Python/graphs/depth_first_search.py

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"""The DFS function simply calls itself recursively for every unvisited child of
its argument. We can emulate that behaviour precisely using a stack of iterators.
Instead of recursively calling with a node, we'll push an iterator to the node's
children onto the iterator stack. When the iterator at the top of the stack
terminates, we'll pop it off the stack.
Pseudocode:
all nodes initially unexplored
mark s as explored
for every edge (s, v):
if v unexplored:
DFS(G, v)
"""
from typing import Set, Dict
def depth_first_search(graph: Dict, start: str) -> Set[int]:
"""Depth First Search on Graph
:param graph: directed graph in dictionary format
:param vertex: starting vectex as a string
:returns: the trace of the search
>>> G = { "A": ["B", "C", "D"], "B": ["A", "D", "E"],
... "C": ["A", "F"], "D": ["B", "D"], "E": ["B", "F"],
... "F": ["C", "E", "G"], "G": ["F"] }
>>> start = "A"
>>> output_G = list({'A', 'B', 'C', 'D', 'E', 'F', 'G'})
>>> all(x in output_G for x in list(depth_first_search(G, "A")))
True
>>> all(x in output_G for x in list(depth_first_search(G, "G")))
True
"""
explored, stack = set(start), [start]
while stack:
v = stack.pop()
# one difference from BFS is to pop last element here instead of first one
for w in graph[v]:
if w not in explored:
explored.add(w)
stack.append(w)
return explored
G = {
"A": ["B", "C", "D"],
"B": ["A", "D", "E"],
"C": ["A", "F"],
"D": ["B", "D"],
"E": ["B", "F"],
"F": ["C", "E", "G"],
"G": ["F"],
}
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if __name__ == "__main__":
import doctest
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doctest.testmod()
print(depth_first_search(G, "A"))