start new:
tmux
start new with session name:
tmux new -s myname
Here are the simple steps needed to create a deployment from your local GIT repository to a server based on this in-depth tutorial.
You are developing in a working-copy on your local machine, lets say on the master branch. Most of the time, people would push code to a remote server like github.com or gitlab.com and pull or export it to a production server. Or you use a service like deepl.io to act upon a Web-Hook that's triggered that service.
Collection of License badges for your Project's README file.
This list includes the most common open source and open data licenses.
Easily copy and paste the code under the badges into your Markdown files.
Translations: (No guarantee that the translations are up-to-date)
/** This is in reference to @tploecat's blog http://tpolecat.github.io/2015/04/29/f-bounds.html | |
* where he compares F-bounded polymorphism and type classes for implementing "MyType". | |
* | |
* Curiously, the in my mind obvious solution is missing: Use abstract types. | |
* | |
* A lot of this material, including an argument against F-bounded for the use-case | |
* is discussed in: | |
* | |
* Kim B. Bruce, Martin Odersky, Philip Wadler: | |
* A Statically Safe Alternative to Virtual Types. ECOOP 1998: 523-549 |
/** | |
* Base contract that all upgradeable contracts should use. | |
* | |
* Contracts implementing this interface are all called using delegatecall from | |
* a dispatcher. As a result, the _sizes and _dest variables are shared with the | |
* dispatcher contract, which allows the called contract to update these at will. | |
* | |
* _sizes is a map of function signatures to return value sizes. Due to EVM | |
* limitations, these need to be populated by the target contract, so the | |
* dispatcher knows how many bytes of data to return from called functions. |
-server | |
-Xms2048m | |
-Xmx2048m | |
-XX:NewSize=512m | |
-XX:MaxNewSize=512m | |
-XX:PermSize=512m | |
-XX:MaxPermSize=512m | |
-XX:+UseParNewGC | |
-XX:ParallelGCThreads=4 | |
-XX:MaxTenuringThreshold=1 |
Generate the list yourself:
$ cd /Applications/Xcode.app/Contents/Developer/Platforms/iPhoneOS.platform/Developer/SDKs/iPhoneOS*.sdk/System/Library/Frameworks/UIKit.framework/Headers
$ grep UI_APPEARANCE_SELECTOR ./* | \
sed 's/NS_AVAILABLE_IOS(.*)//g' | \
sed 's/NS_DEPRECATED_IOS(.*)//g' | \
sed 's/API_AVAILABLE(.*)//g' | \
sed 's/API_UNAVAILABLE(.*)//g' | \
sed 's/UI_APPEARANCE_SELECTOR//g' | \
#!/bin/bash | |
# tunejack.sh uses the TuneIn public API (at opml.radiotime.com) to search for | |
# a radio station, print out its details and try to play it somehow. | |
if [ "$#" -eq 0 ]; then | |
echo "$0: search for a radio station using the TuneIn API" | |
echo "Usage: $0 PATTERN" | |
exit 1 | |
fi |
Here are 10 one-liners which show the power of scala programming, impress your friends and woo women; ok, maybe not. However, these one liners are a good set of examples using functional programming and scala syntax you may not be familiar with. I feel there is no better way to learn than to see real examples.
Updated: June 17, 2011 - I'm amazed at the popularity of this post, glad everyone enjoyed it and to see it duplicated across so many languages. I've included some of the suggestions to shorten up some of my scala examples. Some I intentionally left longer as a way for explaining / understanding what the functions were doing, not necessarily to produce the shortest possible code; so I'll include both.
The map
function takes each element in the list and applies it to the corresponding function. In this example, we take each element and multiply it by 2. This will return a list of equivalent size, compare to o