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els_abs.py
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import os
import sys
import random
import numpy as np
import networkx as nx
from dllist import Node, DoublyLinkedList
def update_last_occupied():
global last_occupied
while last_occupied >= 0:
if bins[last_occupied].start_node != None:
break
last_occupied -= 1
def remove_from_graph(node):
global last_occupied, to_go
for x in g.predecessors(node.item):
if dll_nodes[x] != None and in_degree[x] != 0:
out_degree[x] -= 1
v = abs(out_degree[x] + 1 - in_degree[x])
bins[v].delete(dll_nodes[x])
if out_degree[x] == 0:
sinks.append(dll_nodes[x])
else:
v2 = abs(out_degree[x] - in_degree[x])
bins[v2].insert(dll_nodes[x])
if v2 > last_occupied:
last_occupied = v2
for x in g.successors(node.item):
if dll_nodes[x] != None and out_degree[x] != 0:
in_degree[x] -= 1
v = abs(out_degree[x] - in_degree[x] - 1)
bins[v].delete(dll_nodes[x])
if in_degree[x] == 0:
sources.append(dll_nodes[x])
else:
v2 = abs(out_degree[x] - in_degree[x])
bins[v2].insert(dll_nodes[x])
if v2 > last_occupied:
last_occupied = v2
v = abs(out_degree[node.item] - in_degree[node.item])
if in_degree[node.item] != 0 and out_degree[node.item] != 0:
bins[v].delete(node)
dll_nodes[node.item] = None
update_last_occupied()
filepath = sys.argv[1]
filename = filepath.split('/')[-1]
resultpath = sys.argv[2]
#read graph from file and create lists and variables
g = nx.read_edgelist(filepath, create_using=nx.DiGraph(), nodetype=int)
nodes = list(g.nodes)
nodes.sort()
n = len(nodes)
left = []
s1 = []
s2 = []
in_degree = []
out_degree = []
sinks = []
sources = []
dll_nodes = []
bins = []
last_occupied = -1
to_go = n
#create bins
for i in range(n-1):
bins.append(DoublyLinkedList())
#add each node to bin or source/sink list
for node in nodes:
outd = len(list(g.successors(node)))
ind = len(list(g.predecessors(node)))
in_degree.append(ind)
out_degree.append(outd)
dll_node = Node(node)
dll_nodes.append(dll_node)
if outd == 0:
sinks.append(dll_node)
elif ind == 0:
sources.append(dll_node)
else:
v = abs(outd - ind)
if last_occupied < v:
last_occupied = v
bins[v].insert(dll_node)
#main loop of the algorithm
while to_go != 0:
if len(sinks) != 0:
chosen = sinks[-1]
s2.append(chosen.item)
sinks = sinks[:-1]
elif len(sources) != 0:
chosen = sources[-1]
s1.append(chosen.item)
sources = sources[:-1]
else:
chosen = bins[last_occupied].start_node
if(out_degree[chosen.item] > in_degree[chosen.item]):
s1.append(chosen.item)
else:
s2.append(chosen.item)
remove_from_graph(chosen)
to_go -= 1
#append s1 and s2
s2 = s2[::-1]
s = s1 + s2
#create leftward arcs list
visited = np.zeros(len(nodes))
for node in s:
visited[node] = True
for neigh in g[node]:
if visited[neigh]:
left.append((node, neigh))
#save result to file
with open('{}/{}'.format(resultpath, filename), 'w') as f:
f.write("{}\n".format(len(left)))
f.write("\n".join("{} {}".format(arc[0],arc[1]) for arc in left))