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xfarrow
2025-03-23 21:00:08 +01:00
parent 4ae263662c
commit d005193f63
7158 changed files with 700476 additions and 735 deletions
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22
backend/apis/nodejs/node_modules/@babel/traverse/LICENSE generated vendored Normal file
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MIT License
Copyright (c) 2014-present Sebastian McKenzie and other contributors
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

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backend/apis/nodejs/node_modules/@babel/traverse/README.md generated vendored Normal file
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# @babel/traverse
> The Babel Traverse module maintains the overall tree state, and is responsible for replacing, removing, and adding nodes
See our website [@babel/traverse](https://babeljs.io/docs/babel-traverse) for more information or the [issues](https://github.com/babel/babel/issues?utf8=%E2%9C%93&q=is%3Aissue+label%3A%22pkg%3A%20traverse%22+is%3Aopen) associated with this package.
## Install
Using npm:
```sh
npm install --save-dev @babel/traverse
```
or using yarn:
```sh
yarn add @babel/traverse --dev
```

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backend/apis/nodejs/node_modules/@babel/traverse/lib/cache.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.clear = clear;
exports.clearPath = clearPath;
exports.clearScope = clearScope;
exports.getCachedPaths = getCachedPaths;
exports.getOrCreateCachedPaths = getOrCreateCachedPaths;
exports.scope = exports.path = void 0;
let pathsCache = exports.path = new WeakMap();
let scope = exports.scope = new WeakMap();
function clear() {
clearPath();
clearScope();
}
function clearPath() {
exports.path = pathsCache = new WeakMap();
}
function clearScope() {
exports.scope = scope = new WeakMap();
}
const nullHub = Object.freeze({});
function getCachedPaths(hub, parent) {
var _pathsCache$get;
{
hub = null;
}
return (_pathsCache$get = pathsCache.get(hub != null ? hub : nullHub)) == null ? void 0 : _pathsCache$get.get(parent);
}
function getOrCreateCachedPaths(hub, parent) {
{
hub = null;
}
let parents = pathsCache.get(hub != null ? hub : nullHub);
if (!parents) pathsCache.set(hub != null ? hub : nullHub, parents = new WeakMap());
let paths = parents.get(parent);
if (!paths) parents.set(parent, paths = new Map());
return paths;
}
//# sourceMappingURL=cache.js.map

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{"version":3,"names":["pathsCache","exports","path","WeakMap","scope","clear","clearPath","clearScope","nullHub","Object","freeze","getCachedPaths","hub","parent","_pathsCache$get","get","getOrCreateCachedPaths","parents","set","paths","Map"],"sources":["../src/cache.ts"],"sourcesContent":["import type { Node } from \"@babel/types\";\nimport type NodePath from \"./path/index.ts\";\nimport type Scope from \"./scope/index.ts\";\nimport type { HubInterface } from \"./hub.ts\";\n\nlet pathsCache: WeakMap<\n HubInterface | typeof nullHub,\n WeakMap<Node, Map<Node, NodePath>>\n> = new WeakMap();\nexport { pathsCache as path };\nexport let scope: WeakMap<Node, Scope> = new WeakMap();\n\nexport function clear() {\n clearPath();\n clearScope();\n}\n\nexport function clearPath() {\n pathsCache = new WeakMap();\n}\n\nexport function clearScope() {\n scope = new WeakMap();\n}\n\n// NodePath#hub can be null, but it's not a valid weakmap key because it\n// cannot be collected by GC. Use an object, knowing tht it will not be\n// collected anyway. It's not a memory leak because pathsCache.get(nullHub)\n// is itself a weakmap, so its entries can still be collected.\nconst nullHub = Object.freeze({} as const);\n\nexport function getCachedPaths(hub: HubInterface | null, parent: Node) {\n if (!process.env.BABEL_8_BREAKING) {\n // Only use Hub as part of the cache key in Babel 8, because it is a\n // breaking change (it causes incompatibilities with older `@babel/core`\n // versions: see https://github.com/babel/babel/pull/15759)\n hub = null;\n }\n return pathsCache.get(hub ?? nullHub)?.get(parent);\n}\n\nexport function getOrCreateCachedPaths(hub: HubInterface | null, parent: Node) {\n if (!process.env.BABEL_8_BREAKING) {\n hub = null;\n }\n\n let parents = pathsCache.get(hub ?? nullHub);\n if (!parents) pathsCache.set(hub ?? nullHub, (parents = new WeakMap()));\n\n let paths = parents.get(parent);\n if (!paths) parents.set(parent, (paths = new Map()));\n\n return paths;\n}\n"],"mappings":";;;;;;;;;;;AAKA,IAAIA,UAGH,GAAAC,OAAA,CAAAC,IAAA,GAAG,IAAIC,OAAO,CAAC,CAAC;AAEV,IAAIC,KAA2B,GAAAH,OAAA,CAAAG,KAAA,GAAG,IAAID,OAAO,CAAC,CAAC;AAE/C,SAASE,KAAKA,CAAA,EAAG;EACtBC,SAAS,CAAC,CAAC;EACXC,UAAU,CAAC,CAAC;AACd;AAEO,SAASD,SAASA,CAAA,EAAG;EAC1BL,OAAA,CAAAC,IAAA,GAAAF,UAAU,GAAG,IAAIG,OAAO,CAAC,CAAC;AAC5B;AAEO,SAASI,UAAUA,CAAA,EAAG;EAC3BN,OAAA,CAAAG,KAAA,GAAAA,KAAK,GAAG,IAAID,OAAO,CAAC,CAAC;AACvB;AAMA,MAAMK,OAAO,GAAGC,MAAM,CAACC,MAAM,CAAC,CAAC,CAAU,CAAC;AAEnC,SAASC,cAAcA,CAACC,GAAwB,EAAEC,MAAY,EAAE;EAAA,IAAAC,eAAA;EAClC;IAIjCF,GAAG,GAAG,IAAI;EACZ;EACA,QAAAE,eAAA,GAAOd,UAAU,CAACe,GAAG,CAACH,GAAG,WAAHA,GAAG,GAAIJ,OAAO,CAAC,qBAA9BM,eAAA,CAAgCC,GAAG,CAACF,MAAM,CAAC;AACpD;AAEO,SAASG,sBAAsBA,CAACJ,GAAwB,EAAEC,MAAY,EAAE;EAC1C;IACjCD,GAAG,GAAG,IAAI;EACZ;EAEA,IAAIK,OAAO,GAAGjB,UAAU,CAACe,GAAG,CAACH,GAAG,WAAHA,GAAG,GAAIJ,OAAO,CAAC;EAC5C,IAAI,CAACS,OAAO,EAAEjB,UAAU,CAACkB,GAAG,CAACN,GAAG,WAAHA,GAAG,GAAIJ,OAAO,EAAGS,OAAO,GAAG,IAAId,OAAO,CAAC,CAAE,CAAC;EAEvE,IAAIgB,KAAK,GAAGF,OAAO,CAACF,GAAG,CAACF,MAAM,CAAC;EAC/B,IAAI,CAACM,KAAK,EAAEF,OAAO,CAACC,GAAG,CAACL,MAAM,EAAGM,KAAK,GAAG,IAAIC,GAAG,CAAC,CAAE,CAAC;EAEpD,OAAOD,KAAK;AACd","ignoreList":[]}

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backend/apis/nodejs/node_modules/@babel/traverse/lib/context.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.default = void 0;
var _index = require("./path/index.js");
var _t = require("@babel/types");
var _context = require("./path/context.js");
const {
VISITOR_KEYS
} = _t;
class TraversalContext {
constructor(scope, opts, state, parentPath) {
this.queue = null;
this.priorityQueue = null;
this.parentPath = parentPath;
this.scope = scope;
this.state = state;
this.opts = opts;
}
shouldVisit(node) {
const opts = this.opts;
if (opts.enter || opts.exit) return true;
if (opts[node.type]) return true;
const keys = VISITOR_KEYS[node.type];
if (!(keys != null && keys.length)) return false;
for (const key of keys) {
if (node[key]) {
return true;
}
}
return false;
}
create(node, container, key, listKey) {
return _index.default.get({
parentPath: this.parentPath,
parent: node,
container,
key: key,
listKey
});
}
maybeQueue(path, notPriority) {
if (this.queue) {
if (notPriority) {
this.queue.push(path);
} else {
this.priorityQueue.push(path);
}
}
}
visitMultiple(container, parent, listKey) {
if (container.length === 0) return false;
const queue = [];
for (let key = 0; key < container.length; key++) {
const node = container[key];
if (node && this.shouldVisit(node)) {
queue.push(this.create(parent, container, key, listKey));
}
}
return this.visitQueue(queue);
}
visitSingle(node, key) {
if (this.shouldVisit(node[key])) {
return this.visitQueue([this.create(node, node, key)]);
} else {
return false;
}
}
visitQueue(queue) {
this.queue = queue;
this.priorityQueue = [];
const visited = new WeakSet();
let stop = false;
let visitIndex = 0;
for (; visitIndex < queue.length;) {
const path = queue[visitIndex];
visitIndex++;
_context.resync.call(path);
if (path.contexts.length === 0 || path.contexts[path.contexts.length - 1] !== this) {
_context.pushContext.call(path, this);
}
if (path.key === null) continue;
const {
node
} = path;
if (visited.has(node)) continue;
if (node) visited.add(node);
if (path.visit()) {
stop = true;
break;
}
if (this.priorityQueue.length) {
stop = this.visitQueue(this.priorityQueue);
this.priorityQueue = [];
this.queue = queue;
if (stop) break;
}
}
for (let i = 0; i < visitIndex; i++) {
_context.popContext.call(queue[i]);
}
this.queue = null;
return stop;
}
visit(node, key) {
const nodes = node[key];
if (!nodes) return false;
if (Array.isArray(nodes)) {
return this.visitMultiple(nodes, node, key);
} else {
return this.visitSingle(node, key);
}
}
}
exports.default = TraversalContext;
//# sourceMappingURL=context.js.map

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backend/apis/nodejs/node_modules/@babel/traverse/lib/hub.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.default = void 0;
class Hub {
getCode() {}
getScope() {}
addHelper() {
throw new Error("Helpers are not supported by the default hub.");
}
buildError(node, msg, Error = TypeError) {
return new Error(msg);
}
}
exports.default = Hub;
//# sourceMappingURL=hub.js.map

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{"version":3,"names":["Hub","getCode","getScope","addHelper","Error","buildError","node","msg","TypeError","exports","default"],"sources":["../src/hub.ts"],"sourcesContent":["import type Scope from \"./scope/index.ts\";\nimport type { Node } from \"@babel/types\";\n\nexport interface HubInterface {\n getCode(): string | void;\n getScope(): Scope | void;\n addHelper(name: string): any;\n buildError(node: Node, msg: string, Error: new () => Error): Error;\n}\n\nexport default class Hub implements HubInterface {\n getCode() {}\n\n getScope() {}\n\n addHelper() {\n throw new Error(\"Helpers are not supported by the default hub.\");\n }\n\n buildError(node: Node, msg: string, Error = TypeError): Error {\n return new Error(msg);\n }\n}\n"],"mappings":";;;;;;AAUe,MAAMA,GAAG,CAAyB;EAC/CC,OAAOA,CAAA,EAAG,CAAC;EAEXC,QAAQA,CAAA,EAAG,CAAC;EAEZC,SAASA,CAAA,EAAG;IACV,MAAM,IAAIC,KAAK,CAAC,+CAA+C,CAAC;EAClE;EAEAC,UAAUA,CAACC,IAAU,EAAEC,GAAW,EAAEH,KAAK,GAAGI,SAAS,EAAS;IAC5D,OAAO,IAAIJ,KAAK,CAACG,GAAG,CAAC;EACvB;AACF;AAACE,OAAA,CAAAC,OAAA,GAAAV,GAAA","ignoreList":[]}

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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
Object.defineProperty(exports, "Hub", {
enumerable: true,
get: function () {
return _hub.default;
}
});
Object.defineProperty(exports, "NodePath", {
enumerable: true,
get: function () {
return _index.default;
}
});
Object.defineProperty(exports, "Scope", {
enumerable: true,
get: function () {
return _index2.default;
}
});
exports.visitors = exports.default = void 0;
require("./path/context.js");
var visitors = require("./visitors.js");
exports.visitors = visitors;
var _t = require("@babel/types");
var cache = require("./cache.js");
var _traverseNode = require("./traverse-node.js");
var _index = require("./path/index.js");
var _index2 = require("./scope/index.js");
var _hub = require("./hub.js");
const {
VISITOR_KEYS,
removeProperties,
traverseFast
} = _t;
function traverse(parent, opts = {}, scope, state, parentPath, visitSelf) {
if (!parent) return;
if (!opts.noScope && !scope) {
if (parent.type !== "Program" && parent.type !== "File") {
throw new Error("You must pass a scope and parentPath unless traversing a Program/File. " + `Instead of that you tried to traverse a ${parent.type} node without ` + "passing scope and parentPath.");
}
}
if (!parentPath && visitSelf) {
throw new Error("visitSelf can only be used when providing a NodePath.");
}
if (!VISITOR_KEYS[parent.type]) {
return;
}
visitors.explode(opts);
(0, _traverseNode.traverseNode)(parent, opts, scope, state, parentPath, null, visitSelf);
}
var _default = exports.default = traverse;
traverse.visitors = visitors;
traverse.verify = visitors.verify;
traverse.explode = visitors.explode;
traverse.cheap = function (node, enter) {
traverseFast(node, enter);
return;
};
traverse.node = function (node, opts, scope, state, path, skipKeys) {
(0, _traverseNode.traverseNode)(node, opts, scope, state, path, skipKeys);
};
traverse.clearNode = function (node, opts) {
removeProperties(node, opts);
};
traverse.removeProperties = function (tree, opts) {
traverseFast(tree, traverse.clearNode, opts);
return tree;
};
function hasDenylistedType(path, state) {
if (path.node.type === state.type) {
state.has = true;
path.stop();
}
}
traverse.hasType = function (tree, type, denylistTypes) {
if (denylistTypes != null && denylistTypes.includes(tree.type)) return false;
if (tree.type === type) return true;
const state = {
has: false,
type: type
};
traverse(tree, {
noScope: true,
denylist: denylistTypes,
enter: hasDenylistedType
}, null, state);
return state.has;
};
traverse.cache = cache;
//# sourceMappingURL=index.js.map

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backend/apis/nodejs/node_modules/@babel/traverse/lib/path/ancestry.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.find = find;
exports.findParent = findParent;
exports.getAncestry = getAncestry;
exports.getDeepestCommonAncestorFrom = getDeepestCommonAncestorFrom;
exports.getEarliestCommonAncestorFrom = getEarliestCommonAncestorFrom;
exports.getFunctionParent = getFunctionParent;
exports.getStatementParent = getStatementParent;
exports.inType = inType;
exports.isAncestor = isAncestor;
exports.isDescendant = isDescendant;
var _t = require("@babel/types");
const {
VISITOR_KEYS
} = _t;
function findParent(callback) {
let path = this;
while (path = path.parentPath) {
if (callback(path)) return path;
}
return null;
}
function find(callback) {
let path = this;
do {
if (callback(path)) return path;
} while (path = path.parentPath);
return null;
}
function getFunctionParent() {
return this.findParent(p => p.isFunction());
}
function getStatementParent() {
let path = this;
do {
if (!path.parentPath || Array.isArray(path.container) && path.isStatement()) {
break;
} else {
path = path.parentPath;
}
} while (path);
if (path && (path.isProgram() || path.isFile())) {
throw new Error("File/Program node, we can't possibly find a statement parent to this");
}
return path;
}
function getEarliestCommonAncestorFrom(paths) {
return this.getDeepestCommonAncestorFrom(paths, function (deepest, i, ancestries) {
let earliest;
const keys = VISITOR_KEYS[deepest.type];
for (const ancestry of ancestries) {
const path = ancestry[i + 1];
if (!earliest) {
earliest = path;
continue;
}
if (path.listKey && earliest.listKey === path.listKey) {
if (path.key < earliest.key) {
earliest = path;
continue;
}
}
const earliestKeyIndex = keys.indexOf(earliest.parentKey);
const currentKeyIndex = keys.indexOf(path.parentKey);
if (earliestKeyIndex > currentKeyIndex) {
earliest = path;
}
}
return earliest;
});
}
function getDeepestCommonAncestorFrom(paths, filter) {
if (!paths.length) {
return this;
}
if (paths.length === 1) {
return paths[0];
}
let minDepth = Infinity;
let lastCommonIndex, lastCommon;
const ancestries = paths.map(path => {
const ancestry = [];
do {
ancestry.unshift(path);
} while ((path = path.parentPath) && path !== this);
if (ancestry.length < minDepth) {
minDepth = ancestry.length;
}
return ancestry;
});
const first = ancestries[0];
depthLoop: for (let i = 0; i < minDepth; i++) {
const shouldMatch = first[i];
for (const ancestry of ancestries) {
if (ancestry[i] !== shouldMatch) {
break depthLoop;
}
}
lastCommonIndex = i;
lastCommon = shouldMatch;
}
if (lastCommon) {
if (filter) {
return filter(lastCommon, lastCommonIndex, ancestries);
} else {
return lastCommon;
}
} else {
throw new Error("Couldn't find intersection");
}
}
function getAncestry() {
let path = this;
const paths = [];
do {
paths.push(path);
} while (path = path.parentPath);
return paths;
}
function isAncestor(maybeDescendant) {
return maybeDescendant.isDescendant(this);
}
function isDescendant(maybeAncestor) {
return !!this.findParent(parent => parent === maybeAncestor);
}
function inType(...candidateTypes) {
let path = this;
while (path) {
for (const type of candidateTypes) {
if (path.node.type === type) return true;
}
path = path.parentPath;
}
return false;
}
//# sourceMappingURL=ancestry.js.map

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backend/apis/nodejs/node_modules/@babel/traverse/lib/path/comments.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.addComment = addComment;
exports.addComments = addComments;
exports.shareCommentsWithSiblings = shareCommentsWithSiblings;
var _t = require("@babel/types");
const {
addComment: _addComment,
addComments: _addComments
} = _t;
function shareCommentsWithSiblings() {
if (typeof this.key === "string") return;
const node = this.node;
if (!node) return;
const trailing = node.trailingComments;
const leading = node.leadingComments;
if (!trailing && !leading) return;
const prev = this.getSibling(this.key - 1);
const next = this.getSibling(this.key + 1);
const hasPrev = Boolean(prev.node);
const hasNext = Boolean(next.node);
if (hasPrev) {
if (leading) {
prev.addComments("trailing", removeIfExisting(leading, prev.node.trailingComments));
}
if (trailing && !hasNext) prev.addComments("trailing", trailing);
}
if (hasNext) {
if (trailing) {
next.addComments("leading", removeIfExisting(trailing, next.node.leadingComments));
}
if (leading && !hasPrev) next.addComments("leading", leading);
}
}
function removeIfExisting(list, toRemove) {
if (!(toRemove != null && toRemove.length)) return list;
const set = new Set(toRemove);
return list.filter(el => {
return !set.has(el);
});
}
function addComment(type, content, line) {
_addComment(this.node, type, content, line);
}
function addComments(type, comments) {
_addComments(this.node, type, comments);
}
//# sourceMappingURL=comments.js.map

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242
backend/apis/nodejs/node_modules/@babel/traverse/lib/path/context.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports._call = _call;
exports._getQueueContexts = _getQueueContexts;
exports._resyncKey = _resyncKey;
exports._resyncList = _resyncList;
exports._resyncParent = _resyncParent;
exports._resyncRemoved = _resyncRemoved;
exports.call = call;
exports.isDenylisted = isDenylisted;
exports.popContext = popContext;
exports.pushContext = pushContext;
exports.requeue = requeue;
exports.requeueComputedKeyAndDecorators = requeueComputedKeyAndDecorators;
exports.resync = resync;
exports.setContext = setContext;
exports.setKey = setKey;
exports.setScope = setScope;
exports.setup = setup;
exports.skip = skip;
exports.skipKey = skipKey;
exports.stop = stop;
exports.visit = visit;
var _traverseNode = require("../traverse-node.js");
var _index = require("./index.js");
var _removal = require("./removal.js");
var t = require("@babel/types");
function call(key) {
const opts = this.opts;
this.debug(key);
if (this.node) {
if (_call.call(this, opts[key])) return true;
}
if (this.node) {
var _opts$this$node$type;
return _call.call(this, (_opts$this$node$type = opts[this.node.type]) == null ? void 0 : _opts$this$node$type[key]);
}
return false;
}
function _call(fns) {
if (!fns) return false;
for (const fn of fns) {
if (!fn) continue;
const node = this.node;
if (!node) return true;
const ret = fn.call(this.state, this, this.state);
if (ret && typeof ret === "object" && typeof ret.then === "function") {
throw new Error(`You appear to be using a plugin with an async traversal visitor, ` + `which your current version of Babel does not support. ` + `If you're using a published plugin, you may need to upgrade ` + `your @babel/core version.`);
}
if (ret) {
throw new Error(`Unexpected return value from visitor method ${fn}`);
}
if (this.node !== node) return true;
if (this._traverseFlags > 0) return true;
}
return false;
}
function isDenylisted() {
var _this$opts$denylist;
const denylist = (_this$opts$denylist = this.opts.denylist) != null ? _this$opts$denylist : this.opts.blacklist;
return denylist == null ? void 0 : denylist.includes(this.node.type);
}
{
exports.isBlacklisted = isDenylisted;
}
function restoreContext(path, context) {
if (path.context !== context) {
path.context = context;
path.state = context.state;
path.opts = context.opts;
}
}
function visit() {
var _this$opts$shouldSkip, _this$opts;
if (!this.node) {
return false;
}
if (this.isDenylisted()) {
return false;
}
if ((_this$opts$shouldSkip = (_this$opts = this.opts).shouldSkip) != null && _this$opts$shouldSkip.call(_this$opts, this)) {
return false;
}
const currentContext = this.context;
if (this.shouldSkip || call.call(this, "enter")) {
this.debug("Skip...");
return this.shouldStop;
}
restoreContext(this, currentContext);
this.debug("Recursing into...");
this.shouldStop = (0, _traverseNode.traverseNode)(this.node, this.opts, this.scope, this.state, this, this.skipKeys);
restoreContext(this, currentContext);
call.call(this, "exit");
return this.shouldStop;
}
function skip() {
this.shouldSkip = true;
}
function skipKey(key) {
if (this.skipKeys == null) {
this.skipKeys = {};
}
this.skipKeys[key] = true;
}
function stop() {
this._traverseFlags |= _index.SHOULD_SKIP | _index.SHOULD_STOP;
}
function setScope() {
var _this$opts2, _this$scope;
if ((_this$opts2 = this.opts) != null && _this$opts2.noScope) return;
let path = this.parentPath;
if ((this.key === "key" || this.listKey === "decorators") && path.isMethod() || this.key === "discriminant" && path.isSwitchStatement()) {
path = path.parentPath;
}
let target;
while (path && !target) {
var _path$opts;
if ((_path$opts = path.opts) != null && _path$opts.noScope) return;
target = path.scope;
path = path.parentPath;
}
this.scope = this.getScope(target);
(_this$scope = this.scope) == null || _this$scope.init();
}
function setContext(context) {
if (this.skipKeys != null) {
this.skipKeys = {};
}
this._traverseFlags = 0;
if (context) {
this.context = context;
this.state = context.state;
this.opts = context.opts;
}
setScope.call(this);
return this;
}
function resync() {
if (this.removed) return;
_resyncParent.call(this);
_resyncList.call(this);
_resyncKey.call(this);
}
function _resyncParent() {
if (this.parentPath) {
this.parent = this.parentPath.node;
}
}
function _resyncKey() {
if (!this.container) return;
if (this.node === this.container[this.key]) {
return;
}
if (Array.isArray(this.container)) {
for (let i = 0; i < this.container.length; i++) {
if (this.container[i] === this.node) {
setKey.call(this, i);
return;
}
}
} else {
for (const key of Object.keys(this.container)) {
if (this.container[key] === this.node) {
setKey.call(this, key);
return;
}
}
}
this.key = null;
}
function _resyncList() {
if (!this.parent || !this.inList) return;
const newContainer = this.parent[this.listKey];
if (this.container === newContainer) return;
this.container = newContainer || null;
}
function _resyncRemoved() {
if (this.key == null || !this.container || this.container[this.key] !== this.node) {
_removal._markRemoved.call(this);
}
}
function popContext() {
this.contexts.pop();
if (this.contexts.length > 0) {
this.setContext(this.contexts[this.contexts.length - 1]);
} else {
this.setContext(undefined);
}
}
function pushContext(context) {
this.contexts.push(context);
this.setContext(context);
}
function setup(parentPath, container, listKey, key) {
this.listKey = listKey;
this.container = container;
this.parentPath = parentPath || this.parentPath;
setKey.call(this, key);
}
function setKey(key) {
var _this$node;
this.key = key;
this.node = this.container[this.key];
this.type = (_this$node = this.node) == null ? void 0 : _this$node.type;
}
function requeue(pathToQueue = this) {
if (pathToQueue.removed) return;
;
const contexts = this.contexts;
for (const context of contexts) {
context.maybeQueue(pathToQueue);
}
}
function requeueComputedKeyAndDecorators() {
const {
context,
node
} = this;
if (!t.isPrivate(node) && node.computed) {
context.maybeQueue(this.get("key"));
}
if (node.decorators) {
for (const decorator of this.get("decorators")) {
context.maybeQueue(decorator);
}
}
}
function _getQueueContexts() {
let path = this;
let contexts = this.contexts;
while (!contexts.length) {
path = path.parentPath;
if (!path) break;
contexts = path.contexts;
}
return contexts;
}
//# sourceMappingURL=context.js.map

