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This commit is contained in:
Arnaud Nelissen
2021-07-16 10:18:13 +02:00
commit 3af7ddab06
5894 changed files with 590836 additions and 0 deletions
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50
node_modules/mongoose/lib/helpers/aggregate/stringifyFunctionOperators.js generated vendored Normal file
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'use strict';
module.exports = function stringifyFunctionOperators(pipeline) {
if (!Array.isArray(pipeline)) {
return;
}
for (const stage of pipeline) {
if (stage == null) {
continue;
}
const canHaveAccumulator = stage.$group || stage.$bucket || stage.$bucketAuto;
if (canHaveAccumulator != null) {
for (const key of Object.keys(canHaveAccumulator)) {
handleAccumulator(canHaveAccumulator[key]);
}
}
const stageType = Object.keys(stage)[0];
if (stageType && typeof stage[stageType] === 'object') {
const stageOptions = stage[stageType];
for (const key of Object.keys(stageOptions)) {
if (stageOptions[key] != null &&
stageOptions[key].$function != null &&
typeof stageOptions[key].$function.body === 'function') {
stageOptions[key].$function.body = stageOptions[key].$function.body.toString();
}
}
}
if (stage.$facet != null) {
for (const key of Object.keys(stage.$facet)) {
stringifyFunctionOperators(stage.$facet[key]);
}
}
}
};
function handleAccumulator(operator) {
if (operator == null || operator.$accumulator == null) {
return;
}
for (const key of ['init', 'accumulate', 'merge', 'finalize']) {
if (typeof operator.$accumulator[key] === 'function') {
operator.$accumulator[key] = String(operator.$accumulator[key]);
}
}
}

33
node_modules/mongoose/lib/helpers/arrayDepth.js generated vendored Normal file
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'use strict';
module.exports = arrayDepth;
function arrayDepth(arr) {
if (!Array.isArray(arr)) {
return { min: 0, max: 0, containsNonArrayItem: true };
}
if (arr.length === 0) {
return { min: 1, max: 1, containsNonArrayItem: false };
}
if (arr.length === 1 && !Array.isArray(arr[0])) {
return { min: 1, max: 1, containsNonArrayItem: false };
}
const res = arrayDepth(arr[0]);
for (let i = 1; i < arr.length; ++i) {
const _res = arrayDepth(arr[i]);
if (_res.min < res.min) {
res.min = _res.min;
}
if (_res.max > res.max) {
res.max = _res.max;
}
res.containsNonArrayItem = res.containsNonArrayItem || _res.containsNonArrayItem;
}
res.min = res.min + 1;
res.max = res.max + 1;
return res;
}

143
node_modules/mongoose/lib/helpers/clone.js generated vendored Normal file
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'use strict';
const cloneRegExp = require('regexp-clone');
const Decimal = require('../types/decimal128');
const ObjectId = require('../types/objectid');
const specialProperties = require('./specialProperties');
const isMongooseObject = require('./isMongooseObject');
const getFunctionName = require('./getFunctionName');
const isBsonType = require('./isBsonType');
const isObject = require('./isObject');
const symbols = require('./symbols');
const utils = require('../utils');
/*!
* Object clone with Mongoose natives support.
*
* If options.minimize is true, creates a minimal data object. Empty objects and undefined values will not be cloned. This makes the data payload sent to MongoDB as small as possible.
*
* Functions are never cloned.
*
* @param {Object} obj the object to clone
* @param {Object} options
* @param {Boolean} isArrayChild true if cloning immediately underneath an array. Special case for minimize.
* @return {Object} the cloned object
* @api private
*/
function clone(obj, options, isArrayChild) {
if (obj == null) {
return obj;
}
if (Array.isArray(obj)) {
return cloneArray(obj, options);
}
if (isMongooseObject(obj)) {
// Single nested subdocs should apply getters later in `applyGetters()`
// when calling `toObject()`. See gh-7442, gh-8295
if (options && options._skipSingleNestedGetters && obj.$isSingleNested) {
options = Object.assign({}, options, { getters: false });
}
if (utils.isPOJO(obj) && obj.$__ != null && obj._doc != null) {
return obj._doc;
}
if (options && options.json && typeof obj.toJSON === 'function') {
return obj.toJSON(options);
}
return obj.toObject(options);
}
if (obj.constructor) {
switch (getFunctionName(obj.constructor)) {
case 'Object':
return cloneObject(obj, options, isArrayChild);
case 'Date':
return new obj.constructor(+obj);
case 'RegExp':
return cloneRegExp(obj);
default:
// ignore
break;
}
}
if (obj instanceof ObjectId) {
return new ObjectId(obj.id);
}
if (isBsonType(obj, 'Decimal128')) {
if (options && options.flattenDecimals) {
return obj.toJSON();
}
return Decimal.fromString(obj.toString());
}
if (!obj.constructor && isObject(obj)) {
// object created with Object.create(null)
return cloneObject(obj, options, isArrayChild);
}
if (obj[symbols.schemaTypeSymbol]) {
return obj.clone();
}
// If we're cloning this object to go into a MongoDB command,
// and there's a `toBSON()` function, assume this object will be
// stored as a primitive in MongoDB and doesn't need to be cloned.
if (options && options.bson && typeof obj.toBSON === 'function') {
return obj;
}
if (obj.valueOf != null) {
return obj.valueOf();
}
return cloneObject(obj, options, isArrayChild);
}
module.exports = clone;
/*!
* ignore
*/
function cloneObject(obj, options, isArrayChild) {
const minimize = options && options.minimize;
const ret = {};
let hasKeys;
for (const k of Object.keys(obj)) {
if (specialProperties.has(k)) {
continue;
}
// Don't pass `isArrayChild` down
const val = clone(obj[k], options);
if (!minimize || (typeof val !== 'undefined')) {
if (minimize === false && typeof val === 'undefined') {
delete ret[k];
} else {
hasKeys || (hasKeys = true);
ret[k] = val;
}
}
}
return minimize && !isArrayChild ? hasKeys && ret : ret;
}
function cloneArray(arr, options) {
const ret = [];
for (const item of arr) {
ret.push(clone(item, options, true));
}
return ret;
}

106
node_modules/mongoose/lib/helpers/common.js generated vendored Normal file
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'use strict';
/*!
* Module dependencies.
*/
const Binary = require('../driver').get().Binary;
const Decimal128 = require('../types/decimal128');
const ObjectId = require('../types/objectid');
const isMongooseObject = require('./isMongooseObject');
exports.flatten = flatten;
exports.modifiedPaths = modifiedPaths;
/*!
* ignore
*/
function flatten(update, path, options, schema) {
let keys;
if (update && isMongooseObject(update) && !Buffer.isBuffer(update)) {
keys = Object.keys(update.toObject({ transform: false, virtuals: false }));
} else {
keys = Object.keys(update || {});
}
const numKeys = keys.length;
const result = {};
path = path ? path + '.' : '';
for (let i = 0; i < numKeys; ++i) {
const key = keys[i];
const val = update[key];
result[path + key] = val;
// Avoid going into mixed paths if schema is specified
const keySchema = schema && schema.path && schema.path(path + key);
const isNested = schema && schema.nested && schema.nested[path + key];
if (keySchema && keySchema.instance === 'Mixed') continue;
if (shouldFlatten(val)) {
if (options && options.skipArrays && Array.isArray(val)) {
continue;
}
const flat = flatten(val, path + key, options, schema);
for (const k in flat) {
result[k] = flat[k];
}
if (Array.isArray(val)) {
result[path + key] = val;
}
}
if (isNested) {
const paths = Object.keys(schema.paths);
for (const p of paths) {
if (p.startsWith(path + key + '.') && !result.hasOwnProperty(p)) {
result[p] = void 0;
}
}
}
}
return result;
}
/*!
* ignore
*/
function modifiedPaths(update, path, result) {
const keys = Object.keys(update || {});
const numKeys = keys.length;
result = result || {};
path = path ? path + '.' : '';
for (let i = 0; i < numKeys; ++i) {
const key = keys[i];
let val = update[key];
result[path + key] = true;
if (isMongooseObject(val) && !Buffer.isBuffer(val)) {
val = val.toObject({ transform: false, virtuals: false });
}
if (shouldFlatten(val)) {
modifiedPaths(val, path + key, result);
}
}
return result;
}
/*!
* ignore
*/
function shouldFlatten(val) {
return val &&
typeof val === 'object' &&
!(val instanceof Date) &&
!(val instanceof ObjectId) &&
(!Array.isArray(val) || val.length > 0) &&
!(val instanceof Buffer) &&
!(val instanceof Decimal128) &&
!(val instanceof Binary);
}

157
node_modules/mongoose/lib/helpers/cursor/eachAsync.js generated vendored Normal file
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'use strict';
/*!
* Module dependencies.
*/
const immediate = require('../immediate');
const promiseOrCallback = require('../promiseOrCallback');
/**
* Execute `fn` for every document in the cursor. If `fn` returns a promise,
* will wait for the promise to resolve before iterating on to the next one.
* Returns a promise that resolves when done.
*
* @param {Function} next the thunk to call to get the next document
* @param {Function} fn
* @param {Object} options
* @param {Function} [callback] executed when all docs have been processed
* @return {Promise}
* @api public
* @method eachAsync
*/
module.exports = function eachAsync(next, fn, options, callback) {
const parallel = options.parallel || 1;
const batchSize = options.batchSize;
const enqueue = asyncQueue();
return promiseOrCallback(callback, cb => {
if (batchSize != null) {
if (typeof batchSize !== 'number') {
throw new TypeError('batchSize must be a number');
}
if (batchSize < 1) {
throw new TypeError('batchSize must be at least 1');
}
if (batchSize !== Math.floor(batchSize)) {
throw new TypeError('batchSize must be a positive integer');
}
}
iterate(cb);
});
function iterate(finalCallback) {
let drained = false;
let handleResultsInProgress = 0;
let currentDocumentIndex = 0;
let documentsBatch = [];
let error = null;
for (let i = 0; i < parallel; ++i) {
enqueue(fetch);
}
function fetch(done) {
if (drained || error) {
return done();
}
next(function(err, doc) {
if (drained || error != null) {
return done();
}
if (err != null) {
error = err;
finalCallback(err);
return done();
}
if (doc == null) {
drained = true;
if (handleResultsInProgress <= 0) {
finalCallback(null);
} else if (batchSize != null && documentsBatch.length) {
handleNextResult(documentsBatch, currentDocumentIndex++, handleNextResultCallBack);
}
return done();
}
++handleResultsInProgress;
// Kick off the subsequent `next()` before handling the result, but
// make sure we know that we still have a result to handle re: #8422
immediate(() => done());
if (batchSize != null) {
documentsBatch.push(doc);
}
// If the current documents size is less than the provided patch size don't process the documents yet
if (batchSize != null && documentsBatch.length !== batchSize) {
setTimeout(() => enqueue(fetch), 0);
return;
}
const docsToProcess = batchSize != null ? documentsBatch : doc;
function handleNextResultCallBack(err) {
if (batchSize != null) {
handleResultsInProgress -= documentsBatch.length;
documentsBatch = [];
} else {
--handleResultsInProgress;
}
if (err != null) {
error = err;
return finalCallback(err);
}
if (drained && handleResultsInProgress <= 0) {
return finalCallback(null);
}
setTimeout(() => enqueue(fetch), 0);
}
handleNextResult(docsToProcess, currentDocumentIndex++, handleNextResultCallBack);
});
}
}
function handleNextResult(doc, i, callback) {
const promise = fn(doc, i);
if (promise && typeof promise.then === 'function') {
promise.then(
function() { callback(null); },
function(error) { callback(error || new Error('`eachAsync()` promise rejected without error')); });
} else {
callback(null);
}
}
};
// `next()` can only execute one at a time, so make sure we always execute
// `next()` in series, while still allowing multiple `fn()` instances to run
// in parallel.
function asyncQueue() {
const _queue = [];
let inProgress = null;
let id = 0;
return function enqueue(fn) {
if (_queue.length === 0 && inProgress == null) {
inProgress = id++;
return fn(_step);
}
_queue.push(fn);
};
function _step() {
inProgress = null;
if (_queue.length > 0) {
inProgress = id++;
const fn = _queue.shift();
fn(_step);
}
}
}

16
node_modules/mongoose/lib/helpers/discriminator/areDiscriminatorValuesEqual.js generated vendored Normal file
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'use strict';
const ObjectId = require('../../types/objectid');
module.exports = function areDiscriminatorValuesEqual(a, b) {
if (typeof a === 'string' && typeof b === 'string') {
return a === b;
}
if (typeof a === 'number' && typeof b === 'number') {
return a === b;
}
if (a instanceof ObjectId && b instanceof ObjectId) {
return a.toString() === b.toString();
}
return false;
};

12
node_modules/mongoose/lib/helpers/discriminator/checkEmbeddedDiscriminatorKeyProjection.js generated vendored Normal file
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'use strict';
module.exports = function checkEmbeddedDiscriminatorKeyProjection(userProjection, path, schema, selected, addedPaths) {
const userProjectedInPath = Object.keys(userProjection).
reduce((cur, key) => cur || key.startsWith(path + '.'), false);
const _discriminatorKey = path + '.' + schema.options.discriminatorKey;
if (!userProjectedInPath &&
addedPaths.length === 1 &&
addedPaths[0] === _discriminatorKey) {
selected.splice(selected.indexOf(_discriminatorKey), 1);
}
};

25
node_modules/mongoose/lib/helpers/discriminator/getConstructor.js generated vendored Normal file
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'use strict';
const getDiscriminatorByValue = require('./getDiscriminatorByValue');
/*!
* Find the correct constructor, taking into account discriminators
*/
module.exports = function getConstructor(Constructor, value) {
const discriminatorKey = Constructor.schema.options.discriminatorKey;
if (value != null &&
Constructor.discriminators &&
value[discriminatorKey] != null) {
if (Constructor.discriminators[value[discriminatorKey]]) {
Constructor = Constructor.discriminators[value[discriminatorKey]];
} else {
const constructorByValue = getDiscriminatorByValue(Constructor.discriminators, value[discriminatorKey]);
if (constructorByValue) {
Constructor = constructorByValue;
}
}
}
return Constructor;
};

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node_modules/mongoose/lib/helpers/discriminator/getDiscriminatorByValue.js generated vendored Normal file
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'use strict';
const areDiscriminatorValuesEqual = require('./areDiscriminatorValuesEqual');
/*!
* returns discriminator by discriminatorMapping.value
*
* @param {Model} model
* @param {string} value
*/
module.exports = function getDiscriminatorByValue(discriminators, value) {
if (discriminators == null) {
return null;
}
for (const name of Object.keys(discriminators)) {
const it = discriminators[name];
if (
it.schema &&
it.schema.discriminatorMapping &&
areDiscriminatorValuesEqual(it.schema.discriminatorMapping.value, value)
) {
return it;
}
}
return null;
};

26
node_modules/mongoose/lib/helpers/discriminator/getSchemaDiscriminatorByValue.js generated vendored Normal file
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'use strict';
const areDiscriminatorValuesEqual = require('./areDiscriminatorValuesEqual');
/*!
* returns discriminator by discriminatorMapping.value
*
* @param {Schema} schema
* @param {string} value
*/
module.exports = function getSchemaDiscriminatorByValue(schema, value) {
if (schema == null || schema.discriminators == null) {
return null;
}
for (const key of Object.keys(schema.discriminators)) {
const discriminatorSchema = schema.discriminators[key];
if (discriminatorSchema.discriminatorMapping == null) {
continue;
}
if (areDiscriminatorValuesEqual(discriminatorSchema.discriminatorMapping.value, value)) {
return discriminatorSchema;
}
}
return null;
};

28
node_modules/mongoose/lib/helpers/document/cleanModifiedSubpaths.js generated vendored Normal file
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'use strict';
/*!
* ignore
*/
module.exports = function cleanModifiedSubpaths(doc, path, options) {
options = options || {};
const skipDocArrays = options.skipDocArrays;
let deleted = 0;
if (!doc) {
return deleted;
}
for (const modifiedPath of Object.keys(doc.$__.activePaths.states.modify)) {
if (skipDocArrays) {
const schemaType = doc.$__schema.path(modifiedPath);
if (schemaType && schemaType.$isMongooseDocumentArray) {
continue;
}
}
if (modifiedPath.startsWith(path + '.')) {
delete doc.$__.activePaths.states.modify[modifiedPath];
++deleted;
}
}
return deleted;
};

211
node_modules/mongoose/lib/helpers/document/compile.js generated vendored Normal file
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'use strict';
const documentSchemaSymbol = require('../../helpers/symbols').documentSchemaSymbol;
const get = require('../../helpers/get');
const internalToObjectOptions = require('../../options').internalToObjectOptions;
const utils = require('../../utils');
let Document;
const getSymbol = require('../../helpers/symbols').getSymbol;
const scopeSymbol = require('../../helpers/symbols').scopeSymbol;
/*!
* exports
*/
exports.compile = compile;
exports.defineKey = defineKey;
/*!
* Compiles schemas.
*/
function compile(tree, proto, prefix, options) {
Document = Document || require('../../document');
const keys = Object.keys(tree);
const len = keys.length;
let limb;
let key;
for (let i = 0; i < len; ++i) {
key = keys[i];
limb = tree[key];
const hasSubprops = utils.isPOJO(limb) && Object.keys(limb).length &&
(!limb[options.typeKey] || (options.typeKey === 'type' && limb.type.type));
const subprops = hasSubprops ? limb : null;
defineKey(key, subprops, proto, prefix, keys, options);
}
}
/*!
* Defines the accessor named prop on the incoming prototype.
*/
function defineKey(prop, subprops, prototype, prefix, keys, options) {
Document = Document || require('../../document');
const path = (prefix ? prefix + '.' : '') + prop;
prefix = prefix || '';
if (subprops) {
Object.defineProperty(prototype, prop, {
enumerable: true,
configurable: true,
get: function() {
const _this = this;
if (!this.$__.getters) {
this.$__.getters = {};
}
if (!this.$__.getters[path]) {
const nested = Object.create(Document.prototype, getOwnPropertyDescriptors(this));
// save scope for nested getters/setters
if (!prefix) {
nested.$__[scopeSymbol] = this;
}
nested.$__.nestedPath = path;
Object.defineProperty(nested, 'schema', {
enumerable: false,
configurable: true,
writable: false,
value: prototype.schema
});
Object.defineProperty(nested, '$__schema', {
enumerable: false,
configurable: true,
writable: false,
value: prototype.schema
});
Object.defineProperty(nested, documentSchemaSymbol, {
enumerable: false,
configurable: true,
writable: false,
value: prototype.schema
});
Object.defineProperty(nested, 'toObject', {
enumerable: false,
configurable: true,
writable: false,
value: function() {
return utils.clone(_this.get(path, null, {
virtuals: get(this, 'schema.options.toObject.virtuals', null)
}));
}
});
Object.defineProperty(nested, '$__get', {
enumerable: false,
configurable: true,
writable: false,
value: function() {
return _this.get(path, null, {
virtuals: get(this, 'schema.options.toObject.virtuals', null)
});
}
});
Object.defineProperty(nested, 'toJSON', {
enumerable: false,
configurable: true,
writable: false,
value: function() {
return _this.get(path, null, {
virtuals: get(_this, 'schema.options.toJSON.virtuals', null)
});
}
});
Object.defineProperty(nested, '$__isNested', {
enumerable: false,
configurable: true,
writable: false,
value: true
});
const _isEmptyOptions = Object.freeze({
minimize: true,
virtuals: false,
getters: false,
transform: false
});
Object.defineProperty(nested, '$isEmpty', {
enumerable: false,
configurable: true,
writable: false,
value: function() {
return Object.keys(this.get(path, null, _isEmptyOptions) || {}).length === 0;
}
});
Object.defineProperty(nested, '$__parent', {
enumerable: false,
configurable: true,
writable: false,
value: this
});
compile(subprops, nested, path, options);
this.$__.getters[path] = nested;
}
return this.$__.getters[path];
},
set: function(v) {
if (v != null && v.$__isNested) {
// Convert top-level to POJO, but leave subdocs hydrated so `$set`
// can handle them. See gh-9293.
v = v.$__get();
} else if (v instanceof Document && !v.$__isNested) {
v = v.toObject(internalToObjectOptions);
}
const doc = this.$__[scopeSymbol] || this;
doc.$set(path, v);
}
});
} else {
Object.defineProperty(prototype, prop, {
enumerable: true,
configurable: true,
get: function() {
return this[getSymbol].call(this.$__[scopeSymbol] || this, path);
},
set: function(v) {
this.$set.call(this.$__[scopeSymbol] || this, path, v);
}
});
}
}
// gets descriptors for all properties of `object`
// makes all properties non-enumerable to match previous behavior to #2211
function getOwnPropertyDescriptors(object) {
const result = {};
Object.getOwnPropertyNames(object).forEach(function(key) {
result[key] = Object.getOwnPropertyDescriptor(object, key);
// Assume these are schema paths, ignore them re: #5470
if (result[key].get) {
delete result[key];
return;
}
result[key].enumerable = [
'isNew',
'$__',
'errors',
'_doc',
'$locals',
'$op',
'__parentArray',
'__index',
'$isDocumentArrayElement'
].indexOf(key) === -1;
});
return result;
}

