Shortcut | Description |
---|---|
Ctrl+Shift+P | command prompt |
Ctrl+Alt+P | switch project |
Ctrl+P | go to file |
Ctrl+G | go to line |
application: you-app-name-here | |
version: 1 | |
runtime: python | |
api_version: 1 | |
default_expiration: "30d" | |
handlers: | |
- url: /(.*\.(appcache|manifest)) | |
mime_type: text/cache-manifest |
Redis Keys Count by Group (namespace)
redis-cli KEYS "*" | awk -F: '{print $1'} | sort | uniq -c
Count WordPress transient
redis-cli KEYS "*" | grep ":transient:" | wc -l
type below:
brew update
brew install redis
To have launchd start redis now and restart at login:
brew services start redis
#!/usr/bin/env python | |
__author__ = "github.com/ruxi" | |
__license__ = "MIT" | |
import requests | |
import tqdm # progress bar | |
import os.path | |
def download_file(url, filename=False, verbose = False): | |
""" | |
Download file with progressbar | |
- Proposal: SE-XXXX
- Authors: Chris Lattner, Joe Groff
Modern Cocoa development involves a lot of asynchronous programming using closures and completion handlers, but these APIs are hard to use. This gets particularly problematic when many asynchronous operations are used, error handling is required, or control flow between asynchronous calls gets complicated. This proposal describes a language extension to make this a lot more natural and less error prone.
This paper introduces a first class Coroutine model to Swift. Functions can opt into to being async, allowing the programmer to compose complex logic involving asynchronous operations, leaving the compiler in charge of producing the necessary closures and state machines to implement that logic.
import time | |
from concurrent.futures import ThreadPoolExecutor | |
from functools import wraps | |
import requests | |
from tqdm import tqdm | |
def timeit(method): | |
@wraps(method) |