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backend/apis/nodejs/node_modules/@babel/traverse/lib/path/context.js.map generated vendored Normal file
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608
backend/apis/nodejs/node_modules/@babel/traverse/lib/path/conversion.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.arrowFunctionToExpression = arrowFunctionToExpression;
exports.ensureBlock = ensureBlock;
exports.ensureFunctionName = ensureFunctionName;
exports.splitExportDeclaration = splitExportDeclaration;
exports.toComputedKey = toComputedKey;
exports.unwrapFunctionEnvironment = unwrapFunctionEnvironment;
var _t = require("@babel/types");
var _template = require("@babel/template");
var _visitors = require("../visitors.js");
var _context = require("./context.js");
const {
arrowFunctionExpression,
assignmentExpression,
binaryExpression,
blockStatement,
callExpression,
conditionalExpression,
expressionStatement,
identifier,
isIdentifier,
jsxIdentifier,
logicalExpression,
LOGICAL_OPERATORS,
memberExpression,
metaProperty,
numericLiteral,
objectExpression,
restElement,
returnStatement,
sequenceExpression,
spreadElement,
stringLiteral,
super: _super,
thisExpression,
toExpression,
unaryExpression,
toBindingIdentifierName,
isFunction,
isAssignmentPattern,
isRestElement,
getFunctionName,
cloneNode,
variableDeclaration,
variableDeclarator,
exportNamedDeclaration,
exportSpecifier,
inherits
} = _t;
function toComputedKey() {
let key;
if (this.isMemberExpression()) {
key = this.node.property;
} else if (this.isProperty() || this.isMethod()) {
key = this.node.key;
} else {
throw new ReferenceError("todo");
}
if (!this.node.computed) {
if (isIdentifier(key)) key = stringLiteral(key.name);
}
return key;
}
function ensureBlock() {
const body = this.get("body");
const bodyNode = body.node;
if (Array.isArray(body)) {
throw new Error("Can't convert array path to a block statement");
}
if (!bodyNode) {
throw new Error("Can't convert node without a body");
}
if (body.isBlockStatement()) {
return bodyNode;
}
const statements = [];
let stringPath = "body";
let key;
let listKey;
if (body.isStatement()) {
listKey = "body";
key = 0;
statements.push(body.node);
} else {
stringPath += ".body.0";
if (this.isFunction()) {
key = "argument";
statements.push(returnStatement(body.node));
} else {
key = "expression";
statements.push(expressionStatement(body.node));
}
}
this.node.body = blockStatement(statements);
const parentPath = this.get(stringPath);
_context.setup.call(body, parentPath, listKey ? parentPath.node[listKey] : parentPath.node, listKey, key);
return this.node;
}
{
exports.arrowFunctionToShadowed = function () {
if (!this.isArrowFunctionExpression()) return;
this.arrowFunctionToExpression();
};
}
function unwrapFunctionEnvironment() {
if (!this.isArrowFunctionExpression() && !this.isFunctionExpression() && !this.isFunctionDeclaration()) {
throw this.buildCodeFrameError("Can only unwrap the environment of a function.");
}
hoistFunctionEnvironment(this);
}
function setType(path, type) {
path.node.type = type;
}
function arrowFunctionToExpression({
allowInsertArrow = true,
allowInsertArrowWithRest = allowInsertArrow,
noNewArrows = !(_arguments$ => (_arguments$ = arguments[0]) == null ? void 0 : _arguments$.specCompliant)()
} = {}) {
if (!this.isArrowFunctionExpression()) {
throw this.buildCodeFrameError("Cannot convert non-arrow function to a function expression.");
}
let self = this;
if (!noNewArrows) {
var _self$ensureFunctionN;
self = (_self$ensureFunctionN = self.ensureFunctionName(false)) != null ? _self$ensureFunctionN : self;
}
const {
thisBinding,
fnPath: fn
} = hoistFunctionEnvironment(self, noNewArrows, allowInsertArrow, allowInsertArrowWithRest);
fn.ensureBlock();
setType(fn, "FunctionExpression");
if (!noNewArrows) {
const checkBinding = thisBinding ? null : fn.scope.generateUidIdentifier("arrowCheckId");
if (checkBinding) {
fn.parentPath.scope.push({
id: checkBinding,
init: objectExpression([])
});
}
fn.get("body").unshiftContainer("body", expressionStatement(callExpression(this.hub.addHelper("newArrowCheck"), [thisExpression(), checkBinding ? identifier(checkBinding.name) : identifier(thisBinding)])));
fn.replaceWith(callExpression(memberExpression(fn.node, identifier("bind")), [checkBinding ? identifier(checkBinding.name) : thisExpression()]));
return fn.get("callee.object");
}
return fn;
}
const getSuperCallsVisitor = (0, _visitors.environmentVisitor)({
CallExpression(child, {
allSuperCalls
}) {
if (!child.get("callee").isSuper()) return;
allSuperCalls.push(child);
}
});
function hoistFunctionEnvironment(fnPath, noNewArrows = true, allowInsertArrow = true, allowInsertArrowWithRest = true) {
let arrowParent;
let thisEnvFn = fnPath.findParent(p => {
if (p.isArrowFunctionExpression()) {
arrowParent != null ? arrowParent : arrowParent = p;
return false;
}
return p.isFunction() || p.isProgram() || p.isClassProperty({
static: false
}) || p.isClassPrivateProperty({
static: false
});
});
const inConstructor = thisEnvFn.isClassMethod({
kind: "constructor"
});
if (thisEnvFn.isClassProperty() || thisEnvFn.isClassPrivateProperty()) {
if (arrowParent) {
thisEnvFn = arrowParent;
} else if (allowInsertArrow) {
fnPath.replaceWith(callExpression(arrowFunctionExpression([], toExpression(fnPath.node)), []));
thisEnvFn = fnPath.get("callee");
fnPath = thisEnvFn.get("body");
} else {
throw fnPath.buildCodeFrameError("Unable to transform arrow inside class property");
}
}
const {
thisPaths,
argumentsPaths,
newTargetPaths,
superProps,
superCalls
} = getScopeInformation(fnPath);
if (inConstructor && superCalls.length > 0) {
if (!allowInsertArrow) {
throw superCalls[0].buildCodeFrameError("When using '@babel/plugin-transform-arrow-functions', " + "it's not possible to compile `super()` in an arrow function without compiling classes.\n" + "Please add '@babel/plugin-transform-classes' to your Babel configuration.");
}
if (!allowInsertArrowWithRest) {
throw superCalls[0].buildCodeFrameError("When using '@babel/plugin-transform-parameters', " + "it's not possible to compile `super()` in an arrow function with default or rest parameters without compiling classes.\n" + "Please add '@babel/plugin-transform-classes' to your Babel configuration.");
}
const allSuperCalls = [];
thisEnvFn.traverse(getSuperCallsVisitor, {
allSuperCalls
});
const superBinding = getSuperBinding(thisEnvFn);
allSuperCalls.forEach(superCall => {
const callee = identifier(superBinding);
callee.loc = superCall.node.callee.loc;
superCall.get("callee").replaceWith(callee);
});
}
if (argumentsPaths.length > 0) {
const argumentsBinding = getBinding(thisEnvFn, "arguments", () => {
const args = () => identifier("arguments");
if (thisEnvFn.scope.path.isProgram()) {
return conditionalExpression(binaryExpression("===", unaryExpression("typeof", args()), stringLiteral("undefined")), thisEnvFn.scope.buildUndefinedNode(), args());
} else {
return args();
}
});
argumentsPaths.forEach(argumentsChild => {
const argsRef = identifier(argumentsBinding);
argsRef.loc = argumentsChild.node.loc;
argumentsChild.replaceWith(argsRef);
});
}
if (newTargetPaths.length > 0) {
const newTargetBinding = getBinding(thisEnvFn, "newtarget", () => metaProperty(identifier("new"), identifier("target")));
newTargetPaths.forEach(targetChild => {
const targetRef = identifier(newTargetBinding);
targetRef.loc = targetChild.node.loc;
targetChild.replaceWith(targetRef);
});
}
if (superProps.length > 0) {
if (!allowInsertArrow) {
throw superProps[0].buildCodeFrameError("When using '@babel/plugin-transform-arrow-functions', " + "it's not possible to compile `super.prop` in an arrow function without compiling classes.\n" + "Please add '@babel/plugin-transform-classes' to your Babel configuration.");
}
const flatSuperProps = superProps.reduce((acc, superProp) => acc.concat(standardizeSuperProperty(superProp)), []);
flatSuperProps.forEach(superProp => {
const key = superProp.node.computed ? "" : superProp.get("property").node.name;
const superParentPath = superProp.parentPath;
const isAssignment = superParentPath.isAssignmentExpression({
left: superProp.node
});
const isCall = superParentPath.isCallExpression({
callee: superProp.node
});
const isTaggedTemplate = superParentPath.isTaggedTemplateExpression({
tag: superProp.node
});
const superBinding = getSuperPropBinding(thisEnvFn, isAssignment, key);
const args = [];
if (superProp.node.computed) {
args.push(superProp.get("property").node);
}
if (isAssignment) {
const value = superParentPath.node.right;
args.push(value);
}
const call = callExpression(identifier(superBinding), args);
if (isCall) {
superParentPath.unshiftContainer("arguments", thisExpression());
superProp.replaceWith(memberExpression(call, identifier("call")));
thisPaths.push(superParentPath.get("arguments.0"));
} else if (isAssignment) {
superParentPath.replaceWith(call);
} else if (isTaggedTemplate) {
superProp.replaceWith(callExpression(memberExpression(call, identifier("bind"), false), [thisExpression()]));
thisPaths.push(superProp.get("arguments.0"));
} else {
superProp.replaceWith(call);
}
});
}
let thisBinding;
if (thisPaths.length > 0 || !noNewArrows) {
thisBinding = getThisBinding(thisEnvFn, inConstructor);
if (noNewArrows || inConstructor && hasSuperClass(thisEnvFn)) {
thisPaths.forEach(thisChild => {
const thisRef = thisChild.isJSX() ? jsxIdentifier(thisBinding) : identifier(thisBinding);
thisRef.loc = thisChild.node.loc;
thisChild.replaceWith(thisRef);
});
if (!noNewArrows) thisBinding = null;
}
}
return {
thisBinding,
fnPath
};
}
function isLogicalOp(op) {
return LOGICAL_OPERATORS.includes(op);
}
function standardizeSuperProperty(superProp) {
if (superProp.parentPath.isAssignmentExpression() && superProp.parentPath.node.operator !== "=") {
const assignmentPath = superProp.parentPath;
const op = assignmentPath.node.operator.slice(0, -1);
const value = assignmentPath.node.right;
const isLogicalAssignment = isLogicalOp(op);
if (superProp.node.computed) {
const tmp = superProp.scope.generateDeclaredUidIdentifier("tmp");
const object = superProp.node.object;
const property = superProp.node.property;
assignmentPath.get("left").replaceWith(memberExpression(object, assignmentExpression("=", tmp, property), true));
assignmentPath.get("right").replaceWith(rightExpression(isLogicalAssignment ? "=" : op, memberExpression(object, identifier(tmp.name), true), value));
} else {
const object = superProp.node.object;
const property = superProp.node.property;
assignmentPath.get("left").replaceWith(memberExpression(object, property));
assignmentPath.get("right").replaceWith(rightExpression(isLogicalAssignment ? "=" : op, memberExpression(object, identifier(property.name)), value));
}
if (isLogicalAssignment) {
assignmentPath.replaceWith(logicalExpression(op, assignmentPath.node.left, assignmentPath.node.right));
} else {
assignmentPath.node.operator = "=";
}
return [assignmentPath.get("left"), assignmentPath.get("right").get("left")];
} else if (superProp.parentPath.isUpdateExpression()) {
const updateExpr = superProp.parentPath;
const tmp = superProp.scope.generateDeclaredUidIdentifier("tmp");
const computedKey = superProp.node.computed ? superProp.scope.generateDeclaredUidIdentifier("prop") : null;
const parts = [assignmentExpression("=", tmp, memberExpression(superProp.node.object, computedKey ? assignmentExpression("=", computedKey, superProp.node.property) : superProp.node.property, superProp.node.computed)), assignmentExpression("=", memberExpression(superProp.node.object, computedKey ? identifier(computedKey.name) : superProp.node.property, superProp.node.computed), binaryExpression(superProp.parentPath.node.operator[0], identifier(tmp.name), numericLiteral(1)))];
if (!superProp.parentPath.node.prefix) {
parts.push(identifier(tmp.name));
}
updateExpr.replaceWith(sequenceExpression(parts));
const left = updateExpr.get("expressions.0.right");
const right = updateExpr.get("expressions.1.left");
return [left, right];
}
return [superProp];
function rightExpression(op, left, right) {
if (op === "=") {
return assignmentExpression("=", left, right);
} else {
return binaryExpression(op, left, right);
}
}
}
function hasSuperClass(thisEnvFn) {
return thisEnvFn.isClassMethod() && !!thisEnvFn.parentPath.parentPath.node.superClass;
}
const assignSuperThisVisitor = (0, _visitors.environmentVisitor)({
CallExpression(child, {
supers,
thisBinding
}) {
if (!child.get("callee").isSuper()) return;
if (supers.has(child.node)) return;
supers.add(child.node);
child.replaceWithMultiple([child.node, assignmentExpression("=", identifier(thisBinding), identifier("this"))]);
}
});
function getThisBinding(thisEnvFn, inConstructor) {
return getBinding(thisEnvFn, "this", thisBinding => {
if (!inConstructor || !hasSuperClass(thisEnvFn)) return thisExpression();
thisEnvFn.traverse(assignSuperThisVisitor, {
supers: new WeakSet(),
thisBinding
});
});
}
function getSuperBinding(thisEnvFn) {
return getBinding(thisEnvFn, "supercall", () => {
const argsBinding = thisEnvFn.scope.generateUidIdentifier("args");
return arrowFunctionExpression([restElement(argsBinding)], callExpression(_super(), [spreadElement(identifier(argsBinding.name))]));
});
}
function getSuperPropBinding(thisEnvFn, isAssignment, propName) {
const op = isAssignment ? "set" : "get";
return getBinding(thisEnvFn, `superprop_${op}:${propName || ""}`, () => {
const argsList = [];
let fnBody;
if (propName) {
fnBody = memberExpression(_super(), identifier(propName));
} else {
const method = thisEnvFn.scope.generateUidIdentifier("prop");
argsList.unshift(method);
fnBody = memberExpression(_super(), identifier(method.name), true);
}
if (isAssignment) {
const valueIdent = thisEnvFn.scope.generateUidIdentifier("value");
argsList.push(valueIdent);
fnBody = assignmentExpression("=", fnBody, identifier(valueIdent.name));
}
return arrowFunctionExpression(argsList, fnBody);
});
}
function getBinding(thisEnvFn, key, init) {
const cacheKey = "binding:" + key;
let data = thisEnvFn.getData(cacheKey);
if (!data) {
const id = thisEnvFn.scope.generateUidIdentifier(key);
data = id.name;
thisEnvFn.setData(cacheKey, data);
thisEnvFn.scope.push({
id: id,
init: init(data)
});
}
return data;
}
const getScopeInformationVisitor = (0, _visitors.environmentVisitor)({
ThisExpression(child, {
thisPaths
}) {
thisPaths.push(child);
},
JSXIdentifier(child, {
thisPaths
}) {
if (child.node.name !== "this") return;
if (!child.parentPath.isJSXMemberExpression({
object: child.node
}) && !child.parentPath.isJSXOpeningElement({
name: child.node
})) {
return;
}
thisPaths.push(child);
},
CallExpression(child, {
superCalls
}) {
if (child.get("callee").isSuper()) superCalls.push(child);
},
MemberExpression(child, {
superProps
}) {
if (child.get("object").isSuper()) superProps.push(child);
},
Identifier(child, {
argumentsPaths
}) {
if (!child.isReferencedIdentifier({
name: "arguments"
})) return;
let curr = child.scope;
do {
if (curr.hasOwnBinding("arguments")) {
curr.rename("arguments");
return;
}
if (curr.path.isFunction() && !curr.path.isArrowFunctionExpression()) {
break;
}
} while (curr = curr.parent);
argumentsPaths.push(child);
},
MetaProperty(child, {
newTargetPaths
}) {
if (!child.get("meta").isIdentifier({
name: "new"
})) return;
if (!child.get("property").isIdentifier({
name: "target"
})) return;
newTargetPaths.push(child);
}
});
function getScopeInformation(fnPath) {
const thisPaths = [];
const argumentsPaths = [];
const newTargetPaths = [];
const superProps = [];
const superCalls = [];
fnPath.traverse(getScopeInformationVisitor, {
thisPaths,
argumentsPaths,
newTargetPaths,
superProps,
superCalls
});
return {
thisPaths,
argumentsPaths,
newTargetPaths,
superProps,
superCalls
};
}
function splitExportDeclaration() {
if (!this.isExportDeclaration() || this.isExportAllDeclaration()) {
throw new Error("Only default and named export declarations can be split.");
}
if (this.isExportNamedDeclaration() && this.get("specifiers").length > 0) {
throw new Error("It doesn't make sense to split exported specifiers.");
}
const declaration = this.get("declaration");
if (this.isExportDefaultDeclaration()) {
const standaloneDeclaration = declaration.isFunctionDeclaration() || declaration.isClassDeclaration();
const exportExpr = declaration.isFunctionExpression() || declaration.isClassExpression();
const scope = declaration.isScope() ? declaration.scope.parent : declaration.scope;
let id = declaration.node.id;
let needBindingRegistration = false;
if (!id) {
needBindingRegistration = true;
id = scope.generateUidIdentifier("default");
if (standaloneDeclaration || exportExpr) {
declaration.node.id = cloneNode(id);
}
} else if (exportExpr && scope.hasBinding(id.name)) {
needBindingRegistration = true;
id = scope.generateUidIdentifier(id.name);
}
const updatedDeclaration = standaloneDeclaration ? declaration.node : variableDeclaration("var", [variableDeclarator(cloneNode(id), declaration.node)]);
const updatedExportDeclaration = exportNamedDeclaration(null, [exportSpecifier(cloneNode(id), identifier("default"))]);
this.insertAfter(updatedExportDeclaration);
this.replaceWith(updatedDeclaration);
if (needBindingRegistration) {
scope.registerDeclaration(this);
}
return this;
} else if (this.get("specifiers").length > 0) {
throw new Error("It doesn't make sense to split exported specifiers.");
}
const bindingIdentifiers = declaration.getOuterBindingIdentifiers();
const specifiers = Object.keys(bindingIdentifiers).map(name => {
return exportSpecifier(identifier(name), identifier(name));
});
const aliasDeclar = exportNamedDeclaration(null, specifiers);
this.insertAfter(aliasDeclar);
this.replaceWith(declaration.node);
return this;
}
const refersOuterBindingVisitor = {
"ReferencedIdentifier|BindingIdentifier"(path, state) {
if (path.node.name !== state.name) return;
state.needsRename = true;
path.stop();
},
Scope(path, state) {
if (path.scope.hasOwnBinding(state.name)) {
path.skip();
}
}
};
function ensureFunctionName(supportUnicodeId) {
if (this.node.id) return this;
const res = getFunctionName(this.node, this.parent);
if (res == null) return this;
let {
name
} = res;
if (!supportUnicodeId && /[\uD800-\uDFFF]/.test(name)) {
return null;
}
if (name.startsWith("get ") || name.startsWith("set ")) {
return null;
}
name = toBindingIdentifierName(name.replace(/[/ ]/g, "_"));
const id = identifier(name);
inherits(id, res.originalNode);
const state = {
needsRename: false,
name
};
const {
scope
} = this;
const binding = scope.getOwnBinding(name);
if (binding) {
if (binding.kind === "param") {
state.needsRename = true;
} else {}
} else if (scope.parent.hasBinding(name) || scope.hasGlobal(name)) {
this.traverse(refersOuterBindingVisitor, state);
}
if (!state.needsRename) {
this.node.id = id;
scope.getProgramParent().references[id.name] = true;
return this;
}
if (scope.hasBinding(id.name) && !scope.hasGlobal(id.name)) {
scope.rename(id.name);
this.node.id = id;
scope.getProgramParent().references[id.name] = true;
return this;
}
if (!isFunction(this.node)) return null;
const key = scope.generateUidIdentifier(id.name);
const params = [];
for (let i = 0, len = getFunctionArity(this.node); i < len; i++) {
params.push(scope.generateUidIdentifier("x"));
}
const call = _template.default.expression.ast`
(function (${key}) {
function ${id}(${params}) {
return ${cloneNode(key)}.apply(this, arguments);
}
${cloneNode(id)}.toString = function () {
return ${cloneNode(key)}.toString();
}
return ${cloneNode(id)};
})(${toExpression(this.node)})
`;
return this.replaceWith(call)[0].get("arguments.0");
}
function getFunctionArity(node) {
const count = node.params.findIndex(param => isAssignmentPattern(param) || isRestElement(param));
return count === -1 ? node.params.length : count;
}
//# sourceMappingURL=conversion.js.map

