"use strict"; var __defProp = Object.defineProperty; var __getOwnPropSymbols = Object.getOwnPropertySymbols; var __hasOwnProp = Object.prototype.hasOwnProperty; var __propIsEnum = Object.prototype.propertyIsEnumerable; var __defNormalProp = (obj, key, value) => key in obj ? __defProp(obj, key, { enumerable: true, configurable: true, writable: true, value }) : obj[key] = value; var __spreadValues = (a, b) => { for (var prop in b || (b = {})) if (__hasOwnProp.call(b, prop)) __defNormalProp(a, prop, b[prop]); if (__getOwnPropSymbols) for (var prop of __getOwnPropSymbols(b)) { if (__propIsEnum.call(b, prop)) __defNormalProp(a, prop, b[prop]); } return a; }; const _ = require("lodash"); const SqlString = require("../../sql-string"); const QueryTypes = require("../../query-types"); const Dot = require("dottie"); const deprecations = require("../../utils/deprecations"); const uuid = require("uuid").v4; const { safeStringifyJson } = require("../../utils.js"); class AbstractQuery { constructor(connection, sequelize, options) { this.uuid = uuid(); this.connection = connection; this.instance = options.instance; this.model = options.model; this.sequelize = sequelize; this.options = __spreadValues({ plain: false, raw: false, logging: console.log }, options); this.checkLoggingOption(); if (options.rawErrors) { this.formatError = AbstractQuery.prototype.formatError; } } static formatBindParameters(sql, values, dialect, replacementFunc, options) { if (!values) { return [sql, []]; } options = options || {}; if (typeof replacementFunc !== "function") { options = replacementFunc || {}; replacementFunc = void 0; } if (!replacementFunc) { if (options.skipValueReplace) { replacementFunc = (match, key, values2) => { if (values2[key] !== void 0) { return match; } return void 0; }; } else { replacementFunc = (match, key, values2, timeZone2, dialect2) => { if (values2[key] !== void 0) { return SqlString.escape(values2[key], timeZone2, dialect2); } return void 0; }; } } else if (options.skipValueReplace) { const origReplacementFunc = replacementFunc; replacementFunc = (match, key, values2, timeZone2, dialect2, options2) => { if (origReplacementFunc(match, key, values2, timeZone2, dialect2, options2) !== void 0) { return match; } return void 0; }; } const timeZone = null; const list = Array.isArray(values); sql = sql.replace(/\B\$(\$|\w+)/g, (match, key) => { if (key === "$") { return options.skipUnescape ? match : key; } let replVal; if (list) { if (key.match(/^[1-9]\d*$/)) { key = key - 1; replVal = replacementFunc(match, key, values, timeZone, dialect, options); } } else if (!key.match(/^\d*$/)) { replVal = replacementFunc(match, key, values, timeZone, dialect, options); } if (replVal === void 0) { throw new Error(`Named bind parameter "${match}" has no value in the given object.`); } return replVal; }); return [sql, []]; } formatError(error, errStack) { error.stack = errStack; return error; } run() { throw new Error("The run method wasn't overwritten!"); } checkLoggingOption() { if (this.options.logging === true) { deprecations.noTrueLogging(); this.options.logging = console.log; } } getInsertIdField() { return "insertId"; } getUniqueConstraintErrorMessage(field) { let message = field ? `${field} must be unique` : "Must be unique"; if (field && this.model) { for (const key of Object.keys(this.model.uniqueKeys)) { if (this.model.uniqueKeys[key].fields.includes(field.replace(/"/g, ""))) { if (this.model.uniqueKeys[key].msg) { message = this.model.uniqueKeys[key].msg; } } } } return message; } isRawQuery() { return this.options.type === QueryTypes.RAW; } isVersionQuery() { return this.options.type === QueryTypes.VERSION; } isUpsertQuery() { return this.options.type === QueryTypes.UPSERT; } isInsertQuery(results, metaData) { let result = true; if (this.options.type === QueryTypes.INSERT) { return true; } result = result && this.sql.toLowerCase().startsWith("insert into"); result = result && (!results || Object.prototype.hasOwnProperty.call(results, this.getInsertIdField())); result = result && (!metaData || Object.prototype.hasOwnProperty.call(metaData, this.getInsertIdField())); return result; } handleInsertQuery(results, metaData) { if (this.instance) { const autoIncrementAttribute = this.model.autoIncrementAttribute; let id = null; id = id || results && results[this.getInsertIdField()]; id = id || metaData && metaData[this.getInsertIdField()]; this.instance[autoIncrementAttribute] = id; } } isShowTablesQuery() { return this.options.type === QueryTypes.SHOWTABLES; } handleShowTablesQuery(results) { return _.flatten(results.map((resultSet) => Object.values(resultSet))); } isShowIndexesQuery() { return this.options.type === QueryTypes.SHOWINDEXES; } isShowConstraintsQuery() { return this.options.type === QueryTypes.SHOWCONSTRAINTS; } isDescribeQuery() { return this.options.type === QueryTypes.DESCRIBE; } isSelectQuery() { return this.options.type === QueryTypes.SELECT; } isBulkUpdateQuery() { return this.options.type === QueryTypes.BULKUPDATE; } isBulkDeleteQuery() { return this.options.type === QueryTypes.BULKDELETE; } isForeignKeysQuery() { return this.options.type === QueryTypes.FOREIGNKEYS; } isUpdateQuery() { return this.options.type === QueryTypes.UPDATE; } handleSelectQuery(results) { let result = null; if (this.options.fieldMap) { const fieldMap = this.options.fieldMap; results = results.map((result2) => _.reduce(fieldMap, (result3, name, field) => { if (result3[field] !== void 0 && name !== field) { result3[name] = result3[field]; delete result3[field]; } return result3; }, result2)); } if (this.options.raw) { result = results.map((result2) => { let o = {}; for (const key in result2) { if (Object.prototype.hasOwnProperty.call(result2, key)) { o[key] = result2[key]; } } if (this.options.nest) { o = Dot.transform(o); } return o; }); } else if (this.options.hasJoin === true) { results = AbstractQuery._groupJoinData(results, { model: this.model, includeMap: this.options.includeMap, includeNames: this.options.includeNames }, { checkExisting: this.options.hasMultiAssociation }); result = this.model.bulkBuild(results, { isNewRecord: false, include: this.options.include, includeNames: this.options.includeNames, includeMap: this.options.includeMap, includeValidated: true, attributes: this.options.originalAttributes || this.options.attributes, raw: true }); } else { result = this.model.bulkBuild(results, { isNewRecord: false, raw: true, attributes: this.options.originalAttributes || this.options.attributes }); } if (this.options.plain) { result = result.length === 0 ? null : result[0]; } return result; } isShowOrDescribeQuery() { let result = false; result = result || this.sql.toLowerCase().startsWith("show"); result = result || this.sql.toLowerCase().startsWith("describe"); return result; } isCallQuery() { return this.sql.toLowerCase().startsWith("call"); } _logQuery(sql, debugContext, parameters) { const { connection, options } = this; const benchmark = this.sequelize.options.benchmark || options.benchmark; const logQueryParameters = this.sequelize.options.logQueryParameters || options.logQueryParameters; const startTime = Date.now(); let logParameter = ""; if (logQueryParameters && parameters) { const delimiter = sql.endsWith(";") ? "" : ";"; let paramStr; if (Array.isArray(parameters)) { paramStr = parameters.map((p) => safeStringifyJson(p)).join(", "); } else { paramStr = safeStringifyJson(parameters); } logParameter = `${delimiter} ${paramStr}`; } const fmt = `(${connection.uuid || "default"}): ${sql}${logParameter}`; const msg = `Executing ${fmt}`; debugContext(msg); if (!benchmark) { this.sequelize.log(`Executing ${fmt}`, options); } return () => { const afterMsg = `Executed ${fmt}`; debugContext(afterMsg); if (benchmark) { this.sequelize.log(afterMsg, Date.now() - startTime, options); } }; } static _groupJoinData(rows, includeOptions, options) { if (!rows.length) { return []; } let i; let length; let $i; let $length; let rowsI; let row; const rowsLength = rows.length; let keys; let key; let keyI; let keyLength; let prevKey; let values; let topValues; let topExists; const checkExisting = options.checkExisting; let itemHash; let parentHash; let topHash; const results = checkExisting ? [] : new Array(rowsLength); const resultMap = {}; const includeMap = {}; let $keyPrefix; let $keyPrefixString; let $prevKeyPrefixString; let $prevKeyPrefix; let $lastKeyPrefix; let $current; let $parent; let previousPiece; const buildIncludeMap = (piece) => { if (Object.prototype.hasOwnProperty.call($current.includeMap, piece)) { includeMap[key] = $current = $current.includeMap[piece]; if (previousPiece) { previousPiece = `${previousPiece}.${piece}`; } else { previousPiece = piece; } includeMap[previousPiece] = $current; } }; const keyPrefixStringMemo = {}; const keyPrefixString = (key2, memo) => { if (!Object.prototype.hasOwnProperty.call(memo, key2)) { memo[key2] = key2.substr(0, key2.lastIndexOf(".")); } return memo[key2]; }; const removeKeyPrefixMemo = {}; const removeKeyPrefix = (key2) => { if (!Object.prototype.hasOwnProperty.call(removeKeyPrefixMemo, key2)) { const index = key2.lastIndexOf("."); removeKeyPrefixMemo[key2] = key2.substr(index === -1 ? 0 : index + 1); } return removeKeyPrefixMemo[key2]; }; const keyPrefixMemo = {}; const keyPrefix = (key2) => { if (!Object.prototype.hasOwnProperty.call(keyPrefixMemo, key2)) { const prefixString = keyPrefixString(key2, keyPrefixStringMemo); if (!Object.prototype.hasOwnProperty.call(keyPrefixMemo, prefixString)) { keyPrefixMemo[prefixString] = prefixString ? prefixString.split(".") : []; } keyPrefixMemo[key2] = keyPrefixMemo[prefixString]; } return keyPrefixMemo[key2]; }; const lastKeyPrefixMemo = {}; const lastKeyPrefix = (key2) => { if (!Object.prototype.hasOwnProperty.call(lastKeyPrefixMemo, key2)) { const prefix2 = keyPrefix(key2); const length2 = prefix2.length; lastKeyPrefixMemo[key2] = !length2 ? "" : prefix2[length2 - 1]; } return lastKeyPrefixMemo[key2]; }; const getUniqueKeyAttributes = (model) => { let uniqueKeyAttributes2 = _.chain(model.uniqueKeys); uniqueKeyAttributes2 = uniqueKeyAttributes2.result(`${uniqueKeyAttributes2.findKey()}.fields`).map((field) => _.findKey(model.attributes, (chr) => chr.field === field)).value(); return uniqueKeyAttributes2; }; const stringify = (obj) => obj instanceof Buffer ? obj.toString("hex") : obj; let primaryKeyAttributes; let uniqueKeyAttributes; let prefix; for (rowsI = 0; rowsI < rowsLength; rowsI++) { row = rows[rowsI]; if (rowsI === 0) { keys = Object.keys(row); keyLength = keys.length; } if (checkExisting) { topExists = false; $length = includeOptions.model.primaryKeyAttributes.length; topHash = ""; if ($length === 1) { topHash = stringify(row[includeOptions.model.primaryKeyAttributes[0]]); } else if ($length > 1) { for ($i = 0; $i < $length; $i++) { topHash += stringify(row[includeOptions.model.primaryKeyAttributes[$i]]); } } else if (!_.isEmpty(includeOptions.model.uniqueKeys)) { uniqueKeyAttributes = getUniqueKeyAttributes(includeOptions.model); for ($i = 0; $i < uniqueKeyAttributes.length; $i++) { topHash += row[uniqueKeyAttributes[$i]]; } } } topValues = values = {}; $prevKeyPrefix = void 0; for (keyI = 0; keyI < keyLength; keyI++) { key = keys[keyI]; $keyPrefixString = keyPrefixString(key, keyPrefixStringMemo); $keyPrefix = keyPrefix(key); if (rowsI === 0 && !Object.prototype.hasOwnProperty.call(includeMap, key)) { if (!