import * as colors from "./assets/colors.json" export class Utils { /** * In the 'deploy'-step, some code needs to be run by ts-node. * However, ts-node crashes when it sees 'document'. When running from console, we flag this and disable all code where document is needed. * This is a workaround and yet another hack */ public static runningFromConsole = typeof window === "undefined"; public static readonly assets_path = "./assets/svg/"; public static externalDownloadFunction: (url: string, headers?: any) => Promise; public static Special_visualizations_tagsToApplyHelpText = `These can either be a tag to add, such as \`amenity=fast_food\` or can use a substitution, e.g. \`addr:housenumber=$number\`. This new point will then have the tags \`amenity=fast_food\` and \`addr:housenumber\` with the value that was saved in \`number\` in the original feature. If a value to substitute is undefined, empty string will be used instead. This supports multiple values, e.g. \`ref=$source:geometry:type/$source:geometry:ref\` Remark that the syntax is slightly different then expected; it uses '$' to note a value to copy, followed by a name (matched with \`[a-zA-Z0-9_:]*\`). Sadly, delimiting with \`{}\` as these already mark the boundaries of the special rendering... Note that these values can be prepare with javascript in the theme by using a [calculatedTag](calculatedTags.md#calculating-tags-with-javascript) ` public static readonly imageExtensions = new Set(["jpg", "png", "svg", "jpeg", ".gif"]) public static readonly special_visualizations_importRequirementDocs = `#### Importing a dataset into OpenStreetMap: requirements If you want to import a dataset, make sure that: 1. The dataset to import has a suitable license 2. The community has been informed of the import 3. All other requirements of the [import guidelines](https://wiki.openstreetmap.org/wiki/Import/Guidelines) have been followed There are also some technicalities in your theme to keep in mind: 1. The new feature will be added and will flow through the program as any other new point as if it came from OSM. This means that there should be a layer which will match the new tags and which will display it. 2. The original feature from your geojson layer will gain the tag '_imported=yes'. This should be used to change the appearance or even to hide it (eg by changing the icon size to zero) 3. There should be a way for the theme to detect previously imported points, even after reloading. A reference number to the original dataset is an excellent way to do this 4. When importing ways, the theme creator is also responsible of avoiding overlapping ways. #### Disabled in unofficial themes The import button can be tested in an unofficial theme by adding \`test=true\` or \`backend=osm-test\` as [URL-paramter](URL_Parameters.md). The import button will show up then. If in testmode, you can read the changeset-XML directly in the web console. In the case that MapComplete is pointed to the testing grounds, the edit will be made on https://master.apis.dev.openstreetmap.org` private static knownKeys = ["addExtraTags", "and", "calculatedTags", "changesetmessage", "clustering", "color", "condition", "customCss", "dashArray", "defaultBackgroundId", "description", "descriptionTail", "doNotDownload", "enableAddNewPoints", "enableBackgroundLayerSelection", "enableGeolocation", "enableLayers", "enableMoreQuests", "enableSearch", "enableShareScreen", "enableUserBadge", "freeform", "hideFromOverview", "hideInAnswer", "icon", "iconOverlays", "iconSize", "id", "if", "ifnot", "isShown", "key", "language", "layers", "lockLocation", "maintainer", "mappings", "maxzoom", "maxZoom", "minNeededElements", "minzoom", "multiAnswer", "name", "or", "osmTags", "passAllFeatures", "presets", "question", "render", "roaming", "roamingRenderings", "rotation", "shortDescription", "socialImage", "source", "startLat", "startLon", "startZoom", "tagRenderings", "tags", "then", "title", "titleIcons", "type", "version", "wayHandling", "widenFactor", "width"] private static extraKeys = ["nl", "en", "fr", "de", "pt", "es", "name", "phone", "email", "amenity", "leisure", "highway", "building", "yes", "no", "true", "false"] private