// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license. /// "use strict"; ((window) => { const core = window.Deno.core; const colors = window.__bootstrap.colors; const { ArrayBufferIsView, AggregateErrorPrototype, ArrayPrototypeUnshift, isNaN, DataViewPrototype, DatePrototype, DateNow, DatePrototypeGetTime, DatePrototypeToISOString, Boolean, BooleanPrototype, BooleanPrototypeToString, ObjectKeys, ObjectCreate, ObjectAssign, ObjectIs, ObjectValues, ObjectFromEntries, ObjectGetPrototypeOf, ObjectGetOwnPropertyDescriptor, ObjectGetOwnPropertySymbols, ObjectPrototypeHasOwnProperty, ObjectPrototypeIsPrototypeOf, ObjectPrototypePropertyIsEnumerable, PromisePrototype, String, StringPrototype, StringPrototypeRepeat, StringPrototypeReplace, StringPrototypeReplaceAll, StringPrototypeSplit, StringPrototypeSlice, StringPrototypeCodePointAt, StringPrototypeCharCodeAt, StringPrototypeNormalize, StringPrototypeMatch, StringPrototypePadStart, StringPrototypeLocaleCompare, StringPrototypeToString, StringPrototypeTrim, StringPrototypeIncludes, TypeError, NumberParseInt, RegExp, RegExpPrototype, RegExpPrototypeTest, RegExpPrototypeToString, SafeArrayIterator, SafeSet, SetPrototype, SetPrototypeEntries, Symbol, SymbolPrototype, SymbolPrototypeToString, SymbolPrototypeValueOf, SymbolToStringTag, SymbolHasInstance, SymbolFor, Array, ArrayIsArray, ArrayPrototypeJoin, ArrayPrototypeMap, ArrayPrototypeReduce, ArrayPrototypeEntries, ArrayPrototypePush, ArrayPrototypePop, ArrayPrototypeSort, ArrayPrototypeSlice, ArrayPrototypeShift, ArrayPrototypeIncludes, ArrayPrototypeFill, ArrayPrototypeFilter, ArrayPrototypeFind, FunctionPrototypeBind, Map, MapPrototype, MapPrototypeHas, MapPrototypeGet, MapPrototypeSet, MapPrototypeDelete, MapPrototypeEntries, MapPrototypeForEach, Error, ErrorPrototype, ErrorCaptureStackTrace, MathAbs, MathMax, MathMin, MathSqrt, MathRound, MathFloor, Number, NumberPrototype, NumberPrototypeToString, NumberPrototypeValueOf, BigIntPrototype, BigIntPrototypeToString, Proxy, ReflectGet, ReflectGetOwnPropertyDescriptor, ReflectGetPrototypeOf, ReflectHas, WeakMapPrototype, WeakSetPrototype, } = window.__bootstrap.primordials; function isInvalidDate(x) { return isNaN(DatePrototypeGetTime(x)); } function hasOwnProperty(obj, v) { if (obj == null) { return false; } return ObjectPrototypeHasOwnProperty(obj, v); } function propertyIsEnumerable(obj, prop) { if ( obj == null || typeof obj.propertyIsEnumerable !== "function" ) { return false; } return ObjectPrototypePropertyIsEnumerable(obj, prop); } // Copyright Joyent, Inc. and other Node contributors. MIT license. // Forked from Node's lib/internal/cli_table.js function isTypedArray(x) { return ArrayBufferIsView(x) && !ObjectPrototypeIsPrototypeOf(DataViewPrototype, x); } const tableChars = { middleMiddle: "─", rowMiddle: "┼", topRight: "┐", topLeft: "┌", leftMiddle: "├", topMiddle: "┬", bottomRight: "┘", bottomLeft: "└", bottomMiddle: "┴", rightMiddle: "┤", left: "│ ", right: " │", middle: " │ ", }; function isFullWidthCodePoint(code) { // Code points are partially derived from: // http://www.unicode.org/Public/UNIDATA/EastAsianWidth.txt return ( code >= 0x1100 && (code <= 0x115f || // Hangul Jamo code === 0x2329 || // LEFT-POINTING ANGLE BRACKET code === 0x232a || // RIGHT-POINTING ANGLE BRACKET // CJK Radicals Supplement .. Enclosed CJK Letters and Months (code >= 0x2e80 && code <= 0x3247 && code !== 0x303f) || // Enclosed CJK Letters and Months .. CJK Unified Ideographs Extension A (code >= 0x3250 && code <= 0x4dbf) || // CJK Unified Ideographs .. Yi Radicals (code >= 0x4e00 && code <= 0xa4c6) || // Hangul Jamo Extended-A (code >= 0xa960 && code <= 0xa97c) || // Hangul Syllables (code >= 0xac00 && code <= 0xd7a3) || // CJK Compatibility Ideographs (code >= 0xf900 && code <= 0xfaff) || // Vertical Forms (code >= 0xfe10 && code <= 0xfe19) || // CJK Compatibility Forms .. Small Form Variants (code >= 0xfe30 && code <= 0xfe6b) || // Halfwidth and Fullwidth Forms (code >= 0xff01 && code <= 0xff60) || (code >= 0xffe0 && code <= 0xffe6) || // Kana Supplement (code >= 0x1b000 && code <= 0x1b001) || // Enclosed Ideographic Supplement (code >= 0x1f200 && code <= 0x1f251) || // Miscellaneous Symbols and Pictographs 0x1f300 - 0x1f5ff // Emoticons 0x1f600 - 0x1f64f (code >= 0x1f300 && code <= 0x1f64f) || // CJK Unified Ideographs Extension B .. Tertiary Ideographic Plane (code >= 0x20000 && code <= 0x3fffd)) ); } function getStringWidth(str) { str = StringPrototypeNormalize(colors.stripColor(str), "NFC"); let width = 0; for (const ch of str) { width += isFullWidthCodePoint(StringPrototypeCodePointAt(ch, 0)) ? 2 : 1; } return width; } function renderRow(row, columnWidths, columnRightAlign) { let out = tableChars.left; for (let i = 0; i < row.length; i++) { const cell = row[i]; const len = getStringWidth(cell); const padding = StringPrototypeRepeat(" ", columnWidths[i] - len); if (columnRightAlign?.[i]) { out += `${padding}${cell}`; } else { out += `${cell}${padding}`; } if (i !== row.length - 1) { out += tableChars.middle; } } out += tableChars.right; return out; } function canRightAlign(value) { const isNumber = !isNaN(value); return isNumber; } function cliTable(head, columns) { const rows = []; const columnWidths = ArrayPrototypeMap(head, (h) => getStringWidth(h)); const longestColumn = ArrayPrototypeReduce( columns, (n, a) => MathMax(n, a.length), 0, ); const columnRightAlign = new Array(columnWidths.length).fill(true); for (let i = 0; i < head.length; i++) { const column = columns[i]; for (let j = 0; j < longestColumn; j++) { if (rows[j] === undefined) { rows[j] = []; } const value = (rows[j][i] = hasOwnProperty(column, j) ? column[j] : ""); const width = columnWidths[i] || 0; const counted = getStringWidth(value); columnWidths[i] = MathMax(width, counted); columnRightAlign[i] &= canRightAlign(value); } } const divider = ArrayPrototypeMap( columnWidths, (i) => StringPrototypeRepeat(tableChars.middleMiddle, i + 2), ); let result = `${tableChars.topLeft}${ ArrayPrototypeJoin(divider, tableChars.topMiddle) }` + `${tableChars.topRight}\n${renderRow(head, columnWidths)}\n` + `${tableChars.leftMiddle}${ ArrayPrototypeJoin(divider, tableChars.rowMiddle) }` + `${tableChars.rightMiddle}\n`; for (const row of rows) { result += `${renderRow(row, columnWidths, columnRightAlign)}\n`; } result += `${tableChars.bottomLeft}${ ArrayPrototypeJoin(divider, tableChars.bottomMiddle) }` + tableChars.bottomRight; return result; } /* End of forked part */ const DEFAULT_INSPECT_OPTIONS = { depth: 4, indentLevel: 0, sorted: false, trailingComma: false, compact: true, iterableLimit: 100, showProxy: false, colors: false, getters: false, showHidden: false, }; const DEFAULT_INDENT = " "; // Default indent string const LINE_BREAKING_LENGTH = 80; const MIN_GROUP_LENGTH = 6; const STR_ABBREVIATE_SIZE = 100; const PROMISE_STRING_BASE_LENGTH = 12; class CSI { static kClear = "\x1b[1;1H"; static kClearScreenDown = "\x1b[0J"; } function getClassInstanceName(instance) { if (typeof instance != "object") { return ""; } const constructor = instance?.constructor; if (typeof constructor == "function") { return constructor.name ?? ""; } return ""; } function maybeColor(fn, inspectOptions) { return inspectOptions.colors ? fn : (s) => s; } function inspectFunction(value, level, inspectOptions) { const cyan = maybeColor(colors.cyan, inspectOptions); if ( ReflectHas(value, customInspect) && typeof value[customInspect] === "function" ) { return String(value[customInspect](inspect)); } // Might be Function/AsyncFunction/GeneratorFunction/AsyncGeneratorFunction let cstrName = ObjectGetPrototypeOf(value)?.constructor?.name; if (!cstrName) { // If prototype is removed or broken, // use generic 'Function' instead. cstrName = "Function"; } // Our function may have properties, so we want to format those // as if our function was an object // If we didn't find any properties, we will just append an // empty suffix. let suffix = ``; let refStr = ""; if ( ObjectKeys(value).length > 0 || ObjectGetOwnPropertySymbols(value).length > 0 ) { const [propString, refIndex] = inspectRawObject( value, level, inspectOptions, ); refStr = refIndex; // Filter out the empty string for the case we only have // non-enumerable symbols. if ( propString.length > 0 && propString !== "{}" ) { suffix = ` ${propString}`; } } if (value.name && value.name !== "anonymous") { // from MDN spec return cyan(`${refStr}[${cstrName}: ${value.name}]`) + suffix; } return cyan(`${refStr}[${cstrName}]`) + suffix; } function inspectIterable( value, level, options, inspectOptions, ) { const cyan = maybeColor(colors.cyan, inspectOptions); if (level >= inspectOptions.depth) { return cyan(`[${options.typeName}]`); } const entries = []; let iter; let valueIsTypedArray = false; switch (options.typeName) { case "Map": iter = MapPrototypeEntries(value); break; case "Set": iter = SetPrototypeEntries(value); break; case "Array": iter = ArrayPrototypeEntries(value); break; default: if (isTypedArray(value)) { iter = ArrayPrototypeEntries(value); valueIsTypedArray = true; } else { throw new TypeError("unreachable"); } } let entriesLength = 0; const next = () => { return iter.next(); }; while (true) { let el; try { const res = iter.next(); if (res.done) { break; } el = res.value; } catch (err) { if (valueIsTypedArray) { // TypedArray.prototype.entries doesn't throw, unless the ArrayBuffer // is detached. We don't want to show the exception in that case, so // we catch it here and pretend the ArrayBuffer has no entries (like // Chrome DevTools does). break; } throw err; } if (entriesLength < inspectOptions.iterableLimit) { ArrayPrototypePush( entries, options.entryHandler( el, level + 1, inspectOptions, FunctionPrototypeBind(next, iter), ), ); } entriesLength++; } if (options.sort) { ArrayPrototypeSort(entries); } if (entriesLength > inspectOptions.iterableLimit) { const nmore = entriesLength - inspectOptions.iterableLimit; ArrayPrototypePush(entries, `... ${nmore} more items`); } const iPrefix = `${options.displayName ? options.displayName + " " : ""}`; const initIndentation = `\n${ StringPrototypeRepeat(DEFAULT_INDENT, level + 1) }`; const entryIndentation = `,\n${ StringPrototypeRepeat(DEFAULT_INDENT, level + 1) }`; const closingIndentation = `${inspectOptions.trailingComma ? "," : ""}\n${ StringPrototypeRepeat(DEFAULT_INDENT, level) }`; let iContent; if (options.group && entries.length > MIN_GROUP_LENGTH) { const groups = groupEntries(entries, level, value); iContent = `${initIndentation}${ ArrayPrototypeJoin(groups, entryIndentation) }${closingIndentation}`; } else { iContent = entries.length === 0 ? "" : ` ${ArrayPrototypeJoin(entries, ", ")} `; if ( colors.stripColor(iContent).length > LINE_BREAKING_LENGTH || !inspectOptions.compact ) { iContent = `${initIndentation}${ ArrayPrototypeJoin(entries, entryIndentation) }${closingIndentation}`; } } return `${iPrefix}${options.delims[0]}${iContent}${options.delims[1]}`; } // Ported from Node.js // Copyright Node.js contributors. All rights reserved. function groupEntries( entries, level, value, iterableLimit = 100, ) { let totalLength = 0; let maxLength = 0; let entriesLength = entries.length; if (iterableLimit < entriesLength) { // This makes sure the "... n more items" part is not taken into account. entriesLength--; } const separatorSpace = 2; // Add 1 for the space and 1 for the separator. const dataLen = new Array(entriesLength); // Calculate the total length of all output entries and the individual max // entries length of all output entries. // IN PROGRESS: Colors are being taken into account. for (let i = 0; i < entriesLength; i++) { // Taking colors into account: removing the ANSI color // codes from the string before measuring its length const len = colors.stripColor(entries[i]).length; dataLen[i] = len; totalLength += len + separatorSpace; if (maxLength < len) maxLength = len; } // Add two to `maxLength` as we add a single whitespace character plus a comma // in-between two entries. const actualMax = maxLength + separatorSpace; // Check if at least three entries fit next to each other and prevent grouping // of arrays that contains entries of very different length (i.e., if a single // entry is longer than 1/5 of all other entries combined). Otherwise the // space in-between small entries would be enormous. if ( actualMax * 3 + (level + 1) < LINE_BREAKING_LENGTH && (totalLength / actualMax > 5 || maxLength <= 6) ) { const approxCharHeights = 2.5; const averageBias = MathSqrt(actualMax - totalLength / entries.length); const biasedMax = MathMax(actualMax - 3 - averageBias, 1); // Dynamically check how many columns seem possible. const columns = MathMin( // Ideally a square should be drawn. We expect a character to be about 2.5 // times as high as wide. This is the area formula to calculate a square // which contains n rectangles of size `actualMax * approxCharHeights`. // Divide that by `actualMax` to receive the correct number of columns. // The added bias increases the columns for short entries. MathRound( MathSqrt(approxCharHeights * biasedMax * entriesLength) / biasedMax, ), // Do not exceed the breakLength. MathFloor((LINE_BREAKING_LENGTH - (level + 1)) / actualMax), // Limit the columns to a maximum of fifteen. 15, ); // Return with the original output if no grouping should happen. if (columns <= 1) { return entries; } const tmp = []; const maxLineLength = []; for (let i = 0; i < columns; i++) { let lineMaxLength = 0; for (let j = i; j < entries.length; j += columns) { if (dataLen[j] > lineMaxLength) lineMaxLength = dataLen[j]; } lineMaxLength += separatorSpace; maxLineLength[i] = lineMaxLength; } let order = "padStart"; if (value !== undefined) { for (let i = 0; i < entries.length; i++) { if ( typeof value[i] !== "number" && typeof value[i] !