- Header
- Brief description (should match package.json)
- Example (if applicable)
- Motivation (if applicable)
- API Documentation: This will likely vary considerably from library to library.
- Installation
[user] | |
name = ... | |
email = ... | |
[color] | |
ui = true | |
[color "branch"] | |
current = yellow reverse | |
local = yellow | |
remote = green | |
[color "diff"] |
[gokmen ~ gMac] [alageek]> jitsu deploy | |
info: Welcome to Nodejitsu | |
info: It worked if it ends with Nodejitsu ok | |
info: Executing command deploy | |
info: Authenticated as gokmen | |
info: Analyzing your application dependencies in app.js | |
warn: Local version appears to be old. | |
warn: Your package.json version will be incremented for you automatically. | |
warn: About to write /Users/gokmen/Repositories/github/alageek/alageek/package.json | |
data: |
/* | |
In a child process, each of the stdio streams may be set to | |
one of the following: | |
1. A new file descriptor in the child, dup2'ed to the parent and | |
exposed to JS as a Stream object. | |
2. A copy of a file descriptor from the parent, with no other | |
added magical stuff. | |
3. A black hole - no pipe created. |
From Fabrice Bellard, with minor name change (umulh
):
// return the high 32 bit part of the 64 bit addition of (hi0, lo0) and (hi1, lo1)
Math.iaddh(lo0, hi0, lo1, hi1)
// return the high 32 bit part of the 64 bit subtraction of (hi0, lo0) and (hi1, lo1)
Math.isubh(lo0, hi0, lo1, hi1)
// return the high 32 bit part of the signed 64 bit product of the 32 bit numbers a and b
#Magnetism is the best science #####by @katemonkeys for @indutny
Magnetism is by far (a) the coolest and (b) the most educational quantum mechanical phenomenon. It’s fabulous because it is both deep science and actual real-world applications you use every single day (computer hard drive, anyone?). Finally, it can be understood on a crazy range of length and timescales: ridiculous magnets in the National High Magnetic Field Lab that are so strong they implode on themselves, blocks that move themselves, single atoms with localized moments that have to be understood by extrapolating their single particle wave functions, whatever. I contend that learning about magnetism will give you an awesome window on the rest of QM.
Enjoy :)
##My absolute favorite books on the subject:
- Magnetic Materials by Nicola Spaldin Eminently readable but still
- Erice (very near Trapani) http://en.wikipedia.org/wiki/Erice
- Zingaro reserve http://www.riservazingaro.com/percorsi-eng.htm
- Segesta http://en.wikipedia.org/wiki/Segesta
- Selinunte http://en.wikipedia.org/wiki/Selinunte
- http://en.wikipedia.org/wiki/San_Vito_Lo_Capo
- Palermo (get a good guide! There are a lot of things to visit there)
- Cefalù http://en.wikipedia.org/wiki/Cefal%C3%B9
- Favignana Island http://en.wikipedia.org/wiki/Favignana (this island is in front of Trapani)
#/usr/bin/env bash | |
# Saves CI results to bench-$JOBID.txt | |
# output of compare.R to bench-$JOBID-results.txt | |
JOBID=$1 | |
wget https://ci.nodejs.org/job/benchmark-node-micro-benchmarks/$JOBID/consoleText -O bench-$JOBID.txt | |
grep 'improvement' -A 10000 bench-$JOBID.txt > bench-$JOBID-results.txt | |
head -n 1 bench-$JOBID-results.txt > bench-$JOBID-significant.txt | |
grep '*' bench-$JOBID-results.txt >> bench-$JOBID-significant.txt |