Reversewigo solver ✓🐵 - solve reverse wherigo automatically on cache page. Solver code originated from Rick Rickhardson's reverse-wherigo source (public domain). Also, creates show source button for mystery cacahes.
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// ==UserScript== // @name Reversewigo solver ✓🐵 // @namespace http://tampermonkey.net/ // @version 0.12 // @description Reversewigo solver ✓🐵 - solve reverse wherigo automatically on cache page. Solver code originated from Rick Rickhardson's reverse-wherigo source (public domain). Also, creates show source button for mystery cacahes. // @author [email protected] // @grant GM_registerMenuCommand // @grant GM_getValue // @grant GM_setValue // @grant GM_setClipboard // @include https://www.geocaching.com/geocache/* // @require https://openuserjs.org/src/libs/sizzle/GM_config.js // ==/UserScript== /* jshint esversion: 8 */ // placeholder for calculated reverse wherigo coordinates // used by pollDOM to update them to popup dialog // TODO: definitely not the best practise but a quick hack that seems to work (for now) var newCoordinates = ""; GM_registerMenuCommand("Configure", () => { GM_config.open(); }, "C"); GM_config.init( { 'id': 'MyConfig', // The id used for this instance of GM_config 'title': 'Script Settings', // Panel Title 'fields': // Fields object { 'OutputDD': { 'label': 'Show dd (decimal degrees) format (60.12345 25.4321) coordinates in output', // Appears next to field 'type': 'checkbox', // Makes this setting a checkbox input 'default': false // Default value if user doesn't change it }, 'OutputCodes': { 'label': 'Show wherigo codes in output', // Appears next to field 'type': 'checkbox', // Makes this setting a checkbox input 'default': false // Default value if user doesn't change it }, 'OutputDistance': { 'label': 'Show distance to bogus in output', // Appears next to field 'type': 'checkbox', // Makes this setting a checkbox input 'default': false // Default value if user doesn't change it } } }); /* async */ function dd2dm(latdd, londd) { var lat = latdd; var lon = londd; var latResult, lonResult, dmsResult; lat = parseFloat(lat); lon = parseFloat(lon); latResult = /* await */ lat_dd2dm(lat); lonResult = /* await */ lon_dd2dm(lon); // Joining both variables and separate them with a space. dmsResult = latResult + ' ' + lonResult; // Return the resultant string return { result: dmsResult, lat: latResult, lon: lonResult }; } /* async */ function lat_dd2dm(val) { var valDeg, valMin, result; val = Number(val); result = (val >= 0)? 'N' : 'S'; result += " "; val = Math.abs(val); valDeg = Math.floor(val); if( valDeg < 10 ) { result += "0" + valDeg; } else { result += valDeg; } result += "\xB0"; result += " "; valMin = ((val - valDeg) * 60).toFixed(3); if( valMin < 10) { result += "0" + valMin; } else { result += valMin; } return result; } /* async */ function lon_dd2dm(val) { var valDeg, valMin, result; val = Number(val); result = (val >= 0)? 'E' : 'W'; result += " "; val = Math.abs(val); valDeg = Math.floor(val); if( valDeg < 10 ) { result += "00" + valDeg; } else if( valDeg < 100) { result += "0" + valDeg; } else { result += valDeg; } result += "\xB0"; result += " "; valMin = ((val - valDeg) * 60).toFixed(3); if( valMin < 10) { result += "0" + valMin; } else { result += valMin; } return result; } /* async */ function code2LatLon(varA, varB, varC) { let latSign, lonSign, lonValue, latValue; console.debug("Converting [" + varA + ", " + varB + ", " + varC + "] to LatLon" ); // 123456 => digit 1 (d1) = 6; digit 2 (d2) = 5; ... // syntax for varA => digit 1 var A = A1; digit 2 