swc/crates/swc_bundler/tests/.cache/untrusted/6dcffc6b397fefc44f1d27cc84ef654589b87aa9.ts

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// Loaded from https://raw.githubusercontent.com/denjucks/dex/master/lib/query/builder.js
// Builder
// -------
import assert from '../deps/@jspm/core@1.1.0/nodelibs/assert.js';
import inherits from '../deps/inherits@2.0.4/inherits.js';
import { EventEmitter } from '../deps/@jspm/core@1.1.0/nodelibs/events.js';
import Raw from '../raw.js';
import helpers from '../helpers.js';
import JoinClause from './joinclause.js';
import _ from '../deps/lodash@4.17.15/index.js';
const assign = _.assign;
const clone = _.clone;
const each = _.each;
const isBoolean = _.isBoolean;
const isEmpty = _.isEmpty;
const isFunction = _.isFunction;
const isNumber = _.isNumber;
const isObject = _.isObject;
const isPlainObject = _.isPlainObject;
const isString = _.isString;
const last = _.last;
const reject = _.reject;
const tail = _.tail;
const toArray = _.toArray;
import saveAsyncStack from '../util/save-async-stack.js';
import { lockMode, waitMode } from './constants.js';
// Typically called from `knex.builder`,
// start a new query building chain.
function Builder(client) {
this.client = client;
this.and = this;
this._single = {};
this._statements = [];
this._method = 'select';
if (client.config) {
saveAsyncStack(this, 5);
this._debug = client.config.debug;
}
// Internal flags used in the builder.
this._joinFlag = 'inner';
this._boolFlag = 'and';
this._notFlag = false;
this._asColumnFlag = false;
}
inherits(Builder, EventEmitter);
const validateWithArgs = function (alias, statement, method) {
if (typeof alias !== 'string') {
throw new Error(`${method}() first argument must be a string`);
}
if (
typeof statement === 'function' ||
statement instanceof Builder ||
statement instanceof Raw
) {
return;
}
throw new Error(
`${method}() second argument must be a function / QueryBuilder or a raw`
);
};
assign(Builder.prototype, {
toString() {
return this.toQuery();
},
// Convert the current query "toSQL"
toSQL(method, tz) {
return this.client.queryCompiler(this).toSQL(method || this._method, tz);
},
// Create a shallow clone of the current query builder.
clone() {
const cloned = new this.constructor(this.client);
cloned._method = this._method;
cloned._single = clone(this._single);
cloned._statements = clone(this._statements);
cloned._debug = this._debug;
// `_option` is assigned by the `Interface` mixin.
if (this._options !== undefined) {
cloned._options = clone(this._options);
}
if (this._queryContext !== undefined) {
cloned._queryContext = clone(this._queryContext);
}
if (this._connection !== undefined) {
cloned._connection = this._connection;
}
return cloned;
},
timeout(ms, { cancel } = {}) {
if (isNumber(ms) && ms > 0) {
this._timeout = ms;
if (cancel) {
this.client.assertCanCancelQuery();
this._cancelOnTimeout = true;
}
}
return this;
},
// With
// ------
with(alias, statement) {
validateWithArgs(alias, statement, 'with');
return this.withWrapped(alias, statement);
},
// Helper for compiling any advanced `with` queries.
withWrapped(alias, query) {
this._statements.push({
grouping: 'with',
type: 'withWrapped',
alias: alias,
value: query,
});
return this;
},
// With Recursive
// ------
withRecursive(alias, statement) {
validateWithArgs(alias, statement, 'withRecursive');
return this.withRecursiveWrapped(alias, statement);
},
// Helper for compiling any advanced `withRecursive` queries.
withRecursiveWrapped(alias, query) {
this.withWrapped(alias, query);
this._statements[this._statements.length - 1].recursive = true;
return this;
},
// Select
// ------
// Adds a column or columns to the list of "columns"
// being selected on the query.
columns(column) {
if (!column && column !== 0) return this;
this._statements.push({
grouping: 'columns',
value: helpers.normalizeArr.apply(null, arguments),
});
return this;
},
// Allow for a sub-select to be explicitly aliased as a column,
// without needing to compile the query in a where.
as(column) {
this._single.as = column;
return this;
},
// Prepends the `schemaName` on `tableName` defined by `.table` and `.join`.
withSchema(schemaName) {
this._single.schema = schemaName;
return this;
},
// Sets the `tableName` on the query.
