2026-rff_mp/tseremonnikovaaa/task 1/docs/data/main.py

import time
import random
import csv
import sys
import matplotlib.pyplot as plt
import numpy as np

sys.setrecursionlimit(20000)

REPEATS = 5
N = 10000
def ll_insert(head, name, phone):
    current = head
    prev = None
    while current is not None:
        if current['name'] == name:
            current['phone'] = phone
            return head
        prev = current
        current = current['next']
    new_node = {'name': name, 'phone': phone, 'next': None}
    if prev is None:
        return new_node
    else:
        prev['next'] = new_node
        return head

def ll_find(head, name):
    current = head
    while current is not None:
        if current['name'] == name:
            return current['phone']
        current = current['next']
    return None

def ll_delete(head, name):
    if head is None:
        return None
    if head['name'] == name:
        return head['next']
    current = head
    while current['next'] is not None:
        if current['next']['name'] == name:
            current['next'] = current['next']['next']
            return head
        current = current['next']
    return head

def ll_collect_all(head):
    records = []
    current = head
    while current is not None:
        records.append((current['name'], current['phone']))
        current = current['next']
    records.sort(key=lambda x: x[0])
    return records
def hash_function(name, size):
    total = 0
    for ch in name:
        total = (total * 31 + ord(ch)) % size
    return total

def ht_create(size=2000):
    return [None] * size

def ht_insert(buckets, name, phone):
    idx = hash_function(name, len(buckets))
    buckets[idx] = ll_insert(buckets[idx], name, phone)

def ht_find(buckets, name):
    idx = hash_function(name, len(buckets))
    return ll_find(buckets[idx], name)

def ht_delete(buckets, name):
    idx = hash_function(name, len(buckets))
    buckets[idx] = ll_delete(buckets[idx], name)

def ht_collect_all(buckets):
    all_records = []
    for bucket in buckets:
        current = bucket
        while current is not None:
            all_records.append((current['name'], current['phone']))
            current = current['next']
    all_records.sort(key=lambda x: x[0])
    return all_records
def bst_insert(root, name, phone):
    new_node = {'name': name, 'phone': phone, 'left': None, 'right': None}
    if root is None:
        return new_node
    current = root
    while True:
        if name < current['name']:
            if current['left'] is None:
                current['left'] = new_node
                break
            current = current['left']
        elif name > current['name']:
            if current['right'] is None:
                current['right'] = new_node
                break
            current = current['right']
        else:
            current['phone'] = phone
            break
    return root

def bst_find(root, name):
    current = root
    while current is not None:
        if name < current['name']:
            current = current['left']
        elif name > current['name']:
            current = current['right']
        else:
            return current['phone']
    return None

def bst_find_min(node):
    while node['left'] is not None:
        node = node['left']
    return node

def bst_delete(root, name):
    parent = None
    current = root
    while current is not None and current['name'] != name:
        parent = current
        if name < current['name']:
            current = current['left']
        else:
            current = current['right']
    if current is None:
        return root
    if current['left'] is None and current['right'] is None:
        if parent is None:
            return None
        if parent['left'] is current:
            parent['left'] = None
        else:
            parent['right'] = None
        return root
    if current['left'] is None:
        if parent is None:
            return current['right']
        if parent['left'] is current:
            parent['left'] = current['right']
        else:
            parent['right'] = current['right']
        return root
    if current['right'] is None:
        if parent is None:
            return current['left']
        if parent['left'] is current:
            parent['left'] = current['left']
        else:
            parent['right'] = current['left']
        return root
    succ_parent = current
    succ = current['right']
    while succ['left'] is not None:
        succ_parent = succ
        succ = succ['left']
    current['name'] = succ['name']
    current['phone'] = succ['phone']
    if succ_parent['left'] is succ:
        succ_parent['left'] = succ['right']
    else:
        succ_parent['right'] = succ['right']
    return root

