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denoland-deno/std/encoding/toml.ts
Bartek Iwańczuk 8e914be742
build: migrate to dlint (#8176)
This commit migrates repository from using "eslint" 
to "dlint" for linting JavaScript code.
2020-11-03 16:19:29 +01:00

658 lines
19 KiB
TypeScript

// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license.
import { deepAssign } from "../_util/deep_assign.ts";
import { assert } from "../_util/assert.ts";
class TOMLError extends Error {}
class KeyValuePair {
constructor(public key: string, public value: unknown) {}
}
class ParserGroup {
arrValues: unknown[] = [];
objValues: Record<string, unknown> = {};
constructor(public type: string, public name: string) {}
}
class ParserContext {
currentGroup?: ParserGroup;
output: Record<string, unknown> = {};
}
class Parser {
tomlLines: string[];
context: ParserContext;
constructor(tomlString: string) {
this.tomlLines = this._split(tomlString);
this.context = new ParserContext();
}
_sanitize(): void {
const out: string[] = [];
for (let i = 0; i < this.tomlLines.length; i++) {
const s = this.tomlLines[i];
const trimmed = s.trim();
if (trimmed !== "") {
out.push(s);
}
}
this.tomlLines = out;
this._removeComments();
this._mergeMultilines();
}
_removeComments(): void {
function isFullLineComment(line: string) {
return line.match(/^#/) ? true : false;
}
function stringStart(line: string) {
const m = line.match(/(?:=\s*\[?\s*)("""|'''|"|')/);
if (!m) {
return false;
}
// We want to know which syntax was used to open the string
openStringSyntax = m[1];
return true;
}
function stringEnd(line: string) {
// match the syntax used to open the string when searching for string close
// e.g. if we open with ''' we must close with a '''
const reg = RegExp(`(?<!(=\\s*))${openStringSyntax}(?!(.*"))`);
if (!line.match(reg)) {
return false;
}
openStringSyntax = "";
return true;
}
const cleaned = [];
let isOpenString = false;
let openStringSyntax = "";
for (let i = 0; i < this.tomlLines.length; i++) {
const line = this.tomlLines[i];
// stringStart and stringEnd are separate conditions to
// support both single-line and multi-line strings
if (!isOpenString && stringStart(line)) {
isOpenString = true;
}
if (isOpenString && stringEnd(line)) {
isOpenString = false;
}
if (!isOpenString && !isFullLineComment(line)) {
const out = line.split(
/(?<=([\,\[\]\{\}]|".*"|'.*'|\w(?!.*("|')+))\s*)#/gi,
);
cleaned.push(out[0].trim());
} else if (isOpenString || !isFullLineComment(line)) {
cleaned.push(line);
}
// If a single line comment doesnt end on the same line, throw error
if (
isOpenString && (openStringSyntax === "'" || openStringSyntax === '"')
) {
throw new TOMLError(`Single-line string is not closed:\n${line}`);
}
}
if (isOpenString) {
throw new TOMLError(`Incomplete string until EOF`);
}
this.tomlLines = cleaned;
}
_mergeMultilines(): void {
function arrayStart(line: string): boolean {
const reg = /.*=\s*\[/g;
return reg.test(line) && !(line[line.length - 1] === "]");
}
function arrayEnd(line: string): boolean {
return line[line.length - 1] === "]";
}
function stringStart(line: string): boolean {
const m = line.match(/.*=\s*(?:\"\"\"|''')/);
if (!m) {
return false;
}
return !line.endsWith(`"""`) || !line.endsWith(`'''`);
}
function stringEnd(line: string): boolean {
return line.endsWith(`'''`) || line.endsWith(`"""`);
}
function isLiteralString(line: string): boolean {
return line.match(/'''/) ? true : false;
}
const merged = [];
let acc = [],
isLiteral = false,
capture = false,
captureType = "",
merge = false;
for (let i = 0; i < this.tomlLines.length; i++) {
const line = this.tomlLines[i];
const trimmed = line.trim();
if (!capture && arrayStart(trimmed)) {