== "bigint" ) { order = "padEnd"; break; } } } // Each iteration creates a single line of grouped entries. for (let i = 0; i < entriesLength; i += columns) { // The last lines may contain less entries than columns. const max = MathMin(i + columns, entriesLength); let str = ""; let j = i; for (; j < max - 1; j++) { const lengthOfColorCodes = entries[j].length - dataLen[j]; const padding = maxLineLength[j - i] + lengthOfColorCodes; str += `${entries[j]}, `[order](padding, " "); } if (order === "padStart") { const lengthOfColorCodes = entries[j].length - dataLen[j]; const padding = maxLineLength[j - i] + lengthOfColorCodes - separatorSpace; str += StringPrototypePadStart(entries[j], padding, " "); } else { str += entries[j]; } ArrayPrototypePush(tmp, str); } if (iterableLimit < entries.length) { ArrayPrototypePush(tmp, entries[entriesLength]); } entries = tmp; } return entries; } let circular; function handleCircular(value, cyan) { let index = 1; if (circular === undefined) { circular = new Map(); MapPrototypeSet(circular, value, index); } else { index = MapPrototypeGet(circular, value); if (index === undefined) { index = circular.size + 1; MapPrototypeSet(circular, value, index); } } // Circular string is cyan return cyan(`[Circular *${index}]`); } function _inspectValue( value, level, inspectOptions, ) { const proxyDetails = core.getProxyDetails(value); if (proxyDetails != null && inspectOptions.showProxy) { return inspectProxy(proxyDetails, level, inspectOptions); } const green = maybeColor(colors.green, inspectOptions); const yellow = maybeColor(colors.yellow, inspectOptions); const gray = maybeColor(colors.gray, inspectOptions); const cyan = maybeColor(colors.cyan, inspectOptions); const bold = maybeColor(colors.bold, inspectOptions); const red = maybeColor(colors.red, inspectOptions); switch (typeof value) { case "string": return green(quoteString(value)); case "number": // Numbers are yellow // Special handling of -0 return yellow(ObjectIs(value, -0) ? "-0" : `${value}`); case "boolean": // booleans are yellow return yellow(String(value)); case "undefined": // undefined is gray return gray(String(value)); case "symbol": // Symbols are green return green(maybeQuoteSymbol(value)); case "bigint": // Bigints are yellow return yellow(`${value}n`); case "function": // Function string is cyan if (ctxHas(value)) { // Circular string is cyan return handleCircular(value, cyan); } return inspectFunction(value, level, inspectOptions); case "object": // null is bold if (value === null) { return bold("null"); } if (ctxHas(value)) { return handleCircular(value, cyan); } return inspectObject(value, level, inspectOptions, proxyDetails); default: // Not implemented is red return red("[Not Implemented]"); } } function inspectValue( value, level, inspectOptions, ) { ArrayPrototypePush(CTX_STACK, value); let x; try { x = _inspectValue(value, level, inspectOptions); } finally { ArrayPrototypePop(CTX_STACK); } return x; } // We can match Node's quoting behavior exactly by swapping the double quote and // single quote in this array. That would give preference to single quotes. // However, we prefer double quotes as the default. const QUOTES = ['"', "'", "`"]; /** Surround the string in quotes. * * The quote symbol is chosen by taking the first of the `QUOTES` array which * does not occur in the string. If they all occur, settle with `QUOTES[0]`. * * Insert a backslash before any occurrence of the chosen quote symbol and * before any backslash. */ function quoteString(string) { const quote = ArrayPrototypeFind(QUOTES, (c) => !StringPrototypeIncludes(string, c)) ?? QUOTES[0]; const escapePattern = new RegExp(`(?=[${quote}\\\\])`, "g"); string = StringPrototypeReplace(string, escapePattern, "\\"); string = replaceEscapeSequences(string); return `${quote}${string}${quote}`; } // Replace escape sequences that can modify output. function replaceEscapeSequences(string) { return StringPrototypeReplace( StringPrototypeReplace( StringPrototypeReplace( StringPrototypeReplace( StringPrototypeReplace( StringPrototypeReplace( StringPrototypeReplace(string, /[\b]/g, "\\b"), /\f/g, "\\f", ), /\n/g, "\\n", ), /\r/g, "\\r", ), /\t/g, "\\t", ), /\v/g, "\\v", ), // deno-lint-ignore no-control-regex /[\x00-\x1f\x7f-\x9f]/g, (c) => "\\x" + StringPrototypePadStart( NumberPrototypeToString(StringPrototypeCharCodeAt(c, 0), 16), 2, "0", ), ); } // Surround a string with quotes when it is required (e.g the string not a valid identifier). function maybeQuoteString(string) { if (RegExpPrototypeTest(/^[a-zA-Z_][a-zA-Z_0-9]*$/, string)) { return replaceEscapeSequences(string); } return quoteString(string); } // Surround a symbol's description in quotes when it is required (e.g the description has non printable characters). function maybeQuoteSymbol(symbol) { if (symbol.description === undefined) { return SymbolPrototypeToString(symbol); } if (RegExpPrototypeTest(/^[a-zA-Z_][a-zA-Z_.0-9]*$/, symbol.description)) { return SymbolPrototypeToString(symbol); } return `Symbol(${quoteString(symbol.description)})`; } const CTX_STACK = []; function ctxHas(x) { // Only check parent contexts return ArrayPrototypeIncludes( ArrayPrototypeSlice(CTX_STACK, 0, CTX_STACK.length - 1), x, ); } // Print strings when they are inside of arrays or objects with quotes function inspectValueWithQuotes( value, level, inspectOptions, ) { const green = maybeColor(colors.green, inspectOptions); switch (typeof value) { case "string": { const trunc = value.length > STR_ABBREVIATE_SIZE ? StringPrototypeSlice(value, 0, STR_ABBREVIATE_SIZE) + "..." : value; return green(quoteString(trunc)); // Quoted strings are green } default: return inspectValue(value, level, inspectOptions); } } function inspectArray( value, level, inspectOptions, ) { const gray = maybeColor(colors.gray, inspectOptions); const options = { typeName: "Array", displayName: "", delims: ["[", "]"], entryHandler: (entry, level, inspectOptions, next) => { const [index, val] = entry; let i = index; if (!ObjectPrototypeHasOwnProperty(value, i)) { i++; while (!ObjectPrototypeHasOwnProperty(value, i) && i < value.length) { next(); i++; } const emptyItems = i - index; const ending = emptyItems > 1 ? "s" : ""; return gray(`<${emptyItems} empty item${ending}>`); } else { return inspectValueWithQuotes(val, level, inspectOptions); } }, group: inspectOptions.compact, sort: false, }; return inspectIterable(value, level, options, inspectOptions); } function inspectTypedArray( typedArrayName, value, level, inspectOptions, ) { const valueLength = value.length; const options = { typeName: typedArrayName, displayName: `${typedArrayName}(${valueLength})`, delims: ["[", "]"], entryHandler: (entry, level, inspectOptions) => { const val = entry[1]; return inspectValueWithQuotes(val, level + 1, inspectOptions); }, group: inspectOptions.compact, sort: false, }; return inspectIterable(value, level, options, inspectOptions); } function