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Quella777
2025-08-18 23:06:34 +08:00
parent 0bc04fb659
commit ed18af0cad
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15
package/node_modules/minimatch/LICENSE generated vendored Normal file
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The ISC License
Copyright (c) 2011-2023 Isaac Z. Schlueter and Contributors
Permission to use, copy, modify, and/or distribute this software for any
purpose with or without fee is hereby granted, provided that the above
copyright notice and this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR
IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.

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package/node_modules/minimatch/dist/commonjs/assert-valid-pattern.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.assertValidPattern = void 0;
const MAX_PATTERN_LENGTH = 1024 * 64;
const assertValidPattern = (pattern) => {
if (typeof pattern !== 'string') {
throw new TypeError('invalid pattern');
}
if (pattern.length > MAX_PATTERN_LENGTH) {
throw new TypeError('pattern is too long');
}
};
exports.assertValidPattern = assertValidPattern;
//# sourceMappingURL=assert-valid-pattern.js.map

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package/node_modules/minimatch/dist/commonjs/ast.js generated vendored Normal file
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"use strict";
// parse a single path portion
Object.defineProperty(exports, "__esModule", { value: true });
exports.AST = void 0;
const brace_expressions_js_1 = require("./brace-expressions.js");
const unescape_js_1 = require("./unescape.js");
const types = new Set(['!', '?', '+', '*', '@']);
const isExtglobType = (c) => types.has(c);
// Patterns that get prepended to bind to the start of either the
// entire string, or just a single path portion, to prevent dots
// and/or traversal patterns, when needed.
// Exts don't need the ^ or / bit, because the root binds that already.
const startNoTraversal = '(?!(?:^|/)\\.\\.?(?:$|/))';
const startNoDot = '(?!\\.)';
// characters that indicate a start of pattern needs the "no dots" bit,
// because a dot *might* be matched. ( is not in the list, because in
// the case of a child extglob, it will handle the prevention itself.
const addPatternStart = new Set(['[', '.']);
// cases where traversal is A-OK, no dot prevention needed
const justDots = new Set(['..', '.']);
const reSpecials = new Set('().*{}+?[]^$\\!');
const regExpEscape = (s) => s.replace(/[-[\]{}()*+?.,\\^$|#\s]/g, '\\$&');
// any single thing other than /
const qmark = '[^/]';
// * => any number of characters
const star = qmark + '*?';
// use + when we need to ensure that *something* matches, because the * is
// the only thing in the path portion.
const starNoEmpty = qmark + '+?';
// remove the \ chars that we added if we end up doing a nonmagic compare
// const deslash = (s: string) => s.replace(/\\(.)/g, '$1')
class AST {
type;
#root;
#hasMagic;
#uflag = false;
#parts = [];
#parent;
#parentIndex;
#negs;
#filledNegs = false;
#options;
#toString;
// set to true if it's an extglob with no children
// (which really means one child of '')
#emptyExt = false;
constructor(type, parent, options = {}) {
this.type = type;
// extglobs are inherently magical
if (type)
this.#hasMagic = true;
this.#parent = parent;
this.#root = this.#parent ? this.#parent.#root : this;
this.#options = this.#root === this ? options : this.#root.#options;
this.#negs = this.#root === this ? [] : this.#root.#negs;
if (type === '!' && !this.#root.#filledNegs)
this.#negs.push(this);
this.#parentIndex = this.#parent ? this.#parent.#parts.length : 0;
}
get hasMagic() {
/* c8 ignore start */
if (this.#hasMagic !== undefined)
return this.#hasMagic;
/* c8 ignore stop */
for (const p of this.#parts) {
if (typeof p === 'string')
continue;
if (p.type || p.hasMagic)
return (this.#hasMagic = true);
}
// note: will be undefined until we generate the regexp src and find out
return this.#hasMagic;
}
// reconstructs the pattern
toString() {
if (this.#toString !== undefined)
return this.#toString;
if (!this.type) {
return (this.#toString = this.#parts.map(p => String(p)).join(''));
}
else {
return (this.#toString =
this.type + '(' + this.#parts.map(p => String(p)).join('|') + ')');
}
}
#fillNegs() {
/* c8 ignore start */
if (this !== this.#root)
throw new Error('should only call on root');
if (this.#filledNegs)
return this;
/* c8 ignore stop */
// call toString() once to fill this out
this.toString();
this.#filledNegs = true;
let n;
while ((n = this.#negs.pop())) {
if (n.type !== '!')
continue;
// walk up the tree, appending everthing that comes AFTER parentIndex
let p = n;
let pp = p.#parent;
while (pp) {
for (let i = p.#parentIndex + 1; !pp.type && i < pp.#parts.length; i++) {
for (const part of n.#parts) {
/* c8 ignore start */
if (typeof part === 'string') {
throw new Error('string part in extglob AST??');
}
/* c8 ignore stop */
part.copyIn(pp.#parts[i]);
}
}
p = pp;
pp = p.#parent;
}
}
return this;
}
push(...parts) {
for (const p of parts) {
if (p === '')
continue;
/* c8 ignore start */
if (typeof p !== 'string' && !(p instanceof AST && p.#parent === this)) {
throw new Error('invalid part: ' + p);
}
/* c8 ignore stop */
this.#parts.push(p);
}
}
toJSON() {
const ret = this.type === null
? this.#parts.slice().map(p => (typeof p === 'string' ? p : p.toJSON()))
: [this.type, ...this.#parts.map(p => p.toJSON())];
if (this.isStart() && !this.type)
ret.unshift([]);
if (this.isEnd() &&
(this === this.#root ||
(this.#root.#filledNegs && this.#parent?.type === '!'))) {
ret.push({});
}
return ret;
}
isStart() {
if (this.#root === this)
return true;
// if (this.type) return !!this.#parent?.isStart()
if (!this.#parent?.isStart())
return false;
if (this.#parentIndex === 0)
return true;
// if everything AHEAD of this is a negation, then it's still the "start"
const p = this.#parent;
for (let i = 0; i < this.#parentIndex; i++) {
const pp = p.#parts[i];
if (!(pp instanceof AST && pp.type === '!')) {
return false;
}
}
return true;
}
isEnd() {
if (this.#root === this)
return true;
if (this.#parent?.type === '!')
