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# Iterative Depth-Limited Search Returns a Sub-optimal Path — Python

As in title, my Iterative Depth-Limited Search Returns a Sub-optimal Path.

This is not for an assignment; just interested in how IDLS works in comparison to BFS

Clearly there is something I'm overlooking but my code does not return an optimal path, and when run with a set limit (no iterations) at, or just above optimal, it returns no path.

Node contains: state, pathCost, and solution (the path)

Following is the code:

``````def depthLimitedSearch(problem, limit = 999999):
"""
Search the deepest nodes in the search tree first, up to limit depth.
"""

node = Node(problem.getStartState())
if problem.isGoalState(node.state):
return node.solution

frontier = util.Stack()
frontier.push(node);
explored = set([node.state]);

while not frontier.isEmpty():
node = frontier.pop()

for child in node.createChildren(problem):
if child.pathCost <= limit:
if (child.state not in explored):
if (child not in frontier.list):
if problem.isGoalState(child.state):
return child.solution
frontier.push(child)

return []

def iterateDLS(problem, limit = 999999, inc = 1):
''' iterate DLS starting from limit and rising in inc increments'''
result = []
while result == []:
result = depthLimitedSearch(problem, limit)
limit += inc
return result
''' testing for fixed limit'''
##  limit = 31
##  result = depthLimitedSearch(problem, limit)
``````
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