static injectedDownloads = {} private static _download_cache = new Map, timestamp: number }>() /** * Parses the arguments for special visualisations */ public static ParseVisArgs(specs: { name: string, defaultValue?: string }[], args: string[]): any { const parsed = {}; if (args.length > specs.length) { throw "To much arguments for special visualization: got " + args.join(",") + " but expected only " + args.length + " arguments" } for (let i = 0; i < specs.length; i++) { const spec = specs[i]; let arg = args[i]?.trim(); if (arg === undefined || arg === "") { arg = spec.defaultValue } parsed[spec.name] = arg } return parsed; } static EncodeXmlValue(str) { if (typeof str !== "string") { str = "" + str } return str.replace(/&/g, '&') .replace(//g, '>') .replace(/"/g, '"') .replace(/'/g, ''') } /** * Gives a clean float, or undefined if parsing fails * @param str */ static asFloat(str): number { if (str) { const i = parseFloat(str); if (isNaN(i)) { return undefined; } return i; } return undefined; } public static Upper(str: string) { return str.substr(0, 1).toUpperCase() + str.substr(1); } public static TwoDigits(i: number) { if (i < 10) { return "0" + i; } return "" + i; } /** * Converts a number to a string with one number after the comma * * Utils.Round(15) // => "15.0" * Utils.Round(1) // => "1.0" * Utils.Round(1.5) // => "1.5" * Utils.Round(0.5) // => "0.5" * Utils.Round(1.6) // => "1.6" * Utils.Round(-15) // => "-15.0" * Utils.Round(-1) // => "-1.0" * Utils.Round(-1.5) // => "-1.5" * Utils.Round(-0.5) // => "-0.5" * Utils.Round(-1.6) // => "-1.6" * Utils.Round(-1531.63543) // =>"-1531.6" */ public static Round(i: number): string { if (i < 0) { return "-" + Utils.Round(-i); } const j = "" + Math.floor(i * 10); if (j.length == 1) { return "0." + j; } return j.substr(0, j.length - 1) + "." + j.substr(j.length - 1, j.length); } public static Times(f: ((i: number) => string), count: number): string { let res = ""; for (let i = 0; i < count; i++) { res += f(i); } return res; } public static TimesT(count: number, f: ((i: number) => T)): T[] { let res: T[] = []; for (let i = 0; i < count; i++) { res.push(f(i)); } return res; } public static NoNull(array: T[]): T[] { return array?.filter(o => o !== undefined && o !== null) } public static Hist(array: string[]): Map { const hist = new Map(); for (const s of array) { hist.set(s, 1 + (hist.get(s) ?? 0)) } return hist; } public static NoEmpty(array: string[]): string[] { const ls: string[] = []; for (const t of array) { if (t === "") { continue; } ls.push(t); } return ls; } public static EllipsesAfter(str: string, l: number = 100) { if (str === undefined || str === null) { return undefined; } if (str.length <= l) { return str; } return str.substr(0, l - 3) + "..."; } public static FixedLength(str: string, l: number) { str = Utils.EllipsesAfter(str, l) while(str.length < l){ str = " "+str } return str; } public static Dedup(arr: string[]): string[] { if (arr === undefined) { return undefined; } const newArr = []; for (const string of arr) { if (newArr.indexOf(string) < 0) { newArr.push(string); } } return newArr; } public static Dupiclates(arr: string[]): string[] { if (arr === undefined) { return undefined; } const newArr = []; const seen = new Set(); for (const string of arr) { if (seen.has(string)) { newArr.push(string) } seen.add(string) } return newArr; } public static Identical(t1: T[], t2: T[], eq?: (t: T, t0: T) => boolean): boolean { if (t1.length !== t2.length) { return false } eq = (a, b) => a === b for (let i = 0; i < t1.length; i++) { if (!eq(t1[i], t2[i])) { return false } } return true; } public static MergeTags(a: any, b: any) { const t = {}; for (const k in a) { t[k] = a[k]; } for (const k in b) { t[k] = b[k]; } return t; } public static SplitFirst(a: string, sep: string): string[] { const index = a.indexOf(sep); if (index < 0) { return [a]; } return [a.substr(0, index), a.substr(index + sep.length)]; } /** * Given a piece of text, will replace any key occuring in 'tags' by the corresponding value * @param txt * @param tags * @param useLang * @constructor */ public static SubstituteKeys(txt: string | undefined, tags: any, useLang?: string): string | undefined { if (txt === undefined) { return undefined } const regex = /.