Python/graphs/edmonds_karp_multiple_source_and_sink.py
Christian Clauss 64543faa98
Make some ruff fixes (#8154)
* Make some ruff fixes

* Undo manual fix

* Undo manual fix

* Updates from ruff=0.0.251
2023-03-01 17:23:33 +01:00

194 lines
6.4 KiB
Python

class FlowNetwork:
def __init__(self, graph, sources, sinks):
self.source_index = None
self.sink_index = None
self.graph = graph
self._normalize_graph(sources, sinks)
self.vertices_count = len(graph)
self.maximum_flow_algorithm = None
# make only one source and one sink
def _normalize_graph(self, sources, sinks):
if sources is int:
sources = [sources]
if sinks is int:
sinks = [sinks]
if len(sources) == 0 or len(sinks) == 0:
return
self.source_index = sources[0]
self.sink_index = sinks[0]
# make fake vertex if there are more
# than one source or sink
if len(sources) > 1 or len(sinks) > 1:
max_input_flow = 0
for i in sources:
max_input_flow += sum(self.graph[i])
size = len(self.graph) + 1
for room in self.graph:
room.insert(0, 0)
self.graph.insert(0, [0] * size)
for i in sources:
self.graph[0][i + 1] = max_input_flow
self.source_index = 0
size = len(self.graph) + 1
for room in self.graph:
room.append(0)
self.graph.append([0] * size)
for i in sinks:
self.graph[i + 1][size - 1] = max_input_flow
self.sink_index = size - 1
def find_maximum_flow(self):
if self.maximum_flow_algorithm is None:
raise Exception("You need to set maximum flow algorithm before.")
if self.source_index is None or self.sink_index is None:
return 0
self.maximum_flow_algorithm.execute()
return self.maximum_flow_algorithm.getMaximumFlow()
def set_maximum_flow_algorithm(self, algorithm):
self.maximum_flow_algorithm = algorithm(self)
class FlowNetworkAlgorithmExecutor:
def __init__(self, flow_network):
self.flow_network = flow_network
self.verticies_count = flow_network.verticesCount
self.source_index = flow_network.sourceIndex
self.sink_index = flow_network.sinkIndex
# it's just a reference, so you shouldn't change
# it in your algorithms, use deep copy before doing that
self.graph = flow_network.graph
self.executed = False
def execute(self):
if not self.executed:
self._algorithm()
self.executed = True
# You should override it
def _algorithm(self):
pass
class MaximumFlowAlgorithmExecutor(FlowNetworkAlgorithmExecutor):
def __init__(self, flow_network):
super().__init__(flow_network)
# use this to save your result
self.maximum_flow = -1
def get_maximum_flow(self):
if not self.executed:
raise Exception("You should execute algorithm before using its result!")
return self.maximum_flow
class PushRelabelExecutor(MaximumFlowAlgorithmExecutor):
def __init__(self, flow_network):
super().__init__(flow_network)
self.preflow = [[0] * self.verticies_count for i in range(self.verticies_count)]
self.heights = [0] * self.verticies_count
self.excesses = [0] * self.verticies_count
def _algorithm(self):
self.heights[self.source_index] = self.verticies_count
# push some substance to graph
for nextvertex_index, bandwidth in enumerate(self.graph[self.source_index]):
self.preflow[self.source_index][nextvertex_index] += bandwidth
self.preflow[nextvertex_index][self.source_index] -= bandwidth
self.excesses[nextvertex_index] += bandwidth
# Relabel-to-front selection rule
vertices_list = [
i
for i in range(self.verticies_count)
if i != self.source_index and i != self.sink_index
]
# move through list
i = 0
while i < len(vertices_list):
vertex_index = vertices_list[i]
previous_height = self.heights[vertex_index]
self.process_vertex(vertex_index)
if self.heights[vertex_index] > previous_height:
# if it was relabeled, swap elements
# and start from 0 index
vertices_list.insert(0, vertices_list.pop(i))
i = 0
else:
i += 1
self.maximum_flow = sum(self.preflow[self.source_index])
def process_vertex(self, vertex_index):
while self.excesses[vertex_index] > 0:
for neighbour_index in range(self.verticies_count):
# if it's neighbour and current vertex is higher
if (
self.graph[vertex_index][neighbour_index]
- self.preflow[vertex_index][neighbour_index]
> 0
and self.heights[vertex_index] > self.heights[neighbour_index]
):
self.push(vertex_index, neighbour_index)
self.relabel(vertex_index)
def push(self, from_index, to_index):
preflow_delta = min(
self.excesses[from_index],
self.graph[from_index][to_index] - self.preflow[from_index][to_index],
)
self.preflow[from_index][to_index] += preflow_delta
self.preflow[to_index][from_index] -= preflow_delta
self.excesses[from_index] -= preflow_delta
self.excesses[to_index] += preflow_delta
def relabel(self, vertex_index):
min_height = None
for to_index in range(self.verticies_count):
if (
self.graph[vertex_index][to_index]
- self.preflow[vertex_index][to_index]
> 0
) and (min_height is None or self.heights[to_index] < min_height):
min_height = self.heights[to_index]
if min_height is not None:
self.heights[vertex_index] = min_height + 1
if __name__ == "__main__":
entrances = [0]
exits = [3]
# graph = [
# [0, 0, 4, 6, 0, 0],
# [0, 0, 5, 2, 0, 0],
# [0, 0, 0, 0, 4, 4],
# [0, 0, 0, 0, 6, 6],
# [0, 0, 0, 0, 0, 0],
# [0, 0, 0, 0, 0, 0],
# ]
graph = [[0, 7, 0, 0], [0, 0, 6, 0], [0, 0, 0, 8], [9, 0, 0, 0]]
# prepare our network
flow_network = FlowNetwork(graph, entrances, exits)
# set algorithm
flow_network.set_maximum_flow_algorithm(PushRelabelExecutor)
# and calculate
maximum_flow = flow_network.find_maximum_flow()
print(f"maximum flow is {maximum_flow}")