43
node_modules/mongoose/lib/helpers/document/getEmbeddedDiscriminatorPath.js generated vendored Normal file
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'use strict';
const get = require('../get');
/*!
* Like `schema.path()`, except with a document, because impossible to
* determine path type without knowing the embedded discriminator key.
*/
module.exports = function getEmbeddedDiscriminatorPath(doc, path, options) {
options = options || {};
const typeOnly = options.typeOnly;
const parts = path.split('.');
let schema = null;
let type = 'adhocOrUndefined';
for (let i = 0; i < parts.length; ++i) {
const subpath = parts.slice(0, i + 1).join('.');
schema = doc.schema.path(subpath);
if (schema == null) {
type = 'adhocOrUndefined';
continue;
}
if (schema.instance === 'Mixed') {
return typeOnly ? 'real' : schema;
}
type = doc.schema.pathType(subpath);
if ((schema.$isSingleNested || schema.$isMongooseDocumentArrayElement) &&
schema.schema.discriminators != null) {
const discriminators = schema.schema.discriminators;
const discriminatorKey = doc.get(subpath + '.' +
get(schema, 'schema.options.discriminatorKey'));
if (discriminatorKey == null || discriminators[discriminatorKey] == null) {
continue;
}
const rest = parts.slice(i + 1).join('.');
return getEmbeddedDiscriminatorPath(doc.get(subpath), rest, options);
}
}
// Are we getting the whole schema or just the type, 'real', 'nested', etc.
return typeOnly ? type : schema;
};

17
node_modules/mongoose/lib/helpers/document/handleSpreadDoc.js generated vendored Normal file
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'use strict';
const utils = require('../../utils');
/**
* Using spread operator on a Mongoose document gives you a
* POJO that has a tendency to cause infinite recursion. So
* we use this function on `set()` to prevent that.
*/
module.exports = function handleSpreadDoc(v) {
if (utils.isPOJO(v) && v.$__ != null && v._doc != null) {
return v._doc;
}
return v;
};

25
node_modules/mongoose/lib/helpers/each.js generated vendored Normal file
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'use strict';
module.exports = function each(arr, cb, done) {
if (arr.length === 0) {
return done();
}
let remaining = arr.length;
let err = null;
for (const v of arr) {
cb(v, function(_err) {
if (err != null) {
return;
}
if (_err != null) {
err = _err;
return done(err);
}
if (--remaining <= 0) {
return done();
}
});
}
};

64
node_modules/mongoose/lib/helpers/get.js generated vendored Normal file
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'use strict';
/*!
* Simplified lodash.get to work around the annoying null quirk. See:
* https://github.com/lodash/lodash/issues/3659
*/
module.exports = function get(obj, path, def) {
let parts;
let isPathArray = false;
if (typeof path === 'string') {
if (path.indexOf('.') === -1) {
const _v = getProperty(obj, path);
if (_v == null) {
return def;
}
return _v;
}
parts = path.split('.');
} else {
isPathArray = true;
parts = path;
if (parts.length === 1) {
const _v = getProperty(obj, parts[0]);
if (_v == null) {
return def;
}
return _v;
}
}
let rest = path;
let cur = obj;
for (const part of parts) {
if (cur == null) {
return def;
}
// `lib/cast.js` depends on being able to get dotted paths in updates,
// like `{ $set: { 'a.b': 42 } }`
if (!isPathArray && cur[rest] != null) {
return cur[rest];
}
cur = getProperty(cur, part);
if (!isPathArray) {
rest = rest.substr(part.length + 1);
}
}
return cur == null ? def : cur;
};
function getProperty(obj, prop) {
if (obj == null) {
return obj;
}
if (obj instanceof Map) {
return obj.get(prop);
}
return obj[prop];
}

27
node_modules/mongoose/lib/helpers/getDefaultBulkwriteResult.js generated vendored Normal file
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'use strict';
function getDefaultBulkwriteResult() {
return {
result: {
ok: 1,
writeErrors: [],
writeConcernErrors: [],
insertedIds: [],
nInserted: 0,
nUpserted: 0,
nMatched: 0,
nModified: 0,
nRemoved: 0,
upserted: []
},
insertedCount: 0,
matchedCount: 0,
modifiedCount: 0,
deletedCount: 0,
upsertedCount: 0,
upsertedIds: {},
insertedIds: {},
n: 0
};
}
module.exports = getDefaultBulkwriteResult;

8
node_modules/mongoose/lib/helpers/getFunctionName.js generated vendored Normal file
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'use strict';
module.exports = function(fn) {
if (fn.name) {
return fn.name;
}
return (fn.toString().trim().match(/^function\s*([^\s(]+)/) || [])[1];
};

14
node_modules/mongoose/lib/helpers/immediate.js generated vendored Normal file
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/*!
* Centralize this so we can more easily work around issues with people
* stubbing out `process.nextTick()` in tests using sinon:
* https://github.com/sinonjs/lolex#automatically-incrementing-mocked-time
* See gh-6074
*/
'use strict';
const nextTick = process.nextTick.bind(process);
module.exports = function immediate(cb) {
return nextTick(cb);
};

18
node_modules/mongoose/lib/helpers/indexes/isDefaultIdIndex.js generated vendored Normal file
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'use strict';
const get = require('../get');
module.exports = function isDefaultIdIndex(index) {
if (Array.isArray(index)) {
// Mongoose syntax
const keys = Object.keys(index[0]);
return keys.length === 1 && keys[0] === '_id' && index[0]._id !== 'hashed';
}
if (typeof index !== 'object') {
return false;
}
const key = get(index, 'key', {});
return Object.keys(key).length === 1 && key.hasOwnProperty('_id');
};

95
node_modules/mongoose/lib/helpers/indexes/isIndexEqual.js generated vendored Normal file
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'use strict';
const get = require('../get');
const utils = require('../../utils');
/**
* Given a Mongoose index definition (key + options objects) and a MongoDB server
* index definition, determine if the two indexes are equal.
*
* @param {Object} key the Mongoose index spec
* @param {Object} options the Mongoose index definition's options
* @param {Object} dbIndex the index in MongoDB as returned by `listIndexes()`
* @api private
*/
module.exports = function isIndexEqual(key, options, dbIndex) {
// Special case: text indexes have a special format in the db. For example,
// `{ name: 'text' }` becomes:
// {
// v: 2,
// key: { _fts: 'text', _ftsx: 1 },
// name: 'name_text',
// ns: 'test.tests',
// background: true,
// weights: { name: 1 },
// default_language: 'english',
// language_override: 'language',
// textIndexVersion: 3
// }
if (dbIndex.textIndexVersion != null) {
const weights = dbIndex.weights;
if (Object.keys(weights).length !== Object.keys(key).length) {
return false;
}
for (const prop of Object.keys(weights)) {
if (!(prop in key)) {
return false;
}
const weight = weights[prop];
if (weight !== get(options, 'weights.' + prop) && !(weight === 1 && get(options, 'weights.' + prop) == null)) {
return false;
}
}
if (options['default_language'] !== dbIndex['default_language']) {
return dbIndex['default_language'] === 'english' && options['default_language'] == null;
}
return true;
}
const optionKeys = [
'unique',
'partialFilterExpression',
'sparse',
'expireAfterSeconds',
'collation'
];
for (const key of optionKeys) {
if (!(key in options) && !(key in dbIndex)) {
continue;
}
if (key === 'collation') {
if (options[key] == null || dbIndex[key] == null) {
return options[key] == null && dbIndex[key] == null;
}
const definedKeys = Object.keys(options.collation);
const schemaCollation = options.collation;
const dbCollation = dbIndex.collation;
for (const opt of definedKeys) {
if (get(schemaCollation, opt) !== get(dbCollation, opt)) {
return false;
}
}
} else if (!utils.deepEqual(options[key], dbIndex[key])) {
return false;
}
}
const schemaIndexKeys = Object.keys(key);
const dbIndexKeys = Object.keys(dbIndex.key);
if (schemaIndexKeys.length !== dbIndexKeys.length) {
return false;
}
for (let i = 0; i < schemaIndexKeys.length; ++i) {
if (schemaIndexKeys[i] !== dbIndexKeys[i]) {
return false;
}
if (!utils.deepEqual(key[schemaIndexKeys[i]], dbIndex.key[dbIndexKeys[i]])) {
return false;
}
}
return true;
};

13
node_modules/mongoose/lib/helpers/isBsonType.js generated vendored Normal file
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'use strict';
const get = require('./get');
/*!
* Get the bson type, if it exists
*/
function isBsonType(obj, typename) {
return get(obj, '_bsontype', void 0) === typename;
}
module.exports = isBsonType;

21
node_modules/mongoose/lib/helpers/isMongooseObject.js generated vendored Normal file
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'use strict';
/*!
* Returns if `v` is a mongoose object that has a `toObject()` method we can use.
*
* This is for compatibility with libs like Date.js which do foolish things to Natives.
*
* @param {any} v
* @api private
*/
module.exports = function(v) {
if (v == null) {
return false;
}
return v.$__ != null || // Document
v.isMongooseArray || // Array or Document Array
v.isMongooseBuffer || // Buffer
v.$isMongooseMap; // Map
};

16
node_modules/mongoose/lib/helpers/isObject.js generated vendored Normal file
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'use strict';
/*!
* Determines if `arg` is an object.
*
* @param {Object|Array|String|Function|RegExp|any} arg
* @api private
* @return {Boolean}
*/
module.exports = function(arg) {
if (Buffer.isBuffer(arg)) {
return true;
}
return Object.prototype.toString.call(arg) === '[object Object]';
};

6
node_modules/mongoose/lib/helpers/isPromise.js generated vendored Normal file
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'use strict';
function isPromise(val) {
return !!val && (typeof val === 'object' || typeof val === 'function') && typeof val.then === 'function';
}
module.exports = isPromise;

138
node_modules/mongoose/lib/helpers/model/applyHooks.js generated vendored Normal file
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'use strict';
const symbols = require('../../schema/symbols');
const promiseOrCallback = require('../promiseOrCallback');
/*!
* ignore
*/
module.exports = applyHooks;
/*!
* ignore
*/
applyHooks.middlewareFunctions = [
'deleteOne',
'save',
'validate',
'remove',
'updateOne',
'init'
];
/*!
* Register hooks for this model
*
* @param {Model} model
* @param {Schema} schema
*/
function applyHooks(model, schema, options) {
options = options || {};
const kareemOptions = {
useErrorHandlers: true,
numCallbackParams: 1,
nullResultByDefault: true,
contextParameter: true
};
const objToDecorate = options.decorateDoc ? model : model.prototype;
model.$appliedHooks = true;
for (const key of Object.keys(schema.paths)) {
const type = schema.paths[key];
let childModel = null;
if (type.$isSingleNested) {
childModel = type.caster;
} else if (type.$isMongooseDocumentArray) {
childModel = type.Constructor;
} else {
continue;
}
if (childModel.$appliedHooks) {
continue;
}
applyHooks(childModel, type.schema, options);
if (childModel.discriminators != null) {
const keys = Object.keys(childModel.discriminators);
for (const key of keys) {
applyHooks(childModel.discriminators[key],
childModel.discriminators[key].schema, options);
}
}
}
// Built-in hooks rely on hooking internal functions in order to support
// promises and make it so that `doc.save.toString()` provides meaningful
// information.
const middleware = schema.s.hooks.
filter(hook => {
if (hook.name === 'updateOne' || hook.name === 'deleteOne') {
return !!hook['document'];
}
if (hook.name === 'remove' || hook.name === 'init') {
return hook['document'] == null || !!hook['document'];
}
if (hook.query != null || hook.document != null) {
return hook.document !== false;
}
return true;
}).
filter(hook => {
// If user has overwritten the method, don't apply built-in middleware
if (schema.methods[hook.name]) {
return !hook.fn[symbols.builtInMiddleware];
}
return true;
});
model._middleware = middleware;
objToDecorate.$__originalValidate = objToDecorate.$__originalValidate || objToDecorate.$__validate;
for (const method of ['save', 'validate', 'remove', 'deleteOne']) {
const toWrap = method === 'validate' ? '$__originalValidate' : `$__${method}`;
const wrapped = middleware.
createWrapper(method, objToDecorate[toWrap], null, kareemOptions);
objToDecorate[`$__${method}`] = wrapped;
}
objToDecorate.$__init = middleware.
createWrapperSync('init', objToDecorate.$__init, null, kareemOptions);
// Support hooks for custom methods
const customMethods = Object.keys(schema.methods);
const customMethodOptions = Object.assign({}, kareemOptions, {
// Only use `checkForPromise` for custom methods, because mongoose
// query thunks are not as consistent as I would like about returning
// a nullish value rather than the query. If a query thunk returns
// a query, `checkForPromise` causes infinite recursion
checkForPromise: true
});
for (const method of customMethods) {
if (!middleware.hasHooks(method)) {
// Don't wrap if there are no hooks for the custom method to avoid
// surprises. Also, `createWrapper()` enforces consistent async,
// so wrapping a sync method would break it.
continue;
}
const originalMethod = objToDecorate[method];
objToDecorate[method] = function() {
const args = Array.prototype.slice.call(arguments);
const cb = args.slice(-1).pop();
const argsWithoutCallback = typeof cb === 'function' ?
args.slice(0, args.length - 1) : args;
return promiseOrCallback(cb, callback => {
return this[`$__${method}`].apply(this,
argsWithoutCallback.concat([callback]));
}, model.events);
};
objToDecorate[`$__${method}`] = middleware.
createWrapper(method, originalMethod, null, customMethodOptions);
}
}

56
node_modules/mongoose/lib/helpers/model/applyMethods.js generated vendored Normal file
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'use strict';
const get = require('../get');
/*!
* Register methods for this model
*
* @param {Model} model
* @param {Schema} schema
*/
module.exports = function applyMethods(model, schema) {
function apply(method, schema) {
Object.defineProperty(model.prototype, method, {
get: function() {
const h = {};
for (const k in schema.methods[method]) {
h[k] = schema.methods[method][k].bind(this);
}
return h;
},
configurable: true
});
}
for (const method of Object.keys(schema.methods)) {
const fn = schema.methods[method];
if (schema.tree.hasOwnProperty(method)) {
throw new Error('You have a method and a property in your schema both ' +
'named "' + method + '"');
}
if (schema.reserved[method] &&
!get(schema, `methodOptions.${method}.suppressWarning`, false)) {
console.warn(`mongoose: the method name "${method}" is used by mongoose ` +
'internally, overwriting it may cause bugs. If you\'re sure you know ' +
'what you\'re doing, you can suppress this error by using ' +
`\`schema.method('${method}', fn, { suppressWarning: true })\`.`);
}
if (typeof fn === 'function') {
model.prototype[method] = fn;
} else {
apply(method, schema);
}
}
// Recursively call `applyMethods()` on child schemas
model.$appliedMethods = true;
for (const key of Object.keys(schema.paths)) {
const type = schema.paths[key];
if (type.$isSingleNested && !type.caster.$appliedMethods) {
applyMethods(type.caster, type.schema);
}
if (type.$isMongooseDocumentArray && !type.Constructor.$appliedMethods) {
applyMethods(type.Constructor, type.schema);
}
}
};

71
node_modules/mongoose/lib/helpers/model/applyStaticHooks.js generated vendored Normal file
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'use strict';
const middlewareFunctions = require('../query/applyQueryMiddleware').middlewareFunctions;
const promiseOrCallback = require('../promiseOrCallback');
module.exports = function applyStaticHooks(model, hooks, statics) {
const kareemOptions = {
useErrorHandlers: true,
numCallbackParams: 1
};
hooks = hooks.filter(hook => {
// If the custom static overwrites an existing query middleware, don't apply
// middleware to it by default. This avoids a potential backwards breaking
// change with plugins like `mongoose-delete` that use statics to overwrite
// built-in Mongoose functions.
if (middlewareFunctions.indexOf(hook.name) !== -1) {
return !!hook.model;
}
return hook.model !== false;
});
model.$__insertMany = hooks.createWrapper('insertMany',
model.$__insertMany, model, kareemOptions);
for (const key of Object.keys(statics)) {
if (hooks.hasHooks(key)) {
const original = model[key];
model[key] = function() {
const numArgs = arguments.length;
const lastArg = numArgs > 0 ? arguments[numArgs - 1] : null;
const cb = typeof lastArg === 'function' ? lastArg : null;
const args = Array.prototype.slice.
call(arguments, 0, cb == null ? numArgs : numArgs - 1);
// Special case: can't use `Kareem#wrap()` because it doesn't currently
// support wrapped functions that return a promise.
return promiseOrCallback(cb, callback => {
hooks.execPre(key, model, args, function(err) {
if (err != null) {
return callback(err);
}
let postCalled = 0;
const ret = original.apply(model, args.concat(post));
if (ret != null && typeof ret.then === 'function') {
ret.then(res => post(null, res), err => post(err));
}
function post(error, res) {
if (postCalled++ > 0) {
return;
}
if (error != null) {
return callback(error);
}
hooks.execPost(key, model, [res], function(error) {
if (error != null) {
return callback(error);
}
callback(null, res);
});
}
});
}, model.events);
};
}
}
};

12
node_modules/mongoose/lib/helpers/model/applyStatics.js generated vendored Normal file
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'use strict';
/*!
* Register statics for this model
* @param {Model} model
* @param {Schema} schema
*/
module.exports = function applyStatics(model, schema) {
for (const i in schema.statics) {
model[i] = schema.statics[i];
}
};

224
node_modules/mongoose/lib/helpers/model/castBulkWrite.js generated vendored Normal file
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'use strict';
const getDiscriminatorByValue = require('../../helpers/discriminator/getDiscriminatorByValue');
const applyTimestampsToChildren = require('../update/applyTimestampsToChildren');
const applyTimestampsToUpdate = require('../update/applyTimestampsToUpdate');
const cast = require('../../cast');
const castUpdate = require('../query/castUpdate');
const setDefaultsOnInsert = require('../setDefaultsOnInsert');
/*!
* Given a model and a bulkWrite op, return a thunk that handles casting and
* validating the individual op.
*/
module.exports = function castBulkWrite(originalModel, op, options) {
const now = originalModel.base.now();
if (op['insertOne']) {
return (callback) => {
const model = decideModelByObject(originalModel, op['insertOne']['document']);
const doc = new model(op['insertOne']['document']);
if (model.schema.options.timestamps) {
doc.initializeTimestamps();
}
if (options.session != null) {
doc.$session(options.session);
}
op['insertOne']['document'] = doc;
op['insertOne']['document'].validate({ __noPromise: true }, function(error) {
if (error) {
return callback(error, null);
}
callback(null);
});
};
} else if (op['updateOne']) {
return (callback) => {
try {
if (!op['updateOne']['filter']) {
throw new Error('Must provide a filter object.');
}
if (!op['updateOne']['update']) {
throw new Error('Must provide an update object.');
}
const model = decideModelByObject(originalModel, op['updateOne']['filter']);
const schema = model.schema;
const strict = options.strict != null ? options.strict : model.schema.options.strict;
_addDiscriminatorToObject(schema, op['updateOne']['filter']);
if (model.schema.$timestamps != null && op['updateOne'].timestamps !== false) {
const createdAt = model.schema.$timestamps.createdAt;
const updatedAt = model.schema.$timestamps.updatedAt;
applyTimestampsToUpdate(now, createdAt, updatedAt, op['updateOne']['update'], {});
}
applyTimestampsToChildren(now, op['updateOne']['update'], model.schema);
if (op['updateOne'].setDefaultsOnInsert) {
setDefaultsOnInsert(op['updateOne']['filter'], model.schema, op['updateOne']['update'], {
setDefaultsOnInsert: true,
upsert: op['updateOne'].upsert
});
}
op['updateOne']['filter'] = cast(model.schema, op['updateOne']['filter'], {
strict: strict,
upsert: op['updateOne'].upsert
});
op['updateOne']['update'] = castUpdate(model.schema, op['updateOne']['update'], {
strict: strict,
overwrite: false,
upsert: op['updateOne'].upsert
}, model, op['updateOne']['filter']);
} catch (error) {
return callback(error, null);
}
callback(null);
};
} else if (op['updateMany']) {
return (callback) => {
try {
if (!op['updateMany']['filter']) {
throw new Error('Must provide a filter object.');
}
if (!op['updateMany']['update']) {
throw new Error('Must provide an update object.');
}
const model = decideModelByObject(originalModel, op['updateMany']['filter']);
const schema = model.schema;
const strict = options.strict != null ? options.strict : model.schema.options.strict;
if (op['updateMany'].setDefaultsOnInsert) {
setDefaultsOnInsert(op['updateMany']['filter'], model.schema, op['updateMany']['update'], {
setDefaultsOnInsert: true,
upsert: op['updateMany'].upsert
});
}
if (model.schema.$timestamps != null && op['updateMany'].timestamps !== false) {
const createdAt = model.schema.$timestamps.createdAt;
const updatedAt = model.schema.$timestamps.updatedAt;
applyTimestampsToUpdate(now, createdAt, updatedAt, op['updateMany']['update'], {});
}
applyTimestampsToChildren(now, op['updateMany']['update'], model.schema);
_addDiscriminatorToObject(schema, op['updateMany']['filter']);
op['updateMany']['filter'] = cast(model.schema, op['updateMany']['filter'], {
strict: strict,
upsert: op['updateMany'].upsert
});
op['updateMany']['update'] = castUpdate(model.schema, op['updateMany']['update'], {
strict: strict,
overwrite: false,
upsert: op['updateMany'].upsert
}, model, op['updateMany']['filter']);
} catch (error) {
return callback(error, null);
}
callback(null);
};
} else if (op['replaceOne']) {
return (callback) => {
const model = decideModelByObject(originalModel, op['replaceOne']['filter']);
const schema = model.schema;
const strict = options.strict != null ? options.strict : model.schema.options.strict;
_addDiscriminatorToObject(schema, op['replaceOne']['filter']);
try {
op['replaceOne']['filter'] = cast(model.schema, op['replaceOne']['filter'], {
strict: strict,
upsert: op['replaceOne'].upsert
});
} catch (error) {
return callback(error, null);
}
// set `skipId`, otherwise we get "_id field cannot be changed"
const doc = new model(op['replaceOne']['replacement'], strict, true);
if (model.schema.options.timestamps) {
doc.initializeTimestamps();
}
if (options.session != null) {
doc.$session(options.session);
}
op['replaceOne']['replacement'] = doc;
op['replaceOne']['replacement'].validate({ __noPromise: true }, function(error) {
if (error) {
return callback(error, null);
}
op['replaceOne']['replacement'] = op['replaceOne']['replacement'].toBSON();
callback(null);
});
};
} else if (op['deleteOne']) {
return (callback) => {
const model = decideModelByObject(originalModel, op['deleteOne']['filter']);
const schema = model.schema;
_addDiscriminatorToObject(schema, op['deleteOne']['filter']);
try {
op['deleteOne']['filter'] = cast(model.schema,
op['deleteOne']['filter']);
} catch (error) {
return callback(error, null);
}
callback(null);
};
} else if (op['deleteMany']) {
return (callback) => {
const model = decideModelByObject(originalModel, op['deleteMany']['filter']);
const schema = model.schema;
_addDiscriminatorToObject(schema, op['deleteMany']['filter']);
try {
op['deleteMany']['filter'] = cast(model.schema,
op['deleteMany']['filter']);
} catch (error) {
return callback(error, null);
}
callback(null);
};
} else {
return (callback) => {
callback(new Error('Invalid op passed to `bulkWrite()`'), null);
};
}
};
function _addDiscriminatorToObject(schema, obj) {
if (schema == null) {
return;
}
if (schema.discriminatorMapping && !schema.discriminatorMapping.isRoot) {
obj[schema.discriminatorMapping.key] = schema.discriminatorMapping.value;
}
}
/*!
* gets discriminator model if discriminator key is present in object
*/
function decideModelByObject(model, object) {
const discriminatorKey = model.schema.options.discriminatorKey;
if (object != null && object.hasOwnProperty(discriminatorKey)) {
model = getDiscriminatorByValue(model.discriminators, object[discriminatorKey]) || model;
}
return model;
}