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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.evaluate = evaluate;
exports.evaluateTruthy = evaluateTruthy;
const VALID_OBJECT_CALLEES = ["Number", "String", "Math"];
const VALID_IDENTIFIER_CALLEES = ["isFinite", "isNaN", "parseFloat", "parseInt", "decodeURI", "decodeURIComponent", "encodeURI", "encodeURIComponent", null, null];
const INVALID_METHODS = ["random"];
function isValidObjectCallee(val) {
return VALID_OBJECT_CALLEES.includes(val);
}
function isValidIdentifierCallee(val) {
return VALID_IDENTIFIER_CALLEES.includes(val);
}
function isInvalidMethod(val) {
return INVALID_METHODS.includes(val);
}
function evaluateTruthy() {
const res = this.evaluate();
if (res.confident) return !!res.value;
}
function deopt(path, state) {
if (!state.confident) return;
state.deoptPath = path;
state.confident = false;
}
const Globals = new Map([["undefined", undefined], ["Infinity", Infinity], ["NaN", NaN]]);
function evaluateCached(path, state) {
const {
node
} = path;
const {
seen
} = state;
if (seen.has(node)) {
const existing = seen.get(node);
if (existing.resolved) {
return existing.value;
} else {
deopt(path, state);
return;
}
} else {
const item = {
resolved: false
};
seen.set(node, item);
const val = _evaluate(path, state);
if (state.confident) {
item.resolved = true;
item.value = val;
}
return val;
}
}
function _evaluate(path, state) {
if (!state.confident) return;
if (path.isSequenceExpression()) {
const exprs = path.get("expressions");
return evaluateCached(exprs[exprs.length - 1], state);
}
if (path.isStringLiteral() || path.isNumericLiteral() || path.isBooleanLiteral()) {
return path.node.value;
}
if (path.isNullLiteral()) {
return null;
}
if (path.isTemplateLiteral()) {
return evaluateQuasis(path, path.node.quasis, state);
}
if (path.isTaggedTemplateExpression() && path.get("tag").isMemberExpression()) {
const object = path.get("tag.object");
const {
node: {
name
}
} = object;
const property = path.get("tag.property");
if (object.isIdentifier() && name === "String" && !path.scope.getBinding(name) && property.isIdentifier() && property.node.name === "raw") {
return evaluateQuasis(path, path.node.quasi.quasis, state, true);
}
}
if (path.isConditionalExpression()) {
const testResult = evaluateCached(path.get("test"), state);
if (!state.confident) return;
if (testResult) {
return evaluateCached(path.get("consequent"), state);
} else {
return evaluateCached(path.get("alternate"), state);
}
}
if (path.isExpressionWrapper()) {
return evaluateCached(path.get("expression"), state);
}
if (path.isMemberExpression() && !path.parentPath.isCallExpression({
callee: path.node
})) {
const property = path.get("property");
const object = path.get("object");
if (object.isLiteral()) {
const value = object.node.value;
const type = typeof value;
let key = null;
if (path.node.computed) {
key = evaluateCached(property, state);
if (!state.confident) return;
} else if (property.isIdentifier()) {
key = property.node.name;
}
if ((type === "number" || type === "string") && key != null && (typeof key === "number" || typeof key === "string")) {
return value[key];
}
}
}
if (path.isReferencedIdentifier()) {
const binding = path.scope.getBinding(path.node.name);
if (binding) {
if (binding.constantViolations.length > 0 || path.node.start < binding.path.node.end) {
deopt(binding.path, state);
return;
}
const bindingPathScope = binding.path.scope;
if (binding.kind === "var" && bindingPathScope !== binding.scope) {
let hasUnsafeBlock = !bindingPathScope.path.parentPath.isBlockStatement();
for (let scope = bindingPathScope.parent; scope; scope = scope.parent) {
var _scope$path$parentPat;
if (scope === path.scope) {
if (hasUnsafeBlock) {
deopt(binding.path, state);
return;
}
break;
}
if ((_scope$path$parentPat = scope.path.parentPath) != null && _scope$path$parentPat.isBlockStatement()) {
hasUnsafeBlock = true;
}
}
}
if (binding.hasValue) {
return binding.value;
}
}
const name = path.node.name;
if (Globals.has(name)) {
if (!binding) {
return Globals.get(name);
}
deopt(binding.path, state);
return;
}
const resolved = path.resolve();
if (resolved === path) {
deopt(path, state);
return;
} else {
return evaluateCached(resolved, state);
}
}
if (path.isUnaryExpression({
prefix: true
})) {
if (path.node.operator === "void") {
return undefined;
}
const argument = path.get("argument");
if (path.node.operator === "typeof" && (argument.isFunction() || argument.isClass())) {
return "function";
}
const arg = evaluateCached(argument, state);
if (!state.confident) return;
switch (path.node.operator) {
case "!":
return !arg;
case "+":
return +arg;
case "-":
return -arg;
case "~":
return ~arg;
case "typeof":
return typeof arg;
}
}
if (path.isArrayExpression()) {
const arr = [];
const elems = path.get("elements");
for (const elem of elems) {
const elemValue = elem.evaluate();
if (elemValue.confident) {
arr.push(elemValue.value);
} else {
deopt(elemValue.deopt, state);
return;
}
}
return arr;
}
if (path.isObjectExpression()) {
const obj = {};
const props = path.get("properties");
for (const prop of props) {
if (prop.isObjectMethod() || prop.isSpreadElement()) {
deopt(prop, state);
return;
}
const keyPath = prop.get("key");
let key;
if (prop.node.computed) {
key = keyPath.evaluate();
if (!key.confident) {
deopt(key.deopt, state);
return;
}
key = key.value;
} else if (keyPath.isIdentifier()) {
key = keyPath.node.name;
} else {
key = keyPath.node.value;
}
const valuePath = prop.get("value");
let value = valuePath.evaluate();
if (!value.confident) {
deopt(value.deopt, state);
return;
}
value = value.value;
obj[key] = value;
}
return obj;
}
if (path.isLogicalExpression()) {
const wasConfident = state.confident;
const left = evaluateCached(path.get("left"), state);
const leftConfident = state.confident;
state.confident = wasConfident;
const right = evaluateCached(path.get("right"), state);
const rightConfident = state.confident;
switch (path.node.operator) {
case "||":
state.confident = leftConfident && (!!left || rightConfident);
if (!state.confident) return;
return left || right;
case "&&":
state.confident = leftConfident && (!left || rightConfident);
if (!state.confident) return;
return left && right;
case "??":
state.confident = leftConfident && (left != null || rightConfident);
if (!state.confident) return;
return left != null ? left : right;
}
}
if (path.isBinaryExpression()) {
const left = evaluateCached(path.get("left"), state);
if (!state.confident) return;
const right = evaluateCached(path.get("right"), state);
if (!state.confident) return;
switch (path.node.operator) {
case "-":
return left - right;
case "+":
return left + right;
case "/":
return left / right;
case "*":
return left * right;
case "%":
return left % right;
case "**":
return Math.pow(left, right);
case "<":
return left < right;
case ">":
return left > right;
case "<=":
return left <= right;
case ">=":
return left >= right;
case "==":
return left == right;
case "!=":
return left != right;
case "===":
return left === right;
case "!==":
return left !== right;
case "|":
return left | right;
case "&":
return left & right;
case "^":
return left ^ right;
case "<<":
return left << right;
case ">>":
return left >> right;
case ">>>":
return left >>> right;
}
}
if (path.isCallExpression()) {
const callee = path.get("callee");
let context;
let func;
if (callee.isIdentifier() && !path.scope.getBinding(callee.node.name) && (isValidObjectCallee(callee.node.name) || isValidIdentifierCallee(callee.node.name))) {
func = global[callee.node.name];
}
if (callee.isMemberExpression()) {
const object = callee.get("object");
const property = callee.get("property");
if (object.isIdentifier() && property.isIdentifier() && isValidObjectCallee(object.node.name) && !isInvalidMethod(property.node.name)) {
context = global[object.node.name];
const key = property.node.name;
if (hasOwnProperty.call(context, key)) {
func = context[key];
}
}
if (object.isLiteral() && property.isIdentifier()) {
const type = typeof object.node.value;
if (type === "string" || type === "number") {
context = object.node.value;
func = context[property.node.name];
}
}
}
if (func) {
const args = path.get("arguments").map(arg => evaluateCached(arg, state));
if (!state.confident) return;
return func.apply(context, args);
}
}
deopt(path, state);
}
function evaluateQuasis(path, quasis, state, raw = false) {
let str = "";
let i = 0;
const exprs = path.isTemplateLiteral() ? path.get("expressions") : path.get("quasi.expressions");
for (const elem of quasis) {
if (!state.confident) break;
str += raw ? elem.value.raw : elem.value.cooked;
const expr = exprs[i++];
if (expr) str += String(evaluateCached(expr, state));
}
if (!state.confident) return;
return str;
}
function evaluate() {
const state = {
confident: true,
deoptPath: null,
seen: new Map()
};
let value = evaluateCached(this, state);
if (!state.confident) value = undefined;
return {
confident: state.confident,
deopt: state.deoptPath,
value: value
};
}
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports._getKey = _getKey;
exports._getPattern = _getPattern;
exports.get = get;
exports.getAllNextSiblings = getAllNextSiblings;
exports.getAllPrevSiblings = getAllPrevSiblings;
exports.getAssignmentIdentifiers = getAssignmentIdentifiers;
exports.getBindingIdentifierPaths = getBindingIdentifierPaths;
exports.getBindingIdentifiers = getBindingIdentifiers;
exports.getCompletionRecords = getCompletionRecords;
exports.getNextSibling = getNextSibling;
exports.getOpposite = getOpposite;
exports.getOuterBindingIdentifierPaths = getOuterBindingIdentifierPaths;
exports.getOuterBindingIdentifiers = getOuterBindingIdentifiers;
exports.getPrevSibling = getPrevSibling;
exports.getSibling = getSibling;
var _index = require("./index.js");
var _t = require("@babel/types");
const {
getAssignmentIdentifiers: _getAssignmentIdentifiers,
getBindingIdentifiers: _getBindingIdentifiers,
getOuterBindingIdentifiers: _getOuterBindingIdentifiers,
numericLiteral,
unaryExpression
} = _t;
const NORMAL_COMPLETION = 0;
const BREAK_COMPLETION = 1;
function NormalCompletion(path) {
return {
type: NORMAL_COMPLETION,
path
};
}
function BreakCompletion(path) {
return {
type: BREAK_COMPLETION,
path
};
}
function getOpposite() {
if (this.key === "left") {
return this.getSibling("right");
} else if (this.key === "right") {
return this.getSibling("left");
}
return null;
}
function addCompletionRecords(path, records, context) {
if (path) {
records.push(..._getCompletionRecords(path, context));
}
return records;
}
function completionRecordForSwitch(cases, records, context) {
let lastNormalCompletions = [];
for (let i = 0; i < cases.length; i++) {
const casePath = cases[i];
const caseCompletions = _getCompletionRecords(casePath, context);
const normalCompletions = [];
const breakCompletions = [];
for (const c of caseCompletions) {
if (c.type === NORMAL_COMPLETION) {
normalCompletions.push(c);
}
if (c.type === BREAK_COMPLETION) {
breakCompletions.push(c);
}
}
if (normalCompletions.length) {
lastNormalCompletions = normalCompletions;
}
records.push(...breakCompletions);
}
records.push(...lastNormalCompletions);
return records;
}
function normalCompletionToBreak(completions) {
completions.forEach(c => {
c.type = BREAK_COMPLETION;
});
}
function replaceBreakStatementInBreakCompletion(completions, reachable) {
completions.forEach(c => {
if (c.path.isBreakStatement({
label: null
})) {
if (reachable) {
c.path.replaceWith(unaryExpression("void", numericLiteral(0)));
} else {
c.path.remove();
}
}
});
}
function getStatementListCompletion(paths, context) {
const completions = [];
if (context.canHaveBreak) {
let lastNormalCompletions = [];
for (let i = 0; i < paths.length; i++) {
const path = paths[i];
const newContext = Object.assign({}, context, {
inCaseClause: false
});
if (path.isBlockStatement() && (context.inCaseClause || context.shouldPopulateBreak)) {
newContext.shouldPopulateBreak = true;
} else {
newContext.shouldPopulateBreak = false;
}
const statementCompletions = _getCompletionRecords(path, newContext);
if (statementCompletions.length > 0 && statementCompletions.every(c => c.type === BREAK_COMPLETION)) {
if (lastNormalCompletions.length > 0 && statementCompletions.every(c => c.path.isBreakStatement({
label: null
}))) {
normalCompletionToBreak(lastNormalCompletions);
completions.push(...lastNormalCompletions);
if (lastNormalCompletions.some(c => c.path.isDeclaration())) {
completions.push(...statementCompletions);
replaceBreakStatementInBreakCompletion(statementCompletions, true);
}
replaceBreakStatementInBreakCompletion(statementCompletions, false);
} else {
completions.push(...statementCompletions);
if (!context.shouldPopulateBreak) {
replaceBreakStatementInBreakCompletion(statementCompletions, true);
}
}
break;
}
if (i === paths.length - 1) {
completions.push(...statementCompletions);
} else {
lastNormalCompletions = [];
for (let i = 0; i < statementCompletions.length; i++) {
const c = statementCompletions[i];
if (c.type === BREAK_COMPLETION) {
completions.push(c);
}
if (c.type === NORMAL_COMPLETION) {
lastNormalCompletions.push(c);
}
}
}
}
} else if (paths.length) {
for (let i = paths.length - 1; i >= 0; i--) {
const pathCompletions = _getCompletionRecords(paths[i], context);
if (pathCompletions.length > 1 || pathCompletions.length === 1 && !pathCompletions[0].path.isVariableDeclaration()) {
completions.push(...pathCompletions);
break;
}
}
}
return completions;
}
function _getCompletionRecords(path, context) {
let records = [];
if (path.isIfStatement()) {
records = addCompletionRecords(path.get("consequent"), records, context);
records = addCompletionRecords(path.get("alternate"), records, context);
} else if (path.isDoExpression() || path.isFor() || path.isWhile() || path.isLabeledStatement()) {
return addCompletionRecords(path.get("body"), records, context);
} else if (path.isProgram() || path.isBlockStatement()) {
return getStatementListCompletion(path.get("body"), context);
} else if (path.isFunction()) {
return _getCompletionRecords(path.get("body"), context);
} else if (path.isTryStatement()) {
records = addCompletionRecords(path.get("block"), records, context);
records = addCompletionRecords(path.get("handler"), records, context);
} else if (path.isCatchClause()) {
return addCompletionRecords(path.get("body"), records, context);
} else if (path.isSwitchStatement()) {
return completionRecordForSwitch(path.get("cases"), records, context);
} else if (path.isSwitchCase()) {
return getStatementListCompletion(path.get("consequent"), {
canHaveBreak: true,
shouldPopulateBreak: false,
inCaseClause: true
});
} else if (path.isBreakStatement()) {
records.push(BreakCompletion(path));
} else {
records.push(NormalCompletion(path));
}
return records;
}
function getCompletionRecords() {
const records = _getCompletionRecords(this, {
canHaveBreak: false,
shouldPopulateBreak: false,
inCaseClause: false
});
return records.map(r => r.path);
}
function getSibling(key) {
return _index.default.get({
parentPath: this.parentPath,
parent: this.parent,
container: this.container,
listKey: this.listKey,
key: key
}).setContext(this.context);
}
function getPrevSibling() {
return this.getSibling(this.key - 1);
}
function getNextSibling() {
return this.getSibling(this.key + 1);
}
function getAllNextSiblings() {
let _key = this.key;
let sibling = this.getSibling(++_key);
const siblings = [];
while (sibling.node) {
siblings.push(sibling);
sibling = this.getSibling(++_key);
}
return siblings;
}
function getAllPrevSiblings() {
let _key = this.key;
let sibling = this.getSibling(--_key);
const siblings = [];
while (sibling.node) {
siblings.push(sibling);
sibling = this.getSibling(--_key);
}
return siblings;
}
function get(key, context = true) {
if (context === true) context = this.context;
const parts = key.split(".");
if (parts.length === 1) {
return _getKey.call(this, key, context);
} else {
return _getPattern.call(this, parts, context);
}
}
function _getKey(key, context) {
const node = this.node;
const container = node[key];
if (Array.isArray(container)) {
return container.map((_, i) => {
return _index.default.get({
listKey: key,
parentPath: this,
parent: node,
container: container,
key: i
}).setContext(context);
});
} else {
return _index.default.get({
parentPath: this,
parent: node,
container: node,
key: key
}).setContext(context);
}
}
function _getPattern(parts, context) {
let path = this;
for (const part of parts) {
if (part === ".") {
path = path.parentPath;
} else {
if (Array.isArray(path)) {
path = path[part];
} else {
path = path.get(part, context);
}
}
}
return path;
}
function getAssignmentIdentifiers() {
return _getAssignmentIdentifiers(this.node);
}
function getBindingIdentifiers(duplicates) {
return _getBindingIdentifiers(this.node, duplicates);
}
function getOuterBindingIdentifiers(duplicates) {
return _getOuterBindingIdentifiers(this.node, duplicates);
}
function getBindingIdentifierPaths(duplicates = false, outerOnly = false) {
const path = this;
const search = [path];
const ids = Object.create(null);
while (search.length) {
const id = search.shift();
if (!id) continue;
if (!id.node) continue;
const keys = _getBindingIdentifiers.keys[id.node.type];
if (id.isIdentifier()) {
if (duplicates) {
const _ids = ids[id.node.name] = ids[id.node.name] || [];
_ids.push(id);
} else {
ids[id.node.name] = id;
}
continue;
}
if (id.isExportDeclaration()) {
const declaration = id.get("declaration");
if (declaration.isDeclaration()) {
search.push(declaration);
}
continue;
}
if (outerOnly) {
if (id.isFunctionDeclaration()) {
search.push(id.get("id"));
continue;
}
if (id.isFunctionExpression()) {
continue;
}
}
if (keys) {
for (let i = 0; i < keys.length; i++) {
const key = keys[i];
const child = id.get(key);
if (Array.isArray(child)) {
search.push(...child);
} else if (child.node) {
search.push(child);
}
}
}
}
return ids;
}
function getOuterBindingIdentifierPaths(duplicates = false) {
return this.getBindingIdentifierPaths(duplicates, true);
}
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.default = exports.SHOULD_STOP = exports.SHOULD_SKIP = exports.REMOVED = void 0;
var virtualTypes = require("./lib/virtual-types.js");
var _debug = require("debug");
var _index = require("../index.js");
var _index2 = require("../scope/index.js");
var _t = require("@babel/types");
var t = _t;
var cache = require("../cache.js");
var _generator = require("@babel/generator");
var NodePath_ancestry = require("./ancestry.js");
var NodePath_inference = require("./inference/index.js");
var NodePath_replacement = require("./replacement.js");
var NodePath_evaluation = require("./evaluation.js");
var NodePath_conversion = require("./conversion.js");
var NodePath_introspection = require("./introspection.js");
var _context = require("./context.js");
var NodePath_context = _context;
var NodePath_removal = require("./removal.js");
var NodePath_modification = require("./modification.js");
var NodePath_family = require("./family.js");
var NodePath_comments = require("./comments.js");
var NodePath_virtual_types_validator = require("./lib/virtual-types-validator.js");
const {
validate
} = _t;
const debug = _debug("babel");
const REMOVED = exports.REMOVED = 1 << 0;
const SHOULD_STOP = exports.SHOULD_STOP = 1 << 1;
const SHOULD_SKIP = exports.SHOULD_SKIP = 1 << 2;
const NodePath_Final = exports.default = class NodePath {
constructor(hub, parent) {
this.contexts = [];
this.state = null;
this.opts = null;
this._traverseFlags = 0;
this.skipKeys = null;
this.parentPath = null;
this.container = null;
this.listKey = null;
this.key = null;
this.node = null;
this.type = null;
this.parent = parent;
this.hub = hub;
this.data = null;
this.context = null;
this.scope = null;
}
get removed() {
return (this._traverseFlags & 1) > 0;
}
set removed(v) {
if (v) this._traverseFlags |= 1;else this._traverseFlags &= -2;
}
get shouldStop() {
return (this._traverseFlags & 2) > 0;
}
set shouldStop(v) {
if (v) this._traverseFlags |= 2;else this._traverseFlags &= -3;
}
get shouldSkip() {
return (this._traverseFlags & 4) > 0;
}
set shouldSkip(v) {
if (v) this._traverseFlags |= 4;else this._traverseFlags &= -5;
}
static get({
hub,
parentPath,
parent,
container,
listKey,
key
}) {
if (!hub && parentPath) {
hub = parentPath.hub;
}
if (!parent) {
throw new Error("To get a node path the parent needs to exist");
}
const targetNode = container[key];
const paths = cache.getOrCreateCachedPaths(hub, parent);
let path = paths.get(targetNode);
if (!path) {
path = new NodePath(hub, parent);
if (targetNode) paths.set(targetNode, path);
}
_context.setup.call(path, parentPath, container, listKey, key);
return path;
}
getScope(scope) {
return this.isScope() ? new _index2.default(this) : scope;
}
setData(key, val) {
if (this.data == null) {
this.data = Object.create(null);
}
return this.data[key] = val;
}
getData(key, def) {
if (this.data == null) {
this.data = Object.create(null);
}
let val = this.data[key];
if (val === undefined && def !== undefined) val = this.data[key] = def;
return val;
}
hasNode() {
return this.node != null;
}
buildCodeFrameError(msg, Error = SyntaxError) {
return this.hub.buildError(this.node, msg, Error);
}
traverse(visitor, state) {
(0, _index.default)(this.node, visitor, this.scope, state, this);
}
set(key, node) {
validate(this.node, key, node);
this.node[key] = node;
}
getPathLocation() {
const parts = [];
let path = this;
do {
let key = path.key;
if (path.inList) key = `${path.listKey}[${key}]`;
parts.unshift(key);
} while (path = path.parentPath);
return parts.join(".");
}
debug(message) {
if (!debug.enabled) return;
debug(`${this.getPathLocation()} ${this.type}: ${message}`);
}
toString() {
return (0, _generator.default)(this.node).code;
}
get inList() {
return !!this.listKey;
}
set inList(inList) {
if (!inList) {
this.listKey = null;
}
}
get parentKey() {
return this.listKey || this.key;
}
};
const methods = {
findParent: NodePath_ancestry.findParent,
find: NodePath_ancestry.find,
getFunctionParent: NodePath_ancestry.getFunctionParent,
getStatementParent: NodePath_ancestry.getStatementParent,
getEarliestCommonAncestorFrom: NodePath_ancestry.getEarliestCommonAncestorFrom,
getDeepestCommonAncestorFrom: NodePath_ancestry.getDeepestCommonAncestorFrom,
getAncestry: NodePath_ancestry.getAncestry,
isAncestor: NodePath_ancestry.isAncestor,
isDescendant: NodePath_ancestry.isDescendant,
inType: NodePath_ancestry.inType,
getTypeAnnotation: NodePath_inference.getTypeAnnotation,
isBaseType: NodePath_inference.isBaseType,
couldBeBaseType: NodePath_inference.couldBeBaseType,
baseTypeStrictlyMatches: NodePath_inference.baseTypeStrictlyMatches,
isGenericType: NodePath_inference.isGenericType,
replaceWithMultiple: NodePath_replacement.replaceWithMultiple,
replaceWithSourceString: NodePath_replacement.replaceWithSourceString,
replaceWith: NodePath_replacement.replaceWith,
replaceExpressionWithStatements: NodePath_replacement.replaceExpressionWithStatements,
replaceInline: NodePath_replacement.replaceInline,
evaluateTruthy: NodePath_evaluation.evaluateTruthy,
evaluate: NodePath_evaluation.evaluate,
toComputedKey: NodePath_conversion.toComputedKey,
ensureBlock: NodePath_conversion.ensureBlock,
unwrapFunctionEnvironment: NodePath_conversion.unwrapFunctionEnvironment,
arrowFunctionToExpression: NodePath_conversion.arrowFunctionToExpression,
splitExportDeclaration: NodePath_conversion.splitExportDeclaration,
ensureFunctionName: NodePath_conversion.ensureFunctionName,
matchesPattern: NodePath_introspection.matchesPattern,
isStatic: NodePath_introspection.isStatic,
isNodeType: NodePath_introspection.isNodeType,
canHaveVariableDeclarationOrExpression: NodePath_introspection.canHaveVariableDeclarationOrExpression,
canSwapBetweenExpressionAndStatement: NodePath_introspection.canSwapBetweenExpressionAndStatement,
isCompletionRecord: NodePath_introspection.isCompletionRecord,
isStatementOrBlock: NodePath_introspection.isStatementOrBlock,
referencesImport: NodePath_introspection.referencesImport,
getSource: NodePath_introspection.getSource,
willIMaybeExecuteBefore: NodePath_introspection.willIMaybeExecuteBefore,
_guessExecutionStatusRelativeTo: NodePath_introspection._guessExecutionStatusRelativeTo,
resolve: NodePath_introspection.resolve,
isConstantExpression: NodePath_introspection.isConstantExpression,
isInStrictMode: NodePath_introspection.isInStrictMode,
isDenylisted: NodePath_context.isDenylisted,
visit: NodePath_context.visit,
skip: NodePath_context.skip,
skipKey: NodePath_context.skipKey,
stop: NodePath_context.stop,
setContext: NodePath_context.setContext,
requeue: NodePath_context.requeue,
requeueComputedKeyAndDecorators: NodePath_context.requeueComputedKeyAndDecorators,
remove: NodePath_removal.remove,
insertBefore: NodePath_modification.insertBefore,
insertAfter: NodePath_modification.insertAfter,
unshiftContainer: NodePath_modification.unshiftContainer,
pushContainer: NodePath_modification.pushContainer,
getOpposite: NodePath_family.getOpposite,
getCompletionRecords: NodePath_family.getCompletionRecords,
getSibling: NodePath_family.getSibling,
getPrevSibling: NodePath_family.getPrevSibling,
getNextSibling: NodePath_family.getNextSibling,
getAllNextSiblings: NodePath_family.getAllNextSiblings,
getAllPrevSiblings: NodePath_family.getAllPrevSiblings,
get: NodePath_family.get,
getAssignmentIdentifiers: NodePath_family.getAssignmentIdentifiers,
getBindingIdentifiers: NodePath_family.getBindingIdentifiers,
getOuterBindingIdentifiers: NodePath_family.getOuterBindingIdentifiers,
getBindingIdentifierPaths: NodePath_family.getBindingIdentifierPaths,
getOuterBindingIdentifierPaths: NodePath_family.getOuterBindingIdentifierPaths,
shareCommentsWithSiblings: NodePath_comments.shareCommentsWithSiblings,
addComment: NodePath_comments.addComment,
addComments: NodePath_comments.addComments
};
Object.assign(NodePath_Final.prototype, methods);
{
NodePath_Final.prototype.arrowFunctionToShadowed = NodePath_conversion[String("arrowFunctionToShadowed")];
Object.assign(NodePath_Final.prototype, {
has: NodePath_introspection[String("has")],
is: NodePath_introspection[String("is")],
isnt: NodePath_introspection[String("isnt")],
equals: NodePath_introspection[String("equals")],
hoist: NodePath_modification[String("hoist")],
updateSiblingKeys: NodePath_modification.updateSiblingKeys,
call: NodePath_context.call,
isBlacklisted: NodePath_context[String("isBlacklisted")],
setScope: NodePath_context.setScope,
resync: NodePath_context.resync,
popContext: NodePath_context.popContext,
pushContext: NodePath_context.pushContext,
setup: NodePath_context.setup,
setKey: NodePath_context.setKey
});
}
{
NodePath_Final.prototype._guessExecutionStatusRelativeToDifferentFunctions = NodePath_introspection._guessExecutionStatusRelativeTo;
NodePath_Final.prototype._guessExecutionStatusRelativeToDifferentFunctions = NodePath_introspection._guessExecutionStatusRelativeTo;
Object.assign(NodePath_Final.prototype, {
_getTypeAnnotation: NodePath_inference._getTypeAnnotation,
_replaceWith: NodePath_replacement._replaceWith,
_resolve: NodePath_introspection._resolve,
_call: NodePath_context._call,
_resyncParent: NodePath_context._resyncParent,
_resyncKey: NodePath_context._resyncKey,
_resyncList: NodePath_context._resyncList,
_resyncRemoved: NodePath_context._resyncRemoved,
_getQueueContexts: NodePath_context._getQueueContexts,
_removeFromScope: NodePath_removal._removeFromScope,
_callRemovalHooks: NodePath_removal._callRemovalHooks,
_remove: NodePath_removal._remove,
_markRemoved: NodePath_removal._markRemoved,
_assertUnremoved: NodePath_removal._assertUnremoved,
_containerInsert: NodePath_modification._containerInsert,
_containerInsertBefore: NodePath_modification._containerInsertBefore,
_containerInsertAfter: NodePath_modification._containerInsertAfter,
_verifyNodeList: NodePath_modification._verifyNodeList,
_getKey: NodePath_family._getKey,
_getPattern: NodePath_family._getPattern
});
}
for (const type of t.TYPES) {
const typeKey = `is${type}`;
const fn = t[typeKey];
NodePath_Final.prototype[typeKey] = function (opts) {
return fn(this.node, opts);
};
NodePath_Final.prototype[`assert${type}`] = function (opts) {
if (!fn(this.node, opts)) {
throw new TypeError(`Expected node path of type ${type}`);
}
};
}
Object.assign(NodePath_Final.prototype, NodePath_virtual_types_validator);
for (const type of Object.keys(virtualTypes)) {
if (type[0] === "_") continue;
if (!t.TYPES.includes(type)) t.TYPES.push(type);
}
//# sourceMappingURL=index.js.map

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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports._getTypeAnnotation = _getTypeAnnotation;
exports.baseTypeStrictlyMatches = baseTypeStrictlyMatches;
exports.couldBeBaseType = couldBeBaseType;
exports.getTypeAnnotation = getTypeAnnotation;
exports.isBaseType = isBaseType;
exports.isGenericType = isGenericType;
var inferers = require("./inferers.js");
var _t = require("@babel/types");
const {
anyTypeAnnotation,
isAnyTypeAnnotation,
isArrayTypeAnnotation,
isBooleanTypeAnnotation,
isEmptyTypeAnnotation,
isFlowBaseAnnotation,
isGenericTypeAnnotation,
isIdentifier,
isMixedTypeAnnotation,
isNumberTypeAnnotation,
isStringTypeAnnotation,
isTSArrayType,
isTSTypeAnnotation,
isTSTypeReference,
isTupleTypeAnnotation,
isTypeAnnotation,
isUnionTypeAnnotation,
isVoidTypeAnnotation,
stringTypeAnnotation,
voidTypeAnnotation
} = _t;
function getTypeAnnotation() {
let type = this.getData("typeAnnotation");
if (type != null) {
return type;
}
type = _getTypeAnnotation.call(this) || anyTypeAnnotation();
if (isTypeAnnotation(type) || isTSTypeAnnotation(type)) {
type = type.typeAnnotation;
}
this.setData("typeAnnotation", type);
return type;
}
const typeAnnotationInferringNodes = new WeakSet();
function _getTypeAnnotation() {
const node = this.node;
if (!node) {
if (this.key === "init" && this.parentPath.isVariableDeclarator()) {
const declar = this.parentPath.parentPath;
const declarParent = declar.parentPath;
if (declar.key === "left" && declarParent.isForInStatement()) {
return stringTypeAnnotation();
}
if (declar.key === "left" && declarParent.isForOfStatement()) {
return anyTypeAnnotation();
}
return voidTypeAnnotation();
} else {
return;
}
}
if (node.typeAnnotation) {
return node.typeAnnotation;
}
if (typeAnnotationInferringNodes.has(node)) {
return;
}
typeAnnotationInferringNodes.add(node);
try {
var _inferer;
let inferer = inferers[node.type];
if (inferer) {
return inferer.call(this, node);
}
inferer = inferers[this.parentPath.type];
if ((_inferer = inferer) != null && _inferer.validParent) {
return this.parentPath.getTypeAnnotation();
}
} finally {
typeAnnotationInferringNodes.delete(node);
}
}
function isBaseType(baseName, soft) {
return _isBaseType(baseName, this.getTypeAnnotation(), soft);
}
function _isBaseType(baseName, type, soft) {
if (baseName === "string") {
return isStringTypeAnnotation(type);
} else if (baseName === "number") {
return isNumberTypeAnnotation(type);
} else if (baseName === "boolean") {
return isBooleanTypeAnnotation(type);
} else if (baseName === "any") {
return isAnyTypeAnnotation(type);
} else if (baseName === "mixed") {
return isMixedTypeAnnotation(type);
} else if (baseName === "empty") {
return isEmptyTypeAnnotation(type);
} else if (baseName === "void") {
return isVoidTypeAnnotation(type);
} else {
if (soft) {
return false;
} else {
throw new Error(`Unknown base type ${baseName}`);
}
}
}
function couldBeBaseType(name) {
const type = this.getTypeAnnotation();
if (isAnyTypeAnnotation(type)) return true;
if (isUnionTypeAnnotation(type)) {
for (const type2 of type.types) {
if (isAnyTypeAnnotation(type2) || _isBaseType(name, type2, true)) {
return true;
}
}
return false;
} else {
return _isBaseType(name, type, true);
}
}
function baseTypeStrictlyMatches(rightArg) {
const left = this.getTypeAnnotation();
const right = rightArg.getTypeAnnotation();
if (!isAnyTypeAnnotation(left) && isFlowBaseAnnotation(left)) {
return right.type === left.type;
}
return false;
}
function isGenericType(genericName) {
const type = this.getTypeAnnotation();
if (genericName === "Array") {
if (isTSArrayType(type) || isArrayTypeAnnotation(type) || isTupleTypeAnnotation(type)) {
return true;
}
}
return isGenericTypeAnnotation(type) && isIdentifier(type.id, {
name: genericName
}) || isTSTypeReference(type) && isIdentifier(type.typeName, {
name: genericName
});
}
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.default = _default;
var _t = require("@babel/types");
var _util = require("./util.js");
const {
BOOLEAN_NUMBER_BINARY_OPERATORS,
createTypeAnnotationBasedOnTypeof,
numberTypeAnnotation,
voidTypeAnnotation
} = _t;
function _default(node) {
if (!this.isReferenced()) return;
const binding = this.scope.getBinding(node.name);
if (binding) {
if (binding.identifier.typeAnnotation) {
return binding.identifier.typeAnnotation;
} else {
return getTypeAnnotationBindingConstantViolations(binding, this, node.name);
}
}
if (node.name === "undefined") {
return voidTypeAnnotation();
} else if (node.name === "NaN" || node.name === "Infinity") {
return numberTypeAnnotation();
} else if (node.name === "arguments") {}
}
function getTypeAnnotationBindingConstantViolations(binding, path, name) {
const types = [];
const functionConstantViolations = [];
let constantViolations = getConstantViolationsBefore(binding, path, functionConstantViolations);
const testType = getConditionalAnnotation(binding, path, name);
if (testType) {
const testConstantViolations = getConstantViolationsBefore(binding, testType.ifStatement);
constantViolations = constantViolations.filter(path => !testConstantViolations.includes(path));
types.push(testType.typeAnnotation);
}
if (constantViolations.length) {
constantViolations.push(...functionConstantViolations);
for (const violation of constantViolations) {
types.push(violation.getTypeAnnotation());
}
}
if (!types.length) {
return;
}
return (0, _util.createUnionType)(types);
}
function getConstantViolationsBefore(binding, path, functions) {
const violations = binding.constantViolations.slice();
violations.unshift(binding.path);
return violations.filter(violation => {
violation = violation.resolve();
const status = violation._guessExecutionStatusRelativeTo(path);
if (functions && status === "unknown") functions.push(violation);
return status === "before";
});
}
function inferAnnotationFromBinaryExpression(name, path) {
const operator = path.node.operator;
const right = path.get("right").resolve();
const left = path.get("left").resolve();
let target;
if (left.isIdentifier({
name
})) {
target = right;
} else if (right.isIdentifier({
name
})) {
target = left;
}
if (target) {
if (operator === "===") {
return target.getTypeAnnotation();
}
if (BOOLEAN_NUMBER_BINARY_OPERATORS.includes(operator)) {
return numberTypeAnnotation();
}
return;
}
if (operator !== "===" && operator !== "==") return;
let typeofPath;
let typePath;
if (left.isUnaryExpression({
operator: "typeof"
})) {
typeofPath = left;
typePath = right;
} else if (right.isUnaryExpression({
operator: "typeof"
})) {
typeofPath = right;
typePath = left;
}
if (!typeofPath) return;
if (!typeofPath.get("argument").isIdentifier({
name
})) return;
typePath = typePath.resolve();
if (!typePath.isLiteral()) return;
const typeValue = typePath.node.value;
if (typeof typeValue !== "string") return;
return createTypeAnnotationBasedOnTypeof(typeValue);
}
function getParentConditionalPath(binding, path, name) {
let parentPath;
while (parentPath = path.parentPath) {
if (parentPath.isIfStatement() || parentPath.isConditionalExpression()) {
if (path.key === "test") {
return;
}
return parentPath;
}
if (parentPath.isFunction()) {
if (parentPath.parentPath.scope.getBinding(name) !== binding) return;
}
path = parentPath;
}
}
function getConditionalAnnotation(binding, path, name) {
const ifStatement = getParentConditionalPath(binding, path, name);
if (!ifStatement) return;
const test = ifStatement.get("test");
const paths = [test];
const types = [];
for (let i = 0; i < paths.length; i++) {
const path = paths[i];
if (path.isLogicalExpression()) {
if (path.node.operator === "&&") {
paths.push(path.get("left"));
paths.push(path.get("right"));
}
} else if (path.isBinaryExpression()) {
const type = inferAnnotationFromBinaryExpression(name, path);
if (type) types.push(type);
}
}
if (types.length) {
return {
typeAnnotation: (0, _util.createUnionType)(types),
ifStatement
};
}
return getConditionalAnnotation(binding, ifStatement, name);
}
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.ArrayExpression = ArrayExpression;
exports.AssignmentExpression = AssignmentExpression;
exports.BinaryExpression = BinaryExpression;
exports.BooleanLiteral = BooleanLiteral;
exports.CallExpression = CallExpression;
exports.ConditionalExpression = ConditionalExpression;
exports.ClassDeclaration = exports.ClassExpression = exports.FunctionDeclaration = exports.ArrowFunctionExpression = exports.FunctionExpression = Func;
Object.defineProperty(exports, "Identifier", {
enumerable: true,
get: function () {
return _infererReference.default;
}
});
exports.LogicalExpression = LogicalExpression;
exports.NewExpression = NewExpression;
exports.NullLiteral = NullLiteral;
exports.NumericLiteral = NumericLiteral;
exports.ObjectExpression = ObjectExpression;
exports.ParenthesizedExpression = ParenthesizedExpression;
exports.RegExpLiteral = RegExpLiteral;
exports.RestElement = RestElement;
exports.SequenceExpression = SequenceExpression;
exports.StringLiteral = StringLiteral;
exports.TSAsExpression = TSAsExpression;
exports.TSNonNullExpression = TSNonNullExpression;
exports.TaggedTemplateExpression = TaggedTemplateExpression;
exports.TemplateLiteral = TemplateLiteral;
exports.TypeCastExpression = TypeCastExpression;
exports.UnaryExpression = UnaryExpression;
exports.UpdateExpression = UpdateExpression;
exports.VariableDeclarator = VariableDeclarator;
var _t = require("@babel/types");
var _infererReference = require("./inferer-reference.js");
var _util = require("./util.js");
const {
BOOLEAN_BINARY_OPERATORS,
BOOLEAN_UNARY_OPERATORS,
NUMBER_BINARY_OPERATORS,
NUMBER_UNARY_OPERATORS,
STRING_UNARY_OPERATORS,
anyTypeAnnotation,
arrayTypeAnnotation,
booleanTypeAnnotation,
buildMatchMemberExpression,
genericTypeAnnotation,
identifier,
nullLiteralTypeAnnotation,
numberTypeAnnotation,
stringTypeAnnotation,
tupleTypeAnnotation,
unionTypeAnnotation,
voidTypeAnnotation,
isIdentifier
} = _t;
function VariableDeclarator() {
if (!this.get("id").isIdentifier()) return;
return this.get("init").getTypeAnnotation();
}
function TypeCastExpression(node) {
return node.typeAnnotation;
}
TypeCastExpression.validParent = true;
function TSAsExpression(node) {
return node.typeAnnotation;
}
TSAsExpression.validParent = true;
function TSNonNullExpression() {
return this.get("expression").getTypeAnnotation();
}
function NewExpression(node) {
if (node.callee.type === "Identifier") {
return genericTypeAnnotation(node.callee);
}
}
function TemplateLiteral() {
return stringTypeAnnotation();
}
function UnaryExpression(node) {
const operator = node.operator;
if (operator === "void") {
return voidTypeAnnotation();
} else if (NUMBER_UNARY_OPERATORS.includes(operator)) {
return numberTypeAnnotation();
} else if (STRING_UNARY_OPERATORS.includes(operator)) {
return stringTypeAnnotation();
} else if (BOOLEAN_UNARY_OPERATORS.includes(operator)) {
return booleanTypeAnnotation();
}
}
function BinaryExpression(node) {
const operator = node.operator;
if (NUMBER_BINARY_OPERATORS.includes(operator)) {
return numberTypeAnnotation();
} else if (BOOLEAN_BINARY_OPERATORS.includes(operator)) {
return booleanTypeAnnotation();
} else if (operator === "+") {
const right = this.get("right");
const left = this.get("left");
if (left.isBaseType("number") && right.isBaseType("number")) {
return numberTypeAnnotation();
} else if (left.isBaseType("string") || right.isBaseType("string")) {
return stringTypeAnnotation();
}
return unionTypeAnnotation([stringTypeAnnotation(), numberTypeAnnotation()]);
}
}
function LogicalExpression() {
const argumentTypes = [this.get("left").getTypeAnnotation(), this.get("right").getTypeAnnotation()];
return (0, _util.createUnionType)(argumentTypes);
}
function ConditionalExpression() {
const argumentTypes = [this.get("consequent").getTypeAnnotation(), this.get("alternate").getTypeAnnotation()];
return (0, _util.createUnionType)(argumentTypes);
}
function SequenceExpression() {
return this.get("expressions").pop().getTypeAnnotation();
}
function ParenthesizedExpression() {
return this.get("expression").getTypeAnnotation();
}
function AssignmentExpression() {
return this.get("right").getTypeAnnotation();
}
function UpdateExpression(node) {
const operator = node.operator;
if (operator === "++" || operator === "--") {
return numberTypeAnnotation();
}
}
function StringLiteral() {
return stringTypeAnnotation();
}
function NumericLiteral() {
return numberTypeAnnotation();
}
function BooleanLiteral() {
return booleanTypeAnnotation();
}
function NullLiteral() {
return nullLiteralTypeAnnotation();
}
function RegExpLiteral() {
return genericTypeAnnotation(identifier("RegExp"));
}
function ObjectExpression() {
return genericTypeAnnotation(identifier("Object"));
}
function ArrayExpression() {
return genericTypeAnnotation(identifier("Array"));
}
function RestElement() {
return ArrayExpression();
}
RestElement.validParent = true;
function Func() {
return genericTypeAnnotation(identifier("Function"));
}
const isArrayFrom = buildMatchMemberExpression("Array.from");
const isObjectKeys = buildMatchMemberExpression("Object.keys");
const isObjectValues = buildMatchMemberExpression("Object.values");
const isObjectEntries = buildMatchMemberExpression("Object.entries");
function CallExpression() {
const {
callee
} = this.node;
if (isObjectKeys(callee)) {
return arrayTypeAnnotation(stringTypeAnnotation());
} else if (isArrayFrom(callee) || isObjectValues(callee) || isIdentifier(callee, {
name: "Array"
})) {
return arrayTypeAnnotation(anyTypeAnnotation());
} else if (isObjectEntries(callee)) {
return arrayTypeAnnotation(tupleTypeAnnotation([stringTypeAnnotation(), anyTypeAnnotation()]));
}
return resolveCall(this.get("callee"));
}
function TaggedTemplateExpression() {
return resolveCall(this.get("tag"));
}
function resolveCall(callee) {
callee = callee.resolve();
if (callee.isFunction()) {
const {
node
} = callee;
if (node.async) {
if (node.generator) {
return genericTypeAnnotation(identifier("AsyncIterator"));
} else {
return genericTypeAnnotation(identifier("Promise"));
}
} else {
if (node.generator) {
return genericTypeAnnotation(identifier("Iterator"));
} else if (callee.node.returnType) {
return callee.node.returnType;
} else {}
}
}
}
//# sourceMappingURL=inferers.js.map