return true;
if (!this.#parent?.isEnd())
return false;
if (!this.type)
return this.#parent?.isEnd();
// if not root, it'll always have a parent
/* c8 ignore start */
const pl = this.#parent ? this.#parent.#parts.length : 0;
/* c8 ignore stop */
return this.#parentIndex === pl - 1;
}
copyIn(part) {
if (typeof part === 'string')
this.push(part);
else
this.push(part.clone(this));
}
clone(parent) {
const c = new AST(this.type, parent);
for (const p of this.#parts) {
c.copyIn(p);
}
return c;
}
static #parseAST(str, ast, pos, opt) {
let escaping = false;
let inBrace = false;
let braceStart = -1;
let braceNeg = false;
if (ast.type === null) {
// outside of a extglob, append until we find a start
let i = pos;
let acc = '';
while (i < str.length) {
const c = str.charAt(i++);
// still accumulate escapes at this point, but we do ignore
// starts that are escaped
if (escaping || c === '\\') {
escaping = !escaping;
acc += c;
continue;
}
if (inBrace) {
if (i === braceStart + 1) {
if (c === '^' || c === '!') {
braceNeg = true;
}
}
else if (c === ']' && !(i === braceStart + 2 && braceNeg)) {
inBrace = false;
}
acc += c;
continue;
}
else if (c === '[') {
inBrace = true;
braceStart = i;
braceNeg = false;
acc += c;
continue;
}
if (!opt.noext && isExtglobType(c) && str.charAt(i) === '(') {
ast.push(acc);
acc = '';
const ext = new AST(c, ast);
i = AST.#parseAST(str, ext, i, opt);
ast.push(ext);
continue;
}
acc += c;
}
ast.push(acc);
return i;
}
// some kind of extglob, pos is at the (
// find the next | or )
let i = pos + 1;
let part = new AST(null, ast);
const parts = [];
let acc = '';
while (i < str.length) {
const c = str.charAt(i++);
// still accumulate escapes at this point, but we do ignore
// starts that are escaped
if (escaping || c === '\\') {
escaping = !escaping;
acc += c;
continue;
}
if (inBrace) {
if (i === braceStart + 1) {
if (c === '^' || c === '!') {
braceNeg = true;
}
}
else if (c === ']' && !(i === braceStart + 2 && braceNeg)) {
inBrace = false;
}
acc += c;
continue;
}
else if (c === '[') {
inBrace = true;
braceStart = i;
braceNeg = false;
acc += c;
continue;
}
if (isExtglobType(c) && str.charAt(i) === '(') {
part.push(acc);
acc = '';
const ext = new AST(c, part);
part.push(ext);
i = AST.#parseAST(str, ext, i, opt);
continue;
}
if (c === '|') {
part.push(acc);
acc = '';
parts.push(part);
part = new AST(null, ast);
continue;
}
if (c === ')') {
if (acc === '' && ast.#parts.length === 0) {
ast.#emptyExt = true;
}
part.push(acc);
acc = '';
ast.push(...parts, part);
return i;
}
acc += c;
}
// unfinished extglob
// if we got here, it was a malformed extglob! not an extglob, but
// maybe something else in there.
ast.type = null;
ast.#hasMagic = undefined;
ast.#parts = [str.substring(pos - 1)];
return i;
}
static fromGlob(pattern, options = {}) {
const ast = new AST(null, undefined, options);
AST.#parseAST(pattern, ast, 0, options);
return ast;
}
// returns the regular expression if there's magic, or the unescaped
// string if not.
toMMPattern() {
// should only be called on root
/* c8 ignore start */
if (this !== this.#root)
return this.#root.toMMPattern();
/* c8 ignore stop */
const glob = this.toString();
const [re, body, hasMagic, uflag] = this.toRegExpSource();
// if we're in nocase mode, and not nocaseMagicOnly, then we do
// still need a regular expression if we have to case-insensitively
// match capital/lowercase characters.
const anyMagic = hasMagic ||
this.#hasMagic ||
(this.#options.nocase &&
!this.#options.nocaseMagicOnly &&
glob.toUpperCase() !== glob.toLowerCase());
if (!anyMagic) {
return body;
}
const flags = (this.#options.nocase ? 'i' : '') + (uflag ? 'u' : '');
return Object.assign(new RegExp(`^${re}$`, flags), {
_src: re,
_glob: glob,
});
}
get options() {
return this.#options;
}
// returns the string match, the regexp source, whether there's magic
// in the regexp (so a regular expression is required) and whether or
// not the uflag is needed for the regular expression (for posix classes)
// TODO: instead of injecting the start/end at this point, just return
// the BODY of the regexp, along with the start/end portions suitable
// for binding the start/end in either a joined full-path makeRe context
// (where we bind to (^|/), or a standalone matchPart context (where
// we bind to ^, and not /). Otherwise slashes get duped!
//
// In part-matching mode, the start is:
// - if not isStart: nothing
// - if traversal possible, but not allowed: ^(?!\.\.?$)
// - if dots allowed or not possible: ^
// - if dots possible and not allowed: ^(?!\.)
// end is:
// - if not isEnd(): nothing
// - else: $
//
// In full-path matching mode, we put the slash at the START of the
// pattern, so start is:
// - if first pattern: same as part-matching mode
// - if not isStart(): nothing
// - if traversal possible, but not allowed: /(?!\.\.?(?:$|/))
// - if dots allowed or not possible: /
// - if dots possible and not allowed: /(?!\.)
// end is:
// - if last pattern, same as part-matching mode
// - else nothing
//
// Always put the (?:$|/) on negated tails, though, because that has to be
// there to bind the end of the negated pattern portion, and it's easier to
// just stick it in now rather than try to inject it later in the middle of
// the pattern.
//
// We can just always return the same end, and leave it up to the caller
// to know whether it's going to be used joined or in parts.
// And, if the start is adjusted slightly, can do the same there:
// - if not isStart: nothing
// - if traversal possible, but not allowed: (?:/|^)(?!\.\.?$)
// - if dots allowed or not possible: (?:/|^)
// - if dots possible and not allowed: (?:/|^)(?!\.)
//
// But it's better to have a simpler binding without a conditional, for
// performance, so probably better to return both start options.
//
// Then the caller just ignores the end if it's not the first pattern,
// and the start always gets applied.
//
// But that's always going to be $ if it's the ending pattern, or nothing,
// so the caller can just attach $ at the end of the pattern when building.
//
// So the todo is:
// - better detect what kind of start is needed
// - return both flavors of starting pattern
// - attach $ at the end of the pattern when creating the actual RegExp
//
// Ah, but wait, no, that all only applies to the root when the first pattern
// is not an extglob. If the first pattern IS an extglob, then we need all
// that dot prevention biz to live in the extglob portions, because eg
// +(*|.x*) can match .xy but not .yx.
//
// So, return the two flavors if it's #root and the first child is not an
// AST, otherwise leave it to the child AST to handle it, and there,
// use the (?:^|/) style of start binding.