205
node_modules/mongoose/lib/helpers/model/discriminator.js generated vendored Normal file
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'use strict';
const Mixed = require('../../schema/mixed');
const defineKey = require('../document/compile').defineKey;
const get = require('../get');
const utils = require('../../utils');
const CUSTOMIZABLE_DISCRIMINATOR_OPTIONS = {
toJSON: true,
toObject: true,
_id: true,
id: true
};
/*!
* ignore
*/
module.exports = function discriminator(model, name, schema, tiedValue, applyPlugins) {
if (!(schema && schema.instanceOfSchema)) {
throw new Error('You must pass a valid discriminator Schema');
}
if (model.schema.discriminatorMapping &&
!model.schema.discriminatorMapping.isRoot) {
throw new Error('Discriminator "' + name +
'" can only be a discriminator of the root model');
}
if (applyPlugins) {
const applyPluginsToDiscriminators = get(model.base,
'options.applyPluginsToDiscriminators', false);
// Even if `applyPluginsToDiscriminators` isn't set, we should still apply
// global plugins to schemas embedded in the discriminator schema (gh-7370)
model.base._applyPlugins(schema, {
skipTopLevel: !applyPluginsToDiscriminators
});
}
const key = model.schema.options.discriminatorKey;
const existingPath = model.schema.path(key);
if (existingPath != null) {
if (!utils.hasUserDefinedProperty(existingPath.options, 'select')) {
existingPath.options.select = true;
}
existingPath.options.$skipDiscriminatorCheck = true;
} else {
const baseSchemaAddition = {};
baseSchemaAddition[key] = {
default: void 0,
select: true,
$skipDiscriminatorCheck: true
};
baseSchemaAddition[key][model.schema.options.typeKey] = String;
model.schema.add(baseSchemaAddition);
defineKey(key, null, model.prototype, null, [key], model.schema.options);
}
if (schema.path(key) && schema.path(key).options.$skipDiscriminatorCheck !== true) {
throw new Error('Discriminator "' + name +
'" cannot have field with name "' + key + '"');
}
let value = name;
if ((typeof tiedValue === 'string' && tiedValue.length) || tiedValue != null) {
value = tiedValue;
}
function merge(schema, baseSchema) {
// Retain original schema before merging base schema
schema._baseSchema = baseSchema;
if (baseSchema.paths._id &&
baseSchema.paths._id.options &&
!baseSchema.paths._id.options.auto) {
schema.remove('_id');
}
// Find conflicting paths: if something is a path in the base schema
// and a nested path in the child schema, overwrite the base schema path.
// See gh-6076
const baseSchemaPaths = Object.keys(baseSchema.paths);
const conflictingPaths = [];
for (const path of baseSchemaPaths) {
if (schema.nested[path]) {
conflictingPaths.push(path);
continue;
}
if (path.indexOf('.') === -1) {
continue;
}
const sp = path.split('.').slice(0, -1);
let cur = '';
for (const piece of sp) {
cur += (cur.length ? '.' : '') + piece;
if (schema.paths[cur] instanceof Mixed ||
schema.singleNestedPaths[cur] instanceof Mixed) {
conflictingPaths.push(path);
}
}
}
utils.merge(schema, baseSchema, {
isDiscriminatorSchemaMerge: true,
omit: { discriminators: true, base: true },
omitNested: conflictingPaths.reduce((cur, path) => {
cur['tree.' + path] = true;
return cur;
}, {})
});
// Clean up conflicting paths _after_ merging re: gh-6076
for (const conflictingPath of conflictingPaths) {
delete schema.paths[conflictingPath];
}
// Rebuild schema models because schemas may have been merged re: #7884
schema.childSchemas.forEach(obj => {
obj.model.prototype.$__setSchema(obj.schema);
});
const obj = {};
obj[key] = {
default: value,
select: true,
set: function(newName) {
if (newName === value || (Array.isArray(value) && utils.deepEqual(newName, value))) {
return value;
}
throw new Error('Can\'t set discriminator key "' + key + '"');
},
$skipDiscriminatorCheck: true
};
obj[key][schema.options.typeKey] = existingPath ? existingPath.options[schema.options.typeKey] : String;
schema.add(obj);
schema.discriminatorMapping = { key: key, value: value, isRoot: false };
if (baseSchema.options.collection) {
schema.options.collection = baseSchema.options.collection;
}
const toJSON = schema.options.toJSON;
const toObject = schema.options.toObject;
const _id = schema.options._id;
const id = schema.options.id;
const keys = Object.keys(schema.options);
schema.options.discriminatorKey = baseSchema.options.discriminatorKey;
for (const _key of keys) {
if (!CUSTOMIZABLE_DISCRIMINATOR_OPTIONS[_key]) {
// Special case: compiling a model sets `pluralization = true` by default. Avoid throwing an error
// for that case. See gh-9238
if (_key === 'pluralization' && schema.options[_key] == true && baseSchema.options[_key] == null) {
continue;
}
if (!utils.deepEqual(schema.options[_key], baseSchema.options[_key])) {
throw new Error('Can\'t customize discriminator option ' + _key +
' (can only modify ' +
Object.keys(CUSTOMIZABLE_DISCRIMINATOR_OPTIONS).join(', ') +
')');
}
}
}
schema.options = utils.clone(baseSchema.options);
if (toJSON) schema.options.toJSON = toJSON;
if (toObject) schema.options.toObject = toObject;
if (typeof _id !== 'undefined') {
schema.options._id = _id;
}
schema.options.id = id;
schema.s.hooks = model.schema.s.hooks.merge(schema.s.hooks);
schema.plugins = Array.prototype.slice.call(baseSchema.plugins);
schema.callQueue = baseSchema.callQueue.concat(schema.callQueue);
delete schema._requiredpaths; // reset just in case Schema#requiredPaths() was called on either schema
}
// merges base schema into new discriminator schema and sets new type field.
merge(schema, model.schema);
if (!model.discriminators) {
model.discriminators = {};
}
if (!model.schema.discriminatorMapping) {
model.schema.discriminatorMapping = { key: key, value: null, isRoot: true };
}
if (!model.schema.discriminators) {
model.schema.discriminators = {};
}
model.schema.discriminators[name] = schema;
if (model.discriminators[name]) {
throw new Error('Discriminator with name "' + name + '" already exists');
}
return schema;
};

12
node_modules/mongoose/lib/helpers/once.js generated vendored Normal file
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'use strict';
module.exports = function once(fn) {
let called = false;
return function() {
if (called) {
return;
}
called = true;
return fn.apply(null, arguments);
};
};

55
node_modules/mongoose/lib/helpers/parallelLimit.js generated vendored Normal file
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'use strict';
module.exports = parallelLimit;
/*!
* ignore
*/
function parallelLimit(fns, limit, callback) {
let numInProgress = 0;
let numFinished = 0;
let error = null;
if (limit <= 0) {
throw new Error('Limit must be positive');
}
if (fns.length === 0) {
return callback(null, []);
}
for (let i = 0; i < fns.length && i < limit; ++i) {
_start();
}
function _start() {
fns[numFinished + numInProgress](_done(numFinished + numInProgress));
++numInProgress;
}
const results = [];
function _done(index) {
return (err, res) => {
--numInProgress;
++numFinished;
if (error != null) {
return;
}
if (err != null) {
error = err;
return callback(error);
}
results[index] = res;
if (numFinished === fns.length) {
return callback(null, results);
} else if (numFinished + numInProgress < fns.length) {
_start();
}
};
}
}

13
node_modules/mongoose/lib/helpers/path/parentPaths.js generated vendored Normal file
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'use strict';
module.exports = function parentPaths(path) {
const pieces = path.split('.');
let cur = '';
const ret = [];
for (let i = 0; i < pieces.length; ++i) {
cur += (cur.length > 0 ? '.' : '') + pieces[i];
ret.push(cur);
}
return ret;
};

16
node_modules/mongoose/lib/helpers/path/setDottedPath.js generated vendored Normal file
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'use strict';
module.exports = function setDottedPath(obj, path, val) {
const parts = path.split('.');
let cur = obj;
for (const part of parts.slice(0, -1)) {
if (cur[part] == null) {
cur[part] = {};
}
cur = cur[part];
}
const last = parts[parts.length - 1];
cur[last] = val;
};

10
node_modules/mongoose/lib/helpers/populate/SkipPopulateValue.js generated vendored Normal file
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'use strict';
module.exports = function SkipPopulateValue(val) {
if (!(this instanceof SkipPopulateValue)) {
return new SkipPopulateValue(val);
}
this.val = val;
return this;
};

98
node_modules/mongoose/lib/helpers/populate/assignRawDocsToIdStructure.js generated vendored Normal file
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'use strict';
const leanPopulateMap = require('./leanPopulateMap');
const modelSymbol = require('../symbols').modelSymbol;
const utils = require('../../utils');
module.exports = assignRawDocsToIdStructure;
/*!
* Assign `vals` returned by mongo query to the `rawIds`
* structure returned from utils.getVals() honoring
* query sort order if specified by user.
*
* This can be optimized.
*
* Rules:
*
* if the value of the path is not an array, use findOne rules, else find.
* for findOne the results are assigned directly to doc path (including null results).
* for find, if user specified sort order, results are assigned directly
* else documents are put back in original order of array if found in results
*
* @param {Array} rawIds
* @param {Array} vals
* @param {Boolean} sort
* @api private
*/
function assignRawDocsToIdStructure(rawIds, resultDocs, resultOrder, options, recursed) {
// honor user specified sort order
const newOrder = [];
const sorting = options.sort && rawIds.length > 1;
const nullIfNotFound = options.$nullIfNotFound;
let doc;
let sid;
let id;
for (let i = 0; i < rawIds.length; ++i) {
id = rawIds[i];
if (Array.isArray(id)) {
// handle [ [id0, id2], [id3] ]
assignRawDocsToIdStructure(id, resultDocs, resultOrder, options, true);
newOrder.push(id);
continue;
}
if (id === null && !sorting) {
// keep nulls for findOne unless sorting, which always
// removes them (backward compat)
newOrder.push(id);
continue;
}
sid = String(id);
doc = resultDocs[sid];
// If user wants separate copies of same doc, use this option
if (options.clone && doc != null) {
if (options.lean) {
const _model = leanPopulateMap.get(doc);
doc = utils.clone(doc);
leanPopulateMap.set(doc, _model);
} else {
doc = doc.constructor.hydrate(doc._doc);
}
}
if (recursed) {
if (doc) {
if (sorting) {
newOrder[resultOrder[sid]] = doc;
} else {
newOrder.push(doc);
}
} else if (id != null && id[modelSymbol] != null) {
newOrder.push(id);
} else {
newOrder.push(options.retainNullValues || nullIfNotFound ? null : id);
}
} else {
// apply findOne behavior - if document in results, assign, else assign null
newOrder[i] = doc || null;
}
}
rawIds.length = 0;
if (newOrder.length) {
// reassign the documents based on corrected order
// forEach skips over sparse entries in arrays so we
// can safely use this to our advantage dealing with sorted
// result sets too.
newOrder.forEach(function(doc, i) {
rawIds[i] = doc;
});
}
}

285
node_modules/mongoose/lib/helpers/populate/assignVals.js generated vendored Normal file
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'use strict';
const SkipPopulateValue = require('./SkipPopulateValue');
const assignRawDocsToIdStructure = require('./assignRawDocsToIdStructure');
const get = require('../get');
const getVirtual = require('./getVirtual');
const leanPopulateMap = require('./leanPopulateMap');
const lookupLocalFields = require('./lookupLocalFields');
const mpath = require('mpath');
const sift = require('sift').default;
const utils = require('../../utils');
module.exports = function assignVals(o) {
// Options that aren't explicitly listed in `populateOptions`
const userOptions = Object.assign({}, get(o, 'allOptions.options.options'), get(o, 'allOptions.options'));
// `o.options` contains options explicitly listed in `populateOptions`, like
// `match` and `limit`.
const populateOptions = Object.assign({}, o.options, userOptions, {
justOne: o.justOne
});
populateOptions.$nullIfNotFound = o.isVirtual;
const populatedModel = o.populatedModel;
const originalIds = [].concat(o.rawIds);
// replace the original ids in our intermediate _ids structure
// with the documents found by query
o.allIds = [].concat(o.allIds);
assignRawDocsToIdStructure(o.rawIds, o.rawDocs, o.rawOrder, populateOptions);
// now update the original documents being populated using the
// result structure that contains real documents.
const docs = o.docs;
const rawIds = o.rawIds;
const options = o.options;
const count = o.count && o.isVirtual;
let i;
function setValue(val) {
if (count) {
return val;
}
if (val instanceof SkipPopulateValue) {
return val.val;
}
const _allIds = o.allIds[i];
if (o.justOne === true && Array.isArray(val)) {
// Might be an embedded discriminator (re: gh-9244) with multiple models, so make sure to pick the right
// model before assigning.
const ret = [];
for (const doc of val) {
const _docPopulatedModel = leanPopulateMap.get(doc);
if (_docPopulatedModel == null || _docPopulatedModel === populatedModel) {
ret.push(doc);
}
}
// Since we don't want to have to create a new mongoosearray, make sure to
// modify the array in place
while (val.length > ret.length) {
Array.prototype.pop.apply(val, []);
}
for (let i = 0; i < ret.length; ++i) {
val[i] = ret[i];
}
return valueFilter(val[0], options, populateOptions, _allIds);
} else if (o.justOne === false && !Array.isArray(val)) {
return valueFilter([val], options, populateOptions, _allIds);
}
return valueFilter(val, options, populateOptions, _allIds);
}
for (i = 0; i < docs.length; ++i) {
const _path = o.path.endsWith('.$*') ? o.path.slice(0, -3) : o.path;
const existingVal = mpath.get(_path, docs[i], lookupLocalFields);
if (existingVal == null && !getVirtual(o.originalModel.schema, _path)) {
continue;
}
let valueToSet;
if (count) {
valueToSet = numDocs(rawIds[i]);
} else if (Array.isArray(o.match)) {
valueToSet = Array.isArray(rawIds[i]) ?
rawIds[i].filter(sift(o.match[i])) :
[rawIds[i]].filter(sift(o.match[i]))[0];
} else {
valueToSet = rawIds[i];
}
// If we're populating a map, the existing value will be an object, so
// we need to transform again
const originalSchema = o.originalModel.schema;
const isDoc = get(docs[i], '$__', null) != null;
let isMap = isDoc ?
existingVal instanceof Map :
utils.isPOJO(existingVal);
// If we pass the first check, also make sure the local field's schematype
// is map (re: gh-6460)
isMap = isMap && get(originalSchema._getSchema(_path), '$isSchemaMap');
if (!o.isVirtual && isMap) {
const _keys = existingVal instanceof Map ?
Array.from(existingVal.keys()) :
Object.keys(existingVal);
valueToSet = valueToSet.reduce((cur, v, i) => {
cur.set(_keys[i], v);
return cur;
}, new Map());
}
if (isDoc && Array.isArray(valueToSet)) {
for (const val of valueToSet) {
if (val != null && val.$__ != null) {
val.$__.parent = docs[i];
}
}
} else if (isDoc && valueToSet != null && valueToSet.$__ != null) {
valueToSet.$__.parent = docs[i];
}
if (o.isVirtual && isDoc) {
docs[i].populated(_path, o.justOne ? originalIds[0] : originalIds, o.allOptions);
// If virtual populate and doc is already init-ed, need to walk through
// the actual doc to set rather than setting `_doc` directly
mpath.set(_path, valueToSet, docs[i], setValue);
continue;
}
const parts = _path.split('.');
let cur = docs[i];
const curPath = parts[0];
for (let j = 0; j < parts.length - 1; ++j) {
// If we get to an array with a dotted path, like `arr.foo`, don't set
// `foo` on the array.
if (Array.isArray(cur) && !utils.isArrayIndex(parts[j])) {
break;
}
if (parts[j] === '$*') {
break;
}
if (cur[parts[j]] == null) {
// If nothing to set, avoid creating an unnecessary array. Otherwise
// we'll end up with a single doc in the array with only defaults.
// See gh-8342, gh-8455
const schematype = originalSchema._getSchema(curPath);
if (valueToSet == null && schematype != null && schematype.$isMongooseArray) {
break;
}
cur[parts[j]] = {};
}
cur = cur[parts[j]];
// If the property in MongoDB is a primitive, we won't be able to populate
// the nested path, so skip it. See gh-7545
if (typeof cur !== 'object') {
break;
}
}
if (docs[i].$__) {
docs[i].populated(_path, o.allIds[i], o.allOptions);
}
// If lean, need to check that each individual virtual respects
// `justOne`, because you may have a populated virtual with `justOne`
// underneath an array. See gh-6867
mpath.set(_path, valueToSet, docs[i], lookupLocalFields, setValue, false);
}
};
function numDocs(v) {
if (Array.isArray(v)) {
// If setting underneath an array of populated subdocs, we may have an
// array of arrays. See gh-7573
if (v.some(el => Array.isArray(el))) {
return v.map(el => numDocs(el));
}
return v.length;
}
return v == null ? 0 : 1;
}
/*!
* 1) Apply backwards compatible find/findOne behavior to sub documents
*
* find logic:
* a) filter out non-documents
* b) remove _id from sub docs when user specified
*
* findOne
* a) if no doc found, set to null
* b) remove _id from sub docs when user specified
*
* 2) Remove _ids when specified by users query.
*
* background:
* _ids are left in the query even when user excludes them so
* that population mapping can occur.
*/
function valueFilter(val, assignmentOpts, populateOptions, allIds) {
const userSpecifiedTransform = typeof populateOptions.transform === 'function';
const transform = userSpecifiedTransform ? populateOptions.transform : noop;
if (Array.isArray(val)) {
// find logic
const ret = [];
const numValues = val.length;
for (let i = 0; i < numValues; ++i) {
let subdoc = val[i];
const _allIds = Array.isArray(allIds) ? allIds[i] : allIds;
if (!isPopulatedObject(subdoc) && (!populateOptions.retainNullValues || subdoc != null) && !userSpecifiedTransform) {
continue;
} else if (userSpecifiedTransform) {
subdoc = transform(isPopulatedObject(subdoc) ? subdoc : null, _allIds);
}
maybeRemoveId(subdoc, assignmentOpts);
ret.push(subdoc);
if (assignmentOpts.originalLimit &&
ret.length >= assignmentOpts.originalLimit) {
break;
}
}
// Since we don't want to have to create a new mongoosearray, make sure to
// modify the array in place
while (val.length > ret.length) {
Array.prototype.pop.apply(val, []);
}
for (let i = 0; i < ret.length; ++i) {
val[i] = ret[i];
}
return val;
}
// findOne
if (isPopulatedObject(val) || utils.isPOJO(val)) {
maybeRemoveId(val, assignmentOpts);
return transform(val, allIds);
}
if (val instanceof Map) {
return val;
}
if (populateOptions.justOne === false) {
return [];
}
return val == null ? transform(val, allIds) : transform(null, allIds);
}
/*!
* Remove _id from `subdoc` if user specified "lean" query option
*/
function maybeRemoveId(subdoc, assignmentOpts) {
if (subdoc != null && assignmentOpts.excludeId) {
if (typeof subdoc.$__setValue === 'function') {
delete subdoc._doc._id;
} else {
delete subdoc._id;
}
}
}
/*!
* Determine if `obj` is something we can set a populated path to. Can be a
* document, a lean document, or an array/map that contains docs.
*/
function isPopulatedObject(obj) {
if (obj == null) {
return false;
}
return Array.isArray(obj) ||
obj.$isMongooseMap ||
obj.$__ != null ||
leanPopulateMap.has(obj);
}
function noop(v) {
return v;
}