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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.createUnionType = createUnionType;
var _t = require("@babel/types");
const {
createFlowUnionType,
createTSUnionType,
createUnionTypeAnnotation,
isFlowType,
isTSType
} = _t;
function createUnionType(types) {
{
if (types.every(v => isFlowType(v))) {
if (createFlowUnionType) {
return createFlowUnionType(types);
}
return createUnionTypeAnnotation(types);
} else if (types.every(v => isTSType(v))) {
if (createTSUnionType) {
return createTSUnionType(types);
}
}
}
}
//# sourceMappingURL=util.js.map

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{"version":3,"names":["_t","require","createFlowUnionType","createTSUnionType","createUnionTypeAnnotation","isFlowType","isTSType","createUnionType","types","every","v"],"sources":["../../../src/path/inference/util.ts"],"sourcesContent":["import {\n createFlowUnionType,\n createTSUnionType,\n createUnionTypeAnnotation,\n isFlowType,\n isTSType,\n} from \"@babel/types\";\nimport type * as t from \"@babel/types\";\n\nexport function createUnionType(\n types: (t.FlowType | t.TSType)[],\n): t.FlowType | t.TSType | undefined {\n if (process.env.BABEL_8_BREAKING) {\n if (types.every(v => isFlowType(v))) {\n return createFlowUnionType(types);\n }\n if (types.every(v => isTSType(v))) {\n return createTSUnionType(types);\n }\n } else {\n if (types.every(v => isFlowType(v))) {\n if (createFlowUnionType) {\n return createFlowUnionType(types);\n }\n\n return createUnionTypeAnnotation(types);\n } else if (types.every(v => isTSType(v))) {\n if (createTSUnionType) {\n return createTSUnionType(types);\n }\n }\n }\n}\n"],"mappings":";;;;;;AAAA,IAAAA,EAAA,GAAAC,OAAA;AAMsB;EALpBC,mBAAmB;EACnBC,iBAAiB;EACjBC,yBAAyB;EACzBC,UAAU;EACVC;AAAQ,IAAAN,EAAA;AAIH,SAASO,eAAeA,CAC7BC,KAAgC,EACG;EAQ5B;IACL,IAAIA,KAAK,CAACC,KAAK,CAACC,CAAC,IAAIL,UAAU,CAACK,CAAC,CAAC,CAAC,EAAE;MACnC,IAAIR,mBAAmB,EAAE;QACvB,OAAOA,mBAAmB,CAACM,KAAK,CAAC;MACnC;MAEA,OAAOJ,yBAAyB,CAACI,KAAK,CAAC;IACzC,CAAC,MAAM,IAAIA,KAAK,CAACC,KAAK,CAACC,CAAC,IAAIJ,QAAQ,CAACI,CAAC,CAAC,CAAC,EAAE;MACxC,IAAIP,iBAAiB,EAAE;QACrB,OAAOA,iBAAiB,CAACK,KAAK,CAAC;MACjC;IACF;EACF;AACF","ignoreList":[]}

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backend/apis/nodejs/node_modules/@babel/traverse/lib/path/introspection.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports._guessExecutionStatusRelativeTo = _guessExecutionStatusRelativeTo;
exports._resolve = _resolve;
exports.canHaveVariableDeclarationOrExpression = canHaveVariableDeclarationOrExpression;
exports.canSwapBetweenExpressionAndStatement = canSwapBetweenExpressionAndStatement;
exports.getSource = getSource;
exports.isCompletionRecord = isCompletionRecord;
exports.isConstantExpression = isConstantExpression;
exports.isInStrictMode = isInStrictMode;
exports.isNodeType = isNodeType;
exports.isStatementOrBlock = isStatementOrBlock;
exports.isStatic = isStatic;
exports.matchesPattern = matchesPattern;
exports.referencesImport = referencesImport;
exports.resolve = resolve;
exports.willIMaybeExecuteBefore = willIMaybeExecuteBefore;
var _t = require("@babel/types");
const {
STATEMENT_OR_BLOCK_KEYS,
VISITOR_KEYS,
isBlockStatement,
isExpression,
isIdentifier,
isLiteral,
isStringLiteral,
isType,
matchesPattern: _matchesPattern
} = _t;
function matchesPattern(pattern, allowPartial) {
return _matchesPattern(this.node, pattern, allowPartial);
}
{
exports.has = function has(key) {
var _this$node;
const val = (_this$node = this.node) == null ? void 0 : _this$node[key];
if (val && Array.isArray(val)) {
return !!val.length;
} else {
return !!val;
}
};
}
function isStatic() {
return this.scope.isStatic(this.node);
}
{
exports.is = exports.has;
exports.isnt = function isnt(key) {
return !this.has(key);
};
exports.equals = function equals(key, value) {
return this.node[key] === value;
};
}
function isNodeType(type) {
return isType(this.type, type);
}
function canHaveVariableDeclarationOrExpression() {
return (this.key === "init" || this.key === "left") && this.parentPath.isFor();
}
function canSwapBetweenExpressionAndStatement(replacement) {
if (this.key !== "body" || !this.parentPath.isArrowFunctionExpression()) {
return false;
}
if (this.isExpression()) {
return isBlockStatement(replacement);
} else if (this.isBlockStatement()) {
return isExpression(replacement);
}
return false;
}
function isCompletionRecord(allowInsideFunction) {
let path = this;
let first = true;
do {
const {
type,
container
} = path;
if (!first && (path.isFunction() || type === "StaticBlock")) {
return !!allowInsideFunction;
}
first = false;
if (Array.isArray(container) && path.key !== container.length - 1) {
return false;
}
} while ((path = path.parentPath) && !path.isProgram() && !path.isDoExpression());
return true;
}
function isStatementOrBlock() {
if (this.parentPath.isLabeledStatement() || isBlockStatement(this.container)) {
return false;
} else {
return STATEMENT_OR_BLOCK_KEYS.includes(this.key);
}
}
function referencesImport(moduleSource, importName) {
if (!this.isReferencedIdentifier()) {
if (this.isJSXMemberExpression() && this.node.property.name === importName || (this.isMemberExpression() || this.isOptionalMemberExpression()) && (this.node.computed ? isStringLiteral(this.node.property, {
value: importName
}) : this.node.property.name === importName)) {
const object = this.get("object");
return object.isReferencedIdentifier() && object.referencesImport(moduleSource, "*");
}
return false;
}
const binding = this.scope.getBinding(this.node.name);
if (!binding || binding.kind !== "module") return false;
const path = binding.path;
const parent = path.parentPath;
if (!parent.isImportDeclaration()) return false;
if (parent.node.source.value === moduleSource) {
if (!importName) return true;
} else {
return false;
}
if (path.isImportDefaultSpecifier() && importName === "default") {
return true;
}
if (path.isImportNamespaceSpecifier() && importName === "*") {
return true;
}
if (path.isImportSpecifier() && isIdentifier(path.node.imported, {
name: importName
})) {
return true;
}
return false;
}
function getSource() {
const node = this.node;
if (node.end) {
const code = this.hub.getCode();
if (code) return code.slice(node.start, node.end);
}
return "";
}
function willIMaybeExecuteBefore(target) {
return this._guessExecutionStatusRelativeTo(target) !== "after";
}
function getOuterFunction(path) {
return path.isProgram() ? path : (path.parentPath.scope.getFunctionParent() || path.parentPath.scope.getProgramParent()).path;
}
function isExecutionUncertain(type, key) {
switch (type) {
case "LogicalExpression":
return key === "right";
case "ConditionalExpression":
case "IfStatement":
return key === "consequent" || key === "alternate";
case "WhileStatement":
case "DoWhileStatement":
case "ForInStatement":
case "ForOfStatement":
return key === "body";
case "ForStatement":
return key === "body" || key === "update";
case "SwitchStatement":
return key === "cases";
case "TryStatement":
return key === "handler";
case "AssignmentPattern":
return key === "right";
case "OptionalMemberExpression":
return key === "property";
case "OptionalCallExpression":
return key === "arguments";
default:
return false;
}
}
function isExecutionUncertainInList(paths, maxIndex) {
for (let i = 0; i < maxIndex; i++) {
const path = paths[i];
if (isExecutionUncertain(path.parent.type, path.parentKey)) {
return true;
}
}
return false;
}
const SYMBOL_CHECKING = Symbol();
function _guessExecutionStatusRelativeTo(target) {
return _guessExecutionStatusRelativeToCached(this, target, new Map());
}
function _guessExecutionStatusRelativeToCached(base, target, cache) {
const funcParent = {
this: getOuterFunction(base),
target: getOuterFunction(target)
};
if (funcParent.target.node !== funcParent.this.node) {
return _guessExecutionStatusRelativeToDifferentFunctionsCached(base, funcParent.target, cache);
}
const paths = {
target: target.getAncestry(),
this: base.getAncestry()
};
if (paths.target.includes(base)) return "after";
if (paths.this.includes(target)) return "before";
let commonPath;
const commonIndex = {
target: 0,
this: 0
};
while (!commonPath && commonIndex.this < paths.this.length) {
const path = paths.this[commonIndex.this];
commonIndex.target = paths.target.indexOf(path);
if (commonIndex.target >= 0) {
commonPath = path;
} else {
commonIndex.this++;
}
}
if (!commonPath) {
throw new Error("Internal Babel error - The two compared nodes" + " don't appear to belong to the same program.");
}
if (isExecutionUncertainInList(paths.this, commonIndex.this - 1) || isExecutionUncertainInList(paths.target, commonIndex.target - 1)) {
return "unknown";
}
const divergence = {
this: paths.this[commonIndex.this - 1],
target: paths.target[commonIndex.target - 1]
};
if (divergence.target.listKey && divergence.this.listKey && divergence.target.container === divergence.this.container) {
return divergence.target.key > divergence.this.key ? "before" : "after";
}
const keys = VISITOR_KEYS[commonPath.type];
const keyPosition = {
this: keys.indexOf(divergence.this.parentKey),
target: keys.indexOf(divergence.target.parentKey)
};
return keyPosition.target > keyPosition.this ? "before" : "after";
}
function _guessExecutionStatusRelativeToDifferentFunctionsInternal(base, target, cache) {
if (!target.isFunctionDeclaration()) {
if (_guessExecutionStatusRelativeToCached(base, target, cache) === "before") {
return "before";
}
return "unknown";
} else if (target.parentPath.isExportDeclaration()) {
return "unknown";
}
const binding = target.scope.getBinding(target.node.id.name);
if (!binding.references) return "before";
const referencePaths = binding.referencePaths;
let allStatus;
for (const path of referencePaths) {
const childOfFunction = !!path.find(path => path.node === target.node);
if (childOfFunction) continue;
if (path.key !== "callee" || !path.parentPath.isCallExpression()) {
return "unknown";
}
const status = _guessExecutionStatusRelativeToCached(base, path, cache);
if (allStatus && allStatus !== status) {
return "unknown";
} else {
allStatus = status;
}
}
return allStatus;
}
function _guessExecutionStatusRelativeToDifferentFunctionsCached(base, target, cache) {
let nodeMap = cache.get(base.node);
let cached;
if (!nodeMap) {
cache.set(base.node, nodeMap = new Map());
} else if (cached = nodeMap.get(target.node)) {
if (cached === SYMBOL_CHECKING) {
return "unknown";
}
return cached;
}
nodeMap.set(target.node, SYMBOL_CHECKING);
const result = _guessExecutionStatusRelativeToDifferentFunctionsInternal(base, target, cache);
nodeMap.set(target.node, result);
return result;
}
function resolve(dangerous, resolved) {
return _resolve.call(this, dangerous, resolved) || this;
}
function _resolve(dangerous, resolved) {
var _resolved;
if ((_resolved = resolved) != null && _resolved.includes(this)) return;
resolved = resolved || [];
resolved.push(this);
if (this.isVariableDeclarator()) {
if (this.get("id").isIdentifier()) {
return this.get("init").resolve(dangerous, resolved);
} else {}
} else if (this.isReferencedIdentifier()) {
const binding = this.scope.getBinding(this.node.name);
if (!binding) return;
if (!binding.constant) return;
if (binding.kind === "module") return;
if (binding.path !== this) {
const ret = binding.path.resolve(dangerous, resolved);
if (this.find(parent => parent.node === ret.node)) return;
return ret;
}
} else if (this.isTypeCastExpression()) {
return this.get("expression").resolve(dangerous, resolved);
} else if (dangerous && this.isMemberExpression()) {
const targetKey = this.toComputedKey();
if (!isLiteral(targetKey)) return;
const targetName = targetKey.value;
const target = this.get("object").resolve(dangerous, resolved);
if (target.isObjectExpression()) {
const props = target.get("properties");
for (const prop of props) {
if (!prop.isProperty()) continue;
const key = prop.get("key");
let match = prop.isnt("computed") && key.isIdentifier({
name: targetName
});
match = match || key.isLiteral({
value: targetName
});
if (match) return prop.get("value").resolve(dangerous, resolved);
}
} else if (target.isArrayExpression() && !isNaN(+targetName)) {
const elems = target.get("elements");
const elem = elems[targetName];
if (elem) return elem.resolve(dangerous, resolved);
}
}
}
function isConstantExpression() {
if (this.isIdentifier()) {
const binding = this.scope.getBinding(this.node.name);
if (!binding) return false;
return binding.constant;
}
if (this.isLiteral()) {
if (this.isRegExpLiteral()) {
return false;
}
if (this.isTemplateLiteral()) {
return this.get("expressions").every(expression => expression.isConstantExpression());
}
return true;
}
if (this.isUnaryExpression()) {
if (this.node.operator !== "void") {
return false;
}
return this.get("argument").isConstantExpression();
}
if (this.isBinaryExpression()) {
const {
operator
} = this.node;
return operator !== "in" && operator !== "instanceof" && this.get("left").isConstantExpression() && this.get("right").isConstantExpression();
}
if (this.isMemberExpression()) {
return !this.node.computed && this.get("object").isIdentifier({
name: "Symbol"
}) && !this.scope.hasBinding("Symbol", {
noGlobals: true
});
}
if (this.isCallExpression()) {
return this.node.arguments.length === 1 && this.get("callee").matchesPattern("Symbol.for") && !this.scope.hasBinding("Symbol", {
noGlobals: true
}) && this.get("arguments")[0].isStringLiteral();
}
return false;
}
function isInStrictMode() {
const start = this.isProgram() ? this : this.parentPath;
const strictParent = start.find(path => {
if (path.isProgram({
sourceType: "module"
})) return true;
if (path.isClass()) return true;
if (path.isArrowFunctionExpression() && !path.get("body").isBlockStatement()) {
return false;
}
let body;
if (path.isFunction()) {
body = path.node.body;
} else if (path.isProgram()) {
body = path.node;
} else {
return false;
}
for (const directive of body.directives) {
if (directive.value.value === "use strict") {
return true;
}
}
});
return !!strictParent;
}
//# sourceMappingURL=introspection.js.map

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backend/apis/nodejs/node_modules/@babel/traverse/lib/path/lib/hoister.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.default = void 0;
var _t = require("@babel/types");
var _t2 = _t;
const {
react
} = _t;
const {
cloneNode,
jsxExpressionContainer,
variableDeclaration,
variableDeclarator
} = _t2;
const referenceVisitor = {
ReferencedIdentifier(path, state) {
if (path.isJSXIdentifier() && react.isCompatTag(path.node.name) && !path.parentPath.isJSXMemberExpression()) {
return;
}
if (path.node.name === "this") {
let scope = path.scope;
do {
if (scope.path.isFunction() && !scope.path.isArrowFunctionExpression()) {
break;
}
} while (scope = scope.parent);
if (scope) state.breakOnScopePaths.push(scope.path);
}
const binding = path.scope.getBinding(path.node.name);
if (!binding) return;
for (const violation of binding.constantViolations) {
if (violation.scope !== binding.path.scope) {
state.mutableBinding = true;
path.stop();
return;
}
}
if (binding !== state.scope.getBinding(path.node.name)) return;
state.bindings[path.node.name] = binding;
}
};
class PathHoister {
constructor(path, scope) {
this.breakOnScopePaths = void 0;
this.bindings = void 0;
this.mutableBinding = void 0;
this.scopes = void 0;
this.scope = void 0;
this.path = void 0;
this.attachAfter = void 0;
this.breakOnScopePaths = [];
this.bindings = {};
this.mutableBinding = false;
this.scopes = [];
this.scope = scope;
this.path = path;
this.attachAfter = false;
}
isCompatibleScope(scope) {
for (const key of Object.keys(this.bindings)) {
const binding = this.bindings[key];
if (!scope.bindingIdentifierEquals(key, binding.identifier)) {
return false;
}
}
return true;
}
getCompatibleScopes() {
let scope = this.path.scope;
do {
if (this.isCompatibleScope(scope)) {
this.scopes.push(scope);
} else {
break;
}
if (this.breakOnScopePaths.includes(scope.path)) {
break;
}
} while (scope = scope.parent);
}
getAttachmentPath() {
let path = this._getAttachmentPath();
if (!path) return;
let targetScope = path.scope;
if (targetScope.path === path) {
targetScope = path.scope.parent;
}
if (targetScope.path.isProgram() || targetScope.path.isFunction()) {
for (const name of Object.keys(this.bindings)) {
if (!targetScope.hasOwnBinding(name)) continue;
const binding = this.bindings[name];
if (binding.kind === "param" || binding.path.parentKey === "params") {
continue;
}
const bindingParentPath = this.getAttachmentParentForPath(binding.path);
if (bindingParentPath.key >= path.key) {
this.attachAfter = true;
path = binding.path;
for (const violationPath of binding.constantViolations) {
if (this.getAttachmentParentForPath(violationPath).key > path.key) {
path = violationPath;
}
}
}
}
}
return path;
}
_getAttachmentPath() {
const scopes = this.scopes;
const scope = scopes.pop();
if (!scope) return;
if (scope.path.isFunction()) {
if (this.hasOwnParamBindings(scope)) {
if (this.scope === scope) return;
const bodies = scope.path.get("body").get("body");
for (let i = 0; i < bodies.length; i++) {
if (bodies[i].node._blockHoist) continue;
return bodies[i];
}
} else {
return this.getNextScopeAttachmentParent();
}
} else if (scope.path.isProgram()) {
return this.getNextScopeAttachmentParent();
}
}
getNextScopeAttachmentParent() {
const scope = this.scopes.pop();
if (scope) return this.getAttachmentParentForPath(scope.path);
}
getAttachmentParentForPath(path) {
do {
if (!path.parentPath || Array.isArray(path.container) && path.isStatement()) {
return path;
}
} while (path = path.parentPath);
}
hasOwnParamBindings(scope) {
for (const name of Object.keys(this.bindings)) {
if (!scope.hasOwnBinding(name)) continue;
const binding = this.bindings[name];
if (binding.kind === "param" && binding.constant) return true;
}
return false;
}
run() {
this.path.traverse(referenceVisitor, this);
if (this.mutableBinding) return;
this.getCompatibleScopes();
const attachTo = this.getAttachmentPath();
if (!attachTo) return;
if (attachTo.getFunctionParent() === this.path.getFunctionParent()) return;
let uid = attachTo.scope.generateUidIdentifier("ref");
const declarator = variableDeclarator(uid, this.path.node);
const insertFn = this.attachAfter ? "insertAfter" : "insertBefore";
const [attached] = attachTo[insertFn]([attachTo.isVariableDeclarator() ? declarator : variableDeclaration("var", [declarator])]);
const parent = this.path.parentPath;
if (parent.isJSXElement() && this.path.container === parent.node.children) {
uid = jsxExpressionContainer(uid);
}
this.path.replaceWith(cloneNode(uid));
return attachTo.isVariableDeclarator() ? attached.get("init") : attached.get("declarations.0.init");
}
}
exports.default = PathHoister;
//# sourceMappingURL=hoister.js.map

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backend/apis/nodejs/node_modules/@babel/traverse/lib/path/lib/removal-hooks.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.hooks = void 0;
const hooks = exports.hooks = [function (self, parent) {
const removeParent = self.key === "test" && (parent.isWhile() || parent.isSwitchCase()) || self.key === "declaration" && parent.isExportDeclaration() || self.key === "body" && parent.isLabeledStatement() || self.listKey === "declarations" && parent.isVariableDeclaration() && parent.node.declarations.length === 1 || self.key === "expression" && parent.isExpressionStatement();
if (removeParent) {
parent.remove();
return true;
}
}, function (self, parent) {
if (parent.isSequenceExpression() && parent.node.expressions.length === 1) {
parent.replaceWith(parent.node.expressions[0]);
return true;
}
}, function (self, parent) {
if (parent.isBinary()) {
if (self.key === "left") {
parent.replaceWith(parent.node.right);
} else {
parent.replaceWith(parent.node.left);
}
return true;
}
}, function (self, parent) {
if (parent.isIfStatement() && self.key === "consequent" || self.key === "body" && (parent.isLoop() || parent.isArrowFunctionExpression())) {
self.replaceWith({
type: "BlockStatement",
body: []
});
return true;
}
}];
//# sourceMappingURL=removal-hooks.js.map

1
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{"version":3,"names":["hooks","exports","self","parent","removeParent","key","isWhile","isSwitchCase","isExportDeclaration","isLabeledStatement","listKey","isVariableDeclaration","node","declarations","length","isExpressionStatement","remove","isSequenceExpression","expressions","replaceWith","isBinary","right","left","isIfStatement","isLoop","isArrowFunctionExpression","type","body"],"sources":["../../../src/path/lib/removal-hooks.ts"],"sourcesContent":["// this file contains hooks that handle ancestry cleanup of parent nodes when removing children\n\nimport type NodePath from \"../index.ts\";\nimport type * as t from \"@babel/types\";\n/**\n * Pre hooks should be used for either rejecting removal or delegating removal\n */\n\nexport const hooks = [\n function (self: NodePath, parent: NodePath) {\n const removeParent =\n // while (NODE);\n // removing the test of a while/switch, we can either just remove it entirely *or* turn the\n // `test` into `true` unlikely that the latter will ever be what's wanted so we just remove\n // the loop to avoid infinite recursion\n (self.key === \"test\" && (parent.isWhile() || parent.isSwitchCase())) ||\n // export NODE;\n // just remove a declaration for an export as this is no longer valid\n (self.key === \"declaration\" && parent.isExportDeclaration()) ||\n // label: NODE\n // stray labeled statement with no body\n (self.key === \"body\" && parent.isLabeledStatement()) ||\n // let NODE;\n // remove an entire declaration if there are no declarators left\n (self.listKey === \"declarations\" &&\n parent.isVariableDeclaration() &&\n parent.node.declarations.length === 1) ||\n // NODE;\n // remove the entire expression statement if there's no expression\n (self.key === \"expression\" && parent.isExpressionStatement());\n\n if (removeParent) {\n parent.remove();\n return true;\n }\n },\n\n function (self: NodePath, parent: NodePath) {\n if (parent.isSequenceExpression() && parent.node.expressions.length === 1) {\n // (node, NODE);\n // we've just removed the second element of a sequence expression so let's turn that sequence\n // expression into a regular expression\n parent.replaceWith(parent.node.expressions[0]);\n return true;\n }\n },\n\n function (self: NodePath, parent: NodePath) {\n if (parent.isBinary()) {\n // left + NODE;\n // NODE + right;\n // we're in a binary expression, better remove it and replace it with the last expression\n if (self.key === \"left\") {\n parent.replaceWith(parent.node.right);\n } else {\n // key === \"right\"\n parent.replaceWith(parent.node.left);\n }\n return true;\n }\n },\n\n function (self: NodePath, parent: NodePath) {\n if (\n (parent.isIfStatement() && self.key === \"consequent\") ||\n (self.key === \"body\" &&\n (parent.isLoop() || parent.isArrowFunctionExpression()))\n ) {\n self.replaceWith({\n type: \"BlockStatement\",\n body: [],\n } as t.BlockStatement);\n return true;\n }\n },\n];\n"],"mappings":";;;;;;AAQO,MAAMA,KAAK,GAAAC,OAAA,CAAAD,KAAA,GAAG,CACnB,UAAUE,IAAc,EAAEC,MAAgB,EAAE;EAC1C,MAAMC,YAAY,GAKfF,IAAI,CAACG,GAAG,KAAK,MAAM,KAAKF,MAAM,CAACG,OAAO,CAAC,CAAC,IAAIH,MAAM,CAACI,YAAY,CAAC,CAAC,CAAC,IAGlEL,IAAI,CAACG,GAAG,KAAK,aAAa,IAAIF,MAAM,CAACK,mBAAmB,CAAC,CAAE,IAG3DN,IAAI,CAACG,GAAG,KAAK,MAAM,IAAIF,MAAM,CAACM,kBAAkB,CAAC,CAAE,IAGnDP,IAAI,CAACQ,OAAO,KAAK,cAAc,IAC9BP,MAAM,CAACQ,qBAAqB,CAAC,CAAC,IAC9BR,MAAM,CAACS,IAAI,CAACC,YAAY,CAACC,MAAM,KAAK,CAAE,IAGvCZ,IAAI,CAACG,GAAG,KAAK,YAAY,IAAIF,MAAM,CAACY,qBAAqB,CAAC,CAAE;EAE/D,IAAIX,YAAY,EAAE;IAChBD,MAAM,CAACa,MAAM,CAAC,CAAC;IACf,OAAO,IAAI;EACb;AACF,CAAC,EAED,UAAUd,IAAc,EAAEC,MAAgB,EAAE;EAC1C,IAAIA,MAAM,CAACc,oBAAoB,CAAC,CAAC,IAAId,MAAM,CAACS,IAAI,CAACM,WAAW,CAACJ,MAAM,KAAK,CAAC,EAAE;IAIzEX,MAAM,CAACgB,WAAW,CAAChB,MAAM,CAACS,IAAI,CAACM,WAAW,CAAC,CAAC,CAAC,CAAC;IAC9C,OAAO,IAAI;EACb;AACF,CAAC,EAED,UAAUhB,IAAc,EAAEC,MAAgB,EAAE;EAC1C,IAAIA,MAAM,CAACiB,QAAQ,CAAC,CAAC,EAAE;IAIrB,IAAIlB,IAAI,CAACG,GAAG,KAAK,MAAM,EAAE;MACvBF,MAAM,CAACgB,WAAW,CAAChB,MAAM,CAACS,IAAI,CAACS,KAAK,CAAC;IACvC,CAAC,MAAM;MAELlB,MAAM,CAACgB,WAAW,CAAChB,MAAM,CAACS,IAAI,CAACU,IAAI,CAAC;IACtC;IACA,OAAO,IAAI;EACb;AACF,CAAC,EAED,UAAUpB,IAAc,EAAEC,MAAgB,EAAE;EAC1C,IACGA,MAAM,CAACoB,aAAa,CAAC,CAAC,IAAIrB,IAAI,CAACG,GAAG,KAAK,YAAY,IACnDH,IAAI,CAACG,GAAG,KAAK,MAAM,KACjBF,MAAM,CAACqB,MAAM,CAAC,CAAC,IAAIrB,MAAM,CAACsB,yBAAyB,CAAC,CAAC,CAAE,EAC1D;IACAvB,IAAI,CAACiB,WAAW,CAAC;MACfO,IAAI,EAAE,gBAAgB;MACtBC,IAAI,EAAE;IACR,CAAqB,CAAC;IACtB,OAAO,IAAI;EACb;AACF,CAAC,CACF","ignoreList":[]}

163
backend/apis/nodejs/node_modules/@babel/traverse/lib/path/lib/virtual-types-validator.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.isBindingIdentifier = isBindingIdentifier;
exports.isBlockScoped = isBlockScoped;
exports.isExpression = isExpression;
exports.isFlow = isFlow;
exports.isForAwaitStatement = isForAwaitStatement;
exports.isGenerated = isGenerated;
exports.isPure = isPure;
exports.isReferenced = isReferenced;
exports.isReferencedIdentifier = isReferencedIdentifier;
exports.isReferencedMemberExpression = isReferencedMemberExpression;
exports.isRestProperty = isRestProperty;
exports.isScope = isScope;
exports.isSpreadProperty = isSpreadProperty;
exports.isStatement = isStatement;
exports.isUser = isUser;
exports.isVar = isVar;
var _t = require("@babel/types");
const {
isBinding,
isBlockScoped: nodeIsBlockScoped,
isExportDeclaration,
isExpression: nodeIsExpression,
isFlow: nodeIsFlow,
isForStatement,
isForXStatement,
isIdentifier,
isImportDeclaration,
isImportSpecifier,
isJSXIdentifier,
isJSXMemberExpression,
isMemberExpression,
isRestElement: nodeIsRestElement,
isReferenced: nodeIsReferenced,
isScope: nodeIsScope,
isStatement: nodeIsStatement,
isVar: nodeIsVar,
isVariableDeclaration,
react,
isForOfStatement
} = _t;
const {
isCompatTag
} = react;
function isReferencedIdentifier(opts) {
const {
node,
parent
} = this;
if (!isIdentifier(node, opts) && !isJSXMemberExpression(parent, opts)) {
if (isJSXIdentifier(node, opts)) {
if (isCompatTag(node.name)) return false;
} else {
return false;
}
}
return nodeIsReferenced(node, parent, this.parentPath.parent);
}
function isReferencedMemberExpression() {
const {
node,
parent
} = this;
return isMemberExpression(node) && nodeIsReferenced(node, parent);
}
function isBindingIdentifier() {
const {
node,
parent
} = this;
const grandparent = this.parentPath.parent;
return isIdentifier(node) && isBinding(node, parent, grandparent);
}
function isStatement() {
const {
node,
parent
} = this;
if (nodeIsStatement(node)) {
if (isVariableDeclaration(node)) {
if (isForXStatement(parent, {
left: node
})) return false;
if (isForStatement(parent, {
init: node
})) return false;
}
return true;
} else {
return false;
}
}
function isExpression() {
if (this.isIdentifier()) {
return this.isReferencedIdentifier();
} else {
return nodeIsExpression(this.node);
}
}
function isScope() {
return nodeIsScope(this.node, this.parent);
}
function isReferenced() {
return nodeIsReferenced(this.node, this.parent);
}
function isBlockScoped() {
return nodeIsBlockScoped(this.node);
}
function isVar() {
return nodeIsVar(this.node);
}
function isUser() {
return this.node && !!this.node.loc;
}
function isGenerated() {
return !this.isUser();
}
function isPure(constantsOnly) {
return this.scope.isPure(this.node, constantsOnly);
}
function isFlow() {
const {
node
} = this;
if (nodeIsFlow(node)) {
return true;
} else if (isImportDeclaration(node)) {
return node.importKind === "type" || node.importKind === "typeof";
} else if (isExportDeclaration(node)) {
return node.exportKind === "type";
} else if (isImportSpecifier(node)) {
return node.importKind === "type" || node.importKind === "typeof";
} else {
return false;
}
}
function isRestProperty() {
var _this$parentPath;
return nodeIsRestElement(this.node) && ((_this$parentPath = this.parentPath) == null ? void 0 : _this$parentPath.isObjectPattern());
}
function isSpreadProperty() {
var _this$parentPath2;
return nodeIsRestElement(this.node) && ((_this$parentPath2 = this.parentPath) == null ? void 0 : _this$parentPath2.isObjectExpression());
}
function isForAwaitStatement() {
return isForOfStatement(this.node, {
await: true
});
}
{
exports.isExistentialTypeParam = function isExistentialTypeParam() {
throw new Error("`path.isExistentialTypeParam` has been renamed to `path.isExistsTypeAnnotation()` in Babel 7.");
};
exports.isNumericLiteralTypeAnnotation = function isNumericLiteralTypeAnnotation() {
throw new Error("`path.isNumericLiteralTypeAnnotation()` has been renamed to `path.isNumberLiteralTypeAnnotation()` in Babel 7.");
};
}
//# sourceMappingURL=virtual-types-validator.js.map