def bst_inorder_collect(root, records=None):
    if records is None:
        records = []
    if root is not None:
        bst_inorder_collect(root['left'], records)
        records.append((root['name'], root['phone']))
        bst_inorder_collect(root['right'], records)
    return records
def generate_records(N=10000):
    records = []
    for i in range(N):
        name = f"User_{i:05d}"
        phone = f"+7-999-{random.randint(1000000, 9999999)}"
        records.append((name, phone))
    return records

def measure_insertion(struct_type, records):
    times = []
    for _ in range(REPEATS):
        if struct_type == 'll':
            head = None
            start = time.perf_counter()
            for name, phone in records:
                head = ll_insert(head, name, phone)
            end = time.perf_counter()
        elif struct_type == 'ht':
            buckets = ht_create(2000)
            start = time.perf_counter()
            for name, phone in records:
                ht_insert(buckets, name, phone)
            end = time.perf_counter()
        else:
            root = None
            start = time.perf_counter()
            for name, phone in records:
                root = bst_insert(root, name, phone)
            end = time.perf_counter()
        times.append(end - start)
    return times

def build_structure(struct_type, records):
    if struct_type == 'll':
        head = None
        for name, phone in records:
            head = ll_insert(head, name, phone)
        return head
    elif struct_type == 'ht':
        buckets = ht_create(2000)
        for name, phone in records:
            ht_insert(buckets, name, phone)
        return buckets
    else:
        root = None
        for name, phone in records:
            root = bst_insert(root, name, phone)
        return root

def measure_search(struct_type, structure, records):
    times = []
    N_records = len(records)
    for _ in range(REPEATS):
        indices = random.sample(range(N_records), 100)
        existing_names = [records[i][0] for i in indices]
        missing_names = [f"None_{i}" for i in range(10)]
        search_names = existing_names + missing_names
        random.shuffle(search_names)
        start = time.perf_counter()
        if struct_type == 'll':
            for name in search_names:
                ll_find(structure, name)
        elif struct_type == 'ht':
            for name in search_names:
                ht_find(structure, name)
        else:
            for name in search_names:
                bst_find(structure, name)
        times.append(time.perf_counter() - start)
    return times

def measure_deletion(struct_type, records):
    times = []
    N_records = len(records)
    for _ in range(REPEATS):
        indices = random.sample(range(N_records), 50)
        delete_names = [records[i][0] for i in indices]
        if struct_type == 'll':
            head = None
            for name, phone in records:
                head = ll_insert(head, name, phone)
            start = time.perf_counter()
            for name in delete_names:
                head = ll_delete(head, name)
            end = time.perf_counter()
        elif struct_type == 'ht':
            buckets = ht_create(2000)
            for name, phone in records:
                ht_insert(buckets, name, phone)
            start = time.perf_counter()
            for name in delete_names:
                ht_delete(buckets, name)
            end = time.perf_counter()
        else:
            root = None
            for name, phone in records:
                root = bst_insert(root, name, phone)
            start = time.perf_counter()
            for name in delete_names:
                root = bst_delete(root, name)
            end = time.perf_counter()
        times.append(end - start)
    return times
Связный список 2026-05-22 19:08:31 +00:00			`import time`
			`import random`
			`import csv`
			`import sys`
			`import matplotlib.pyplot as plt`
			`import numpy as np`

			`sys.setrecursionlimit(20000)`

			`REPEATS = 5`
			`N = 10000`
			`def ll_insert(head, name, phone):`
			`current = head`
			`prev = None`
			`while current is not None:`
			`if current['name'] == name:`
			`current['phone'] = phone`
			`return head`
			`prev = current`
			`current = current['next']`
			`new_node = {'name': name, 'phone': phone, 'next': None}`
			`if prev is None:`
			`return new_node`
			`else:`
			`prev['next'] = new_node`
			`return head`

			`def ll_find(head, name):`
			`current = head`
			`while current is not None:`
			`if current['name'] == name:`
			`return current['phone']`
			`current = current['next']`
			`return None`