inspectSet( value, level, inspectOptions, ) { const options = { typeName: "Set", displayName: "Set", delims: ["{", "}"], entryHandler: (entry, level, inspectOptions) => { const val = entry[1]; return inspectValueWithQuotes(val, level + 1, inspectOptions); }, group: false, sort: inspectOptions.sorted, }; return inspectIterable(value, level, options, inspectOptions); } function inspectMap( value, level, inspectOptions, ) { const options = { typeName: "Map", displayName: "Map", delims: ["{", "}"], entryHandler: (entry, level, inspectOptions) => { const [key, val] = entry; return `${ inspectValueWithQuotes( key, level + 1, inspectOptions, ) } => ${inspectValueWithQuotes(val, level + 1, inspectOptions)}`; }, group: false, sort: inspectOptions.sorted, }; return inspectIterable( value, level, options, inspectOptions, ); } function inspectWeakSet(inspectOptions) { const cyan = maybeColor(colors.cyan, inspectOptions); return `WeakSet { ${cyan("[items unknown]")} }`; // as seen in Node, with cyan color } function inspectWeakMap(inspectOptions) { const cyan = maybeColor(colors.cyan, inspectOptions); return `WeakMap { ${cyan("[items unknown]")} }`; // as seen in Node, with cyan color } function inspectDate(value, inspectOptions) { // without quotes, ISO format, in magenta like before const magenta = maybeColor(colors.magenta, inspectOptions); return magenta( isInvalidDate(value) ? "Invalid Date" : DatePrototypeToISOString(value), ); } function inspectRegExp(value, inspectOptions) { const red = maybeColor(colors.red, inspectOptions); return red(RegExpPrototypeToString(value)); // RegExps are red } function inspectError(value, cyan) { const causes = [value]; let err = value; while (err.cause) { if (ArrayPrototypeIncludes(causes, err.cause)) { ArrayPrototypePush(causes, handleCircular(err.cause, cyan)); break; } else { ArrayPrototypePush(causes, err.cause); err = err.cause; } } const refMap = new Map(); for (const cause of causes) { if (circular !== undefined) { const index = MapPrototypeGet(circular, cause); if (index !== undefined) { MapPrototypeSet(refMap, cause, cyan(` `)); } } } ArrayPrototypeShift(causes); let finalMessage = (MapPrototypeGet(refMap, value) ?? ""); if (ObjectPrototypeIsPrototypeOf(AggregateErrorPrototype, value)) { const stackLines = StringPrototypeSplit(value.stack, "\n"); while (true) { const line = ArrayPrototypeShift(stackLines); if (RegExpPrototypeTest(/\s+at/, line)) { ArrayPrototypeUnshift(stackLines, line); break; } finalMessage += line; finalMessage += "\n"; } const aggregateMessage = ArrayPrototypeJoin( ArrayPrototypeMap( value.errors, (error) => StringPrototypeReplace( inspectArgs([error]), /^(?!\s*$)/gm, StringPrototypeRepeat(" ", 4), ), ), "\n", ); finalMessage += aggregateMessage; finalMessage += "\n"; finalMessage += ArrayPrototypeJoin(stackLines, "\n"); } else { finalMessage += value.stack; } finalMessage += ArrayPrototypeJoin( ArrayPrototypeMap( causes, (cause) => "\nCaused by " + (MapPrototypeGet(refMap, cause) ?? "") + (cause?.stack ?? cause), ), "", ); return finalMessage; } function inspectStringObject(value, inspectOptions) { const cyan = maybeColor(colors.cyan, inspectOptions); return cyan(`[String: "${StringPrototypeToString(value)}"]`); // wrappers are in cyan } function inspectBooleanObject(value, inspectOptions) { const cyan = maybeColor(colors.cyan, inspectOptions); return cyan(`[Boolean: ${BooleanPrototypeToString(value)}]`); // wrappers are in cyan } function inspectNumberObject(value, inspectOptions) { const cyan = maybeColor(colors.cyan, inspectOptions); // Special handling of -0 return cyan( `[Number: ${ ObjectIs(NumberPrototypeValueOf(value), -0) ? "-0" : NumberPrototypeToString(value) }]`, ); // wrappers are in cyan } function inspectBigIntObject(value, inspectOptions) { const cyan = maybeColor(colors.cyan, inspectOptions); return cyan(`[BigInt: ${BigIntPrototypeToString(value)}n]`); // wrappers are in cyan } function inspectSymbolObject(value, inspectOptions) { const cyan = maybeColor(colors.cyan, inspectOptions); return cyan(`[Symbol: ${maybeQuoteSymbol(SymbolPrototypeValueOf(value))}]`); // wrappers are in cyan } const PromiseState = { Pending: 0, Fulfilled: 1, Rejected: 2, }; function inspectPromise( value, level, inspectOptions, ) { const cyan = maybeColor(colors.cyan, inspectOptions); const red = maybeColor(colors.red, inspectOptions); const [state, result] = core.getPromiseDetails(value); if (state === PromiseState.Pending) { return `Promise { ${cyan("")} }`; } const prefix = state === PromiseState.Fulfilled ? "" : `${red("")} `; const str = `${prefix}${ inspectValueWithQuotes( result, level + 1, inspectOptions, ) }`; if (str.length + PROMISE_STRING_BASE_LENGTH > LINE_BREAKING_LENGTH) { return `Promise {\n${ StringPrototypeRepeat(DEFAULT_INDENT, level + 1) }${str}\n}`; } return `Promise { ${str} }`; } function inspectProxy( targetAndHandler, level, inspectOptions, ) { return `Proxy ${inspectArray(targetAndHandler, level, inspectOptions)}`; } function inspectRawObject( value, level, inspectOptions, ) { const cyan = maybeColor(colors.cyan, inspectOptions); if (level >= inspectOptions.depth) { return [cyan("[Object]"), ""]; // wrappers are in cyan } let baseString; let shouldShowDisplayName = false; let displayName = value[ SymbolToStringTag ]; if (!displayName) { displayName = getClassInstanceName(value); } if ( displayName && displayName !== "Object" && displayName !== "anonymous" ) { shouldShowDisplayName = true; } const entries = []; const stringKeys = ObjectKeys(value); const symbolKeys = ObjectGetOwnPropertySymbols(value); if (inspectOptions.sorted) { ArrayPrototypeSort(stringKeys); ArrayPrototypeSort( symbolKeys, (s1, s2) => StringPrototypeLocaleCompare( s1.description ?? "", s2.description ?? "", ), ); } const red = maybeColor(colors.red, inspectOptions); for (const key of stringKeys) { if (inspectOptions.getters) { let propertyValue; let error = null; try { propertyValue = value[key]; } catch (error_) { error = error_; } const inspectedValue = error == null ? inspectValueWithQuotes( propertyValue, level + 1, inspectOptions, ) : red(`[Thrown ${error.name}: ${error.message}]`); ArrayPrototypePush( entries, `${maybeQuoteString(key)}: ${inspectedValue}`, ); } else { const descriptor = ObjectGetOwnPropertyDescriptor(value, key); if (descriptor.get !== undefined && descriptor.set !== undefined) { ArrayPrototypePush( entries, `${maybeQuoteString(key)}: [Getter/Setter]`, ); } else if (descriptor.get !== undefined) { ArrayPrototypePush(entries, `${maybeQuoteString(key)}: [Getter]`); } else { ArrayPrototypePush( entries, `${maybeQuoteString(key)}: ${ inspectValueWithQuotes(value[key], level + 1, inspectOptions) }`, ); } } } for (const key of symbolKeys) { if ( !inspectOptions.showHidden && !propertyIsEnumerable(value, key) ) { continue; } if (inspectOptions.getters) { let propertyValue; let error; try { propertyValue = value[key]; } catch (error_) { error = error_; } const inspectedValue = error == null ? inspectValueWithQuotes( propertyValue, level + 1, inspectOptions, ) : red(`Thrown ${error.name}: ${error.message}`); ArrayPrototypePush( entries, `[${maybeQuoteSymbol(key)}]: ${inspectedValue}`, ); } else { const descriptor = ObjectGetOwnPropertyDescriptor(value, key); if (descriptor.get !