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backend/apis/nodejs/node_modules/@babel/traverse/lib/path/lib/virtual-types.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.Var = exports.User = exports.Statement = exports.SpreadProperty = exports.Scope = exports.RestProperty = exports.ReferencedMemberExpression = exports.ReferencedIdentifier = exports.Referenced = exports.Pure = exports.NumericLiteralTypeAnnotation = exports.Generated = exports.ForAwaitStatement = exports.Flow = exports.Expression = exports.ExistentialTypeParam = exports.BlockScoped = exports.BindingIdentifier = void 0;
const ReferencedIdentifier = exports.ReferencedIdentifier = ["Identifier", "JSXIdentifier"];
const ReferencedMemberExpression = exports.ReferencedMemberExpression = ["MemberExpression"];
const BindingIdentifier = exports.BindingIdentifier = ["Identifier"];
const Statement = exports.Statement = ["Statement"];
const Expression = exports.Expression = ["Expression"];
const Scope = exports.Scope = ["Scopable", "Pattern"];
const Referenced = exports.Referenced = null;
const BlockScoped = exports.BlockScoped = null;
const Var = exports.Var = ["VariableDeclaration"];
const User = exports.User = null;
const Generated = exports.Generated = null;
const Pure = exports.Pure = null;
const Flow = exports.Flow = ["Flow", "ImportDeclaration", "ExportDeclaration", "ImportSpecifier"];
const RestProperty = exports.RestProperty = ["RestElement"];
const SpreadProperty = exports.SpreadProperty = ["RestElement"];
const ExistentialTypeParam = exports.ExistentialTypeParam = ["ExistsTypeAnnotation"];
const NumericLiteralTypeAnnotation = exports.NumericLiteralTypeAnnotation = ["NumberLiteralTypeAnnotation"];
const ForAwaitStatement = exports.ForAwaitStatement = ["ForOfStatement"];
//# sourceMappingURL=virtual-types.js.map

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backend/apis/nodejs/node_modules/@babel/traverse/lib/path/lib/virtual-types.js.map generated vendored Normal file
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{"version":3,"names":["ReferencedIdentifier","exports","ReferencedMemberExpression","BindingIdentifier","Statement","Expression","Scope","Referenced","BlockScoped","Var","User","Generated","Pure","Flow","RestProperty","SpreadProperty","ExistentialTypeParam","NumericLiteralTypeAnnotation","ForAwaitStatement"],"sources":["../../../src/path/lib/virtual-types.ts"],"sourcesContent":["import type * as t from \"@babel/types\";\n\nexport interface VirtualTypeAliases {\n BindingIdentifier: t.Identifier;\n BlockScoped: t.Node;\n ExistentialTypeParam: t.ExistsTypeAnnotation;\n Expression: t.Expression;\n Flow: t.Flow | t.ImportDeclaration | t.ExportDeclaration | t.ImportSpecifier;\n ForAwaitStatement: t.ForOfStatement;\n Generated: t.Node;\n NumericLiteralTypeAnnotation: t.NumberLiteralTypeAnnotation;\n Pure: t.Node;\n Referenced: t.Node;\n ReferencedIdentifier: t.Identifier | t.JSXIdentifier;\n ReferencedMemberExpression: t.MemberExpression;\n RestProperty: t.RestElement;\n Scope: t.Scopable | t.Pattern;\n SpreadProperty: t.RestElement;\n Statement: t.Statement;\n User: t.Node;\n Var: t.VariableDeclaration;\n}\n\ntype VirtualTypeMapping = readonly (t.Node[\"type\"] | keyof t.Aliases)[] | null;\n\nexport const ReferencedIdentifier: VirtualTypeMapping = [\n \"Identifier\",\n \"JSXIdentifier\",\n] as const;\n\nexport const ReferencedMemberExpression: VirtualTypeMapping = [\n \"MemberExpression\",\n] as const;\n\nexport const BindingIdentifier: VirtualTypeMapping = [\"Identifier\"] as const;\n\nexport const Statement: VirtualTypeMapping = [\"Statement\"] as const;\n\nexport const Expression: VirtualTypeMapping = [\"Expression\"] as const;\n\nexport const Scope: VirtualTypeMapping = [\"Scopable\", \"Pattern\"] as const;\n\nexport const Referenced: VirtualTypeMapping = null;\n\nexport const BlockScoped: VirtualTypeMapping = null;\n\nexport const Var: VirtualTypeMapping = [\"VariableDeclaration\"];\n\nexport const User: VirtualTypeMapping = null;\n\nexport const Generated: VirtualTypeMapping = null;\n\nexport const Pure: VirtualTypeMapping = null;\n\nexport const Flow: VirtualTypeMapping = [\n \"Flow\",\n \"ImportDeclaration\",\n \"ExportDeclaration\",\n \"ImportSpecifier\",\n] as const;\n\n// TODO: 7.0 Backwards Compat\nexport const RestProperty: VirtualTypeMapping = [\"RestElement\"] as const;\n\nexport const SpreadProperty: VirtualTypeMapping = [\"RestElement\"] as const;\n\nexport const ExistentialTypeParam: VirtualTypeMapping = [\n \"ExistsTypeAnnotation\",\n] as const;\n\nexport const NumericLiteralTypeAnnotation: VirtualTypeMapping = [\n \"NumberLiteralTypeAnnotation\",\n] as const;\n\nexport const ForAwaitStatement: VirtualTypeMapping = [\n \"ForOfStatement\",\n] as const;\n"],"mappings":";;;;;;AAyBO,MAAMA,oBAAwC,GAAAC,OAAA,CAAAD,oBAAA,GAAG,CACtD,YAAY,EACZ,eAAe,CACP;AAEH,MAAME,0BAA8C,GAAAD,OAAA,CAAAC,0BAAA,GAAG,CAC5D,kBAAkB,CACV;AAEH,MAAMC,iBAAqC,GAAAF,OAAA,CAAAE,iBAAA,GAAG,CAAC,YAAY,CAAU;AAErE,MAAMC,SAA6B,GAAAH,OAAA,CAAAG,SAAA,GAAG,CAAC,WAAW,CAAU;AAE5D,MAAMC,UAA8B,GAAAJ,OAAA,CAAAI,UAAA,GAAG,CAAC,YAAY,CAAU;AAE9D,MAAMC,KAAyB,GAAAL,OAAA,CAAAK,KAAA,GAAG,CAAC,UAAU,EAAE,SAAS,CAAU;AAElE,MAAMC,UAA8B,GAAAN,OAAA,CAAAM,UAAA,GAAG,IAAI;AAE3C,MAAMC,WAA+B,GAAAP,OAAA,CAAAO,WAAA,GAAG,IAAI;AAE5C,MAAMC,GAAuB,GAAAR,OAAA,CAAAQ,GAAA,GAAG,CAAC,qBAAqB,CAAC;AAEvD,MAAMC,IAAwB,GAAAT,OAAA,CAAAS,IAAA,GAAG,IAAI;AAErC,MAAMC,SAA6B,GAAAV,OAAA,CAAAU,SAAA,GAAG,IAAI;AAE1C,MAAMC,IAAwB,GAAAX,OAAA,CAAAW,IAAA,GAAG,IAAI;AAErC,MAAMC,IAAwB,GAAAZ,OAAA,CAAAY,IAAA,GAAG,CACtC,MAAM,EACN,mBAAmB,EACnB,mBAAmB,EACnB,iBAAiB,CACT;AAGH,MAAMC,YAAgC,GAAAb,OAAA,CAAAa,YAAA,GAAG,CAAC,aAAa,CAAU;AAEjE,MAAMC,cAAkC,GAAAd,OAAA,CAAAc,cAAA,GAAG,CAAC,aAAa,CAAU;AAEnE,MAAMC,oBAAwC,GAAAf,OAAA,CAAAe,oBAAA,GAAG,CACtD,sBAAsB,CACd;AAEH,MAAMC,4BAAgD,GAAAhB,OAAA,CAAAgB,4BAAA,GAAG,CAC9D,6BAA6B,CACrB;AAEH,MAAMC,iBAAqC,GAAAjB,OAAA,CAAAiB,iBAAA,GAAG,CACnD,gBAAgB,CACR","ignoreList":[]}

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backend/apis/nodejs/node_modules/@babel/traverse/lib/path/modification.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports._containerInsert = _containerInsert;
exports._containerInsertAfter = _containerInsertAfter;
exports._containerInsertBefore = _containerInsertBefore;
exports._verifyNodeList = _verifyNodeList;
exports.insertAfter = insertAfter;
exports.insertBefore = insertBefore;
exports.pushContainer = pushContainer;
exports.unshiftContainer = unshiftContainer;
exports.updateSiblingKeys = updateSiblingKeys;
var _cache = require("../cache.js");
var _index = require("./index.js");
var _context = require("./context.js");
var _removal = require("./removal.js");
var _t = require("@babel/types");
var _hoister = require("./lib/hoister.js");
const {
arrowFunctionExpression,
assertExpression,
assignmentExpression,
blockStatement,
callExpression,
cloneNode,
expressionStatement,
isAssignmentExpression,
isCallExpression,
isExportNamedDeclaration,
isExpression,
isIdentifier,
isSequenceExpression,
isSuper,
thisExpression
} = _t;
function insertBefore(nodes_) {
_removal._assertUnremoved.call(this);
const nodes = _verifyNodeList.call(this, nodes_);
const {
parentPath,
parent
} = this;
if (parentPath.isExpressionStatement() || parentPath.isLabeledStatement() || isExportNamedDeclaration(parent) || parentPath.isExportDefaultDeclaration() && this.isDeclaration()) {
return parentPath.insertBefore(nodes);
} else if (this.isNodeType("Expression") && !this.isJSXElement() || parentPath.isForStatement() && this.key === "init") {
if (this.node) nodes.push(this.node);
return this.replaceExpressionWithStatements(nodes);
} else if (Array.isArray(this.container)) {
return _containerInsertBefore.call(this, nodes);
} else if (this.isStatementOrBlock()) {
const node = this.node;
const shouldInsertCurrentNode = node && (!this.isExpressionStatement() || node.expression != null);
this.replaceWith(blockStatement(shouldInsertCurrentNode ? [node] : []));
return this.unshiftContainer("body", nodes);
} else {
throw new Error("We don't know what to do with this node type. " + "We were previously a Statement but we can't fit in here?");
}
}
function _containerInsert(from, nodes) {
updateSiblingKeys.call(this, from, nodes.length);
const paths = [];
this.container.splice(from, 0, ...nodes);
for (let i = 0; i < nodes.length; i++) {
var _this$context;
const to = from + i;
const path = this.getSibling(to);
paths.push(path);
if ((_this$context = this.context) != null && _this$context.queue) {
_context.pushContext.call(path, this.context);
}
}
const contexts = _context._getQueueContexts.call(this);
for (const path of paths) {
_context.setScope.call(path);
path.debug("Inserted.");
for (const context of contexts) {
context.maybeQueue(path, true);
}
}
return paths;
}
function _containerInsertBefore(nodes) {
return _containerInsert.call(this, this.key, nodes);
}
function _containerInsertAfter(nodes) {
return _containerInsert.call(this, this.key + 1, nodes);
}
const last = arr => arr[arr.length - 1];
function isHiddenInSequenceExpression(path) {
return isSequenceExpression(path.parent) && (last(path.parent.expressions) !== path.node || isHiddenInSequenceExpression(path.parentPath));
}
function isAlmostConstantAssignment(node, scope) {
if (!isAssignmentExpression(node) || !isIdentifier(node.left)) {
return false;
}
const blockScope = scope.getBlockParent();
return blockScope.hasOwnBinding(node.left.name) && blockScope.getOwnBinding(node.left.name).constantViolations.length <= 1;
}
function insertAfter(nodes_) {
_removal._assertUnremoved.call(this);
if (this.isSequenceExpression()) {
return last(this.get("expressions")).insertAfter(nodes_);
}
const nodes = _verifyNodeList.call(this, nodes_);
const {
parentPath,
parent
} = this;
if (parentPath.isExpressionStatement() || parentPath.isLabeledStatement() || isExportNamedDeclaration(parent) || parentPath.isExportDefaultDeclaration() && this.isDeclaration()) {
return parentPath.insertAfter(nodes.map(node => {
return isExpression(node) ? expressionStatement(node) : node;
}));
} else if (this.isNodeType("Expression") && !this.isJSXElement() && !parentPath.isJSXElement() || parentPath.isForStatement() && this.key === "init") {
const self = this;
if (self.node) {
const node = self.node;
let {
scope
} = this;
if (scope.path.isPattern()) {
assertExpression(node);
self.replaceWith(callExpression(arrowFunctionExpression([], node), []));
self.get("callee.body").insertAfter(nodes);
return [self];
}
if (isHiddenInSequenceExpression(self)) {
nodes.unshift(node);
} else if (isCallExpression(node) && isSuper(node.callee)) {
nodes.unshift(node);
nodes.push(thisExpression());
} else if (isAlmostConstantAssignment(node, scope)) {
nodes.unshift(node);
nodes.push(cloneNode(node.left));
} else if (scope.isPure(node, true)) {
nodes.push(node);
} else {
if (parentPath.isMethod({
computed: true,
key: node
})) {
scope = scope.parent;
}
const temp = scope.generateDeclaredUidIdentifier();
nodes.unshift(expressionStatement(assignmentExpression("=", cloneNode(temp), node)));
nodes.push(expressionStatement(cloneNode(temp)));
}
}
return this.replaceExpressionWithStatements(nodes);
} else if (Array.isArray(this.container)) {
return _containerInsertAfter.call(this, nodes);
} else if (this.isStatementOrBlock()) {
const node = this.node;
const shouldInsertCurrentNode = node && (!this.isExpressionStatement() || node.expression != null);
this.replaceWith(blockStatement(shouldInsertCurrentNode ? [node] : []));
return this.pushContainer("body", nodes);
} else {
throw new Error("We don't know what to do with this node type. " + "We were previously a Statement but we can't fit in here?");
}
}
function updateSiblingKeys(fromIndex, incrementBy) {
if (!this.parent) return;
const paths = (0, _cache.getCachedPaths)(this.hub, this.parent) || [];
for (const [, path] of paths) {
if (typeof path.key === "number" && path.container === this.container && path.key >= fromIndex) {
path.key += incrementBy;
}
}
}
function _verifyNodeList(nodes) {
if (!nodes) {
return [];
}
if (!Array.isArray(nodes)) {
nodes = [nodes];
}
for (let i = 0; i < nodes.length; i++) {
const node = nodes[i];
let msg;
if (!node) {
msg = "has falsy node";
} else if (typeof node !== "object") {
msg = "contains a non-object node";
} else if (!node.type) {
msg = "without a type";
} else if (node instanceof _index.default) {
msg = "has a NodePath when it expected a raw object";
}
if (msg) {
const type = Array.isArray(node) ? "array" : typeof node;
throw new Error(`Node list ${msg} with the index of ${i} and type of ${type}`);
}
}
return nodes;
}
function unshiftContainer(listKey, nodes) {
_removal._assertUnremoved.call(this);
nodes = _verifyNodeList.call(this, nodes);
const path = _index.default.get({
parentPath: this,
parent: this.node,
container: this.node[listKey],
listKey,
key: 0
}).setContext(this.context);
return _containerInsertBefore.call(path, nodes);
}
function pushContainer(listKey, nodes) {
_removal._assertUnremoved.call(this);
const verifiedNodes = _verifyNodeList.call(this, nodes);
const container = this.node[listKey];
const path = _index.default.get({
parentPath: this,
parent: this.node,
container: container,
listKey,
key: container.length
}).setContext(this.context);
return path.replaceWithMultiple(verifiedNodes);
}
{
exports.hoist = function hoist(scope = this.scope) {
const hoister = new _hoister.default(this, scope);
return hoister.run();
};
}
//# sourceMappingURL=modification.js.map

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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports._assertUnremoved = _assertUnremoved;
exports._callRemovalHooks = _callRemovalHooks;
exports._markRemoved = _markRemoved;
exports._remove = _remove;
exports._removeFromScope = _removeFromScope;
exports.remove = remove;
var _removalHooks = require("./lib/removal-hooks.js");
var _cache = require("../cache.js");
var _replacement = require("./replacement.js");
var _index = require("./index.js");
var _t = require("@babel/types");
var _modification = require("./modification.js");
var _context = require("./context.js");
const {
getBindingIdentifiers
} = _t;
function remove() {
var _this$opts;
_assertUnremoved.call(this);
_context.resync.call(this);
if (_callRemovalHooks.call(this)) {
_markRemoved.call(this);
return;
}
if (!((_this$opts = this.opts) != null && _this$opts.noScope)) {
_removeFromScope.call(this);
}
this.shareCommentsWithSiblings();
_remove.call(this);
_markRemoved.call(this);
}
function _removeFromScope() {
const bindings = getBindingIdentifiers(this.node, false, false, true);
Object.keys(bindings).forEach(name => this.scope.removeBinding(name));
}
function _callRemovalHooks() {
if (this.parentPath) {
for (const fn of _removalHooks.hooks) {
if (fn(this, this.parentPath)) return true;
}
}
}
function _remove() {
if (Array.isArray(this.container)) {
this.container.splice(this.key, 1);
_modification.updateSiblingKeys.call(this, this.key, -1);
} else {
_replacement._replaceWith.call(this, null);
}
}
function _markRemoved() {
this._traverseFlags |= _index.SHOULD_SKIP | _index.REMOVED;
if (this.parent) {
(0, _cache.getCachedPaths)(this.hub, this.parent).delete(this.node);
}
this.node = null;
}
function _assertUnremoved() {
if (this.removed) {
throw this.buildCodeFrameError("NodePath has been removed so is read-only.");
}
}
//# sourceMappingURL=removal.js.map

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{"version":3,"names":["_removalHooks","require","_cache","_replacement","_index","_t","_modification","_context","getBindingIdentifiers","remove","_this$opts","_assertUnremoved","call","resync","_callRemovalHooks","_markRemoved","opts","noScope","_removeFromScope","shareCommentsWithSiblings","_remove","bindings","node","Object","keys","forEach","name","scope","removeBinding","parentPath","fn","hooks","Array","isArray","container","splice","key","updateSiblingKeys","_replaceWith","_traverseFlags","SHOULD_SKIP","REMOVED","parent","getCachedPaths","hub","delete","removed","buildCodeFrameError"],"sources":["../../src/path/removal.ts"],"sourcesContent":["// This file contains methods responsible for removing a node.\n\nimport { hooks } from \"./lib/removal-hooks.ts\";\nimport { getCachedPaths } from \"../cache.ts\";\nimport { _replaceWith } from \"./replacement.ts\";\nimport type NodePath from \"./index.ts\";\nimport { REMOVED, SHOULD_SKIP } from \"./index.ts\";\nimport { getBindingIdentifiers } from \"@babel/types\";\nimport { updateSiblingKeys } from \"./modification.ts\";\nimport { resync } from \"./context.ts\";\n\nexport function remove(this: NodePath) {\n _assertUnremoved.call(this);\n\n resync.call(this);\n\n if (_callRemovalHooks.call(this)) {\n _markRemoved.call(this);\n return;\n }\n\n if (!this.opts?.noScope) {\n _removeFromScope.call(this);\n }\n\n this.shareCommentsWithSiblings();\n _remove.call(this);\n _markRemoved.call(this);\n}\n\nexport function _removeFromScope(this: NodePath) {\n const bindings = getBindingIdentifiers(this.node, false, false, true);\n Object.keys(bindings).forEach(name => this.scope.removeBinding(name));\n}\n\nexport function _callRemovalHooks(this: NodePath) {\n if (this.parentPath) {\n for (const fn of hooks) {\n if (fn(this, this.parentPath)) return true;\n }\n }\n}\n\nexport function _remove(this: NodePath) {\n if (Array.isArray(this.container)) {\n this.container.splice(this.key as number, 1);\n updateSiblingKeys.call(this, this.key as number, -1);\n } else {\n _replaceWith.call(this, null);\n }\n}\n\nexport function _markRemoved(this: NodePath) {\n // this.shouldSkip = true; this.removed = true;\n this._traverseFlags |= SHOULD_SKIP | REMOVED;\n if (this.parent) {\n getCachedPaths(this.hub, this.parent).delete(this.node);\n }\n this.node = null;\n}\n\nexport function _assertUnremoved(this: NodePath) {\n if (this.removed) {\n throw this.buildCodeFrameError(\n \"NodePath has been removed so is read-only.\",\n );\n }\n}\n"],"mappings":";;;;;;;;;;;AAEA,IAAAA,aAAA,GAAAC,OAAA;AACA,IAAAC,MAAA,GAAAD,OAAA;AACA,IAAAE,YAAA,GAAAF,OAAA;AAEA,IAAAG,MAAA,GAAAH,OAAA;AACA,IAAAI,EAAA,GAAAJ,OAAA;AACA,IAAAK,aAAA,GAAAL,OAAA;AACA,IAAAM,QAAA,GAAAN,OAAA;AAAsC;EAF7BO;AAAqB,IAAAH,EAAA;AAIvB,SAASI,MAAMA,CAAA,EAAiB;EAAA,IAAAC,UAAA;EACrCC,gBAAgB,CAACC,IAAI,CAAC,IAAI,CAAC;EAE3BC,eAAM,CAACD,IAAI,CAAC,IAAI,CAAC;EAEjB,IAAIE,iBAAiB,CAACF,IAAI,CAAC,IAAI,CAAC,EAAE;IAChCG,YAAY,CAACH,IAAI,CAAC,IAAI,CAAC;IACvB;EACF;EAEA,IAAI,GAAAF,UAAA,GAAC,IAAI,CAACM,IAAI,aAATN,UAAA,CAAWO,OAAO,GAAE;IACvBC,gBAAgB,CAACN,IAAI,CAAC,IAAI,CAAC;EAC7B;EAEA,IAAI,CAACO,yBAAyB,CAAC,CAAC;EAChCC,OAAO,CAACR,IAAI,CAAC,IAAI,CAAC;EAClBG,YAAY,CAACH,IAAI,CAAC,IAAI,CAAC;AACzB;AAEO,SAASM,gBAAgBA,CAAA,EAAiB;EAC/C,MAAMG,QAAQ,GAAGb,qBAAqB,CAAC,IAAI,CAACc,IAAI,EAAE,KAAK,EAAE,KAAK,EAAE,IAAI,CAAC;EACrEC,MAAM,CAACC,IAAI,CAACH,QAAQ,CAAC,CAACI,OAAO,CAACC,IAAI,IAAI,IAAI,CAACC,KAAK,CAACC,aAAa,CAACF,IAAI,CAAC,CAAC;AACvE;AAEO,SAASZ,iBAAiBA,CAAA,EAAiB;EAChD,IAAI,IAAI,CAACe,UAAU,EAAE;IACnB,KAAK,MAAMC,EAAE,IAAIC,mBAAK,EAAE;MACtB,IAAID,EAAE,CAAC,IAAI,EAAE,IAAI,CAACD,UAAU,CAAC,EAAE,OAAO,IAAI;IAC5C;EACF;AACF;AAEO,SAAST,OAAOA,CAAA,EAAiB;EACtC,IAAIY,KAAK,CAACC,OAAO,CAAC,IAAI,CAACC,SAAS,CAAC,EAAE;IACjC,IAAI,CAACA,SAAS,CAACC,MAAM,CAAC,IAAI,CAACC,GAAG,EAAY,CAAC,CAAC;IAC5CC,+BAAiB,CAACzB,IAAI,CAAC,IAAI,EAAE,IAAI,CAACwB,GAAG,EAAY,CAAC,CAAC,CAAC;EACtD,CAAC,MAAM;IACLE,yBAAY,CAAC1B,IAAI,CAAC,IAAI,EAAE,IAAI,CAAC;EAC/B;AACF;AAEO,SAASG,YAAYA,CAAA,EAAiB;EAE3C,IAAI,CAACwB,cAAc,IAAIC,kBAAW,GAAGC,cAAO;EAC5C,IAAI,IAAI,CAACC,MAAM,EAAE;IACf,IAAAC,qBAAc,EAAC,IAAI,CAACC,GAAG,EAAE,IAAI,CAACF,MAAM,CAAC,CAACG,MAAM,CAAC,IAAI,CAACvB,IAAI,CAAC;EACzD;EACA,IAAI,CAACA,IAAI,GAAG,IAAI;AAClB;AAEO,SAASX,gBAAgBA,CAAA,EAAiB;EAC/C,IAAI,IAAI,CAACmC,OAAO,EAAE;IAChB,MAAM,IAAI,CAACC,mBAAmB,CAC5B,4CACF,CAAC;EACH;AACF","ignoreList":[]}

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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports._replaceWith = _replaceWith;
exports.replaceExpressionWithStatements = replaceExpressionWithStatements;
exports.replaceInline = replaceInline;
exports.replaceWith = replaceWith;
exports.replaceWithMultiple = replaceWithMultiple;
exports.replaceWithSourceString = replaceWithSourceString;
var _codeFrame = require("@babel/code-frame");
var _index = require("../index.js");
var _index2 = require("./index.js");
var _cache = require("../cache.js");
var _modification = require("./modification.js");
var _parser = require("@babel/parser");
var _t = require("@babel/types");
var _context = require("./context.js");
const {
FUNCTION_TYPES,
arrowFunctionExpression,
assignmentExpression,
awaitExpression,
blockStatement,
buildUndefinedNode,
callExpression,
cloneNode,
conditionalExpression,
expressionStatement,
getBindingIdentifiers,
identifier,
inheritLeadingComments,
inheritTrailingComments,
inheritsComments,
isBlockStatement,
isEmptyStatement,
isExpression,
isExpressionStatement,
isIfStatement,
isProgram,
isStatement,
isVariableDeclaration,
removeComments,
returnStatement,
sequenceExpression,
validate,
yieldExpression
} = _t;
function replaceWithMultiple(nodes) {
var _getCachedPaths;
_context.resync.call(this);
nodes = _modification._verifyNodeList.call(this, nodes);
inheritLeadingComments(nodes[0], this.node);
inheritTrailingComments(nodes[nodes.length - 1], this.node);
(_getCachedPaths = (0, _cache.getCachedPaths)(this.hub, this.parent)) == null || _getCachedPaths.delete(this.node);
this.node = this.container[this.key] = null;
const paths = this.insertAfter(nodes);
if (this.node) {
this.requeue();
} else {
this.remove();
}
return paths;
}
function replaceWithSourceString(replacement) {
_context.resync.call(this);
let ast;
try {
replacement = `(${replacement})`;
ast = (0, _parser.parse)(replacement);
} catch (err) {
const loc = err.loc;
if (loc) {
err.message += " - make sure this is an expression.\n" + (0, _codeFrame.codeFrameColumns)(replacement, {
start: {
line: loc.line,
column: loc.column + 1
}
});
err.code = "BABEL_REPLACE_SOURCE_ERROR";
}
throw err;
}
const expressionAST = ast.program.body[0].expression;
_index.default.removeProperties(expressionAST);
return this.replaceWith(expressionAST);
}
function replaceWith(replacementPath) {
_context.resync.call(this);
if (this.removed) {
throw new Error("You can't replace this node, we've already removed it");
}
let replacement = replacementPath instanceof _index2.default ? replacementPath.node : replacementPath;
if (!replacement) {
throw new Error("You passed `path.replaceWith()` a falsy node, use `path.remove()` instead");
}
if (this.node === replacement) {
return [this];
}
if (this.isProgram() && !isProgram(replacement)) {
throw new Error("You can only replace a Program root node with another Program node");
}
if (Array.isArray(replacement)) {
throw new Error("Don't use `path.replaceWith()` with an array of nodes, use `path.replaceWithMultiple()`");
}
if (typeof replacement === "string") {
throw new Error("Don't use `path.replaceWith()` with a source string, use `path.replaceWithSourceString()`");
}
let nodePath = "";
if (this.isNodeType("Statement") && isExpression(replacement)) {
if (!this.canHaveVariableDeclarationOrExpression() && !this.canSwapBetweenExpressionAndStatement(replacement) && !this.parentPath.isExportDefaultDeclaration()) {
replacement = expressionStatement(replacement);
nodePath = "expression";
}
}
if (this.isNodeType("Expression") && isStatement(replacement)) {
if (!this.canHaveVariableDeclarationOrExpression() && !this.canSwapBetweenExpressionAndStatement(replacement)) {
return this.replaceExpressionWithStatements([replacement]);
}
}
const oldNode = this.node;
if (oldNode) {
inheritsComments(replacement, oldNode);
removeComments(oldNode);
}
_replaceWith.call(this, replacement);
this.type = replacement.type;
_context.setScope.call(this);
this.requeue();
return [nodePath ? this.get(nodePath) : this];
}
function _replaceWith(node) {
var _getCachedPaths2;
if (!this.container) {
throw new ReferenceError("Container is falsy");
}
if (this.inList) {
validate(this.parent, this.key, [node]);
} else {
validate(this.parent, this.key, node);
}
this.debug(`Replace with ${node == null ? void 0 : node.type}`);
(_getCachedPaths2 = (0, _cache.getCachedPaths)(this.hub, this.parent)) == null || _getCachedPaths2.set(node, this).delete(this.node);
this.node = this.container[this.key] = node;
}
function replaceExpressionWithStatements(nodes) {
_context.resync.call(this);
const declars = [];
const nodesAsSingleExpression = gatherSequenceExpressions(nodes, declars);
if (nodesAsSingleExpression) {
for (const id of declars) this.scope.push({
id
});
return this.replaceWith(nodesAsSingleExpression)[0].get("expressions");
}
const functionParent = this.getFunctionParent();
const isParentAsync = functionParent == null ? void 0 : functionParent.node.async;
const isParentGenerator = functionParent == null ? void 0 : functionParent.node.generator;
const container = arrowFunctionExpression([], blockStatement(nodes));
this.replaceWith(callExpression(container, []));
const callee = this.get("callee");
callee.get("body").scope.hoistVariables(id => this.scope.push({
id
}));
const completionRecords = callee.getCompletionRecords();
for (const path of completionRecords) {
if (!path.isExpressionStatement()) continue;
const loop = path.findParent(path => path.isLoop());
if (loop) {
let uid = loop.getData("expressionReplacementReturnUid");
if (!uid) {
uid = callee.scope.generateDeclaredUidIdentifier("ret");
callee.get("body").pushContainer("body", returnStatement(cloneNode(uid)));
loop.setData("expressionReplacementReturnUid", uid);
} else {
uid = identifier(uid.name);
}
path.get("expression").replaceWith(assignmentExpression("=", cloneNode(uid), path.node.expression));
} else {
path.replaceWith(returnStatement(path.node.expression));
}
}
callee.arrowFunctionToExpression();
const newCallee = callee;
const needToAwaitFunction = isParentAsync && _index.default.hasType(this.get("callee.body").node, "AwaitExpression", FUNCTION_TYPES);
const needToYieldFunction = isParentGenerator && _index.default.hasType(this.get("callee.body").node, "YieldExpression", FUNCTION_TYPES);
if (needToAwaitFunction) {
newCallee.set("async", true);
if (!needToYieldFunction) {
this.replaceWith(awaitExpression(this.node));
}
}
if (needToYieldFunction) {
newCallee.set("generator", true);
this.replaceWith(yieldExpression(this.node, true));
}
return newCallee.get("body.body");
}
function gatherSequenceExpressions(nodes, declars) {
const exprs = [];
let ensureLastUndefined = true;
for (const node of nodes) {
if (!isEmptyStatement(node)) {
ensureLastUndefined = false;
}
if (isExpression(node)) {
exprs.push(node);
} else if (isExpressionStatement(node)) {
exprs.push(node.expression);
} else if (isVariableDeclaration(node)) {
if (node.kind !== "var") return;
for (const declar of node.declarations) {
const bindings = getBindingIdentifiers(declar);
for (const key of Object.keys(bindings)) {
declars.push(cloneNode(bindings[key]));
}
if (declar.init) {
exprs.push(assignmentExpression("=", declar.id, declar.init));
}
}
ensureLastUndefined = true;
} else if (isIfStatement(node)) {
const consequent = node.consequent ? gatherSequenceExpressions([node.consequent], declars) : buildUndefinedNode();
const alternate = node.alternate ? gatherSequenceExpressions([node.alternate], declars) : buildUndefinedNode();
if (!consequent || !alternate) return;
exprs.push(conditionalExpression(node.test, consequent, alternate));
} else if (isBlockStatement(node)) {
const body = gatherSequenceExpressions(node.body, declars);
if (!body) return;
exprs.push(body);
} else if (isEmptyStatement(node)) {
if (nodes.indexOf(node) === 0) {
ensureLastUndefined = true;
}
} else {
return;
}
}
if (ensureLastUndefined) exprs.push(buildUndefinedNode());
if (exprs.length === 1) {
return exprs[0];
} else {
return sequenceExpression(exprs);
}
}
function replaceInline(nodes) {
_context.resync.call(this);
if (Array.isArray(nodes)) {
if (Array.isArray(this.container)) {
nodes = _modification._verifyNodeList.call(this, nodes);
const paths = _modification._containerInsertAfter.call(this, nodes);
this.remove();
return paths;
} else {
return this.replaceWithMultiple(nodes);
}
} else {
return this.replaceWith(nodes);
}
}
//# sourceMappingURL=replacement.js.map