//
// Even simplified further:
// - Since the start for a join is eg /(?!\.) and the start for a part
// is ^(?!\.), we can just prepend (?!\.) to the pattern (either root
// or start or whatever) and prepend ^ or / at the Regexp construction.
toRegExpSource(allowDot) {
const dot = allowDot ?? !!this.#options.dot;
if (this.#root === this)
this.#fillNegs();
if (!this.type) {
const noEmpty = this.isStart() && this.isEnd();
const src = this.#parts
.map(p => {
const [re, _, hasMagic, uflag] = typeof p === 'string'
? AST.#parseGlob(p, this.#hasMagic, noEmpty)
: p.toRegExpSource(allowDot);
this.#hasMagic = this.#hasMagic || hasMagic;
this.#uflag = this.#uflag || uflag;
return re;
})
.join('');
let start = '';
if (this.isStart()) {
if (typeof this.#parts[0] === 'string') {
// this is the string that will match the start of the pattern,
// so we need to protect against dots and such.
// '.' and '..' cannot match unless the pattern is that exactly,
// even if it starts with . or dot:true is set.
const dotTravAllowed = this.#parts.length === 1 && justDots.has(this.#parts[0]);
if (!dotTravAllowed) {
const aps = addPatternStart;
// check if we have a possibility of matching . or ..,
// and prevent that.
const needNoTrav =
// dots are allowed, and the pattern starts with [ or .
(dot && aps.has(src.charAt(0))) ||
// the pattern starts with \., and then [ or .
(src.startsWith('\\.') && aps.has(src.charAt(2))) ||
// the pattern starts with \.\., and then [ or .
(src.startsWith('\\.\\.') && aps.has(src.charAt(4)));
// no need to prevent dots if it can't match a dot, or if a
// sub-pattern will be preventing it anyway.
const needNoDot = !dot && !allowDot && aps.has(src.charAt(0));
start = needNoTrav ? startNoTraversal : needNoDot ? startNoDot : '';
}
}
}
// append the "end of path portion" pattern to negation tails
let end = '';
if (this.isEnd() &&
this.#root.#filledNegs &&
this.#parent?.type === '!') {
end = '(?:$|\\/)';
}
const final = start + src + end;
return [
final,
(0, unescape_js_1.unescape)(src),
(this.#hasMagic = !!this.#hasMagic),
this.#uflag,
];
}
// We need to calculate the body *twice* if it's a repeat pattern
// at the start, once in nodot mode, then again in dot mode, so a
// pattern like *(?) can match 'x.y'
const repeated = this.type === '*' || this.type === '+';
// some kind of extglob
const start = this.type === '!' ? '(?:(?!(?:' : '(?:';
let body = this.#partsToRegExp(dot);
if (this.isStart() && this.isEnd() && !body && this.type !== '!') {
// invalid extglob, has to at least be *something* present, if it's
// the entire path portion.
const s = this.toString();
this.#parts = [s];
this.type = null;
this.#hasMagic = undefined;
return [s, (0, unescape_js_1.unescape)(this.toString()), false, false];
}
// XXX abstract out this map method
let bodyDotAllowed = !repeated || allowDot || dot || !startNoDot
? ''
: this.#partsToRegExp(true);
if (bodyDotAllowed === body) {
bodyDotAllowed = '';
}
if (bodyDotAllowed) {
body = `(?:${body})(?:${bodyDotAllowed})*?`;
}
// an empty !() is exactly equivalent to a starNoEmpty
let final = '';
if (this.type === '!' && this.#emptyExt) {
final = (this.isStart() && !dot ? startNoDot : '') + starNoEmpty;
}
else {
const close = this.type === '!'
? // !() must match something,but !(x) can match ''
'))' +
(this.isStart() && !dot && !allowDot ? startNoDot : '') +
star +
')'
: this.type === '@'
? ')'
: this.type === '?'
? ')?'
: this.type === '+' && bodyDotAllowed
? ')'
: this.type === '*' && bodyDotAllowed
? `)?`
: `)${this.type}`;
final = start + body + close;
}
return [
final,
(0, unescape_js_1.unescape)(body),
(this.#hasMagic = !!this.#hasMagic),
this.#uflag,
];
}
#partsToRegExp(dot) {
return this.#parts
.map(p => {
// extglob ASTs should only contain parent ASTs
/* c8 ignore start */
if (typeof p === 'string') {
throw new Error('string type in extglob ast??');
}
/* c8 ignore stop */
// can ignore hasMagic, because extglobs are already always magic
const [re, _, _hasMagic, uflag] = p.toRegExpSource(dot);
this.#uflag = this.#uflag || uflag;
return re;
})
.filter(p => !(this.isStart() && this.isEnd()) || !!p)
.join('|');
}
static #parseGlob(glob, hasMagic, noEmpty = false) {
let escaping = false;
let re = '';
let uflag = false;
for (let i = 0; i < glob.length; i++) {
const c = glob.charAt(i);
if (escaping) {
escaping = false;
re += (reSpecials.has(c) ? '\\' : '') + c;
continue;
}
if (c === '\\') {
if (i === glob.length - 1) {
re += '\\\\';
}
else {
escaping = true;
}
continue;
}
if (c === '[') {
const [src, needUflag, consumed, magic] = (0, brace_expressions_js_1.parseClass)(glob, i);
if (consumed) {
re += src;
uflag = uflag || needUflag;
i += consumed - 1;
hasMagic = hasMagic || magic;
continue;
}
}
if (c === '*') {
if (noEmpty && glob === '*')
re += starNoEmpty;
else
re += star;
hasMagic = true;
continue;
}
if (c === '?') {
re += qmark;
hasMagic = true;
continue;
}
re += regExpEscape(c);
}
return [re, (0, unescape_js_1.unescape)(glob), !!hasMagic, uflag];
}
}
exports.AST = AST;
//# sourceMappingURL=ast.js.map

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package/node_modules/minimatch/dist/commonjs/brace-expressions.js generated vendored Normal file
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"use strict";
// translate the various posix character classes into unicode properties
// this works across all unicode locales
Object.defineProperty(exports, "__esModule", { value: true });
exports.parseClass = void 0;
// { <posix class>: [<translation>, /u flag required, negated]
const posixClasses = {
'[:alnum:]': ['\\p{L}\\p{Nl}\\p{Nd}', true],
'[:alpha:]': ['\\p{L}\\p{Nl}', true],
'[:ascii:]': ['\\x' + '00-\\x' + '7f', false],
'[:blank:]': ['\\p{Zs}\\t', true],
'[:cntrl:]': ['\\p{Cc}', true],
'[:digit:]': ['\\p{Nd}', true],
'[:graph:]': ['\\p{Z}\\p{C}', true, true],
'[:lower:]': ['\\p{Ll}', true],
'[:print:]': ['\\p{C}', true],
'[:punct:]': ['\\p{P}', true],
'[:space:]': ['\\p{Z}\\t\\r\\n\\v\\f', true],
'[:upper:]': ['\\p{Lu}', true],
'[:word:]': ['\\p{L}\\p{Nl}\\p{Nd}\\p{Pc}', true],
'[:xdigit:]': ['A-Fa-f0-9', false],
};
// only need to escape a few things inside of brace expressions
// escapes: [ \ ] -
const braceEscape = (s) => s.replace(/[[\]\\-]/g, '\\$&');
// escape all regexp magic characters
const regexpEscape = (s) => s.replace(/[-[\]{}()*+?.,\\^$|#\s]/g, '\\$&');
// everything has already been escaped, we just have to join
const rangesToString = (ranges) => ranges.join('');
// takes a glob string at a posix brace expression, and returns
// an equivalent regular expression source, and boolean indicating
// whether the /u flag needs to be applied, and the number of chars
// consumed to parse the character class.