// Alias to "from" for select and "into" for insert statements
// e.g. builder.insert({a: value}).into('tableName')
// `options`: options object containing keys:
// - `only`: whether the query should use SQL's ONLY to not return
// inheriting table data. Defaults to false.
table(tableName, options = {}) {
this._single.table = tableName;
this._single.only = options.only === true;
return this;
},
// Adds a `distinct` clause to the query.
distinct() {
this._statements.push({
grouping: 'columns',
value: helpers.normalizeArr.apply(null, arguments),
distinct: true,
});
return this;
},
distinctOn() {
const value = helpers.normalizeArr.apply(null, arguments);
if (isEmpty(value)) {
throw new Error('distinctOn requires atleast on argument');
}
this._statements.push({
grouping: 'columns',
value,
distinctOn: true,
});
return this;
},
// Adds a join clause to the query, allowing for advanced joins
// with an anonymous function as the second argument.
// function(table, first, operator, second)
join(table, first) {
let join;
const { schema } = this._single;
const joinType = this._joinType();
if (typeof first === 'function') {
join = new JoinClause(table, joinType, schema);
first.call(join, join);
} else if (joinType === 'raw') {
join = new JoinClause(this.client.raw(table, first), 'raw');
} else {
join = new JoinClause(
table,
joinType,
table instanceof Builder ? undefined : schema
);
if (arguments.length > 1) {
join.on.apply(join, toArray(arguments).slice(1));
}
}
this._statements.push(join);
return this;
},
// JOIN blocks:
innerJoin() {
return this._joinType('inner').join.apply(this, arguments);
},
leftJoin() {
return this._joinType('left').join.apply(this, arguments);
},
leftOuterJoin() {
return this._joinType('left outer').join.apply(this, arguments);
},
rightJoin() {
return this._joinType('right').join.apply(this, arguments);
},
rightOuterJoin() {
return this._joinType('right outer').join.apply(this, arguments);
},
outerJoin() {
return this._joinType('outer').join.apply(this, arguments);
},
fullOuterJoin() {
return this._joinType('full outer').join.apply(this, arguments);
},
crossJoin() {
return this._joinType('cross').join.apply(this, arguments);
},
joinRaw() {
return this._joinType('raw').join.apply(this, arguments);
},
// The where function can be used in several ways:
// The most basic is `where(key, value)`, which expands to
// where key = value.
where(column, operator, value) {
// Support "where true || where false"
if (column === false || column === true) {
return this.where(1, '=', column ? 1 : 0);
}
// Check if the column is a function, in which case it's
// a where statement wrapped in parens.
if (typeof column === 'function') {
return this.whereWrapped(column);
}
// Allow a raw statement to be passed along to the query.
if (column instanceof Raw && arguments.length === 1)
return this.whereRaw(column);
// Allows `where({id: 2})` syntax.
if (isObject(column) && !(column instanceof Raw))
return this._objectWhere(column);
// Enable the where('key', value) syntax, only when there
// are explicitly two arguments passed, so it's not possible to
// do where('key', '!=') and have that turn into where key != null
if (arguments.length === 2) {
value = operator;
operator = '=';
// If the value is null, and it's a two argument query,
// we assume we're going for a `whereNull`.
if (value === null) {
return this.whereNull(column);
}
}
// lower case the operator for comparison purposes
const checkOperator = `${operator}`.toLowerCase().trim();
// If there are 3 arguments, check whether 'in' is one of them.
