MediaWiki:GlycosphingolipidMassCalculator.js
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addOnloadHook(GlycosphingolipidMassCalculator_init); function GlycosphingolipidMassCalculator_init() { // recalculate document.getElementById("cs_average").onchange = function(){ calculateGlycosphingolipid(); } // setLactoneMax document.getElementById("cs_neuac").onchange = function(){ setLactoneMax(); } document.getElementById("cs_neugc").onchange = function(){ setLactoneMax(); } document.getElementById("cs_hexua").onchange = function(){ setLactoneMax(); } document.getElementById("cs_lactone").onchange = function(){ setLactoneMax(); } // setFattyAcidMax document.getElementById("cs_fa_carbonno").onchange = function(){ setFattyAcidMax(); } document.getElementById("cs_fa_unsaturation").onchange = function(){ setFattyAcidMax(); } document.getElementById("cs_fa_hydroxygroup").onchange = function(){ setFattyAcidMax(); } // setLongChainBases document.getElementById("cs_lcb_carbonno").onchange = function(){ setLongChainBasesMax("cs_lcb_carbonno", document.getElementById("cs_lcb_carbonno").min); } document.getElementById("cs_lcb_hydroxygroup").onchange = function(){ setLongChainBasesMax("cs_lcb_hydroxygroup", document.getElementById("cs_lcb_hydroxygroup").min); } // Polarity document.getElementById("cs_polarity").onchange = function(){ switchCharge(); } document.getElementById("cs_charge").onchange = function(){ checkCharge(); } // calculate button document.getElementById("calculate_glycosphingolipid_button").onclick = function(){ calculateGlycosphingolipid(); } } function setLactoneMax() { var neuac = getGlycosphingolipidNum("cs_neuac", 0, 0); var hexua = getGlycosphingolipidNum("cs_hexua", 0, 0); var neugc = getGlycosphingolipidNum("cs_neugc", 0, 0); var lactoneMax = neuac + hexua + neugc; var lactone = document.getElementById("cs_lactone"); lactone.max = lactoneMax; if(lactoneMax < lactone.value) lactone.value = lactoneMax; } function setFattyAcidMax() { var saturationDOM = document.getElementById("cs_fa_unsaturation"); var hydroxyDOM = document.getElementById("cs_fa_hydroxygroup"); var carbonno = getGlycosphingolipidNum("cs_fa_carbonno", 0, 0); if(carbonno < 3){ saturationDOM.max = 0; saturationDOM.value = '0'; } else { saturationDOM.max = carbonno-2; var saturation = getGlycosphingolipidNum("cs_fa_unsaturation", 0, 0); if(carbonno-2 < saturation) saturationDOM.value = carbonno-2; } if(carbonno < 2) hydroxyDOM.value = '0'; else { hydroxyDOM.max = carbonno-1; var hydroxy = getGlycosphingolipidNum("cs_fa_hydroxygroup", 0, 0); if(carbonno-1 < hydroxy) hydroxyDOM.value = carbonno-1; } } function setLongChainBasesMax(id, min) { getGlycosphingolipidNum(id, min, 0); } function switchCharge() { var display = document.getElementById("cs_polarity").selectedIndex == 0 ? 'none' : 'block'; document.getElementById("div_charge").style.cssText = 'display: ' + display; } function checkCharge() { var charge = Number(document.getElementById("cs_charge").value); if(charge == 0) charge = 1; else if(charge < 0) charge = -charge; document.getElementById("cs_charge").value = charge; } function getGlycosphingolipidNum(id, min, max) { var dom = document.getElementById(id); var num = dom.value; if(num == null || !isFinite(num)){ dom.value = 0; return 0; } if(max != 0 && max < num){ dom.value = max; return max; } if(num < min){ dom.value = min; return min; } return Number(num); } function checkFormulaNums(atom, count) { var str = ""; if(count > 0){ str = atom; if(count > 1) str += count; } return str; } function calculateGlycosphingolipid() { var hexose = getGlycosphingolipidNum("cs_hexose", 0, 0); var fucose = getGlycosphingolipidNum("cs_fucose", 0, 0); var hexua = getGlycosphingolipidNum("cs_hexua", 0, 0); var hexnac = getGlycosphingolipidNum("cs_hexnac", 0, 0); var neuac = getGlycosphingolipidNum("cs_neuac", 0, 0); var neugc = getGlycosphingolipidNum("cs_neugc", 0, 0); var methyl = getGlycosphingolipidNum("cs_methyl", -99, 0); var acetyl = getGlycosphingolipidNum("cs_acetyl", -99, 0); var nma = getGlycosphingolipidNum("cs_nmethylamide", 0, 0); var fac = getGlycosphingolipidNum("cs_fa_carbonno", 0, 0); var faus = getGlycosphingolipidNum("cs_fa_unsaturation", 0, fac-2 < 0 ? 