'use strict'; const assignRawDocsToIdStructure = require('./assignRawDocsToIdStructure'); const get = require('../get'); const getVirtual = require('./getVirtual'); const leanPopulateMap = require('./leanPopulateMap'); 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 = get(o, 'allOptions.options.options'); // `o.options` contains options explicitly listed in `populateOptions`, like // `match` and `limit`. const populateOptions = Object.assign({}, o.options, userOptions, { justOne: o.justOne }); const originalIds = [].concat(o.rawIds); // replace the original ids in our intermediate _ids structure // with the documents found by query 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; function setValue(val) { if (count) { return val; } if (o.justOne === true && Array.isArray(val)) { return valueFilter(val[0], options, populateOptions); } else if (o.justOne === false && !Array.isArray(val)) { return valueFilter([val], options, populateOptions); } return valueFilter(val, options, populateOptions); } for (let i = 0; i < docs.length; ++i) { const existingVal = utils.getValue(o.path, docs[i]); if (existingVal == null && !getVirtual(o.originalModel.schema, o.path)) { continue; } let valueToSet; if (count) { valueToSet = numDocs(rawIds[i]); } else if (Array.isArray(o.match)) { valueToSet = Array.isArray(rawIds[i]) ? sift(o.match[i], rawIds[i]) : sift(o.match[i], [rawIds[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], '$__', null) != null; let isMap = isDoc ? existingVal instanceof Map : utils.isPOJO(existingVal); // If we pass the first check, also make sure the local field's schematype // is map (re: gh-6460) isMap = isMap && get(originalSchema._getSchema(o.path), '$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 (o.isVirtual && isDoc) { docs[i].populated(o.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(o.path, valueToSet, docs[i], setValue); continue; } const parts = o.path.split('.'); let cur = docs[i]; for (let j = 0; j < parts.length - 1; ++j) { if (cur[parts[j]] == null) { 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') { return; } } if (docs[i].$__) { docs[i].populated(o.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 utils.setValue(o.path, valueToSet, docs[i], setValue, false); } }; function numDocs(v) { if (Array.isArray(v)) { 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) { if (Array.isArray(val)) { // find logic const ret = []; const numValues = val.length; for (let i = 0; i < numValues; ++i) { const subdoc = val[i]; if (!isPopulatedObject(subdoc) && (!populateOptions.retainNullValues || subdoc != null)) { continue; } 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)) { maybeRemoveId(val, assignmentOpts); return val; } if (val instanceof Map) { return val; } if (populateOptions.justOne === true) { return (val == null ? val : null); } if (populateOptions.justOne === false) { return []; } return val; } /*! * Remove _id from `subdoc` if user specified "lean" query option */ function maybeRemoveId(subdoc, assignmentOpts) { if (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); }