220 lines
5.6 KiB
Python
220 lines
5.6 KiB
Python
import time
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import random
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import csv
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import os
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import sys
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sys.setrecursionlimit(30000)
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def ll_insert(head, name, phone):
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curr = head
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while curr is not None:
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if curr['name'] == name:
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curr['phone'] = phone
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return head
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curr = curr['next']
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new_node = {'name': name, 'phone': phone, 'next': head}
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return new_node
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def ll_find(head, name):
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curr = head
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while curr is not None:
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if curr['name'] == name:
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return curr['phone']
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curr = curr['next']
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return None
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def ll_delete(head, name):
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if head is None:
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return None
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if head['name'] == name:
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return head['next']
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prev = head
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curr = head['next']
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while curr is not None:
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if curr['name'] == name:
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prev['next'] = curr['next']
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return head
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prev = curr
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curr = curr['next']
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return head
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def ll_list_all(head):
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entries = []
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curr = head
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while curr is not None:
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entries.append((curr['name'], curr['phone']))
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curr = curr['next']
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entries.sort(key=lambda x: x[0])
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return entries
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def _hash(name, bucket_count):
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h = 0
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for ch in name:
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h = (h * 31 + ord(ch)) % bucket_count
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return h
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def ht_create(bucket_count=2000):
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return [None] * bucket_count
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def ht_insert(buckets, name, phone):
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idx = _hash(name, len(buckets))
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buckets[idx] = ll_insert(buckets[idx], name, phone)
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def ht_find(buckets, name):
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idx = _hash(name, len(buckets))
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return ll_find(buckets[idx], name)
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def ht_delete(buckets, name):
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idx = _hash(name, len(buckets))
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buckets[idx] = ll_delete(buckets[idx], name)
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def ht_list_all(buckets):
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entries = []
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for head in buckets:
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curr = head
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while curr is not None:
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entries.append((curr['name'], curr['phone']))
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curr = curr['next']
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entries.sort(key=lambda x: x[0])
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return entries
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def bst_insert(root, name, phone):
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new_node = {'name': name, 'phone': phone, 'left': None, 'right': None}
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if root is None:
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return new_node
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parent = None
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curr = root
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while curr is not None:
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parent = curr
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if name < curr['name']:
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curr = curr['left']
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elif name > curr['name']:
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curr = curr['right']
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else:
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curr['phone'] = phone
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return root
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if name < parent['name']:
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parent['left'] = new_node
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else:
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parent['right'] = new_node
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return root
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def bst_find(root, name):
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while root is not None:
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if name == root['name']:
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return root['phone']
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elif name < root['name']:
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root = root['left']
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else:
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root = root['right']
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return None
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def _bst_min_node(node):
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while node and node['left'] is not None:
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node = node['left']
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return node
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def bst_delete(root, name):
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if root is None:
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return None
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if name < root['name']:
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root['left'] = bst_delete(root['left'], name)
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elif name > root['name']:
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root['right'] = bst_delete(root['right'], name)
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else:
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if root['left'] is None:
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return root['right']
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if root['right'] is None:
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return root['left']
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min_node = _bst_min_node(root['right'])
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root['name'] = min_node['name']
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root['phone'] = min_node['phone']
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root['right'] = bst_delete(root['right'], min_node['name'])
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return root
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def bst_list_all(root):
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def inorder(node, res):
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if node is None:
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return
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inorder(node['left'], res)
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res.append((node['name'], node['phone']))
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inorder(node['right'], res)
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result = []
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inorder(root, result)
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return result
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def generate_test_data(n=10000):
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records = [(f"User_{i:05d}", f"+7-999-{i:05d}") for i in range(n)]
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records_sorted = records[:]
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records_shuffled = records[:]
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random.shuffle(records_shuffled)
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return records_sorted, records_shuffled
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def measure_insert(struct_name, records):
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start = time.perf_counter()
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if struct_name == "LinkedList":
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head = None
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for name, phone in records:
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head = ll_insert(head, name, phone)
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obj = head
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elif struct_name == "HashTable":
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buckets = ht_create(bucket_count=2000)
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for name, phone in records:
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ht_insert(buckets, name, phone)
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obj = buckets
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elif struct_name == "BST":
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root = None
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for name, phone in records:
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root = bst_insert(root, name, phone)
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obj = root
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else:
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raise ValueError(f"Unknown structure: {struct_name}")
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elapsed = time.perf_counter() - start
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return elapsed, obj
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def measure_find(obj, struct_name, existing_names, nonexisting_names):
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start = time.perf_counter()
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for name in existing_names:
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if struct_name == "LinkedList":
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ll_find(obj, name)
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elif struct_name == "HashTable":
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ht_find(obj, name)
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else:
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bst_find(obj, name)
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for name in nonexisting_names:
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if struct_name == "LinkedList":
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ll_find(obj, name)
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elif struct_name == "HashTable":
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ht_find(obj, name)
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else:
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bst_find(obj, name)
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return time.perf_counter() - start
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def measure_delete(obj, struct_name, names_to_delete):
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start = time.perf_counter()
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if struct_name == "LinkedList":
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for name in names_to_delete:
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obj = ll_delete(obj, name)
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elif struct_name == "HashTable":
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for name in names_to_delete:
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ht_delete(obj, name)
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else:
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for name in names_to_delete:
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obj = bst_delete(obj, name)
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elapsed = time.perf_counter() - start
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return elapsed, obj |