== undefined && descriptor.set !== undefined) { ArrayPrototypePush( entries, `[${maybeQuoteSymbol(key)}]: [Getter/Setter]`, ); } else if (descriptor.get !== undefined) { ArrayPrototypePush(entries, `[${maybeQuoteSymbol(key)}]: [Getter]`); } else { ArrayPrototypePush( entries, `[${maybeQuoteSymbol(key)}]: ${ inspectValueWithQuotes(value[key], level + 1, inspectOptions) }`, ); } } } // Making sure color codes are ignored when calculating the total length const totalLength = entries.length + level + colors.stripColor(ArrayPrototypeJoin(entries, "")).length; if (entries.length === 0) { baseString = "{}"; } else if (totalLength > LINE_BREAKING_LENGTH || !inspectOptions.compact) { const entryIndent = StringPrototypeRepeat(DEFAULT_INDENT, level + 1); const closingIndent = StringPrototypeRepeat(DEFAULT_INDENT, level); baseString = `{\n${entryIndent}${ ArrayPrototypeJoin(entries, `,\n${entryIndent}`) }${inspectOptions.trailingComma ? "," : ""}\n${closingIndent}}`; } else { baseString = `{ ${ArrayPrototypeJoin(entries, ", ")} }`; } if (shouldShowDisplayName) { baseString = `${displayName} ${baseString}`; } let refIndex = ""; if (circular !== undefined) { const index = MapPrototypeGet(circular, value); if (index !== undefined) { refIndex = cyan(` `); } } return [baseString, refIndex]; } function inspectObject( value, level, inspectOptions, proxyDetails, ) { if ( ReflectHas(value, customInspect) && typeof value[customInspect] === "function" ) { return String(value[customInspect](inspect)); } // This non-unique symbol is used to support op_crates, ie. // in extensions/web we don't want to depend on public // Symbol.for("Deno.customInspect") symbol defined in the public API. // Internal only, shouldn't be used by users. const privateCustomInspect = SymbolFor("Deno.privateCustomInspect"); if ( ReflectHas(value, privateCustomInspect) && typeof value[privateCustomInspect] === "function" ) { // TODO(nayeemrmn): `inspect` is passed as an argument because custom // inspect implementations in `extensions` need it, but may not have access // to the `Deno` namespace in web workers. Remove when the `Deno` // namespace is always enabled. return String(value[privateCustomInspect](inspect)); } if (ObjectPrototypeIsPrototypeOf(ErrorPrototype, value)) { return inspectError(value, maybeColor(colors.cyan, inspectOptions)); } else if (ArrayIsArray(value)) { return inspectArray(value, level, inspectOptions); } else if (ObjectPrototypeIsPrototypeOf(NumberPrototype, value)) { return inspectNumberObject(value, inspectOptions); } else if (ObjectPrototypeIsPrototypeOf(BigIntPrototype, value)) { return inspectBigIntObject(value, inspectOptions); } else if (ObjectPrototypeIsPrototypeOf(BooleanPrototype, value)) { return inspectBooleanObject(value, inspectOptions); } else if (ObjectPrototypeIsPrototypeOf(StringPrototype, value)) { return inspectStringObject(value, inspectOptions); } else if (ObjectPrototypeIsPrototypeOf(SymbolPrototype, value)) { return inspectSymbolObject(value, inspectOptions); } else if (ObjectPrototypeIsPrototypeOf(PromisePrototype, value)) { return inspectPromise(value, level, inspectOptions); } else if (ObjectPrototypeIsPrototypeOf(RegExpPrototype, value)) { return inspectRegExp(value, inspectOptions); } else if (ObjectPrototypeIsPrototypeOf(DatePrototype, value)) { return inspectDate(value, inspectOptions); } else if (ObjectPrototypeIsPrototypeOf(SetPrototype, value)) { return inspectSet( proxyDetails ? proxyDetails[0] : value, level, inspectOptions, ); } else if (ObjectPrototypeIsPrototypeOf(MapPrototype, value)) { return inspectMap( proxyDetails ? proxyDetails[0] : value, level, inspectOptions, ); } else if (ObjectPrototypeIsPrototypeOf(WeakSetPrototype, value)) { return inspectWeakSet(inspectOptions); } else if (ObjectPrototypeIsPrototypeOf(WeakMapPrototype, value)) { return inspectWeakMap(inspectOptions); } else if (isTypedArray(value)) { return inspectTypedArray( ObjectGetPrototypeOf(value).constructor.name, value, level, inspectOptions, ); } else { // Otherwise, default object formatting let [insp, refIndex] = inspectRawObject(value, level, inspectOptions); insp = refIndex + insp; return insp; } } const colorKeywords = new Map([ ["black", "#000000"], ["silver", "#c0c0c0"], ["gray", "#808080"], ["white", "#ffffff"], ["maroon", "#800000"], ["red", "#ff0000"], ["purple", "#800080"], ["fuchsia", "#ff00ff"], ["green", "#008000"], ["lime", "#00ff00"], ["olive", "#808000"], ["yellow", "#ffff00"], ["navy", "#000080"], ["blue", "#0000ff"], ["teal", "#008080"], ["aqua", "#00ffff"], ["orange", "#ffa500"], ["aliceblue", "#f0f8ff"], ["antiquewhite", "#faebd7"], ["aquamarine", "#7fffd4"], ["azure", "#f0ffff"], ["beige", "#f5f5dc"], ["bisque", "#ffe4c4"], ["blanchedalmond", "#ffebcd"], ["blueviolet", "#8a2be2"], ["brown", "#a52a2a"], ["burlywood", "#deb887"], ["cadetblue", "#5f9ea0"], ["chartreuse", "#7fff00"], ["chocolate", "#d2691e"], ["coral", "#ff7f50"], ["cornflowerblue", "#6495ed"], ["cornsilk", "#fff8dc"], ["crimson", "#dc143c"], ["cyan", "#00ffff"], ["darkblue", "#00008b"], ["darkcyan", "#008b8b"], ["darkgoldenrod", "#b8860b"], ["darkgray", "#a9a9a9"], ["darkgreen", "#006400"], ["darkgrey", "#a9a9a9"], ["darkkhaki", "#bdb76b"], ["darkmagenta", "#8b008b"], ["darkolivegreen", "#556b2f"], ["darkorange", "#ff8c00"], ["darkorchid", "#9932cc"], ["darkred", "#8b0000"], ["darksalmon", "#e9967a"], ["darkseagreen", "#8fbc8f"], ["darkslateblue", "#483d8b"], ["darkslategray", "#2f4f4f"], ["darkslategrey", "#2f4f4f"], ["darkturquoise", "#00ced1"], ["darkviolet", "#9400d3"], ["deeppink", "#ff1493"], ["deepskyblue", "#00bfff"], ["dimgray", "#696969"], ["dimgrey", "#696969"], ["dodgerblue", "#1e90ff"], ["firebrick", "#b22222"], ["floralwhite", "#fffaf0"], ["forestgreen", "#228b22"], ["gainsboro", "#dcdcdc"], ["ghostwhite", "#f8f8ff"], ["gold", "#ffd700"], ["goldenrod", "#daa520"], ["greenyellow", "#adff2f"], ["grey", "#808080"], ["honeydew", "#f0fff0"], ["hotpink", "#ff69b4"], ["indianred", "#cd5c5c"], ["indigo", "#4b0082"], ["ivory", "#fffff0"], ["khaki", "#f0e68c"], ["lavender", "#e6e6fa"], ["lavenderblush", "#fff0f5"], ["lawngreen", "#7cfc00"], ["lemonchiffon", "#fffacd"], ["lightblue", "#add8e6"], ["lightcoral", "#f08080"], ["lightcyan", "#e0ffff"], ["lightgoldenrodyellow", "#fafad2"], ["lightgray", "#d3d3d3"], ["lightgreen", "#90ee90"], ["lightgrey", "#d3d3d3"], ["lightpink", "#ffb6c1"], ["lightsalmon", "#ffa07a"], ["lightseagreen", "#20b2aa"], ["lightskyblue", "#87cefa"], ["lightslategray", "#778899"], ["lightslategrey", "#778899"], ["lightsteelblue", "#b0c4de"], ["lightyellow", "#ffffe0"], ["limegreen", "#32cd32"], ["linen", "#faf0e6"], ["magenta", "#ff00ff"], ["mediumaquamarine", "#66cdaa"], ["mediumblue", "#0000cd"], ["mediumorchid", "#ba55d3"], ["mediumpurple", "#9370db"], ["mediumseagreen", "#3cb371"], ["mediumslateblue", "#7b68ee"], ["mediumspringgreen", "#00fa9a"], ["mediumturquoise", "#48d1cc"], ["mediumvioletred", "#c71585"], ["midnightblue", "#191970"], ["mintcream", "#f5fffa"], ["mistyrose", "#ffe4e1"], ["moccasin", "#ffe4b5"], ["navajowhite", "#ffdead"], ["oldlace", "#fdf5e6"], ["olivedrab", "#6b8e23"], ["orangered", "#ff4500"], ["orchid", "#da70d6"], ["palegoldenrod", "#eee8aa"], ["palegreen", "#98fb98"], ["paleturquoise", "#afeeee"], ["palevioletred", "#db7093"], ["papayawhip", "#ffefd5"], ["peachpuff", "#ffdab9"], ["peru", "#cd853f"], ["pink", "#ffc0cb"], ["plum", "#dda0dd"], ["powderblue", "#b0e0e6"], ["rosybrown", "#bc8f8f"], ["royalblue", "#4169e1"], ["saddlebrown", "#8b4513"], ["salmon", "#fa8072"], ["sandybrown", "#f4a460"], ["seagreen", "#2e8b57"], ["seashell", "#fff5ee"], ["sienna", "#a0522d"], ["skyblue", "#87ceeb"], ["slateblue", "#6a5acd"], ["slategray", "#708090"], ["slategrey", "#708090"], ["snow", "#fffafa"], ["springgreen", "#00ff7f"], ["steelblue", "#4682b4"], ["tan", "#d2b48c"], ["thistle", "#d8bfd8"], ["tomato", "#ff6347"], ["turquoise", "#40e0d0"], ["violet", "#ee82ee"], ["wheat", "#f5deb3"], ["whitesmoke", "#f5f5f5"], ["yellowgreen", "#9acd32"], ["rebeccapurple", "#663399"], ]); function parseCssColor(colorString) { if (MapPrototypeHas(colorKeywords, colorString)) { colorString = MapPrototypeGet(colorKeywords, colorString); } // deno-fmt-ignore const hashMatch = StringPrototypeMatch(colorString, /^#([\dA-Fa-f]{2})([\dA-Fa-f]{2})([\dA-Fa-f]{2})([\dA-Fa-f]{2})?$/); if (hashMatch != null) { return [ Number(`0x${hashMatch[1]}`), Number(`0x${hashMatch[2]}`), Number(`0x${hashMatch[3]}`), ]; } // deno-fmt-ignore const smallHashMatch = StringPrototypeMatch(colorString, /^#([\dA-Fa-f])([\dA-Fa-f])([\dA-Fa-f])([\dA-Fa-f])?$/); if (smallHashMatch != null) { return [ Number(`0x${smallHashMatch[1]}0`), Number(`0x${smallHashMatch[2]}0`), Number(`0x${smallHashMatch[3]}0`), ]; } // deno-fmt-ignore const rgbMatch = StringPrototypeMatch(colorString, /^rgba?\(\s*([+\-]?\d*\.?\d+)\s*,\s*([+\-]?\d*\.?\d+)\s*,\s*([+\-]?\d*\.?\d+)\s*(,\s*([+\-]?\d*\.?\d+)\s*)?\)$/); if (rgbMatch != null) { return [ MathRound(MathMax(0, MathMin(255, Number(rgbMatch[1])))), MathRound(MathMax(0, MathMin(255, Number(rgbMatch[2])))), MathRound(MathMax(0, MathMin(255, Number(rgbMatch[3])))), ]; } // deno-fmt-ignore const hslMatch = StringPrototypeMatch(colorString, /^hsla?\(\s*([+\-]?\d*\.?\d+)\s*,\s*([+\-]?\d*\.?\d+)%\s*,\s*([+\-]?\d*\.?\d+)%\s*(,\s*([+\-]?\d*\.?\d+)\s*)?\)$/); if (hslMatch != null) { // https://www.rapidtables.com/convert/color/hsl-to-rgb.html let h = Number(hslMatch[1]) % 360; if (h < 0) { h += 360; } const s = MathMax(0, MathMin(100, Number(hslMatch[2]))) / 100; const l = MathMax(0, MathMin(100, Number(hslMatch[3]))) / 100; const c = (1 - MathAbs(2 * l - 1)) * s; const x = c * (1 - MathAbs((h / 60) % 2 - 1)); const m = l - c / 2; let r_; let g_; let b_; if (h < 60) { [r_, g_, b_] = [c, x, 0]; } else if (h < 120) { [r_, g_, b_] = [x, c, 0]; } else if (h < 180) { [r_, g_, b_] = [0, c, x]; } else if (h < 240) { [r_, g_, b_] = [0, x, c]; } else if (h < 300) { [r_, g_, b_] = [x, 0, c]; } else { [r_, g_, b_] = [c, 0, x]; } return [ MathRound((r_ + m) * 255), MathRound((g_ + m) * 255), MathRound((b_ + m) * 255), ]; } return null; } function getDefaultCss() { return { backgroundColor: null, color: null, fontWeight: null, fontStyle: null, textDecorationColor: null, textDecorationLine: [], }; } function parseCss(cssString) { const css = getDefaultCss(); const rawEntries = []; let inValue = false; let currentKey = null; let parenthesesDepth = 0; let currentPart = ""; for (let i = 0; i < cssString.length; i++) { const c = cssString[i]; if (c == "(") { parenthesesDepth++; } else if (parenthesesDepth > 0) { if (c == ")") { parenthesesDepth--; } } else if (inValue) { if (c == ";") { const value = StringPrototypeTrim(currentPart); if (value != "") { ArrayPrototypePush(rawEntries, [currentKey, value]); } currentKey = null; currentPart = ""; inValue = false; continue; } } else if (c == ":") { currentKey = StringPrototypeTrim(currentPart); currentPart = ""; inValue = true; continue; } currentPart += c; } if (inValue && parenthesesDepth == 0) { const value = StringPrototypeTrim(currentPart); if (value != "") { ArrayPrototypePush(rawEntries, [currentKey, value]); } currentKey = null; currentPart = ""; } for (const [key, value] of rawEntries) { if (key == "background-color") { if (value != null) { css.backgroundColor = value; } } else if (key == "color") { if (value != null) { css.color = value; } } else if (key == "font-weight") { if (value == "bold") { css.fontWeight = value; } } else if (key == "font-style") { if ( ArrayPrototypeIncludes(["italic", "oblique", "oblique 14deg"], value) ) { css.fontStyle = "italic"; } } else if (key == "text-decoration-line") { css.textDecorationLine = []; for (const lineType of StringPrototypeSplit(value, /\s+/g)) { if ( ArrayPrototypeIncludes( ["line-through", "overline", "underline"], lineType, ) ) { ArrayPrototypePush(css.textDecorationLine, lineType); } } } else if (key == "text-decoration-color") { const color = parseCssColor(value); if (color != null) { css.textDecorationColor = color; } } else if (key == "text-decoration") { css.textDecorationColor = null; css.textDecorationLine = []; for (const arg of StringPrototypeSplit(value, /\s+/g)) { const maybeColor = parseCssColor(arg); if (maybeColor != null) { css.textDecorationColor = maybeColor; } else if ( ArrayPrototypeIncludes( ["line-through", "overline", "underline"], arg, ) ) { ArrayPrototypePush(css.textDecorationLine, arg); } } } } return css; } function colorEquals(color1, color2) { return color1?.[0] == color2?.[0] && color1?.[1] == color2?.[1] && color1?.[2] == color2?.[2]; } function cssToAnsi(css, prevCss = null) { prevCss = prevCss ?? getDefaultCss(); let ansi = ""; if (!colorEquals(css.backgroundColor, prevCss.backgroundColor)) { if (css.backgroundColor == null) { ansi += "\x1b[49m"; } else if (css.backgroundColor == "black") { ansi += `\x1b[40m`; } else if (css.backgroundColor == "red") { ansi += `\x1b[41m`; } else if (css.backgroundColor == "green") { ansi += `\x1b[42m`; } else if (css.backgroundColor == "yellow") { ansi += `\x1b[43m`; } else if (css.backgroundColor == "blue") { ansi += `\x1b[44m`; } else if (css.backgroundColor == "magenta") { ansi += `\x1b[45m`; } else if (css.backgroundColor == "cyan") { ansi += `\x1b[46m`; } else if (css.backgroundColor == "white") { ansi += `\x1b[47m`; } else { if (ArrayIsArray(css.backgroundColor)) { const [r, g, b] = css.backgroundColor; ansi += `\x1b[48;2;${r};${g};${b}m`; } else { const parsed = parseCssColor(css.backgroundColor); if (parsed !