79
node_modules/mongoose/lib/helpers/populate/createPopulateQueryFilter.js generated vendored Normal file
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'use strict';
const SkipPopulateValue = require('./SkipPopulateValue');
const parentPaths = require('../path/parentPaths');
module.exports = function createPopulateQueryFilter(ids, _match, _foreignField, model, skipInvalidIds) {
const match = _formatMatch(_match);
if (_foreignField.size === 1) {
const foreignField = Array.from(_foreignField)[0];
const foreignSchemaType = model.schema.path(foreignField);
if (foreignField !== '_id' || !match['_id']) {
ids = _filterInvalidIds(ids, foreignSchemaType, skipInvalidIds);
match[foreignField] = { $in: ids };
}
const _parentPaths = parentPaths(foreignField);
for (let i = 0; i < _parentPaths.length - 1; ++i) {
const cur = _parentPaths[i];
if (match[cur] != null && match[cur].$elemMatch != null) {
match[cur].$elemMatch[foreignField.slice(cur.length + 1)] = { $in: ids };
delete match[foreignField];
break;
}
}
} else {
const $or = [];
if (Array.isArray(match.$or)) {
match.$and = [{ $or: match.$or }, { $or: $or }];
delete match.$or;
} else {
match.$or = $or;
}
for (const foreignField of _foreignField) {
if (foreignField !== '_id' || !match['_id']) {
const foreignSchemaType = model.schema.path(foreignField);
ids = _filterInvalidIds(ids, foreignSchemaType, skipInvalidIds);
$or.push({ [foreignField]: { $in: ids } });
}
}
}
return match;
};
/*!
* Optionally filter out invalid ids that don't conform to foreign field's schema
* to avoid cast errors (gh-7706)
*/
function _filterInvalidIds(ids, foreignSchemaType, skipInvalidIds) {
ids = ids.filter(v => !(v instanceof SkipPopulateValue));
if (!skipInvalidIds) {
return ids;
}
return ids.filter(id => {
try {
foreignSchemaType.cast(id);
return true;
} catch (err) {
return false;
}
});
}
/*!
* Format `mod.match` given that it may be an array that we need to $or if
* the client has multiple docs with match functions
*/
function _formatMatch(match) {
if (Array.isArray(match)) {
if (match.length > 1) {
return { $or: [].concat(match.map(m => Object.assign({}, m))) };
}
return Object.assign({}, match[0]);
}
return Object.assign({}, match);
}

541
node_modules/mongoose/lib/helpers/populate/getModelsMapForPopulate.js generated vendored Normal file
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'use strict';
const MongooseError = require('../../error/index');
const SkipPopulateValue = require('./SkipPopulateValue');
const get = require('../get');
const getDiscriminatorByValue = require('../discriminator/getDiscriminatorByValue');
const isPathExcluded = require('../projection/isPathExcluded');
const getSchemaTypes = require('./getSchemaTypes');
const getVirtual = require('./getVirtual');
const lookupLocalFields = require('./lookupLocalFields');
const mpath = require('mpath');
const normalizeRefPath = require('./normalizeRefPath');
const util = require('util');
const utils = require('../../utils');
const modelSymbol = require('../symbols').modelSymbol;
const populateModelSymbol = require('../symbols').populateModelSymbol;
const schemaMixedSymbol = require('../../schema/symbols').schemaMixedSymbol;
module.exports = function getModelsMapForPopulate(model, docs, options) {
let i;
let doc;
const len = docs.length;
const available = {};
const map = [];
const modelNameFromQuery = options.model && options.model.modelName || options.model;
let schema;
let refPath;
let Model;
let currentOptions;
let modelNames;
let modelName;
const originalModel = options.model;
let isVirtual = false;
const modelSchema = model.schema;
let allSchemaTypes = getSchemaTypes(modelSchema, null, options.path);
allSchemaTypes = Array.isArray(allSchemaTypes) ? allSchemaTypes : [allSchemaTypes].filter(v => v != null);
const _firstWithRefPath = allSchemaTypes.find(schematype => get(schematype, 'options.refPath', null) != null);
for (i = 0; i < len; i++) {
doc = docs[i];
let justOne = null;
schema = getSchemaTypes(modelSchema, doc, options.path);
// Special case: populating a path that's a DocumentArray unless
// there's an explicit `ref` or `refPath` re: gh-8946
if (schema != null &&
schema.$isMongooseDocumentArray &&
schema.options.ref == null &&
schema.options.refPath == null) {
continue;
}
// Populating a nested path should always be a no-op re: #9073.
// People shouldn't do this, but apparently they do.
if (options._localModel != null && options._localModel.schema.nested[options.path]) {
continue;
}
const isUnderneathDocArray = schema && schema.$isUnderneathDocArray;
if (isUnderneathDocArray && get(options, 'options.sort') != null) {
return new MongooseError('Cannot populate with `sort` on path ' + options.path +
' because it is a subproperty of a document array');
}
modelNames = null;
let isRefPath = !!_firstWithRefPath;
let normalizedRefPath = _firstWithRefPath ? get(_firstWithRefPath, 'options.refPath', null) : null;
let schemaOptions = null;
if (Array.isArray(schema)) {
const schemasArray = schema;
for (const _schema of schemasArray) {
let _modelNames;
let res;
try {
res = _getModelNames(doc, _schema);
_modelNames = res.modelNames;
isRefPath = isRefPath || res.isRefPath;
normalizedRefPath = normalizeRefPath(normalizedRefPath, doc, options.path) ||
res.refPath;
justOne = res.justOne;
} catch (error) {
return error;
}
if (isRefPath && !res.isRefPath) {
continue;
}
if (!_modelNames) {
continue;
}
modelNames = modelNames || [];
for (const modelName of _modelNames) {
if (modelNames.indexOf(modelName) === -1) {
modelNames.push(modelName);
}
}
}
} else {
try {
const res = _getModelNames(doc, schema);
modelNames = res.modelNames;
isRefPath = res.isRefPath;
normalizedRefPath = res.refPath;
justOne = res.justOne;
schemaOptions = get(schema, 'options.populate', null);
} catch (error) {
return error;
}
if (!modelNames) {
continue;
}
}
const _virtualRes = getVirtual(model.schema, options.path);
const virtual = _virtualRes == null ? null : _virtualRes.virtual;
let localField;
let count = false;
if (virtual && virtual.options) {
const virtualPrefix = _virtualRes.nestedSchemaPath ?
_virtualRes.nestedSchemaPath + '.' : '';
if (typeof virtual.options.localField === 'function') {
localField = virtualPrefix + virtual.options.localField.call(doc, doc);
} else if (Array.isArray(virtual.options.localField)) {
localField = virtual.options.localField.map(field => virtualPrefix + field);
} else {
localField = virtualPrefix + virtual.options.localField;
}
count = virtual.options.count;
if (virtual.options.skip != null && !options.hasOwnProperty('skip')) {
options.skip = virtual.options.skip;
}
if (virtual.options.limit != null && !options.hasOwnProperty('limit')) {
options.limit = virtual.options.limit;
}
if (virtual.options.perDocumentLimit != null && !options.hasOwnProperty('perDocumentLimit')) {
options.perDocumentLimit = virtual.options.perDocumentLimit;
}
} else {
localField = options.path;
}
let foreignField = virtual && virtual.options ?
virtual.options.foreignField :
'_id';
// `justOne = null` means we don't know from the schema whether the end
// result should be an array or a single doc. This can result from
// populating a POJO using `Model.populate()`
if ('justOne' in options && options.justOne !== void 0) {
justOne = options.justOne;
} else if (virtual && virtual.options && virtual.options.refPath) {
const normalizedRefPath =
normalizeRefPath(virtual.options.refPath, doc, options.path);
justOne = !!virtual.options.justOne;
isVirtual = true;
const refValue = utils.getValue(normalizedRefPath, doc);
modelNames = Array.isArray(refValue) ? refValue : [refValue];
} else if (virtual && virtual.options && virtual.options.ref) {
let normalizedRef;
if (typeof virtual.options.ref === 'function') {
normalizedRef = virtual.options.ref.call(doc, doc);
} else {
normalizedRef = virtual.options.ref;
}
justOne = !!virtual.options.justOne;
isVirtual = true;
if (!modelNames) {
modelNames = [].concat(normalizedRef);
}
} else if (schema && !schema[schemaMixedSymbol]) {
// Skip Mixed types because we explicitly don't do casting on those.
if (options.path.endsWith('.' + schema.path)) {
justOne = Array.isArray(schema) ?
schema.every(schema => !schema.$isMongooseArray) :
!schema.$isMongooseArray;
}
}
if (!modelNames) {
continue;
}
if (virtual && (!localField || !foreignField)) {
return new MongooseError('If you are populating a virtual, you must set the ' +
'localField and foreignField options');
}
options.isVirtual = isVirtual;
options.virtual = virtual;
if (typeof localField === 'function') {
localField = localField.call(doc, doc);
}
if (typeof foreignField === 'function') {
foreignField = foreignField.call(doc);
}
let match = get(options, 'match', null) ||
get(currentOptions, 'match', null) ||
get(options, 'virtual.options.match', null) ||
get(options, 'virtual.options.options.match', null);
let hasMatchFunction = typeof match === 'function';
if (hasMatchFunction) {
match = match.call(doc, doc);
}
if (Array.isArray(localField) && Array.isArray(foreignField) && localField.length === foreignField.length) {
match = Object.assign({}, match);
for (let i = 1; i < localField.length; ++i) {
match[foreignField[i]] = convertTo_id(mpath.get(localField[i], doc, lookupLocalFields), schema);
hasMatchFunction = true;
}
localField = localField[0];
foreignField = foreignField[0];
}
const localFieldPathType = modelSchema._getPathType(localField);
const localFieldPath = localFieldPathType === 'real' ? modelSchema.path(localField) : localFieldPathType.schema;
const localFieldGetters = localFieldPath && localFieldPath.getters ? localFieldPath.getters : [];
let ret;
const _populateOptions = get(options, 'options', {});
const getters = 'getters' in _populateOptions ?
_populateOptions.getters :
options.isVirtual && get(virtual, 'options.getters', false);
if (localFieldGetters.length > 0 && getters) {
const hydratedDoc = (doc.$__ != null) ? doc : model.hydrate(doc);
const localFieldValue = mpath.get(localField, doc, lookupLocalFields);
if (Array.isArray(localFieldValue)) {
const localFieldHydratedValue = mpath.get(localField.split('.').slice(0, -1), hydratedDoc, lookupLocalFields);
ret = localFieldValue.map((localFieldArrVal, localFieldArrIndex) =>
localFieldPath.applyGetters(localFieldArrVal, localFieldHydratedValue[localFieldArrIndex]));
} else {
ret = localFieldPath.applyGetters(localFieldValue, hydratedDoc);
}
} else {
ret = convertTo_id(mpath.get(localField, doc, lookupLocalFields), schema);
}
const id = String(utils.getValue(foreignField, doc));
options._docs[id] = Array.isArray(ret) ? ret.slice() : ret;
// Re: gh-8452. Embedded discriminators may not have `refPath`, so clear
// out embedded discriminator docs that don't have a `refPath` on the
// populated path.
if (isRefPath && normalizedRefPath != null) {
const pieces = normalizedRefPath.split('.');
let cur = '';
for (let j = 0; j < pieces.length; ++j) {
const piece = pieces[j];
cur = cur + (cur.length === 0 ? '' : '.') + piece;
const schematype = modelSchema.path(cur);
if (schematype != null &&
schematype.$isMongooseArray &&
schematype.caster.discriminators != null &&
Object.keys(schematype.caster.discriminators).length > 0) {
const subdocs = utils.getValue(cur, doc);
const remnant = options.path.substr(cur.length + 1);
const discriminatorKey = schematype.caster.schema.options.discriminatorKey;
modelNames = [];
for (const subdoc of subdocs) {
const discriminatorName = utils.getValue(discriminatorKey, subdoc);
const discriminator = schematype.caster.discriminators[discriminatorName];
const discriminatorSchema = discriminator && discriminator.schema;
if (discriminatorSchema == null) {
continue;
}
const _path = discriminatorSchema.path(remnant);
if (_path == null || _path.options.refPath == null) {
const docValue = utils.getValue(localField.substr(cur.length + 1), subdoc);
ret = ret.map(v => v === docValue ? SkipPopulateValue(v) : v);
continue;
}
const modelName = utils.getValue(pieces.slice(j + 1).join('.'), subdoc);
modelNames.push(modelName);
}
}
}
}
let k = modelNames.length;
while (k--) {
modelName = modelNames[k];
if (modelName == null) {
continue;
}
// `PopulateOptions#connection`: if the model is passed as a string, the
// connection matters because different connections have different models.
const connection = options.connection != null ? options.connection : model.db;
try {
Model = originalModel && originalModel[modelSymbol] ?
originalModel :
modelName[modelSymbol] ? modelName : connection.model(modelName);
} catch (error) {
// If `ret` is undefined, we'll add an empty entry to modelsMap. We shouldn't
// execute a query, but it is necessary to make sure `justOne` gets handled
// correctly for setting an empty array (see gh-8455)
if (ret !== undefined) {
return error;
}
}
let ids = ret;
const flat = Array.isArray(ret) ? utils.array.flatten(ret) : [];
if (isRefPath && Array.isArray(ret) && flat.length === modelNames.length) {
ids = flat.filter((val, i) => modelNames[i] === modelName);
}
if (!available[modelName] || currentOptions.perDocumentLimit != null || get(currentOptions, 'options.perDocumentLimit') != null) {
currentOptions = {
model: Model
};
if (isVirtual && get(virtual, 'options.options')) {
currentOptions.options = utils.clone(virtual.options.options);
} else if (schemaOptions != null) {
currentOptions.options = Object.assign({}, schemaOptions);
}
utils.merge(currentOptions, options);
// Used internally for checking what model was used to populate this
// path.
options[populateModelSymbol] = Model;
available[modelName] = {
model: Model,
options: currentOptions,
match: hasMatchFunction ? [match] : match,
docs: [doc],
ids: [ids],
allIds: [ret],
localField: new Set([localField]),
foreignField: new Set([foreignField]),
justOne: justOne,
isVirtual: isVirtual,
virtual: virtual,
count: count,
[populateModelSymbol]: Model
};
map.push(available[modelName]);
} else {
available[modelName].localField.add(localField);
available[modelName].foreignField.add(foreignField);
available[modelName].docs.push(doc);
available[modelName].ids.push(ids);
available[modelName].allIds.push(ret);
if (hasMatchFunction) {
available[modelName].match.push(match);
}
}
}
}
return map;
function _getModelNames(doc, schema) {
let modelNames;
let discriminatorKey;
let isRefPath = false;
let justOne = null;
if (schema && schema.caster) {
schema = schema.caster;
}
if (schema && schema.$isSchemaMap) {
schema = schema.$__schemaType;
}
if (!schema && model.discriminators) {
discriminatorKey = model.schema.discriminatorMapping.key;
}
refPath = schema && schema.options && schema.options.refPath;
const normalizedRefPath = normalizeRefPath(refPath, doc, options.path);
if (modelNameFromQuery) {
modelNames = [modelNameFromQuery]; // query options
} else if (normalizedRefPath) {
if (options._queryProjection != null && isPathExcluded(options._queryProjection, normalizedRefPath)) {
throw new MongooseError('refPath `' + normalizedRefPath +
'` must not be excluded in projection, got ' +
util.inspect(options._queryProjection));
}
if (modelSchema.virtuals.hasOwnProperty(normalizedRefPath) && doc.$__ == null) {
modelNames = [modelSchema.virtuals[normalizedRefPath].applyGetters(void 0, doc)];
} else {
modelNames = utils.getValue(normalizedRefPath, doc);
}
if (Array.isArray(modelNames)) {
modelNames = utils.array.flatten(modelNames);
}
isRefPath = true;
} else {
let modelForCurrentDoc = model;
let schemaForCurrentDoc;
let discriminatorValue;
if (!schema && discriminatorKey && (discriminatorValue = utils.getValue(discriminatorKey, doc))) {
// `modelNameForFind` is the discriminator value, so we might need
// find the discriminated model name
const discriminatorModel = getDiscriminatorByValue(model.discriminators, discriminatorValue) || model;
if (discriminatorModel != null) {
modelForCurrentDoc = discriminatorModel;
} else {
try {
modelForCurrentDoc = model.db.model(discriminatorValue);
} catch (error) {
return error;
}
}
schemaForCurrentDoc = modelForCurrentDoc.schema._getSchema(options.path);
if (schemaForCurrentDoc && schemaForCurrentDoc.caster) {
schemaForCurrentDoc = schemaForCurrentDoc.caster;
}
} else {
schemaForCurrentDoc = schema;
}
const _virtualRes = getVirtual(modelForCurrentDoc.schema, options.path);
const virtual = _virtualRes == null ? null : _virtualRes.virtual;
if (schemaForCurrentDoc != null) {
justOne = !schemaForCurrentDoc.$isMongooseArray && !schemaForCurrentDoc._arrayPath;
}
let ref;
let refPath;
if ((ref = get(schemaForCurrentDoc, 'options.ref')) != null) {
ref = handleRefFunction(ref, doc);
modelNames = [ref];
} else if ((ref = get(virtual, 'options.ref')) != null) {
ref = handleRefFunction(ref, doc);
// When referencing nested arrays, the ref should be an Array
// of modelNames.
if (Array.isArray(ref)) {
modelNames = ref;
} else {
modelNames = [ref];
}
isVirtual = true;
} else if ((refPath = get(schemaForCurrentDoc, 'options.refPath')) != null) {
isRefPath = true;
refPath = normalizeRefPath(refPath, doc, options.path);
modelNames = utils.getValue(refPath, doc);
if (Array.isArray(modelNames)) {
modelNames = utils.array.flatten(modelNames);
}
} else {
// We may have a discriminator, in which case we don't want to
// populate using the base model by default
modelNames = discriminatorKey ? null : [model.modelName];
}
}
if (!modelNames) {
return { modelNames: modelNames, isRefPath: isRefPath, refPath: normalizedRefPath, justOne: justOne };
}
if (!Array.isArray(modelNames)) {
modelNames = [modelNames];
}
return { modelNames: modelNames, isRefPath: isRefPath, refPath: normalizedRefPath, justOne: justOne };
}
};
/*!
* ignore
*/
function handleRefFunction(ref, doc) {
if (typeof ref === 'function' && !ref[modelSymbol]) {
return ref.call(doc, doc);
}
return ref;
}
/*!
* Retrieve the _id of `val` if a Document or Array of Documents.
*
* @param {Array|Document|Any} val
* @return {Array|Document|Any}
*/
function convertTo_id(val, schema) {
if (val != null && val.$__ != null) {
return val._id;
}
if (val != null && val._id != null && (schema == null || !schema.$isSchemaMap)) {
return val._id;
}
if (Array.isArray(val)) {
for (let i = 0; i < val.length; ++i) {
if (val[i] != null && val[i].$__ != null) {
val[i] = val[i]._id;
}
}
if (val.isMongooseArray && val.$schema()) {
return val.$schema()._castForPopulate(val, val.$parent());
}
return [].concat(val);
}
// `populate('map')` may be an object if populating on a doc that hasn't
// been hydrated yet
if (val != null &&
val.constructor.name === 'Object' &&
// The intent here is we should only flatten the object if we expect
// to get a Map in the end. Avoid doing this for mixed types.
(schema == null || schema[schemaMixedSymbol] == null)) {
const ret = [];
for (const key of Object.keys(val)) {
ret.push(val[key]);
}
return ret;
}
// If doc has already been hydrated, e.g. `doc.populate('map').execPopulate()`
// then `val` will already be a map
if (val instanceof Map) {
return Array.from(val.values());
}
return val;
}

