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QUESTDB_website/content/dataset.html

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2019-09-28 15:23:25 +02:00
---
title: "Dataset"
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date: 2019-09-27 16:41
draft: false
---
<link rel="stylesheet" type="text/css" href="/css/modal.css" />
<link rel="stylesheet" type="text/css" href="/css/form.css" />
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<link rel="stylesheet" type="text/css" href="/css/table.css" />
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<link rel="stylesheet" type="text/css" href="/css/emoji.css" />
<script src="/js/data.js" type="text/javascript"></script>
<script src="/js/loadAllData.js" type="text/javascript"></script>
<script src="/js/getFullDataPath.js" type="text/javascript"></script>
<script src="/js/getTextFromFile.js" type="text/javascript"></script>
<script src="/js/trueTypeOf.js" type="text/javascript"></script>
<script src="/js/uniq.js"></script>
<script src="/js/processingIndicator.js"></script>
<script src="/js/noNan.js"></script>
<script src="/js/websiteFile.js"></script>
<script src="/js/PubliData.js"></script>
<script src="/js/nestedCheckbox.js"></script>
<script src="/js/selectSelectAll.js"></script>
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<script src="/js/numberRangeChange.js"></script>
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<script src="/js/DebugMode.js"></script>
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<script src="/js/numberUtils.js"></script>
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<script src="/js/indexDB.js"></script>
<script src="/js/ArrayExtensions.js"></script>
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<script src="/js/mhchemCE.js"></script>
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<link rel="stylesheet" href="/css/ChemDoodleWeb.css" type="text/css">
<script type="text/javascript" src="/js/ChemDoodleWeb.js"></script>
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<script src="/js/Geometry.js"></script>
<script src="/js/GeometriesLoader.js"></script>
<script src="/js/GeometryParseMetadataExtension.js"></script>
<script src="/js/tableToCSV.js"></script>
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<script>
function adjustSticky() {
const height = $("nav").height()
$("thead.sticky > tr > th ").css("top", height)
}
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window.onload = async () => {
window.browser = bowser.getParser(window.navigator.userAgent);
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$("input[type='checkbox']").trigger("change")
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$("input[type='number'].range").trigger("change")
adjustSticky();
$(window).resize(adjustSticky)
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var slist = $("#SelectList")
getAllSelect().each(function () {
$("<li/>").text($('label[for="' + $(this).attr('id') + '"]').text()).appendTo(slist)
})
$('[data-needbrowser],[data-neednotbrowser]').each(function () {
function test(key, value) {
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switch (key) {
case "Engine":
return value.some((v) => browser.isEngine(v))
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break;
case "Browser":
return value.some((v) => browser.isBrowser(v))
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case "Platform":
return value.some((v) => browser.isPlatform(v))
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case "OS":
return value.some((v) => browser.isOS(v))
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default:
return true
break;
}
}
const needdata = $(this).data("needbrowser")
const neednotdata = $(this).data("neednotbrowser")
const need = ((needdata == null) ? true : Object.entries(needdata).every(kv => test(kv[0], kv[1])))
const neednot = ((neednotdata == null) ? true : Object.entries(neednotdata).some(kv => !test(kv[0], kv[1])))
if (need && neednot) {
$(this).show()
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} else {
$(this).hide()
}
})
var cbextl = $("#cb_exTypeList")
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var extl = $("#exTypeList")
var vertkindtl = $("#exVertKindList")
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for (const [name, value] of VertExcitationKinds.All) {
$("<li/>").text(name).appendTo(vertkindtl)
}
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for (const [name, value] of excitationTypes.All) {
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var txt = value.description.string
if (value.description.isLaTeX) {
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txt = MathJaxUtils.getMathJaxString(txt)
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}
$("<li/>").text(txt).appendTo(extl)
var cbli = $("<li/>")
if (!DebugMode.Enabled && value == (1 << 31)) {
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cbli.hide()
}
$("<input/>", { type: "checkbox", id: "cb_" + name, name: name, value: Number(value) }).change(nestedCheckbox_change).appendTo(cbli);
$('<label />', { 'for': 'cb_' + name, text: txt }).appendTo(cbli);
cbextl.append(cbli);
}
