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mirror of https://github.com/LCPQ/QUESTDB_website.git synced 2024-12-25 13:53:48 +01:00

Add reference and recreate statistics

This commit is contained in:
Mickaël Véril 2019-10-01 14:37:26 +02:00
parent e44bb822fd
commit 9c6b97b902

View File

@ -9,8 +9,8 @@ draft: false
<script src="/scripts/getTextFromFile.js" type="text/javascript"></script>
<script src="/scripts/trueTypeOf.js" type="text/javascript"></script>
<script src="/scripts/uniq.js"></script>
<script src="/scripts/websiteFile.js"></script>
<script src="/scripts/noNan.js"></script>
<script src="/scripts/websiteFile.js"></script>
<script src="https://cdn.rawgit.com/larsgw/citation.js/archive/citation.js/citation-0.4.0-9.js"
type="text/javascript"></script>
<script src="https://cdn.plot.ly/plotly-latest.min.js"></script>
@ -18,7 +18,7 @@ draft: false
<script>
window.onload= async ()=>{
window.Cite = require('citation-js');
$('#form input[type=radio]').on('change', async function(event) {
$('#form_dat input[type=radio]').on('change', async function(event) {
var result = $(this).val();
var proms=[];
switch (result) {
@ -39,7 +39,7 @@ draft: false
})
}
function reloadSelect(){
$('#form > select').each(function(){
$('#form_dat > select').each(function(){
$(this).find('option[value!=""]').remove()
const vals=uniq(window.dats.map((d)=>{return d[$(this).attr("name")]}))
for (const val of vals){
@ -50,13 +50,78 @@ draft: false
}
})
}
async function reloadStat(){
var stb=document.getElementById("stat_table_b");
stb.innerHTML=''
const sel_ref=document.getElementById("sel_ref")
const refstr=((sel_ref.selectedIndex>=0) ? sel_ref.options[sel_ref.selectedIndex].value : null)
var sdatdic=new Map()
for (const d of window.filt) {
const key=JSON.stringify([d.code,d.method,d.DOI])
if(!(sdatdic.has(key)))
{
sdatdic.set(key,new Map())
}
for(const exc of d.excitations){
const key2=JSON.stringify([d.molecule,exc.initial,exc.final])
const keydic=sdatdic.get(key)
if(!(keydic.has(key2))){
keydic.set(key2,[])
}
keydic.get(key2).push(exc.value)
}
}
var sdic= new Map()
for(const [key,sdat] of sdatdic){
for(const [key2,exval] of sdat){
if(!(sdic.has(key))){
sdic.set(key,[])
}
sdic.get(key).push(exval-((sdatdic.has(refstr)) ? sdatdic.get(refstr).get(key2) : NaN))
}
}
for(const[keystr,vals] of sdic){
row=document.createElement("tr")
key=JSON.parse(keystr)
Reflect.setPrototypeOf(key[0], code.prototype)
Reflect.setPrototypeOf(key[1], method.prototype)
Reflect.setPrototypeOf(key[2], doi.prototype)
for(const el of key){
var td=document.createElement("td")
if(trueTypeOf(el)=="doi"){
var publipromise=window.Cite.async(el.string)
var lnkdoi=document.createElement("a")
lnkdoi.href=el.url
lnkdoi.target="_blank"
publi=await publipromise
lnkdoi.innerHTML=publi.format('citation', {
format: 'html',
lang: 'en-US'
})
td.appendChild(lnkdoi)
}
else{
td.innerText=el
}
row.appendChild(td)
}
const avals=vals.map(v=>Math.abs(v))
for(const val of [ss.min(vals),ss.max(vals),ss.mean(vals),ss.mean(avals),ss.median(vals),ss.median(avals),ss.rootMeanSquare(vals),ss.variance(vals),ss.standardDeviation(vals)]){
var td=document.createElement("td")
td.innerText=noNanPrecision(val,3)
row.appendChild(td)
}