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backend/apis/nodejs/node_modules/@babel/traverse/lib/scope/binding.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.default = void 0;
class Binding {
constructor({
identifier,
scope,
path,
kind
}) {
this.identifier = void 0;
this.scope = void 0;
this.path = void 0;
this.kind = void 0;
this.constantViolations = [];
this.constant = true;
this.referencePaths = [];
this.referenced = false;
this.references = 0;
this.identifier = identifier;
this.scope = scope;
this.path = path;
this.kind = kind;
if ((kind === "var" || kind === "hoisted") && isDeclaredInLoop(path)) {
this.reassign(path);
}
this.clearValue();
}
deoptValue() {
this.clearValue();
this.hasDeoptedValue = true;
}
setValue(value) {
if (this.hasDeoptedValue) return;
this.hasValue = true;
this.value = value;
}
clearValue() {
this.hasDeoptedValue = false;
this.hasValue = false;
this.value = null;
}
reassign(path) {
this.constant = false;
if (this.constantViolations.includes(path)) {
return;
}
this.constantViolations.push(path);
}
reference(path) {
if (this.referencePaths.includes(path)) {
return;
}
this.referenced = true;
this.references++;
this.referencePaths.push(path);
}
dereference() {
this.references--;
this.referenced = !!this.references;
}
}
exports.default = Binding;
function isDeclaredInLoop(path) {
for (let {
parentPath,
key
} = path; parentPath; {
parentPath,
key
} = parentPath) {
if (parentPath.isFunctionParent()) return false;
if (parentPath.isWhile() || parentPath.isForXStatement() || parentPath.isForStatement() && key === "body") {
return true;
}
}
return false;
}
//# sourceMappingURL=binding.js.map

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backend/apis/nodejs/node_modules/@babel/traverse/lib/scope/index.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.default = void 0;
var _renamer = require("./lib/renamer.js");
var _index = require("../index.js");
var _binding = require("./binding.js");
var _globals = require("globals");
var _t = require("@babel/types");
var t = _t;
var _cache = require("../cache.js");
var _visitors = require("../visitors.js");
const {
NOT_LOCAL_BINDING,
assignmentExpression,
callExpression,
cloneNode,
getBindingIdentifiers,
identifier,
isArrayExpression,
isBinary,
isCallExpression,
isClass,
isClassBody,
isClassDeclaration,
isExportAllDeclaration,
isExportDefaultDeclaration,
isExportNamedDeclaration,
isFunctionDeclaration,
isIdentifier,
isImportDeclaration,
isLiteral,
isMemberExpression,
isMethod,
isModuleSpecifier,
isNullLiteral,
isObjectExpression,
isProperty,
isPureish,
isRegExpLiteral,
isSuper,
isTaggedTemplateExpression,
isTemplateLiteral,
isThisExpression,
isUnaryExpression,
isVariableDeclaration,
expressionStatement,
matchesPattern,
memberExpression,
numericLiteral,
toIdentifier,
variableDeclaration,
variableDeclarator,
isRecordExpression,
isTupleExpression,
isObjectProperty,
isTopicReference,
isMetaProperty,
isPrivateName,
isExportDeclaration,
buildUndefinedNode,
sequenceExpression
} = _t;
function gatherNodeParts(node, parts) {
switch (node == null ? void 0 : node.type) {
default:
if (isImportDeclaration(node) || isExportDeclaration(node)) {
var _node$specifiers;
if ((isExportAllDeclaration(node) || isExportNamedDeclaration(node) || isImportDeclaration(node)) && node.source) {
gatherNodeParts(node.source, parts);
} else if ((isExportNamedDeclaration(node) || isImportDeclaration(node)) && (_node$specifiers = node.specifiers) != null && _node$specifiers.length) {
for (const e of node.specifiers) gatherNodeParts(e, parts);
} else if ((isExportDefaultDeclaration(node) || isExportNamedDeclaration(node)) && node.declaration) {
gatherNodeParts(node.declaration, parts);
}
} else if (isModuleSpecifier(node)) {
gatherNodeParts(node.local, parts);
} else if (isLiteral(node) && !isNullLiteral(node) && !isRegExpLiteral(node) && !isTemplateLiteral(node)) {
parts.push(node.value);
}
break;
case "MemberExpression":
case "OptionalMemberExpression":
case "JSXMemberExpression":
gatherNodeParts(node.object, parts);
gatherNodeParts(node.property, parts);
break;
case "Identifier":
case "JSXIdentifier":
parts.push(node.name);
break;
case "CallExpression":
case "OptionalCallExpression":
case "NewExpression":
gatherNodeParts(node.callee, parts);
break;
case "ObjectExpression":
case "ObjectPattern":
for (const e of node.properties) {
gatherNodeParts(e, parts);
}
break;
case "SpreadElement":
case "RestElement":
gatherNodeParts(node.argument, parts);
break;
case "ObjectProperty":
case "ObjectMethod":
case "ClassProperty":
case "ClassMethod":
case "ClassPrivateProperty":
case "ClassPrivateMethod":
gatherNodeParts(node.key, parts);
break;
case "ThisExpression":
parts.push("this");
break;
case "Super":
parts.push("super");
break;
case "Import":
parts.push("import");
break;
case "DoExpression":
parts.push("do");
break;
case "YieldExpression":
parts.push("yield");
gatherNodeParts(node.argument, parts);
break;
case "AwaitExpression":
parts.push("await");
gatherNodeParts(node.argument, parts);
break;
case "AssignmentExpression":
gatherNodeParts(node.left, parts);
break;
case "VariableDeclarator":
gatherNodeParts(node.id, parts);
break;
case "FunctionExpression":
case "FunctionDeclaration":
case "ClassExpression":
case "ClassDeclaration":
gatherNodeParts(node.id, parts);
break;
case "PrivateName":
gatherNodeParts(node.id, parts);
break;
case "ParenthesizedExpression":
gatherNodeParts(node.expression, parts);
break;
case "UnaryExpression":
case "UpdateExpression":
gatherNodeParts(node.argument, parts);
break;
case "MetaProperty":
gatherNodeParts(node.meta, parts);
gatherNodeParts(node.property, parts);
break;
case "JSXElement":
gatherNodeParts(node.openingElement, parts);
break;
case "JSXOpeningElement":
gatherNodeParts(node.name, parts);
break;
case "JSXFragment":
gatherNodeParts(node.openingFragment, parts);
break;
case "JSXOpeningFragment":
parts.push("Fragment");
break;
case "JSXNamespacedName":
gatherNodeParts(node.namespace, parts);
gatherNodeParts(node.name, parts);
break;
}
}
const collectorVisitor = {
ForStatement(path) {
const declar = path.get("init");
if (declar.isVar()) {
const {
scope
} = path;
const parentScope = scope.getFunctionParent() || scope.getProgramParent();
parentScope.registerBinding("var", declar);
}
},
Declaration(path) {
if (path.isBlockScoped()) return;
if (path.isImportDeclaration()) return;
if (path.isExportDeclaration()) return;
const parent = path.scope.getFunctionParent() || path.scope.getProgramParent();
parent.registerDeclaration(path);
},
ImportDeclaration(path) {
const parent = path.scope.getBlockParent();
parent.registerDeclaration(path);
},
TSImportEqualsDeclaration(path) {
const parent = path.scope.getBlockParent();
parent.registerDeclaration(path);
},
ReferencedIdentifier(path, state) {
if (t.isTSQualifiedName(path.parent) && path.parent.right === path.node) {
return;
}
if (path.parentPath.isTSImportEqualsDeclaration()) return;
state.references.push(path);
},
ForXStatement(path, state) {
const left = path.get("left");
if (left.isPattern() || left.isIdentifier()) {
state.constantViolations.push(path);
} else if (left.isVar()) {
const {
scope
} = path;
const parentScope = scope.getFunctionParent() || scope.getProgramParent();
parentScope.registerBinding("var", left);
}
},
ExportDeclaration: {
exit(path) {
const {
node,
scope
} = path;
if (isExportAllDeclaration(node)) return;
const declar = node.declaration;
if (isClassDeclaration(declar) || isFunctionDeclaration(declar)) {
const id = declar.id;
if (!id) return;
const binding = scope.getBinding(id.name);
binding == null || binding.reference(path);
} else if (isVariableDeclaration(declar)) {
for (const decl of declar.declarations) {
for (const name of Object.keys(getBindingIdentifiers(decl))) {
const binding = scope.getBinding(name);
binding == null || binding.reference(path);
}
}
}
}
},
LabeledStatement(path) {
path.scope.getBlockParent().registerDeclaration(path);
},
AssignmentExpression(path, state) {
state.assignments.push(path);
},
UpdateExpression(path, state) {
state.constantViolations.push(path);
},
UnaryExpression(path, state) {
if (path.node.operator === "delete") {
state.constantViolations.push(path);
}
},
BlockScoped(path) {
let scope = path.scope;
if (scope.path === path) scope = scope.parent;
const parent = scope.getBlockParent();
parent.registerDeclaration(path);
if (path.isClassDeclaration() && path.node.id) {
const id = path.node.id;
const name = id.name;
path.scope.bindings[name] = path.scope.parent.getBinding(name);
}
},
CatchClause(path) {
path.scope.registerBinding("let", path);
},
Function(path) {
const params = path.get("params");
for (const param of params) {
path.scope.registerBinding("param", param);
}
if (path.isFunctionExpression() && path.node.id && !path.node.id[NOT_LOCAL_BINDING]) {
path.scope.registerBinding("local", path.get("id"), path);
}
},
ClassExpression(path) {
if (path.node.id && !path.node.id[NOT_LOCAL_BINDING]) {
path.scope.registerBinding("local", path.get("id"), path);
}
},
TSTypeAnnotation(path) {
path.skip();
}
};
let uid = 0;
class Scope {
constructor(path) {
this.uid = void 0;
this.path = void 0;
this.block = void 0;
this.inited = void 0;
this.labels = void 0;
this.bindings = void 0;
this.references = void 0;
this.globals = void 0;
this.uids = void 0;
this.data = void 0;
this.crawling = void 0;
const {
node
} = path;
const cached = _cache.scope.get(node);
if ((cached == null ? void 0 : cached.path) === path) {
return cached;
}
_cache.scope.set(node, this);
this.uid = uid++;
this.block = node;
this.path = path;
this.labels = new Map();
this.inited = false;
}
get parent() {
var _parent;
let parent,
path = this.path;
do {
var _path;
const shouldSkip = path.key === "key" || path.listKey === "decorators";
path = path.parentPath;
if (shouldSkip && path.isMethod()) path = path.parentPath;
if ((_path = path) != null && _path.isScope()) parent = path;
} while (path && !parent);
return (_parent = parent) == null ? void 0 : _parent.scope;
}
generateDeclaredUidIdentifier(name) {
const id = this.generateUidIdentifier(name);
this.push({
id
});
return cloneNode(id);
}
generateUidIdentifier(name) {
return identifier(this.generateUid(name));
}
generateUid(name = "temp") {
name = toIdentifier(name).replace(/^_+/, "").replace(/\d+$/g, "");
let uid;
let i = 1;
do {
uid = `_${name}`;
if (i > 1) uid += i;
i++;
} while (this.hasLabel(uid) || this.hasBinding(uid) || this.hasGlobal(uid) || this.hasReference(uid));
const program = this.getProgramParent();
program.references[uid] = true;
program.uids[uid] = true;
return uid;
}
generateUidBasedOnNode(node, defaultName) {
const parts = [];
gatherNodeParts(node, parts);
let id = parts.join("$");
id = id.replace(/^_/, "") || defaultName || "ref";
return this.generateUid(id.slice(0, 20));
}
generateUidIdentifierBasedOnNode(node, defaultName) {
return identifier(this.generateUidBasedOnNode(node, defaultName));
}
isStatic(node) {
if (isThisExpression(node) || isSuper(node) || isTopicReference(node)) {
return true;
}
if (isIdentifier(node)) {
const binding = this.getBinding(node.name);
if (binding) {
return binding.constant;
} else {
return this.hasBinding(node.name);
}
}
return false;
}
maybeGenerateMemoised(node, dontPush) {
if (this.isStatic(node)) {
return null;
} else {
const id = this.generateUidIdentifierBasedOnNode(node);
if (!dontPush) {
this.push({
id
});
return cloneNode(id);
}
return id;
}
}
checkBlockScopedCollisions(local, kind, name, id) {
if (kind === "param") return;
if (local.kind === "local") return;
const duplicate = kind === "let" || local.kind === "let" || local.kind === "const" || local.kind === "module" || local.kind === "param" && kind === "const";
if (duplicate) {
throw this.path.hub.buildError(id, `Duplicate declaration "${name}"`, TypeError);
}
}
rename(oldName, newName) {
const binding = this.getBinding(oldName);
if (binding) {
newName || (newName = this.generateUidIdentifier(oldName).name);
const renamer = new _renamer.default(binding, oldName, newName);
{
renamer.rename(arguments[2]);
}
}
}
dump() {
const sep = "-".repeat(60);
console.log(sep);
let scope = this;
do {
console.log("#", scope.block.type);
for (const name of Object.keys(scope.bindings)) {
const binding = scope.bindings[name];
console.log(" -", name, {
constant: binding.constant,
references: binding.references,
violations: binding.constantViolations.length,
kind: binding.kind
});
}
} while (scope = scope.parent);
console.log(sep);
}
hasLabel(name) {
return !!this.getLabel(name);
}
getLabel(name) {
return this.labels.get(name);
}
registerLabel(path) {
this.labels.set(path.node.label.name, path);
}
registerDeclaration(path) {
if (path.isLabeledStatement()) {
this.registerLabel(path);
} else if (path.isFunctionDeclaration()) {
this.registerBinding("hoisted", path.get("id"), path);
} else if (path.isVariableDeclaration()) {
const declarations = path.get("declarations");
const {
kind
} = path.node;
for (const declar of declarations) {
this.registerBinding(kind === "using" || kind === "await using" ? "const" : kind, declar);
}
} else if (path.isClassDeclaration()) {
if (path.node.declare) return;
this.registerBinding("let", path);
} else if (path.isImportDeclaration()) {
const isTypeDeclaration = path.node.importKind === "type" || path.node.importKind === "typeof";
const specifiers = path.get("specifiers");
for (const specifier of specifiers) {
const isTypeSpecifier = isTypeDeclaration || specifier.isImportSpecifier() && (specifier.node.importKind === "type" || specifier.node.importKind === "typeof");
this.registerBinding(isTypeSpecifier ? "unknown" : "module", specifier);
}
} else if (path.isExportDeclaration()) {
const declar = path.get("declaration");
if (declar.isClassDeclaration() || declar.isFunctionDeclaration() || declar.isVariableDeclaration()) {
this.registerDeclaration(declar);
}
} else {
this.registerBinding("unknown", path);
}
}
buildUndefinedNode() {
return buildUndefinedNode();
}
registerConstantViolation(path) {
const ids = path.getAssignmentIdentifiers();
for (const name of Object.keys(ids)) {
var _this$getBinding;
(_this$getBinding = this.getBinding(name)) == null || _this$getBinding.reassign(path);
}
}
registerBinding(kind, path, bindingPath = path) {
if (!kind) throw new ReferenceError("no `kind`");
if (path.isVariableDeclaration()) {
const declarators = path.get("declarations");
for (const declar of declarators) {
this.registerBinding(kind, declar);
}
return;
}
const parent = this.getProgramParent();
const ids = path.getOuterBindingIdentifiers(true);
for (const name of Object.keys(ids)) {
parent.references[name] = true;
for (const id of ids[name]) {
const local = this.getOwnBinding(name);
if (local) {
if (local.identifier === id) continue;
this.checkBlockScopedCollisions(local, kind, name, id);
}
if (local) {
local.reassign(bindingPath);
} else {
this.bindings[name] = new _binding.default({
identifier: id,
scope: this,
path: bindingPath,
kind: kind
});
}
}
}
}
addGlobal(node) {
this.globals[node.name] = node;
}
hasUid(name) {
let scope = this;
do {
if (scope.uids[name]) return true;
} while (scope = scope.parent);
return false;
}
hasGlobal(name) {
let scope = this;
do {
if (scope.globals[name]) return true;
} while (scope = scope.parent);
return false;
}
hasReference(name) {
return !!this.getProgramParent().references[name];
}
isPure(node, constantsOnly) {
if (isIdentifier(node)) {
const binding = this.getBinding(node.name);
if (!binding) return false;
if (constantsOnly) return binding.constant;
return true;
} else if (isThisExpression(node) || isMetaProperty(node) || isTopicReference(node) || isPrivateName(node)) {
return true;
} else if (isClass(node)) {
var _node$decorators;
if (node.superClass && !this.isPure(node.superClass, constantsOnly)) {
return false;
}
if (((_node$decorators = node.decorators) == null ? void 0 : _node$decorators.length) > 0) {
return false;
}
return this.isPure(node.body, constantsOnly);
} else if (isClassBody(node)) {
for (const method of node.body) {
if (!this.isPure(method, constantsOnly)) return false;
}
return true;
} else if (isBinary(node)) {
return this.isPure(node.left, constantsOnly) && this.isPure(node.right, constantsOnly);
} else if (isArrayExpression(node) || isTupleExpression(node)) {
for (const elem of node.elements) {
if (elem !== null && !this.isPure(elem, constantsOnly)) return false;
}
return true;
} else if (isObjectExpression(node) || isRecordExpression(node)) {
for (const prop of node.properties) {
if (!this.isPure(prop, constantsOnly)) return false;
}
return true;
} else if (isMethod(node)) {
var _node$decorators2;
if (node.computed && !this.isPure(node.key, constantsOnly)) return false;
if (((_node$decorators2 = node.decorators) == null ? void 0 : _node$decorators2.length) > 0) {
return false;
}
return true;
} else if (isProperty(node)) {
var _node$decorators3;
if (node.computed && !this.isPure(node.key, constantsOnly)) return false;
if (((_node$decorators3 = node.decorators) == null ? void 0 : _node$decorators3.length) > 0) {
return false;
}
if (isObjectProperty(node) || node.static) {
if (node.value !== null && !this.isPure(node.value, constantsOnly)) {
return false;
}
}
return true;
} else if (isUnaryExpression(node)) {
return this.isPure(node.argument, constantsOnly);
} else if (isTemplateLiteral(node)) {
for (const expression of node.expressions) {
if (!this.isPure(expression, constantsOnly)) return false;
}
return true;
} else if (isTaggedTemplateExpression(node)) {
return matchesPattern(node.tag, "String.raw") && !this.hasBinding("String", {
noGlobals: true
}) && this.isPure(node.quasi, constantsOnly);
} else if (isMemberExpression(node)) {
return !node.computed && isIdentifier(node.object) && node.object.name === "Symbol" && isIdentifier(node.property) && node.property.name !== "for" && !this.hasBinding("Symbol", {
noGlobals: true
});
} else if (isCallExpression(node)) {
return matchesPattern(node.callee, "Symbol.for") && !this.hasBinding("Symbol", {
noGlobals: true
}) && node.arguments.length === 1 && t.isStringLiteral(node.arguments[0]);
} else {
return isPureish(node);
}
}
setData(key, val) {
return this.data[key] = val;
}
getData(key) {
let scope = this;
do {
const data = scope.data[key];
if (data != null) return data;
} while (scope = scope.parent);
}
removeData(key) {
let scope = this;
do {
const data = scope.data[key];
if (data != null) scope.data[key] = null;
} while (scope = scope.parent);
}
init() {
if (!this.inited) {
this.inited = true;
this.crawl();
}
}
crawl() {
const path = this.path;
this.references = Object.create(null);
this.bindings = Object.create(null);
this.globals = Object.create(null);
this.uids = Object.create(null);
this.data = Object.create(null);
let scope = this;
do {
if (scope.crawling) return;
if (scope.path.isProgram()) {
break;
}
} while (scope = scope.parent);
const programParent = scope;
const state = {
references: [],
constantViolations: [],
assignments: []
};
this.crawling = true;
if (path.type !== "Program" && (0, _visitors.isExplodedVisitor)(collectorVisitor)) {
for (const visit of collectorVisitor.enter) {
visit.call(state, path, state);
}
const typeVisitors = collectorVisitor[path.type];
if (typeVisitors) {
for (const visit of typeVisitors.enter) {
visit.call(state, path, state);
}
}
}
path.traverse(collectorVisitor, state);
this.crawling = false;
for (const path of state.assignments) {
const ids = path.getAssignmentIdentifiers();
for (const name of Object.keys(ids)) {
if (path.scope.getBinding(name)) continue;
programParent.addGlobal(ids[name]);
}
path.scope.registerConstantViolation(path);
}
for (const ref of state.references) {
const binding = ref.scope.getBinding(ref.node.name);
if (binding) {
binding.reference(ref);
} else {
programParent.addGlobal(ref.node);
}
}
for (const path of state.constantViolations) {
path.scope.registerConstantViolation(path);
}
}
push(opts) {
let path = this.path;
if (path.isPattern()) {
path = this.getPatternParent().path;
} else if (!path.isBlockStatement() && !path.isProgram()) {
path = this.getBlockParent().path;
}
if (path.isSwitchStatement()) {
path = (this.getFunctionParent() || this.getProgramParent()).path;
}
const {
init,
unique,
kind = "var",
id
} = opts;
if (!init && !unique && (kind === "var" || kind === "let") && path.isFunction() && !path.node.name && isCallExpression(path.parent, {
callee: path.node
}) && path.parent.arguments.length <= path.node.params.length && isIdentifier(id)) {
path.pushContainer("params", id);
path.scope.registerBinding("param", path.get("params")[path.node.params.length - 1]);
return;
}
if (path.isLoop() || path.isCatchClause() || path.isFunction()) {
path.ensureBlock();
path = path.get("body");
}
const blockHoist = opts._blockHoist == null ? 2 : opts._blockHoist;
const dataKey = `declaration:${kind}:${blockHoist}`;
let declarPath = !unique && path.getData(dataKey);
if (!declarPath) {
const declar = variableDeclaration(kind, []);
declar._blockHoist = blockHoist;
[declarPath] = path.unshiftContainer("body", [declar]);
if (!unique) path.setData(dataKey, declarPath);
}
const declarator = variableDeclarator(id, init);
const len = declarPath.node.declarations.push(declarator);
path.scope.registerBinding(kind, declarPath.get("declarations")[len - 1]);
}
getProgramParent() {
let scope = this;
do {
if (scope.path.isProgram()) {
return scope;
}
} while (scope = scope.parent);
throw new Error("Couldn't find a Program");
}
getFunctionParent() {
let scope = this;
do {
if (scope.path.isFunctionParent()) {
return scope;
}
} while (scope = scope.parent);
return null;
}
getBlockParent() {
let scope = this;
do {
if (scope.path.isBlockParent()) {
return scope;
}
} while (scope = scope.parent);
throw new Error("We couldn't find a BlockStatement, For, Switch, Function, Loop or Program...");
}
getPatternParent() {
let scope = this;
do {
if (!scope.path.isPattern()) {
return scope.getBlockParent();
}
} while (scope = scope.parent.parent);
throw new Error("We couldn't find a BlockStatement, For, Switch, Function, Loop or Program...");
}
getAllBindings() {
const ids = Object.create(null);
let scope = this;
do {
for (const key of Object.keys(scope.bindings)) {
if (key in ids === false) {
ids[key] = scope.bindings[key];
}
}
scope = scope.parent;
} while (scope);
return ids;
}
bindingIdentifierEquals(name, node) {
return this.getBindingIdentifier(name) === node;
}
getBinding(name) {
let scope = this;
let previousPath;
do {
const binding = scope.getOwnBinding(name);
if (binding) {
var _previousPath;
if ((_previousPath = previousPath) != null && _previousPath.isPattern() && binding.kind !== "param" && binding.kind !== "local") {} else {
return binding;
}
} else if (!binding && name === "arguments" && scope.path.isFunction() && !scope.path.isArrowFunctionExpression()) {
break;
}
previousPath = scope.path;
} while (scope = scope.parent);
}
getOwnBinding(name) {
return this.bindings[name];
}
getBindingIdentifier(name) {
var _this$getBinding2;
return (_this$getBinding2 = this.getBinding(name)) == null ? void 0 : _this$getBinding2.identifier;
}
getOwnBindingIdentifier(name) {
const binding = this.bindings[name];
return binding == null ? void 0 : binding.identifier;
}
hasOwnBinding(name) {
return !!this.getOwnBinding(name);
}
hasBinding(name, opts) {
if (!name) return false;
let scope = this;
do {
if (scope.hasOwnBinding(name)) {
return true;
}
} while (scope = scope.parent);
let noGlobals;
let noUids;
if (typeof opts === "object") {
noGlobals = opts.noGlobals;
noUids = opts.noUids;
} else if (typeof opts === "boolean") {
noGlobals = opts;
}
if (!noUids && this.hasUid(name)) return true;
if (!noGlobals && Scope.globals.includes(name)) return true;
if (!noGlobals && Scope.contextVariables.includes(name)) return true;
return false;
}
parentHasBinding(name, opts) {
var _this$parent;
return (_this$parent = this.parent) == null ? void 0 : _this$parent.hasBinding(name, opts);
}
moveBindingTo(name, scope) {
const info = this.getBinding(name);
if (info) {
info.scope.removeOwnBinding(name);
info.scope = scope;
scope.bindings[name] = info;
}
}
removeOwnBinding(name) {
delete this.bindings[name];
}
removeBinding(name) {
var _this$getBinding3;
(_this$getBinding3 = this.getBinding(name)) == null || _this$getBinding3.scope.removeOwnBinding(name);
let scope = this;
do {
if (scope.uids[name]) {
scope.uids[name] = false;
}
} while (scope = scope.parent);
}
hoistVariables(emit = id => this.push({
id
})) {
this.crawl();
const seen = new Set();
for (const name of Object.keys(this.bindings)) {
const binding = this.bindings[name];
if (!binding) continue;
const {
path
} = binding;
if (!path.isVariableDeclarator()) continue;
const {
parent,
parentPath
} = path;
if (parent.kind !== "var" || seen.has(parent)) continue;
seen.add(path.parent);
let firstId;
const init = [];
for (const decl of parent.declarations) {
firstId != null ? firstId : firstId = decl.id;
if (decl.init) {
init.push(assignmentExpression("=", decl.id, decl.init));
}
const ids = Object.keys(getBindingIdentifiers(decl, false, true, true));
for (const name of ids) {
emit(identifier(name), decl.init != null);
}
}
if (parentPath.parentPath.isFor({
left: parent
})) {
parentPath.replaceWith(firstId);
} else if (init.length === 0) {
parentPath.remove();
} else {
const expr = init.length === 1 ? init[0] : sequenceExpression(init);
if (parentPath.parentPath.isForStatement({
init: parent
})) {
parentPath.replaceWith(expr);
} else {
parentPath.replaceWith(expressionStatement(expr));
}
}
}
}
}
exports.default = Scope;
Scope.globals = Object.keys(_globals.builtin);
Scope.contextVariables = ["arguments", "undefined", "Infinity", "NaN"];
{
Scope.prototype._renameFromMap = function _renameFromMap(map, oldName, newName, value) {
if (map[oldName]) {
map[newName] = value;
map[oldName] = null;
}
};
Scope.prototype.traverse = function (node, opts, state) {
(0, _index.default)(node, opts, this, state, this.path);
};
Scope.prototype._generateUid = function _generateUid(name, i) {
let id = name;
if (i > 1) id += i;
return `_${id}`;
};
Scope.prototype.toArray = function toArray(node, i, arrayLikeIsIterable) {
if (isIdentifier(node)) {
const binding = this.getBinding(node.name);
if (binding != null && binding.constant && binding.path.isGenericType("Array")) {
return node;
}
}
if (isArrayExpression(node)) {
return node;
}
if (isIdentifier(node, {
name: "arguments"
})) {
return callExpression(memberExpression(memberExpression(memberExpression(identifier("Array"), identifier("prototype")), identifier("slice")), identifier("call")), [node]);
}
let helperName;
const args = [node];
if (i === true) {
helperName = "toConsumableArray";
} else if (typeof i === "number") {
args.push(numericLiteral(i));
helperName = "slicedToArray";
} else {
helperName = "toArray";
}
if (arrayLikeIsIterable) {
args.unshift(this.path.hub.addHelper(helperName));
helperName = "maybeArrayLike";
}
return callExpression(this.path.hub.addHelper(helperName), args);
};
Scope.prototype.getAllBindingsOfKind = function getAllBindingsOfKind(...kinds) {
const ids = Object.create(null);
for (const kind of kinds) {
let scope = this;
do {
for (const name of Object.keys(scope.bindings)) {
const binding = scope.bindings[name];
if (binding.kind === kind) ids[name] = binding;
}
scope = scope.parent;
} while (scope);
}
return ids;
};
Object.defineProperties(Scope.prototype, {
parentBlock: {
configurable: true,
enumerable: true,
get() {
return this.path.parent;
}
},
hub: {
configurable: true,
enumerable: true,
get() {
return this.path.hub;
}
}
});
}
//# sourceMappingURL=index.js.map