209
node_modules/mongoose/lib/helpers/populate/getSchemaTypes.js generated vendored Normal file
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'use strict';
/*!
* ignore
*/
const Mixed = require('../../schema/mixed');
const get = require('../get');
const leanPopulateMap = require('./leanPopulateMap');
const mpath = require('mpath');
const populateModelSymbol = require('../symbols').populateModelSymbol;
/*!
* @param {Schema} schema
* @param {Object} doc POJO
* @param {string} path
*/
module.exports = function getSchemaTypes(schema, doc, path) {
const pathschema = schema.path(path);
const topLevelDoc = doc;
if (pathschema) {
return pathschema;
}
function search(parts, schema, subdoc, nestedPath) {
let p = parts.length + 1;
let foundschema;
let trypath;
while (p--) {
trypath = parts.slice(0, p).join('.');
foundschema = schema.path(trypath);
if (foundschema == null) {
continue;
}
if (foundschema.caster) {
// array of Mixed?
if (foundschema.caster instanceof Mixed) {
return foundschema.caster;
}
let schemas = null;
if (foundschema.schema != null && foundschema.schema.discriminators != null) {
const discriminators = foundschema.schema.discriminators;
const discriminatorKeyPath = trypath + '.' +
foundschema.schema.options.discriminatorKey;
const keys = subdoc ? mpath.get(discriminatorKeyPath, subdoc) || [] : [];
schemas = Object.keys(discriminators).
reduce(function(cur, discriminator) {
const tiedValue = discriminators[discriminator].discriminatorMapping.value;
if (doc == null || keys.indexOf(discriminator) !== -1 || keys.indexOf(tiedValue) !== -1) {
cur.push(discriminators[discriminator]);
}
return cur;
}, []);
}
// Now that we found the array, we need to check if there
// are remaining document paths to look up for casting.
// Also we need to handle array.$.path since schema.path
// doesn't work for that.
// If there is no foundschema.schema we are dealing with
// a path like array.$
if (p !== parts.length && foundschema.schema) {
let ret;
if (parts[p] === '$') {
if (p + 1 === parts.length) {
// comments.$
return foundschema;
}
// comments.$.comments.$.title
ret = search(
parts.slice(p + 1),
schema,
subdoc ? mpath.get(trypath, subdoc) : null,
nestedPath.concat(parts.slice(0, p))
);
if (ret) {
ret.$isUnderneathDocArray = ret.$isUnderneathDocArray ||
!foundschema.schema.$isSingleNested;
}
return ret;
}
if (schemas != null && schemas.length > 0) {
ret = [];
for (const schema of schemas) {
const _ret = search(
parts.slice(p),
schema,
subdoc ? mpath.get(trypath, subdoc) : null,
nestedPath.concat(parts.slice(0, p))
);
if (_ret != null) {
_ret.$isUnderneathDocArray = _ret.$isUnderneathDocArray ||
!foundschema.schema.$isSingleNested;
if (_ret.$isUnderneathDocArray) {
ret.$isUnderneathDocArray = true;
}
ret.push(_ret);
}
}
return ret;
} else {
ret = search(
parts.slice(p),
foundschema.schema,
subdoc ? mpath.get(trypath, subdoc) : null,
nestedPath.concat(parts.slice(0, p))
);
if (ret) {
ret.$isUnderneathDocArray = ret.$isUnderneathDocArray ||
!foundschema.schema.$isSingleNested;
}
return ret;
}
} else if (p !== parts.length &&
foundschema.$isMongooseArray &&
foundschema.casterConstructor.$isMongooseArray) {
// Nested arrays. Drill down to the bottom of the nested array.
let type = foundschema;
while (type.$isMongooseArray && !type.$isMongooseDocumentArray) {
type = type.casterConstructor;
}
const ret = search(
parts.slice(p),
type.schema,
null,
nestedPath.concat(parts.slice(0, p))
);
if (ret != null) {
return ret;
}
if (type.schema.discriminators) {
const discriminatorPaths = [];
for (const discriminatorName of Object.keys(type.schema.discriminators)) {
const _schema = type.schema.discriminators[discriminatorName] || type.schema;
const ret = search(parts.slice(p), _schema, null, nestedPath.concat(parts.slice(0, p)));
if (ret != null) {
discriminatorPaths.push(ret);
}
}
if (discriminatorPaths.length > 0) {
return discriminatorPaths;
}
}
}
}
const fullPath = nestedPath.concat([trypath]).join('.');
if (topLevelDoc != null && topLevelDoc.$__ && topLevelDoc.populated(fullPath) && p < parts.length) {
const model = doc.$__.populated[fullPath].options[populateModelSymbol];
if (model != null) {
const ret = search(
parts.slice(p),
model.schema,
subdoc ? mpath.get(trypath, subdoc) : null,
nestedPath.concat(parts.slice(0, p))
);
if (ret) {
ret.$isUnderneathDocArray = ret.$isUnderneathDocArray ||
!model.schema.$isSingleNested;
}
return ret;
}
}
const _val = get(topLevelDoc, trypath);
if (_val != null) {
const model = Array.isArray(_val) && _val.length > 0 ?
leanPopulateMap.get(_val[0]) :
leanPopulateMap.get(_val);
// Populated using lean, `leanPopulateMap` value is the foreign model
const schema = model != null ? model.schema : null;
if (schema != null) {
const ret = search(
parts.slice(p),
schema,
subdoc ? mpath.get(trypath, subdoc) : null,
nestedPath.concat(parts.slice(0, p))
);
if (ret != null) {
ret.$isUnderneathDocArray = ret.$isUnderneathDocArray ||
!schema.$isSingleNested;
return ret;
}
}
}
return foundschema;
}
}
// look for arrays
const parts = path.split('.');
for (let i = 0; i < parts.length; ++i) {
if (parts[i] === '$') {
// Re: gh-5628, because `schema.path()` doesn't take $ into account.
parts[i] = '0';
}
}
return search(parts, schema, doc, []);
};

72
node_modules/mongoose/lib/helpers/populate/getVirtual.js generated vendored Normal file
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'use strict';
module.exports = getVirtual;
/*!
* ignore
*/
function getVirtual(schema, name) {
if (schema.virtuals[name]) {
return { virtual: schema.virtuals[name], path: void 0 };
}
const parts = name.split('.');
let cur = '';
let nestedSchemaPath = '';
for (let i = 0; i < parts.length; ++i) {
cur += (cur.length > 0 ? '.' : '') + parts[i];
if (schema.virtuals[cur]) {
if (i === parts.length - 1) {
return { virtual: schema.virtuals[cur], path: nestedSchemaPath };
}
continue;
}
if (schema.nested[cur]) {
continue;
}
if (schema.paths[cur] && schema.paths[cur].schema) {
schema = schema.paths[cur].schema;
const rest = parts.slice(i + 1).join('.');
if (schema.virtuals[rest]) {
if (i === parts.length - 2) {
return {
virtual: schema.virtuals[rest],
nestedSchemaPath: [nestedSchemaPath, cur].filter(v => !!v).join('.')
};
}
continue;
}
if (i + 1 < parts.length && schema.discriminators) {
for (const key of Object.keys(schema.discriminators)) {
const res = getVirtual(schema.discriminators[key], rest);
if (res != null) {
const _path = [nestedSchemaPath, cur, res.nestedSchemaPath].
filter(v => !!v).join('.');
return {
virtual: res.virtual,
nestedSchemaPath: _path
};
}
}
}
nestedSchemaPath += (nestedSchemaPath.length > 0 ? '.' : '') + cur;
cur = '';
continue;
}
if (schema.discriminators) {
for (const discriminatorKey of Object.keys(schema.discriminators)) {
const virtualFromDiscriminator = getVirtual(schema.discriminators[discriminatorKey], name);
if (virtualFromDiscriminator) return virtualFromDiscriminator;
}
}
return null;
}
}

7
node_modules/mongoose/lib/helpers/populate/leanPopulateMap.js generated vendored Normal file
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'use strict';
/*!
* ignore
*/
module.exports = new WeakMap();

28
node_modules/mongoose/lib/helpers/populate/lookupLocalFields.js generated vendored Normal file
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@@ -0,0 +1,28 @@
'use strict';
module.exports = function lookupLocalFields(cur, path, val) {
if (cur == null) {
return cur;
}
if (cur._doc != null) {
cur = cur._doc;
}
if (arguments.length >= 3) {
if (typeof cur !== 'object') {
return void 0;
}
cur[path] = val;
return val;
}
// Support populating paths under maps using `map.$*.subpath`
if (path === '$*') {
return cur instanceof Map ?
Array.from(cur.values()) :
Object.keys(cur).map(key => cur[key]);
}
return cur[path];
};

45
node_modules/mongoose/lib/helpers/populate/normalizeRefPath.js generated vendored Normal file
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@@ -0,0 +1,45 @@
'use strict';
module.exports = function normalizeRefPath(refPath, doc, populatedPath) {
if (refPath == null) {
return refPath;
}
if (typeof refPath === 'function') {
refPath = refPath.call(doc, doc, populatedPath);
}
// If populated path has numerics, the end `refPath` should too. For example,
// if populating `a.0.b` instead of `a.b` and `b` has `refPath = a.c`, we
// should return `a.0.c` for the refPath.
const hasNumericProp = /(\.\d+$|\.\d+\.)/g;
if (hasNumericProp.test(populatedPath)) {
const chunks = populatedPath.split(hasNumericProp);
if (chunks[chunks.length - 1] === '') {
throw new Error('Can\'t populate individual element in an array');
}
let _refPath = '';
let _remaining = refPath;
// 2nd, 4th, etc. will be numeric props. For example: `[ 'a', '.0.', 'b' ]`
for (let i = 0; i < chunks.length; i += 2) {
const chunk = chunks[i];
if (_remaining.startsWith(chunk + '.')) {
_refPath += _remaining.substr(0, chunk.length) + chunks[i + 1];
_remaining = _remaining.substr(chunk.length + 1);
} else if (i === chunks.length - 1) {
_refPath += _remaining;
_remaining = '';
break;
} else {
throw new Error('Could not normalize ref path, chunk ' + chunk + ' not in populated path');
}
}
return _refPath;
}
return refPath;
};

31
node_modules/mongoose/lib/helpers/populate/removeDeselectedForeignField.js generated vendored Normal file
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'use strict';
const get = require('../get');
const mpath = require('mpath');
const parseProjection = require('../projection/parseProjection');
/*!
* ignore
*/
module.exports = function removeDeselectedForeignField(foreignFields, options, docs) {
const projection = parseProjection(get(options, 'select', null), true) ||
parseProjection(get(options, 'options.select', null), true);
if (projection == null) {
return;
}
for (const foreignField of foreignFields) {
if (!projection.hasOwnProperty('-' + foreignField)) {
continue;
}
for (const val of docs) {
if (val.$__ != null) {
mpath.unset(foreignField, val._doc);
} else {
mpath.unset(foreignField, val);
}
}
}
};

19
node_modules/mongoose/lib/helpers/populate/validateRef.js generated vendored Normal file
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@@ -0,0 +1,19 @@
'use strict';
const MongooseError = require('../../error/mongooseError');
const util = require('util');
module.exports = validateRef;
function validateRef(ref, path) {
if (typeof ref === 'string') {
return;
}
if (typeof ref === 'function') {
return;
}
throw new MongooseError('Invalid ref at path "' + path + '". Got ' +
util.inspect(ref, { depth: 0 }));
}

15
node_modules/mongoose/lib/helpers/printJestWarning.js generated vendored Normal file
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@@ -0,0 +1,15 @@
'use strict';
if (typeof jest !== 'undefined' && typeof window !== 'undefined') {
console.warn('Mongoose: looks like you\'re trying to test a Mongoose app ' +
'with Jest\'s default jsdom test environment. Please make sure you read ' +
'Mongoose\'s docs on configuring Jest to test Node.js apps: ' +
'http://mongoosejs.com/docs/jest.html');
}
if (typeof jest !== 'undefined' && process.nextTick.toString().indexOf('nextTick') === -1) {
console.warn('Mongoose: looks like you\'re trying to test a Mongoose app ' +
'with Jest\'s mock timers enabled. Please make sure you read ' +
'Mongoose\'s docs on configuring Jest to test Node.js apps: ' +
'http://mongoosejs.com/docs/jest.html');
}

18
node_modules/mongoose/lib/helpers/projection/isDefiningProjection.js generated vendored Normal file
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'use strict';
/*!
* ignore
*/
module.exports = function isDefiningProjection(val) {
if (val == null) {
// `undefined` or `null` become exclusive projections
return true;
}
if (typeof val === 'object') {
// Only cases where a value does **not** define whether the whole projection
// is inclusive or exclusive are `$meta` and `$slice`.
return !('$meta' in val) && !('$slice' in val);
}
return true;
};

32
node_modules/mongoose/lib/helpers/projection/isExclusive.js generated vendored Normal file
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'use strict';
const isDefiningProjection = require('./isDefiningProjection');
/*!
* ignore
*/
module.exports = function isExclusive(projection) {
if (projection == null) {
return null;
}
const keys = Object.keys(projection);
let ki = keys.length;
let exclude = null;
if (ki === 1 && keys[0] === '_id') {
exclude = !!projection[keys[ki]];
} else {
while (ki--) {
// Does this projection explicitly define inclusion/exclusion?
// Explicitly avoid `$meta` and `$slice`
if (keys[ki] !== '_id' && isDefiningProjection(projection[keys[ki]])) {
exclude = !projection[keys[ki]];
break;
}
}
}
return exclude;
};

34
node_modules/mongoose/lib/helpers/projection/isInclusive.js generated vendored Normal file
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@@ -0,0 +1,34 @@
'use strict';
const isDefiningProjection = require('./isDefiningProjection');
/*!
* ignore
*/
module.exports = function isInclusive(projection) {
if (projection == null) {
return false;
}
const props = Object.keys(projection);
const numProps = props.length;
if (numProps === 0) {
return false;
}
for (let i = 0; i < numProps; ++i) {
const prop = props[i];
// Plus paths can't define the projection (see gh-7050)
if (prop.startsWith('+')) {
continue;
}
// If field is truthy (1, true, etc.) and not an object, then this
// projection must be inclusive. If object, assume its $meta, $slice, etc.
if (isDefiningProjection(projection[prop]) && !!projection[prop]) {
return true;
}
}
return false;
};

35
node_modules/mongoose/lib/helpers/projection/isPathExcluded.js generated vendored Normal file
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@@ -0,0 +1,35 @@
'use strict';
const isDefiningProjection = require('./isDefiningProjection');
/*!
* Determines if `path` is excluded by `projection`
*
* @param {Object} projection
* @param {string} path
* @return {Boolean}
*/
module.exports = function isPathExcluded(projection, path) {
if (path === '_id') {
return projection._id === 0;
}
const paths = Object.keys(projection);
let type = null;
for (const _path of paths) {
if (isDefiningProjection(projection[_path])) {
type = projection[path] === 1 ? 'inclusive' : 'exclusive';
break;
}
}
if (type === 'inclusive') {
return projection[path] !== 1;
}
if (type === 'exclusive') {
return projection[path] === 0;
}
return false;
};

28
node_modules/mongoose/lib/helpers/projection/isPathSelectedInclusive.js generated vendored Normal file
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@@ -0,0 +1,28 @@
'use strict';
/*!
* ignore
*/
module.exports = function isPathSelectedInclusive(fields, path) {
const chunks = path.split('.');
let cur = '';
let j;
let keys;
let numKeys;
for (let i = 0; i < chunks.length; ++i) {
cur += cur.length ? '.' : '' + chunks[i];
if (fields[cur]) {
keys = Object.keys(fields);
numKeys = keys.length;
for (j = 0; j < numKeys; ++j) {
if (keys[i].indexOf(cur + '.') === 0 && keys[i].indexOf(path) !== 0) {
continue;
}
}
return true;
}
}
return false;
};

33
node_modules/mongoose/lib/helpers/projection/parseProjection.js generated vendored Normal file
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@@ -0,0 +1,33 @@
'use strict';
/**
* Convert a string or array into a projection object, retaining all
* `-` and `+` paths.
*/
module.exports = function parseProjection(v, retainMinusPaths) {
const type = typeof v;
if (type === 'string') {
v = v.split(/\s+/);
}
if (!Array.isArray(v) && Object.prototype.toString.call(v) !== '[object Arguments]') {
return v;
}
const len = v.length;
const ret = {};
for (let i = 0; i < len; ++i) {
let field = v[i];
if (!field) {
continue;
}
const include = '-' == field[0] ? 0 : 1;
if (!retainMinusPaths && include === 0) {
field = field.substring(1);
}
ret[field] = include;
}
return ret;
};

46
node_modules/mongoose/lib/helpers/promiseOrCallback.js generated vendored Normal file
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@@ -0,0 +1,46 @@
'use strict';
const PromiseProvider = require('../promise_provider');
const immediate = require('./immediate');
const emittedSymbol = Symbol('mongoose:emitted');
module.exports = function promiseOrCallback(callback, fn, ee, Promise) {
if (typeof callback === 'function') {
return fn(function(error) {
if (error != null) {
if (ee != null && ee.listeners != null && ee.listeners('error').length > 0 && !error[emittedSymbol]) {
error[emittedSymbol] = true;
ee.emit('error', error);
}
try {
callback(error);
} catch (error) {
return immediate(() => {
throw error;
});
}
return;
}
callback.apply(this, arguments);
});
}
Promise = Promise || PromiseProvider.get();
return new Promise((resolve, reject) => {
fn(function(error, res) {
if (error != null) {
if (ee != null && ee.listeners != null && ee.listeners('error').length > 0 && !error[emittedSymbol]) {
error[emittedSymbol] = true;
ee.emit('error', error);
}
return reject(error);
}
if (arguments.length > 2) {
return resolve(Array.prototype.slice.call(arguments, 1));
}
resolve(res);
});
});
};

15
node_modules/mongoose/lib/helpers/query/applyGlobalMaxTimeMS.js generated vendored Normal file
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@@ -0,0 +1,15 @@
'use strict';
const utils = require('../../utils');
module.exports = function applyGlobalMaxTimeMS(options, model) {
if (utils.hasUserDefinedProperty(options, 'maxTimeMS')) {
return;
}
if (utils.hasUserDefinedProperty(model.db.options, 'maxTimeMS')) {
options.maxTimeMS = model.db.options.maxTimeMS;
} else if (utils.hasUserDefinedProperty(model.base.options, 'maxTimeMS')) {
options.maxTimeMS = model.base.options.maxTimeMS;
}
};

93
node_modules/mongoose/lib/helpers/query/applyQueryMiddleware.js generated vendored Normal file
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'use strict';
/*!
* ignore
*/
module.exports = applyQueryMiddleware;
/*!
* ignore
*/
applyQueryMiddleware.middlewareFunctions = [
'count',
'countDocuments',
'deleteMany',
'deleteOne',
'distinct',
'estimatedDocumentCount',
'find',
'findOne',
'findOneAndDelete',
'findOneAndRemove',
'findOneAndReplace',
'findOneAndUpdate',
'remove',
'replaceOne',
'update',
'updateMany',
'updateOne',
'validate'
];
/*!
* Apply query middleware
*
* @param {Query} query constructor
* @param {Model} model
*/
function applyQueryMiddleware(Query, model) {
const kareemOptions = {
useErrorHandlers: true,
numCallbackParams: 1,
nullResultByDefault: true
};
const middleware = model.hooks.filter(hook => {
const contexts = _getContexts(hook);
if (hook.name === 'updateOne') {
return contexts.query == null || !!contexts.query;
}
if (hook.name === 'deleteOne') {
return !!contexts.query || Object.keys(contexts).length === 0;
}
if (hook.name === 'validate' || hook.name === 'remove') {
return !!contexts.query;
}
if (hook.query != null || hook.document != null) {
return !!hook.query;
}
return true;
});
// `update()` thunk has a different name because `_update` was already taken
Query.prototype._execUpdate = middleware.createWrapper('update',
Query.prototype._execUpdate, null, kareemOptions);
// `distinct()` thunk has a different name because `_distinct` was already taken
Query.prototype.__distinct = middleware.createWrapper('distinct',
Query.prototype.__distinct, null, kareemOptions);
// `validate()` doesn't have a thunk because it doesn't execute a query.
Query.prototype.validate = middleware.createWrapper('validate',
Query.prototype.validate, null, kareemOptions);
applyQueryMiddleware.middlewareFunctions.
filter(v => v !== 'update' && v !== 'distinct' && v !== 'validate').
forEach(fn => {
Query.prototype[`_${fn}`] = middleware.createWrapper(fn,
Query.prototype[`_${fn}`], null, kareemOptions);
});
}
function _getContexts(hook) {
const ret = {};
if (hook.hasOwnProperty('query')) {
ret.query = hook.query;
}
if (hook.hasOwnProperty('document')) {
ret.document = hook.document;
}
return ret;
}

55
node_modules/mongoose/lib/helpers/query/castFilterPath.js generated vendored Normal file
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@@ -0,0 +1,55 @@
'use strict';
const isOperator = require('./isOperator');
module.exports = function castFilterPath(query, schematype, val) {
const ctx = query;
const any$conditionals = Object.keys(val).some(isOperator);
if (!any$conditionals) {
return schematype.castForQueryWrapper({
val: val,
context: ctx
});
}
const ks = Object.keys(val);
let k = ks.length;
while (k--) {
const $cond = ks[k];
const nested = val[$cond];
if ($cond === '$not') {
if (nested && schematype && !schematype.caster) {
const _keys = Object.keys(nested);
if (_keys.length && isOperator(_keys[0])) {
for (const key of Object.keys(nested)) {
nested[key] = schematype.castForQueryWrapper({
$conditional: key,
val: nested[key],
context: ctx
});
}
} else {
val[$cond] = schematype.castForQueryWrapper({
$conditional: $cond,
val: nested,
context: ctx
});
}
continue;
}
// cast(schematype.caster ? schematype.caster.schema : schema, nested, options, context);
} else {
val[$cond] = schematype.castForQueryWrapper({
$conditional: $cond,
val: nested,
context: ctx
});
}
}
return val;
};

