forked from UNN/2026-rff_mp
292 lines
8.5 KiB
Python
292 lines
8.5 KiB
Python
#!/usr/bin/env python3
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# -*- coding: utf-8 -*-
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import time
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import random
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import csv
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import sys
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sys.setrecursionlimit(30000)
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def ll_create_node(name, phone):
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return {'name': name, 'phone': phone, 'next': None}
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def ll_insert(head, name, phone):
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if head is None:
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return ll_create_node(name, phone)
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if head['name'] == name:
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head['phone'] = phone
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return head
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current = head
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while current['next'] is not None:
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if current['next']['name'] == name:
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current['next']['phone'] = phone
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return head
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current = current['next']
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current['next'] = ll_create_node(name, phone)
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return head
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def ll_find(head, name):
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current = head
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while current is not None:
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if current['name'] == name:
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return current['phone']
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current = current['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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current = head
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while current['next'] is not None:
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if current['next']['name'] == name:
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current['next'] = current['next']['next']
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return head
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current = current['next']
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return head
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def ll_list_all(head):
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records = []
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current = head
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while current is not None:
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records.append((current['name'], current['phone']))
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current = current['next']
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records.sort(key=lambda x: x[0])
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return records
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def hash_function(name, table_size):
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return sum(ord(c) for c in name) % table_size
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def ht_create_table(size=2000):
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return [None] * size
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def ht_insert(table, name, phone):
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index = hash_function(name, len(table))
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table[index] = ll_insert(table[index], name, phone)
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def ht_find(table, name):
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index = hash_function(name, len(table))
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return ll_find(table[index], name)
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def ht_delete(table, name):
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index = hash_function(name, len(table))
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table[index] = ll_delete(table[index], name)
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def ht_list_all(table):
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all_records = []
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for bucket in table:
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if bucket is not None:
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current = bucket
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while current is not None:
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all_records.append((current['name'], current['phone']))
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current = current['next']
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all_records.sort(key=lambda x: x[0])
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return all_records
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def bst_create_node(name, phone):
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return {'name': name, 'phone': phone, 'left': None, 'right': None}
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def bst_insert(root, name, phone):
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if root is None:
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return bst_create_node(name, phone)
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current = root
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while True:
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if name < current['name']:
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if current['left'] is None:
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current['left'] = bst_create_node(name, phone)
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break
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else:
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current = current['left']
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elif name > current['name']:
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if current['right'] is None:
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current['right'] = bst_create_node(name, phone)
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break
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else:
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current = current['right']
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else:
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current['phone'] = phone
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break
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return root
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def bst_find(root, name):
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current = root
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while current is not None:
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if name < current['name']:
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current = current['left']
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elif name > current['name']:
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current = current['right']
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else:
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return current['phone']
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return None
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def bst_find_min(node):
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current = node
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while current['left'] is not None:
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current = current['left']
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return current
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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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parent = None
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current = root
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while current is not None and current['name'] != name:
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parent = current
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if name < current['name']:
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current = current['left']
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else:
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current = current['right']
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if current is None:
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return root
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if current['left'] is None or current['right'] is None:
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if current['left'] is not None:
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child = current['left']
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else:
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child = current['right']
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if parent is None:
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return child
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if parent['left'] == current:
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parent['left'] = child
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else:
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parent['right'] = child
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else:
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successor_parent = current
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successor = current['right']
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while successor['left'] is not None:
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successor_parent = successor
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successor = successor['left']
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current['name'] = successor['name']
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current['phone'] = successor['phone']
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if successor_parent['left'] == successor:
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successor_parent['left'] = successor['right']
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else:
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successor_parent['right'] = successor['right']
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return root
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def bst_list_all(root):
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records = []
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stack = []
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current = root
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while stack or current is not None:
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while current is not None:
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stack.append(current)
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current = current['left']
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current = stack.pop()
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records.append((current['name'], current['phone']))
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current = current['right']
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return records
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def generate_data(n=10000):
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records = [(f"User_{i:05d}", f"+7-999-{i:06d}") for i in range(n)]
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records_shuffled = records.copy()
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random.shuffle(records_shuffled)
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records_sorted = sorted(records, key=lambda x: x[0])
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return records_shuffled, records_sorted
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def run_experiment(structure_name, insert_func, find_func, delete_func,
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list_all_func, init_func, records, n_find=100):
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data = init_func()
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names = [r[0] for r in records]
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start = time.perf_counter()
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for name, phone in records:
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if structure_name == "HashTable":
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insert_func(data, name, phone)
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else:
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data = insert_func(data, name, phone)
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insert_time = time.perf_counter() - start
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find_names = random.sample(names, min(n_find, len(names)))
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missing_names = [f"None_{i}" for i in range(10)]
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all_find_names = find_names + missing_names
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start = time.perf_counter()
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for name in all_find_names:
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if structure_name == "HashTable":
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find_func(data, name)
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else:
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find_func(data, name)
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find_time = time.perf_counter() - start
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delete_names = random.sample(names, min(50, len(names)))
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start = time.perf_counter()
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for name in delete_names:
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if structure_name == "HashTable":
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delete_func(data, name)
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else:
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data = delete_func(data, name)
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delete_time = time.perf_counter() - start
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return insert_time, find_time, delete_time
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def main():
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print("Generating test data...")
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records_shuffled, records_sorted = generate_data(10000)
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results = []
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structures = [
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("LinkedList", ll_insert, ll_find, ll_delete, ll_list_all, lambda: None),
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("HashTable", ht_insert, ht_find, ht_delete, ht_list_all, lambda: ht_create_table(2000)),
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("BST", bst_insert, bst_find, bst_delete, bst_list_all, lambda: None)
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]
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for mode_name, records in [("random", records_shuffled), ("sorted", records_sorted)]:
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print(f"\nMode: {mode_name}")
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for struct_name, insert_f, find_f, delete_f, list_f, init_f in structures:
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print(f" Testing {struct_name}...")
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times = []
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for run in range(5):
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insert_t, find_t, delete_t = run_experiment(
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struct_name, insert_f, find_f, delete_f, list_f, init_f, records
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)
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times.append((insert_t, find_t, delete_t))
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print(f" Run {run+1}: insert={insert_t:.4f}s, find={find_t:.4f}s, delete={delete_t:.4f}s")
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avg_insert = sum(t[0] for t in times) / 5
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avg_find = sum(t[1] for t in times) / 5
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avg_delete = sum(t[2] for t in times) / 5
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results.append([struct_name, mode_name, "insert", avg_insert])
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results.append([struct_name, mode_name, "find", avg_find])
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results.append([struct_name, mode_name, "delete", avg_delete])
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with open("results.csv", "w", newline="", encoding="utf-8") as f:
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writer = csv.writer(f)
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writer.writerow(["Structure", "Mode", "Operation", "Time_seconds"])
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writer.writerows(results)
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print("\n" + "="*60)
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print("RESULTS (average over 5 runs):")
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print("="*60)
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for row in results:
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print(f"{row[0]:12} | {row[1]:8} | {row[2]:8} | {row[3]:.6f} sec")
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print("\nResults saved to results.csv")
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if __name__ == "__main__":
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main() |