*{([^}]*)}.*/ let match = txt.match(regex) while (match) { const key = match[1] let v = tags[key] if (v !== undefined) { if (v["toISOString"] != undefined) { // This is a date, probably the timestamp of the object // @ts-ignore const date: Date = el; v = date.toISOString() } if (useLang !== undefined && v?.translations !== undefined) { v = v.translations[useLang] ?? v.translations["*"] ?? (v.textFor !== undefined ? v.textFor(useLang) : v); } if (v.InnerConstructElement !== undefined) { console.warn("SubstituteKeys received a BaseUIElement to substitute in - this is probably a bug and will be downcast to a string\nThe key is", key, "\nThe value is", v) v = (v.InnerConstructElement())?.innerText } if (typeof v !== "string") { v = "" + v } v = v.replace(/\n/g, "
") } else { // v === undefined v = "" } txt = txt.replace("{" + key + "}", v) match = txt.match(regex) } return txt; } public static LoadCustomCss(location: string) { const head = document.getElementsByTagName('head')[0]; const link = document.createElement('link'); link.id = "customCss"; link.rel = 'stylesheet'; link.type = 'text/css'; link.href = location; link.media = 'all'; head.appendChild(link); console.log("Added custom css file ", location) } /** * Copies all key-value pairs of the source into the target. This will change the target * If the key starts with a '+', the values of the list will be appended to the target instead of overwritten * * const obj = {someValue: 42}; * const override = {someValue: null}; * Utils.Merge(override, obj); * obj.someValue // => null * * const obj = {someValue: 42}; * const override = {someValue: null}; * const returned = Utils.Merge(override, obj); * returned == obj // => true * * const source = { * abc: "def", * foo: "bar", * list0: ["overwritten"], * "list1+": ["appended"] * } * const target = { * "xyz": "omega", * "list0": ["should-be-gone"], * "list1": ["should-be-kept"], * "list2": ["should-be-untouched"] * } * const result = Utils.Merge(source, target) * result.abc // => "def" * result.foo // => "bar" * result.xyz // => "omega" * result.list0.length // => 1 * result.list0[0] // => "overwritten" * result.list1.length // => 2 * result.list1[0] // => "should-be-kept" * result.list1[1] // => "appended" * result.list2.length // => 1 * result.list2[0] // => "should-be-untouched" */ static Merge(source: S, target: T): (T & S) { if (target === null) { return source } for (const key in source) { if (!source.hasOwnProperty(key)) { continue } if (key.startsWith("=")) { const trimmedKey = key.substr(1); target[trimmedKey] = source[key] continue } if (key.startsWith("+") || key.endsWith("+")) { const trimmedKey = key.replace("+", ""); const sourceV = source[key]; const targetV = (target[trimmedKey] ?? []) let newList: any[]; if (key.startsWith("+")) { // @ts-ignore newList = sourceV.concat(targetV) } else { newList = targetV.concat(sourceV) } target[trimmedKey] = newList; continue; } const sourceV = source[key] // @ts-ignore const targetV = target[key] if (typeof sourceV === "object") { if (sourceV === null) { // @ts-ignore target[key] = null } else if (targetV === undefined) { // @ts-ignore target[key] = sourceV; } else { Utils.Merge(sourceV, targetV); } } else { // @ts-ignore target[key] = sourceV; } } // @ts-ignore return target; } /** * Walks the specified path into the object till the end. * * If a list is encountered, this is tranparently walked recursively on every object. * * The leaf objects are replaced in the object itself by the specified function */ public static WalkPath(path: string[], object: any, replaceLeaf: ((leaf: any, travelledPath: string[]) => any), travelledPath: string[] = []) { const head = path[0] if (path.length === 1) { // We have reached the leaf const leaf = object[head]; if (leaf !== undefined) { if (Array.isArray(leaf)) { object[head] = leaf.map(o => replaceLeaf(o, travelledPath)) } else { object[head] = replaceLeaf(leaf, travelledPath) } } return } const sub = object[head] if (sub === undefined) { return; } if (typeof sub !