swc/bundler/tests/.cache/deno/930cdcb3788f30348526fcff522f787686532e60.ts
강동윤 bbaf619f63
fix(bundler): Fix bugs (#1437)
swc_bundler:
 - [x] Fix wrapped esms. (denoland/deno#9307)
 - [x] Make test secure.
2021-03-02 17:33:03 +09:00

622 lines
15 KiB
TypeScript

// Loaded from https://deno.land/x/path_to_regexp@v6.2.0/index.ts
/**
* Tokenizer results.
*/
interface LexToken {
type:
| "OPEN"
| "CLOSE"
| "PATTERN"
| "NAME"
| "CHAR"
| "ESCAPED_CHAR"
| "MODIFIER"
| "END";
index: number;
value: string;
}
/**
* Tokenize input string.
*/
function lexer(str: string): LexToken[] {
const tokens: LexToken[] = [];
let i = 0;
while (i < str.length) {
const char = str[i];
if (char === "*" || char === "+" || char === "?") {
tokens.push({ type: "MODIFIER", index: i, value: str[i++] });
continue;
}
if (char === "\\") {
tokens.push({ type: "ESCAPED_CHAR", index: i++, value: str[i++] });
continue;
}
if (char === "{") {
tokens.push({ type: "OPEN", index: i, value: str[i++] });
continue;
}
if (char === "}") {
tokens.push({ type: "CLOSE", index: i, value: str[i++] });
continue;
}
if (char === ":") {
let name = "";
let j = i + 1;
while (j < str.length) {
const code = str.charCodeAt(j);
if (
// `0-9`
(code >= 48 && code <= 57) ||
// `A-Z`
(code >= 65 && code <= 90) ||
// `a-z`
(code >= 97 && code <= 122) ||
// `_`
code === 95
) {
name += str[j++];
continue;
}
break;
}
if (!name) throw new TypeError(`Missing parameter name at ${i}`);
tokens.push({ type: "NAME", index: i, value: name });
i = j;
continue;
}
if (char === "(") {
let count = 1;
let pattern = "";
let j = i + 1;
if (str[j] === "?") {
throw new TypeError(`Pattern cannot start with "?" at ${j}`);
}
while (j < str.length) {
if (str[j] === "\\") {
pattern += str[j++] + str[j++];
continue;
}
if (str[j] === ")") {
count--;
if (count === 0) {
j++;
break;
}
} else if (str[j] === "(") {
count++;
if (str[j + 1] !== "?") {
throw new TypeError(`Capturing groups are not allowed at ${j}`);
}
}
pattern += str[j++];
}
if (count) throw new TypeError(`Unbalanced pattern at ${i}`);
if (!pattern) throw new TypeError(`Missing pattern at ${i}`);
tokens.push({ type: "PATTERN", index: i, value: pattern });
i = j;
continue;
}
tokens.push({ type: "CHAR", index: i, value: str[i++] });
}
tokens.push({ type: "END", index: i, value: "" });
return tokens;
}
export interface ParseOptions {
/**
* Set the default delimiter for repeat parameters. (default: `'/'`)
*/
delimiter?: string;
/**
* List of characters to automatically consider prefixes when parsing.
*/
prefixes?: string;
}
/**
* Parse a string for the raw tokens.
*/
export function parse(str: string, options: ParseOptions = {}): Token[] {
const tokens = lexer(str);
const { prefixes = "./" } = options;
const defaultPattern = `[^${escapeString(options.delimiter || "/#?")}]+?`;
const result: Token[] = [];
let key = 0;
let i = 0;
let path = "";
const tryConsume = (type: LexToken["type"]): string | undefined => {
if (i < tokens.length && tokens[i].type === type) return tokens[i++].value;
};
const mustConsume = (type: LexToken["type"]): string => {
const value = tryConsume(type);
if (value !== undefined) return value;
const { type: nextType, index } = tokens[i];
throw new TypeError(`Unexpected ${nextType} at ${index}, expected ${type}`);
};
const consumeText = (): string => {
let result = "";
let value: string | undefined;
// tslint:disable-next-line
while ((value = tryConsume("CHAR") || tryConsume("ESCAPED_CHAR"))) {
result += value;
}
return result;
};
while (i < tokens.length) {
const char = tryConsume("CHAR");
const name = tryConsume("NAME");
const pattern = tryConsume("PATTERN");
if (name || pattern) {
let prefix = char || "";
if (prefixes.indexOf(prefix) === -1) {
path += prefix;
prefix = "";
}
if (path) {
result.push(path);
path = "";
}
result.push({
name: name || key++,
prefix,
suffix: "",
pattern: pattern || defaultPattern,
modifier: tryConsume("MODIFIER") || ""
});
continue;
}
const value = char || tryConsume("ESCAPED_CHAR");
if (value) {
path += value;
continue;
}
if (path) {
result.push(path);
path = "";
}
const open = tryConsume("OPEN");
if (open) {
const prefix = consumeText();
const name = tryConsume("NAME") || "";
const pattern = tryConsume("PATTERN") || "";
const suffix = consumeText();
mustConsume("CLOSE");
result.push({
name: name || (pattern ? key++ : ""),
pattern: name && !pattern ? defaultPattern : pattern,
prefix,
suffix,
modifier: tryConsume("MODIFIER") || ""
});
continue;
}
mustConsume("END");
}
return result;
}
export interface TokensToFunctionOptions {
/**
* When `true` the regexp will be case sensitive. (default: `false`)
*/
sensitive?: boolean;
/**
* Function for encoding input strings for output.