554
node_modules/mongoose/lib/helpers/query/castUpdate.js generated vendored Normal file
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@@ -0,0 +1,554 @@
'use strict';
const CastError = require('../../error/cast');
const MongooseError = require('../../error/mongooseError');
const StrictModeError = require('../../error/strict');
const ValidationError = require('../../error/validation');
const castNumber = require('../../cast/number');
const cast = require('../../cast');
const getEmbeddedDiscriminatorPath = require('./getEmbeddedDiscriminatorPath');
const handleImmutable = require('./handleImmutable');
const moveImmutableProperties = require('../update/moveImmutableProperties');
const schemaMixedSymbol = require('../../schema/symbols').schemaMixedSymbol;
const setDottedPath = require('../path/setDottedPath');
const utils = require('../../utils');
/*!
* Casts an update op based on the given schema
*
* @param {Schema} schema
* @param {Object} obj
* @param {Object} options
* @param {Boolean} [options.overwrite] defaults to false
* @param {Boolean|String} [options.strict] defaults to true
* @param {Query} context passed to setters
* @return {Boolean} true iff the update is non-empty
*/
module.exports = function castUpdate(schema, obj, options, context, filter) {
if (obj == null) {
return undefined;
}
options = options || {};
// Update pipeline
if (Array.isArray(obj)) {
const len = obj.length;
for (let i = 0; i < len; ++i) {
const ops = Object.keys(obj[i]);
for (const op of ops) {
obj[i][op] = castPipelineOperator(op, obj[i][op]);
}
}
return obj;
}
if (options.upsert) {
moveImmutableProperties(schema, obj, context);
}
const ops = Object.keys(obj);
let i = ops.length;
const ret = {};
let val;
let hasDollarKey = false;
const overwrite = options.overwrite;
filter = filter || {};
while (i--) {
const op = ops[i];
// if overwrite is set, don't do any of the special $set stuff
if (op[0] !== '$' && !overwrite) {
// fix up $set sugar
if (!ret.$set) {
if (obj.$set) {
ret.$set = obj.$set;
} else {
ret.$set = {};
}
}
ret.$set[op] = obj[op];
ops.splice(i, 1);
if (!~ops.indexOf('$set')) ops.push('$set');
} else if (op === '$set') {
if (!ret.$set) {
ret[op] = obj[op];
}
} else {
ret[op] = obj[op];
}
}
// cast each value
i = ops.length;
while (i--) {
const op = ops[i];
val = ret[op];
hasDollarKey = hasDollarKey || op.startsWith('$');
if (val &&
typeof val === 'object' &&
!Buffer.isBuffer(val) &&
(!overwrite || hasDollarKey)) {
walkUpdatePath(schema, val, op, options, context, filter);
} else if (overwrite && ret && typeof ret === 'object') {
walkUpdatePath(schema, ret, '$set', options, context, filter);
} else {
const msg = 'Invalid atomic update value for ' + op + '. '
+ 'Expected an object, received ' + typeof val;
throw new Error(msg);
}
if (op.startsWith('$') && utils.isEmptyObject(val)) {
delete ret[op];
}
}
if (Object.keys(ret).length === 0 &&
options.upsert &&
Object.keys(filter).length > 0) {
// Trick the driver into allowing empty upserts to work around
// https://github.com/mongodb/node-mongodb-native/pull/2490
return { $setOnInsert: filter };
}
return ret;
};
/*!
* ignore
*/
function castPipelineOperator(op, val) {
if (op === '$unset') {
if (!Array.isArray(val) || val.find(v => typeof v !== 'string')) {
throw new MongooseError('Invalid $unset in pipeline, must be ' +
'an array of strings');
}
return val;
}
if (op === '$project') {
if (val == null || typeof val !== 'object') {
throw new MongooseError('Invalid $project in pipeline, must be an object');
}
return val;
}
if (op === '$addFields' || op === '$set') {
if (val == null || typeof val !== 'object') {
throw new MongooseError('Invalid ' + op + ' in pipeline, must be an object');
}
return val;
} else if (op === '$replaceRoot' || op === '$replaceWith') {
if (val == null || typeof val !== 'object') {
throw new MongooseError('Invalid ' + op + ' in pipeline, must be an object');
}
return val;
}
throw new MongooseError('Invalid update pipeline operator: "' + op + '"');
}
/*!
* Walk each path of obj and cast its values
* according to its schema.
*
* @param {Schema} schema
* @param {Object} obj - part of a query
* @param {String} op - the atomic operator ($pull, $set, etc)
* @param {Object} options
* @param {Boolean|String} [options.strict]
* @param {Boolean} [options.omitUndefined]
* @param {Query} context
* @param {String} pref - path prefix (internal only)
* @return {Bool} true if this path has keys to update
* @api private
*/
function walkUpdatePath(schema, obj, op, options, context, filter, pref) {
const strict = options.strict;
const prefix = pref ? pref + '.' : '';
const keys = Object.keys(obj);
let i = keys.length;
let hasKeys = false;
let schematype;
let key;
let val;
let aggregatedError = null;
let useNestedStrict;
if (options.useNestedStrict === undefined) {
useNestedStrict = schema.options.useNestedStrict;
} else {
useNestedStrict = options.useNestedStrict;
}
while (i--) {
key = keys[i];
val = obj[key];
// `$pull` is special because we need to cast the RHS as a query, not as
// an update.
if (op === '$pull') {
schematype = schema._getSchema(prefix + key);
if (schematype != null && schematype.schema != null) {
obj[key] = cast(schematype.schema, obj[key], options, context);
hasKeys = true;
continue;
}
}
if (val && val.constructor.name === 'Object') {
// watch for embedded doc schemas
schematype = schema._getSchema(prefix + key);
if (schematype == null) {
const _res = getEmbeddedDiscriminatorPath(schema, obj, filter, prefix + key, options);
if (_res.schematype != null) {
schematype = _res.schematype;
}
}
if (op !== '$setOnInsert' &&
handleImmutable(schematype, strict, obj, key, prefix + key, context)) {
continue;
}
if (schematype && schematype.caster && op in castOps) {
// embedded doc schema
if ('$each' in val) {
hasKeys = true;
try {
obj[key] = {
$each: castUpdateVal(schematype, val.$each, op, key, context, prefix + key)
};
} catch (error) {
aggregatedError = _handleCastError(error, context, key, aggregatedError);
}
if (val.$slice != null) {
obj[key].$slice = val.$slice | 0;
}
if (val.$sort) {
obj[key].$sort = val.$sort;
}
if (val.$position != null) {
obj[key].$position = castNumber(val.$position);
}
} else {
if (schematype != null && schematype.$isSingleNested) {
// Special case to make sure `strict` bubbles down correctly to
// single nested re: gh-8735
let _strict = strict;
if (useNestedStrict !== false && schematype.schema.options.hasOwnProperty('strict')) {
_strict = schematype.schema.options.strict;
} else if (useNestedStrict === false) {
_strict = schema.options.strict;
}
try {
obj[key] = schematype.castForQuery(val, context, { strict: _strict });
} catch (error) {
aggregatedError = _handleCastError(error, context, key, aggregatedError);
}
} else {
try {
obj[key] = castUpdateVal(schematype, val, op, key, context, prefix + key);
} catch (error) {
aggregatedError = _handleCastError(error, context, key, aggregatedError);
}
}
if (options.omitUndefined && obj[key] === void 0) {
delete obj[key];
continue;
}
hasKeys = true;
}
} else if ((op === '$currentDate') || (op in castOps && schematype)) {
// $currentDate can take an object
try {
obj[key] = castUpdateVal(schematype, val, op, key, context, prefix + key);
} catch (error) {
aggregatedError = _handleCastError(error, context, key, aggregatedError);
}
if (options.omitUndefined && obj[key] === void 0) {
delete obj[key];
continue;
}
hasKeys = true;
} else {
const pathToCheck = (prefix + key);
const v = schema._getPathType(pathToCheck);
let _strict = strict;
if (useNestedStrict &&
v &&
v.schema &&
'strict' in v.schema.options) {
_strict = v.schema.options.strict;
}
if (v.pathType === 'undefined') {
if (_strict === 'throw') {
throw new StrictModeError(pathToCheck);
} else if (_strict) {
delete obj[key];
continue;
}
}
// gh-2314
// we should be able to set a schema-less field
// to an empty object literal
hasKeys |= walkUpdatePath(schema, val, op, options, context, filter, prefix + key) ||
(utils.isObject(val) && Object.keys(val).length === 0);
}
} else {
const checkPath = (key === '$each' || key === '$or' || key === '$and' || key === '$in') ?
pref : prefix + key;
schematype = schema._getSchema(checkPath);
// You can use `$setOnInsert` with immutable keys
if (op !== '$setOnInsert' &&
handleImmutable(schematype, strict, obj, key, prefix + key, context)) {
continue;
}
let pathDetails = schema._getPathType(checkPath);
// If no schema type, check for embedded discriminators because the
// filter or update may imply an embedded discriminator type. See #8378
if (schematype == null) {
const _res = getEmbeddedDiscriminatorPath(schema, obj, filter, checkPath, options);
if (_res.schematype != null) {
schematype = _res.schematype;
pathDetails = _res.type;
}
}
let isStrict = strict;
if (useNestedStrict &&
pathDetails &&
pathDetails.schema &&
'strict' in pathDetails.schema.options) {
isStrict = pathDetails.schema.options.strict;
}
const skip = isStrict &&
!schematype &&
!/real|nested/.test(pathDetails.pathType);
if (skip) {
// Even if strict is `throw`, avoid throwing an error because of
// virtuals because of #6731
if (isStrict === 'throw' && schema.virtuals[checkPath] == null) {
throw new StrictModeError(prefix + key);
} else {
delete obj[key];
}
} else {
// gh-1845 temporary fix: ignore $rename. See gh-3027 for tracking
// improving this.
if (op === '$rename') {
hasKeys = true;
continue;
}
try {
if (prefix.length === 0 || key.indexOf('.') === -1) {
obj[key] = castUpdateVal(schematype, val, op, key, context, prefix + key);
} else {
// Setting a nested dotted path that's in the schema. We don't allow paths with '.' in
// a schema, so replace the dotted path with a nested object to avoid ending up with
// dotted properties in the updated object. See (gh-10200)
setDottedPath(obj, key, castUpdateVal(schematype, val, op, key, context, prefix + key));
delete obj[key];
}
} catch (error) {
aggregatedError = _handleCastError(error, context, key, aggregatedError);
}
if (Array.isArray(obj[key]) && (op === '$addToSet' || op === '$push') && key !== '$each') {
if (schematype && schematype.caster && !schematype.caster.$isMongooseArray) {
obj[key] = { $each: obj[key] };
}
}
if (options.omitUndefined && obj[key] === void 0) {
delete obj[key];
continue;
}
hasKeys = true;
}
}
}
if (aggregatedError != null) {
throw aggregatedError;
}
return hasKeys;
}
/*!
* ignore
*/
function _handleCastError(error, query, key, aggregatedError) {
if (typeof query !== 'object' || !query.options.multipleCastError) {
throw error;
}
aggregatedError = aggregatedError || new ValidationError();
aggregatedError.addError(key, error);
return aggregatedError;
}
/*!
* These operators should be cast to numbers instead
* of their path schema type.
*/
const numberOps = {
$pop: 1,
$inc: 1
};
/*!
* These ops require no casting because the RHS doesn't do anything.
*/
const noCastOps = {
$unset: 1
};
/*!
* These operators require casting docs
* to real Documents for Update operations.
*/
const castOps = {
$push: 1,
$addToSet: 1,
$set: 1,
$setOnInsert: 1
};
/*!
* ignore
*/
const overwriteOps = {
$set: 1,
$setOnInsert: 1
};
/*!
* Casts `val` according to `schema` and atomic `op`.
*
* @param {SchemaType} schema
* @param {Object} val
* @param {String} op - the atomic operator ($pull, $set, etc)
* @param {String} $conditional
* @param {Query} context
* @api private
*/
function castUpdateVal(schema, val, op, $conditional, context, path) {
if (!schema) {
// non-existing schema path
if (op in numberOps) {
try {
return castNumber(val);
} catch (err) {
throw new CastError('number', val, path);
}
}
return val;
}
const cond = schema.caster && op in castOps &&
(utils.isObject(val) || Array.isArray(val));
if (cond && !overwriteOps[op]) {
// Cast values for ops that add data to MongoDB.
// Ensures embedded documents get ObjectIds etc.
let schemaArrayDepth = 0;
let cur = schema;
while (cur.$isMongooseArray) {
++schemaArrayDepth;
cur = cur.caster;
}
let arrayDepth = 0;
let _val = val;
while (Array.isArray(_val)) {
++arrayDepth;
_val = _val[0];
}
const additionalNesting = schemaArrayDepth - arrayDepth;
while (arrayDepth < schemaArrayDepth) {
val = [val];
++arrayDepth;
}
let tmp = schema.applySetters(Array.isArray(val) ? val : [val], context);
for (let i = 0; i < additionalNesting; ++i) {
tmp = tmp[0];
}
return tmp;
}
if (op in noCastOps) {
return val;
}
if (op in numberOps) {
// Null and undefined not allowed for $pop, $inc
if (val == null) {
throw new CastError('number', val, schema.path);
}
if (op === '$inc') {
// Support `$inc` with long, int32, etc. (gh-4283)
return schema.castForQueryWrapper({
val: val,
context: context
});
}
try {
return castNumber(val);
} catch (error) {
throw new CastError('number', val, schema.path);
}
}
if (op === '$currentDate') {
if (typeof val === 'object') {
return { $type: val.$type };
}
return Boolean(val);
}
if (/^\$/.test($conditional)) {
return schema.castForQueryWrapper({
$conditional: $conditional,
val: val,
context: context
});
}
if (overwriteOps[op]) {
return schema.castForQueryWrapper({
val: val,
context: context,
$skipQueryCastForUpdate: val != null && schema.$isMongooseArray && schema.$fullPath != null && !schema.$fullPath.match(/\d+$/),
$applySetters: schema[schemaMixedSymbol] != null
});
}
return schema.castForQueryWrapper({ val: val, context: context });
}

51
node_modules/mongoose/lib/helpers/query/completeMany.js generated vendored Normal file
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'use strict';
const helpers = require('../../queryhelpers');
const immediate = require('../immediate');
module.exports = completeMany;
/*!
* Given a model and an array of docs, hydrates all the docs to be instances
* of the model. Used to initialize docs returned from the db from `find()`
*
* @param {Model} model
* @param {Array} docs
* @param {Object} fields the projection used, including `select` from schemas
* @param {Object} userProvidedFields the user-specified projection
* @param {Object} opts
* @param {Array} [opts.populated]
* @param {ClientSession} [opts.session]
* @param {Function} callback
*/
function completeMany(model, docs, fields, userProvidedFields, opts, callback) {
const arr = [];
let count = docs.length;
const len = count;
let error = null;
function init(_error) {
if (_error != null) {
error = error || _error;
}
if (error != null) {
--count || immediate(() => callback(error));
return;
}
--count || immediate(() => callback(error, arr));
}
for (let i = 0; i < len; ++i) {
arr[i] = helpers.createModel(model, docs[i], fields, userProvidedFields);
try {
arr[i].init(docs[i], opts, init);
} catch (error) {
init(error);
}
if (opts.session != null) {
arr[i].$session(opts.session);
}
}
}

84
node_modules/mongoose/lib/helpers/query/getEmbeddedDiscriminatorPath.js generated vendored Normal file
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'use strict';
const cleanPositionalOperators = require('../schema/cleanPositionalOperators');
const get = require('../get');
const getDiscriminatorByValue = require('../discriminator/getDiscriminatorByValue');
const updatedPathsByArrayFilter = require('../update/updatedPathsByArrayFilter');
/*!
* Like `schema.path()`, except with a document, because impossible to
* determine path type without knowing the embedded discriminator key.
*/
module.exports = function getEmbeddedDiscriminatorPath(schema, update, filter, path, options) {
const parts = path.split('.');
let schematype = null;
let type = 'adhocOrUndefined';
filter = filter || {};
update = update || {};
const arrayFilters = options != null && Array.isArray(options.arrayFilters) ?
options.arrayFilters : [];
const updatedPathsByFilter = updatedPathsByArrayFilter(update);
for (let i = 0; i < parts.length; ++i) {
const subpath = cleanPositionalOperators(parts.slice(0, i + 1).join('.'));
schematype = schema.path(subpath);
if (schematype == null) {
continue;
}
type = schema.pathType(subpath);
if ((schematype.$isSingleNested || schematype.$isMongooseDocumentArrayElement) &&
schematype.schema.discriminators != null) {
const key = get(schematype, 'schema.options.discriminatorKey');
const discriminatorValuePath = subpath + '.' + key;
const discriminatorFilterPath =
discriminatorValuePath.replace(/\.\d+\./, '.');
let discriminatorKey = null;
if (discriminatorValuePath in filter) {
discriminatorKey = filter[discriminatorValuePath];
}
if (discriminatorFilterPath in filter) {
discriminatorKey = filter[discriminatorFilterPath];
}
const wrapperPath = subpath.replace(/\.\d+$/, '');
if (schematype.$isMongooseDocumentArrayElement &&
get(filter[wrapperPath], '$elemMatch.' + key) != null) {
discriminatorKey = filter[wrapperPath].$elemMatch[key];
}
if (discriminatorValuePath in update) {
discriminatorKey = update[discriminatorValuePath];
}
for (const filterKey of Object.keys(updatedPathsByFilter)) {
const schemaKey = updatedPathsByFilter[filterKey] + '.' + key;
const arrayFilterKey = filterKey + '.' + key;
if (schemaKey === discriminatorFilterPath) {
const filter = arrayFilters.find(filter => filter.hasOwnProperty(arrayFilterKey));
if (filter != null) {
discriminatorKey = filter[arrayFilterKey];
}
}
}
if (discriminatorKey == null) {
continue;
}
const discriminatorSchema = getDiscriminatorByValue(schematype.caster.discriminators, discriminatorKey).schema;
const rest = parts.slice(i + 1).join('.');
schematype = discriminatorSchema.path(rest);
if (schematype != null) {
type = discriminatorSchema._getPathType(rest);
break;
}
}
}
return { type: type, schematype: schematype };
};

28
node_modules/mongoose/lib/helpers/query/handleImmutable.js generated vendored Normal file
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'use strict';
const StrictModeError = require('../../error/strict');
module.exports = function handleImmutable(schematype, strict, obj, key, fullPath, ctx) {
if (schematype == null || !schematype.options || !schematype.options.immutable) {
return false;
}
let immutable = schematype.options.immutable;
if (typeof immutable === 'function') {
immutable = immutable.call(ctx, ctx);
}
if (!immutable) {
return false;
}
if (strict === false) {
return false;
}
if (strict === 'throw') {
throw new StrictModeError(null,
`Field ${fullPath} is immutable and strict = 'throw'`);
}
delete obj[key];
return true;
};

19
node_modules/mongoose/lib/helpers/query/hasDollarKeys.js generated vendored Normal file
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'use strict';
/*!
* ignore
*/
module.exports = function(obj) {
if (obj == null) {
return false;
}
const keys = Object.keys(obj);
const len = keys.length;
for (let i = 0; i < len; ++i) {
if (keys[i].startsWith('$')) {
return true;
}
}
return false;
};

11
node_modules/mongoose/lib/helpers/query/isOperator.js generated vendored Normal file
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'use strict';
const specialKeys = new Set([
'$ref',
'$id',
'$db'
]);
module.exports = function isOperator(path) {
return path.startsWith('$') && !specialKeys.has(path);
};

14
node_modules/mongoose/lib/helpers/query/sanitizeProjection.js generated vendored Normal file
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'use strict';
module.exports = function sanitizeProjection(projection) {
if (projection == null) {
return;
}
const keys = Object.keys(projection);
for (let i = 0; i < keys.length; ++i) {
if (typeof projection[keys[i]] === 'string') {
projection[keys[i]] = 1;
}
}
};

49
node_modules/mongoose/lib/helpers/query/selectPopulatedFields.js generated vendored Normal file
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'use strict';
const isExclusive = require('../projection/isExclusive');
const isInclusive = require('../projection/isInclusive');
/*!
* ignore
*/
module.exports = function selectPopulatedFields(fields, userProvidedFields, populateOptions) {
if (populateOptions == null) {
return;
}
const paths = Object.keys(populateOptions);
userProvidedFields = userProvidedFields || {};
if (isInclusive(fields)) {
for (const path of paths) {
if (!isPathInFields(userProvidedFields, path)) {
fields[path] = 1;
} else if (userProvidedFields[path] === 0) {
delete fields[path];
}
}
} else if (isExclusive(fields)) {
for (const path of paths) {
if (userProvidedFields[path] == null) {
delete fields[path];
}
}
}
};
/*!
* ignore
*/
function isPathInFields(userProvidedFields, path) {
const pieces = path.split('.');
const len = pieces.length;
let cur = pieces[0];
for (let i = 1; i < len; ++i) {
if (userProvidedFields[cur] != null || userProvidedFields[cur + '.$'] != null) {
return true;
}
cur += '.' + pieces[i];
}
return userProvidedFields[cur] != null || userProvidedFields[cur + '.$'] != null;
}