capture = true;
captureType = "array";
} else if (!capture && stringStart(trimmed)) {
isLiteral = isLiteralString(trimmed);
capture = true;
captureType = "string";
} else if (capture && arrayEnd(trimmed)) {
merge = true;
} else if (capture && stringEnd(trimmed)) {
merge = true;
}
if (capture) {
if (isLiteral) {
acc.push(line);
} else {
acc.push(trimmed);
}
} else {
if (isLiteral) {
merged.push(line);
} else {
merged.push(trimmed);
}
}
if (merge) {
capture = false;
merge = false;
if (captureType === "string") {
merged.push(
acc
.join("\n")
.replace(/"""/g, '"')
.replace(/'''/g, `'`)
.replace(/\n/g, "\\n"),
);
isLiteral = false;
} else {
merged.push(acc.join(""));
}
captureType = "";
acc = [];
}
}
this.tomlLines = merged;
}
_unflat(
keys: string[],
values: Record<string, unknown> | unknown[] = {},
cObj: Record<string, unknown> | unknown[] = {},
): Record<string, unknown> {
const out: Record<string, unknown> = {};
if (keys.length === 0) {
return cObj as Record<string, unknown>;
} else {
if (Object.keys(cObj).length === 0) {
cObj = values;
}
const key: string | undefined = keys.pop();
if (key) {
out[key] = cObj;
}
return this._unflat(keys, values, out);
}
}
_groupToOutput(): void {
assert(this.context.currentGroup != null, "currentGroup must be set");
const arrProperty = this.context.currentGroup.name
.replace(/"/g, "")
.replace(/'/g, "")
.split(".");
let u = {};
if (this.context.currentGroup.type === "array") {
u = this._unflat(arrProperty, this.context.currentGroup.arrValues);
} else {
u = this._unflat(arrProperty, this.context.currentGroup.objValues);
}
deepAssign(this.context.output, u);
delete this.context.currentGroup;
}
_split(str: string): string[] {
const out = [];
out.push(...str.split("\n"));
return out;
}
_isGroup(line: string): boolean {
const t = line.trim();
return t[0] === "[" && /\[(.*)\]/.exec(t) ? true : false;
}
_isDeclaration(line: string): boolean {
return line.split("=").length > 1;
}
_createGroup(line: string): void {
const captureReg = /\[(.*)\]/;
if (this.context.currentGroup) {
this._groupToOutput();
}
let type;
let m = line.match(captureReg);
assert(m != null, "line mut be matched");
let name = m[1];
if (name.match(/\[.*\]/)) {
type = "array";
m = name.match(captureReg);
assert(m != null, "name must be matched");
name = m[1];
} else {
type = "object";
}
this.context.currentGroup = new ParserGroup(type, name);
}
_processDeclaration(line: string): KeyValuePair {
const idx = line.indexOf("=");
const key = line.substring(0, idx).trim();
const value = this._parseData(line.slice(idx + 1));
return new KeyValuePair(key, value);
}
// TODO (zekth) Need refactor using ACC
_parseData(dataString: string): unknown {
dataString = dataString.trim();
if (this._isDate(dataString)) {
return new Date(dataString.split("#")[0].trim());
}
if (this._isLocalTime(dataString)) {
return eval(`"${dataString.split("#")[0].trim()}"`);
}
const cut3 = dataString.substring(0, 3).toLowerCase();
const cut4 = dataString.substring(0, 4).toLowerCase();
if (cut3 === "inf" || cut4 === "+inf") {
return Infinity;
}
if (cut4 === "-inf") {
return -Infinity;
}
if (cut3 === "nan" || cut4 === "+nan" || cut4 === "-nan") {
return NaN;
}
// If binary / octal / hex
const hex = /^(0(?:x|o|b)[0-9a-f_]*)[^#]/gi.exec(dataString);
if (hex && hex[0]) {
return hex[0].trim();
}
const testNumber = this._isParsableNumber(dataString);
if (testNumber && !isNaN(testNumber as number)) {
return testNumber;
}
const invalidArr = /,\]/g.exec(dataString);
if (invalidArr) {
dataString = dataString.replace(/,]/g, "]");
}
if (
(dataString[0] === "{" && dataString[dataString.length - 1] === "}") ||
(dataString[0] === "[" && dataString[dataString.length - 1] === "]")
) {