await MathJax.typesetPromise();
delete (cbextl)
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delete (extl)
delete (vertkindtl)
window.publiCache = new Map()
await loadFiles()
}
async function loadFiles() {
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const db = await indexDB.loadAsync()
const data = await loadAllData()
processingIndicator.isActive = true
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window.defaultDats = []
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for (const sub of Object.values(data)) {
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for (const exSet of uniq(sub.map(d => d.set))) {
const subset = sub.filter(d => d.set.isSameSet(exSet))
for (mol of uniq(subset.map(d => d.molecule))) {
const submol = subset.filter(d => d.molecule === mol)
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const source = submol.find((d) => {
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if (db.sets.get(d.set.name)[d.set.index] === "10.1021/acs.jctc.8b01205") {
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return d.method.name === "CASPT2" && d.method.basis === "aug-cc-pVDZ"
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} else {
return d.method.isTBE
}
})
if (source !== undefined) {
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for (const dat of submol.filter((d) => d !== source)) {
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dat.CopyExcitationsTypeFrom(source)
}
}
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}
}
window.defaultDats = window.defaultDats.concat(sub)
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}
await indexDB.loadAsync()
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window.defaultDats = window.defaultDats.sort((datfA, datfB) => {
const exSetA = datfA.set
const exSetB = datfB.set
if (exSetA.isSameSet(exSetB)) {
return exSetA.index-exSetB.index
}
else {
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setNames = Array.from(window.indexDB.sets.keys())
return setNames.indexOf(exSetA.name)-setNames.indexOf(exSetB.name)
}
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})
processingIndicator.isActive = false
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await reloadGeoms()
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reloadCustomFiles()
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}
async function reloadGeoms(){
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processingIndicator.isActive = true
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window.geoms = await GeometriesLoader.loadForAsync(uniq(window.defaultDats.map(d=>{
return {
set:d.set.name,
molecule:d.molecule
}
})))
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processingIndicator.isActive = false
reloadSizeSelector()
}
function reloadSizeSelector() {
if (window.geoms && window.dats) {
const nHnums=window.geoms.map((g)=>{
return g.molecule.atoms.count((a)=>a.label!=="H")
})
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const nHmin = ss.min(nHnums)
const nMin=$("#nHmin")
nMin.attr("min",nHmin)
const nHmax = ss.max(nHnums)
const nMax=$("#nHmax")
nMax.attr("max",nHmax)
var init = nMin.attr("data-init")
if (typeof init !== undefined && init !== false) {
nMin.removeAttr("data-init")
nMin.val(nHmin)
updateNumberRange(nMin[0])
}
init = nMax.attr("data-init")
if (typeof init !== undefined && init !== false) {
nMin.removeAttr("data-init")
nMax.val(nHmax)
updateNumberRange(nMax[0])
}
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const mols = uniq(window.geoms.map(g=>g.parseMetadata().molecule))
const shownHunknow=window.dats.some((d)=>!mols.includes(d.molecule))
const nHUnknowDiv = $("#cb_nHUnknow").parent()
if (shownHunknow) {
nHUnknowDiv.show()
}
else{
nHUnknowDiv.hide()
}
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}
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}
async function reloadCustomFiles() {
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processingIndicator.isActive = true
window.customDats = []
window.dats = window.defaultDats
const kinds = new Map([["file_abs", VertExcitationKinds.Absorbtion], ["file_fluo", VertExcitationKinds.Fluorescence]])
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for (const el of $('#form_dat > fieldset > fieldset > div > input[type="file"')) {
if (kinds.has(el.name)) {
const kind=kinds.get(el.name)
for (const f of el.files) {
const dat = await VertDataFile.loadAsync(f, kind)
window.customDats.push(dat)
}
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}
}
for (const defdat of window.defaultDats) {
if (defdat.method.isTBE) {
for (const custdat of window.customDats) {
if (custdat.molecule===defdat.molecule) {
custdat.CopyExcitationsTypeFrom(defdat)
}
}
}
}
window.dats=window.defaultDats.concat(window.customDats)
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processingIndicator.isActive = false
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reloadSizeSelector()
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reloadSelect("sets")
refreshExportGeoms()
}
async function clearSelect(BeforeName = null) {
var selects = ((BeforeName == null) ? getAllSelect() : getAllSelectAfter(BeforeName, true))