// This also removes out of order ranges, and returns ($.) if the
// entire class just no good.
const parseClass = (glob, position) => {
const pos = position;
/* c8 ignore start */
if (glob.charAt(pos) !== '[') {
throw new Error('not in a brace expression');
}
/* c8 ignore stop */
const ranges = [];
const negs = [];
let i = pos + 1;
let sawStart = false;
let uflag = false;
let escaping = false;
let negate = false;
let endPos = pos;
let rangeStart = '';
WHILE: while (i < glob.length) {
const c = glob.charAt(i);
if ((c === '!' || c === '^') && i === pos + 1) {
negate = true;
i++;
continue;
}
if (c === ']' && sawStart && !escaping) {
endPos = i + 1;
break;
}
sawStart = true;
if (c === '\\') {
if (!escaping) {
escaping = true;
i++;
continue;
}
// escaped \ char, fall through and treat like normal char
}
if (c === '[' && !escaping) {
// either a posix class, a collation equivalent, or just a [
for (const [cls, [unip, u, neg]] of Object.entries(posixClasses)) {
if (glob.startsWith(cls, i)) {
// invalid, [a-[] is fine, but not [a-[:alpha]]
if (rangeStart) {
return ['$.', false, glob.length - pos, true];
}
i += cls.length;
if (neg)
negs.push(unip);
else
ranges.push(unip);
uflag = uflag || u;
continue WHILE;
}
}
}
// now it's just a normal character, effectively
escaping = false;
if (rangeStart) {
// throw this range away if it's not valid, but others
// can still match.
if (c > rangeStart) {
ranges.push(braceEscape(rangeStart) + '-' + braceEscape(c));
}
else if (c === rangeStart) {
ranges.push(braceEscape(c));
}
rangeStart = '';
i++;
continue;
}
// now might be the start of a range.
// can be either c-d or c-] or c<more...>] or c] at this point
if (glob.startsWith('-]', i + 1)) {
ranges.push(braceEscape(c + '-'));
i += 2;
continue;
}
if (glob.startsWith('-', i + 1)) {
rangeStart = c;
i += 2;
continue;
}
// not the start of a range, just a single character
ranges.push(braceEscape(c));
i++;
}
if (endPos < i) {
// didn't see the end of the class, not a valid class,
// but might still be valid as a literal match.
return ['', false, 0, false];
}
// if we got no ranges and no negates, then we have a range that
// cannot possibly match anything, and that poisons the whole glob
if (!ranges.length && !negs.length) {
return ['$.', false, glob.length - pos, true];
}
// if we got one positive range, and it's a single character, then that's
// not actually a magic pattern, it's just that one literal character.
// we should not treat that as "magic", we should just return the literal
// character. [_] is a perfectly valid way to escape glob magic chars.
if (negs.length === 0 &&
ranges.length === 1 &&
/^\\?.$/.test(ranges[0]) &&
!negate) {
const r = ranges[0].length === 2 ? ranges[0].slice(-1) : ranges[0];
return [regexpEscape(r), false, endPos - pos, false];
}
const sranges = '[' + (negate ? '^' : '') + rangesToString(ranges) + ']';
const snegs = '[' + (negate ? '' : '^') + rangesToString(negs) + ']';
const comb = ranges.length && negs.length
? '(' + sranges + '|' + snegs + ')'
: ranges.length
? sranges
: snegs;
return [comb, uflag, endPos - pos, true];
};
exports.parseClass = parseClass;
//# sourceMappingURL=brace-expressions.js.map

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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.escape = void 0;
/**
* Escape all magic characters in a glob pattern.
*
* If the {@link windowsPathsNoEscape | GlobOptions.windowsPathsNoEscape}
* option is used, then characters are escaped by wrapping in `[]`, because
* a magic character wrapped in a character class can only be satisfied by
* that exact character. In this mode, `\` is _not_ escaped, because it is
* not interpreted as a magic character, but instead as a path separator.
*/
const escape = (s, { windowsPathsNoEscape = false, } = {}) => {
// don't need to escape +@! because we escape the parens
// that make those magic, and escaping ! as [!] isn't valid,
// because [!]] is a valid glob class meaning not ']'.
return windowsPathsNoEscape
? s.replace(/[?*()[\]]/g, '[$&]')
: s.replace(/[?*()[\]\\]/g, '\\$&');
};
exports.escape = escape;
//# sourceMappingURL=escape.js.map

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{
"type": "commonjs"
}

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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.unescape = void 0;
/**
* Un-escape a string that has been escaped with {@link escape}.
*
* If the {@link windowsPathsNoEscape} option is used, then square-brace
* escapes are removed, but not backslash escapes. For example, it will turn
* the string `'[*]'` into `*`, but it will not turn `'\\*'` into `'*'`,
* becuase `\` is a path separator in `windowsPathsNoEscape` mode.
*
* When `windowsPathsNoEscape` is not set, then both brace escapes and
* backslash escapes are removed.
*
* Slashes (and backslashes in `windowsPathsNoEscape` mode) cannot be escaped
* or unescaped.
*/
const unescape = (s, { windowsPathsNoEscape = false, } = {}) => {
return windowsPathsNoEscape
? s.replace(/\[([^\/\\])\]/g, '$1')
: s.replace(/((?!\\).|^)\[([^\/\\])\]/g, '$1$2').replace(/\\([^\/])/g, '$1');
};
exports.unescape = unescape;
//# sourceMappingURL=unescape.js.map

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const MAX_PATTERN_LENGTH = 1024 * 64;
export const assertValidPattern = (pattern) => {
if (typeof pattern !== 'string') {
throw new TypeError('invalid pattern');
}
if (pattern.length > MAX_PATTERN_LENGTH) {
throw new TypeError('pattern is too long');
}
};
//# sourceMappingURL=assert-valid-pattern.js.map

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// parse a single path portion
import { parseClass } from './brace-expressions.js';
import { unescape } from './unescape.js';
const types = new Set(['!', '?', '+', '*', '@']);
const isExtglobType = (c) => types.has(c);
// Patterns that get prepended to bind to the start of either the
// entire string, or just a single path portion, to prevent dots
// and/or traversal patterns, when needed.