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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.default = void 0;
var t = require("@babel/types");
var _t = t;
var _traverseNode = require("../../traverse-node.js");
var _visitors = require("../../visitors.js");
var _context = require("../../path/context.js");
const {
getAssignmentIdentifiers
} = _t;
const renameVisitor = {
ReferencedIdentifier({
node
}, state) {
if (node.name === state.oldName) {
node.name = state.newName;
}
},
Scope(path, state) {
if (!path.scope.bindingIdentifierEquals(state.oldName, state.binding.identifier)) {
path.skip();
if (path.isMethod()) {
if (!path.requeueComputedKeyAndDecorators) {
_context.requeueComputedKeyAndDecorators.call(path);
} else {
path.requeueComputedKeyAndDecorators();
}
}
}
},
ObjectProperty({
node,
scope
}, state) {
const {
name
} = node.key;
if (node.shorthand && (name === state.oldName || name === state.newName) && scope.getBindingIdentifier(name) === state.binding.identifier) {
node.shorthand = false;
{
var _node$extra;
if ((_node$extra = node.extra) != null && _node$extra.shorthand) node.extra.shorthand = false;
}
}
},
"AssignmentExpression|Declaration|VariableDeclarator"(path, state) {
if (path.isVariableDeclaration()) return;
const ids = path.isAssignmentExpression() ? getAssignmentIdentifiers(path.node) : path.getOuterBindingIdentifiers();
for (const name in ids) {
if (name === state.oldName) ids[name].name = state.newName;
}
}
};
class Renamer {
constructor(binding, oldName, newName) {
this.newName = newName;
this.oldName = oldName;
this.binding = binding;
}
maybeConvertFromExportDeclaration(parentDeclar) {
const maybeExportDeclar = parentDeclar.parentPath;
if (!maybeExportDeclar.isExportDeclaration()) {
return;
}
if (maybeExportDeclar.isExportDefaultDeclaration()) {
const {
declaration
} = maybeExportDeclar.node;
if (t.isDeclaration(declaration) && !declaration.id) {
return;
}
}
if (maybeExportDeclar.isExportAllDeclaration()) {
return;
}
maybeExportDeclar.splitExportDeclaration();
}
maybeConvertFromClassFunctionDeclaration(path) {
return path;
}
maybeConvertFromClassFunctionExpression(path) {
return path;
}
rename() {
const {
binding,
oldName,
newName
} = this;
const {
scope,
path
} = binding;
const parentDeclar = path.find(path => path.isDeclaration() || path.isFunctionExpression() || path.isClassExpression());
if (parentDeclar) {
const bindingIds = parentDeclar.getOuterBindingIdentifiers();
if (bindingIds[oldName] === binding.identifier) {
this.maybeConvertFromExportDeclaration(parentDeclar);
}
}
const blockToTraverse = arguments[0] || scope.block;
const skipKeys = {
discriminant: true
};
if (t.isMethod(blockToTraverse)) {
if (blockToTraverse.computed) {
skipKeys.key = true;
}
if (!t.isObjectMethod(blockToTraverse)) {
skipKeys.decorators = true;
}
}
(0, _traverseNode.traverseNode)(blockToTraverse, (0, _visitors.explode)(renameVisitor), scope, this, scope.path, skipKeys);
if (!arguments[0]) {
scope.removeOwnBinding(oldName);
scope.bindings[newName] = binding;
this.binding.identifier.name = newName;
}
if (parentDeclar) {
this.maybeConvertFromClassFunctionDeclaration(path);
this.maybeConvertFromClassFunctionExpression(path);
}
}
}
exports.default = Renamer;
//# sourceMappingURL=renamer.js.map

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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.traverseNode = traverseNode;
var _context = require("./context.js");
var _t = require("@babel/types");
const {
VISITOR_KEYS
} = _t;
function traverseNode(node, opts, scope, state, path, skipKeys, visitSelf) {
const keys = VISITOR_KEYS[node.type];
if (!keys) return false;
const context = new _context.default(scope, opts, state, path);
if (visitSelf) {
if (skipKeys != null && skipKeys[path.parentKey]) return false;
return context.visitQueue([path]);
}
for (const key of keys) {
if (skipKeys != null && skipKeys[key]) continue;
if (context.visit(node, key)) {
return true;
}
}
return false;
}
//# sourceMappingURL=traverse-node.js.map

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{"version":3,"names":["_context","require","_t","VISITOR_KEYS","traverseNode","node","opts","scope","state","path","skipKeys","visitSelf","keys","type","context","TraversalContext","parentKey","visitQueue","key","visit"],"sources":["../src/traverse-node.ts"],"sourcesContent":["import TraversalContext from \"./context.ts\";\nimport type { ExplodedTraverseOptions } from \"./index.ts\";\nimport type NodePath from \"./path/index.ts\";\nimport type Scope from \"./scope/index.ts\";\nimport type * as t from \"@babel/types\";\nimport { VISITOR_KEYS } from \"@babel/types\";\n\n/**\n * Traverse the children of given node\n * @param {Node} node\n * @param {TraverseOptions} opts The traverse options used to create a new traversal context\n * @param {scope} scope A traversal scope used to create a new traversal context. When opts.noScope is true, scope should not be provided\n * @param {any} state A user data storage provided as the second callback argument for traversal visitors\n * @param {NodePath} path A NodePath of given node\n * @param {Record<string, boolean>} skipKeys A map from key names to whether that should be skipped during traversal. The skipKeys are applied to every descendants\n * @returns {boolean} Whether the traversal stops early\n\n * @note This function does not visit the given `node`.\n */\nexport function traverseNode<S = unknown>(\n node: t.Node,\n opts: ExplodedTraverseOptions<S>,\n scope?: Scope,\n state?: S,\n path?: NodePath,\n skipKeys?: Record<string, boolean>,\n visitSelf?: boolean,\n): boolean {\n const keys = VISITOR_KEYS[node.type];\n if (!keys) return false;\n\n const context = new TraversalContext<S>(scope, opts, state, path);\n if (visitSelf) {\n if (skipKeys?.[path.parentKey]) return false;\n return context.visitQueue([path]);\n }\n\n for (const key of keys) {\n if (skipKeys?.[key]) continue;\n if (context.visit(node, key)) {\n return true;\n }\n }\n\n return false;\n}\n"],"mappings":";;;;;;AAAA,IAAAA,QAAA,GAAAC,OAAA;AAKA,IAAAC,EAAA,GAAAD,OAAA;AAA4C;EAAnCE;AAAY,IAAAD,EAAA;AAcd,SAASE,YAAYA,CAC1BC,IAAY,EACZC,IAAgC,EAChCC,KAAa,EACbC,KAAS,EACTC,IAAe,EACfC,QAAkC,EAClCC,SAAmB,EACV;EACT,MAAMC,IAAI,GAAGT,YAAY,CAACE,IAAI,CAACQ,IAAI,CAAC;EACpC,IAAI,CAACD,IAAI,EAAE,OAAO,KAAK;EAEvB,MAAME,OAAO,GAAG,IAAIC,gBAAgB,CAAIR,KAAK,EAAED,IAAI,EAAEE,KAAK,EAAEC,IAAI,CAAC;EACjE,IAAIE,SAAS,EAAE;IACb,IAAID,QAAQ,YAARA,QAAQ,CAAGD,IAAI,CAACO,SAAS,CAAC,EAAE,OAAO,KAAK;IAC5C,OAAOF,OAAO,CAACG,UAAU,CAAC,CAACR,IAAI,CAAC,CAAC;EACnC;EAEA,KAAK,MAAMS,GAAG,IAAIN,IAAI,EAAE;IACtB,IAAIF,QAAQ,YAARA,QAAQ,CAAGQ,GAAG,CAAC,EAAE;IACrB,IAAIJ,OAAO,CAACK,KAAK,CAACd,IAAI,EAAEa,GAAG,CAAC,EAAE;MAC5B,OAAO,IAAI;IACb;EACF;EAEA,OAAO,KAAK;AACd","ignoreList":[]}

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//# sourceMappingURL=types.js.map

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{"version":3,"names":[],"sources":["../src/types.ts"],"sourcesContent":["import type * as t from \"@babel/types\";\nimport type { NodePath } from \"./index.ts\";\nimport type { VirtualTypeAliases } from \"./path/lib/virtual-types.ts\";\nimport type {\n ExplVisitorBase,\n VisitorBaseNodes,\n VisitorBaseAliases,\n} from \"./generated/visitor-types.d.ts\";\n\nexport type VisitPhase = \"enter\" | \"exit\";\n\ninterface VisitNodeObject<S, P extends t.Node> {\n enter?: VisitNodeFunction<S, P>;\n exit?: VisitNodeFunction<S, P>;\n}\n\nexport interface ExplVisitNode<S, P extends t.Node> {\n enter?: VisitNodeFunction<S, P>[];\n exit?: VisitNodeFunction<S, P>[];\n}\n\nexport interface ExplodedVisitor<S = unknown>\n extends ExplVisitorBase<S>,\n ExplVisitNode<S, t.Node> {\n _exploded: true;\n _verified: true;\n}\n\n// TODO: Assert that the keys of this are the keys of VirtualTypeAliases without\n// the keys of VisitorBaseNodes and VisitorBaseAliases\n// prettier-ignore\ninterface VisitorVirtualAliases<S> {\n BindingIdentifier?: VisitNode<S, VirtualTypeAliases[\"BindingIdentifier\"]>;\n BlockScoped?: VisitNode<S, VirtualTypeAliases[\"BlockScoped\"]>;\n ExistentialTypeParam?: VisitNode<S, VirtualTypeAliases[\"ExistentialTypeParam\"]>;\n Expression?: VisitNode<S, VirtualTypeAliases[\"Expression\"]>;\n //Flow?: VisitNode<S, VirtualTypeAliases[\"Flow\"]>;\n ForAwaitStatement?: VisitNode<S, VirtualTypeAliases[\"ForAwaitStatement\"]>;\n Generated?: VisitNode<S, VirtualTypeAliases[\"Generated\"]>;\n NumericLiteralTypeAnnotation?: VisitNode<S, VirtualTypeAliases[\"NumericLiteralTypeAnnotation\"]>;\n Pure?: VisitNode<S, VirtualTypeAliases[\"Pure\"]>;\n Referenced?: VisitNode<S, VirtualTypeAliases[\"Referenced\"]>;\n ReferencedIdentifier?: VisitNode<S, VirtualTypeAliases[\"ReferencedIdentifier\"]>;\n ReferencedMemberExpression?: VisitNode<S, VirtualTypeAliases[\"ReferencedMemberExpression\"]>;\n //RestProperty?: VisitNode<S, VirtualTypeAliases[\"RestProperty\"]>;\n Scope?: VisitNode<S, VirtualTypeAliases[\"Scope\"]>;\n //SpreadProperty?: VisitNode<S, VirtualTypeAliases[\"SpreadProperty\"]>;\n Statement?: VisitNode<S, VirtualTypeAliases[\"Statement\"]>;\n User?: VisitNode<S, VirtualTypeAliases[\"User\"]>;\n Var?: VisitNode<S, VirtualTypeAliases[\"Var\"]>;\n}\n\n// TODO: Do not export this? Or give it a better name?\nexport interface VisitorBase<S>\n extends VisitNodeObject<S, t.Node>,\n VisitorBaseNodes<S>,\n VisitorBaseAliases<S>,\n VisitorVirtualAliases<S> {\n // Babel supports `NodeTypesWithoutComment | NodeTypesWithoutComment | ... ` but it is\n // too complex for TS. So we type it as a general visitor only if the key contains `|`\n // this is good enough for non-visitor traverse options e.g. `noScope`\n [k: `${string}|${string}`]: VisitNode<S, t.Node>;\n}\n\nexport type Visitor<S = unknown> = VisitorBase<S> | ExplodedVisitor<S>;\n\nexport type VisitNode<S, P extends t.Node> =\n | VisitNodeFunction<S, P>\n | VisitNodeObject<S, P>;\n\nexport type VisitNodeFunction<S, P extends t.Node> = (\n this: S,\n path: NodePath<P>,\n state: S,\n) => void;\n"],"mappings":"","ignoreList":[]}

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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.environmentVisitor = environmentVisitor;
exports.explode = explode$1;
exports.isExplodedVisitor = isExplodedVisitor;
exports.merge = merge;
exports.verify = verify$1;
var virtualTypes = require("./path/lib/virtual-types.js");
var virtualTypesValidators = require("./path/lib/virtual-types-validator.js");
var _t = require("@babel/types");
var _context = require("./path/context.js");
const {
DEPRECATED_KEYS,
DEPRECATED_ALIASES,
FLIPPED_ALIAS_KEYS,
TYPES,
__internal__deprecationWarning: deprecationWarning
} = _t;
function isVirtualType(type) {
return type in virtualTypes;
}
function isExplodedVisitor(visitor) {
return visitor == null ? void 0 : visitor._exploded;
}
function explode$1(visitor) {
if (isExplodedVisitor(visitor)) return visitor;
visitor._exploded = true;
for (const nodeType of Object.keys(visitor)) {
if (shouldIgnoreKey(nodeType)) continue;
const parts = nodeType.split("|");
if (parts.length === 1) continue;
const fns = visitor[nodeType];
delete visitor[nodeType];
for (const part of parts) {
visitor[part] = fns;
}
}
verify$1(visitor);
delete visitor.__esModule;
ensureEntranceObjects(visitor);
ensureCallbackArrays(visitor);
for (const nodeType of Object.keys(visitor)) {
if (shouldIgnoreKey(nodeType)) continue;
if (!isVirtualType(nodeType)) continue;
const fns = visitor[nodeType];
for (const type of Object.keys(fns)) {
fns[type] = wrapCheck(nodeType, fns[type]);
}
delete visitor[nodeType];
const types = virtualTypes[nodeType];
if (types !== null) {
for (const type of types) {
if (visitor[type]) {
mergePair(visitor[type], fns);
} else {
visitor[type] = fns;
}
}
} else {
mergePair(visitor, fns);
}
}
for (const nodeType of Object.keys(visitor)) {
if (shouldIgnoreKey(nodeType)) continue;
let aliases = FLIPPED_ALIAS_KEYS[nodeType];
if (nodeType in DEPRECATED_KEYS) {
const deprecatedKey = DEPRECATED_KEYS[nodeType];
deprecationWarning(nodeType, deprecatedKey, "Visitor ");
aliases = [deprecatedKey];
} else if (nodeType in DEPRECATED_ALIASES) {
const deprecatedAlias = DEPRECATED_ALIASES[nodeType];
deprecationWarning(nodeType, deprecatedAlias, "Visitor ");
aliases = FLIPPED_ALIAS_KEYS[deprecatedAlias];
}
if (!aliases) continue;
const fns = visitor[nodeType];
delete visitor[nodeType];
for (const alias of aliases) {
const existing = visitor[alias];
if (existing) {
mergePair(existing, fns);
} else {
visitor[alias] = Object.assign({}, fns);
}
}
}
for (const nodeType of Object.keys(visitor)) {
if (shouldIgnoreKey(nodeType)) continue;
ensureCallbackArrays(visitor[nodeType]);
}
return visitor;
}
function verify$1(visitor) {
if (visitor._verified) return;
if (typeof visitor === "function") {
throw new Error("You passed `traverse()` a function when it expected a visitor object, " + "are you sure you didn't mean `{ enter: Function }`?");
}
for (const nodeType of Object.keys(visitor)) {
if (nodeType === "enter" || nodeType === "exit") {
validateVisitorMethods(nodeType, visitor[nodeType]);
}
if (shouldIgnoreKey(nodeType)) continue;
if (!TYPES.includes(nodeType)) {
throw new Error(`You gave us a visitor for the node type ${nodeType} but it's not a valid type in @babel/traverse ${"7.26.10"}`);
}
const visitors = visitor[nodeType];
if (typeof visitors === "object") {
for (const visitorKey of Object.keys(visitors)) {
if (visitorKey === "enter" || visitorKey === "exit") {
validateVisitorMethods(`${nodeType}.${visitorKey}`, visitors[visitorKey]);
} else {
throw new Error("You passed `traverse()` a visitor object with the property " + `${nodeType} that has the invalid property ${visitorKey}`);
}
}
}
}
visitor._verified = true;
}
function validateVisitorMethods(path, val) {
const fns = [].concat(val);
for (const fn of fns) {
if (typeof fn !== "function") {
throw new TypeError(`Non-function found defined in ${path} with type ${typeof fn}`);
}
}
}
function merge(visitors, states = [], wrapper) {
const mergedVisitor = {
_verified: true,
_exploded: true
};
{
Object.defineProperty(mergedVisitor, "_exploded", {
enumerable: false
});
Object.defineProperty(mergedVisitor, "_verified", {
enumerable: false
});
}
for (let i = 0; i < visitors.length; i++) {
const visitor = explode$1(visitors[i]);
const state = states[i];
let topVisitor = visitor;
if (state || wrapper) {
topVisitor = wrapWithStateOrWrapper(topVisitor, state, wrapper);
}
mergePair(mergedVisitor, topVisitor);
for (const key of Object.keys(visitor)) {
if (shouldIgnoreKey(key)) continue;
let typeVisitor = visitor[key];
if (state || wrapper) {
typeVisitor = wrapWithStateOrWrapper(typeVisitor, state, wrapper);
}
const nodeVisitor = mergedVisitor[key] || (mergedVisitor[key] = {});
mergePair(nodeVisitor, typeVisitor);
}
}
return mergedVisitor;
}
function wrapWithStateOrWrapper(oldVisitor, state, wrapper) {
const newVisitor = {};
for (const phase of ["enter", "exit"]) {
let fns = oldVisitor[phase];
if (!Array.isArray(fns)) continue;
fns = fns.map(function (fn) {
let newFn = fn;
if (state) {
newFn = function (path) {
fn.call(state, path, state);
};
}
if (wrapper) {
newFn = wrapper(state == null ? void 0 : state.key, phase, newFn);
}
if (newFn !== fn) {
newFn.toString = () => fn.toString();
}
return newFn;
});
newVisitor[phase] = fns;
}
return newVisitor;
}
function ensureEntranceObjects(obj) {
for (const key of Object.keys(obj)) {
if (shouldIgnoreKey(key)) continue;
const fns = obj[key];
if (typeof fns === "function") {
obj[key] = {
enter: fns
};
}
}
}
function ensureCallbackArrays(obj) {
if (obj.enter && !Array.isArray(obj.enter)) obj.enter = [obj.enter];
if (obj.exit && !Array.isArray(obj.exit)) obj.exit = [obj.exit];
}
function wrapCheck(nodeType, fn) {
const fnKey = `is${nodeType}`;
const validator = virtualTypesValidators[fnKey];
const newFn = function (path) {
if (validator.call(path)) {
return fn.apply(this, arguments);
}
};
newFn.toString = () => fn.toString();
return newFn;
}
function shouldIgnoreKey(key) {
if (key[0] === "_") return true;
if (key === "enter" || key === "exit" || key === "shouldSkip") return true;
if (key === "denylist" || key === "noScope" || key === "skipKeys") {
return true;
}
{
if (key === "blacklist") {
return true;
}
}
return false;
}
function mergePair(dest, src) {
for (const phase of ["enter", "exit"]) {
if (!src[phase]) continue;
dest[phase] = [].concat(dest[phase] || [], src[phase]);
}
}
const _environmentVisitor = {
FunctionParent(path) {
if (path.isArrowFunctionExpression()) return;
path.skip();
if (path.isMethod()) {
if (!path.requeueComputedKeyAndDecorators) {
_context.requeueComputedKeyAndDecorators.call(path);
} else {
path.requeueComputedKeyAndDecorators();
}
}
},
Property(path) {
if (path.isObjectProperty()) return;
path.skip();
if (!path.requeueComputedKeyAndDecorators) {
_context.requeueComputedKeyAndDecorators.call(path);
} else {
path.requeueComputedKeyAndDecorators();
}
}
};
function environmentVisitor(visitor) {
return merge([_environmentVisitor, visitor]);
}
//# sourceMappingURL=visitors.js.map

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(The MIT License)
Copyright (c) 2014-2017 TJ Holowaychuk <tj@vision-media.ca>
Copyright (c) 2018-2021 Josh Junon
Permission is hereby granted, free of charge, to any person obtaining a copy of this software
and associated documentation files (the 'Software'), to deal in the Software without restriction,
including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense,
and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so,
subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial
portions of the Software.
THE SOFTWARE IS PROVIDED 'AS IS', WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT
LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

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# debug
[![OpenCollective](https://opencollective.com/debug/backers/badge.svg)](#backers)
[![OpenCollective](https://opencollective.com/debug/sponsors/badge.svg)](#sponsors)
<img width="647" src="https://user-images.githubusercontent.com/71256/29091486-fa38524c-7c37-11e7-895f-e7ec8e1039b6.png">
A tiny JavaScript debugging utility modelled after Node.js core's debugging
technique. Works in Node.js and web browsers.
## Installation
```bash
$ npm install debug
```
## Usage
`debug` exposes a function; simply pass this function the name of your module, and it will return a decorated version of `console.error` for you to pass debug statements to. This will allow you to toggle the debug output for different parts of your module as well as the module as a whole.
Example [_app.js_](./examples/node/app.js):
```js
var debug = require('debug')('http')
, http = require('http')
, name = 'My App';
// fake app
debug('booting %o', name);
http.createServer(function(req, res){
debug(req.method + ' ' + req.url);
res.end('hello\n');
}).listen(3000, function(){
debug('listening');
});
// fake worker of some kind
require('./worker');
```
Example [_worker.js_](./examples/node/worker.js):
```js
var a = require('debug')('worker:a')
, b = require('debug')('worker:b');
function work() {
a('doing lots of uninteresting work');
setTimeout(work, Math.random() * 1000);
}
work();
function workb() {
b('doing some work');
setTimeout(workb, Math.random() * 2000);
}
workb();
```
The `DEBUG` environment variable is then used to enable these based on space or
comma-delimited names.
Here are some examples:
<img width="647" alt="screen shot 2017-08-08 at 12 53 04 pm" src="https://user-images.githubusercontent.com/71256/29091703-a6302cdc-7c38-11e7-8304-7c0b3bc600cd.png">
<img width="647" alt="screen shot 2017-08-08 at 12 53 38 pm" src="https://user-images.githubusercontent.com/71256/29091700-a62a6888-7c38-11e7-800b-db911291ca2b.png">
<img width="647" alt="screen shot 2017-08-08 at 12 53 25 pm" src="https://user-images.githubusercontent.com/71256/29091701-a62ea114-7c38-11e7-826a-2692bedca740.png">
#### Windows command prompt notes
##### CMD
On Windows the environment variable is set using the `set` command.
```cmd
set DEBUG=*,-not_this
```
Example:
```cmd
set DEBUG=* & node app.js
```
##### PowerShell (VS Code default)
PowerShell uses different syntax to set environment variables.
```cmd
$env:DEBUG = "*,-not_this"
```
Example:
```cmd
$env:DEBUG='app';node app.js
```
Then, run the program to be debugged as usual.
npm script example:
```js
"windowsDebug": "@powershell -Command $env:DEBUG='*';node app.js",
```
## Namespace Colors
Every debug instance has a color generated for it based on its namespace name.
This helps when visually parsing the debug output to identify which debug instance
a debug line belongs to.
#### Node.js
In Node.js, colors are enabled when stderr is a TTY. You also _should_ install
the [`supports-color`](https://npmjs.org/supports-color) module alongside debug,
otherwise debug will only use a small handful of basic colors.
<img width="521" src="https://user-images.githubusercontent.com/71256/29092181-47f6a9e6-7c3a-11e7-9a14-1928d8a711cd.png">
#### Web Browser
Colors are also enabled on "Web Inspectors" that understand the `%c` formatting
option. These are WebKit web inspectors, Firefox ([since version
31](https://hacks.mozilla.org/2014/05/editable-box-model-multiple-selection-sublime-text-keys-much-more-firefox-developer-tools-episode-31/))
and the Firebug plugin for Firefox (any version).
<img width="524" src="https://user-images.githubusercontent.com/71256/29092033-b65f9f2e-7c39-11e7-8e32-f6f0d8e865c1.png">
## Millisecond diff
When actively developing an application it can be useful to see when the time spent between one `debug()` call and the next. Suppose for example you invoke `debug()` before requesting a resource, and after as well, the "+NNNms" will show you how much time was spent between calls.
<img width="647" src="https://user-images.githubusercontent.com/71256/29091486-fa38524c-7c37-11e7-895f-e7ec8e1039b6.png">
When stdout is not a TTY, `Date#toISOString()` is used, making it more useful for logging the debug information as shown below:
<img width="647" src="https://user-images.githubusercontent.com/71256/29091956-6bd78372-7c39-11e7-8c55-c948396d6edd.png">
## Conventions
If you're using this in one or more of your libraries, you _should_ use the name of your library so that developers may toggle debugging as desired without guessing names. If you have more than one debuggers you _should_ prefix them with your library name and use ":" to separate features. For example "bodyParser" from Connect would then be "connect:bodyParser". If you append a "*" to the end of your name, it will always be enabled regardless of the setting of the DEBUG environment variable. You can then use it for normal output as well as debug output.
## Wildcards
The `*` character may be used as a wildcard. Suppose for example your library has
debuggers named "connect:bodyParser", "connect:compress", "connect:session",
instead of listing all three with
`DEBUG=connect:bodyParser,connect:compress,connect:session`, you may simply do
`DEBUG=connect:*`, or to run everything using this module simply use `DEBUG=*`.
You can also exclude specific debuggers by prefixing them with a "-" character.
For example, `DEBUG=*,-connect:*` would include all debuggers except those
starting with "connect:".
## Environment Variables
When running through Node.js, you can set a few environment variables that will
change the behavior of the debug logging:
| Name | Purpose |
|-----------|-------------------------------------------------|
| `DEBUG` | Enables/disables specific debugging namespaces. |
| `DEBUG_HIDE_DATE` | Hide date from debug output (non-TTY). |
| `DEBUG_COLORS`| Whether or not to use colors in the debug output. |
| `DEBUG_DEPTH` | Object inspection depth. |
| `DEBUG_SHOW_HIDDEN` | Shows hidden properties on inspected objects. |
__Note:__ The environment variables beginning with `DEBUG_` end up being
converted into an Options object that gets used with `%o`/`%O` formatters.
See the Node.js documentation for
[`util.inspect()`](https://nodejs.org/api/util.html#util_util_inspect_object_options)
for the complete list.
## Formatters
Debug uses [printf-style](https://wikipedia.org/wiki/Printf_format_string) formatting.
Below are the officially supported formatters:
| Formatter | Representation |
|-----------|----------------|
| `%O` | Pretty-print an Object on multiple lines. |
| `%o` | Pretty-print an Object all on a single line. |
| `%s` | String. |
| `%d` | Number (both integer and float). |
| `%j` | JSON. Replaced with the string '[Circular]' if the argument contains circular references. |
| `%%` | Single percent sign ('%'). This does not consume an argument. |
### Custom formatters
You can add custom formatters by extending the `debug.formatters` object.
For example, if you wanted to add support for rendering a Buffer as hex with
`%h`, you could do something like:
```js
const createDebug = require('debug')
createDebug.formatters.h = (v) => {
return v.toString('hex')
}
// …elsewhere
const debug = createDebug('foo')
debug('this is hex: %h', new Buffer('hello world'))
// foo this is hex: 68656c6c6f20776f726c6421 +0ms
```
## Browser Support
You can build a browser-ready script using [browserify](https://github.com/substack/node-browserify),
or just use the [browserify-as-a-service](https://wzrd.in/) [build](https://wzrd.in/standalone/debug@latest),
if you don't want to build it yourself.
Debug's enable state is currently persisted by `localStorage`.
Consider the situation shown below where you have `worker:a` and `worker:b`,
and wish to debug both. You can enable this using `localStorage.debug`:
```js
localStorage.debug = 'worker:*'
```
And then refresh the page.
```js
a = debug('worker:a');
b = debug('worker:b');
setInterval(function(){
a('doing some work');
}, 1000);
setInterval(function(){
b('doing some work');
}, 1200);
```
In Chromium-based web browsers (e.g. Brave, Chrome, and Electron), the JavaScript console will—by default—only show messages logged by `debug` if the "Verbose" log level is _enabled_.
<img width="647" src="https://user-images.githubusercontent.com/7143133/152083257-29034707-c42c-4959-8add-3cee850e6fcf.png">
## Output streams
By default `debug` will log to stderr, however this can be configured per-namespace by overriding the `log` method:
Example [_stdout.js_](./examples/node/stdout.js):
```js
var debug = require('debug');
var error = debug('app:error');
// by default stderr is used
error('goes to stderr!');
var log = debug('app:log');
// set this namespace to log via console.log
log.log = console.log.bind(console); // don't forget to bind to console!
log('goes to stdout');
error('still goes to stderr!');
// set all output to go via console.info
// overrides all per-namespace log settings
debug.log = console.info.bind(console);
error('now goes to stdout via console.info');
log('still goes to stdout, but via console.info now');
```
## Extend
You can simply extend debugger
```js
const log = require('debug')('auth');
//creates new debug instance with extended namespace
const logSign = log.extend('sign');
const logLogin = log.extend('login');
log('hello'); // auth hello
logSign('hello'); //auth:sign hello
logLogin('hello'); //auth:login hello
```
## Set dynamically
You can also enable debug dynamically by calling the `enable()` method :
```js
let debug = require('debug');
console.log(1, debug.enabled('test'));
debug.enable('test');
console.log(2, debug.enabled('test'));
debug.disable();
console.log(3, debug.enabled('test'));
```
print :
```
1 false
2 true
3 false
```
Usage :
`enable(namespaces)`
`namespaces` can include modes separated by a colon and wildcards.
Note that calling `enable()` completely overrides previously set DEBUG variable :
```
$ DEBUG=foo node -e 'var dbg = require("debug"); dbg.enable("bar"); console.log(dbg.enabled("foo"))'
=> false
```
`disable()`
Will disable all namespaces. The functions returns the namespaces currently
enabled (and skipped). This can be useful if you want to disable debugging
temporarily without knowing what was enabled to begin with.
For example:
```js
let debug = require('debug');
debug.enable('foo:*,-foo:bar');
let namespaces = debug.disable();
debug.enable(namespaces);
```
Note: There is no guarantee that the string will be identical to the initial
enable string, but semantically they will be identical.
## Checking whether a debug target is enabled
After you've created a debug instance, you can determine whether or not it is
enabled by checking the `enabled` property:
```javascript
const debug = require('debug')('http');
if (debug.enabled) {
// do stuff...
}
```
You can also manually toggle this property to force the debug instance to be
enabled or disabled.
## Usage in child processes
Due to the way `debug` detects if the output is a TTY or not, colors are not shown in child processes when `stderr` is piped. A solution is to pass the `DEBUG_COLORS=1` environment variable to the child process.
For example:
```javascript
worker = fork(WORKER_WRAP_PATH, [workerPath], {
stdio: [
/* stdin: */ 0,
/* stdout: */ 'pipe',
/* stderr: */ 'pipe',
'ipc',
],
env: Object.assign({}, process.env, {
DEBUG_COLORS: 1 // without this settings, colors won't be shown
}),
});
worker.stderr.pipe(process.stderr, { end: false });
```
## Authors
- TJ Holowaychuk
- Nathan Rajlich
- Andrew Rhyne
- Josh Junon
## Backers
Support us with a monthly donation and help us continue our activities. [[Become a backer](https://opencollective.com/debug#backer)]
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## Sponsors
Become a sponsor and get your logo on our README on Github with a link to your site. [[Become a sponsor](https://opencollective.com/debug#sponsor)]
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## License
(The MIT License)
Copyright (c) 2014-2017 TJ Holowaychuk &lt;tj@vision-media.ca&gt;
Copyright (c) 2018-2021 Josh Junon
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
'Software'), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED 'AS IS', WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