selects.add($('#sel_ref'))
selects.each(function () {
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$(this).empty()
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})
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}
function getAllSelect() {
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return $('#form_dat > fieldset > fieldset > div > select')
}
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function getAllSelectAfter(Name, include = false) {
const selects = getAllSelect()
var index = selects.index($(`[name="${Name}"]`))
if (!include) {
index++
}
return selects.slice(index)
}
function getAllSelectBefore(Name, include = false) {
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const selects = getAllSelect()
var index = selects.index($(`[name="${Name}"]`))
if (include) {
index++
}
return selects.slice(0, index)
}
async function reloadNextSelect(e) {
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const afters = getAllSelectAfter(e.target.name)
const isLast = afters.length == 0
if (!isLast) {
await reloadSelect(afters.prop("name"))
}
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if (afters.prop("name") ==="molecule"){
selectSelectAll(afters.first())
}
}
function getAllVals(select) {
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return $(select).val()
}
async function reloadSelect(name) {
clearSelect(name)
var selects = getAllSelectBefore(name, true)
var currentselect = selects.last()
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selects = selects.slice(0, selects.length - 1)
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var AllValsCache = new Map()
selects.each(function() {
AllValsCache.set(this.name,getAllVals(this))
})
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var AAllValsCache = Array.from(AllValsCache)
var vals = uniq(window.dats.filter(d => {
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return AAllValsCache.every(([k,v]) => {
return v.indexOf(getSelectValue(d, k)) !== -1
})
}).map((d) => getSelectValue(d, name)))
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if (name!="sets") {
vals = vals.sort((a,b)=>{
a = textSelctor(a)
b = textSelctor(b)
if (a === b) {
return 0
}
else {
switch (name) {
case "method":
if (a.startsWith("TBE") && b.startsWith("TBE")) {
return (a === "TBE" ? -1 : 1)
}
else if(a.startsWith("TBE")) {
return -1
}
else if (b.startsWith("TBE")) {
return 1
}
else {
return a.localeCompare(b)
}
break;
case "basis":
if (a === "aug-cc-pVTZ") {
return -1
}
else if (b === "aug-cc-pVTZ") {
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return 1
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}
else {
return a.localeCompare(b)
}
case "sets":
return 0
default:
return a.localeCompare(b)
}
}
})
}
textSelctor = function (value) {
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switch (name) {
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case "sets":
if (value==="") {
return "Unnamed set"
}
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case "molecule":
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return mhchemCE.extract(value)
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break;
default:
return value.toString()
}
}
valueSelector = function (value) {
if (typeof value === 'object') {
return JSON.stringify(value)
}
else {
return value
}
}
for (const val of vals) {
if (val !== null) {
$("<option/>", {
value: valueSelector(val)
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}).text(textSelctor(val)).appendTo(currentselect)
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}
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}
}
function getSelectValue(data, name) {
switch (name) {
case "method":
return data.method.name
break;
case "basis":
return data.method.basis
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break;
case "sets":
return data.set.name
break;
default:
return data[name]
break;
}
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}
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async function reloadStat() {
processingIndicator.isActive = true
var stb = $("#stat_table > tbody")
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$("#graph_div").empty()
$(stb).empty()
var refstr = $("#sel_ref option:selected").val()
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var sdatdic = new Map()
for (const d of window.filtData) {
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const key = JSON.stringify(d.method)
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const SetName = d.set.name
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if (!(sdatdic.has(key))) {
sdatdic.set(key, new Map())
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}
const myT1s = T1ref.get(d.molecule)
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for (const exc of d.excitations) {
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var allowT1 = false
const T1Key = JSON.stringify((exc.initial, exc.final))
const T1range = filterParams.T1
if (T1range.min === 0 && T1range.max === 100) {
allowT1 = true
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} else if (myT1s.has(T1Key)) {