// Exts don't need the ^ or / bit, because the root binds that already.
const startNoTraversal = '(?!(?:^|/)\\.\\.?(?:$|/))';
const startNoDot = '(?!\\.)';
// characters that indicate a start of pattern needs the "no dots" bit,
// because a dot *might* be matched. ( is not in the list, because in
// the case of a child extglob, it will handle the prevention itself.
const addPatternStart = new Set(['[', '.']);
// cases where traversal is A-OK, no dot prevention needed
const justDots = new Set(['..', '.']);
const reSpecials = new Set('().*{}+?[]^$\\!');
const regExpEscape = (s) => s.replace(/[-[\]{}()*+?.,\\^$|#\s]/g, '\\$&');
// any single thing other than /
const qmark = '[^/]';
// * => any number of characters
const star = qmark + '*?';
// use + when we need to ensure that *something* matches, because the * is
// the only thing in the path portion.
const starNoEmpty = qmark + '+?';
// remove the \ chars that we added if we end up doing a nonmagic compare
// const deslash = (s: string) => s.replace(/\\(.)/g, '$1')
export class AST {
type;
#root;
#hasMagic;
#uflag = false;
#parts = [];
#parent;
#parentIndex;
#negs;
#filledNegs = false;
#options;
#toString;
// set to true if it's an extglob with no children
// (which really means one child of '')
#emptyExt = false;
constructor(type, parent, options = {}) {
this.type = type;
// extglobs are inherently magical
if (type)
this.#hasMagic = true;
this.#parent = parent;
this.#root = this.#parent ? this.#parent.#root : this;
this.#options = this.#root === this ? options : this.#root.#options;
this.#negs = this.#root === this ? [] : this.#root.#negs;
if (type === '!' && !this.#root.#filledNegs)
this.#negs.push(this);
this.#parentIndex = this.#parent ? this.#parent.#parts.length : 0;
}
get hasMagic() {
/* c8 ignore start */
if (this.#hasMagic !== undefined)
return this.#hasMagic;
/* c8 ignore stop */
for (const p of this.#parts) {
if (typeof p === 'string')
continue;
if (p.type || p.hasMagic)
return (this.#hasMagic = true);
}
// note: will be undefined until we generate the regexp src and find out
return this.#hasMagic;
}
// reconstructs the pattern
toString() {
if (this.#toString !== undefined)
return this.#toString;
if (!this.type) {
return (this.#toString = this.#parts.map(p => String(p)).join(''));
}
else {
return (this.#toString =
this.type + '(' + this.#parts.map(p => String(p)).join('|') + ')');
}
}
#fillNegs() {
/* c8 ignore start */
if (this !== this.#root)
throw new Error('should only call on root');
if (this.#filledNegs)
return this;
/* c8 ignore stop */
// call toString() once to fill this out
this.toString();
this.#filledNegs = true;
let n;
while ((n = this.#negs.pop())) {
if (n.type !== '!')
continue;
// walk up the tree, appending everthing that comes AFTER parentIndex
let p = n;
let pp = p.#parent;
while (pp) {
for (let i = p.#parentIndex + 1; !pp.type && i < pp.#parts.length; i++) {
for (const part of n.#parts) {
/* c8 ignore start */
if (typeof part === 'string') {
throw new Error('string part in extglob AST??');
}
/* c8 ignore stop */
part.copyIn(pp.#parts[i]);
}
}
p = pp;
pp = p.#parent;
}
}
return this;
}
push(...parts) {
for (const p of parts) {
if (p === '')
continue;
/* c8 ignore start */
if (typeof p !== 'string' && !(p instanceof AST && p.#parent === this)) {
throw new Error('invalid part: ' + p);
}
/* c8 ignore stop */
this.#parts.push(p);
}
}
toJSON() {
const ret = this.type === null
? this.#parts.slice().map(p => (typeof p === 'string' ? p : p.toJSON()))
: [this.type, ...this.#parts.map(p => p.toJSON())];
if (this.isStart() && !this.type)
ret.unshift([]);
if (this.isEnd() &&
(this === this.#root ||
(this.#root.#filledNegs && this.#parent?.type === '!'))) {
ret.push({});
}
return ret;
}
isStart() {
if (this.#root === this)
return true;
// if (this.type) return !!this.#parent?.isStart()
if (!this.#parent?.isStart())
return false;
if (this.#parentIndex === 0)
return true;
// if everything AHEAD of this is a negation, then it's still the "start"
const p = this.#parent;
for (let i = 0; i < this.#parentIndex; i++) {
const pp = p.#parts[i];
if (!(pp instanceof AST && pp.type === '!')) {
return false;
}
}
return true;
}
isEnd() {
if (this.#root === this)
return true;
if (this.#parent?.type === '!')
return true;
if (!this.#parent?.isEnd())
return false;
if (!this.type)
return this.#parent?.isEnd();
// if not root, it'll always have a parent
/* c8 ignore start */
const pl = this.#parent ? this.#parent.#parts.length : 0;
/* c8 ignore stop */
return this.#parentIndex === pl - 1;
}
copyIn(part) {
if (typeof part === 'string')
this.push(part);
else
this.push(part.clone(this));
}
clone(parent) {
const c = new AST(this.type, parent);
for (const p of this.#parts) {
c.copyIn(p);
}
return c;
}
static #parseAST(str, ast, pos, opt) {
let escaping = false;
let inBrace = false;
let braceStart = -1;
let braceNeg = false;
if (ast.type === null) {
// outside of a extglob, append until we find a start
let i = pos;
let acc = '';
while (i < str.length) {
const c = str.charAt(i++);
// still accumulate escapes at this point, but we do ignore
// starts that are escaped
if (escaping || c === '\\') {
escaping = !escaping;
acc += c;
continue;
}
if (inBrace) {
if (i === braceStart + 1) {
if (c === '^' || c === '!') {
braceNeg = true;
}
}
else if (c === ']' && !(i === braceStart + 2 && braceNeg)) {
inBrace = false;
}
acc += c;
continue;
}
else if (c === '[') {
inBrace = true;
braceStart = i;
braceNeg = false;
acc += c;
continue;
}
if (!opt.noext && isExtglobType(c) && str.charAt(i) === '(') {
ast.push(acc);
acc = '';
const ext = new AST(c, ast);
i = AST.#parseAST(str, ext, i, opt);
ast.push(ext);
continue;
}
acc += c;
}
ast.push(acc);
return i;
}
// some kind of extglob, pos is at the (
// find the next | or )
let i = pos + 1;
let part = new AST(null, ast);
const parts = [];
let acc = '';
while (i < str.length) {
const c = str.charAt(i++);
// still accumulate escapes at this point, but we do ignore
// starts that are escaped
if (escaping || c === '\\') {
escaping = !escaping;
acc += c;
continue;
}
if (inBrace) {
if (i === braceStart + 1) {
if (c === '^' || c === '!') {
braceNeg = true;
}
}
else if (c === ']' && !(i === braceStart + 2 && braceNeg)) {
inBrace = false;
}
acc += c;
continue;
}
else if (c === '[') {
inBrace = true;
braceStart = i;
braceNeg = false;
acc += c;
continue;
}
if (isExtglobType(c) && str.charAt(i) === '(') {
part.push(acc);
acc = '';
const ext = new AST(c, part);
part.push(ext);
i = AST.#parseAST(str, ext, i, opt);
continue;
}
if (c === '|') {
part.push(acc);
acc = '';
parts.push(part);
part = new AST(null, ast);
continue;
}
if (c === ')') {
if (acc === '' && ast.#parts.length === 0) {
ast.#emptyExt = true;
}
part.push(acc);
acc = '';
ast.push(...parts, part);
return i;
}
acc += c;
}
// unfinished extglob
// if we got here, it was a malformed extglob! not an extglob, but
// maybe something else in there.