== "object") { return; } if (Array.isArray(sub)) { sub.forEach((el, i) => Utils.WalkPath(path.slice(1), el, replaceLeaf, [...travelledPath, head, "" + i])) return; } Utils.WalkPath(path.slice(1), sub, replaceLeaf, [...travelledPath, head]) } /** * Walks the specified path into the object till the end. * If a list is encountered, this is tranparently walked recursively on every object. * * The leaf objects are collected in the list */ public static CollectPath(path: string[], object: any, collectedList: { leaf: any, path: string[] }[] = [], travelledPath: string[] = []): { leaf: any, path: string[] }[] { if (object === undefined || object === null) { return collectedList; } const head = path[0] travelledPath = [...travelledPath, head] if (path.length === 1) { // We have reached the leaf const leaf = object[head]; if (leaf === undefined || leaf === null) { return collectedList } if (Array.isArray(leaf)) { for (let i = 0; i < (leaf).length; i++) { const l = (leaf)[i]; collectedList.push({leaf: l, path: [...travelledPath, "" + i]}) } } else { collectedList.push({leaf, path: travelledPath}) } return collectedList } const sub = object[head] if (sub === undefined || sub === null) { return collectedList; } if (Array.isArray(sub)) { sub.forEach((el, i) => Utils.CollectPath(path.slice(1), el, collectedList, [...travelledPath, "" + i])) return collectedList; } if (typeof sub !== "object") { return collectedList; } return Utils.CollectPath(path.slice(1), sub, collectedList, travelledPath) } /** * Apply a function on every leaf of the JSON; used to rewrite parts of the JSON */ static WalkJson(json: any, f: (v: number | string | boolean | undefined) => any, isLeaf: (object) => boolean = undefined) { if (json === undefined) { return f(undefined) } const jtp = typeof json if (isLeaf !== undefined) { if (jtp === "object") { if (isLeaf(json)) { return f(json) } } else { return json } } else if (jtp === "boolean" || jtp === "string" || jtp === "number") { return f(json) } if (Array.isArray(json)) { return json.map(sub => { return Utils.WalkJson(sub, f, isLeaf); }) } const cp = {...json} for (const key in json) { cp[key] = Utils.WalkJson(json[key], f, isLeaf) } return cp } /** * Walks an object recursively. Will hang on objects with loops */ static WalkObject(json: any, collect: (v: number | string | boolean | undefined, path: string[]) => any, isLeaf: (object) => boolean = undefined, path = []) { if (json === undefined) { return; } const jtp = typeof json if (isLeaf !== undefined) { if (jtp !== "object") { return } if (isLeaf(json)) { return collect(json, path) } } else if (jtp === "boolean" || jtp === "string" || jtp === "number") { return collect(json,path) } if (Array.isArray(json)) { return json.map((sub,i) => { return Utils.WalkObject(sub, collect, isLeaf,[...path, i]); }) } for (const key in json) { Utils.WalkObject(json[key], collect, isLeaf, [...path,key]) } } static getOrSetDefault(dict: Map, k: K, v: () => V) { let found = dict.get(k); if (found !== undefined) { return found; } dict.set(k, v()); return dict.get(k); } /** * Tries to minify the given JSON by applying some compression */ public static MinifyJSON(stringified: string): string { stringified = stringified.replace(/\|/g, "||"); const keys = Utils.knownKeys.concat(Utils.extraKeys); for (let i = 0; i < keys.length; i++) { const knownKey = keys[i]; let code = i; if (i >= 124) { code += 1; // Character 127 is our 'escape' character | } let replacement = "|" + String.fromCharCode(code) stringified = stringified.replace(new RegExp(`\"${knownKey}\":`, "g"), replacement); } return stringified; } public static UnMinify(minified: string): string { if (minified === undefined || minified === null) { return undefined; } const parts = minified.split("|"); let result = parts.shift(); const keys = Utils.knownKeys.concat(Utils.extraKeys); for (const part of parts) { if (part == "") { // Empty string => this was a || originally result += "|" continue } const i = part.charCodeAt(0); result += "\"" + keys[i] + "\":" + part.substring(1) } return result; } public static injectJsonDownloadForTests(url: string, data) { Utils.injectedDownloads[url] = data } public static download(url: string, headers?: any): Promise { if (this.externalDownloadFunction !