@GetMoeCats · Post #336 · 06/11/2023, 01:28 AM
ChatGPT 区域 和ISP、延迟多合一模块 作者:@keywos 需要搭配openai的规则及warp进行使用 https://raw.githubusercontent.com/getsomecat/keywos/main/module/NetIspmini.sgmodule #surge#module
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Source channel @olddriverGDstudy · Post #40 · Mar 17
秀哥语录: 开水烫鸡把,锻炼起来 123的兄弟,我给你们说个方法 蛮有效的,就是开水烫几把 你每天洗澡的时候,水温稍微调高一点点 比如平时40度,你就45 用淋浴头冲,冲龟头,每天冲个五分钟 正经点,靠,虽然开水烫几把名字不正经 但是真的有用 你快,是因为敏感,每天冲,可以降低敏感度 一边冲,一边两个指头按压捏,每天五分钟 养成习惯,慢慢就好了 到后期,你可以用毛巾,湿水 然后慢慢尝试那毛巾擦龟头,上下撸 什么时候毛巾擦龟头,你不抖了,就好了 慢慢来啊,过犹不及,慢慢锻炼,降低龟头敏感度 可以尝试下,多少有点用 另外就是心里调节了 不要老是想,不要在意长短 学会去享受,要自信,自我暗示,我是来爽的,不是来比赛的 心里 生理 双管齐下,从此告别123 #秀哥语录#语录
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@GetMoeCats · Post #336 · 06/11/2023, 01:28 AM
ChatGPT 区域 和ISP、延迟多合一模块 作者:@keywos 需要搭配openai的规则及warp进行使用 https://raw.githubusercontent.com/getsomecat/keywos/main/module/NetIspmini.sgmodule #surge#module
@djangoproject · Post #154 · 09/04/2016, 12:14 PM
https://docs.python.org/2/library/modulefinder.html This #module provides a #ModuleFinder class that can be used to determine the set of modules imported by a script. modulefinder.py can also be run as a script, giving the filename of a Python script as its argument, after which a report of the imported modules will be printed.
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@libreware · Post #1350 · 10/24/2024, 02:21 PM
New Android #PIF#module scam on telegram
@GetMoeCats · Post #420 · 09/21/2023, 04:42 AM
#surge#module#模块 通过ip-api.com的分流查询入口信息,建议搭配规则: domain-suffix ip-api.com,proxy 使用(proxy可以根据需要更改你自己的策略组/节点) 安装地址: https://raw.githubusercontent.com/Keywos/rule/main/script/netisp/netisp.sgmodule 作者:@keywos
@getmymango · Post #30 · 09/23/2023, 09:36 AM
#surge#module#模块 通过ip-api.com的分流查询入口信息,建议搭配规则: domain-suffix ip-api.com,proxy 使用(proxy可以根据需要更改你自己的策略组/节点) 安装地址: https://raw.githubusercontent.com/Keywos/rule/main/module/NetIspmini.sgmodule 作者:@keywos
@djangoproject · Post #451 · 09/27/2017, 07:33 PM
https://en.wikipedia.org/wiki/Single_responsibility_principle The #single_responsibility_principle is a computer programming principle that states that every #module or #class should have responsibility over a single part of the functionality provided by the software, and that responsibility should be entirely encapsulated by the class. All its services should be narrowly aligned with that responsibility. Robert C. Martin expresses the principle as, "A class should have only one reason to change."
@djangoproject · Post #118 · 08/08/2016, 11:44 AM
https://docs.python.org/3/library/multiprocessing.html multiprocessing is a package that supports spawning processes using an API similar to the threading module. The multiprocessing package offers both local and remote concurrency, effectively side-stepping the Global Interpreter Lock by using subprocesses instead of threads. Due to this, the multiprocessing module allows the programmer to fully leverage multiple processors on a given machine. It runs on both Unix and Windows. The #multiprocessing module also introduces #APIs which do not have analogs in the #threading#module. A prime example of this is the Pool object which offers a convenient means of parallelizing the execution of a function across multiple input values, distributing the input data across processes (data #parallelism). The following example demonstrates the common practice of defining such functions in a module so that child processes can successfully import that module. This basic example of data parallelism using Pool,
@GetMoeCats · Post #447 · 10/31/2023, 03:38 PM
#Surge#VPS#监控#模块#Module#面板#Panel#服务器#脚本 修改后端改为 https://github.com/lollipopkit/server_box_monitor/wiki/%E4%B8%BB%E9%A1%B5 文件见本消息评论区 实现对 VPS 的流量、运行时间,CPU 及内存的监控 Surge 面板,更简单易行 需要在 VPS 端进行部署方可使用。 原作者:@GetSomeNeko 由 @clydetime 根据需求进行修改,整点猫咪进行整理。 https://t.me/GetSomeCats/299
@djangoproject · Post #107 · 08/02/2016, 03:22 PM
https://github.com/python/asyncio The #asyncio#module provides infrastructure for writing #single-threaded concurrent code using #coroutines, #multiplexing#I/O access over sockets and other resources, running network clients and servers, and other related primitives. Here is a more detailed list of the package contents: a pluggable event loop with various system-specific implementations; transport and protocol abstractions (similar to those in Twisted); concrete support for TCP, UDP, SSL, subprocess pipes, delayed calls, and others (some may be system-dependent); a Future class that mimics the one in the concurrent.futures module, but adapted for use with the event loop; #coroutines and #tasks based on yield from (PEP 380), to help write concurrent code in a sequential fashion; cancellation support for Futures and coroutines; synchronization primitives for use between coroutines in a single thread, mimicking those in the #threading module; an interface for passing work off to a threadpool, for times when you absolutely, positively have to use a library that makes blocking I/O calls. Note: The implementation of asyncio was previously called "Tulip".