varA = A2; ... // A3 if ((varA % 1000 - varA % 100) / 100 == 1) { latSign = 1; lonSign = 1; } // A3 else if ((varA % 1000 - varA % 100) / 100 == 2) { latSign = -1; lonSign = 1; } // A3 else if ((varA % 1000 - varA % 100) / 100 == 3) { latSign = 1; lonSign = -1; } // A3 else if ((varA % 1000 - varA % 100) / 100 == 4) { latSign = -1; lonSign = -1; } //T41140 / Q1TQ01 / 14S4RS // A6 B3 B4 B6 C1 C2 C4 // TODO: how to iterate only these, not full range ?? // C (d5 + d2) eli C5 + C2 = parillinen if ( ((varC % 100000 - varC % 10000) / 10000 + (varC % 100 - varC % 10) / 10) % 2 === 0) { // A4 B2 B5 C3 A6 C2 A1 latValue = Number(((varA % 10000 - varA % 1000) / 1000 * 10 + (varB % 100 - varB % 10) / 10 + (varB % 100000 - varB % 10000) / 10000 * 0.1 + (varC % 1000 - varC % 100) / 100 * 0.01 + (varA % 1000000 - varA % 100000) / 100000 * 0.001 + (varC % 100 - varC % 10) / 10 * 1.0E-4 + varA % 10 * 1.0E-5)); // A5 C6 C1 B3 B6 A2 C5 B1 lonValue = Number(((varA % 100000 - varA % 10000) / 10000 * 100 + (varC % 1000000 - varC % 100000) / 100000 * 10 + varC % 10 + (varB % 1000 - varB % 100) / 100 * 0.1 + (varB % 1000000 - varB % 100000) / 100000 * 0.01 + (varA % 100 - varA % 10) / 10 * 0.001 + (varC % 100000 - varC % 10000) / 10000 * 1.0E-4 + varB % 10 * 1.0E-5)); } // C (d5 + d2) eli C5+C2= pariton else if ( ((varC % 100000 - varC % 10000) / 10000 + (varC % 100 - varC % 10) / 10) % 2 !== 0) { // B6 A1 A4 C6 C3 C2 A6 latValue = Number(((varB % 1000000 - varB % 100000) / 100000 * 10 + varA % 10 + (varA % 10000 - varA % 1000) / 1000 * 0.1 + (varC % 1000000 - varC % 100000) / 100000 * 0.01 + (varC % 1000 - varC % 100) / 100 * 0.001 + (varC % 100 - varC % 10) / 10 * 1.0E-4 + (varA % 1000000 - varA % 100000) / 100000 * 1.0E-5)); // B2 C1 A2 A5 B3 B1 C5 B5 lonValue = Number(((varB % 100 - varB % 10) / 10 * 100 + varC % 10 * 10 + (varA % 100 - varA % 10) / 10 + (varA % 100000 - varA % 10000) / 10000 * 0.1 + (varB % 1000 - varB % 100) / 100 * 0.01 + varB % 10 * 0.001 + (varC % 100000 - varC % 10000) / 10000 * 1.0E-4 + (varB % 100000 - varB % 10000) / 10000 * 1.0E-5)); } // B4 C4 = ALWAYS ignore latValue = latSign * latValue; lonValue = lonSign * lonValue; return { lat: latValue, lon: lonValue }; } function fix(v, left, right) { return (v < 0 ? '-' : ' ') + Math.abs(v).toFixed(right).padStart(left + right + 1, '0'); } function haversineDistance(lat1,lon1,lat2,lon2) { const R = 6371e3; // metres const φ1 = lat1 * Math.PI/180; // φ, λ in radians const φ2 = lat2 * Math.PI/180; const Δφ = (lat2-lat1) * Math.PI/180; const Δλ = (lon2-lon1) * Math.PI/180; const a = Math.sin(Δφ/2) * Math.sin(Δφ/2) + Math.cos(φ1) * Math.cos(φ2) * Math.sin(Δλ/2) * Math.sin(Δλ/2); const c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1-a)); const d = R * c; // in metres return d; } function dm2dd( nsew, deg, min ) { let sign; if( nsew == 'N' || nsew == 'E' ) { sign = 1; } else { sign = -1; } let numdeg = parseInt(deg); let nummin = parseFloat(min); let dd = sign * (numdeg + nummin/60); return dd; } function createShowSourceButton() { let mybutton = document.createElement("srcbutton"); mybutton.innerHTML = "View source"; mybutton.setAttribute("style", "-webkit-appearance: button;-moz-appearance: button;appearance: button; background-color: green; color: white; border: none; text-align: center; display: inline-block; padding: 3px 10px; border: 1px solid black; cursor: pointer;"); let noteref = document.getElementsByClassName("minorCacheDetails Clear")[0]; noteref.appendChild(mybutton); mybutton.addEventListener("click", function() { var desc1 = document.getElementById("ctl00_ContentBody_ShortDescription").innerHTML; var