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const T1Val = myT1s.get(T1Key)
if (T1range.min <= T1Val && T1Val <= T1range.max) {
allowT1 = true
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}
}
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const key2 = JSON.stringify([d.molecule, exc.initial, exc.final, exc.VertExcitationKind])
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const keydic = sdatdic.get(key)
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if ((!exc.isUnsafe || window.filterParams.unsafe) && ((exc.type & window.filterParams.exType) !== 0) && ((exc.VertExcitationKind & window.filterParams.exVertKind) !== 0) && allowT1) {
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if (!(keydic.has(key2))) {
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keydic.set(key2, exc.value)
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}
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}
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}
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}
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var sdic = new Map()
for (const [key, sdat] of sdatdic) {
for (const [key2, exval] of sdat) {
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if (!(sdic.has(key))) {
sdic.set(key, [])
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}
sdic.get(key).push(exval - ((sdatdic.has(refstr)) ? sdatdic.get(refstr).get(key2) : NaN))
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}
}
sdic.delete(refstr)
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var graphdat = []
for (const [keystr, vals] of sdic) {
row = $("<tr/>")
key = JSON.parse(keystr)
Reflect.setPrototypeOf(key, method.prototype)
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th = $("<th/>", { scope: "column" })
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const meth = key
const span = $("<span/>",{"data-csvtext":meth.toString()}).text(meth.toString("\n").split('-').join('\u2011'))
th.clone().append(span).appendTo(row)
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const noNanVals = (vals.every((v) => Number.isNaN(v))) ? vals : (vals.filter((v) => !Number.isNaN(v)))
const avals = noNanVals.map(v => Math.abs(v))
th.clone().text(noNanVals.length).appendTo(row)
for (const val of [ss.min(noNanVals), ss.max(noNanVals), ss.mean(noNanVals), ss.mean(avals), ss.median(noNanVals), ss.median(avals), ss.rootMeanSquare(noNanVals), ss.variance(noNanVals), ss.standardDeviation(noNanVals)]) {
$("<td/>").text(noNanFixed(val, 2)).appendTo(row)
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}
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$(stb).append(row)
var box = {
x: noNanVals,
amean: ss.mean(avals).toFixed(3),
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name: `${key.toString()} MAE : ${ss.mean(avals).toPrecision(4)} eV` ,
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type: 'box',
boxmean: 'sd'
};
graphdat.push(box)
}
var layout = {
paper_bgcolor: 'rgba(0,0,0,0)',
plot_bgcolor: 'rgba(0,0,0,0)',
gap: 0,
legend: {
traceorder: 'reversed',
},
xaxis: {
title: {
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text: 'Error (eV)',
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}
},
bgcolor: '#E2E2E2',
bordercolor: '#FFFFFF',
borderwidth: 2,
// autosize: false,
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width: 1275,
height: 750,
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margin: {
l: 0,
r: 10,
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// b: 15,
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t: 20,
pad: 0,
},
}
Plotly.newPlot('graph_div', graphdat, layout);
processingIndicator.isActive = false
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}
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async function reloadContent() {
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window.filterParams = {
unsafe: $("#cb_unsafe").prop("checked"),
exType: Array.from(Array.from($("#cb_exTypeList>li>input[type=checkbox]:checked")).map(el => parseInt(el.value))).reduce((pv, cv) => pv + cv, 0),
exVertKind: Array.from(Array.from($("#cb_exVertKindList>li>input[type=checkbox]:checked")).map(el => parseInt(el.value))).reduce((pv, cv) => pv + cv, 0),
T1: {
min: parseFloat($("#T1min").val()),
max: parseFloat($("#T1max").val())
},
nHnum: {
min: parseInt($("#nHmin").val(),10),
max: parseInt($("#nHmax").val(),10),
allowUnknow:$("#cb_nHUnknow").is(':checked')
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}
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}
window.publiCache.clear()
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processingIndicator.isActive = true
window.filtData = window.dats
//Filter with select
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getAllSelect().each(function () {
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const prop = $(this).attr("name")
const values = getAllVals(this)
window.filtData = window.filtData.filter((d) => {
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if (typeof values == "undefined" || values == null) {
return false
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}
