2, 4: 0}}
assert_equal(flowCost, 6)
assert_equal(nx.min_cost_flow_cost(G), 6)
assert_equal(H, soln)
assert_equal(nx.min_cost_flow(G), soln)
assert_equal(nx.cost_of_flow(G, H), 6)
flowCost, H = nx.capacity_scaling(G)
assert_equal(flowCost, 6)
assert_equal(H, soln)
assert_equal(nx.cost_of_flow(G, H), 6)
开发者ID:ProgVal,项目名称:networkx,代码行数:30,代码来源:test_mincost.py
示例2: test_digon
def test_digon(self):
"""Check if digons are handled properly. Taken from ticket
#618 by arv."""
nodes = [(1, {}),
(2, {'demand': -4}),
(3, {'demand': 4}),
]
edges = [(1, 2, {'capacity': 3, 'weight': 600000}),
(2, 1, {'capacity': 2, 'weight': 0}),
(2, 3, {'capacity': 5, 'weight': 714285}),
(3, 2, {'capacity': 2, 'weight': 0}),
]
G = nx.DiGraph(edges)
G.add_nodes_from(nodes)
flowCost, H = nx.network_simplex(G)
soln = {1: {2: 0},
2: {1: 0, 3: 4},
3: {2: 0}}
assert_equal(flowCost, 2857140)
assert_equal(nx.min_cost_flow_cost(G), 2857140)
assert_equal(H, soln)
assert_equal(nx.min_cost_flow(G), soln)
assert_equal(nx.cost_of_flow(G, H), 2857140)
flowCost, H = nx.capacity_scaling(G)
assert_equal(flowCost, 2857140)
assert_equal(H, soln)
assert_equal(nx.cost_of_flow(G, H), 2857140)
开发者ID:ProgVal,项目名称:networkx,代码行数:28,代码来源:test_mincost.py
示例3: test_digraph1
def test_digraph1(self):
# From Bradley, S. P., Hax, A. C. and Magnanti, T. L. Applied
# Mathematical Programming. Addison-Wesley, 1977.
G = nx.DiGraph()
G.add_node(1, demand=-20)
G.add_node(4, demand=5)
G.add_node(5, demand=15)
G.add_edges_from([(1, 2, {'capacity': 15, 'weight': 4}),
(1, 3, {'capacity': 8, 'weight': 4}),
(2, 3, {'weight': 2}),
(2, 4, {'capacity': 4, 'weight': 2}),
(2, 5, {'capacity': 10, 'weight': 6}),
(3, 4, {'capacity': 15, 'weight': 1}),
(3, 5, {'capacity': 5, 'weight': 3}),
(4, 5, {'weight': 2}),
(5, 3, {'capacity': 4, 'weight': 1})])
flowCost, H = nx.network_simplex(G)
soln = {1: {2: 12, 3: 8},
2: {3: 8, 4: 4, 5: 0},
3: {4: 11, 5: 5},
4: {5: 10},
5: {3: 0}}
assert_equal(flowCost, 150)
assert_equal(nx.min_cost_flow_cost(G), 150)
assert_equal(H, soln)
assert_equal(nx.min_cost_flow(G), soln)
assert_equal(nx.cost_of_flow(G, H), 150)
flowCost, H = nx.capacity_scaling(G)
assert_equal(flowCost, 150)
assert_equal(H, soln)
assert_equal(nx.cost_of_flow(G, H), 150)
开发者ID:ProgVal,项目名称:networkx,代码行数:32,代码来源:test_mincost.py
示例4: test_finite_capacity_neg_digon
def test_finite_capacity_neg_digon(self):
"""The digon should receive the maximum amount of flow it can handle.
Taken from ticket #749 by @chuongdo."""
G = nx.DiGraph()
G.add_edge('a', 'b', capacity=1, weight=-1)
G.add_edge('b', 'a', capacity=1, weight=-1)
min_cost = -2
assert_equal(nx.min_cost_flow_cost(G), min_cost)
开发者ID:AlistairNWard,项目名称:configurationClass,代码行数:8,代码来源:test_mincost.py
示例5: test_finite_capacity_neg_digon
def test_finite_capacity_neg_digon(self):
"""The digon should receive the maximum amount of flow it can handle.
Taken from ticket #749 by @chuongdo."""