ast.type = null;
ast.#hasMagic = undefined;
ast.#parts = [str.substring(pos - 1)];
return i;
}
static fromGlob(pattern, options = {}) {
const ast = new AST(null, undefined, options);
AST.#parseAST(pattern, ast, 0, options);
return ast;
}
// returns the regular expression if there's magic, or the unescaped
// string if not.
toMMPattern() {
// should only be called on root
/* c8 ignore start */
if (this !== this.#root)
return this.#root.toMMPattern();
/* c8 ignore stop */
const glob = this.toString();
const [re, body, hasMagic, uflag] = this.toRegExpSource();
// if we're in nocase mode, and not nocaseMagicOnly, then we do
// still need a regular expression if we have to case-insensitively
// match capital/lowercase characters.
const anyMagic = hasMagic ||
this.#hasMagic ||
(this.#options.nocase &&
!this.#options.nocaseMagicOnly &&
glob.toUpperCase() !== glob.toLowerCase());
if (!anyMagic) {
return body;
}
const flags = (this.#options.nocase ? 'i' : '') + (uflag ? 'u' : '');
return Object.assign(new RegExp(`^${re}$`, flags), {
_src: re,
_glob: glob,
});
}
get options() {
return this.#options;
}
// returns the string match, the regexp source, whether there's magic
// in the regexp (so a regular expression is required) and whether or
// not the uflag is needed for the regular expression (for posix classes)
// TODO: instead of injecting the start/end at this point, just return
// the BODY of the regexp, along with the start/end portions suitable
// for binding the start/end in either a joined full-path makeRe context
// (where we bind to (^|/), or a standalone matchPart context (where
// we bind to ^, and not /). Otherwise slashes get duped!
//
// In part-matching mode, the start is:
// - if not isStart: nothing
// - if traversal possible, but not allowed: ^(?!\.\.?$)
// - if dots allowed or not possible: ^
// - if dots possible and not allowed: ^(?!\.)
// end is:
// - if not isEnd(): nothing
// - else: $
//
// In full-path matching mode, we put the slash at the START of the
// pattern, so start is:
// - if first pattern: same as part-matching mode
// - if not isStart(): nothing
// - if traversal possible, but not allowed: /(?!\.\.?(?:$|/))
// - if dots allowed or not possible: /
// - if dots possible and not allowed: /(?!\.)
// end is:
// - if last pattern, same as part-matching mode
// - else nothing
//
// Always put the (?:$|/) on negated tails, though, because that has to be
// there to bind the end of the negated pattern portion, and it's easier to
// just stick it in now rather than try to inject it later in the middle of
// the pattern.
//
// We can just always return the same end, and leave it up to the caller
// to know whether it's going to be used joined or in parts.
// And, if the start is adjusted slightly, can do the same there:
// - if not isStart: nothing
// - if traversal possible, but not allowed: (?:/|^)(?!\.\.?$)
// - if dots allowed or not possible: (?:/|^)
// - if dots possible and not allowed: (?:/|^)(?!\.)
//
// But it's better to have a simpler binding without a conditional, for
// performance, so probably better to return both start options.
//
// Then the caller just ignores the end if it's not the first pattern,
// and the start always gets applied.
//
// But that's always going to be $ if it's the ending pattern, or nothing,
// so the caller can just attach $ at the end of the pattern when building.
//
// So the todo is:
// - better detect what kind of start is needed
// - return both flavors of starting pattern
// - attach $ at the end of the pattern when creating the actual RegExp
//
// Ah, but wait, no, that all only applies to the root when the first pattern
// is not an extglob. If the first pattern IS an extglob, then we need all
// that dot prevention biz to live in the extglob portions, because eg
// +(*|.x*) can match .xy but not .yx.
//
// So, return the two flavors if it's #root and the first child is not an
// AST, otherwise leave it to the child AST to handle it, and there,
// use the (?:^|/) style of start binding.
//
// Even simplified further:
// - Since the start for a join is eg /(?!\.) and the start for a part
// is ^(?!\.), we can just prepend (?!\.) to the pattern (either root
// or start or whatever) and prepend ^ or / at the Regexp construction.
toRegExpSource(allowDot) {
const dot = allowDot ?? !!this.#options.dot;
if (this.#root === this)
this.#fillNegs();
if (!this.type) {
const noEmpty = this.isStart() && this.isEnd();
const src = this.#parts
.map(p => {
const [re, _, hasMagic, uflag] = typeof p === 'string'
? AST.#parseGlob(p, this.#hasMagic, noEmpty)
: p.toRegExpSource(allowDot);
this.#hasMagic = this.#hasMagic || hasMagic;
this.#uflag = this.#uflag || uflag;
return re;
})
.join('');
let start = '';
if (this.isStart()) {
if (typeof this.#parts[0] === 'string') {
// this is the string that will match the start of the pattern,
// so we need to protect against dots and such.
// '.' and '..' cannot match unless the pattern is that exactly,
// even if it starts with . or dot:true is set.
const dotTravAllowed = this.#parts.length === 1 && justDots.has(this.#parts[0]);
if (!dotTravAllowed) {
const aps = addPatternStart;
// check if we have a possibility of matching . or ..,
// and prevent that.
const needNoTrav =
// dots are allowed, and the pattern starts with [ or .
(dot && aps.has(src.charAt(0))) ||
// the pattern starts with \., and then [ or .
