Python asynchronous programming concepts
python Asynchronous Programming is a concurrent programming method. Unlike traditional synchronous programming, asynchronous programming allows the program to perform other tasks while waiting for external events to occur. , thereby making full use of the CPU and memory space, improving the performance and throughput of the program, especially suitable for network programming, file operations and GUI development and other fields.
asyncio library introduction
Python The built-in asyncio library is the foundation of Python asynchronous programming. It provides a series of tools and api## for asynchronous programming. #,include:
Event Loop: The event loop is the basis of asynchronous programming and is responsible for scheduling and executing coroutines. -
Coroutines: Coroutines are the basic unit of asynchronous programming, similar to functions in traditional programming, but can interrupt and resume execution. -
Tasks: Tasks are encapsulations of coroutines and can be executed in parallel. -
Futures: Result encapsulation of asynchronous operations, which can implement blocking or non-blocking waiting. -
Advantages of asynchronous programming
- High concurrency: Asynchronous programming can handle a large number of concurrent requests at the same time, making full use of CPU and memory resources to improve the throughput of the program.
- Low latency: Asynchronous programming avoids the blocking of I/O operations in traditional synchronous programming and significantly reduces program latency.
- Easy to expand: Asynchronous programming is easier to expand. Just add more coroutines or tasks to linearly improve the processing capabilities of the program.
Asynchronous programming application scenarios
- Network Programming: Asynchronous programming is ideal for network programming because it can handle a large number of concurrent connections while reducing latency.
- File operation: Asynchronous programming can read or write multiple files at the same time, improving the efficiency of file operations.
- GUI development: Asynchronous programming can realize the responsiveness of GUI programs and maintain the smoothness of the interface even when processing time-consuming operations.
Asynchronous Programming Example
import asyncio
async def main():
print("Hello")
await asyncio.sleep(1)
print("World")
asyncio.run(main())
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In this example, the main() function is a coroutine, using await asyncio.sleep(1) to wait for 1 second and then print "World". asyncio.run() starts and runs the coroutine, printing "Hello" and "World".
Notes on asynchronous programming
- Avoid blocking operations: Asynchronous programming should avoid using blocking operations, otherwise the coroutine may not be able to continue execution.
- Use coroutines: Asynchronous programming should use coroutines instead of traditional functions to achieve parallel execution.
- Use event loop: Asynchronous programming requires the use of event loop to schedule and execute coroutines.
Summarize
Python asynchronous programming can significantly improve the performance and throughput of the program, but it also requires developers to have a certain understanding of the principles and techniques of asynchronous programming. Through
learning and practice, developers can master the use of the asyncio library, thereby giving full play to the advantages of asynchronous programming and developing more efficient and responsive Python programs.
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