| #!/usr/bin/env python |
| |
| import time |
| import traceback |
| import commands |
| import threading |
| import json |
| import pdb |
| |
| from datetime import datetime |
| from collections import defaultdict |
| |
| # 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): |
| add = False |
| stack.insert(0,m) |
| except KeyError: |
| pass |
| if (add): |
| if (n in steps and n not in order): |
| order.append(n) |
| item = stack.pop(0) |
| try: |
| unmarked.remove(item) |
| except ValueError: |
| pass |
| |
| 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']) |