(src.startsWith('\\.') && aps.has(src.charAt(2))) ||
// the pattern starts with \.\., and then [ or .
(src.startsWith('\\.\\.') && aps.has(src.charAt(4)));
// no need to prevent dots if it can't match a dot, or if a
// sub-pattern will be preventing it anyway.
const needNoDot = !dot && !allowDot && aps.has(src.charAt(0));
start = needNoTrav ? startNoTraversal : needNoDot ? startNoDot : '';
}
}
}
// append the "end of path portion" pattern to negation tails
let end = '';
if (this.isEnd() &&
this.#root.#filledNegs &&
this.#parent?.type === '!') {
end = '(?:$|\\/)';
}
const final = start + src + end;
return [
final,
unescape(src),
(this.#hasMagic = !!this.#hasMagic),
this.#uflag,
];
}
// We need to calculate the body *twice* if it's a repeat pattern
// at the start, once in nodot mode, then again in dot mode, so a
// pattern like *(?) can match 'x.y'
const repeated = this.type === '*' || this.type === '+';
// some kind of extglob
const start = this.type === '!' ? '(?:(?!(?:' : '(?:';
let body = this.#partsToRegExp(dot);
if (this.isStart() && this.isEnd() && !body && this.type !== '!') {
// invalid extglob, has to at least be *something* present, if it's
// the entire path portion.
const s = this.toString();
this.#parts = [s];
this.type = null;
this.#hasMagic = undefined;
return [s, unescape(this.toString()), false, false];
}
// XXX abstract out this map method
let bodyDotAllowed = !repeated || allowDot || dot || !startNoDot
? ''
: this.#partsToRegExp(true);
if (bodyDotAllowed === body) {
bodyDotAllowed = '';
}
if (bodyDotAllowed) {
body = `(?:${body})(?:${bodyDotAllowed})*?`;
}
// an empty !() is exactly equivalent to a starNoEmpty
let final = '';
if (this.type === '!' && this.#emptyExt) {
final = (this.isStart() && !dot ? startNoDot : '') + starNoEmpty;
}
else {
const close = this.type === '!'
? // !() must match something,but !(x) can match ''
'))' +
(this.isStart() && !dot && !allowDot ? startNoDot : '') +
star +
')'
: this.type === '@'
? ')'
: this.type === '?'
? ')?'
: this.type === '+' && bodyDotAllowed
? ')'
: this.type === '*' && bodyDotAllowed
? `)?`
: `)${this.type}`;
final = start + body + close;
}
return [
final,
unescape(body),
(this.#hasMagic = !!this.#hasMagic),
this.#uflag,
];
}
#partsToRegExp(dot) {
return this.#parts
.map(p => {
// extglob ASTs should only contain parent ASTs
/* c8 ignore start */
if (typeof p === 'string') {
throw new Error('string type in extglob ast??');
}
/* c8 ignore stop */
// can ignore hasMagic, because extglobs are already always magic
const [re, _, _hasMagic, uflag] = p.toRegExpSource(dot);
this.#uflag = this.#uflag || uflag;
return re;
})
.filter(p => !(this.isStart() && this.isEnd()) || !!p)
.join('|');
}
static #parseGlob(glob, hasMagic, noEmpty = false) {
let escaping = false;
let re = '';
let uflag = false;
for (let i = 0; i < glob.length; i++) {
const c = glob.charAt(i);
if (escaping) {
escaping = false;
re += (reSpecials.has(c) ? '\\' : '') + c;
continue;
}
if (c === '\\') {
if (i === glob.length - 1) {
re += '\\\\';
}
else {
escaping = true;
}
continue;
}
if (c === '[') {
const [src, needUflag, consumed, magic] = parseClass(glob, i);
if (consumed) {
re += src;
uflag = uflag || needUflag;
i += consumed - 1;
hasMagic = hasMagic || magic;
continue;
}
}
if (c === '*') {
if (noEmpty && glob === '*')
re += starNoEmpty;
else
re += star;
hasMagic = true;
continue;
}
if (c === '?') {
re += qmark;
hasMagic = true;
continue;
}
re += regExpEscape(c);
}
return [re, unescape(glob), !!hasMagic, uflag];
}
}
//# sourceMappingURL=ast.js.map

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// translate the various posix character classes into unicode properties
// this works across all unicode locales
// { <posix class>: [<translation>, /u flag required, negated]
const posixClasses = {
'[:alnum:]': ['\\p{L}\\p{Nl}\\p{Nd}', true],
'[:alpha:]': ['\\p{L}\\p{Nl}', true],
'[:ascii:]': ['\\x' + '00-\\x' + '7f', false],
'[:blank:]': ['\\p{Zs}\\t', true],
'[:cntrl:]': ['\\p{Cc}', true],
'[:digit:]': ['\\p{Nd}', true],
'[:graph:]': ['\\p{Z}\\p{C}', true, true],
'[:lower:]': ['\\p{Ll}', true],
'[:print:]': ['\\p{C}', true],
'[:punct:]': ['\\p{P}', true],
'[:space:]': ['\\p{Z}\\t\\r\\n\\v\\f', true],
'[:upper:]': ['\\p{Lu}', true],
'[:word:]': ['\\p{L}\\p{Nl}\\p{Nd}\\p{Pc}', true],
'[:xdigit:]': ['A-Fa-f0-9', false],
};
// only need to escape a few things inside of brace expressions
// escapes: [ \ ] -
const braceEscape = (s) => s.replace(/[[\]\\-]/g, '\\$&');
// escape all regexp magic characters
const regexpEscape = (s) => s.replace(/[-[\]{}()*+?.,\\^$|#\s]/g, '\\$&');
// everything has already been escaped, we just have to join
const rangesToString = (ranges) => ranges.join('');
// takes a glob string at a posix brace expression, and returns
// an equivalent regular expression source, and boolean indicating
// whether the /u flag needs to be applied, and the number of chars
// consumed to parse the character class.