			`def ll_delete(head, name):`
			`if head is None:`
			`return None`
			`if head['name'] == name:`
			`return head['next']`
			`current = head`
			`while current['next'] is not None:`
			`if current['next']['name'] == name:`
			`current['next'] = current['next']['next']`
			`return head`
			`current = current['next']`
			`return head`

			`def ll_collect_all(head):`
			`records = []`
			`current = head`
			`while current is not None:`
			`records.append((current['name'], current['phone']))`
			`current = current['next']`
			`records.sort(key=lambda x: x[0])`
			`return records`
Хеш-таблица 2026-05-22 19:59:13 +00:00			`def hash_function(name, size):`
			`total = 0`
			`for ch in name:`
			`total = (total * 31 + ord(ch)) % size`
			`return total`

			`def ht_create(size=2000):`
			`return [None] * size`

			`def ht_insert(buckets, name, phone):`
			`idx = hash_function(name, len(buckets))`
			`buckets[idx] = ll_insert(buckets[idx], name, phone)`

			`def ht_find(buckets, name):`
			`idx = hash_function(name, len(buckets))`
			`return ll_find(buckets[idx], name)`

			`def ht_delete(buckets, name):`
			`idx = hash_function(name, len(buckets))`
			`buckets[idx] = ll_delete(buckets[idx], name)`

			`def ht_collect_all(buckets):`
			`all_records = []`
			`for bucket in buckets:`
			`current = bucket`
			`while current is not None:`
			`all_records.append((current['name'], current['phone']))`
			`current = current['next']`
			`all_records.sort(key=lambda x: x[0])`
			`return all_records`
Двоичное дерево поиска 2026-05-22 20:00:35 +00:00			`def bst_insert(root, name, phone):`
			`new_node = {'name': name, 'phone': phone, 'left': None, 'right': None}`
			`if root is None:`
			`return new_node`
			`current = root`
			`while True:`
			`if name < current['name']:`
			`if current['left'] is None:`
			`current['left'] = new_node`
			`break`
			`current = current['left']`
			`elif name > current['name']:`
			`if current['right'] is None:`
			`current['right'] = new_node`
			`break`
			`current = current['right']`
			`else:`
			`current['phone'] = phone`
			`break`
			`return root`

			`def bst_find(root, name):`
			`current = root`
			`while current is not None:`
			`if name < current['name']:`
			`current = current['left']`
			`elif name > current['name']:`
			`current = current['right']`
			`else:`
			`return current['phone']`
			`return None`

			`def bst_find_min(node):`
			`while node['left'] is not None:`
			`node = node['left']`
			`return node`

			`def bst_delete(root, name):`
			`parent = None`
			`current = root`
			`while current is not None and current['name'] != name:`
			`parent = current`
			`if name < current['name']:`
			`current = current['left']`
			`else:`
			`current = current['right']`
			`if current is None:`
			`return root`
			`if current['left'] is None and current['right'] is None:`
			`if parent is None:`
			`return None`
			`if parent['left'] is current:`
			`parent['left'] = None`
			`else:`
			`parent['right'] = None`
			`return root`
			`if current['left'] is None:`
			`if parent is None:`
			`return current['right']`
			`if parent['left'] is current:`
			`parent['left'] = current['right']`
			`else:`
			`parent['right'] = current['right']`
			`return root`
			`if current['right'] is None:`
			`if parent is None:`
			`return current['left']`
			`if parent['left'] is current:`
			`parent['left'] = current['left']`
			`else:`
			`parent['right'] = current['left']`
			`return root`
			`succ_parent = current`
			`succ = current['right']`
			`while succ['left'] is not None:`
			`succ_parent = succ`
			`succ = succ['left']`
			`current['name'] = succ['name']`
			`current['phone'] = succ['phone']`
			`if succ_parent['left'] is succ:`
			`succ_parent['left'] = succ['right']`
			`else:`
			`succ_parent['right'] = succ['right']`
			`return root`