== undefined) { return this.externalDownloadFunction(url, headers) } return new Promise((resolve, reject) => { const xhr = new XMLHttpRequest(); xhr.onload = () => { if (xhr.status == 200) { resolve(xhr.response) } else if (xhr.status === 509 || xhr.status === 429) { reject("rate limited") } else { reject(xhr.statusText) } }; xhr.open('GET', url); if (headers !== undefined) { for (const key in headers) { xhr.setRequestHeader(key, headers[key]) } } xhr.send(); xhr.onerror = reject } ) } public static upload(url: string, data, headers?: any): Promise { return new Promise((resolve, reject) => { const xhr = new XMLHttpRequest(); xhr.onload = () => { if (xhr.status == 200) { resolve(xhr.response) } else if (xhr.status === 509 || xhr.status === 429) { reject("rate limited") } else { reject(xhr.statusText) } }; xhr.open('POST', url); if (headers !== undefined) { for (const key in headers) { xhr.setRequestHeader(key, headers[key]) } } xhr.send(data); xhr.onerror = reject } ) } public static async downloadJsonCached(url: string, maxCacheTimeMs: number, headers?: any): Promise { const cached = Utils._download_cache.get(url) if (cached !== undefined) { if ((new Date().getTime() - cached.timestamp) <= maxCacheTimeMs) { return cached.promise } } const promise = /*NO AWAIT as we work with the promise directly */Utils.downloadJson(url, headers) Utils._download_cache.set(url, {promise, timestamp: new Date().getTime()}) return await promise } public static async downloadJson(url: string, headers?: any): Promise { const injected = Utils.injectedDownloads[url] if (injected !== undefined) { console.log("Using injected resource for test for URL", url) return new Promise((resolve, _) => resolve(injected)) } const data = await Utils.download(url, Utils.Merge({"accept": "application/json"}, headers ?? {})) try { if (typeof data === "string") { return JSON.parse(data) } return data } catch (e) { console.error("Could not parse ", data, "due to", e, "\n", e.stack) throw e; } } /** * Triggers a 'download file' popup which will download the contents */ public static offerContentsAsDownloadableFile(contents: string | Blob, fileName: string = "download.txt", options?: { mimetype: string | "text/plain" | "text/csv" | "application/vnd.geo+json" | "{gpx=application/gpx+xml}" }) { const element = document.createElement("a"); let file; if (typeof (contents) === "string") { file = new Blob([contents], {type: options?.mimetype ?? 'text/plain'}); } else { file = contents; } element.href = URL.createObjectURL(file); element.download = fileName; document.body.appendChild(element); // Required for this to work in FireFox element.click(); } public static ColourNameToHex(color: string): string { return colors[color.toLowerCase()] ?? color; } public static HexToColourName(hex: string): string { hex = hex.toLowerCase() if (!hex.startsWith("#")) { return hex; } const c = Utils.color(hex); let smallestDiff = Number.MAX_VALUE; let bestColor = undefined; for (const color in colors) { if (!colors.hasOwnProperty(color)) { continue; } const foundhex = colors[color]; if (typeof foundhex !== "string") { continue } if (foundhex === hex) { return color } const diff = this.colorDiff(Utils.color(foundhex), c) if (diff > 50) { continue; } if (diff < smallestDiff) { smallestDiff = diff; bestColor = color; } } return bestColor ?? hex; } /** * Reorders an object: creates a new object where the keys have been added alphabetically * * const sorted = Utils.sortKeys({ x: 'x', abc: {'x': 'x', 'a': 'a'}, def: 'def'}) * JSON.stringify(sorted) // => '{"abc":{"a":"a","x":"x"},"def":"def","x":"x"}' */ static sortKeys(o: any) { const copy = {} let keys = Object.keys(o) keys = keys.sort() for (const key of keys) { let v = o[key] if (typeof v === "object") { v = Utils.sortKeys(v) } copy[key] = v } return copy } public static async waitFor(timeMillis: number): Promise { return new Promise((resolve) => { window.setTimeout(resolve, timeMillis); }) } public static toHumanTime(seconds): string { seconds = Math.floor(seconds) let minutes = Math.floor(seconds / 60) seconds = seconds % 60 let hours = Math.floor(minutes / 60) minutes = minutes % 60 let days = Math.floor(hours / 24) hours = hours % 24 if (days > 0) { return days + "days" + " " + hours + "h" } return hours + ":" + Utils.TwoDigits(minutes) + ":" + Utils.TwoDigits(seconds) } public static DisableLongPresses() { // Remove all context event listeners on mobile to prevent long presses window.addEventListener('contextmenu', (e) => { // Not compatible with IE < 9 if (e.target["nodeName"] === "INPUT") { return; } e.preventDefault(); return false; }, false); } public static OsmChaLinkFor(daysInThePast, theme = undefined): string { const now = new Date() const lastWeek = new Date(now.getTime() - daysInThePast * 24 * 60 * 60 * 1000) const date = lastWeek.getFullYear() + "-" + Utils.TwoDigits(lastWeek.getMonth() + 1) + "-" + Utils.TwoDigits(lastWeek.getDate()) let osmcha_link = `"date__gte":[{"label":"${date}","value":"${date}"}],"editor":[{"label":"mapcomplete","value":"mapcomplete"}]` if (theme !== undefined) { osmcha_link = osmcha_link + "," + `"comment":[{"label":"#${theme}","value":"#${theme}"}]` } return "https://osmcha.org/?filters=" + encodeURIComponent("{" + osmcha_link + "}") } /** * Deepclone an object by serializing and deserializing it * @param x * @constructor */ static Clone(x: T): T { if (x === undefined) { return undefined; } return JSON.parse(JSON.stringify(x)); } public static ParseDate(str: string): Date { if (str.endsWith(" UTC")) { str = str.replace(" UTC", "+00") } return new Date(str) } public static sortedByLevenshteinDistance(reference: string, ts: T[], getName: (t:T) => string): T[]{ const withDistance: [T, number][] = ts.map(t => [t, Utils.levenshteinDistance(getName(t), reference)]) withDistance.sort(([_, a], [__, b]) => a - b) return withDistance.map(n => n[0]) } public static levenshteinDistance(str1: string, str2: string) { const track = Array(str2.length + 1).fill(null).map(() => Array(str1.length + 1).fill(null)); for (let i = 0; i <= str1.length; i += 1) { track[0][i] = i; } for (let j = 0; j <= str2.length; j += 1) { track[j][0] = j; } for (let j = 1; j <= str2.length; j += 1) { for (let i = 1; i <= str1.length; i += 1) { const indicator = str1[i - 1] === str2[j - 1] ? 0 : 1; track[j][i] = Math.min( track[j][i - 1] + 1, // deletion track[j - 1][i] + 1, // insertion track[j - 1][i - 1] + indicator, // substitution ); } } return track[str2.length][str1.length]; } public static MapToObj(d: Map, onValue: ((t: T, key: string) => any) = undefined): object { const o = {} d.forEach((value, key) => { if (onValue !== undefined) { value = onValue(value, key) } o[key] = value; }) return o } private static colorDiff(c0: { r: number, g: number, b: number }, c1: { r: number, g: number, b: number }) { return Math.abs(c0.r - c1.r) + Math.abs(c0.g - c1.g) + Math.abs(c0.b - c1.b); } /** * Utils.colorAsHex({r: 255, g: 128, b: 0}) // => "#ff8000" * Utils.colorAsHex(undefined) // => undefined */ public static colorAsHex(c:{ r: number, g: number, b: number } ){ if(c === undefined){ return undefined } function componentToHex(n) { let hex = n.toString(16); return hex.length == 1 ? "0" + hex : hex; } return "#" + componentToHex(c.r) + componentToHex(c.g) + componentToHex(c.b); } /** * * Utils.color("#ff8000") // => {r: 255, g:128, b: 0} * Utils.color(" rgba (12,34,56) ") // => {r: 12, g:34, b: 56} * Utils.color(" rgba (12,34,56,0.5) ") // => {r: 12, g:34, b: 56} * Utils.color(undefined) // => undefined */ public static color(hex: string): { r: number, g: number, b: number } { if(hex === undefined){ return undefined } hex = hex.replace(/[ \t]/g, "") if (hex.startsWith("rgba(")) { const match = hex.match(/rgba\(([0-9.]+),([0-9.]+),([0-9.]+)(,[0-9.]*)?\)/) if(match == undefined){ return undefined } return {r: Number(match[1]), g: Number(match[2]), b:Number( match[3])} } if (!hex.startsWith("#")) { return undefined; } if (hex.length === 4) { return { r: parseInt(hex.substr(1, 1), 16), g: parseInt(hex.substr(2, 1), 16), b: parseInt(hex.substr(3, 1), 16), } } return { r: parseInt(hex.substr(1, 2), 16), g: parseInt(hex.substr(3, 2), 16), b: parseInt(hex.substr(5, 2), 16), } } public static asDict(tags: {key: string, value: string | number}[]) : Map{ const d= new Map() for (const tag of tags) { d.set(tag.key, tag.value) } return d } }