== null) { const [r, g, b] = parsed; ansi += `\x1b[48;2;${r};${g};${b}m`; } else { ansi += "\x1b[49m"; } } } } if (!colorEquals(css.color, prevCss.color)) { if (css.color == null) { ansi += "\x1b[39m"; } else if (css.color == "black") { ansi += `\x1b[30m`; } else if (css.color == "red") { ansi += `\x1b[31m`; } else if (css.color == "green") { ansi += `\x1b[32m`; } else if (css.color == "yellow") { ansi += `\x1b[33m`; } else if (css.color == "blue") { ansi += `\x1b[34m`; } else if (css.color == "magenta") { ansi += `\x1b[35m`; } else if (css.color == "cyan") { ansi += `\x1b[36m`; } else if (css.color == "white") { ansi += `\x1b[37m`; } else { if (ArrayIsArray(css.color)) { const [r, g, b] = css.color; ansi += `\x1b[38;2;${r};${g};${b}m`; } else { const parsed = parseCssColor(css.color); if (parsed !== null) { const [r, g, b] = parsed; ansi += `\x1b[38;2;${r};${g};${b}m`; } else { ansi += "\x1b[39m"; } } } } if (css.fontWeight != prevCss.fontWeight) { if (css.fontWeight == "bold") { ansi += `\x1b[1m`; } else { ansi += "\x1b[22m"; } } if (css.fontStyle != prevCss.fontStyle) { if (css.fontStyle == "italic") { ansi += `\x1b[3m`; } else { ansi += "\x1b[23m"; } } if (!colorEquals(css.textDecorationColor, prevCss.textDecorationColor)) { if (css.textDecorationColor != null) { const [r, g, b] = css.textDecorationColor; ansi += `\x1b[58;2;${r};${g};${b}m`; } else { ansi += "\x1b[59m"; } } if ( ArrayPrototypeIncludes(css.textDecorationLine, "line-through") != ArrayPrototypeIncludes(prevCss.textDecorationLine, "line-through") ) { if (ArrayPrototypeIncludes(css.textDecorationLine, "line-through")) { ansi += "\x1b[9m"; } else { ansi += "\x1b[29m"; } } if ( ArrayPrototypeIncludes(css.textDecorationLine, "overline") != ArrayPrototypeIncludes(prevCss.textDecorationLine, "overline") ) { if (ArrayPrototypeIncludes(css.textDecorationLine, "overline")) { ansi += "\x1b[53m"; } else { ansi += "\x1b[55m"; } } if ( ArrayPrototypeIncludes(css.textDecorationLine, "underline") != ArrayPrototypeIncludes(prevCss.textDecorationLine, "underline") ) { if (ArrayPrototypeIncludes(css.textDecorationLine, "underline")) { ansi += "\x1b[4m"; } else { ansi += "\x1b[24m"; } } return ansi; } function inspectArgs(args, inspectOptions = {}) { circular = undefined; const noColor = colors.getNoColor(); const rInspectOptions = { ...DEFAULT_INSPECT_OPTIONS, ...inspectOptions }; const first = args[0]; let a = 0; let string = ""; if (typeof first == "string" && args.length > 1) { a++; // Index of the first not-yet-appended character. Use this so we only // have to append to `string` when a substitution occurs / at the end. let appendedChars = 0; let usedStyle = false; let prevCss = null; for (let i = 0; i < first.length - 1; i++) { if (first[i] == "%") { const char = first[++i]; if (a < args.length) { let formattedArg = null; if (char == "s") { // Format as a string. formattedArg = String(args[a++]); } else if (ArrayPrototypeIncludes(["d", "i"], char)) { // Format as an integer. const value = args[a++]; if (typeof value == "bigint") { formattedArg = `${value}n`; } else if (typeof value == "number") { formattedArg = `${NumberParseInt(String(value))}`; } else { formattedArg = "NaN"; } } else if (char == "f") { // Format as a floating point value. const value = args[a++]; if (typeof value == "number") { formattedArg = `${value}`; } else { formattedArg = "NaN"; } } else if (ArrayPrototypeIncludes(["O", "o"], char)) { // Format as an object. formattedArg = inspectValue( args[a++], 0, rInspectOptions, ); } else if (char == "c") { const value = args[a++]; if (!noColor) { const css = parseCss(value); formattedArg = cssToAnsi(css, prevCss); if (formattedArg != "") { usedStyle = true; prevCss = css; } } else { formattedArg = ""; } } if (formattedArg != null) { string += StringPrototypeSlice(first, appendedChars, i - 1) + formattedArg; appendedChars = i + 1; } } if (char == "%") { string += StringPrototypeSlice(first, appendedChars, i - 1) + "%"; appendedChars = i + 1; } } } string += StringPrototypeSlice(first, appendedChars); if (usedStyle) { string += "\x1b[0m"; } } for (; a < args.length; a++) { if (a > 0) { string += " "; } if (typeof args[a] == "string") { string += args[a]; } else { // Use default maximum depth for null or undefined arguments. string += inspectValue(args[a], 0, rInspectOptions); } } if (rInspectOptions.indentLevel > 0) { const groupIndent = StringPrototypeRepeat( DEFAULT_INDENT, rInspectOptions.indentLevel, ); string = groupIndent + StringPrototypeReplaceAll(string, "\n", `\n${groupIndent}`); } return string; } const countMap = new Map(); const timerMap = new Map(); const isConsoleInstance = Symbol("isConsoleInstance"); function getConsoleInspectOptions() { return { ...DEFAULT_INSPECT_OPTIONS, colors: !colors.getNoColor(), }; } class Console { #printFunc = null; [isConsoleInstance] = false; constructor(printFunc) { this.#printFunc = printFunc; this.indentLevel = 0; this[isConsoleInstance] = true; // ref https://console.spec.whatwg.org/#console-namespace // For historical web-compatibility reasons, the namespace object for // console must have as its [[Prototype]] an empty object, created as if // by ObjectCreate(%ObjectPrototype%), instead of %ObjectPrototype%. const console = ObjectCreate({}, { [SymbolToStringTag]: { enumerable: false, writable: false, configurable: true, value: "console", }, }); ObjectAssign(console, this); return console; } log = (...args) => { this.#printFunc( inspectArgs(args, { ...getConsoleInspectOptions(), indentLevel: this.indentLevel, }) + "\n", 1, ); }; debug = (...args) => { this.#printFunc( inspectArgs(args, { ...getConsoleInspectOptions(), indentLevel: this.indentLevel, }) + "\n", 0, ); }; info = (...args) => { this.#printFunc( inspectArgs(args, { ...getConsoleInspectOptions(), indentLevel: this.indentLevel, }) + "\n", 1, ); }; dir = (obj = undefined, options = {}) => { this.#printFunc( inspectArgs([obj], { ...getConsoleInspectOptions(), ...options }) + "\n", 1, ); }; dirxml = this.dir; warn = (...args) => { this.#printFunc( inspectArgs(args, { ...getConsoleInspectOptions(), indentLevel: this.indentLevel, }) + "\n", 2, ); }; error = (...args) => { this.#printFunc( inspectArgs(args, { ...getConsoleInspectOptions(), indentLevel: this.indentLevel, }) + "\n", 3, ); }; assert = (condition = false, ...args) => { if (condition) { return; } if (args.length === 0) { this.error("Assertion failed"); return; } const [first, ...rest] = args; if (typeof first === "string") { this.error( `Assertion failed: ${first}`, ...new SafeArrayIterator(rest), ); return; } this.error(`Assertion failed:`, ...new SafeArrayIterator(args)); }; count = (label = "default") => { label = String(label); if (MapPrototypeHas(countMap, label)) { const current = MapPrototypeGet(countMap, label) || 0; MapPrototypeSet(countMap, label, current + 1); } else { MapPrototypeSet(countMap, label, 1); } this.info(`${label}: ${MapPrototypeGet(countMap, label)}`); }; countReset = (label = "default") => { label = String(label); if (MapPrototypeHas(countMap, label)) { MapPrototypeSet(countMap, label, 0); } else { this.warn(`Count for '${label}' does not exist`); } }; table = (data = undefined, properties = undefined) => { if (properties !