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return values.includes(getSelectValue(d, prop))
delete (val)
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})
})
// Filter with molSize
const allowednHSize=window.filterParams.nHnum
window.filtData=window.filtData.filter((d)=>{
const geom=window.geoms.find((g)=>{
const met=g.parseMetadata()
return met.molecule === d.molecule && JSON.stringify(met.method) === JSON.stringify(d.geometry)
})
if (geom) {
const size = geom.molecule.atoms.count(a=>a.label!=="H")
return (allowednHSize.min <= size && size <= allowednHSize.max)
}
else {
return allowednHSize.allowUnknow
}
})
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window.T1ref = new Map()
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var exSets = new uniq(window.filtData.map((d) => d.set))
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var mols = new Set(window.filtData.map((d) => d.molecule))
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for (const exSet of exSets) {
const DOI= await exSet.getDOIAsync()
if (DOI!=null) {
publiCache.set(DOI,await PubliData.loadAsync(DOI))
}
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const setName = exSet.name
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for (const mol of mols) {
window.T1ref.set(mol, new Map())
var TBESortdat = window.dats.filter((d)=> d.molecule === mol).sort((d1, d2) => {
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if (d1.method.isTBE && !d2.method.isTBE) {
return -1
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} else if (!d1.method.isTBE && d2.method.isTBE) {
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return 1
} else if (d1.method.isTBE && d2.method.isTBE) {
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if (d1.method.name === "TBE" && d2.method.name === "TBE(Full)") {
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return -1
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} else if (d1.method.name === "TBE(Full)" && d2.method.name === "TBE") {
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return 1
}
else {
return 0
}
}
})
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if (TBESortdat.length > 0 && TBESortdat[0].method.isTBE) {
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for (const exc of TBESortdat[0].excitations) {
window.T1ref.get(mol).set(JSON.stringify((exc.initial, exc.final)), exc.T1)
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}
}
}
}
$(sel_ref).empty()
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for (const me of uniq(window.filtData.map(d => d.method))) {
op = $("<option/>", {
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value: JSON.stringify(me)
}).text(me)
if (me.name.includes("TBE")) {
$(sel_ref).prepend(op)
}
else {
$(sel_ref).append(op)
}
}
$(sel_ref).prop("selectedIndex", 0);
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var data = $("#data")
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$(data).empty();
if (window.filtData.length > 0) {
var PreviousSetName = undefined
var CurrentsetName = undefined
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for (const exSet of exSets) {
paperdata = window.filtData.filter((d) => {
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return d.set.name === exSet.name && d.set.index === exSet.index
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})
var methods = uniq(paperdata.map(d => d.method))
const sortedMethods = methods.sort((a, b) => {
if (a.isTBE && !b.isTBE) {
return -1
}
else if (a.isTBE && b.isTBE) {
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if (a.basis !== "CBS" && b.basis === "CBS") {
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return -1
}
else {
return 1
}
}
else if (!a.isTBE && b.isTBE) {
return 1
}
else {
return 0
}
})
var div = $('<div/>').appendTo(data)
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CurrentsetName = exSet.name
if (PreviousSetName !== CurrentsetName) {
$("<h1/>").text(CurrentsetName).appendTo(div)
}
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var doi= await exSet.getDOIAsync()
if (publiCache.has(doi)) {
const publiDat = publiCache.get(doi)
$("<h2/>").append($("<a>",{href:publiDat.URL,target:"_blank"}).text(publiDat.title)).appendTo(div)
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}
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var table = $("<table/>").addClass("datatable").appendTo(div)
$(table).before($("#stat_table").prevAll("button:first").clone())
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var head = $("<tr/>")
$("<thead/>").addClass("sticky").append(head).appendTo(table)
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var tbody = $("<tbody/>").appendTo(table)
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var th = $("<th/>", { scope: "column" })
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head.append(["Molecule", "Transition"].map(x => th.clone().text(x)))
head.append(sortedMethods.map(x => {
const span = $("<span/>",{"data-csvtext":x.toString()}).text(x.toString("\n").split('-').join('\u2011'))
return th.clone().append(span)
}))
adjustSticky();
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datadic = new Map()
for (const dat of paperdata) {