*/
encode?: (value: string, token: Key) => string;
/**
* When `false` the function can produce an invalid (unmatched) path. (default: `true`)
*/
validate?: boolean;
}
/**
* Compile a string to a template function for the path.
*/
export function compile<P extends object = object>(
str: string,
options?: ParseOptions & TokensToFunctionOptions
) {
return tokensToFunction<P>(parse(str, options), options);
}
export type PathFunction<P extends object = object> = (data?: P) => string;
/**
* Expose a method for transforming tokens into the path function.
*/
export function tokensToFunction<P extends object = object>(
tokens: Token[],
options: TokensToFunctionOptions = {}
): PathFunction<P> {
const reFlags = flags(options);
const { encode = (x: string) => x, validate = true } = options;
// Compile all the tokens into regexps.
const matches = tokens.map(token => {
if (typeof token === "object") {
return new RegExp(`^(?:${token.pattern})$`, reFlags);
}
});
return (data: Record<string, any> | null | undefined) => {
let path = "";
for (let i = 0; i < tokens.length; i++) {
const token = tokens[i];
if (typeof token === "string") {
path += token;
continue;
}
const value = data ? data[token.name] : undefined;
const optional = token.modifier === "?" || token.modifier === "*";
const repeat = token.modifier === "*" || token.modifier === "+";
if (Array.isArray(value)) {
if (!repeat) {
throw new TypeError(
`Expected "${token.name}" to not repeat, but got an array`
);
}
if (value.length === 0) {
if (optional) continue;
throw new TypeError(`Expected "${token.name}" to not be empty`);
}
for (let j = 0; j < value.length; j++) {
const segment = encode(value[j], token);
if (validate && !(matches[i] as RegExp).test(segment)) {
throw new TypeError(
`Expected all "${token.name}" to match "${token.pattern}", but got "${segment}"`
);
}
path += token.prefix + segment + token.suffix;
}
continue;
}
if (typeof value === "string" || typeof value === "number") {
const segment = encode(String(value), token);
if (validate && !(matches[i] as RegExp).test(segment)) {
throw new TypeError(
`Expected "${token.name}" to match "${token.pattern}", but got "${segment}"`
);
}
path += token.prefix + segment + token.suffix;
continue;
}
if (optional) continue;
const typeOfMessage = repeat ? "an array" : "a string";
throw new TypeError(`Expected "${token.name}" to be ${typeOfMessage}`);
}
return path;
};
}
export interface RegexpToFunctionOptions {
/**
* Function for decoding strings for params.
*/
decode?: (value: string, token: Key) => string;
}
/**
* A match result contains data about the path match.
*/
export interface MatchResult<P extends object = object> {
path: string;
index: number;
params: P;
}
/**
* A match is either `false` (no match) or a match result.
*/
export type Match<P extends object = object> = false | MatchResult<P>;
/**
* The match function takes a string and returns whether it matched the path.
*/
export type MatchFunction<P extends object = object> = (
path: string
) => Match<P>;
/**
* Create path match function from `path-to-regexp` spec.
*/
export function match<P extends object = object>(
str: Path,
options?: ParseOptions & TokensToRegexpOptions & RegexpToFunctionOptions
) {
const keys: Key[] = [];
const re = pathToRegexp(str, keys, options);
return regexpToFunction<P>(re, keys, options);
}
/**
* Create a path match function from `path-to-regexp` output.
*/
export function regexpToFunction<P extends object = object>(
re: RegExp,
keys: Key[],
options: RegexpToFunctionOptions = {}
): MatchFunction<P> {
const { decode = (x: string) => x } = options;
return function(pathname: string) {
const m = re.exec(pathname);
if (!m) return false;
const { 0: path, index } = m;
const params = Object.create(null);
for (let i = 1; i < m.length; i++) {
// tslint:disable-next-line
if (m[i] === undefined) continue;
const key = keys[i - 1];
if (key.modifier === "*" || key.modifier === "+") {
params[key.name] = m[i].split(key.prefix + key.suffix).map(value => {
return decode(value, key);
});
} else {
params[key.name] = decode(m[i], key);
}
}
return { path, index, params };
};
}
/**
* Escape a regular expression string.
*/
function escapeString(str: string) {
return str.replace(/([.+*?=^!:${}()[\]|/\\])/g, "\\$1");
}
/**
* Get the flags for a regexp from the options.
