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JavaScript

'use strict';
const MongooseError = require('../../error/index');
const SkipPopulateValue = require('./skipPopulateValue');
const clone = require('../clone');
const get = require('../get');
const getDiscriminatorByValue = require('../discriminator/getDiscriminatorByValue');
const getConstructorName = require('../getConstructorName');
const getSchemaTypes = require('./getSchemaTypes');
const getVirtual = require('./getVirtual');
const lookupLocalFields = require('./lookupLocalFields');
const mpath = require('mpath');
const modelNamesFromRefPath = require('./modelNamesFromRefPath');
const utils = require('../../utils');
const modelSymbol = require('../symbols').modelSymbol;
const populateModelSymbol = require('../symbols').populateModelSymbol;
const schemaMixedSymbol = require('../../schema/symbols').schemaMixedSymbol;
const StrictPopulate = require('../../error/strictPopulate');
module.exports = function getModelsMapForPopulate(model, docs, options) {
let doc;
const len = docs.length;
const map = [];
const modelNameFromQuery = options.model && options.model.modelName || options.model;
let schema;
let refPath;
let modelNames;
const available = {};
const modelSchema = model.schema;
// 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]) {
return [];
}
const _virtualRes = getVirtual(model.schema, options.path);
const virtual = _virtualRes == null ? null : _virtualRes.virtual;
if (virtual != null) {
return _virtualPopulate(model, docs, options, _virtualRes);
}
let allSchemaTypes = getSchemaTypes(model, modelSchema, null, options.path);
allSchemaTypes = Array.isArray(allSchemaTypes) ? allSchemaTypes : [allSchemaTypes].filter(v => v != null);
const isStrictPopulateDisabled = options.strictPopulate === false || options.options?.strictPopulate === false;
if (!isStrictPopulateDisabled && allSchemaTypes.length === 0 && options._localModel != null) {
return new StrictPopulate(options._fullPath || options.path);
}
for (let i = 0; i < len; i++) {
doc = docs[i];
let justOne = null;
const docSchema = doc != null && doc.$__ != null ? doc.$__schema : modelSchema;
schema = getSchemaTypes(model, docSchema, 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.$isMongooseDocumentArray &&
schema.options.ref == null &&
schema.options.refPath == null) {
continue;
}
const isUnderneathDocArray = schema && schema.$parentSchemaDocArray;
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 = false;
let normalizedRefPath = null;
let schemaOptions = null;
let modelNamesInOrder = null;
if (schema != null && schema.instance === 'Embedded') {
if (schema.options.ref) {
const data = {
localField: options.path + '._id',
foreignField: '_id',
justOne: true
};
const res = _getModelNames(doc, schema, modelNameFromQuery, model);
const unpopulatedValue = mpath.get(options.path, doc);
const id = mpath.get('_id', unpopulatedValue);
addModelNamesToMap(model, map, available, res.modelNames, options, data, id, doc, schemaOptions, unpopulatedValue);
}
// No-op if no `ref` set. See gh-11538
continue;
}
if (Array.isArray(schema)) {
const schemasArray = schema;
for (const _schema of schemasArray) {
let _modelNames;
let res;
try {
res = _getModelNames(doc, _schema, modelNameFromQuery, model);
_modelNames = res.modelNames;
isRefPath = isRefPath || res.isRefPath;
normalizedRefPath = normalizedRefPath || 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, modelNameFromQuery, model);
modelNames = res.modelNames;
isRefPath = res.isRefPath;
normalizedRefPath = normalizedRefPath || res.refPath;
justOne = res.justOne;
schemaOptions = get(schema, 'options.populate', null);
// Dedupe, because `refPath` can return duplicates of the same model name,
// and that causes perf issues.
if (isRefPath) {
modelNamesInOrder = modelNames;
modelNames = Array.from(new Set(modelNames));
}
} catch (error) {
return error;
}
if (!modelNames) {
continue;
}
}
const data = {};
const localField = options.path;
const 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 (schema && !schema[schemaMixedSymbol]) {
// Skip Mixed types because we explicitly don't do casting on those.
if (options.path.endsWith('.' + schema.path) || options.path === schema.path) {
justOne = Array.isArray(schema) ?