18
node_modules/mongoose/lib/helpers/query/wrapThunk.js generated vendored Normal file
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'use strict';
/*!
* A query thunk is the function responsible for sending the query to MongoDB,
* like `Query#_findOne()` or `Query#_execUpdate()`. The `Query#exec()` function
* calls a thunk. The term "thunk" here is the traditional Node.js definition:
* a function that takes exactly 1 parameter, a callback.
*
* This function defines common behavior for all query thunks.
*/
module.exports = function wrapThunk(fn) {
return function _wrappedThunk(cb) {
++this._executionCount;
fn.call(this, cb);
};
};

7
node_modules/mongoose/lib/helpers/schema/addAutoId.js generated vendored Normal file
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'use strict';
module.exports = function addAutoId(schema) {
const _obj = { _id: { auto: true } };
_obj._id[schema.options.typeKey] = 'ObjectId';
schema.add(_obj);
};

44
node_modules/mongoose/lib/helpers/schema/applyPlugins.js generated vendored Normal file
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'use strict';
module.exports = function applyPlugins(schema, plugins, options, cacheKey) {
if (schema[cacheKey]) {
return;
}
schema[cacheKey] = true;
if (!options || !options.skipTopLevel) {
for (const plugin of plugins) {
schema.plugin(plugin[0], plugin[1]);
}
}
options = Object.assign({}, options);
delete options.skipTopLevel;
if (options.applyPluginsToChildSchemas !== false) {
for (const path of Object.keys(schema.paths)) {
const type = schema.paths[path];
if (type.schema != null) {
applyPlugins(type.schema, plugins, options, cacheKey);
// Recompile schema because plugins may have changed it, see gh-7572
type.caster.prototype.$__setSchema(type.schema);
}
}
}
const discriminators = schema.discriminators;
if (discriminators == null) {
return;
}
const applyPluginsToDiscriminators = options.applyPluginsToDiscriminators;
const keys = Object.keys(discriminators);
for (const discriminatorKey of keys) {
const discriminatorSchema = discriminators[discriminatorKey];
applyPlugins(discriminatorSchema, plugins,
{ skipTopLevel: !applyPluginsToDiscriminators }, cacheKey);
}
};

30
node_modules/mongoose/lib/helpers/schema/applyWriteConcern.js generated vendored Normal file
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'use strict';
const get = require('../get');
module.exports = function applyWriteConcern(schema, options) {
const writeConcern = get(schema, 'options.writeConcern', {});
if (Object.keys(writeConcern).length != 0) {
options.writeConcern = {};
if (!('w' in options) && writeConcern.w != null) {
options.writeConcern.w = writeConcern.w;
}
if (!('j' in options) && writeConcern.j != null) {
options.writeConcern.j = writeConcern.j;
}
if (!('wtimeout' in options) && writeConcern.wtimeout != null) {
options.writeConcern.wtimeout = writeConcern.wtimeout;
}
}
else {
if (!('w' in options) && writeConcern.w != null) {
options.w = writeConcern.w;
}
if (!('j' in options) && writeConcern.j != null) {
options.j = writeConcern.j;
}
if (!('wtimeout' in options) && writeConcern.wtimeout != null) {
options.wtimeout = writeConcern.wtimeout;
}
}
};

12
node_modules/mongoose/lib/helpers/schema/cleanPositionalOperators.js generated vendored Normal file
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'use strict';
/**
* For consistency's sake, we replace positional operator `$` and array filters
* `$[]` and `$[foo]` with `0` when looking up schema paths.
*/
module.exports = function cleanPositionalOperators(path) {
return path.
replace(/\.\$(\[[^\]]*\])?(?=\.)/g, '.0').
replace(/\.\$(\[[^\]]*\])?$/g, '.0');
};

155
node_modules/mongoose/lib/helpers/schema/getIndexes.js generated vendored Normal file
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'use strict';
const get = require('../get');
const helperIsObject = require('../isObject');
/*!
* Gather all indexes defined in the schema, including single nested,
* document arrays, and embedded discriminators.
*/
module.exports = function getIndexes(schema) {
let indexes = [];
const schemaStack = new WeakMap();
const indexTypes = schema.constructor.indexTypes;
const indexByName = new Map();
collectIndexes(schema);
return indexes;
function collectIndexes(schema, prefix, baseSchema) {
// Ignore infinitely nested schemas, if we've already seen this schema
// along this path there must be a cycle
if (schemaStack.has(schema)) {
return;
}
schemaStack.set(schema, true);
prefix = prefix || '';
const keys = Object.keys(schema.paths);
for (const key of keys) {
const path = schema.paths[key];
if (baseSchema != null && baseSchema.paths[key]) {
// If looking at an embedded discriminator schema, don't look at paths
// that the
continue;
}
if (path.$isMongooseDocumentArray || path.$isSingleNested) {
if (get(path, 'options.excludeIndexes') !== true &&
get(path, 'schemaOptions.excludeIndexes') !== true &&
get(path, 'schema.options.excludeIndexes') !== true) {
collectIndexes(path.schema, prefix + key + '.');
}
if (path.schema.discriminators != null) {
const discriminators = path.schema.discriminators;
const discriminatorKeys = Object.keys(discriminators);
for (const discriminatorKey of discriminatorKeys) {
collectIndexes(discriminators[discriminatorKey],
prefix + key + '.', path.schema);
}
}
// Retained to minimize risk of backwards breaking changes due to
// gh-6113
if (path.$isMongooseDocumentArray) {
continue;
}
}
const index = path._index || (path.caster && path.caster._index);
if (index !== false && index !== null && index !== undefined) {
const field = {};
const isObject = helperIsObject(index);
const options = isObject ? index : {};
const type = typeof index === 'string' ? index :
isObject ? index.type :
false;
if (type && indexTypes.indexOf(type) !== -1) {
field[prefix + key] = type;
} else if (options.text) {
field[prefix + key] = 'text';
delete options.text;
} else {
const isDescendingIndex = Number(index) === -1;
field[prefix + key] = isDescendingIndex ? -1 : 1;
}
delete options.type;
if (!('background' in options)) {
options.background = true;
}
if (schema.options.autoIndex != null) {
options._autoIndex = schema.options.autoIndex;
}
const indexName = options && options.name;
if (typeof indexName === 'string') {
if (indexByName.has(indexName)) {
Object.assign(indexByName.get(indexName), field);
} else {
indexes.push([field, options]);
indexByName.set(indexName, field);
}
} else {
indexes.push([field, options]);
indexByName.set(indexName, field);
}
}
}
schemaStack.delete(schema);
if (prefix) {
fixSubIndexPaths(schema, prefix);
} else {
schema._indexes.forEach(function(index) {
if (!('background' in index[1])) {
index[1].background = true;
}
});
indexes = indexes.concat(schema._indexes);
}
}
/*!
* Checks for indexes added to subdocs using Schema.index().
* These indexes need their paths prefixed properly.
*
* schema._indexes = [ [indexObj, options], [indexObj, options] ..]
*/
function fixSubIndexPaths(schema, prefix) {
const subindexes = schema._indexes;
const len = subindexes.length;
for (let i = 0; i < len; ++i) {
const indexObj = subindexes[i][0];
const indexOptions = subindexes[i][1];
const keys = Object.keys(indexObj);
const klen = keys.length;
const newindex = {};
// use forward iteration, order matters
for (let j = 0; j < klen; ++j) {
const key = keys[j];
newindex[prefix + key] = indexObj[key];
}
const newIndexOptions = Object.assign({}, indexOptions);
if (indexOptions != null && indexOptions.partialFilterExpression != null) {
newIndexOptions.partialFilterExpression = {};
const partialFilterExpression = indexOptions.partialFilterExpression;
for (const key of Object.keys(partialFilterExpression)) {
newIndexOptions.partialFilterExpression[prefix + key] =
partialFilterExpression[key];
}
}
indexes.push([newindex, newIndexOptions]);
}
}
};

35
node_modules/mongoose/lib/helpers/schema/getPath.js generated vendored Normal file
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'use strict';
/*!
* Behaves like `Schema#path()`, except for it also digs into arrays without
* needing to put `.0.`, so `getPath(schema, 'docArr.elProp')` works.
*/
module.exports = function getPath(schema, path) {
let schematype = schema.path(path);
if (schematype != null) {
return schematype;
}
const pieces = path.split('.');
let cur = '';
let isArray = false;
for (const piece of pieces) {
if (/^\d+$/.test(piece) && isArray) {
continue;
}
cur = cur.length === 0 ? piece : cur + '.' + piece;
schematype = schema.path(cur);
if (schematype != null && schematype.schema) {
schema = schematype.schema;
cur = '';
if (schematype.$isMongooseDocumentArray) {
isArray = true;
}
}
}
return schematype;
};

20
node_modules/mongoose/lib/helpers/schema/handleIdOption.js generated vendored Normal file
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@@ -0,0 +1,20 @@
'use strict';
const addAutoId = require('./addAutoId');
module.exports = function handleIdOption(schema, options) {
if (options == null || options._id == null) {
return schema;
}
schema = schema.clone();
if (!options._id) {
schema.remove('_id');
schema.options._id = false;
} else if (!schema.paths['_id']) {
addAutoId(schema);
schema.options._id = true;
}
return schema;
};

24
node_modules/mongoose/lib/helpers/schema/handleTimestampOption.js generated vendored Normal file
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@@ -0,0 +1,24 @@
'use strict';
module.exports = handleTimestampOption;
/*!
* ignore
*/
function handleTimestampOption(arg, prop) {
if (arg == null) {
return null;
}
if (typeof arg === 'boolean') {
return prop;
}
if (typeof arg[prop] === 'boolean') {
return arg[prop] ? prop : null;
}
if (!(prop in arg)) {
return prop;
}
return arg[prop];
}

27
node_modules/mongoose/lib/helpers/schema/merge.js generated vendored Normal file
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@@ -0,0 +1,27 @@
'use strict';
module.exports = function merge(s1, s2, skipConflictingPaths) {
const paths = Object.keys(s2.tree);
const pathsToAdd = {};
for (const key of paths) {
if (skipConflictingPaths && (s1.paths[key] || s1.nested[key] || s1.singleNestedPaths[key])) {
continue;
}
pathsToAdd[key] = s2.tree[key];
}
s1.add(pathsToAdd);
s1.callQueue = s1.callQueue.concat(s2.callQueue);
s1.method(s2.methods);
s1.static(s2.statics);
for (const query in s2.query) {
s1.query[query] = s2.query[query];
}
for (const virtual in s2.virtuals) {
s1.virtuals[virtual] = s2.virtuals[virtual].clone();
}
s1.s.hooks.merge(s2.s.hooks, false);
};

45
node_modules/mongoose/lib/helpers/schematype/handleImmutable.js generated vendored Normal file
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'use strict';
const StrictModeError = require('../../error/strict');
/*!
* ignore
*/
module.exports = function(schematype) {
if (schematype.$immutable) {
schematype.$immutableSetter = createImmutableSetter(schematype.path,
schematype.options.immutable);
schematype.set(schematype.$immutableSetter);
} else if (schematype.$immutableSetter) {
schematype.setters = schematype.setters.
filter(fn => fn !== schematype.$immutableSetter);
delete schematype.$immutableSetter;
}
};
function createImmutableSetter(path, immutable) {
return function immutableSetter(v) {
if (this == null || this.$__ == null) {
return v;
}
if (this.isNew) {
return v;
}
const _immutable = typeof immutable === 'function' ?
immutable.call(this, this) :
immutable;
if (!_immutable) {
return v;
}
const _value = this.$__getValue(path);
if (this.$__.strictMode === 'throw' && v !== _value) {
throw new StrictModeError(path, 'Path `' + path + '` is immutable ' +
'and strict mode is set to throw.', true);
}
return _value;
};
}

127
node_modules/mongoose/lib/helpers/setDefaultsOnInsert.js generated vendored Normal file
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'use strict';
const modifiedPaths = require('./common').modifiedPaths;
const get = require('./get');
/**
* Applies defaults to update and findOneAndUpdate operations.
*
* @param {Object} filter
* @param {Schema} schema
* @param {Object} castedDoc
* @param {Object} options
* @method setDefaultsOnInsert
* @api private
*/
module.exports = function(filter, schema, castedDoc, options) {
options = options || {};
const shouldSetDefaultsOnInsert =
options.setDefaultsOnInsert != null ?
options.setDefaultsOnInsert :
schema.base.options.setDefaultsOnInsert;
if (!options.upsert || !shouldSetDefaultsOnInsert) {
return castedDoc;
}
const keys = Object.keys(castedDoc || {});
const updatedKeys = {};
const updatedValues = {};
const numKeys = keys.length;
const modified = {};
let hasDollarUpdate = false;
for (let i = 0; i < numKeys; ++i) {
if (keys[i].startsWith('$')) {
modifiedPaths(castedDoc[keys[i]], '', modified);
hasDollarUpdate = true;
}
}
if (!hasDollarUpdate) {
modifiedPaths(castedDoc, '', modified);
}
const paths = Object.keys(filter);
const numPaths = paths.length;
for (let i = 0; i < numPaths; ++i) {
const path = paths[i];
const condition = filter[path];
if (condition && typeof condition === 'object') {
const conditionKeys = Object.keys(condition);
const numConditionKeys = conditionKeys.length;
let hasDollarKey = false;
for (let j = 0; j < numConditionKeys; ++j) {
if (conditionKeys[j].startsWith('$')) {
hasDollarKey = true;
break;
}
}
if (hasDollarKey) {
continue;
}
}
updatedKeys[path] = true;
modified[path] = true;
}
if (options && options.overwrite && !hasDollarUpdate) {
// Defaults will be set later, since we're overwriting we'll cast
// the whole update to a document
return castedDoc;
}
schema.eachPath(function(path, schemaType) {
// Skip single nested paths if underneath a map
const isUnderneathMap = schemaType.path.endsWith('.$*') ||
schemaType.path.indexOf('.$*.') !== -1;
if (schemaType.$isSingleNested && !isUnderneathMap) {
// Only handle nested schemas 1-level deep to avoid infinite
// recursion re: https://github.com/mongodb-js/mongoose-autopopulate/issues/11
schemaType.schema.eachPath(function(_path, _schemaType) {
if (_path === '_id' && _schemaType.auto) {
// Ignore _id if auto id so we don't create subdocs
return;
}
const def = _schemaType.getDefault(null, true);
if (!isModified(modified, path + '.' + _path) &&
typeof def !== 'undefined') {
castedDoc = castedDoc || {};
castedDoc.$setOnInsert = castedDoc.$setOnInsert || {};
castedDoc.$setOnInsert[path + '.' + _path] = def;
updatedValues[path + '.' + _path] = def;
}
});
} else {
const def = schemaType.getDefault(null, true);
if (!isModified(modified, path) && typeof def !== 'undefined') {
castedDoc = castedDoc || {};
castedDoc.$setOnInsert = castedDoc.$setOnInsert || {};
if (get(castedDoc, path) == null) {
castedDoc.$setOnInsert[path] = def;
}
updatedValues[path] = def;
}
}
});
return castedDoc;
};
function isModified(modified, path) {
if (modified[path]) {
return true;
}
const sp = path.split('.');
let cur = sp[0];
for (let i = 1; i < sp.length; ++i) {
if (modified[cur]) {
return true;
}
cur += '.' + sp[i];
}
return false;
}

3
node_modules/mongoose/lib/helpers/specialProperties.js generated vendored Normal file
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'use strict';
module.exports = new Set(['__proto__', 'constructor', 'prototype']);

19
node_modules/mongoose/lib/helpers/symbols.js generated vendored Normal file
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'use strict';
exports.arrayAtomicsSymbol = Symbol('mongoose#Array#_atomics');
exports.arrayParentSymbol = Symbol('mongoose#Array#_parent');
exports.arrayPathSymbol = Symbol('mongoose#Array#_path');
exports.arraySchemaSymbol = Symbol('mongoose#Array#_schema');
exports.documentArrayParent = Symbol('mongoose:documentArrayParent');
exports.documentIsSelected = Symbol('mongoose#Document#isSelected');
exports.documentIsModified = Symbol('mongoose#Document#isModified');
exports.documentModifiedPaths = Symbol('mongoose#Document#modifiedPaths');
exports.documentSchemaSymbol = Symbol('mongoose#Document#schema');
exports.getSymbol = Symbol('mongoose#Document#get');
exports.modelSymbol = Symbol('mongoose#Model');
exports.objectIdSymbol = Symbol('mongoose#ObjectId');
exports.populateModelSymbol = Symbol('mongoose.PopulateOptions#Model');
exports.schemaTypeSymbol = Symbol('mongoose#schemaType');
exports.sessionNewDocuments = Symbol('mongoose:ClientSession#newDocuments');
exports.scopeSymbol = Symbol('mongoose#Document#scope');
exports.validatorErrorSymbol = Symbol('mongoose:validatorError');

3
node_modules/mongoose/lib/helpers/timers.js generated vendored Normal file
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'use strict';
exports.setTimeout = setTimeout;

111
node_modules/mongoose/lib/helpers/timestamps/setupTimestamps.js generated vendored Normal file
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'use strict';
const applyTimestampsToChildren = require('../update/applyTimestampsToChildren');
const applyTimestampsToUpdate = require('../update/applyTimestampsToUpdate');
const get = require('../get');
const handleTimestampOption = require('../schema/handleTimestampOption');
const symbols = require('../../schema/symbols');
module.exports = function setupTimestamps(schema, timestamps) {
const childHasTimestamp = schema.childSchemas.find(withTimestamp);
function withTimestamp(s) {
const ts = s.schema.options.timestamps;
return !!ts;
}
if (!timestamps && !childHasTimestamp) {
return;
}
const createdAt = handleTimestampOption(timestamps, 'createdAt');
const updatedAt = handleTimestampOption(timestamps, 'updatedAt');
const currentTime = timestamps != null && timestamps.hasOwnProperty('currentTime') ?
timestamps.currentTime :
null;
const schemaAdditions = {};
schema.$timestamps = { createdAt: createdAt, updatedAt: updatedAt };
if (updatedAt && !schema.paths[updatedAt]) {
schemaAdditions[updatedAt] = Date;
}
if (createdAt && !schema.paths[createdAt]) {
schemaAdditions[createdAt] = Date;
}
schema.add(schemaAdditions);
schema.pre('save', function(next) {
const timestampOption = get(this, '$__.saveOptions.timestamps');
if (timestampOption === false) {
return next();
}
const skipUpdatedAt = timestampOption != null && timestampOption.updatedAt === false;
const skipCreatedAt = timestampOption != null && timestampOption.createdAt === false;
const defaultTimestamp = currentTime != null ?
currentTime() :
(this.ownerDocument ? this.ownerDocument() : this).constructor.base.now();
const auto_id = this._id && this._id.auto;
if (!skipCreatedAt && createdAt && !this.get(createdAt) && this.$__isSelected(createdAt)) {
this.$set(createdAt, auto_id ? this._id.getTimestamp() : defaultTimestamp);
}
if (!skipUpdatedAt && updatedAt && (this.isNew || this.isModified())) {
let ts = defaultTimestamp;
if (this.isNew) {
if (createdAt != null) {
ts = this.$__getValue(createdAt);
} else if (auto_id) {
ts = this._id.getTimestamp();
}
}
this.$set(updatedAt, ts);
}
next();
});
schema.methods.initializeTimestamps = function() {
const ts = currentTime != null ?
currentTime() :
this.constructor.base.now();
if (createdAt && !this.get(createdAt)) {
this.$set(createdAt, ts);
}
if (updatedAt && !this.get(updatedAt)) {
this.$set(updatedAt, ts);
}
return this;
};
_setTimestampsOnUpdate[symbols.builtInMiddleware] = true;
const opts = { query: true, model: false };
schema.pre('findOneAndReplace', opts, _setTimestampsOnUpdate);
schema.pre('findOneAndUpdate', opts, _setTimestampsOnUpdate);
schema.pre('replaceOne', opts, _setTimestampsOnUpdate);
schema.pre('update', opts, _setTimestampsOnUpdate);
schema.pre('updateOne', opts, _setTimestampsOnUpdate);
schema.pre('updateMany', opts, _setTimestampsOnUpdate);
function _setTimestampsOnUpdate(next) {
const now = currentTime != null ?
currentTime() :
this.model.base.now();
// Replacing with null update should still trigger timestamps
if (this.op === 'findOneAndReplace' && this.getUpdate() == null) {
this.setUpdate({});
}
applyTimestampsToUpdate(now, createdAt, updatedAt, this.getUpdate(),
this.options, this.schema);
applyTimestampsToChildren(now, this.getUpdate(), this.model.schema);
next();
}
};

11
node_modules/mongoose/lib/helpers/topology/allServersUnknown.js generated vendored Normal file
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'use strict';
module.exports = function allServersUnknown(topologyDescription) {
if (topologyDescription == null ||
topologyDescription.constructor.name !== 'TopologyDescription') {
return false;
}
const servers = Array.from(topologyDescription.servers.values());
return servers.length > 0 && servers.every(server => server.type === 'Unknown');
};

12
node_modules/mongoose/lib/helpers/topology/isAtlas.js generated vendored Normal file
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'use strict';
module.exports = function isAtlas(topologyDescription) {
if (topologyDescription == null ||
topologyDescription.constructor.name !== 'TopologyDescription') {
return false;
}
const hostnames = Array.from(topologyDescription.servers.keys());
return hostnames.length > 0 &&
hostnames.every(host => host.endsWith('.mongodb.net:27017'));
};