0 : fac-2); var faoh = getGlycosphingolipidNum("cs_fa_hydroxygroup", 0, fac-1 < 0 ? 0 : fac-1); var lcbc = getGlycosphingolipidNum("cs_lcb_carbonno", 5, 0); var lcbus = getGlycosphingolipidNum("cs_lcb_unsaturation", 0, 0); var lcboh = getGlycosphingolipidNum("cs_lcb_hydroxygroup", 2, 0); var hpo3 = getGlycosphingolipidNum("cs_phosphate", 0, 0); var nh4 = getGlycosphingolipidNum("cs_nh4", 0, 0); var sod = getGlycosphingolipidNum("cs_na", 0, 0); var pot = getGlycosphingolipidNum("cs_k", 0, 0); var so3 = getGlycosphingolipidNum("cs_sulfate", 0, 0); var lactone = getGlycosphingolipidNum("cs_lactone", 0, neuac+neugc+hexua); var charge = getGlycosphingolipidNum("cs_charge", 0, 0); var pol = document.getElementById("cs_polarity").value; switch(pol){ case 'NON': pol = 0; break; case 'NEG': pol = -1; break; case 'POS': pol = 1; break; } // struct formula var formulaNums = []; formulaNums[0] = (hexose + fucose + hexua)*6 + hexnac*8 + (neuac + neugc)*11 + methyl + acetyl*2 + nma + fac + lcbc; // C formulaNums[1] = 2 + (hexose + fucose)*10 + hexnac*13 + (neuac + neugc)*17 + hexua*8 + hpo3 + (methyl + acetyl - lcbus)*2 + nma*3 + (lcbc*2+1) + nh4*3 - sod - pot + (pol * charge); // H if(fac != 0) formulaNums[1] = formulaNums[1] + (fac-1)*2 - faus*2; formulaNums[2] = 1 + (hexose + hexnac)*5 + fucose*4 + neuac*8 + neugc*9 + hexua*6 + (so3 + hpo3)*3 + acetyl - nma + (lcboh-1); // O if(fac != 0) formulaNums[2] = formulaNums[2] + 1 + faoh; formulaNums[3] = 1 + hexnac + neuac + neugc + nh4 + nma; // N formulaNums[4] = so3; // S formulaNums[5] = hpo3; // P formulaNums[6] = sod; // Na formulaNums[7] = pot; // K // formulaNums[8] = cal; // Ca formulaNums[1] = formulaNums[1] - lactone*2; formulaNums[2] = formulaNums[2] - lactone; var formula = 'C' + formulaNums[0]; formula += 'H' + formulaNums[1]; formula += 'N'; if(formulaNums[3] > 1) formula += formulaNums[3]; formula += checkFormulaNums('O', formulaNums[2]); formula += checkFormulaNums('P', formulaNums[5]); formula += checkFormulaNums('S', formulaNums[4]); // formula += checkFormulaNums('Ca', formulaNums[8]); formula += checkFormulaNums('K', formulaNums[7]); formula += checkFormulaNums('Na', formulaNums[6]); document.getElementById("cs_formula").value = formula; var EXACT = { "C": 12.0, "H": 1.0078250322, "Li": 7.01600344, "O": 15.994914620, "N": 14.003074004, "S": 31.972071174, "P": 30.973761998, "Na": 22.98976928, "K": 38.96370649, "Ca": 39.9625909 } var electron = 0.00054857990; // 質量計算 // var mass = calculateMassFromFormula(formula, document.getElementById("cs_average").value === 'true'); var mass = formulaNums[0] * EXACT["C"] + formulaNums[1] * EXACT["H"] + formulaNums[2] * EXACT["O"] + formulaNums[3] * EXACT["N"] + formulaNums[4] * EXACT["S"] + formulaNums[5] * EXACT["P"] + formulaNums[6] * EXACT["Na"] + formulaNums[7] * EXACT["K"]; var nominal = formulaNums[0]*12 +formulaNums[1] +formulaNums[2]*16 +formulaNums[3]*14 +formulaNums[4]*32 +formulaNums[5]*31 +formulaNums[6]*23 +formulaNums[7]*39; if(charge != 0 && pol != 0){ if(pol > 0) mass = mass / charge - electron; else if(pol < 0) mass = mass / charge + electron; nominal /= charge; } if(Math.floor(nominal) == nominal) nominal = nominal.toFixed(0); else nominal = nominal.toFixed(2); document.getElementById("cs_mass").value = mass.toFixed(6); document.getElementById("cs_nominalmass").value = nominal; }