const reg = /([a-zA-Z0-9-_\.]*) (=)/gi;
let result;
while ((result = reg.exec(dataString))) {
const ogVal = result[0];
const newVal = ogVal
.replace(result[1], `"${result[1]}"`)
.replace(result[2], ":");
dataString = dataString.replace(ogVal, newVal);
}
return JSON.parse(dataString);
}
// Handle First and last EOL for multiline strings
if (dataString.startsWith(`"\\n`)) {
dataString = dataString.replace(`"\\n`, `"`);
} else if (dataString.startsWith(`'\\n`)) {
dataString = dataString.replace(`'\\n`, `'`);
}
if (dataString.endsWith(`\\n"`)) {
dataString = dataString.replace(`\\n"`, `"`);
} else if (dataString.endsWith(`\\n'`)) {
dataString = dataString.replace(`\\n'`, `'`);
}
return eval(dataString);
}
_isLocalTime(str: string): boolean {
const reg = /(\d{2}):(\d{2}):(\d{2})/;
return reg.test(str);
}
_isParsableNumber(dataString: string): number | boolean {
const m = /((?:\+|-|)[0-9_\.e+\-]*)[^#]/i.exec(dataString.trim());
if (!m) {
return false;
} else {
return parseFloat(m[0].replace(/_/g, ""));
}
}
_isDate(dateStr: string): boolean {
const reg = /\d{4}-\d{2}-\d{2}/;
return reg.test(dateStr);
}
_parseDeclarationName(declaration: string): string[] {
const out = [];
let acc = [];
let inLiteral = false;
for (let i = 0; i < declaration.length; i++) {
const c = declaration[i];
switch (c) {
case ".":
if (!inLiteral) {
out.push(acc.join(""));
acc = [];
} else {
acc.push(c);
}
break;
case `"`:
if (inLiteral) {
inLiteral = false;
} else {
inLiteral = true;
}
break;
default:
acc.push(c);
break;
}
}
if (acc.length !== 0) {
out.push(acc.join(""));
}
return out;
}
_parseLines(): void {
for (let i = 0; i < this.tomlLines.length; i++) {
const line = this.tomlLines[i];
// TODO (zekth) Handle unflat of array of tables
if (this._isGroup(line)) {
// if the current group is an array we push the
// parsed objects in it.
if (
this.context.currentGroup &&
this.context.currentGroup.type === "array"
) {
this.context.currentGroup.arrValues.push(
this.context.currentGroup.objValues,
);
this.context.currentGroup.objValues = {};
}
// If we need to create a group or to change group
if (
!this.context.currentGroup ||
(this.context.currentGroup &&
this.context.currentGroup.name !==
line.replace(/\[/g, "").replace(/\]/g, ""))
) {
this._createGroup(line);
continue;
}
}
if (this._isDeclaration(line)) {
const kv = this._processDeclaration(line);
const key = kv.key;
const value = kv.value;
if (!this.context.currentGroup) {
this.context.output[key] = value;
} else {
this.context.currentGroup.objValues[key] = value;
}
}
}
if (this.context.currentGroup) {
if (this.context.currentGroup.type === "array") {
this.context.currentGroup.arrValues.push(
this.context.currentGroup.objValues,
);
}
this._groupToOutput();
}
}
_cleanOutput(): void {
this._propertyClean(this.context.output);
}
_propertyClean(obj: Record<string, unknown>): void {
const keys = Object.keys(obj);
for (let i = 0; i < keys.length; i++) {
let k = keys[i];
if (k) {
let v = obj[k];
const pathDeclaration = this._parseDeclarationName(k);
delete obj[k];
if (pathDeclaration.length > 1) {
const shift = pathDeclaration.shift();
if (shift) {
k = shift.replace(/"/g, "");
v = this._unflat(pathDeclaration, v as Record<string, unknown>);
}
} else {
k = k.replace(/"/g, "");
}
obj[k] = v;
if (v instanceof Object) {
// deno-lint-ignore no-explicit-any
this._propertyClean(v as any);
}
}
}
}
parse(): Record<string, unknown> {
this._sanitize();
this._parseLines();
this._cleanOutput();
return this.context.output;
}
}
// Bare keys may only contain ASCII letters,
// ASCII digits, underscores, and dashes (A-Za-z0-9_-).
function joinKeys(keys: string[]): string {
// Dotted keys are a sequence of bare or quoted keys joined with a dot.