stb.appendChild(row)
}
}
async function reloadContent(){
const LatexInline=['\\(','\\)']
var filt=window.dats
$('#form > select').each(function(){
window.filt=window.dats
$('#form_dat > select').each(function(){
const prop=$(this).attr("name")
const values=$(this).val()
filt=filt.filter((d)=>{
window.filt=window.filt.filter((d)=>{
if(typeof values=="undefined" || values==null){
return false
}
@ -64,14 +129,17 @@ draft: false
})
})
var dtb=document.getElementById("dat_table_b");
var stb=document.getElementById("stat_table_b");
dtb.innerHTML=''
stb.innerHTML=''
var sdic=new Map()
for (const d of filt) {
sel_ref=document.getElementById("sel_ref")
for (const d of window.filt) {
var row=document.createElement("tr")
var rowd=[]
var els=[d.molecule,d.comment,d.code,d.method,d.DOI]
var op=document.createElement("option")
var opObjVal=els.slice(2)
op.value=JSON.stringify(opObjVal)
op.innerText=opObjVal.join(" ")
sel_ref.appendChild(op)
for(const el of els){
td=document.createElement("td")
if(trueTypeOf(el)=="doi"){
@ -87,56 +155,17 @@ draft: false
td.appendChild(lnkdoi)
}
else{
td.innerText=el
td.innerText=el
}
row.appendChild(td)
}
dtb.appendChild(row)
row=[]
if(!(sdic.has(d.molecule)))
{
sdic.set(d.molecule,new Map())
}
var exdic=sdic.get(d.molecule)
for(const exc of d.excitations){
var key=JSON.stringify([exc.initial,exc.final])
if(!(exdic.has(key))){
exdic.set(key,[])
}
exdic.get(key).push(exc.value)
}
}
for(const [mol,exs] of sdic){
var defmol=true
for (const [exstr,values] of exs) {
var row=document.createElement("tr")
if(defmol){
var td=document.createElement("td")
td.innerText=mol
td.rowSpan=exs.leight
row.appendChild(td)
defmol=false
}
ex=JSON.parse(exstr).map(v=>{
return Object.setPrototypeOf(v,state.prototype)
})
var td=document.createElement("td")
td.innerText=String.raw`${LatexInline[0]} ${ex[0].toLaTeX()} \rightarrow ${ex[1].toLaTeX()}${LatexInline[1]}`
row.appendChild(td)
e=[ss.min(values),ss.max(values),ss.mean(values),ss.median(values),ss.variance(values),ss.standardDeviation(values),ss.medianAbsoluteDeviation(values)]
e.forEach(v =>{
td=document.createElement("td")
td.innerText=noNanPrecision(v,3);
row.appendChild(td)
})
stb.appendChild(row)
}
}
await MathJax.typesetPromise()
await reloadStat()
}
</script>
{{< getDataFilesName >}}
<form id="form" action="" method="post">
<form id="form_dat" action="" method="post">
<legend>Data type</legend>
<input type="radio" id="abs" value="abs" name="datatype">
<label for="abs">Absorption</label>
@ -154,6 +183,11 @@ draft: false
<label for="DOI_select">DOI</label>
<select multiple id="DOI_select" onchange="reloadContent()" name="DOI"></select>
</form>
<form id="form_ref">
<label for="sel_ref">Reference</label>
<select id="sel_ref" onchange="reloadStat()">
</select>
</form>
<br/>
<div id="data_div">
<table id="dat_table">
@ -171,15 +205,18 @@ draft: false
<div id="stat_div">
<table id="stat_table">
<thead>
<th>Molecule</th>
<th>Transition</th>
<th>Code</th>
<th>Method</th>
<th>Paper</th>
<th>Min</th>
<th>Max</th>
<th>Mean</th>
<th>Absolute Mean</th>
<th>Median</th>
<th>Absolute Median</th>
<th>RMS</th>
<th>Variance</th>
<th>Standard deviation</th>
<th>Median absolute deviation</th>
</thead>
<tbody id="stat_table_b">
</tbody>