planetstack/ec2_observer/toposort.py - xos - Gitiles

 #!/usr/bin/python

 import time
 import traceback
 import commands
 import threading
 import json
 import pdb

 from datetime import datetime
 from collections import defaultdict

 # Assumes that there are no empty dependencies
 # in the graph. E.g. Foo -> []
 def dfs(graph, visit):
 	nodes = graph.keys()
 	edge_nodes = set()

 	for n in nodes:
 		edge_nodes|=set(graph[n])

 	sinks = list(edge_nodes - set(nodes))
 	sources = list(set(nodes) - edge_nodes)

 	nodes.extend(sinks)

 	visited = set(sources)
 	stack = sources
 	while stack:
 		current = stack.pop()
 		visit(current)
 		for node in graph[current]:
 			if node not in visited:
 				stack.append(node)
 				visited.add(node)

 	return sources

 # Topological sort
 # Notes:
 # - Uses a stack instead of recursion
 # - Forfeits optimization involving tracking currently visited nodes
 def toposort(g, steps=None):
 	# Get set of all nodes, including those without outgoing edges
 	keys = set(g.keys())
 	values = set({})
 	for v in g.values():
 		values=values | set(v)

 	all_nodes=list(keys|values)
 	if (not steps):
 		steps = all_nodes

 	# Final order
 	order = []

 	# DFS stack, not using recursion
 	stack = []

 	# Unmarked set
 	unmarked = all_nodes

 	# visiting = [] - skip, don't expect 1000s of nodes, |E|/|V| is small

 	while unmarked:
 		stack.insert(0,unmarked[0]) # push first unmarked

 		while (stack):
 			n = stack[0]
 			add = True
 			try:
 				for m in g[n]:
 					if (m in unmarked):
 						if (m not in stack):
 							add = False
 							stack.insert(0,m)
 						else:
 							# Should not happen, if so there's a loop
 							print 'Loop at %s'%m
 			except KeyError:
 				pass
 			if (add):
 				if (n in steps):
 					order.append(n)
 				item = stack.pop(0)
 				unmarked.remove(item)

 	noorder = list(set(steps) - set(order))
 	return order + noorder

 def main():
 	graph_file=open('planetstack.deps').read()
 	g = json.loads(graph_file)
 	print toposort(g)

 if (__name__=='__main__'):
 	main()

 #print toposort({'a':'b','b':'c','c':'d','d':'c'},['d','c','b','a'])
	#!/usr/bin/python

	import time
	import traceback
	import commands
	import threading
	import json
	import pdb

	from datetime import datetime
	from collections import defaultdict

	# Assumes that there are no empty dependencies
	# in the graph. E.g. Foo -> []
	def dfs(graph, visit):
	nodes = graph.keys()
	edge_nodes = set()

	for n in nodes:
	edge_nodes\|=set(graph[n])

	sinks = list(edge_nodes - set(nodes))
	sources = list(set(nodes) - edge_nodes)

	nodes.extend(sinks)

	visited = set(sources)
	stack = sources
	while stack:
	current = stack.pop()
	visit(current)
	for node in graph[current]:
	if node not in visited:
	stack.append(node)
	visited.add(node)

	return sources

	# Topological sort
	# Notes:
	# - Uses a stack instead of recursion
	# - Forfeits optimization involving tracking currently visited nodes
	def toposort(g, steps=None):
	# Get set of all nodes, including those without outgoing edges
	keys = set(g.keys())
	values = set({})
	for v in g.values():
	values=values \| set(v)

	all_nodes=list(keys\|values)
	if (not steps):
	steps = all_nodes

	# Final order
	order = []

	# DFS stack, not using recursion
	stack = []

	# Unmarked set
	unmarked = all_nodes

	# visiting = [] - skip, don't expect 1000s of nodes, \|E\|/\|V\| is small

	while unmarked:
	stack.insert(0,unmarked[0]) # push first unmarked

	while (stack):
	n = stack[0]
	add = True
	try:
	for m in g[n]:
	if (m in unmarked):
	if (m not in stack):
	add = False
	stack.insert(0,m)
	else:
	# Should not happen, if so there's a loop
	print 'Loop at %s'%m
	except KeyError:
	pass
	if (add):
	if (n in steps):
	order.append(n)
	item = stack.pop(0)
	unmarked.remove(item)

	noorder = list(set(steps) - set(order))
	return order + noorder

	def main():
	graph_file=open('planetstack.deps').read()
	g = json.loads(graph_file)
	print toposort(g)

	if (__name__=='__main__'):
	main()

	#print toposort({'a':'b','b':'c','c':'d','d':'c'},['d','c','b','a'])