Contenido del Curso
Optimization Techniques in Python
Optimization Techniques in Python
Using the collections Module
Although built-in data types and NumPy arrays handle most common tasks, the collections module offers specialized data structures designed for specific use cases. Among these, deque (double-ended queue) stands out for its significant performance benefits in certain scenarios.
Unlike lists, which require shifting elements when inserting or removing from the beginning, a deque allows efficient operations on both ends. Therefore, if you frequently need to add or remove elements from either end of a collection, a deque is a better choice.
Now, let's compare the performance of list and deque in a practical scenario:
import os os.system('wget https://codefinity-content-media-v2.s3.eu-west-1.amazonaws.com/courses/8d21890f-d960-4129-bc88-096e24211d53/section_1/chapter_3/decorators.py 2>/dev/null') from decorators import timeit_decorator from collections import deque numbers_list = list(range(1, 10000001)) numbers_deque = deque(numbers_list) @timeit_decorator(number=1000) def list_append_left(): # Insert -1 at the beginning numbers_list.insert(0, -1) @timeit_decorator(number=1000) def deque_append_left(): numbers_deque.appendleft(-1) @timeit_decorator(number=1000) def list_pop_left(): # Remove the element at index 0 (first element) numbers_list.pop(0) @timeit_decorator(number=1000) def deque_pop_left(): numbers_deque.popleft() list_append_left() deque_append_left() list_pop_left() deque_pop_left()
In this example, we've created a list and a deque, each containing 1000000 numbers from 1 to 1000000 inclusive. As shown, inserting and removing elements at the beginning is much faster in a deque than in a list and remains efficient regardless of the size.
When it comes to inserting or removing elements at the beginning, both list and deque can handle these tasks efficiently. Therefore, using a deque solely for this purpose often doesn’t provide a significant advantage.
import os os.system('wget https://codefinity-content-media-v2.s3.eu-west-1.amazonaws.com/courses/8d21890f-d960-4129-bc88-096e24211d53/section_1/chapter_3/decorators.py 2>/dev/null') from decorators import timeit_decorator from collections import deque numbers_list = list(range(1, 10000001)) numbers_deque = deque(numbers_list) @timeit_decorator(number=1000) def append_right(data_structure): data_structure.append(-1) @timeit_decorator(number=1000) def pop_right(data_structure): data_structure.pop() print('List performance:') append_right(numbers_list) pop_right(numbers_list) print('Dequeue performance:') append_right(numbers_deque) pop_right(numbers_deque)
The performance results are indeed similar for both data structures. However, appending to a list is slightly slower than appending to a deque because lists, implemented as dynamic arrays, occasionally need to resize by allocating a larger memory block and copying elements over. In contrast, deque's block-based structure avoids resizing, making appends consistently faster. This difference, however, becomes noticeable only with relatively large lists.
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