65
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@ -0,0 +1,65 @@
{
"name": "debug",
"version": "4.4.0",
"repository": {
"type": "git",
"url": "git://github.com/debug-js/debug.git"
},
"description": "Lightweight debugging utility for Node.js and the browser",
"keywords": [
"debug",
"log",
"debugger"
],
"files": [
"src",
"LICENSE",
"README.md"
],
"author": "Josh Junon (https://github.com/qix-)",
"contributors": [
"TJ Holowaychuk <tj@vision-media.ca>",
"Nathan Rajlich <nathan@tootallnate.net> (http://n8.io)",
"Andrew Rhyne <rhyneandrew@gmail.com>"
],
"license": "MIT",
"scripts": {
"lint": "xo",
"test": "npm run test:node && npm run test:browser && npm run lint",
"test:node": "istanbul cover _mocha -- test.js test.node.js",
"test:browser": "karma start --single-run",
"test:coverage": "cat ./coverage/lcov.info | coveralls"
},
"dependencies": {
"ms": "^2.1.3"
},
"devDependencies": {
"brfs": "^2.0.1",
"browserify": "^16.2.3",
"coveralls": "^3.0.2",
"istanbul": "^0.4.5",
"karma": "^3.1.4",
"karma-browserify": "^6.0.0",
"karma-chrome-launcher": "^2.2.0",
"karma-mocha": "^1.3.0",
"mocha": "^5.2.0",
"mocha-lcov-reporter": "^1.2.0",
"sinon": "^14.0.0",
"xo": "^0.23.0"
},
"peerDependenciesMeta": {
"supports-color": {
"optional": true
}
},
"main": "./src/index.js",
"browser": "./src/browser.js",
"engines": {
"node": ">=6.0"
},
"xo": {
"rules": {
"import/extensions": "off"
}
}
}

272
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/* eslint-env browser */
/**
* This is the web browser implementation of `debug()`.
*/
exports.formatArgs = formatArgs;
exports.save = save;
exports.load = load;
exports.useColors = useColors;
exports.storage = localstorage();
exports.destroy = (() => {
let warned = false;
return () => {
if (!warned) {
warned = true;
console.warn('Instance method `debug.destroy()` is deprecated and no longer does anything. It will be removed in the next major version of `debug`.');
}
};
})();
/**
* Colors.
*/
exports.colors = [
'#0000CC',
'#0000FF',
'#0033CC',
'#0033FF',
'#0066CC',
'#0066FF',
'#0099CC',
'#0099FF',
'#00CC00',
'#00CC33',
'#00CC66',
'#00CC99',
'#00CCCC',
'#00CCFF',
'#3300CC',
'#3300FF',
'#3333CC',
'#3333FF',
'#3366CC',
'#3366FF',
'#3399CC',
'#3399FF',
'#33CC00',
'#33CC33',
'#33CC66',
'#33CC99',
'#33CCCC',
'#33CCFF',
'#6600CC',
'#6600FF',
'#6633CC',
'#6633FF',
'#66CC00',
'#66CC33',
'#9900CC',
'#9900FF',
'#9933CC',
'#9933FF',
'#99CC00',
'#99CC33',
'#CC0000',
'#CC0033',
'#CC0066',
'#CC0099',
'#CC00CC',
'#CC00FF',
'#CC3300',
'#CC3333',
'#CC3366',
'#CC3399',
'#CC33CC',
'#CC33FF',
'#CC6600',
'#CC6633',
'#CC9900',
'#CC9933',
'#CCCC00',
'#CCCC33',
'#FF0000',
'#FF0033',
'#FF0066',
'#FF0099',
'#FF00CC',
'#FF00FF',
'#FF3300',
'#FF3333',
'#FF3366',
'#FF3399',
'#FF33CC',
'#FF33FF',
'#FF6600',
'#FF6633',
'#FF9900',
'#FF9933',
'#FFCC00',
'#FFCC33'
];
/**
* Currently only WebKit-based Web Inspectors, Firefox >= v31,
* and the Firebug extension (any Firefox version) are known
* to support "%c" CSS customizations.
*
* TODO: add a `localStorage` variable to explicitly enable/disable colors
*/
// eslint-disable-next-line complexity
function useColors() {
// NB: In an Electron preload script, document will be defined but not fully
// initialized. Since we know we're in Chrome, we'll just detect this case
// explicitly
if (typeof window !== 'undefined' && window.process && (window.process.type === 'renderer' || window.process.__nwjs)) {
return true;
}
// Internet Explorer and Edge do not support colors.
if (typeof navigator !== 'undefined' && navigator.userAgent && navigator.userAgent.toLowerCase().match(/(edge|trident)\/(\d+)/)) {
return false;
}
let m;
// Is webkit? http://stackoverflow.com/a/16459606/376773
// document is undefined in react-native: https://github.com/facebook/react-native/pull/1632
// eslint-disable-next-line no-return-assign
return (typeof document !== 'undefined' && document.documentElement && document.documentElement.style && document.documentElement.style.WebkitAppearance) ||
// Is firebug? http://stackoverflow.com/a/398120/376773
(typeof window !== 'undefined' && window.console && (window.console.firebug || (window.console.exception && window.console.table))) ||
// Is firefox >= v31?
// https://developer.mozilla.org/en-US/docs/Tools/Web_Console#Styling_messages
(typeof navigator !== 'undefined' && navigator.userAgent && (m = navigator.userAgent.toLowerCase().match(/firefox\/(\d+)/)) && parseInt(m[1], 10) >= 31) ||
// Double check webkit in userAgent just in case we are in a worker
(typeof navigator !== 'undefined' && navigator.userAgent && navigator.userAgent.toLowerCase().match(/applewebkit\/(\d+)/));
}
/**
* Colorize log arguments if enabled.
*
* @api public
*/
function formatArgs(args) {
args[0] = (this.useColors ? '%c' : '') +
this.namespace +
(this.useColors ? ' %c' : ' ') +
args[0] +
(this.useColors ? '%c ' : ' ') +
'+' + module.exports.humanize(this.diff);
if (!this.useColors) {
return;
}
const c = 'color: ' + this.color;
args.splice(1, 0, c, 'color: inherit');
// The final "%c" is somewhat tricky, because there could be other
// arguments passed either before or after the %c, so we need to
// figure out the correct index to insert the CSS into
let index = 0;
let lastC = 0;
args[0].replace(/%[a-zA-Z%]/g, match => {
if (match === '%%') {
return;
}
index++;
if (match === '%c') {
// We only are interested in the *last* %c
// (the user may have provided their own)
lastC = index;
}
});
args.splice(lastC, 0, c);
}
/**
* Invokes `console.debug()` when available.
* No-op when `console.debug` is not a "function".
* If `console.debug` is not available, falls back
* to `console.log`.
*
* @api public
*/
exports.log = console.debug || console.log || (() => {});
/**
* Save `namespaces`.
*
* @param {String} namespaces
* @api private
*/
function save(namespaces) {
try {
if (namespaces) {
exports.storage.setItem('debug', namespaces);
} else {
exports.storage.removeItem('debug');
}
} catch (error) {
// Swallow
// XXX (@Qix-) should we be logging these?
}
}
/**
* Load `namespaces`.
*
* @return {String} returns the previously persisted debug modes
* @api private
*/
function load() {
let r;
try {
r = exports.storage.getItem('debug');
} catch (error) {
// Swallow
// XXX (@Qix-) should we be logging these?
}
// If debug isn't set in LS, and we're in Electron, try to load $DEBUG
if (!r && typeof process !== 'undefined' && 'env' in process) {
r = process.env.DEBUG;
}
return r;
}
/**
* Localstorage attempts to return the localstorage.
*
* This is necessary because safari throws
* when a user disables cookies/localstorage
* and you attempt to access it.
*
* @return {LocalStorage}
* @api private
*/
function localstorage() {
try {
// TVMLKit (Apple TV JS Runtime) does not have a window object, just localStorage in the global context
// The Browser also has localStorage in the global context.
return localStorage;
} catch (error) {
// Swallow
// XXX (@Qix-) should we be logging these?
}
}
module.exports = require('./common')(exports);
const {formatters} = module.exports;
/**
* Map %j to `JSON.stringify()`, since no Web Inspectors do that by default.
*/
formatters.j = function (v) {
try {
return JSON.stringify(v);
} catch (error) {
return '[UnexpectedJSONParseError]: ' + error.message;
}
};

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/**
* This is the common logic for both the Node.js and web browser
* implementations of `debug()`.
*/
function setup(env) {
createDebug.debug = createDebug;
createDebug.default = createDebug;
createDebug.coerce = coerce;
createDebug.disable = disable;
createDebug.enable = enable;
createDebug.enabled = enabled;
createDebug.humanize = require('ms');
createDebug.destroy = destroy;
Object.keys(env).forEach(key => {
createDebug[key] = env[key];
});
/**
* The currently active debug mode names, and names to skip.
*/
createDebug.names = [];
createDebug.skips = [];
/**
* Map of special "%n" handling functions, for the debug "format" argument.
*
* Valid key names are a single, lower or upper-case letter, i.e. "n" and "N".
*/
createDebug.formatters = {};
/**
* Selects a color for a debug namespace
* @param {String} namespace The namespace string for the debug instance to be colored
* @return {Number|String} An ANSI color code for the given namespace
* @api private
*/
function selectColor(namespace) {
let hash = 0;
for (let i = 0; i < namespace.length; i++) {
hash = ((hash << 5) - hash) + namespace.charCodeAt(i);
hash |= 0; // Convert to 32bit integer
}
return createDebug.colors[Math.abs(hash) % createDebug.colors.length];
}
createDebug.selectColor = selectColor;
/**
* Create a debugger with the given `namespace`.
*
* @param {String} namespace
* @return {Function}
* @api public
*/
function createDebug(namespace) {
let prevTime;
let enableOverride = null;
let namespacesCache;
let enabledCache;
function debug(...args) {
// Disabled?
if (!debug.enabled) {
return;
}
const self = debug;
// Set `diff` timestamp
const curr = Number(new Date());
const ms = curr - (prevTime || curr);
self.diff = ms;
self.prev = prevTime;
self.curr = curr;
prevTime = curr;
args[0] = createDebug.coerce(args[0]);
if (typeof args[0] !== 'string') {
// Anything else let's inspect with %O
args.unshift('%O');
}
// Apply any `formatters` transformations
let index = 0;
args[0] = args[0].replace(/%([a-zA-Z%])/g, (match, format) => {
// If we encounter an escaped % then don't increase the array index
if (match === '%%') {
return '%';
}
index++;
const formatter = createDebug.formatters[format];
if (typeof formatter === 'function') {
const val = args[index];
match = formatter.call(self, val);
// Now we need to remove `args[index]` since it's inlined in the `format`
args.splice(index, 1);
index--;
}
return match;
});
// Apply env-specific formatting (colors, etc.)
createDebug.formatArgs.call(self, args);
const logFn = self.log || createDebug.log;
logFn.apply(self, args);
}
debug.namespace = namespace;
debug.useColors = createDebug.useColors();
debug.color = createDebug.selectColor(namespace);
debug.extend = extend;
debug.destroy = createDebug.destroy; // XXX Temporary. Will be removed in the next major release.
Object.defineProperty(debug, 'enabled', {
enumerable: true,
configurable: false,
get: () => {
if (enableOverride !== null) {
return enableOverride;
}
if (namespacesCache !== createDebug.namespaces) {
namespacesCache = createDebug.namespaces;
enabledCache = createDebug.enabled(namespace);
}
return enabledCache;
},
set: v => {
enableOverride = v;
}
});
// Env-specific initialization logic for debug instances
if (typeof createDebug.init === 'function') {
createDebug.init(debug);
}
return debug;
}
function extend(namespace, delimiter) {
const newDebug = createDebug(this.namespace + (typeof delimiter === 'undefined' ? ':' : delimiter) + namespace);
newDebug.log = this.log;
return newDebug;
}
/**
* Enables a debug mode by namespaces. This can include modes
* separated by a colon and wildcards.
*
* @param {String} namespaces
* @api public
*/
function enable(namespaces) {
createDebug.save(namespaces);
createDebug.namespaces = namespaces;
createDebug.names = [];
createDebug.skips = [];
const split = (typeof namespaces === 'string' ? namespaces : '')
.trim()
.replace(' ', ',')
.split(',')
.filter(Boolean);
for (const ns of split) {
if (ns[0] === '-') {
createDebug.skips.push(ns.slice(1));
} else {
createDebug.names.push(ns);
}
}
}
/**
* Checks if the given string matches a namespace template, honoring
* asterisks as wildcards.
*
* @param {String} search
* @param {String} template
* @return {Boolean}
*/
function matchesTemplate(search, template) {
let searchIndex = 0;
let templateIndex = 0;
let starIndex = -1;
let matchIndex = 0;
while (searchIndex < search.length) {
if (templateIndex < template.length && (template[templateIndex] === search[searchIndex] || template[templateIndex] === '*')) {
// Match character or proceed with wildcard
if (template[templateIndex] === '*') {
starIndex = templateIndex;
matchIndex = searchIndex;
templateIndex++; // Skip the '*'
} else {
searchIndex++;
templateIndex++;
}
} else if (starIndex !== -1) { // eslint-disable-line no-negated-condition
// Backtrack to the last '*' and try to match more characters
templateIndex = starIndex + 1;
matchIndex++;
searchIndex = matchIndex;
} else {
return false; // No match
}
}
// Handle trailing '*' in template
while (templateIndex < template.length && template[templateIndex] === '*') {
templateIndex++;
}
return templateIndex === template.length;
}
/**
* Disable debug output.
*
* @return {String} namespaces
* @api public
*/
function disable() {
const namespaces = [
...createDebug.names,
...createDebug.skips.map(namespace => '-' + namespace)
].join(',');
createDebug.enable('');
return namespaces;
}
/**
* Returns true if the given mode name is enabled, false otherwise.
*
* @param {String} name
* @return {Boolean}
* @api public
*/
function enabled(name) {
for (const skip of createDebug.skips) {
if (matchesTemplate(name, skip)) {
return false;
}
}
for (const ns of createDebug.names) {
if (matchesTemplate(name, ns)) {
return true;
}
}
return false;
}
/**
* Coerce `val`.
*
* @param {Mixed} val
* @return {Mixed}
* @api private
*/
function coerce(val) {
if (val instanceof Error) {
return val.stack || val.message;
}
return val;
}
/**
* XXX DO NOT USE. This is a temporary stub function.
* XXX It WILL be removed in the next major release.
*/
function destroy() {
console.warn('Instance method `debug.destroy()` is deprecated and no longer does anything. It will be removed in the next major version of `debug`.');
}
createDebug.enable(createDebug.load());
return createDebug;
}
module.exports = setup;

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/**
* Detect Electron renderer / nwjs process, which is node, but we should
* treat as a browser.
*/
if (typeof process === 'undefined' || process.type === 'renderer' || process.browser === true || process.__nwjs) {
module.exports = require('./browser.js');
} else {
module.exports = require('./node.js');
}

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/**
* Module dependencies.
*/
const tty = require('tty');
const util = require('util');
/**
* This is the Node.js implementation of `debug()`.
*/
exports.init = init;
exports.log = log;
exports.formatArgs = formatArgs;
exports.save = save;
exports.load = load;
exports.useColors = useColors;
exports.destroy = util.deprecate(
() => {},
'Instance method `debug.destroy()` is deprecated and no longer does anything. It will be removed in the next major version of `debug`.'
);
/**
* Colors.
*/
exports.colors = [6, 2, 3, 4, 5, 1];
try {
// Optional dependency (as in, doesn't need to be installed, NOT like optionalDependencies in package.json)
// eslint-disable-next-line import/no-extraneous-dependencies
const supportsColor = require('supports-color');
if (supportsColor && (supportsColor.stderr || supportsColor).level >= 2) {
exports.colors = [
20,
21,
26,
27,
32,
33,
38,
39,
40,
41,
42,
43,
44,
45,
56,
57,
62,
63,
68,
69,
74,
75,
76,
77,
78,
79,
80,
81,
92,
93,
98,
99,
112,
113,
128,
129,
134,
135,
148,
149,
160,
161,
162,
163,
164,
165,
166,
167,
168,
169,
170,
171,
172,
173,
178,
179,
184,
185,
196,
197,
198,
199,
200,
201,
202,
203,
204,
205,
206,
207,
208,
209,
214,
215,
220,
221
];
}
} catch (error) {
// Swallow - we only care if `supports-color` is available; it doesn't have to be.
}
/**
* Build up the default `inspectOpts` object from the environment variables.
*
* $ DEBUG_COLORS=no DEBUG_DEPTH=10 DEBUG_SHOW_HIDDEN=enabled node script.js
*/
exports.inspectOpts = Object.keys(process.env).filter(key => {
return /^debug_/i.test(key);
}).reduce((obj, key) => {
// Camel-case
const prop = key
.substring(6)
.toLowerCase()
.replace(/_([a-z])/g, (_, k) => {
return k.toUpperCase();
});
// Coerce string value into JS value
let val = process.env[key];
if (/^(yes|on|true|enabled)$/i.test(val)) {
val = true;
} else if (/^(no|off|false|disabled)$/i.test(val)) {
val = false;
} else if (val === 'null') {
val = null;
} else {
val = Number(val);
}
obj[prop] = val;
return obj;
}, {});
/**
* Is stdout a TTY? Colored output is enabled when `true`.
*/
function useColors() {
return 'colors' in exports.inspectOpts ?
Boolean(exports.inspectOpts.colors) :
tty.isatty(process.stderr.fd);
}
/**
* Adds ANSI color escape codes if enabled.
*
* @api public
*/
function formatArgs(args) {
const {namespace: name, useColors} = this;
if (useColors) {
const c = this.color;
const colorCode = '\u001B[3' + (c < 8 ? c : '8;5;' + c);
const prefix = ` ${colorCode};1m${name} \u001B[0m`;
args[0] = prefix + args[0].split('\n').join('\n' + prefix);
args.push(colorCode + 'm+' + module.exports.humanize(this.diff) + '\u001B[0m');
} else {
args[0] = getDate() + name + ' ' + args[0];
}
}
function getDate() {
if (exports.inspectOpts.hideDate) {
return '';
}
return new Date().toISOString() + ' ';
}
/**
* Invokes `util.formatWithOptions()` with the specified arguments and writes to stderr.
*/
function log(...args) {
return process.stderr.write(util.formatWithOptions(exports.inspectOpts, ...args) + '\n');
}
/**
* Save `namespaces`.
*
* @param {String} namespaces
* @api private
*/
function save(namespaces) {
if (namespaces) {
process.env.DEBUG = namespaces;
} else {
// If you set a process.env field to null or undefined, it gets cast to the
// string 'null' or 'undefined'. Just delete instead.
delete process.env.DEBUG;
}
}
/**
* Load `namespaces`.
*
* @return {String} returns the previously persisted debug modes
* @api private
*/
function load() {
return process.env.DEBUG;
}
/**
* Init logic for `debug` instances.
*
* Create a new `inspectOpts` object in case `useColors` is set
* differently for a particular `debug` instance.
*/
function init(debug) {
debug.inspectOpts = {};
const keys = Object.keys(exports.inspectOpts);
for (let i = 0; i < keys.length; i++) {
debug.inspectOpts[keys[i]] = exports.inspectOpts[keys[i]];
}
}
module.exports = require('./common')(exports);
const {formatters} = module.exports;
/**
* Map %o to `util.inspect()`, all on a single line.
*/
formatters.o = function (v) {
this.inspectOpts.colors = this.useColors;
return util.inspect(v, this.inspectOpts)
.split('\n')
.map(str => str.trim())
.join(' ');
};
/**
* Map %O to `util.inspect()`, allowing multiple lines if needed.
*/
formatters.O = function (v) {
this.inspectOpts.colors = this.useColors;
return util.inspect(v, this.inspectOpts);
};

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/**
* Helpers.
*/
var s = 1000;
var m = s * 60;
var h = m * 60;
var d = h * 24;
var w = d * 7;
var y = d * 365.25;
/**
* Parse or format the given `val`.
*
* Options:
*
* - `long` verbose formatting [false]
*
* @param {String|Number} val
* @param {Object} [options]
* @throws {Error} throw an error if val is not a non-empty string or a number
* @return {String|Number}
* @api public
*/
module.exports = function (val, options) {
options = options || {};
var type = typeof val;
if (type === 'string' && val.length > 0) {
return parse(val);
} else if (type === 'number' && isFinite(val)) {
return options.long ? fmtLong(val) : fmtShort(val);
}
throw new Error(
'val is not a non-empty string or a valid number. val=' +
JSON.stringify(val)
);
};
/**
* Parse the given `str` and return milliseconds.
*
* @param {String} str
* @return {Number}
* @api private
*/
function parse(str) {
str = String(str);
if (str.length > 100) {
return;
}
var match = /^(-?(?:\d+)?\.?\d+) *(milliseconds?|msecs?|ms|seconds?|secs?|s|minutes?|mins?|m|hours?|hrs?|h|days?|d|weeks?|w|years?|yrs?|y)?$/i.exec(
str
);
if (!match) {
return;
}
var n = parseFloat(match[1]);
var type = (match[2] || 'ms').toLowerCase();
switch (type) {
case 'years':
case 'year':
case 'yrs':
case 'yr':
case 'y':
return n * y;
case 'weeks':
case 'week':
case 'w':
return n * w;
case 'days':
case 'day':
case 'd':
return n * d;
case 'hours':
case 'hour':
case 'hrs':
case 'hr':
case 'h':
return n * h;
case 'minutes':
case 'minute':
case 'mins':
case 'min':
case 'm':
return n * m;
case 'seconds':
case 'second':
case 'secs':
case 'sec':
case 's':
return n * s;
case 'milliseconds':
case 'millisecond':
case 'msecs':
case 'msec':
case 'ms':
return n;
default:
return undefined;
}
}
/**
* Short format for `ms`.
*
* @param {Number} ms
* @return {String}
* @api private
*/
function fmtShort(ms) {
var msAbs = Math.abs(ms);
if (msAbs >= d) {
return Math.round(ms / d) + 'd';
}
if (msAbs >= h) {
return Math.round(ms / h) + 'h';
}
if (msAbs >= m) {
return Math.round(ms / m) + 'm';
}
if (msAbs >= s) {
return Math.round(ms / s) + 's';
}
return ms + 'ms';
}
/**
* Long format for `ms`.
*
* @param {Number} ms
* @return {String}
* @api private
*/
function fmtLong(ms) {
var msAbs = Math.abs(ms);
if (msAbs >= d) {
return plural(ms, msAbs, d, 'day');
}
if (msAbs >= h) {
return plural(ms, msAbs, h, 'hour');
}
if (msAbs >= m) {
return plural(ms, msAbs, m, 'minute');
}
if (msAbs >= s) {
return plural(ms, msAbs, s, 'second');
}
return ms + ' ms';
}
/**
* Pluralization helper.
*/
function plural(ms, msAbs, n, name) {
var isPlural = msAbs >= n * 1.5;
return Math.round(ms / n) + ' ' + name + (isPlural ? 's' : '');
}

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The MIT License (MIT)
Copyright (c) 2020 Vercel, Inc.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.

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{
"name": "ms",
"version": "2.1.3",
"description": "Tiny millisecond conversion utility",
"repository": "vercel/ms",
"main": "./index",
"files": [
"index.js"
],
"scripts": {
"precommit": "lint-staged",
"lint": "eslint lib/* bin/*",
"test": "mocha tests.js"
},
"eslintConfig": {
"extends": "eslint:recommended",
"env": {
"node": true,
"es6": true
}
},
"lint-staged": {
"*.js": [
"npm run lint",
"prettier --single-quote --write",
"git add"
]
},
"license": "MIT",
"devDependencies": {
"eslint": "4.18.2",
"expect.js": "0.3.1",
"husky": "0.14.3",
"lint-staged": "5.0.0",
"mocha": "4.0.1",
"prettier": "2.0.5"
}
}

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# ms
![CI](https://github.com/vercel/ms/workflows/CI/badge.svg)
Use this package to easily convert various time formats to milliseconds.
## Examples
```js
ms('2 days') // 172800000
ms('1d') // 86400000
ms('10h') // 36000000
ms('2.5 hrs') // 9000000
ms('2h') // 7200000
ms('1m') // 60000
ms('5s') // 5000
ms('1y') // 31557600000
ms('100') // 100
ms('-3 days') // -259200000
ms('-1h') // -3600000
ms('-200') // -200
```
### Convert from Milliseconds
```js
ms(60000) // "1m"
ms(2 * 60000) // "2m"
ms(-3 * 60000) // "-3m"
ms(ms('10 hours')) // "10h"
```
### Time Format Written-Out
```js
ms(60000, { long: true }) // "1 minute"
ms(2 * 60000, { long: true }) // "2 minutes"
ms(-3 * 60000, { long: true }) // "-3 minutes"
ms(ms('10 hours'), { long: true }) // "10 hours"
```
## Features
- Works both in [Node.js](https://nodejs.org) and in the browser
- If a number is supplied to `ms`, a string with a unit is returned
- If a string that contains the number is supplied, it returns it as a number (e.g.: it returns `100` for `'100'`)
- If you pass a string with a number and a valid unit, the number of equivalent milliseconds is returned
## Related Packages
- [ms.macro](https://github.com/knpwrs/ms.macro) - Run `ms` as a macro at build-time.
## Caught a Bug?
1. [Fork](https://help.github.com/articles/fork-a-repo/) this repository to your own GitHub account and then [clone](https://help.github.com/articles/cloning-a-repository/) it to your local device
2. Link the package to the global module directory: `npm link`
3. Within the module you want to test your local development instance of ms, just link it to the dependencies: `npm link ms`. Instead of the default one from npm, Node.js will now use your clone of ms!
As always, you can run the tests using: `npm test`

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backend/apis/nodejs/node_modules/@babel/traverse/package.json generated vendored Normal file
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{
"name": "@babel/traverse",
"version": "7.26.10",
"description": "The Babel Traverse module maintains the overall tree state, and is responsible for replacing, removing, and adding nodes",
"author": "The Babel Team (https://babel.dev/team)",
"homepage": "https://babel.dev/docs/en/next/babel-traverse",
"bugs": "https://github.com/babel/babel/issues?utf8=%E2%9C%93&q=is%3Aissue+label%3A%22pkg%3A%20traverse%22+is%3Aopen",
"license": "MIT",
"publishConfig": {
"access": "public"
},
"repository": {
"type": "git",
"url": "https://github.com/babel/babel.git",
"directory": "packages/babel-traverse"
},
"main": "./lib/index.js",
"dependencies": {
"@babel/code-frame": "^7.26.2",
"@babel/generator": "^7.26.10",
"@babel/parser": "^7.26.10",
"@babel/template": "^7.26.9",
"@babel/types": "^7.26.10",
"debug": "^4.3.1",
"globals": "^11.1.0"
},
"devDependencies": {
"@babel/core": "^7.26.10",
"@babel/helper-plugin-test-runner": "^7.25.9"
},
"engines": {
"node": ">=6.9.0"
},
"type": "commonjs"
}