if (arguments.length === 3) {
if (checkOperator === 'in' || checkOperator === 'not in') {
return this._not(checkOperator === 'not in').whereIn(
arguments[0],
arguments[2]
);
}
if (checkOperator === 'between' || checkOperator === 'not between') {
return this._not(checkOperator === 'not between').whereBetween(
arguments[0],
arguments[2]
);
}
}
// If the value is still null, check whether they're meaning
// where value is null
if (value === null) {
// Check for .where(key, 'is', null) or .where(key, 'is not', 'null');
if (checkOperator === 'is' || checkOperator === 'is not') {
return this._not(checkOperator === 'is not').whereNull(column);
}
}
// Push onto the where statement stack.
this._statements.push({
grouping: 'where',
type: 'whereBasic',
column,
operator,
value,
not: this._not(),
bool: this._bool(),
asColumn: this._asColumnFlag,
});
return this;
},
whereColumn(column, operator, rightColumn) {
this._asColumnFlag = true;
this.where.apply(this, arguments);
this._asColumnFlag = false;
return this;
},
// Adds an `or where` clause to the query.
orWhere() {
this._bool('or');
const obj = arguments[0];
if (isObject(obj) && !isFunction(obj) && !(obj instanceof Raw)) {
return this.whereWrapped(function () {
for (const key in obj) {
this.andWhere(key, obj[key]);
}
});
}
return this.where.apply(this, arguments);
},
orWhereColumn() {
this._bool('or');
const obj = arguments[0];
if (isObject(obj) && !isFunction(obj) && !(obj instanceof Raw)) {
return this.whereWrapped(function () {
for (const key in obj) {
this.andWhereColumn(key, '=', obj[key]);
}
});
}
return this.whereColumn.apply(this, arguments);
},
// Adds an `not where` clause to the query.
whereNot() {
return this._not(true).where.apply(this, arguments);
},
whereNotColumn() {
return this._not(true).whereColumn.apply(this, arguments);
},
// Adds an `or not where` clause to the query.
orWhereNot() {
return this._bool('or').whereNot.apply(this, arguments);
},
orWhereNotColumn() {
return this._bool('or').whereNotColumn.apply(this, arguments);
},
// Processes an object literal provided in a "where" clause.
_objectWhere(obj) {
const boolVal = this._bool();
const notVal = this._not() ? 'Not' : '';
for (const key in obj) {
this[boolVal + 'Where' + notVal](key, obj[key]);
}
return this;
},
// Adds a raw `where` clause to the query.
whereRaw(sql, bindings) {
const raw = sql instanceof Raw ? sql : this.client.raw(sql, bindings);
this._statements.push({
grouping: 'where',
type: 'whereRaw',
value: raw,
not: this._not(),
bool: this._bool(),
});
return this;
},
orWhereRaw(sql, bindings) {
return this._bool('or').whereRaw(sql, bindings);
},
// Helper for compiling any advanced `where` queries.
whereWrapped(callback) {
this._statements.push({
grouping: 'where',
type: 'whereWrapped',
value: callback,
not: this._not(),
bool: this._bool(),
});
return this;
},
// Adds a `where exists` clause to the query.
whereExists(callback) {
this._statements.push({
grouping: 'where',
type: 'whereExists',
value: callback,
not: this._not(),
bool: this._bool(),
});
return this;
},
// Adds an `or where exists` clause to the query.
orWhereExists(callback) {
return this._bool('or').whereExists(callback);
},
// Adds a `where not exists` clause to the query.
whereNotExists(callback) {
return this._not(true).whereExists(callback);
},
// Adds a `or where not exists` clause to the query.
orWhereNotExists(callback) {
return this._bool('or').whereNotExists(callback);
},
// Adds a `where in` clause to the query.
whereIn(column, values) {
if (Array.isArray(values) && isEmpty(values))
return this.where(this._not());
this._statements.push({
grouping: 'where',
type: 'whereIn',
column,
value: values,
not: this._not(),
bool: this._bool(),
});
return this;
},
// Adds a `or where in` clause to the query.
orWhereIn(column, values) {
return this._bool('or').whereIn(column, values);
},
// Adds a `where not in` clause to the query.
whereNotIn(column, values) {
return this._not(true).whereIn(column, values);
},
// Adds a `or where not in` clause to the query.