G = nx.DiGraph()
G.add_edge('a', 'b', capacity=1, weight=-1)
G.add_edge('b', 'a', capacity=1, weight=-1)
min_cost = -2
assert_equal(nx.min_cost_flow_cost(G), min_cost)
flowCost, H = nx.capacity_scaling(G)
assert_equal(flowCost, -2)
assert_equal(H, {'a': {'b': 1}, 'b': {'a': 1}})
assert_equal(nx.cost_of_flow(G, H), -2)
开发者ID:ProgVal,项目名称:networkx,代码行数:13,代码来源:test_mincost.py
示例6: test_transshipment
def test_transshipment(self):
G = nx.DiGraph()
G.add_node('a', demand=1)
G.add_node('b', demand=-2)
G.add_node('c', demand=-2)
G.add_node('d', demand=3)
G.add_node('e', demand=-4)
G.add_node('f', demand=-4)
G.add_node('g', demand=3)
G.add_node('h', demand=2)
G.add_node('r', demand=3)
G.add_edge('a', 'c', weight=3)
G.add_edge('r', 'a', weight=2)
G.add_edge('b', 'a', weight=9)
G.add_edge('r', 'c', weight=0)
G.add_edge('b', 'r', weight=-6)
G.add_edge('c', 'd', weight=5)
G.add_edge('e', 'r', weight=4)
G.add_edge('e', 'f', weight=3)
G.add_edge('h', 'b', weight=4)
G.add_edge('f', 'd', weight=7)
G.add_edge('f', 'h', weight=12)
G.add_edge('g', 'd', weight=12)
G.add_edge('f', 'g', weight=-1)
G.add_edge('h', 'g', weight=-10)
flowCost, H = nx.network_simplex(G)
soln = {'a': {'c': 0},
'b': {'a': 0, 'r': 2},
'c': {'d': 3},
'd': {},
'e': {'r': 3, 'f': 1},
'f': {'d': 0, 'g': 3, 'h': 2},
'g': {'d': 0},
'h': {'b': 0, 'g': 0},
'r': {'a': 1, 'c': 1}}
assert_equal(flowCost, 41)
assert_equal(nx.min_cost_flow_cost(G), 41)
assert_equal(H, soln)
assert_equal(nx.min_cost_flow(G), soln)
assert_equal(nx.cost_of_flow(G, H), 41)
flowCost, H = nx.capacity_scaling(G)
assert_equal(flowCost, 41)
assert_equal(nx.cost_of_flow(G, H), 41)
assert_equal(H, soln)
开发者ID:ProgVal,项目名称:networkx,代码行数:45,代码来源:test_mincost.py
示例7: test_simple_digraph
def test_simple_digraph(self):
G = nx.DiGraph()
G.add_node('a', demand = -5)
G.add_node('d', demand = 5)
G.add_edge('a', 'b', weight = 3, capacity = 4)
G.add_edge('a', 'c', weight = 6, capacity = 10)
G.add_edge('b', 'd', weight = 1, capacity = 9)
G.add_edge('c', 'd', weight = 2, capacity = 5)
flowCost, H = nx.network_simplex(G)
soln = {'a': {'b': 4, 'c': 1},
'b': {'d': 4},
'c': {'d': 1},
'd': {}}
assert_equal(flowCost, 24)
assert_equal(nx.min_cost_flow_cost(G), 24)
assert_equal(H, soln)
assert_equal(nx.min_cost_flow(G), soln)
assert_equal(nx.cost_of_flow(G, H), 24)
开发者ID:mshelton,项目名称:networkx,代码行数:18,代码来源:test_mincost.py
示例8: constrcut_flow_graph
def constrcut_flow_graph(reach_graph,sorted_bbox,flow_graph=None,scores=None):
def to_left_node(index):
return 2*index+1
def to_right_node(index):
return 2*index+2
def scale_to_int(score):
MAX_VALUE = 10000
return int(score*MAX_VALUE)
def compute_box_center(box):
center_y = (box[3]+box[1])/2
center_x = (box[2]+box[0])/2
return center_x,center_y
def get_data_cost(score):
return scale_to_int(score)
def get_smoothness_cost(box1, box2):
alpha=0.0
h1=box1[3]-box1[1]+1
h2=box2[3]-box2[1]+1
x1, y1=compute_box_center(box1)
x2, y2=compute_box_center(box2)
d=((x1-x2)**2+(y1-y2)**2)**0.5/min(h1,h2)
s=float(abs(h1-h2))/min(h1, h2)
return scale_to_int(alpha*d+(1-alpha)*s)
def get_entry_cost(index,reach_graph,scores):
reach_node_costs = [scores[left] for left, right in reach_graph.edges() if right == index]
sorted_costs = sorted(reach_node_costs)
if len(sorted_costs) > 0:
cost = scale_to_int(-sorted_costs[-1])