== undefined && !ArrayIsArray(properties)) { throw new Error( "The 'properties' argument must be of type Array. " + "Received type string", ); } if (data === null || typeof data !== "object") { return this.log(data); } const stringifyValue = (value) => inspectValueWithQuotes(value, 0, { ...DEFAULT_INSPECT_OPTIONS, depth: 1, }); const toTable = (header, body) => this.log(cliTable(header, body)); let resultData; const isSet = ObjectPrototypeIsPrototypeOf(SetPrototype, data); const isMap = ObjectPrototypeIsPrototypeOf(MapPrototype, data); const valuesKey = "Values"; const indexKey = isSet || isMap ? "(iter idx)" : "(idx)"; if (isSet) { resultData = [...new SafeSet(data)]; } else if (isMap) { let idx = 0; resultData = {}; MapPrototypeForEach(data, (v, k) => { resultData[idx] = { Key: k, Values: v }; idx++; }); } else { resultData = data; } const keys = ObjectKeys(resultData); const numRows = keys.length; const objectValues = properties ? ObjectFromEntries( ArrayPrototypeMap( properties, (name) => [name, ArrayPrototypeFill(new Array(numRows), "")], ), ) : {}; const indexKeys = []; const values = []; let hasPrimitives = false; keys.forEach((k, idx) => { const value = resultData[k]; const primitive = value === null || (typeof value !== "function" && typeof value !== "object"); if (properties === undefined && primitive) { hasPrimitives = true; ArrayPrototypePush(values, stringifyValue(value)); } else { const valueObj = value || {}; const keys = properties || ObjectKeys(valueObj); for (const k of keys) { if (!primitive && ReflectHas(valueObj, k)) { if (!(ReflectHas(objectValues, k))) { objectValues[k] = ArrayPrototypeFill(new Array(numRows), ""); } objectValues[k][idx] = stringifyValue(valueObj[k]); } } ArrayPrototypePush(values, ""); } ArrayPrototypePush(indexKeys, k); }); const headerKeys = ObjectKeys(objectValues); const bodyValues = ObjectValues(objectValues); const headerProps = properties || [ ...new SafeArrayIterator(headerKeys), !isMap && hasPrimitives && valuesKey, ]; const header = ArrayPrototypeFilter([ indexKey, ...new SafeArrayIterator(headerProps), ], Boolean); const body = [indexKeys, ...new SafeArrayIterator(bodyValues), values]; toTable(header, body); }; time = (label = "default") => { label = String(label); if (MapPrototypeHas(timerMap, label)) { this.warn(`Timer '${label}' already exists`); return; } MapPrototypeSet(timerMap, label, DateNow()); }; timeLog = (label = "default", ...args) => { label = String(label); if (!MapPrototypeHas(timerMap, label)) { this.warn(`Timer '${label}' does not exists`); return; } const startTime = MapPrototypeGet(timerMap, label); const duration = DateNow() - startTime; this.info(`${label}: ${duration}ms`, ...new SafeArrayIterator(args)); }; timeEnd = (label = "default") => { label = String(label); if (!MapPrototypeHas(timerMap, label)) { this.warn(`Timer '${label}' does not exists`); return; } const startTime = MapPrototypeGet(timerMap, label); MapPrototypeDelete(timerMap, label); const duration = DateNow() - startTime; this.info(`${label}: ${duration}ms`); }; group = (...label) => { if (label.length > 0) { this.log(...new SafeArrayIterator(label)); } this.indentLevel += 2; }; groupCollapsed = this.group; groupEnd = () => { if (this.indentLevel > 0) { this.indentLevel -= 2; } }; clear = () => { this.indentLevel = 0; this.#printFunc(CSI.kClear, 1); this.#printFunc(CSI.kClearScreenDown, 1); }; trace = (...args) => { const message = inspectArgs( args, { ...getConsoleInspectOptions(), indentLevel: 0 }, ); const err = { name: "Trace", message, }; ErrorCaptureStackTrace(err, this.trace); this.error(err.stack); }; static [SymbolHasInstance](instance) { return instance[isConsoleInstance]; } } const customInspect = SymbolFor("Deno.customInspect"); function inspect( value, inspectOptions = {}, ) { circular = undefined; return inspectValue(value, 0, { ...DEFAULT_INSPECT_OPTIONS, ...inspectOptions, // TODO(nayeemrmn): Indent level is not supported. indentLevel: 0, }); } /** Creates a proxy that represents a subset of the properties * of the original object optionally without evaluating the properties * in order to get the values. */ function createFilteredInspectProxy({ object, keys, evaluate }) { return new Proxy({}, { get(_target, key) { if (key === SymbolToStringTag) { return object.constructor?.name; } else if (ArrayPrototypeIncludes(keys, key)) { return ReflectGet(object, key); } else { return undefined; } }, getOwnPropertyDescriptor(_target, key) { if (!ArrayPrototypeIncludes(keys, key)) { return undefined; } else if (evaluate) { return getEvaluatedDescriptor(object, key); } else { return getDescendantPropertyDescriptor(object, key) ?? getEvaluatedDescriptor(object, key); } }, has(_target, key) { return ArrayPrototypeIncludes(keys, key); }, ownKeys() { return keys; }, }); function getDescendantPropertyDescriptor(object, key) { let propertyDescriptor = ReflectGetOwnPropertyDescriptor(object, key); if (!propertyDescriptor) { const prototype = ReflectGetPrototypeOf(object); if (prototype) { propertyDescriptor = getDescendantPropertyDescriptor(prototype, key); } } return propertyDescriptor; } function getEvaluatedDescriptor(object, key) { return { configurable: true, enumerable: true, value: object[key], }; } } // A helper function that will bind our own console implementation // with default implementation of Console from V8. This will cause // console messages to be piped to inspector console. // // We are using `Deno.core.callConsole` binding to preserve proper stack // frames in inspector console. This has to be done because V8 considers // the last JS stack frame as gospel for the inspector. In our case we // specifically want the latest user stack frame to be the one that matters // though. // // Inspired by: // https://github.com/nodejs/node/blob/1317252dfe8824fd9cfee125d2aaa94004db2f3b/lib/internal/util/inspector.js#L39-L61 function wrapConsole(consoleFromDeno, consoleFromV8) { const callConsole = core.callConsole; for (const key of ObjectKeys(consoleFromV8)) { if (ObjectPrototypeHasOwnProperty(consoleFromDeno, key)) { consoleFromDeno[key] = FunctionPrototypeBind( callConsole, consoleFromDeno, consoleFromV8[key], consoleFromDeno[key], ); } } } // Expose these fields to internalObject for tests. window.__bootstrap.internals = { ...window.__bootstrap.internals ?? {}, Console, cssToAnsi, inspectArgs, parseCss, parseCssColor, }; window.__bootstrap.console = { CSI, inspectArgs, Console, customInspect, inspect, wrapConsole, createFilteredInspectProxy, }; })(this);