orWhereNotIn(column, values) {
return this._bool('or')._not(true).whereIn(column, values);
},
// Adds a `where null` clause to the query.
whereNull(column) {
this._statements.push({
grouping: 'where',
type: 'whereNull',
column,
not: this._not(),
bool: this._bool(),
});
return this;
},
// Adds a `or where null` clause to the query.
orWhereNull(column) {
return this._bool('or').whereNull(column);
},
// Adds a `where not null` clause to the query.
whereNotNull(column) {
return this._not(true).whereNull(column);
},
// Adds a `or where not null` clause to the query.
orWhereNotNull(column) {
return this._bool('or').whereNotNull(column);
},
// Adds a `where between` clause to the query.
whereBetween(column, values) {
assert(
Array.isArray(values),
'The second argument to whereBetween must be an array.'
);
assert(
values.length === 2,
'You must specify 2 values for the whereBetween clause'
);
this._statements.push({
grouping: 'where',
type: 'whereBetween',
column,
value: values,
not: this._not(),
bool: this._bool(),
});
return this;
},
// Adds a `where not between` clause to the query.
whereNotBetween(column, values) {
return this._not(true).whereBetween(column, values);
},
// Adds a `or where between` clause to the query.
orWhereBetween(column, values) {
return this._bool('or').whereBetween(column, values);
},
// Adds a `or where not between` clause to the query.
orWhereNotBetween(column, values) {
return this._bool('or').whereNotBetween(column, values);
},
// Adds a `group by` clause to the query.
groupBy(item) {
if (item instanceof Raw) {
return this.groupByRaw.apply(this, arguments);
}
this._statements.push({
grouping: 'group',
type: 'groupByBasic',
value: helpers.normalizeArr.apply(null, arguments),
});
return this;
},
// Adds a raw `group by` clause to the query.
groupByRaw(sql, bindings) {
const raw = sql instanceof Raw ? sql : this.client.raw(sql, bindings);
this._statements.push({
grouping: 'group',
type: 'groupByRaw',
value: raw,
});
return this;
},
// Adds a `order by` clause to the query.
orderBy(column, direction) {
if (Array.isArray(column)) {
return this._orderByArray(column);
}
this._statements.push({
grouping: 'order',
type: 'orderByBasic',
value: column,
direction,
});
return this;
},
// Adds a `order by` with multiple columns to the query.
_orderByArray(columnDefs) {
for (let i = 0; i < columnDefs.length; i++) {
const columnInfo = columnDefs[i];
if (isObject(columnInfo)) {
this._statements.push({
grouping: 'order',
type: 'orderByBasic',
value: columnInfo['column'],
direction: columnInfo['order'],
});
} else if (isString(columnInfo)) {
this._statements.push({
grouping: 'order',
type: 'orderByBasic',
value: columnInfo,
});
}
}
return this;
},
// Add a raw `order by` clause to the query.
orderByRaw(sql, bindings) {
const raw = sql instanceof Raw ? sql : this.client.raw(sql, bindings);
this._statements.push({
grouping: 'order',
type: 'orderByRaw',
value: raw,
});
return this;
},
_union(clause, args) {
let callbacks = args[0];
let wrap = args[1];
if (args.length === 1 || (args.length === 2 && isBoolean(wrap))) {
if (!Array.isArray(callbacks)) {
callbacks = [callbacks];
}
for (let i = 0, l = callbacks.length; i < l; i++) {
this._statements.push({
grouping: 'union',
clause: clause,
value: callbacks[i],
wrap: wrap || false,
});
}
} else {
callbacks = toArray(args).slice(0, args.length - 1);
wrap = args[args.length - 1];
if (!isBoolean(wrap)) {
callbacks.push(wrap);
wrap = false;
}
this._union(clause, [callbacks, wrap]);
}
return this;
},
// Add a union statement to the query.
union(...args) {
return this._union('union', args);
},
// Adds a union all statement to the query.