schema.every(schema => !schema.$isMongooseArray) :
!schema.$isMongooseArray;
}
}
if (!modelNames) {
continue;
}
data.isVirtual = false;
data.justOne = justOne;
data.localField = localField;
data.foreignField = foreignField;
// Get local fields
const ret = _getLocalFieldValues(doc, localField, model, options, null, schema);
const id = String(utils.getValue(foreignField, doc));
options._docs[id] = Array.isArray(ret) ? ret.slice() : ret;
let match = get(options, 'match', null);
const hasMatchFunction = typeof match === 'function';
if (hasMatchFunction) {
match = match.call(doc, doc);
}
data.match = match;
data.hasMatchFunction = hasMatchFunction;
data.isRefPath = isRefPath;
data.modelNamesInOrder = modelNamesInOrder;
if (isRefPath) {
const embeddedDiscriminatorModelNames = _findRefPathForDiscriminators(doc,
modelSchema, data, options, normalizedRefPath, ret);
modelNames = embeddedDiscriminatorModelNames || modelNames;
}
try {
addModelNamesToMap(model, map, available, modelNames, options, data, ret, doc, schemaOptions);
} catch (err) {
return err;
}
}
return map;
function _getModelNames(doc, schema, modelNameFromQuery, model) {
let modelNames;
let isRefPath = false;
let justOne = null;
const originalSchema = schema;
if (schema && schema.instance === 'Array') {
schema = schema.caster;
}
if (schema && schema.$isSchemaMap) {
schema = schema.$__schemaType;
}
const ref = schema && schema.options && schema.options.ref;
refPath = schema && schema.options && schema.options.refPath;
if (schema != null &&
schema[schemaMixedSymbol] &&
!ref &&
!refPath &&
!modelNameFromQuery) {
return { modelNames: null };
}
if (modelNameFromQuery) {
modelNames = [modelNameFromQuery]; // query options
} else if (refPath != null) {
if (typeof refPath === 'function') {
const subdocPath = options.path.slice(0, options.path.length - schema.path.length - 1);
const vals = mpath.get(subdocPath, doc, lookupLocalFields);
const subdocsBeingPopulated = Array.isArray(vals) ?
utils.array.flatten(vals) :
(vals ? [vals] : []);
modelNames = new Set();
for (const subdoc of subdocsBeingPopulated) {
refPath = refPath.call(subdoc, subdoc, options.path);
modelNamesFromRefPath(refPath, doc, options.path, modelSchema, options._queryProjection).
forEach(name => modelNames.add(name));
}
modelNames = Array.from(modelNames);
} else {
modelNames = modelNamesFromRefPath(refPath, doc, options.path, modelSchema, options._queryProjection);
}
isRefPath = true;
} else {
let ref;
let refPath;
let schemaForCurrentDoc;
let discriminatorValue;
let modelForCurrentDoc = model;
const discriminatorKey = model.schema.options.discriminatorKey;
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 = _getModelFromConn(model.db, discriminatorValue);
} catch (error) {
return error;
}
}
schemaForCurrentDoc = modelForCurrentDoc.schema._getSchema(options.path);
if (schemaForCurrentDoc && schemaForCurrentDoc.caster) {
schemaForCurrentDoc = schemaForCurrentDoc.caster;
}
} else {
schemaForCurrentDoc = schema;
}
if (originalSchema && originalSchema.path.endsWith('.$*')) {
justOne = !originalSchema.$isMongooseArray && !originalSchema._arrayPath;
} else if (schemaForCurrentDoc != null) {
justOne = !schemaForCurrentDoc.$isMongooseArray && !schemaForCurrentDoc._arrayPath;
}
if ((ref = get(schemaForCurrentDoc, 'options.ref')) != null) {
if (schemaForCurrentDoc != null &&
typeof ref === 'function' &&
options.path.endsWith('.' + schemaForCurrentDoc.path)) {
// Ensure correct context for ref functions: subdoc, not top-level doc. See gh-8469
modelNames = new Set();
const subdocPath = options.path.slice(0, options.path.length - schemaForCurrentDoc.path.length - 1);
const vals = mpath.get(subdocPath, doc, lookupLocalFields);
const subdocsBeingPopulated = Array.isArray(vals) ?
utils.array.flatten(vals) :
(vals ? [vals] : []);
for (const subdoc of subdocsBeingPopulated) {
modelNames.add(handleRefFunction(ref, subdoc));
}
if (subdocsBeingPopulated.length === 0) {
modelNames = [handleRefFunction(ref, doc)];
} else {
modelNames = Array.from(modelNames);
}
} else {
ref = handleRefFunction(ref, doc);
modelNames = [ref];
}
} else if ((schemaForCurrentDoc = get(schema, 'options.refPath')) != null) {
isRefPath = true;
if (typeof refPath === 'function') {
const subdocPath = options.path.slice(0, options.path.length - schemaForCurrentDoc.path.length - 1);
const vals = mpath.get(subdocPath, doc, lookupLocalFields);
const subdocsBeingPopulated = Array.isArray(vals) ?
