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230 lines
7.5 KiB
Python
230 lines
7.5 KiB
Python
"""
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A Radix Tree is a data structure that represents a space-optimized
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trie (prefix tree) in whicheach node that is the only child is merged
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with its parent [https://en.wikipedia.org/wiki/Radix_tree]
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"""
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class RadixNode:
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def __init__(self, prefix: str = "", is_leaf: bool = False) -> None:
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# Mapping from the first character of the prefix of the node
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self.nodes: dict[str, RadixNode] = {}
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# A node will be a leaf if the tree contains its word
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self.is_leaf = is_leaf
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self.prefix = prefix
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def match(self, word: str) -> tuple[str, str, str]:
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"""Compute the common substring of the prefix of the node and a word
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Args:
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word (str): word to compare
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Returns:
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(str, str, str): common substring, remaining prefix, remaining word
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>>> RadixNode("myprefix").match("mystring")
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('my', 'prefix', 'string')
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"""
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x = 0
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for q, w in zip(self.prefix, word):
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if q != w:
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break
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x += 1
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return self.prefix[:x], self.prefix[x:], word[x:]
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def insert_many(self, words: list[str]) -> None:
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"""Insert many words in the tree
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Args:
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words (list[str]): list of words
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>>> RadixNode("myprefix").insert_many(["mystring", "hello"])
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"""
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for word in words:
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self.insert(word)
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def insert(self, word: str) -> None:
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"""Insert a word into the tree
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Args:
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word (str): word to insert
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>>> RadixNode("myprefix").insert("mystring")
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>>> root = RadixNode()
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>>> root.insert_many(['myprefix', 'myprefixA', 'myprefixAA'])
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>>> root.print_tree()
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- myprefix (leaf)
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-- A (leaf)
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--- A (leaf)
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"""
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# Case 1: If the word is the prefix of the node
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# Solution: We set the current node as leaf
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if self.prefix == word and not self.is_leaf:
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self.is_leaf = True
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# Case 2: The node has no edges that have a prefix to the word
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# Solution: We create an edge from the current node to a new one
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# containing the word
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elif word[0] not in self.nodes:
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self.nodes[word[0]] = RadixNode(prefix=word, is_leaf=True)
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else:
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incoming_node = self.nodes[word[0]]
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matching_string, remaining_prefix, remaining_word = incoming_node.match(
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word
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)
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# Case 3: The node prefix is equal to the matching
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# Solution: We insert remaining word on the next node
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if remaining_prefix == "":
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self.nodes[matching_string[0]].insert(remaining_word)
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# Case 4: The word is greater equal to the matching
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# Solution: Create a node in between both nodes, change
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# prefixes and add the new node for the remaining word
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else:
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incoming_node.prefix = remaining_prefix
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aux_node = self.nodes[matching_string[0]]
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self.nodes[matching_string[0]] = RadixNode(matching_string, False)
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self.nodes[matching_string[0]].nodes[remaining_prefix[0]] = aux_node
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if remaining_word == "":
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self.nodes[matching_string[0]].is_leaf = True
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else:
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self.nodes[matching_string[0]].insert(remaining_word)
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def find(self, word: str) -> bool:
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"""Returns if the word is on the tree
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Args:
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word (str): word to check
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Returns:
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bool: True if the word appears on the tree
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>>> RadixNode("myprefix").find("mystring")
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False
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"""
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incoming_node = self.nodes.get(word[0], None)
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if not incoming_node:
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return False
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else:
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matching_string, remaining_prefix, remaining_word = incoming_node.match(
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word
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)
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# If there is remaining prefix, the word can't be on the tree
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if remaining_prefix != "":
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return False
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# This applies when the word and the prefix are equal
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elif remaining_word == "":
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return incoming_node.is_leaf
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# We have word remaining so we check the next node
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else:
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return incoming_node.find(remaining_word)
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def delete(self, word: str) -> bool:
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"""Deletes a word from the tree if it exists
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Args:
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word (str): word to be deleted
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Returns:
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bool: True if the word was found and deleted. False if word is not found
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>>> RadixNode("myprefix").delete("mystring")
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False
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"""
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incoming_node = self.nodes.get(word[0], None)
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if not incoming_node:
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return False
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else:
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matching_string, remaining_prefix, remaining_word = incoming_node.match(
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word
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)
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# If there is remaining prefix, the word can't be on the tree
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if remaining_prefix != "":
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return False
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# We have word remaining so we check the next node
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elif remaining_word != "":
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return incoming_node.delete(remaining_word)
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# If it is not a leaf, we don't have to delete
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elif not incoming_node.is_leaf:
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return False
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else:
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# We delete the nodes if no edges go from it
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if len(incoming_node.nodes) == 0:
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del self.nodes[word[0]]
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# We merge the current node with its only child
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if len(self.nodes) == 1 and not self.is_leaf:
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merging_node = next(iter(self.nodes.values()))
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self.is_leaf = merging_node.is_leaf
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self.prefix += merging_node.prefix
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self.nodes = merging_node.nodes
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# If there is more than 1 edge, we just mark it as non-leaf
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elif len(incoming_node.nodes) > 1:
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incoming_node.is_leaf = False
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# If there is 1 edge, we merge it with its child
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else:
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merging_node = next(iter(incoming_node.nodes.values()))
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incoming_node.is_leaf = merging_node.is_leaf
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incoming_node.prefix += merging_node.prefix
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incoming_node.nodes = merging_node.nodes
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return True
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def print_tree(self, height: int = 0) -> None:
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"""Print the tree
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Args:
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height (int, optional): Height of the printed node
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"""
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if self.prefix != "":
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print("-" * height, self.prefix, " (leaf)" if self.is_leaf else "")
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for value in self.nodes.values():
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value.print_tree(height + 1)
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def test_trie() -> bool:
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words = "banana bananas bandana band apple all beast".split()
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root = RadixNode()
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root.insert_many(words)
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assert all(root.find(word) for word in words)
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assert not root.find("bandanas")
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assert not root.find("apps")
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root.delete("all")
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assert not root.find("all")
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root.delete("banana")
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assert not root.find("banana")
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assert root.find("bananas")
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return True
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def pytests() -> None:
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assert test_trie()
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def main() -> None:
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"""
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>>> pytests()
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"""
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root = RadixNode()
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words = "banana bananas bandanas bandana band apple all beast".split()
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root.insert_many(words)
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print("Words:", words)
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print("Tree:")
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root.print_tree()
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if __name__ == "__main__":
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main()
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