// This also removes out of order ranges, and returns ($.) if the
// entire class just no good.
export const parseClass = (glob, position) => {
const pos = position;
/* c8 ignore start */
if (glob.charAt(pos) !== '[') {
throw new Error('not in a brace expression');
}
/* c8 ignore stop */
const ranges = [];
const negs = [];
let i = pos + 1;
let sawStart = false;
let uflag = false;
let escaping = false;
let negate = false;
let endPos = pos;
let rangeStart = '';
WHILE: while (i < glob.length) {
const c = glob.charAt(i);
if ((c === '!' || c === '^') && i === pos + 1) {
negate = true;
i++;
continue;
}
if (c === ']' && sawStart && !escaping) {
endPos = i + 1;
break;
}
sawStart = true;
if (c === '\\') {
if (!escaping) {
escaping = true;
i++;
continue;
}
// escaped \ char, fall through and treat like normal char
}
if (c === '[' && !escaping) {
// either a posix class, a collation equivalent, or just a [
for (const [cls, [unip, u, neg]] of Object.entries(posixClasses)) {
if (glob.startsWith(cls, i)) {
// invalid, [a-[] is fine, but not [a-[:alpha]]
if (rangeStart) {
return ['$.', false, glob.length - pos, true];
}
i += cls.length;
if (neg)
negs.push(unip);
else
ranges.push(unip);
uflag = uflag || u;
continue WHILE;
}
}
}
// now it's just a normal character, effectively
escaping = false;
if (rangeStart) {
// throw this range away if it's not valid, but others
// can still match.
if (c > rangeStart) {
ranges.push(braceEscape(rangeStart) + '-' + braceEscape(c));
}
else if (c === rangeStart) {
ranges.push(braceEscape(c));
}
rangeStart = '';
i++;
continue;
}
// now might be the start of a range.
// can be either c-d or c-] or c<more...>] or c] at this point
if (glob.startsWith('-]', i + 1)) {
ranges.push(braceEscape(c + '-'));
i += 2;
continue;
}
if (glob.startsWith('-', i + 1)) {
rangeStart = c;
i += 2;
continue;
}
// not the start of a range, just a single character
ranges.push(braceEscape(c));
i++;
}
if (endPos < i) {
// didn't see the end of the class, not a valid class,
// but might still be valid as a literal match.
return ['', false, 0, false];
}
// if we got no ranges and no negates, then we have a range that
// cannot possibly match anything, and that poisons the whole glob
if (!ranges.length && !negs.length) {
return ['$.', false, glob.length - pos, true];
}
// if we got one positive range, and it's a single character, then that's
// not actually a magic pattern, it's just that one literal character.
// we should not treat that as "magic", we should just return the literal
// character. [_] is a perfectly valid way to escape glob magic chars.
if (negs.length === 0 &&
ranges.length === 1 &&
/^\\?.$/.test(ranges[0]) &&
!negate) {
const r = ranges[0].length === 2 ? ranges[0].slice(-1) : ranges[0];
return [regexpEscape(r), false, endPos - pos, false];
}
const sranges = '[' + (negate ? '^' : '') + rangesToString(ranges) + ']';
const snegs = '[' + (negate ? '' : '^') + rangesToString(negs) + ']';
const comb = ranges.length && negs.length
? '(' + sranges + '|' + snegs + ')'
: ranges.length
? sranges
: snegs;
return [comb, uflag, endPos - pos, true];
};
//# sourceMappingURL=brace-expressions.js.map

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/**
* Escape all magic characters in a glob pattern.
*
* If the {@link windowsPathsNoEscape | GlobOptions.windowsPathsNoEscape}
* option is used, then characters are escaped by wrapping in `[]`, because
* a magic character wrapped in a character class can only be satisfied by
* that exact character. In this mode, `\` is _not_ escaped, because it is
* not interpreted as a magic character, but instead as a path separator.
*/
export const escape = (s, { windowsPathsNoEscape = false, } = {}) => {
// don't need to escape +@! because we escape the parens
// that make those magic, and escaping ! as [!] isn't valid,
// because [!]] is a valid glob class meaning not ']'.
return windowsPathsNoEscape
? s.replace(/[?*()[\]]/g, '[$&]')
: s.replace(/[?*()[\]\\]/g, '\\$&');
};
//# sourceMappingURL=escape.js.map

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{
"type": "module"
}

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/**
* Un-escape a string that has been escaped with {@link escape}.
*
* If the {@link windowsPathsNoEscape} option is used, then square-brace
* escapes are removed, but not backslash escapes. For example, it will turn
* the string `'[*]'` into `*`, but it will not turn `'\\*'` into `'*'`,
* becuase `\` is a path separator in `windowsPathsNoEscape` mode.
*
* When `windowsPathsNoEscape` is not set, then both brace escapes and
* backslash escapes are removed.
*
* Slashes (and backslashes in `windowsPathsNoEscape` mode) cannot be escaped
* or unescaped.
*/
export const unescape = (s, { windowsPathsNoEscape = false, } = {}) => {
return windowsPathsNoEscape
? s.replace(/\[([^\/\\])\]/g, '$1')
: s.replace(/((?!\\).|^)\[([^\/\\])\]/g, '$1$2').replace(/\\([^\/])/g, '$1');
};
//# sourceMappingURL=unescape.js.map

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{
"author": "Isaac Z. Schlueter <i@izs.me> (http://blog.izs.me)",
"name": "minimatch",
"description": "a glob matcher in javascript",
"version": "9.0.5",
"repository": {
"type": "git",
"url": "git://github.com/isaacs/minimatch.git"
},
"main": "./dist/commonjs/index.js",
"types": "./dist/commonjs/index.d.ts",
"exports": {
"./package.json": "./package.json",
".": {
"import": {
"types": "./dist/esm/index.d.ts",
"default": "./dist/esm/index.js"
},
"require": {
"types": "./dist/commonjs/index.d.ts",
"default": "./dist/commonjs/index.js"
}
}
},
"files": [
"dist"
],
"scripts": {
"preversion": "npm test",
"postversion": "npm publish",
"prepublishOnly": "git push origin --follow-tags",
"prepare": "tshy",
"pretest": "npm run prepare",
"presnap": "npm run prepare",
"test": "tap",
"snap": "tap",
"format": "prettier --write . --loglevel warn",
"benchmark": "node benchmark/index.js",
"typedoc": "typedoc --tsconfig tsconfig-esm.json ./src/*.ts"
},
"prettier": {
"semi": false,
"printWidth": 80,
"tabWidth": 2,
"useTabs": false,
"singleQuote": true,
"jsxSingleQuote": false,
"bracketSameLine": true,
"arrowParens": "avoid",
"endOfLine": "lf"
},
"engines": {
"node": ">=16 || 14 >=14.17"
},
"dependencies": {
"brace-expansion": "^2.0.1"
},
"devDependencies": {
"@types/brace-expansion": "^1.1.0",
"@types/node": "^18.15.11",
"@types/tap": "^15.0.8",
"eslint-config-prettier": "^8.6.0",
"mkdirp": "1",
"prettier": "^2.8.2",
"tap": "^18.7.2",
"ts-node": "^10.9.1",
"tshy": "^1.12.0",
"typedoc": "^0.23.21",
"typescript": "^4.9.3"
},
"funding": {
"url": "https://github.com/sponsors/isaacs"
},
"license": "ISC",
"tshy": {
"exports": {
"./package.json": "./package.json",
".": "./src/index.ts"
}
},
"type": "module"
}