desc2 = document.getElementById("ctl00_ContentBody_LongDescription").innerHTML; alert( desc1 + desc2 ); }); } function createShowSolveREReverseButton() { // let mybutton = document.createElement("solvebutton"); let mybutton = document.createElement("a"); mybutton.innerHTML = "Solve Regexp"; mybutton.className = "mybtn"; //css mybutton.setAttribute("style", "-webkit-appearance: button;-moz-appearance: button;appearance: button; background-color: green; color: white; border: none; text-align: center; display: inline-block; padding: 3px 10px; border: 1px solid black; cursor: pointer;"); let noteref = document.getElementsByClassName("minorCacheDetails Clear")[0]; noteref.appendChild(mybutton); mybutton.addEventListener("click", function() { solveReverseRE(); }); /* mybutton.addEventListener("click", function() { $( function() { $( "#dialog" ).dialog({width: "auto"}) .next(".ui-widget-overlay") .css({ opacity: 1.0, filter: "Alpha(Opacity=100)", backgroundColor: "black" }); } ); solveReverseRE(); }); */ } function createDialog( ) { let mydialog = document.createElement("div"); mydialog.id = "dialog"; mydialog.title = "Results"; let resultmsg = document.createElement("p"); resultmsg.id = "resultmsg"; mydialog.appendChild(resultmsg); // let noteref = document.getElementsByClassName("minorCacheDetails Clear")[0]; let noteref = document.getElementById("ctl00_ContentBody_detailWidget"); noteref.appendChild(mydialog); } // TODO: definitely not the best practice, but works (for now) function pollDOM() { const newCrd = document.getElementById('newCoordinates'); if (newCrd != null) { // Do something with el newCrd.value = newCoordinates; let submitBtn = document.getElementsByClassName("btn-cc-parse")[0]; //ssubmitBtn.click(); } else { setTimeout(pollDOM, 300); // try again in 300 milliseconds } } function updateCoordinates( newCoords ) { let crd = document.getElementById("uxLatLonLink"); crd.click(); newCoordinates = newCoords; pollDOM(); console.debug("XX: " + newCoords); } // retrieve bogus coordinates in ddm // returns array [ lat side (N/S), lat deg, lat mindec, lon side (E/W), lon deg, lon mindec ]; function getBogusCoordsFromPage() { let coords = document.getElementById("uxLatLon").textContent.split(" "); if( coords.length != 6 ) { console.error("Error parsing coordinates"); return; } return coords; } // convert latitude longitude array [ lat side (N/S), lat deg, lat mindec, lon side (E/W), lon deg, lon mindec ] to dd // return { lat: latitude dd , lon: longitude dd } function latLonDmArr2dd( latLonDmArray ) { // convert bogus coordinates from deg-mindec to deg-dec let bogusLat = dm2dd( latLonDmArray[0], latLonDmArray[1], latLonDmArray[2] ); let bogusLon = dm2dd( latLonDmArray[3], latLonDmArray[4], latLonDmArray[5] ); return { lat : bogusLat, lon : bogusLon }; } // htmlsnip = html snippet in string // replace = boolean; true = replace existing html fully function addHTMLtoPage( htmlsnip, replace ) { let docEl = document.getElementsByClassName("Note Disclaimer")[0]; if( replace ) { docEl.innerHTML = htmlsnip; } else { docEl.innerHTML = docEl.innerHTML + htmlsnip; } } function onlyUnique(value, index, self) { return self.indexOf(value) === index; } function* makeRangeIterator(start = 0, end = 100, step = 1) { let iterationCount = 0; for (let i = start; i < end; i += step) { iterationCount++; yield i; } return iterationCount; } function* makeRangeIterator2(variables = 1, start = 0, end = 100, step = 1) { let iterationCount = 0; for (let i = start; i < end; i += step) { iterationCount++; yield i; } return iterationCount; } function