15
node_modules/mongoose/lib/helpers/topology/isSSLError.js generated vendored Normal file
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'use strict';
const nonSSLMessage = 'Client network socket disconnected before secure TLS ' +
'connection was established';
module.exports = function isSSLError(topologyDescription) {
if (topologyDescription == null ||
topologyDescription.constructor.name !== 'TopologyDescription') {
return false;
}
const descriptions = Array.from(topologyDescription.servers.values());
return descriptions.length > 0 &&
descriptions.every(descr => descr.error && descr.error.message.indexOf(nonSSLMessage) !== -1);
};

172
node_modules/mongoose/lib/helpers/update/applyTimestampsToChildren.js generated vendored Normal file
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'use strict';
const cleanPositionalOperators = require('../schema/cleanPositionalOperators');
const handleTimestampOption = require('../schema/handleTimestampOption');
module.exports = applyTimestampsToChildren;
/*!
* ignore
*/
function applyTimestampsToChildren(now, update, schema) {
if (update == null) {
return;
}
const keys = Object.keys(update);
const hasDollarKey = keys.some(key => key.startsWith('$'));
if (hasDollarKey) {
if (update.$push) {
for (const key of Object.keys(update.$push)) {
const $path = schema.path(key);
if (update.$push[key] &&
$path &&
$path.$isMongooseDocumentArray &&
$path.schema.options.timestamps) {
const timestamps = $path.schema.options.timestamps;
const createdAt = handleTimestampOption(timestamps, 'createdAt');
const updatedAt = handleTimestampOption(timestamps, 'updatedAt');
if (update.$push[key].$each) {
update.$push[key].$each.forEach(function(subdoc) {
if (updatedAt != null) {
subdoc[updatedAt] = now;
}
if (createdAt != null) {
subdoc[createdAt] = now;
}
});
} else {
if (updatedAt != null) {
update.$push[key][updatedAt] = now;
}
if (createdAt != null) {
update.$push[key][createdAt] = now;
}
}
}
}
}
if (update.$set != null) {
const keys = Object.keys(update.$set);
for (const key of keys) {
applyTimestampsToUpdateKey(schema, key, update.$set, now);
}
}
}
const updateKeys = Object.keys(update).filter(key => !key.startsWith('$'));
for (const key of updateKeys) {
applyTimestampsToUpdateKey(schema, key, update, now);
}
}
function applyTimestampsToDocumentArray(arr, schematype, now) {
const timestamps = schematype.schema.options.timestamps;
if (!timestamps) {
return;
}
const len = arr.length;
const createdAt = handleTimestampOption(timestamps, 'createdAt');
const updatedAt = handleTimestampOption(timestamps, 'updatedAt');
for (let i = 0; i < len; ++i) {
if (updatedAt != null) {
arr[i][updatedAt] = now;
}
if (createdAt != null) {
arr[i][createdAt] = now;
}
applyTimestampsToChildren(now, arr[i], schematype.schema);
}
}
function applyTimestampsToSingleNested(subdoc, schematype, now) {
const timestamps = schematype.schema.options.timestamps;
if (!timestamps) {
return;
}
const createdAt = handleTimestampOption(timestamps, 'createdAt');
const updatedAt = handleTimestampOption(timestamps, 'updatedAt');
if (updatedAt != null) {
subdoc[updatedAt] = now;
}
if (createdAt != null) {
subdoc[createdAt] = now;
}
applyTimestampsToChildren(now, subdoc, schematype.schema);
}
function applyTimestampsToUpdateKey(schema, key, update, now) {
// Replace positional operator `$` and array filters `$[]` and `$[.*]`
const keyToSearch = cleanPositionalOperators(key);
const path = schema.path(keyToSearch);
if (!path) {
return;
}
const parentSchemaTypes = [];
const pieces = keyToSearch.split('.');
for (let i = pieces.length - 1; i > 0; --i) {
const s = schema.path(pieces.slice(0, i).join('.'));
if (s != null &&
(s.$isMongooseDocumentArray || s.$isSingleNested)) {
parentSchemaTypes.push({ parentPath: key.split('.').slice(0, i).join('.'), parentSchemaType: s });
}
}
if (Array.isArray(update[key]) && path.$isMongooseDocumentArray) {
applyTimestampsToDocumentArray(update[key], path, now);
} else if (update[key] && path.$isSingleNested) {
applyTimestampsToSingleNested(update[key], path, now);
} else if (parentSchemaTypes.length > 0) {
for (const item of parentSchemaTypes) {
const parentPath = item.parentPath;
const parentSchemaType = item.parentSchemaType;
const timestamps = parentSchemaType.schema.options.timestamps;
const updatedAt = handleTimestampOption(timestamps, 'updatedAt');
if (!timestamps || updatedAt == null) {
continue;
}
if (parentSchemaType.$isSingleNested) {
// Single nested is easy
update[parentPath + '.' + updatedAt] = now;
} else if (parentSchemaType.$isMongooseDocumentArray) {
let childPath = key.substr(parentPath.length + 1);
if (/^\d+$/.test(childPath)) {
update[parentPath + '.' + childPath][updatedAt] = now;
continue;
}
const firstDot = childPath.indexOf('.');
childPath = firstDot !== -1 ? childPath.substr(0, firstDot) : childPath;
update[parentPath + '.' + childPath + '.' + updatedAt] = now;
}
}
} else if (path.schema != null && path.schema != schema && update[key]) {
const timestamps = path.schema.options.timestamps;
const createdAt = handleTimestampOption(timestamps, 'createdAt');
const updatedAt = handleTimestampOption(timestamps, 'updatedAt');
if (!timestamps) {
return;
}
if (updatedAt != null) {
update[key][updatedAt] = now;
}
if (createdAt != null) {
update[key][createdAt] = now;
}
}
}

119
node_modules/mongoose/lib/helpers/update/applyTimestampsToUpdate.js generated vendored Normal file
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'use strict';
/*!
* ignore
*/
const get = require('../get');
module.exports = applyTimestampsToUpdate;
/*!
* ignore
*/
function applyTimestampsToUpdate(now, createdAt, updatedAt, currentUpdate, options) {
const updates = currentUpdate;
let _updates = updates;
const overwrite = get(options, 'overwrite', false);
const timestamps = get(options, 'timestamps', true);
// Support skipping timestamps at the query level, see gh-6980
if (!timestamps || updates == null) {
return currentUpdate;
}
const skipCreatedAt = timestamps != null && timestamps.createdAt === false;
const skipUpdatedAt = timestamps != null && timestamps.updatedAt === false;
if (overwrite) {
if (currentUpdate && currentUpdate.$set) {
currentUpdate = currentUpdate.$set;
updates.$set = {};
_updates = updates.$set;
}
if (!skipUpdatedAt && updatedAt && !currentUpdate[updatedAt]) {
_updates[updatedAt] = now;
}
if (!skipCreatedAt && createdAt && !currentUpdate[createdAt]) {
_updates[createdAt] = now;
}
return updates;
}
currentUpdate = currentUpdate || {};
if (Array.isArray(updates)) {
// Update with aggregation pipeline
updates.push({ $set: { updatedAt: now } });
return updates;
}
updates.$set = updates.$set || {};
if (!skipUpdatedAt && updatedAt &&
(!currentUpdate.$currentDate || !currentUpdate.$currentDate[updatedAt])) {
let timestampSet = false;
if (updatedAt.indexOf('.') !== -1) {
const pieces = updatedAt.split('.');
for (let i = 1; i < pieces.length; ++i) {
const remnant = pieces.slice(-i).join('.');
const start = pieces.slice(0, -i).join('.');
if (currentUpdate[start] != null) {
currentUpdate[start][remnant] = now;
timestampSet = true;
break;
} else if (currentUpdate.$set && currentUpdate.$set[start]) {
currentUpdate.$set[start][remnant] = now;
timestampSet = true;
break;
}
}
}
if (!timestampSet) {
updates.$set[updatedAt] = now;
}
if (updates.hasOwnProperty(updatedAt)) {
delete updates[updatedAt];
}
}
if (!skipCreatedAt && createdAt) {
if (currentUpdate[createdAt]) {
delete currentUpdate[createdAt];
}
if (currentUpdate.$set && currentUpdate.$set[createdAt]) {
delete currentUpdate.$set[createdAt];
}
let timestampSet = false;
if (createdAt.indexOf('.') !== -1) {
const pieces = createdAt.split('.');
for (let i = 1; i < pieces.length; ++i) {
const remnant = pieces.slice(-i).join('.');
const start = pieces.slice(0, -i).join('.');
if (currentUpdate[start] != null) {
currentUpdate[start][remnant] = now;
timestampSet = true;
break;
} else if (currentUpdate.$set && currentUpdate.$set[start]) {
currentUpdate.$set[start][remnant] = now;
timestampSet = true;
break;
}
}
}
if (!timestampSet) {
updates.$setOnInsert = updates.$setOnInsert || {};
updates.$setOnInsert[createdAt] = now;
}
}
if (Object.keys(updates.$set).length === 0) {
delete updates.$set;
}
return updates;
}

60
node_modules/mongoose/lib/helpers/update/castArrayFilters.js generated vendored Normal file
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'use strict';
const castFilterPath = require('../query/castFilterPath');
const cleanPositionalOperators = require('../schema/cleanPositionalOperators');
const getPath = require('../schema/getPath');
const updatedPathsByArrayFilter = require('./updatedPathsByArrayFilter');
module.exports = function castArrayFilters(query) {
const arrayFilters = query.options.arrayFilters;
if (!Array.isArray(arrayFilters)) {
return;
}
const update = query.getUpdate();
const schema = query.schema;
const strictQuery = schema.options.strictQuery;
const updatedPathsByFilter = updatedPathsByArrayFilter(update);
for (const filter of arrayFilters) {
if (filter == null) {
throw new Error(`Got null array filter in ${arrayFilters}`);
}
for (const key of Object.keys(filter)) {
if (filter[key] == null) {
continue;
}
const dot = key.indexOf('.');
let filterPath = dot === -1 ?
updatedPathsByFilter[key] + '.0' :
updatedPathsByFilter[key.substr(0, dot)] + '.0' + key.substr(dot);
if (filterPath == null) {
throw new Error(`Filter path not found for ${key}`);
}
// If there are multiple array filters in the path being updated, make sure
// to replace them so we can get the schema path.
filterPath = cleanPositionalOperators(filterPath);
const schematype = getPath(schema, filterPath);
if (schematype == null) {
if (!strictQuery) {
return;
}
// For now, treat `strictQuery = true` and `strictQuery = 'throw'` as
// equivalent for casting array filters. `strictQuery = true` doesn't
// quite work in this context because we never want to silently strip out
// array filters, even if the path isn't in the schema.
throw new Error(`Could not find path "${filterPath}" in schema`);
}
if (typeof filter[key] === 'object') {
filter[key] = castFilterPath(query, schematype, filter[key]);
} else {
filter[key] = schematype.castForQuery(filter[key]);
}
}
}
};

33
node_modules/mongoose/lib/helpers/update/modifiedPaths.js generated vendored Normal file
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'use strict';
const _modifiedPaths = require('../common').modifiedPaths;
/**
* Given an update document with potential update operators (`$set`, etc.)
* returns an object whose keys are the directly modified paths.
*
* If there are any top-level keys that don't start with `$`, we assume those
* will get wrapped in a `$set`. The Mongoose Query is responsible for wrapping
* top-level keys in `$set`.
*
* @param {Object} update
* @return {Object} modified
*/
module.exports = function modifiedPaths(update) {
const keys = Object.keys(update);
const res = {};
const withoutDollarKeys = {};
for (const key of keys) {
if (key.startsWith('$')) {
_modifiedPaths(update[key], '', res);
continue;
}
withoutDollarKeys[key] = update[key];
}
_modifiedPaths(withoutDollarKeys, '', res);
return res;
};

53
node_modules/mongoose/lib/helpers/update/moveImmutableProperties.js generated vendored Normal file
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'use strict';
const get = require('../get');
/**
* Given an update, move all $set on immutable properties to $setOnInsert.
* This should only be called for upserts, because $setOnInsert bypasses the
* strictness check for immutable properties.
*/
module.exports = function moveImmutableProperties(schema, update, ctx) {
if (update == null) {
return;
}
const keys = Object.keys(update);
for (const key of keys) {
const isDollarKey = key.startsWith('$');
if (key === '$set') {
const updatedPaths = Object.keys(update[key]);
for (const path of updatedPaths) {
_walkUpdatePath(schema, update[key], path, update, ctx);
}
} else if (!isDollarKey) {
_walkUpdatePath(schema, update, key, update, ctx);
}
}
};
function _walkUpdatePath(schema, op, path, update, ctx) {
const schematype = schema.path(path);
if (schematype == null) {
return;
}
let immutable = get(schematype, 'options.immutable', null);
if (immutable == null) {
return;
}
if (typeof immutable === 'function') {
immutable = immutable.call(ctx, ctx);
}
if (!immutable) {
return;
}
update.$setOnInsert = update.$setOnInsert || {};
update.$setOnInsert[path] = op[path];
delete op[path];
}

18
node_modules/mongoose/lib/helpers/update/removeUnusedArrayFilters.js generated vendored Normal file
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'use strict';
/**
* MongoDB throws an error if there's unused array filters. That is, if `options.arrayFilters` defines
* a filter, but none of the `update` keys use it. This should be enough to filter out all unused array
* filters.
*/
module.exports = function removeUnusedArrayFilters(update, arrayFilters) {
const updateKeys = Object.keys(update).map(key => Object.keys(update[key])).reduce((cur, arr) => cur.concat(arr), []);
return arrayFilters.filter(obj => {
const firstKey = Object.keys(obj)[0];
const firstDot = firstKey.indexOf('.');
const arrayFilterKey = firstDot === -1 ? firstKey : firstKey.slice(0, firstDot);
return updateKeys.find(key => key.includes('$[' + arrayFilterKey + ']')) != null;
});
};

24
node_modules/mongoose/lib/helpers/update/updatedPathsByArrayFilter.js generated vendored Normal file
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'use strict';
const modifiedPaths = require('./modifiedPaths');
module.exports = function updatedPathsByArrayFilter(update) {
const updatedPaths = modifiedPaths(update);
return Object.keys(updatedPaths).reduce((cur, path) => {
const matches = path.match(/\$\[[^\]]+\]/g);
if (matches == null) {
return cur;
}
for (const match of matches) {
const firstMatch = path.indexOf(match);
if (firstMatch !== path.lastIndexOf(match)) {
throw new Error(`Path '${path}' contains the same array filter multiple times`);
}
cur[match.substring(2, match.length - 1)] = path.
substr(0, firstMatch - 1).
replace(/\$\[[^\]]+\]/g, '0');
}
return cur;
}, {});
};

257
node_modules/mongoose/lib/helpers/updateValidators.js generated vendored Normal file
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'use strict';
/*!
* Module dependencies.
*/
const ValidationError = require('../error/validation');
const cleanPositionalOperators = require('./schema/cleanPositionalOperators');
const flatten = require('./common').flatten;
const modifiedPaths = require('./common').modifiedPaths;
/**
* Applies validators and defaults to update and findOneAndUpdate operations,
* specifically passing a null doc as `this` to validators and defaults
*
* @param {Query} query
* @param {Schema} schema
* @param {Object} castedDoc
* @param {Object} options
* @method runValidatorsOnUpdate
* @api private
*/
module.exports = function(query, schema, castedDoc, options, callback) {
let _keys;
const keys = Object.keys(castedDoc || {});
let updatedKeys = {};
let updatedValues = {};
const isPull = {};
const arrayAtomicUpdates = {};
const numKeys = keys.length;
let hasDollarUpdate = false;
const modified = {};
let currentUpdate;
let key;
let i;
for (i = 0; i < numKeys; ++i) {
if (keys[i].startsWith('$')) {
hasDollarUpdate = true;
if (keys[i] === '$push' || keys[i] === '$addToSet') {
_keys = Object.keys(castedDoc[keys[i]]);
for (let ii = 0; ii < _keys.length; ++ii) {
currentUpdate = castedDoc[keys[i]][_keys[ii]];
if (currentUpdate && currentUpdate.$each) {
arrayAtomicUpdates[_keys[ii]] = (arrayAtomicUpdates[_keys[ii]] || []).
concat(currentUpdate.$each);
} else {
arrayAtomicUpdates[_keys[ii]] = (arrayAtomicUpdates[_keys[ii]] || []).
concat([currentUpdate]);
}
}
continue;
}
modifiedPaths(castedDoc[keys[i]], '', modified);
const flat = flatten(castedDoc[keys[i]], null, null, schema);
const paths = Object.keys(flat);
const numPaths = paths.length;
for (let j = 0; j < numPaths; ++j) {
const updatedPath = cleanPositionalOperators(paths[j]);
key = keys[i];
// With `$pull` we might flatten `$in`. Skip stuff nested under `$in`
// for the rest of the logic, it will get handled later.
if (updatedPath.includes('$')) {
continue;
}
if (key === '$set' || key === '$setOnInsert' ||
key === '$pull' || key === '$pullAll') {
updatedValues[updatedPath] = flat[paths[j]];
isPull[updatedPath] = key === '$pull' || key === '$pullAll';
} else if (key === '$unset') {
updatedValues[updatedPath] = undefined;
}
updatedKeys[updatedPath] = true;
}
}
}
if (!hasDollarUpdate) {
modifiedPaths(castedDoc, '', modified);
updatedValues = flatten(castedDoc, null, null, schema);
updatedKeys = Object.keys(updatedValues);
}
const updates = Object.keys(updatedValues);
const numUpdates = updates.length;
const validatorsToExecute = [];
const validationErrors = [];
const alreadyValidated = [];
const context = options && options.context === 'query' ? query : null;
function iter(i, v) {
const schemaPath = schema._getSchema(updates[i]);
if (schemaPath == null) {
return;
}
if (schemaPath.instance === 'Mixed' && schemaPath.path !== updates[i]) {
return;
}
if (v && Array.isArray(v.$in)) {
v.$in.forEach((v, i) => {
validatorsToExecute.push(function(callback) {
schemaPath.doValidate(
v,
function(err) {
if (err) {
err.path = updates[i] + '.$in.' + i;
validationErrors.push(err);
}
callback(null);
},
context,
{ updateValidator: true });
});
});
} else {
if (isPull[updates[i]] &&
schemaPath.$isMongooseArray) {
return;
}
if (schemaPath.$isMongooseDocumentArrayElement && v != null && v.$__ != null) {
alreadyValidated.push(updates[i]);
validatorsToExecute.push(function(callback) {
schemaPath.doValidate(v, function(err) {
if (err) {
err.path = updates[i];
validationErrors.push(err);
return callback(null);
}
v.validate(function(err) {
if (err) {
if (err.errors) {
for (const key of Object.keys(err.errors)) {
const _err = err.errors[key];
_err.path = updates[i] + '.' + key;
validationErrors.push(_err);
}
} else {
err.path = updates[i];
validationErrors.push(err);
}
}
callback(null);
});
}, context, { updateValidator: true });
});
} else {
validatorsToExecute.push(function(callback) {
for (const path of alreadyValidated) {
if (updates[i].startsWith(path + '.')) {
return callback(null);
}
}
schemaPath.doValidate(v, function(err) {
if (schemaPath.schema != null &&
schemaPath.schema.options.storeSubdocValidationError === false &&
err instanceof ValidationError) {
return callback(null);
}
if (err) {
err.path = updates[i];
validationErrors.push(err);
}
callback(null);
}, context, { updateValidator: true });
});
}
}
}
for (i = 0; i < numUpdates; ++i) {
iter(i, updatedValues[updates[i]]);
}
const arrayUpdates = Object.keys(arrayAtomicUpdates);
for (const arrayUpdate of arrayUpdates) {
let schemaPath = schema._getSchema(arrayUpdate);
if (schemaPath && schemaPath.$isMongooseDocumentArray) {
validatorsToExecute.push(function(callback) {
schemaPath.doValidate(
arrayAtomicUpdates[arrayUpdate],
getValidationCallback(arrayUpdate, validationErrors, callback),
options && options.context === 'query' ? query : null);
});
} else {
schemaPath = schema._getSchema(arrayUpdate + '.0');
for (const atomicUpdate of arrayAtomicUpdates[arrayUpdate]) {
validatorsToExecute.push(function(callback) {
schemaPath.doValidate(
atomicUpdate,
getValidationCallback(arrayUpdate, validationErrors, callback),
options && options.context === 'query' ? query : null,
{ updateValidator: true });
});
}
}
}
if (callback != null) {
let numValidators = validatorsToExecute.length;
if (numValidators === 0) {
return _done(callback);
}
for (const validator of validatorsToExecute) {
validator(function() {
if (--numValidators <= 0) {
_done(callback);
}
});
}
return;
}
return function(callback) {
let numValidators = validatorsToExecute.length;
if (numValidators === 0) {
return _done(callback);
}
for (const validator of validatorsToExecute) {
validator(function() {
if (--numValidators <= 0) {
_done(callback);
}
});
}
};
function _done(callback) {
if (validationErrors.length) {
const err = new ValidationError(null);
for (const validationError of validationErrors) {
err.addError(validationError.path, validationError);
}
return callback(err);
}
callback(null);
}
function getValidationCallback(arrayUpdate, validationErrors, callback) {
return function(err) {
if (err) {
err.path = arrayUpdate;
validationErrors.push(err);
}
callback(null);
};
}
};