*/
function flags(options?: { sensitive?: boolean }) {
return options && options.sensitive ? "" : "i";
}
/**
* Metadata about a key.
*/
export interface Key {
name: string | number;
prefix: string;
suffix: string;
pattern: string;
modifier: string;
}
/**
* A token is a string (nothing special) or key metadata (capture group).
*/
export type Token = string | Key;
/**
* Pull out keys from a regexp.
*/
function regexpToRegexp(path: RegExp, keys?: Key[]): RegExp {
if (!keys) return path;
const groupsRegex = /\((?:\?<(.*?)>)?(?!\?)/g;
let index = 0;
let execResult = groupsRegex.exec(path.source);
while (execResult) {
keys.push({
// Use parenthesized substring match if available, index otherwise
name: execResult[1] || index++,
prefix: "",
suffix: "",
modifier: "",
pattern: ""
});
execResult = groupsRegex.exec(path.source);
}
return path;
}
/**
* Transform an array into a regexp.
*/
function arrayToRegexp(
paths: Array<string | RegExp>,
keys?: Key[],
options?: TokensToRegexpOptions & ParseOptions
): RegExp {
const parts = paths.map(path => pathToRegexp(path, keys, options).source);
return new RegExp(`(?:${parts.join("|")})`, flags(options));
}
/**
* Create a path regexp from string input.
*/
function stringToRegexp(
path: string,
keys?: Key[],
options?: TokensToRegexpOptions & ParseOptions
) {
return tokensToRegexp(parse(path, options), keys, options);
}
export interface TokensToRegexpOptions {
/**
* When `true` the regexp will be case sensitive. (default: `false`)
*/
sensitive?: boolean;
/**
* When `true` the regexp won't allow an optional trailing delimiter to match. (default: `false`)
*/
strict?: boolean;
/**
* When `true` the regexp will match to the end of the string. (default: `true`)
*/
end?: boolean;
/**
* When `true` the regexp will match from the beginning of the string. (default: `true`)
*/
start?: boolean;
/**
* Sets the final character for non-ending optimistic matches. (default: `/`)
*/
delimiter?: string;
/**
* List of characters that can also be "end" characters.
*/
endsWith?: string;
/**
* Encode path tokens for use in the `RegExp`.
*/
encode?: (value: string) => string;
}
/**
* Expose a function for taking tokens and returning a RegExp.
*/
export function tokensToRegexp(
tokens: Token[],
keys?: Key[],
options: TokensToRegexpOptions = {}
) {
const {
strict = false,
start = true,
end = true,
encode = (x: string) => x
} = options;
const endsWith = `[${escapeString(options.endsWith || "")}]|$`;
const delimiter = `[${escapeString(options.delimiter || "/#?")}]`;
let route = start ? "^" : "";
// Iterate over the tokens and create our regexp string.
for (const token of tokens) {
if (typeof token === "string") {
route += escapeString(encode(token));
} else {
const prefix = escapeString(encode(token.prefix));
const suffix = escapeString(encode(token.suffix));
if (token.pattern) {
if (keys) keys.push(token);
if (prefix || suffix) {
if (token.modifier === "+" || token.modifier === "*") {
const mod = token.modifier === "*" ? "?" : "";
route += `(?:${prefix}((?:${token.pattern})(?:${suffix}${prefix}(?:${token.pattern}))*)${suffix})${mod}`;
} else {
route += `(?:${prefix}(${token.pattern})${suffix})${token.modifier}`;
}
} else {
route += `(${token.pattern})${token.modifier}`;
}
} else {
route += `(?:${prefix}${suffix})${token.modifier}`;
}
}
}
if (end) {
if (!strict) route += `${delimiter}?`;
route += !options.endsWith ? "$" : `(?=${endsWith})`;
} else {
const endToken = tokens[tokens.length - 1];
const isEndDelimited =
typeof endToken === "string"
? delimiter.indexOf(endToken[endToken.length - 1]) > -1
: // tslint:disable-next-line
endToken === undefined;
if (!strict) {
route += `(?:${delimiter}(?=${endsWith}))?`;
}
if (!isEndDelimited) {
route += `(?=${delimiter}|${endsWith})`;
}
}
return new RegExp(route, flags(options));
}
/**
* Supported `path-to-regexp` input types.
*/
export type Path = string | RegExp | Array<string | RegExp>;
/**
* Normalize the given path string, returning a regular expression.
*
* An empty array can be passed in for the keys, which will hold the
* placeholder key descriptions. For example, using `/user/:id`, `keys` will
* contain `[{ name: 'id', delimiter: '/', optional: false, repeat: false }]`.
*/
export function pathToRegexp(
path: Path,
keys?: Key[],
options?: TokensToRegexpOptions & ParseOptions
) {
if (path instanceof RegExp) return regexpToRegexp(path, keys);
if (Array.isArray(path)) return arrayToRegexp(path, keys, options);
return stringToRegexp(path, keys, options);
}