unionAll(...args) {
return this._union('union all', args);
},
// Adds an intersect statement to the query
intersect(callbacks, wrap) {
if (arguments.length === 1 || (arguments.length === 2 && isBoolean(wrap))) {
if (!Array.isArray(callbacks)) {
callbacks = [callbacks];
}
for (let i = 0, l = callbacks.length; i < l; i++) {
this._statements.push({
grouping: 'union',
clause: 'intersect',
value: callbacks[i],
wrap: wrap || false,
});
}
} else {
callbacks = toArray(arguments).slice(0, arguments.length - 1);
wrap = arguments[arguments.length - 1];
if (!isBoolean(wrap)) {
callbacks.push(wrap);
wrap = false;
}
this.intersect(callbacks, wrap);
}
return this;
},
// Adds a `having` clause to the query.
having(column, operator, value) {
if (column instanceof Raw && arguments.length === 1) {
return this.havingRaw(column);
}
// Check if the column is a function, in which case it's
// a having statement wrapped in parens.
if (typeof column === 'function') {
return this.havingWrapped(column);
}
this._statements.push({
grouping: 'having',
type: 'havingBasic',
column,
operator,
value,
bool: this._bool(),
not: this._not(),
});
return this;
},
orHaving: function orHaving() {
this._bool('or');
const obj = arguments[0];
if (isObject(obj) && !isFunction(obj) && !(obj instanceof Raw)) {
return this.havingWrapped(function () {
for (const key in obj) {
this.andHaving(key, obj[key]);
}
});
}
return this.having.apply(this, arguments);
},
// Helper for compiling any advanced `having` queries.
havingWrapped(callback) {
this._statements.push({
grouping: 'having',
type: 'havingWrapped',
value: callback,
bool: this._bool(),
not: this._not(),
});
return this;
},
havingNull(column) {
this._statements.push({
grouping: 'having',
type: 'havingNull',
column,
not: this._not(),
bool: this._bool(),
});
return this;
},
orHavingNull(callback) {
return this._bool('or').havingNull(callback);
},
havingNotNull(callback) {
return this._not(true).havingNull(callback);
},
orHavingNotNull(callback) {
return this._not(true)._bool('or').havingNull(callback);
},
havingExists(callback) {
this._statements.push({
grouping: 'having',
type: 'havingExists',
value: callback,
not: this._not(),
bool: this._bool(),
});
return this;
},
orHavingExists(callback) {
return this._bool('or').havingExists(callback);
},
havingNotExists(callback) {
return this._not(true).havingExists(callback);
},
orHavingNotExists(callback) {
return this._not(true)._bool('or').havingExists(callback);
},
havingBetween(column, values) {
assert(
Array.isArray(values),
'The second argument to havingBetween must be an array.'
);
assert(
values.length === 2,
'You must specify 2 values for the havingBetween clause'
);
this._statements.push({
grouping: 'having',
type: 'havingBetween',
column,
value: values,
not: this._not(),
bool: this._bool(),
});
return this;
},
orHavingBetween(column, values) {
return this._bool('or').havingBetween(column, values);
},
havingNotBetween(column, values) {
return this._not(true).havingBetween(column, values);
},
orHavingNotBetween(column, values) {
return this._not(true)._bool('or').havingBetween(column, values);
},
havingIn(column, values) {
if (Array.isArray(values) && isEmpty(values))
return this.where(this._not());
this._statements.push({
grouping: 'having',
type: 'havingIn',
column,
value: values,
not: this._not(),
bool: this._bool(),
});
return this;
},
// Adds a `or where in` clause to the query.
orHavingIn(column, values) {
return this._bool('or').havingIn(column, values);
},
// Adds a `where not in` clause to the query.
havingNotIn(column, values) {
return this._not(true).havingIn(column, values);
},
// Adds a `or where not in` clause to the query.
orHavingNotIn(column, values) {
return this._bool('or')._not(true).havingIn(column, values);
},
// Adds a raw `having` clause to the query.
havingRaw(sql, bindings) {
const raw = sql instanceof Raw ? sql : this.client.raw(sql, bindings);
this._statements.push({
grouping: 'having',
type: 'havingRaw',
value: raw,
bool: this._bool(),
not: this._not(),
});
return this;
},
orHavingRaw(sql, bindings) {
return this._bool('or').havingRaw(sql, bindings);
},
// Only allow a single "offset" to be set for the current query.
