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" This notebook was prepared by [Donne Martin](https://github.com/donnemartin). Source and license info is on [GitHub](https://github.com/donnemartin/interactive-coding-challenges). "
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]
} ,
{
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" # Challenge Notebook "
]
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" ## Problem: Determine whether there is a path between two nodes in a graph. \n " ,
" \n " ,
" * [Constraints](#Constraints) \n " ,
" * [Test Cases](#Test-Cases) \n " ,
" * [Algorithm](#Algorithm) \n " ,
" * [Code](#Code) \n " ,
" * [Unit Test](#Unit-Test) \n " ,
" * [Solution Notebook](#Solution-Notebook) "
]
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" ## Constraints \n " ,
" \n " ,
" * Is the graph directed? \n " ,
" * Yes \n " ,
" * Can we assume we already have Graph and Node classes? \n " ,
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" * Yes \n " ,
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" * Can we assume this is a connected graph? \n " ,
" * Yes \n " ,
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" * Can we assume the inputs are valid? \n " ,
" * Yes \n " ,
" * Can we assume this fits memory? \n " ,
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" * Yes "
]
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{
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" ## Test Cases \n " ,
" \n " ,
" Input: \n " ,
" * `add_edge(source, destination, weight)` \n " ,
" \n " ,
" ``` \n " ,
" graph.add_edge(0, 1, 5) \n " ,
" graph.add_edge(0, 4, 3) \n " ,
" graph.add_edge(0, 5, 2) \n " ,
" graph.add_edge(1, 3, 5) \n " ,
" graph.add_edge(1, 4, 4) \n " ,
" graph.add_edge(2, 1, 6) \n " ,
" graph.add_edge(3, 2, 7) \n " ,
" graph.add_edge(3, 4, 8) \n " ,
" ``` \n " ,
" \n " ,
" Result: \n " ,
" * search_path(start=0, end=2) -> True \n " ,
" * search_path(start=0, end=0) -> True \n " ,
" * search_path(start=4, end=5) -> False "
]
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" ## Algorithm \n " ,
" \n " ,
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" Refer to the [Solution Notebook](http://nbviewer.ipython.org/github/donnemartin/interactive-coding-challenges/blob/master/graphs_trees/graph_path_exists/path_exists_solution.ipynb). If you are stuck and need a hint, the solution notebook ' s algorithm discussion might be a good place to start. "
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]
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" metadata " : { } ,
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" ## Code "
]
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" cell_type " : " code " ,
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" collapsed " : true
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" source " : [
" %r un ../graph/graph.py \n " ,
" %lo ad ../graph/graph.py "
]
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{
" cell_type " : " code " ,
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" class GraphPathExists(Graph): \n " ,
" \n " ,
" def path_exists(self, start, end): \n " ,
" # TODO: Implement me \n " ,
" pass "
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]
} ,
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" metadata " : { } ,
" source " : [
" ## Unit Test "
]
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" source " : [
" **The following unit test is expected to fail until you solve the challenge.** "
]
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{
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" execution_count " : null ,
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" outputs " : [ ] ,
" source " : [
" # %lo ad test_path_exists.py \n " ,
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" import unittest \n " ,
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" \n " ,
" \n " ,
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" class TestPathExists(unittest.TestCase): \n " ,
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" \n " ,
" def test_path_exists(self): \n " ,
" nodes = [] \n " ,
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" graph = GraphPathExists() \n " ,
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" for id in range(0, 6): \n " ,
" nodes.append(graph.add_node(id)) \n " ,
" graph.add_edge(0, 1, 5) \n " ,
" graph.add_edge(0, 4, 3) \n " ,
" graph.add_edge(0, 5, 2) \n " ,
" graph.add_edge(1, 3, 5) \n " ,
" graph.add_edge(1, 4, 4) \n " ,
" graph.add_edge(2, 1, 6) \n " ,
" graph.add_edge(3, 2, 7) \n " ,
" graph.add_edge(3, 4, 8) \n " ,
" \n " ,
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" self.assertEqual(graph.path_exists(nodes[0], nodes[2]), True) \n " ,
" self.assertEqual(graph.path_exists(nodes[0], nodes[0]), True) \n " ,
" self.assertEqual(graph.path_exists(nodes[4], nodes[5]), False) \n " ,
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" \n " ,
" print( ' Success: test_path_exists ' ) \n " ,
" \n " ,
" \n " ,
" def main(): \n " ,
" test = TestPathExists() \n " ,
" test.test_path_exists() \n " ,
" \n " ,
" \n " ,
" if __name__ == ' __main__ ' : \n " ,
" main() "
]
} ,
{
" cell_type " : " markdown " ,
" metadata " : { } ,
" source " : [
" ## Solution Notebook \n " ,
" \n " ,
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" Review the [Solution Notebook](http://nbviewer.ipython.org/github/donnemartin/interactive-coding-challenges/blob/master/graphs_trees/graph_path_exists/path_exists_solution.ipynb) for a discussion on algorithms and code solutions. "
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]
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