// This allows for grouping similar properties together:
return keys
.map((str: string): string => {
return str.match(/[^A-Za-z0-9_-]/) ? `"${str}"` : str;
})
.join(".");
}
class Dumper {
maxPad = 0;
srcObject: Record<string, unknown>;
output: string[] = [];
constructor(srcObjc: Record<string, unknown>) {
this.srcObject = srcObjc;
}
dump(): string[] {
// deno-lint-ignore no-explicit-any
this.output = this._parse(this.srcObject as any);
this.output = this._format();
return this.output;
}
_parse(obj: Record<string, unknown>, keys: string[] = []): string[] {
const out = [];
const props = Object.keys(obj);
const propObj = props.filter((e: string): boolean => {
if (obj[e] instanceof Array) {
const d: unknown[] = obj[e] as unknown[];
return !this._isSimplySerializable(d[0]);
}
return !this._isSimplySerializable(obj[e]);
});
const propPrim = props.filter((e: string): boolean => {
if (obj[e] instanceof Array) {
const d: unknown[] = obj[e] as unknown[];
return this._isSimplySerializable(d[0]);
}
return this._isSimplySerializable(obj[e]);
});
const k = propPrim.concat(propObj);
for (let i = 0; i < k.length; i++) {
const prop = k[i];
const value = obj[prop];
if (value instanceof Date) {
out.push(this._dateDeclaration([prop], value));
} else if (typeof value === "string" || value instanceof RegExp) {
out.push(this._strDeclaration([prop], value.toString()));
} else if (typeof value === "number") {
out.push(this._numberDeclaration([prop], value));
} else if (typeof value === "boolean") {
out.push(this._boolDeclaration([prop], value));
} else if (
value instanceof Array &&
this._isSimplySerializable(value[0])
) {
// only if primitives types in the array
out.push(this._arrayDeclaration([prop], value));
} else if (
value instanceof Array &&
!this._isSimplySerializable(value[0])
) {
// array of objects
for (let i = 0; i < value.length; i++) {
out.push("");
out.push(this._headerGroup([...keys, prop]));
out.push(...this._parse(value[i], [...keys, prop]));
}
} else if (typeof value === "object") {
out.push("");
out.push(this._header([...keys, prop]));
if (value) {
const toParse = value as Record<string, unknown>;
out.push(...this._parse(toParse, [...keys, prop]));
}
// out.push(...this._parse(value, `${path}${prop}.`));
}
}
out.push("");
return out;
}
_isSimplySerializable(value: unknown): boolean {
return (
typeof value === "string" ||
typeof value === "number" ||
typeof value === "boolean" ||
value instanceof RegExp ||
value instanceof Date ||
value instanceof Array
);
}
_header(keys: string[]): string {
return `[${joinKeys(keys)}]`;
}
_headerGroup(keys: string[]): string {
return `[[${joinKeys(keys)}]]`;
}
_declaration(keys: string[]): string {
const title = joinKeys(keys);
if (title.length > this.maxPad) {
this.maxPad = title.length;
}
return `${title} = `;
}
_arrayDeclaration(keys: string[], value: unknown[]): string {
return `${this._declaration(keys)}${JSON.stringify(value)}`;
}
_strDeclaration(keys: string[], value: string): string {
return `${this._declaration(keys)}"${value}"`;
}
_numberDeclaration(keys: string[], value: number): string {
switch (value) {
case Infinity:
return `${this._declaration(keys)}inf`;
case -Infinity:
return `${this._declaration(keys)}-inf`;
default:
return `${this._declaration(keys)}${value}`;
}
}
_boolDeclaration(keys: string[], value: boolean): string {
return `${this._declaration(keys)}${value}`;
}
_dateDeclaration(keys: string[], value: Date): string {
function dtPad(v: string, lPad = 2): string {
return v.padStart(lPad, "0");
}
const m = dtPad((value.getUTCMonth() + 1).toString());
const d = dtPad(value.getUTCDate().toString());
const h = dtPad(value.getUTCHours().toString());
const min = dtPad(value.getUTCMinutes().toString());
const s = dtPad(value.getUTCSeconds().toString());
const ms = dtPad(value.getUTCMilliseconds().toString(), 3);
// formated date
const fData = `${value.getUTCFullYear()}-${m}-${d}T${h}:${min}:${s}.${ms}`;
return `${this._declaration(keys)}${fData}`;
}
_format(): string[] {
const rDeclaration = /(.*)\s=/;
const out = [];
for (let i = 0; i < this.output.length; i++) {
const l = this.output[i];
// we keep empty entry for array of objects
if (l[0] === "[" && l[1] !== "[") {
// empty object
if (this.output[i + 1] === "") {
i += 1;
continue;
}
out.push(l);
} else {
const m = rDeclaration.exec(l);
if (m) {
out.push(l.replace(m[1], m[1].padEnd(this.maxPad)));
} else {
out.push(l);
}
}
}
// Cleaning multiple spaces
const cleanedOutput = [];
for (let i = 0; i < out.length; i++) {
const l = out[i];
if (!(l === "" && out[i + 1] === "")) {
cleanedOutput.push(l);
}
}
return cleanedOutput;
}
}
/**
* Stringify dumps source object into TOML string and returns it.
* @param srcObj
*/
export function stringify(srcObj: Record<string, unknown>): string {
return new Dumper(srcObj).dump().join("\n");
}
/**
* Parse parses TOML string into an object.
* @param tomlString
*/
export function parse(tomlString: string): Record<string, unknown> {
// File is potentially using EOL CRLF
tomlString = tomlString.replace(/\r\n/g, "\n").replace(/\\\n/g, "\n");
return new Parser(tomlString).parse();
}