utils.array.flatten(vals) :
(vals ? [vals] : []);
modelNames = new Set();
for (const subdoc of subdocsBeingPopulated) {
refPath = refPath.call(subdoc, subdoc, options.path);
modelNamesFromRefPath(refPath, doc, options.path, modelSchema, options._queryProjection).
forEach(name => modelNames.add(name));
}
modelNames = Array.from(modelNames);
} else {
modelNames = modelNamesFromRefPath(refPath, doc, options.path, modelSchema, options._queryProjection);
}
}
}
if (!modelNames) {
// `Model.populate()` on a POJO with no known local model. Default to using the `Model`
if (options._localModel == null) {
modelNames = [model.modelName];
} else {
return { modelNames: modelNames, justOne: justOne, isRefPath: isRefPath, refPath: refPath };
}
}
if (!Array.isArray(modelNames)) {
modelNames = [modelNames];
}
return { modelNames: modelNames, justOne: justOne, isRefPath: isRefPath, refPath: refPath };
}
};
/*!
* ignore
*/
function _virtualPopulate(model, docs, options, _virtualRes) {
const map = [];
const available = {};
const virtual = _virtualRes.virtual;
for (const doc of docs) {
let modelNames = null;
const data = {};
// localField and foreignField
let localField;
const virtualPrefix = _virtualRes.nestedSchemaPath ?
_virtualRes.nestedSchemaPath + '.' : '';
if (typeof options.localField === 'string') {
localField = options.localField;
} else 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;
}
data.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;
}
let foreignField = virtual.options.foreignField;
if (!localField || !foreignField) {
return new MongooseError(`Cannot populate virtual \`${options.path}\` on model \`${model.modelName}\`, because options \`localField\` and / or \`foreignField\` are missing`);
}
if (typeof localField === 'function') {
localField = localField.call(doc, doc);
}
if (typeof foreignField === 'function') {
foreignField = foreignField.call(doc, doc);
}
data.isRefPath = false;
// `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()`
let justOne = null;
if ('justOne' in options && options.justOne !== void 0) {
justOne = options.justOne;
}
if (virtual.options.refPath) {
modelNames =
modelNamesFromRefPath(virtual.options.refPath, doc, options.path);
justOne = !!virtual.options.justOne;
data.isRefPath = true;
} else if (virtual.options.ref) {
let normalizedRef;
if (typeof virtual.options.ref === 'function' && !virtual.options.ref[modelSymbol]) {
normalizedRef = virtual.options.ref.call(doc, doc);
} else {
normalizedRef = virtual.options.ref;
}
justOne = !!virtual.options.justOne;
// When referencing nested arrays, the ref should be an Array
// of modelNames.
if (Array.isArray(normalizedRef)) {
modelNames = normalizedRef;
} else {
modelNames = [normalizedRef];
}
}
data.isVirtual = true;
data.virtual = virtual;
data.justOne = justOne;
// `match`
const baseMatch = get(data, 'virtual.options.match', null) ||
get(data, 'virtual.options.options.match', null);
let match = get(options, 'match', null) || baseMatch;
let hasMatchFunction = typeof match === 'function';
if (hasMatchFunction) {
match = match.call(doc, doc, data.virtual);
}
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), model.schema);
hasMatchFunction = true;
}
localField = localField[0];
foreignField = foreignField[0];
}
data.localField = localField;
data.foreignField = foreignField;
data.match = match;
data.hasMatchFunction = hasMatchFunction;
// Get local fields
const ret = _getLocalFieldValues(doc, localField, model, options, virtual);
try {
addModelNamesToMap(model, map, available, modelNames, options, data, ret, doc);
} catch (err) {
return err;
}
}
return map;
}
/*!
* ignore
*/
function addModelNamesToMap(model, map, available, modelNames, options, data, ret, doc, schemaOptions, unpopulatedValue) {
// `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;
unpopulatedValue = unpopulatedValue === void 0 ? ret : unpopulatedValue;
if (Array.isArray(unpopulatedValue)) {
unpopulatedValue = utils.cloneArrays(unpopulatedValue);
}
if (modelNames == null) {
return;
}
let k = modelNames.length;
while (k--) {
const modelName = modelNames[k];
if (modelName == null) {
continue;
}
let Model;
if (options.model && options.model[modelSymbol]) {
Model = options.model;
} else if (modelName[modelSymbol]) {
Model = modelName;
} else {
try {
Model = _getModelFromConn(connection, modelName);
} catch (err) {
if (ret !== void 0) {
throw err;
}
Model = null;
}
}
let ids = ret;
const flat = Array.isArray(ret) ? utils.array.flatten(ret) : [];
const modelNamesForRefPath = data.modelNamesInOrder ? data.modelNamesInOrder : modelNames;
if (data.isRefPath && Array.isArray(ret) && flat.length === modelNamesForRefPath.length) {
ids = flat.filter((val, i) => modelNamesForRefPath[i] === modelName);
}
const perDocumentLimit = options.perDocumentLimit == null ?