$keyPrefix.length) { includeMap[key] = includeMap[""] = includeOptions; } else { $current = includeOptions; previousPiece = void 0; $keyPrefix.forEach(buildIncludeMap); } } if ($prevKeyPrefix !== void 0 && $prevKeyPrefix !== $keyPrefix) { if (checkExisting) { length = $prevKeyPrefix.length; $parent = null; parentHash = null; if (length) { for (i = 0; i < length; i++) { prefix = $parent ? `${$parent}.${$prevKeyPrefix[i]}` : $prevKeyPrefix[i]; primaryKeyAttributes = includeMap[prefix].model.primaryKeyAttributes; $length = primaryKeyAttributes.length; itemHash = prefix; if ($length === 1) { itemHash += stringify(row[`${prefix}.${primaryKeyAttributes[0]}`]); } else if ($length > 1) { for ($i = 0; $i < $length; $i++) { itemHash += stringify(row[`${prefix}.${primaryKeyAttributes[$i]}`]); } } else if (!_.isEmpty(includeMap[prefix].model.uniqueKeys)) { uniqueKeyAttributes = getUniqueKeyAttributes(includeMap[prefix].model); for ($i = 0; $i < uniqueKeyAttributes.length; $i++) { itemHash += row[`${prefix}.${uniqueKeyAttributes[$i]}`]; } } if (!parentHash) { parentHash = topHash; } itemHash = parentHash + itemHash; $parent = prefix; if (i < length - 1) { parentHash = itemHash; } } } else { itemHash = topHash; } if (itemHash === topHash) { if (!resultMap[itemHash]) { resultMap[itemHash] = values; } else { topExists = true; } } else if (!resultMap[itemHash]) { $parent = resultMap[parentHash]; $lastKeyPrefix = lastKeyPrefix(prevKey); if (includeMap[prevKey].association.isSingleAssociation) { if ($parent) { $parent[$lastKeyPrefix] = resultMap[itemHash] = values; } } else { if (!$parent[$lastKeyPrefix]) { $parent[$lastKeyPrefix] = []; } $parent[$lastKeyPrefix].push(resultMap[itemHash] = values); } } values = {}; } else { $current = topValues; length = $keyPrefix.length; if (length) { for (i = 0; i < length; i++) { if (i === length - 1) { values = $current[$keyPrefix[i]] = {}; } $current = $current[$keyPrefix[i]] || {}; } } } } values[removeKeyPrefix(key)] = row[key]; prevKey = key; $prevKeyPrefix = $keyPrefix; $prevKeyPrefixString = $keyPrefixString; } if (checkExisting) { length = $prevKeyPrefix.length; $parent = null; parentHash = null; if (length) { for (i = 0; i < length; i++) { prefix = $parent ? `${$parent}.${$prevKeyPrefix[i]}` : $prevKeyPrefix[i]; primaryKeyAttributes = includeMap[prefix].model.primaryKeyAttributes; $length = primaryKeyAttributes.length; itemHash = prefix; if ($length === 1) { itemHash += stringify(row[`${prefix}.${primaryKeyAttributes[0]}`]); } else if ($length > 0) { for ($i = 0; $i < $length; $i++) { itemHash += stringify(row[`${prefix}.${primaryKeyAttributes[$i]}`]); } } else if (!_.isEmpty(includeMap[prefix].model.uniqueKeys)) { uniqueKeyAttributes = getUniqueKeyAttributes(includeMap[prefix].model); for ($i = 0; $i < uniqueKeyAttributes.length; $i++) { itemHash += row[`${prefix}.${uniqueKeyAttributes[$i]}`]; } } if (!parentHash) { parentHash = topHash; } itemHash = parentHash + itemHash; $parent = prefix; if (i < length - 1) { parentHash = itemHash; } } } else { itemHash = topHash; } if (itemHash === topHash) { if (!resultMap[itemHash]) { resultMap[itemHash] = values; } else { topExists = true; } } else if (!resultMap[itemHash]) { $parent = resultMap[parentHash]; $lastKeyPrefix = lastKeyPrefix(prevKey); if (includeMap[prevKey].association.isSingleAssociation) { if ($parent) { $parent[$lastKeyPrefix] = resultMap[itemHash] = values; } } else { if (!$parent[$lastKeyPrefix]) { $parent[$lastKeyPrefix] = []; } $parent[$lastKeyPrefix].push(resultMap[itemHash] = values); } } if (!topExists) { results.push(topValues); } } else { results[rowsI] = topValues; } } return results; } } module.exports = AbstractQuery; module.exports.AbstractQuery = AbstractQuery; module.exports.default = AbstractQuery; //# sourceMappingURL=query.js.map