offset(value) {
if (value == null || value instanceof Raw || value instanceof Builder) {
// Builder for backward compatibility
this._single.offset = value;
} else {
const val = parseInt(value, 10);
if (isNaN(val)) {
this.client.logger.warn('A valid integer must be provided to offset');
} else {
this._single.offset = val;
}
}
return this;
},
// Only allow a single "limit" to be set for the current query.
limit(value) {
const val = parseInt(value, 10);
if (isNaN(val)) {
this.client.logger.warn('A valid integer must be provided to limit');
} else {
this._single.limit = val;
}
return this;
},
// Retrieve the "count" result of the query.
count(column, options) {
return this._aggregate('count', column || '*', options);
},
// Retrieve the minimum value of a given column.
min(column, options) {
return this._aggregate('min', column, options);
},
// Retrieve the maximum value of a given column.
max(column, options) {
return this._aggregate('max', column, options);
},
// Retrieve the sum of the values of a given column.
sum(column, options) {
return this._aggregate('sum', column, options);
},
// Retrieve the average of the values of a given column.
avg(column, options) {
return this._aggregate('avg', column, options);
},
// Retrieve the "count" of the distinct results of the query.
countDistinct() {
let columns = helpers.normalizeArr.apply(null, arguments);
let options;
if (columns.length > 1 && isPlainObject(last(columns))) {
[options] = columns.splice(columns.length - 1, 1);
}
if (!columns.length) {
columns = '*';
} else if (columns.length === 1) {
columns = columns[0];
}
return this._aggregate('count', columns, { ...options, distinct: true });
},
// Retrieve the sum of the distinct values of a given column.
sumDistinct(column, options) {
return this._aggregate('sum', column, { ...options, distinct: true });
},
// Retrieve the vg of the distinct results of the query.
avgDistinct(column, options) {
return this._aggregate('avg', column, { ...options, distinct: true });
},
// Increments a column's value by the specified amount.
increment(column, amount = 1) {
if (isObject(column)) {
for (const key in column) {
this._counter(key, column[key]);
}
return this;
}
return this._counter(column, amount);
},
// Decrements a column's value by the specified amount.
decrement(column, amount = 1) {
if (isObject(column)) {
for (const key in column) {
this._counter(key, -column[key]);
}
return this;
}
return this._counter(column, -amount);
},
// Clears increments/decrements
clearCounters() {
this._single.counter = {};
return this;
},
// Sets the values for a `select` query, informing that only the first
// row should be returned (limit 1).
first() {
if (!this._isSelectQuery()) {
throw new Error(`Cannot chain .first() on "${this._method}" query!`);
}
const args = new Array(arguments.length);
for (let i = 0; i < args.length; i++) {
args[i] = arguments[i];
}
this.select.apply(this, args);
this._method = 'first';
this.limit(1);
return this;
},
// Use existing connection to execute the query
// Same value that client.acquireConnection() for an according client returns should be passed
connection(_connection) {
this._connection = _connection;
return this;
},
// Pluck a column from a query.
pluck(column) {
this._method = 'pluck';
this._single.pluck = column;
this._statements.push({
grouping: 'columns',
type: 'pluck',
value: column,
});
return this;
},
// Remove everything from select clause
clearSelect() {
this._clearGrouping('columns');
return this;
},
// Remove everything from where clause
clearWhere() {
this._clearGrouping('where');
return this;
},
// Remove everything from group clause
clearGroup() {
this._clearGrouping('group');
return this;
},
// Remove everything from order clause
clearOrder() {
this._clearGrouping('order');
return this;
},
// Remove everything from having clause
clearHaving() {
this._clearGrouping('having');
return this;
},
// Insert & Update
// ------
// Sets the values for an `insert` query.
insert(values, returning) {
this._method = 'insert';
if (!isEmpty(returning)) this.returning(returning);
this._single.insert = values;
return this;
},
// Sets the values for an `update`, allowing for both
// `.update(key, value, [returning])` and `.update(obj, [returning])` syntaxes.