get(options, 'options.perDocumentLimit', null) :
options.perDocumentLimit;
if (!available[modelName] || perDocumentLimit != null) {
const currentOptions = {
model: Model
};
if (data.isVirtual && get(data.virtual, 'options.options')) {
currentOptions.options = clone(data.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;
currentOptions[populateModelSymbol] = Model;
available[modelName] = {
model: Model,
options: currentOptions,
match: data.hasMatchFunction ? [data.match] : data.match,
docs: [doc],
ids: [ids],
allIds: [ret],
unpopulatedValues: [unpopulatedValue],
localField: new Set([data.localField]),
foreignField: new Set([data.foreignField]),
justOne: data.justOne,
isVirtual: data.isVirtual,
virtual: data.virtual,
count: data.count,
[populateModelSymbol]: Model
};
map.push(available[modelName]);
} else {
available[modelName].localField.add(data.localField);
available[modelName].foreignField.add(data.foreignField);
available[modelName].docs.push(doc);
available[modelName].ids.push(ids);
available[modelName].allIds.push(ret);
available[modelName].unpopulatedValues.push(unpopulatedValue);
if (data.hasMatchFunction) {
available[modelName].match.push(data.match);
}
}
}
}
function _getModelFromConn(conn, modelName) {
/* If this connection has a parent from `useDb()`, bubble up to parent's models */
if (conn.models[modelName] == null && conn._parent != null) {
return _getModelFromConn(conn._parent, modelName);
}
return conn.model(modelName);
}
/*!
* ignore
*/
function handleRefFunction(ref, doc) {
if (typeof ref === 'function' && !ref[modelSymbol]) {
return ref.call(doc, doc);
}
return ref;
}
/*!
* ignore
*/
function _getLocalFieldValues(doc, localField, model, options, virtual, schema) {
// Get Local fields
const localFieldPathType = model.schema._getPathType(localField);
const localFieldPath = localFieldPathType === 'real' ?
model.schema.path(localField) :
localFieldPathType.schema;
const localFieldGetters = localFieldPath && localFieldPath.getters ?
localFieldPath.getters : [];
localField = localFieldPath != null && localFieldPath.instance === 'Embedded' ? localField + '._id' : localField;
const _populateOptions = get(options, 'options', {});
const getters = 'getters' in _populateOptions ?
_populateOptions.getters :
get(virtual, 'options.getters', false);
if (localFieldGetters.length !== 0 && getters) {
const hydratedDoc = (doc.$__ != null) ? doc : model.hydrate(doc);
const localFieldValue = utils.getValue(localField, doc);
if (Array.isArray(localFieldValue)) {
const localFieldHydratedValue = utils.getValue(localField.split('.').slice(0, -1), hydratedDoc);
return localFieldValue.map((localFieldArrVal, localFieldArrIndex) =>
localFieldPath.applyGetters(localFieldArrVal, localFieldHydratedValue[localFieldArrIndex]));
} else {
return localFieldPath.applyGetters(localFieldValue, hydratedDoc);
}
} else {
return convertTo_id(mpath.get(localField, doc, lookupLocalFields), schema);
}
}
/**
* Retrieve the _id of `val` if a Document or Array of Documents.
*
* @param {Array|Document|Any} val
* @param {Schema} schema
* @return {Array|Document|Any}
* @api private
*/
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)) {
const rawVal = val.__array != null ? val.__array : val;
for (let i = 0; i < rawVal.length; ++i) {
if (rawVal[i] != null && rawVal[i].$__ != null) {
rawVal[i] = rawVal[i]._id;
}
}
if (utils.isMongooseArray(val) && val.$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 (getConstructorName(val) === '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')`
// then `val` will already be a map
if (val instanceof Map) {
return Array.from(val.values());
}
return val;
}
/*!
* ignore
*/
function _findRefPathForDiscriminators(doc, modelSchema, data, options, normalizedRefPath, 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 (!data.isRefPath || normalizedRefPath == null) {
return;
}
const pieces = normalizedRefPath.split('.');
let cur = '';
let modelNames = void 0;
for (let i = 0; i < pieces.length; ++i) {
const piece = pieces[i];
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.substring(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(data.localField.substring(cur.length + 1), subdoc);
ret.forEach((v, i) => {
if (v === docValue) {
ret[i] = SkipPopulateValue(v);
}
});
continue;
}
const modelName = utils.getValue(pieces.slice(i + 1).join('.'), subdoc);
modelNames.push(modelName);
}
}
}
return modelNames;
}