testGenerator() { const it = makeRangeIterator(0, 9, 1); let result = it.next(); while (!result.done) { console.log(result.value); // 0 1 2 3 4 5 6 7 8 9 result = it.next(); } } // Works in Chrome devtools console function* codeGenerator ( codes, vars ) { // check if no variables left => return final codes console.debug("Vars.length = " + vars.length); if( vars == null || vars.length == 0 ) { console.debug("Yield" + JSON.stringify(codes)); yield codes; } else { // generate regexp to replace VAR => number let replRE = new RegExp("/"+vars[0]+"/g"); console.debug("RE " + JSON.stringify(replRE)); // for each var value [0,9] for(let i=0; i<10; i++ ) { let c = []; c[0] = codes[0].replace(vars[0], i.toString()); c[1] = codes[1].replace(vars[0], i.toString()); c[2] = codes[2].replace(vars[0], i.toString()); console.debug("/"+vars[0]+"/g -> " + JSON.stringify(c)); // recursively get the other variables processed yield* codeGenerator( c, vars.slice(1) ); } } } // replace char at position index for string with replacement String.prototype.replaceAt = function(index, replacement) { return this.substr(0, index) + replacement + this.substr(index + replacement.length); }; /* async */ function solveReverseRE() { console.debug("Attempting to parse codes from note."); let resultmsg = document.getElementsByClassName("Note Disclaimer")[0]; let codes = parseCodesFromNote(); if(codes.length != 3) { console.error("Error: >3 or <3 codes found:" + JSON.stringify(codes)); } // cleanse for(let i=0; i<3; i++) { codes[i] = codes[i].trim(); } console.debug("Parsed: " + JSON.stringify(codes)); // TODO: remove vars from non meaningful items : B4 C4 = ALWAYS ignore console.log("Emptying non-meaninful digits B4 C4"); codes[1] = codes[1].replaceAt( 6-4, "0"); //reset B4 codes[2] = codes[2].replaceAt( 6-4, "0"); //reset C4 console.debug("Cleansed: " + JSON.stringify(codes)); // calculate # of variables/unknowns per code let vars = []; for(let i=0; i<3; i++) { let matching = codes[i].match(/[A-Za-z]/g); if(matching != null) vars = vars.concat( matching ); } console.debug("Vars: " + JSON.stringify(vars)); let uniqVars = vars.filter(onlyUnique); console.log(uniqVars.length + " unique variables"); console.warn("Possible total combos: " + 10**uniqVars.length); let bogusLatLonArr = getBogusCoordsFromPage(); // convert bogus coordinates from deg-min-dec to deg-dec let bogusDD = latLonDmArr2dd(bogusLatLonArr); let bogusLat = bogusDD.lat; let bogusLon = bogusDD.lon; console.debug("Parsed coords: " + JSON.stringify(bogusLatLonArr)); console.debug("Converted coords: " + bogusLat + " " + bogusLon); console.debug("Iterating..."); console.log("code1,code2,code3,lat(dd),lon(dd),lat(gps),lon(gps),dist(m)"); let counter = 0; let codeGen = codeGenerator( codes, uniqVars ); let nextCode = codeGen.next(); console.debug(JSON.stringify(nextCode)); while (!nextCode.done) { // convert to dd let ddlatlon = code2LatLon( parseInt( nextCode.value[0] ), parseInt( nextCode.value[1] ) , parseInt( nextCode.value[2]) ); console.debug("Convertion results: " + JSON.stringify(ddlatlon)); if( ddlatlon.lat == NaN || ddlatlon.lon == NaN ) continue; else { let dist = haversineDistance( bogusLat, bogusLon, ddlatlon.lat, ddlatlon.lon ); if( dist < 3220 ) { counter = counter+1; let dmlatlon = /* await */ dd2dm( ddlatlon.lat, ddlatlon.lon); let result = nextCode.value[0] + "," + nextCode.value[1] + "," + nextCode.value[2] + "," + fix(ddlatlon.lat, 2, 6) + "," + fix(ddlatlon.lon, 3, 6) + "," + dmlatlon.lat + "," + dmlatlon.lon + "," + dist.toFixed(0) ; console.log(result); let result2 = ""; // if config output DD on, print also