			`def bst_inorder_collect(root, records=None):`
			`if records is None:`
			`records = []`
			`if root is not None:`
			`bst_inorder_collect(root['left'], records)`
			`records.append((root['name'], root['phone']))`
			`bst_inorder_collect(root['right'], records)`
			`return records`
Генерация данных и функции замеров 2026-05-22 20:01:54 +00:00			`def generate_records(N=10000):`
			`records = []`
			`for i in range(N):`
			`name = f"User_{i:05d}"`
			`phone = f"+7-999-{random.randint(1000000, 9999999)}"`
			`records.append((name, phone))`
			`return records`

			`def measure_insertion(struct_type, records):`
			`times = []`
			`for _ in range(REPEATS):`
			`if struct_type == 'll':`
			`head = None`
			`start = time.perf_counter()`
			`for name, phone in records:`
			`head = ll_insert(head, name, phone)`
			`end = time.perf_counter()`
			`elif struct_type == 'ht':`
			`buckets = ht_create(2000)`
			`start = time.perf_counter()`
			`for name, phone in records:`
			`ht_insert(buckets, name, phone)`
			`end = time.perf_counter()`
			`else:`
			`root = None`
			`start = time.perf_counter()`
			`for name, phone in records:`
			`root = bst_insert(root, name, phone)`
			`end = time.perf_counter()`
			`times.append(end - start)`
			`return times`

			`def build_structure(struct_type, records):`
			`if struct_type == 'll':`
			`head = None`
			`for name, phone in records:`
			`head = ll_insert(head, name, phone)`
			`return head`
			`elif struct_type == 'ht':`
			`buckets = ht_create(2000)`
			`for name, phone in records:`
			`ht_insert(buckets, name, phone)`
			`return buckets`
			`else:`
			`root = None`
			`for name, phone in records:`
			`root = bst_insert(root, name, phone)`
			`return root`

			`def measure_search(struct_type, structure, records):`
			`times = []`
			`N_records = len(records)`
			`for _ in range(REPEATS):`
			`indices = random.sample(range(N_records), 100)`
			`existing_names = [records[i][0] for i in indices]`
			`missing_names = [f"None_{i}" for i in range(10)]`
			`search_names = existing_names + missing_names`
			`random.shuffle(search_names)`
			`start = time.perf_counter()`
			`if struct_type == 'll':`
			`for name in search_names:`
			`ll_find(structure, name)`
			`elif struct_type == 'ht':`
			`for name in search_names:`
			`ht_find(structure, name)`
			`else:`
			`for name in search_names:`
			`bst_find(structure, name)`
			`times.append(time.perf_counter() - start)`
			`return times`

			`def measure_deletion(struct_type, records):`
			`times = []`
			`N_records = len(records)`
			`for _ in range(REPEATS):`
			`indices = random.sample(range(N_records), 50)`
			`delete_names = [records[i][0] for i in indices]`
			`if struct_type == 'll':`
			`head = None`
			`for name, phone in records:`
			`head = ll_insert(head, name, phone)`
			`start = time.perf_counter()`
			`for name in delete_names:`
			`head = ll_delete(head, name)`
			`end = time.perf_counter()`
			`elif struct_type == 'ht':`
			`buckets = ht_create(2000)`
			`for name, phone in records:`
			`ht_insert(buckets, name, phone)`
			`start = time.perf_counter()`
			`for name in delete_names:`
			`ht_delete(buckets, name)`
			`end = time.perf_counter()`
			`else:`
			`root = None`
			`for name, phone in records:`
			`root = bst_insert(root, name, phone)`
			`start = time.perf_counter()`
			`for name in delete_names:`
			`root = bst_delete(root, name)`
			`end = time.perf_counter()`
			`times.append(end - start)`
			`return times`
Двоичное дерево поиска 2026-05-22 20:00:35 +00:00