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const setName = dat.set.name
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const key1 = dat.molecule;
const myT1s = T1ref.get(dat.molecule)
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if (!datadic.has(key1)) {
datadic.set(key1, new Map())
}
const key3 = JSON.stringify(dat.method)
for (const ex of dat.excitations) {
Reflect.setPrototypeOf(ex.type, excitationType.prototype)
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var allowT1 = false
const T1Key = JSON.stringify((ex.initial, ex.final))
const T1range = filterParams.T1
if (T1range.min === 0 && T1range.max === 100) {
allowT1 = true
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} else if (myT1s.has(T1Key)) {
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const T1Val = myT1s.get(T1Key)
if (T1range.min <= T1Val && T1Val <= T1range.max) {
allowT1 = true
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}
}
if (((window.filterParams.exType & ex.type) !== 0) && ((window.filterParams.exVertKind & ex.VertExcitationKind) !== 0) && allowT1) {
const key2 = JSON.stringify([ex.initial, ex.final, ex.type, ex.VertExcitationKind])
if (!datadic.get(key1).has(key2)) {
datadic.get(key1).set(key2, new Map())
}
datadic.get(key1).get(key2).set(key3, [ex.value, ex.isUnsafe])
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}
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}
}
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for (const [molecule, moldat] of datadic.entries()) {
var printmol = true;
for (const [jsonex, exdat] of moldat.entries()) {
const ex = JSON.parse(jsonex)
Reflect.setPrototypeOf(ex[0], state.prototype)
Reflect.setPrototypeOf(ex[1], state.prototype)
Reflect.setPrototypeOf(ex[2], excitationType.prototype)
Reflect.setPrototypeOf(ex[3], VertExcitationKind.prototype)
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var tr = $("<tr/>")
if (printmol) {
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$("<th/>", { scope: "row", rowspan: moldat.size }).text((mhchemCE.test(molecule) ? MathJaxUtils.getMathJaxString(molecule.toString()) : molecule)).appendTo(tr)
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printmol = false
}
var Vertkindtext = ""
if (ex[3].Value == VertExcitationKinds.Fluorescence.Value) {
Vertkindtext = String.raw`[\mathrm{F}]`
}
desctex = ""
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if (ex[2].description.string) {
desctex = "(" + ex[2].description.string + ")"
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}
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$("<th/>", { scope: "rowgroup" }).text(MathJaxUtils.getMathJaxString(String.raw`${ex[0].toLaTeX()} \rightarrow ${ex[1].toLaTeX()} ${Vertkindtext} ${desctex}`)).appendTo(tr)
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var entries = Array.from(exdat.entries())
for (const method of sortedMethods) {
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td = $("<td/>").addClass("NumberCell")
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kv = entries.find(x => {
return JSON.stringify(method) == x[0]
})
if (kv !== undefined) {
const [val, unsafe] = kv[1]
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if (unsafe) {
td.append($("<span/>", { title: "unsafe value", role: "img", "aria-label": "Warning", "data-csvtext":"(Unsafe)"}).addClass("emoji").text('⚠'))
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}
if (unsafe && !filterParams.unsafe) {
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td.append($("<s/>").append(val.toString()))
}
else {
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td.append(val.toString())
}
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}
tr.append(td)
}
tbody.append(tr)
}
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}
PreviousSetName = CurrentsetName
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}
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await MathJax.typesetPromise()
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}
await reloadRef()
}
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async function reloadRef() {
$(sel_ref).empty()
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for (const el of uniq(window.filtData.map(d => d.method))) {
op = $("<option/>", {
value: JSON.stringify(el)
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}).text(el)
if (el.name.includes("TBE")) {
$(sel_ref).prepend(op)
}
else {
$(sel_ref).append(op)
}
}
$(sel_ref).prop("selectedIndex", 0);
$(sel_ref).trigger("change")
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}
async function submitdat() {
if (!DebugMode.Enabled) {
window.onbeforeunload = () => { return ''; }
}
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await reloadContent();
}
function exportTableToCSV(table,title = null,allowTitleOverride = false) {
const tableCaption = $(table).find('caption').text()
if (tableCaption !== "" && (title === null || allowTitleOverride)) {
title = tableCaption
}
const csv = tableToCSV(table)
const blob = new Blob([csv],{type:"text/csv"})
saveAs(blob,`${title}.csv`)
}
function OnExportTable(event) {
const table=$(event.target).nextAll('table:first')