DD coords to output (makes it easier to deduce some variables) if( GM_config.get('OutputDD') ) { result2 = fix(ddlatlon.lat, 2, 6) + " " + fix(ddlatlon.lon, 3, 6) + " | "; } // default output result2 = result2 + dmlatlon.lat + " " + dmlatlon.lon; // if config option OutputCodes = true, output also calculated wigo codes if( GM_config.get('OutputCodes') ) { result2 = result2 + " [" + nextCode.value[0] + "," + nextCode.value[1] + "," + nextCode.value[2] + "]" ; } if( GM_config.get('OutputDistance') ) { result2 = result2 + " ⟼ " + dist.toFixed(0) + " m"; } resultmsg.innerText = resultmsg.innerText + "\n" + result2; } /* else { let dmlatlon = dd2dm( ddlatlon.lat, ddlatlon.lon); let result = nextCode.value[0] + "," + nextCode.value[1] + "," + nextCode.value[2] + "," + fix(ddlatlon.lat, 2, 6) + "," + fix(ddlatlon.lon, 3, 6) + "," + dmlatlon.lat + "," + dmlatlon.lon + "," + dist.toFixed(0) + "out of range" ; console.warn(result); } */ } nextCode = codeGen.next(); } console.log("Total hits in range: " + counter); } function addBogusDDToPage() { let bogusLatLonArr = getBogusCoordsFromPage(); // convert bogus coordinates from deg-min-dec to deg-dec let bogusDD = latLonDmArr2dd(bogusLatLonArr); let bogusLat = bogusDD.lat; let bogusLon = bogusDD.lon; console.debug("Parsed coords: " + JSON.stringify(bogusLatLonArr)); console.debug("Converted coords: " + bogusLat + " " + bogusLon); // add bogus dd coordinates on page addHTMLtoPage( "<strong> Bogus: " + bogusLat + " " + bogusLon + " </strong>", true ); /*let locnode = document.getElementById("ctl00_ContentBody_LocationSubPanel"); locnode.textContent = bogusLat + " " + bogusLon; locnode.appendChild( document.createElement("br")); */ } // takes wigo codes as strings (may consist not numbers (variables) e.g. 022345 042x21 924ab9) // returns resulting coordinate (DD) string function evalPartialReverseWigo(codeA, codeB, codeC) { // validate that these are numbers console.debug("Input: " + codeA + ", " + codeB + ", " + codeC); if( isNaN( codeC[6-5] ) == false && isNaN( codeC[6-2] ) == false ) { // C5 + C2 = parillinen if( (Number(codeC[6-5]) + Number(codeC[6-2])) % 2 === 0 ) { console.debug("parillinen"); // A4 B2 B5 C3 A6 C2 A1 let resLat = "" + codeA[6-4] + codeB[6-2] + "." + codeB[6-5] + codeC[6-3] + codeA[6-6] + codeC[6-2] + codeA[6-1]; // A5 C6 C1 B3 B6 A2 C5 B1 let resLon = "" + codeA[6-5] + codeC[6-6] + codeC[6-1] + "." + codeB[6-3] + codeB[6-6] + codeA[6-2] + codeC[6-5] + codeB[6-1]; console.debug(resLat + " " + resLon); return resLat + " " + resLon; } // C (d5 + d2) eli C5+C2= pariton else if ( (Number(codeC[6-5]) + Number(codeC[6-2])) %2 !== 0 ) { console.debug("pariton"); // B6 A1 A4 C6 C3 C2 A6 let resLat = "" + codeB[6-6] + codeA[6-1] + "." + codeA[6-4] + codeC[6-6] + codeC[6-3] + codeC[6-2] + codeA[6-6]; // B2 C1 A2 A5 B3 B1 C5 B5 let resLon = "" + codeB[6-2] + codeC[6-1] + codeA[6-2] + "." + codeA[6-5] + codeB[6-3] + codeB[6-1] + codeC[6-5] + codeB[6-5]; console.debug(resLat + " " + resLon); return resLat + " " + resLon; } } else { console.debug("parillinen tai pariton"); console.warn("Cannot deduce which equation to use - showing both results"); let resLat1 = "" + codeA[6-4] + codeB[6-2] + "." + codeB[6-5] + codeC[6-3] + codeA[6-6] + codeC[6-2] + codeA[6-1]; // A5 C6 C1 B3 B6 A2 C5 B1 let resLon1 = "" + codeA[6-5] + codeC[6-6] + codeC[6-1] + "." + codeB[6-3] + codeB[6-6] + codeA[6-2] + codeC[6-5] + codeB[6-1]; let resLat2 = "" + codeB[6-6] + codeA[6-1] + "." + codeA[6-4] + codeC[6-6] + codeC[6-3] + codeC[6-2] + codeA[6-6]; // B2 C1 A2 A5 B3 B1 C5 B5 let resLon2 = "" + codeB[6-2] + codeC[6-1] + codeA[6-2] + "." + codeA[6-5] + codeB[6-3] + codeB[6-1] + codeC[6-5] + codeB[6-5]; console.debug( resLat1 + " " + resLon1 + "\n OR \n" + resLat2 + " " + resLon2 ); return resLat1 + " " + resLon1 + " <br>OR<br> " + resLat2 + " " + resLon2; } // A3 B4 C4 = ALWAYS ignore } // parse reverse wherigo codes from note function parseCodesFromNote() { let re1 = /RWIGO:/g; let re2 = /[0-9A-Za-z]{6}/g; console.log("Trying to find codes from user note:"); let text = document.getElementById("viewCacheNote").innerText; if( text.match( re1 ) ) { console.debug("Match found (RWIGO:)"); let codes = text.match( re2 ); console.debug( JSON.stringify( codes ) ); return codes; } else { console.debug("No codes found from Personal Note"); return null; } } // parse codes from cache description function parseCodesFromDescription() { let re = /[0-9]{6}/g; let codes = document.getElementsByClassName("UserSuppliedContent")[1].innerText.match( re ); return codes; } (/* async */ function() { 'use strict'; let from, result; let cacheType = document.getElementsByClassName("cacheImage")[0].title; createShowSourceButton(); addBogusDDToPage(); if( cacheType == "Wherigo Cache" ) { createShowSolveREReverseButton(); createDialog(); let codes = parseCodesFromNote(); // Codes found from Personal Note if( codes !== null && codes.length >= 3 ) { console.debug("Match: " + codes[0] + "," + codes[1] + "," + codes[2] ); let reverseRes = evalPartialReverseWigo( codes[0], codes[1], codes[2] ); addHTMLtoPage("<br><strong>Codes with variables converted to coordinates: <br>"+reverseRes+"</strong>", false); // TODO: how to check if code 2 coords conversion is valid => only show if it is let ddlatlon = /* await */ code2LatLon( codes[0], codes[1], codes[2] ); let dmlatlon = /* await */ dd2dm( ddlatlon.lat, ddlatlon.lon); from = codes[0] + " " + codes[1] + " " + codes[2] + " => "; let resultDD = fix(ddlatlon.lat, 2, 6) + " " + fix(ddlatlon.lon, 3, 6); let resultDMD = dmlatlon.lat + " " + dmlatlon.lon; result = resultDMD; console.log( from + " " + resultDD + " = " + resultDMD ); addHTMLtoPage("<br><strong> Reversewigo final coordinates = " + result + " </strong>", false); if( result != "S NaN° NaN W NaN° NaN") updateCoordinates( resultDMD ); } // No codes in Personal Note - trying to retrieve directly from description else { console.log("Trying to find codes from UserSuppliedContent"); codes = parseCodesFromDescription(); if( codes !== null && (codes.length == 3 || codes.length == 6 || codes.length == 9) ) { console.debug("Parsed codes from UserSuppliedContent: " + JSON.stringify(codes) ); let reverseRes = evalPartialReverseWigo( codes[0], codes[1], codes[2] ); addHTMLtoPage("<br><strong>Reverse results = "+reverseRes+"</strong>", false); let ddlatlon = /* await */ code2LatLon( codes[0], codes[1], codes[2] ); let dmlatlon = /* await */ dd2dm( ddlatlon.lat, ddlatlon.lon); from = codes[0] + " " + codes[1] + " " + codes[2] + " => "; let resultDD = fix(ddlatlon.lat, 2, 6) + " " + fix(ddlatlon.lon, 3, 6); let resultDMD = dmlatlon.lat + " " + dmlatlon.lon; result = resultDMD; console.debug( from + " " + resultDD + " = " + resultDMD ); addHTMLtoPage("<br><strong> Reversewigo final coordinates = " + result + " </strong>", false); if( result != "S NaN° NaN W NaN° NaN") { GM_setClipboard( result, "text" ); updateCoordinates( resultDMD ); } } else { result = "Error: Reverse wherigo codes not found from description/note. <br>Enter codes to Personal Note as shown below, save and reload. <br>RWIGO:<br>123ABC<br>23D45G<br>423444"; console.log( result ); addHTMLtoPage("<br><strong>" + result + " </strong>", false); } } } })();
