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Ajout de promotion et de commande

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Aubert Marvin
2026-04-25 15:28:39 +02:00
parent eddb103755
commit faa3d7718c
8428 changed files with 1126442 additions and 6 deletions
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node_modules/@babel/traverse/lib/path/ancestry.js
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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) {
if (candidateTypes.includes(path.node.type)) return true;
path = path.parentPath;
}
return false;
}
//# sourceMappingURL=ancestry.js.map
node_modules/@babel/traverse/lib/path/ancestry.js.map
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node_modules/@babel/traverse/lib/path/comments.js
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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
node_modules/@babel/traverse/lib/path/comments.js.map
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node_modules/@babel/traverse/lib/path/context.js
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports._call = _call;
exports._forceSetScope = _forceSetScope;
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 _forceSetScope() {
var _this$scope;
let path = this.parentPath;
if ((this.key === "key" || this.listKey === "decorators") && path.isMethod() || this.key === "discriminant" && path.isSwitchStatement()) {
path = path.parentPath;
}
let target;
while (path && !target) {
target = path.scope;
path = path.parentPath;
}
this.scope = this.getScope(target);
(_this$scope = this.scope) == null || _this$scope.init();
}
function setScope() {
var _this$opts2, _this$scope2;
if ((_this$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$scope2 = this.scope) == null || _this$scope2.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
node_modules/@babel/traverse/lib/path/context.js.map
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node_modules/@babel/traverse/lib/path/conversion.js
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node_modules/@babel/traverse/lib/path/conversion.js.map
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node_modules/@babel/traverse/lib/path/evaluation.js
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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;
}
if (!binding) {
deopt(path, state);
return;
}
const bindingPath = binding.path;
if (!bindingPath.isVariableDeclarator()) {
deopt(bindingPath, state);
return;
}
const initPath = bindingPath.get("init");
const value = evaluateCached(initPath, state);
if (typeof value === "object" && value !== null && binding.references > 1) {
deopt(initPath, state);
return;
}
return value;
}
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
};
}
//# sourceMappingURL=evaluation.js.map
node_modules/@babel/traverse/lib/path/evaluation.js.map
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node_modules/@babel/traverse/lib/path/family.js
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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);
if (!context.shouldPreserveBreak) {
replaceBreakStatementInBreakCompletion(statementCompletions, true);
}
}
if (!context.shouldPreserveBreak) {
replaceBreakStatementInBreakCompletion(statementCompletions, false);
}
} else {
completions.push(...statementCompletions);
if (!context.shouldPopulateBreak && !context.shouldPreserveBreak) {
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() && !pathCompletions[0].path.isEmptyStatement()) {
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,
shouldPreserveBreak: context.shouldPreserveBreak
});
} else if (path.isBreakStatement()) {
records.push(BreakCompletion(path));
} else {
records.push(NormalCompletion(path));
}
return records;
}
function getCompletionRecords(shouldPreserveBreak = false) {
const records = _getCompletionRecords(this, {
canHaveBreak: false,
shouldPopulateBreak: false,
inCaseClause: false,
shouldPreserveBreak
});
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);
}
//# sourceMappingURL=family.js.map
node_modules/@babel/traverse/lib/path/family.js.map
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node_modules/@babel/traverse/lib/path/index.js
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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._traverseFlags = 0;
this.skipKeys = null;
this.parentPath = null;
this.container = null;
this.listKey = null;
this.key = null;
this.node = null;
this.type = null;
this._store = 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(parent, parentPath);
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.startsWith("_")) continue;
if (!t.TYPES.includes(type)) t.TYPES.push(type);
}
//# sourceMappingURL=index.js.map
node_modules/@babel/traverse/lib/path/index.js.map
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node_modules/@babel/traverse/lib/path/inference/index.js
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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
});
}
//# sourceMappingURL=index.js.map
node_modules/@babel/traverse/lib/path/inference/index.js.map
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node_modules/@babel/traverse/lib/path/inference/inferer-reference.js
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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 (name == null || 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);
}
//# sourceMappingURL=inferer-reference.js.map
node_modules/@babel/traverse/lib/path/inference/inferer-reference.js.map
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node_modules/@babel/traverse/lib/path/inference/inferers.js
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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
node_modules/@babel/traverse/lib/path/inference/inferers.js.map
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node_modules/@babel/traverse/lib/path/inference/util.js
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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
node_modules/@babel/traverse/lib/path/inference/util.js.map
