java -jar start.jar etc/jetty.xml etc/iprestriction.xml
The idea is to use mixin to isolate ip configurations without touching the main configuration file.
#Versions tested:
;(function ($, window) { | |
var intervals = {}; | |
var removeListener = function(selector) { | |
if (intervals[selector]) { | |
window.clearInterval(intervals[selector]); | |
intervals[selector] = null; | |
} |
var geo_usstates = { | |
"type": "FeatureCollection", | |
"features": [{ | |
"type": "Feature", | |
"id": "01", | |
"properties": { | |
"name": "AL" | |
}, | |
"geometry": { |
/** | |
* Earth and Scene | |
* | |
* @constructor | |
*/ | |
function EarthScene() { | |
//create scene | |
this.scene = new THREE.Scene(); | |
this.textureloader = new THREE.TextureLoader(); | |
this.renderer = new THREE.WebGLRenderer(); |
git clone https://github.com/NCBI-Hackathons/seqr.git | |
cd seqr/testdata | |
# to install and start a solr instance using the makefile located in seqr/testdata | |
make | |
# To install the server without starting it: | |
make install | |
# To stop a server started from make: |
npm install -S passport-ldapauth |
import org.apache.commons.io.FileUtils; | |
import org.apache.commons.io.filefilter.TrueFileFilter; | |
import org.apache.solr.client.solrj.embedded.EmbeddedSolrServer; | |
import org.apache.solr.client.solrj.response.QueryResponse; | |
import org.apache.solr.common.SolrDocument; | |
import org.apache.solr.common.SolrInputDocument; | |
import org.apache.solr.common.params.CommonParams; | |
import org.apache.solr.common.params.ModifiableSolrParams; | |
import org.apache.solr.common.params.SolrParams; | |
import org.apache.solr.core.CoreContainer; |
[ | |
{ | |
"key": 1, | |
"value": 4.47 | |
}, | |
{ | |
"key": 2, | |
"value": 8.42 | |
}, | |
{ |
/*Custom Radio Buttons and Checkboxes using Font Awesome*/ | |
input[type=radio], | |
input[type='checkbox'] { | |
display: none; | |
} | |
input[type=radio] + label { | |
display: block; | |
} | |
input[type='checkbox'] + label:before, |
This simple force-directed graph shows character co-occurence in Les Misérables. A physical simulation of charged particles and springs places related characters in closer proximity, while unrelated characters are farther apart. Layout algorithm inspired by Tim Dwyer and Thomas Jakobsen. Data based on character coappearence in Victor Hugo's Les Misérables, compiled by Donald Knuth.
Compare this display to a force layout with curved links, a force layout with fisheye distortion and a matrix diagram.