exportTableToCSV(table,"table")
}
function refreshExportGeoms() {
const vals=$("#mol_select").val()
const disable = vals === null || vals.length===0
$("#btn_export_geoms").prop("disabled",disable)
}
async function moleculeSelectionChanged(event) {
refreshExportGeoms()
await reloadNextSelect(event)
}
async function exportGeoms() {
const folderName = "molecules"
var mols = new Set($("#mol_select").val())
if (mols.size!==0) {
const zip = JSZip();
const root=zip.folder(folderName)
const geomDic=new Map()
for (const geom of window.geoms) {
const molecule =geom.parseMetadata().molecule
if (mols.has(molecule)) {
if (!geomDic.has(molecule)) {
geomDic.set(molecule,new Set())
}
geomDic.get(molecule).add(geom.toXYZ())
}
}
for (const [molecule,geometries] of geomDic) {
const xyz=Array.from(geometries).join("\n\n")
var blob=new Blob([xyz],{type: 'chemical/x-xyz'})
root.file(`${mhchemCE.extract(molecule).toLowerCase().replace(" ","_")}.xyz`,blob)
}
const zipFile = await zip.generateAsync({type: 'blob'})
saveAs(zipFile, `${folderName}.zip`)
}
}
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</script>
{{< getDataFilesName >}}
<noscript>
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<p style="background-color: red; color: white; font-size: 20; font-weight: bold;">
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<span role="img" aria-label="Warning" class="emoji"></span>
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<span>This website work only if JavaScript is enable. You must enable
JavaScript.
<a href="https://www.enable-javascript.com/" target="_blank">How to enable JavaScript ?</a></span>
</p>
</noscript>
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<p>
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This page allows you to compare multiple dataset and perform statistical analyses to evaluate the accuracy of a given method.
All fields marked with an asterisk (<span style="color: red;">*</span>) are mandatory).
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</p>
<form id="form_dat" action="javascript:submitdat()">
<fieldset class="main">
<fieldset>
<legend>Import custom files</legend>
<p>
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Import a custom file to compare its data to the reference dataset.
</p>
<div>
<label for="absFiles_input">Import custom absorption data files</label>
<input type="file" multiple onchange="reloadCustomFiles()" id="absFiles_input" name="file_abs"></input>
</div>
<div>
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<label for="fluoFiles_input">Import custom fluorescence data files</label>
<input type="file" multiple onchange="reloadCustomFiles()" id="fluoFiles_input" name="file_fluo"></input>
</div>
</fieldset>
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<br>
<fieldset class="table">
<legend>Data selection</legend>
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<p>Select parameters. You can use <button
disabled>Select all</button> to select all items <span hidden
data-needbrowser='{"Engine":["WebKit","Blink"],"Platform":["desktop"]}'> or the shortcut key <kbd
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data-needbrowser='{"OS":["MacOS"]}'>⌘</kbd><kbd
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data-neednotbrowser='{"OS":["MacOS"]}'>Ctrl</kbd>+<kbd>A</kbd></span>
</p>
<div style="display: inline-block;">
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<label for="DOI_select" class="required">Set</label>
<button class="selectButton" type="button" onclick="selectSelectAll_click(event)">Select all</button>
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<select multiple id="DOI_select" required name="sets" onchange="reloadNextSelect(event)"></select>
</div>
<div style="display:inline-block">
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<label for="mol_select" class="required">Molecule</label>
<button class="selectButton" type="button" onclick="selectSelectAll_click(event)">Select all</button>
<select multiple id="mol_select" required name="molecule" onchange="moleculeSelectionChanged(event)"></select>
<button id="btn_export_geoms" class="selectButton" type="button" disabled onclick="exportGeoms()">Export geometries</button>
</div>
<br />
<div style="display: inline-block;">
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<label for="method_select" class="required">Method</label>
<button class="selectButton" type="button" onclick="selectSelectAll_click(event)">Select all</button>
<select multiple id="method_select" required name="method" onchange="reloadNextSelect(event)"></select>
</div>
<div style="display: inline-block;">
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<label for="basis_select" class="required">Basis set</label>
<button class="selectButton" type="button" onclick="selectSelectAll_click(event)">Select all</button>
<select multiple id="basis_select" required name="basis" onchange="reloadNextSelect(event)"></select>
</div>
</fieldset>
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<br>
<fieldset>
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<legend class="required">Nature of vertical excitations</legend>