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node_modules/@babel/traverse/lib/path/introspection.js
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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 == null ? void 0 : 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 false;
});
return !!strictParent;
}
//# sourceMappingURL=introspection.js.map
node_modules/@babel/traverse/lib/path/introspection.js.map
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node_modules/@babel/traverse/lib/path/lib/hoister.js
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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);
return path;
}
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 attached.isVariableDeclarator() ? attached.get("init") : attached.get("declarations.0.init");
}
}
exports.default = PathHoister;
//# sourceMappingURL=hoister.js.map
node_modules/@babel/traverse/lib/path/lib/hoister.js.map
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node_modules/@babel/traverse/lib/path/lib/removal-hooks.js
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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",
directives: [],
body: []
});
return true;
}
}];
//# sourceMappingURL=removal-hooks.js.map
node_modules/@babel/traverse/lib/path/lib/removal-hooks.js.map
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node_modules/@babel/traverse/lib/path/lib/virtual-types-validator.js
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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)) {
return nodeIsReferenced(node, parent, this.parentPath.parent);
} else if (isJSXIdentifier(node, opts)) {
if (!isJSXMemberExpression(parent) && isCompatTag(node.name)) return false;
return nodeIsReferenced(node, parent, this.parentPath.parent);
} else {
return false;
}
}
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() {
var _this$node;
return !!((_this$node = this.node) != null && _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
node_modules/@babel/traverse/lib/path/lib/virtual-types-validator.js.map
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node_modules/@babel/traverse/lib/path/lib/virtual-types.js
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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 = ["FunctionDeclaration", "ClassDeclaration", "VariableDeclaration"];
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
node_modules/@babel/traverse/lib/path/lib/virtual-types.js.map
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node_modules/@babel/traverse/lib/path/modification.js
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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);
const [blockPath] = this.replaceWith(blockStatement(shouldInsertCurrentNode ? [node] : []));
return blockPath.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);
const [blockPath] = this.replaceWith(blockStatement(shouldInsertCurrentNode ? [node] : []));
return blockPath.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);
if (!paths) return;
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 ${type}`);
}
}
return nodes;
}
function unshiftContainer(listKey, nodes) {
_removal._assertUnremoved.call(this);
const verifiedNodes = _verifyNodeList.call(this, nodes);
const container = this.node[listKey];
const path = _index.default.get({
parentPath: this,
parent: this.node,
container,
listKey,
key: 0
}).setContext(this.context);
return _containerInsertBefore.call(path, verifiedNodes);
}
function pushContainer(listKey, nodes) {
_removal._assertUnremoved.call(this);
const verifiedNodes = _verifyNodeList.call(this, nodes);
const container = this.node[listKey];
const path = _index.default.get({
parentPath: this,
parent: this.node,
container,
listKey,
key: container.length
}).setContext(this.context);
return path.replaceWithMultiple(verifiedNodes);
}
exports.hoist = function hoist(scope = this.scope) {
const hoister = new _hoister.default(this, scope);
return hoister.run();
};
//# sourceMappingURL=modification.js.map
node_modules/@babel/traverse/lib/path/modification.js.map
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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports._assertUnremoved = _assertUnremoved;
exports._callRemovalHooks = _callRemovalHooks;
exports._markRemoved = _markRemoved;
exports._remove = _remove;
exports._removeFromScope = _removeFromScope;
exports.remove = remove;
var _removalHooks = require("./lib/removal-hooks.js");
var _cache = require("../cache.js");
var _replacement = require("./replacement.js");
var _index = require("./index.js");
var t = require("@babel/types");
var _modification = require("./modification.js");
var _context = require("./context.js");
function remove() {
var _this$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 = t.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) {
var _getCachedPaths;
(_getCachedPaths = (0, _cache.getCachedPaths)(this)) == null || _getCachedPaths.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
node_modules/@babel/traverse/lib/path/removal.js.map
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node_modules/@babel/traverse/lib/path/replacement.js
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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);
const verifiedNodes = _modification._verifyNodeList.call(this, nodes);
inheritLeadingComments(verifiedNodes[0], this.node);
inheritTrailingComments(verifiedNodes[verifiedNodes.length - 1], this.node);
(_getCachedPaths = (0, _cache.getCachedPaths)(this)) == 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)) == null || _getCachedPaths2.set(node, this).delete(this.node);
this.node = 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(newCallee.node.body, "AwaitExpression", FUNCTION_TYPES);
const needToYieldFunction = isParentGenerator && _index.default.hasType(newCallee.node.body, "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
node_modules/@babel/traverse/lib/path/replacement.js.map
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