else:
cost = 0
return cost
def get_exit_cost(index,reach_graph,scores):
reach_node_costs = [scores[right] for left, right in reach_graph.edges() if left == index]
sorted_costs = sorted(reach_node_costs)
if len(sorted_costs) > 0:
cost = scale_to_int(-sorted_costs[-1])
else:
cost = 0
return cost
def overlaps(box1,box2):
h1=box1[3]-box1[1]+1
h2=box2[3]-box2[1]+1
overlaps=min(box2[3], box1[3])-max(box1[1], box2[1])
overlaps=overlaps if overlaps>0 else 0
return float(overlaps)/h2
length = len(sorted_bbox)
scores = [-1 for i in range(length)]
if flow_graph == None:
#box
print 'construct graph'
flow_graph = nx.DiGraph()
ENTRY_NODE = -1
flow_graph.add_node(ENTRY_NODE,demand = -1)
EXIT_NODE = -2
flow_graph.add_node(EXIT_NODE,demand = 1)
# data cost
for index in range(length):
left_node = to_left_node(index)
right_node = to_right_node(index)
flow_graph.add_node(left_node)
flow_graph.add_node(right_node)
data_cost = get_data_cost(scores[index])
flow_graph.add_edge(left_node,right_node,weight=data_cost,capacity = 1)
# smoothness cost
for left,right in reach_graph.edges():
left_node = to_right_node(left)
right_node = to_left_node(right)
smoothness_cost = get_smoothness_cost(sorted_bbox[left],sorted_bbox[right])
flow_graph.add_edge(left_node,right_node,weight=smoothness_cost,capacity = 1)
# entry cost
for index in range(length):
entry_cost = get_entry_cost(index,reach_graph,scores)
left_node = to_left_node(index)
flow_graph.add_edge(ENTRY_NODE,left_node,weight=entry_cost,capacity = 1)
# exit cost
for index in range(length):
exit_cost = get_exit_cost(index,reach_graph,scores)
right_node = to_right_node(index)
flow_graph.add_edge(right_node,EXIT_NODE,weight=exit_cost,capacity = 1)
box_inds=[]
flowDict = nx.min_cost_flow(flow_graph)
flowCost = nx.min_cost_flow_cost(flow_graph)
for index in range(length):
left_node=to_left_node(index)
right_node=to_right_node(index)
try:
find = [node for node, value in flowDict[left_node].iteritems() if value == 1]
except:
find = []
if len(find)>0:
#.........这里部分代码省略.........
开发者ID:BestSonny,项目名称:text-flow,代码行数:101,代码来源:text_flow.py
示例9: create_graph
G.add_node(newnode,demand=0)
G.add_edge(head,newnode,weight=int(cost),capacity=int(cap))
G.add_edge(newnode,tail,weight=0,capacity=int(cap))
n+=1
if (head,tail) not in G.edges():
G.add_edge(head,tail,weight=int(cost),capacity=int(cap))
return G
G_40 = create_graph('gte_bad.40')
G_6830 = create_graph('gte_bad.6830')
G_176280 = create_graph('gte_bad.176280')
print "Correct value for _40 instance:", nx.min_cost_flow_cost(G_40) == 52099553858
print "Correct value for _6830 instance:", nx.min_cost_flow_cost(G_6830) == 299390431788
print "Correct value for _176280 instance:", nx.min_cost_flow_cost(G_176280) == 510585093810
import pulp
def lp_flow_value(G):
nodes=[a for a in G.nodes() ]
demand={a:G.node[a]['demand'] for a in G.nodes()}
arcs=[(a,b) for(a,b) in G.edges()]
arcdata={(a,b):[G.edge[a][b]['weight'],G.edge[a][b]['capacity']] for (a,b) in G.edges()}
(weight,cap)=pulp.splitDict(arcdata)
vars = pulp.LpVariable.dicts("Route",arcs,None,None,pulp.LpInteger)
开发者ID:panda4869,项目名称:My-Project,代码行数:31,代码来源:HW4_MinxiangPan_mp3335.py
注:本文中的networkx.min_cost_flow_cost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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