<p>Select the kind of vertical excitations you want to consider</p>
<ul class="nestedCbList" style="padding-left: 0em;">
<li>
<input type="checkbox" data-onerequired="true" checked onchange="nestedCheckbox_change(event)"
id="cb_fileType_All"></input>
<label for="cb_fileType_All"> All</label>
</li>
<ul class="nestedCbList" id="cb_exVertKindList">
<li>
<input type="checkbox" onchange="nestedCheckbox_change(event)" id="cb_abs" value="1" name="datatype">
<label for="cb_abs">Absorption</label>
</li>
<li>
<input type="checkbox" onchange="nestedCheckbox_change(event)" id="cb_fluo" value="2" name="datatype">
<label for="fluo">Fluorescence</label>
</li>
</ul>
</ul>
</fieldset>
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<br>
<fieldset id="excitationFilter">
<legend class="required">Filters</legend>
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<p>Select nature of the excited states and/or transitions</p>
<ul class="nestedCbList" style="padding-left: 0em;">
<li>
<input type="checkbox" data-onerequired="true" onchange="nestedCheckbox_change(event)"
id="cb_exType_All"></input>
<label for="cb_exType_All"> All</label>
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</li>
<ul id="cb_exTypeList" class="nestedCbList">
</ul>
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<p>Select if you want to include unsafe reference values in the statistics</p>
<li id="li_cb_unsafe">
<input type="checkbox" id="cb_unsafe" name="unsafe">
<label for="cb_unsafe">Unsafe</label>
</li>
</fieldset>
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<br>
<fieldset>
<legend>Molecule Size</legend>
<p>Select the molecule size (by the number of non H atoms)</p>
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<input class="range min" airia-label="Minimum value" data-init type="number" id="nHmin" onchange="numberRangeChange(event)">
<span>\(\leq \text{non-H atoms} \leq\)</span>
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<input class="range max" airia-label="Maximum value" data-init type="number" id="nHmax" onchange="numberRangeChange(event)">
<div hidden=true>
<input type="checkbox" id="cb_nHUnknow" name="nHUnknoww">
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<label for="cb_nHUnknow">Unknow size</label>
</div>
</fieldset>
<br>
<fieldset>
<legend>\(\mathrm{\%T_1}\)</legend>
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<p>Select the range of single-excitation percentage \(\mathrm{\%T_1}\) of the transitions </p>
<input class="range min" airia-label="Minimum value" type="number" id="T1min" onchange="numberRangeChange(event)"
min="0" value="0">
<span>\(\leq \mathrm{\%T_1} \leq\)</span>
<input class="range max" airia-label="Maximum value" type="number" id="T1max" onchange="numberRangeChange(event)"
max="100" value="100">
</fieldset>
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<br>
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</fieldset>
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<input type="submit" value="Load"></input>
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</form>
<form id="form_ref">
<fieldset class="main">
<fieldset>
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<legend>Reference data for statistical analyses</legend>
<p>Select a reference from <strong>already selected data</strong> (by default <abbr
title="Theoretical best estimate">TBE</abbr> if selected)</p>
<label for="sel_ref">Reference</label>
<select id="sel_ref" onchange="reloadStat()"></select>
</fieldset>
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<br>
</fieldset>
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</form>
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<p>List of selected data and their corresponding statistical analysis</p>
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<section id="data">
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</section>
<section>
<button onclick="OnExportTable(event)">Export as CSV</button>
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<table id="stat_table" class="datatable">
<thead class="sticky">
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<th scope="col">Method</th>
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<th scope="col">Count</th>
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<th scope="col">Min</th>
<th scope="col">Max</th>
<th scope="col"><abbr title="Mean signed error">MSE</abbr></th>
<th scope="col"><abbr title="Mean absolute error">MAE</abbr></th>
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<th scope="col">Median</th>
<th scope="col">Absolute Median</th>
<th scope="col"><abbr title="Root-mean square error ">RMSE</abbr></th>
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<th scope="col">Variance</th>
<th scope="col"><abbr title="Standard deviation of the errors">SDE</abbr></th>
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</thead>
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<tbody>
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</tbody>
</table>
<div id="graph_div"></div>
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</section>
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{{< waitModal >}}