update(values, returning) {
let ret;
const obj = this._single.update || {};
this._method = 'update';
if (isString(values)) {
obj[values] = returning;
if (arguments.length > 2) {
ret = arguments[2];
}
} else {
const keys = Object.keys(values);
if (this._single.update) {
this.client.logger.warn('Update called multiple times with objects.');
}
let i = -1;
while (++i < keys.length) {
obj[keys[i]] = values[keys[i]];
}
ret = arguments[1];
}
if (!isEmpty(ret)) this.returning(ret);
this._single.update = obj;
return this;
},
// Sets the returning value for the query.
returning(returning) {
this._single.returning = returning;
return this;
},
// Delete
// ------
// Executes a delete statement on the query;
delete(ret) {
this._method = 'del';
if (!isEmpty(ret)) this.returning(ret);
return this;
},
// Truncates a table, ends the query chain.
truncate(tableName) {
this._method = 'truncate';
if (tableName) {
this._single.table = tableName;
}
return this;
},
// Retrieves columns for the table specified by `knex(tableName)`
columnInfo(column) {
this._method = 'columnInfo';
this._single.columnInfo = column;
return this;
},
// Set a lock for update constraint.
forUpdate() {
this._single.lock = lockMode.forUpdate;
this._single.lockTables = helpers.normalizeArr.apply(null, arguments);
return this;
},
// Set a lock for share constraint.
forShare() {
this._single.lock = lockMode.forShare;
this._single.lockTables = helpers.normalizeArr.apply(null, arguments);
return this;
},
// Skips locked rows when using a lock constraint.
skipLocked() {
if (!this._isSelectQuery()) {
throw new Error(`Cannot chain .skipLocked() on "${this._method}" query!`);
}
if (!this._hasLockMode()) {
throw new Error(
'.skipLocked() can only be used after a call to .forShare() or .forUpdate()!'
);
}
if (this._single.waitMode === waitMode.noWait) {
throw new Error('.skipLocked() cannot be used together with .noWait()!');
}
this._single.waitMode = waitMode.skipLocked;
return this;
},
// Causes error when acessing a locked row instead of waiting for it to be released.
noWait() {
if (!this._isSelectQuery()) {
throw new Error(`Cannot chain .noWait() on "${this._method}" query!`);
}
if (!this._hasLockMode()) {
throw new Error(
'.noWait() can only be used after a call to .forShare() or .forUpdate()!'
);
}
if (this._single.waitMode === waitMode.skipLocked) {
throw new Error('.noWait() cannot be used together with .skipLocked()!');
}
this._single.waitMode = waitMode.noWait;
return this;
},
// Takes a JS object of methods to call and calls them
fromJS(obj) {
each(obj, (val, key) => {
if (typeof this[key] !== 'function') {
this.client.logger.warn(`Knex Error: unknown key ${key}`);
}
if (Array.isArray(val)) {
this[key].apply(this, val);
} else {
this[key](val);
}
});
return this;
},
// Passes query to provided callback function, useful for e.g. composing
// domain-specific helpers
modify(callback) {
callback.apply(this, [this].concat(tail(arguments)));
return this;
},
// ----------------------------------------------------------------------
// Helper for the incrementing/decrementing queries.
_counter(column, amount) {
amount = parseFloat(amount);
this._method = 'update';
this._single.counter = this._single.counter || {};
this._single.counter[column] = amount;
return this;
},
// Helper to get or set the "boolFlag" value.
_bool(val) {
if (arguments.length === 1) {
this._boolFlag = val;
return this;
}
const ret = this._boolFlag;
this._boolFlag = 'and';
return ret;
},
// Helper to get or set the "notFlag" value.
_not(val) {
if (arguments.length === 1) {
this._notFlag = val;
return this;
}
const ret = this._notFlag;
this._notFlag = false;
return ret;
},
// Helper to get or set the "joinFlag" value.
_joinType(val) {
if (arguments.length === 1) {
this._joinFlag = val;
return this;
}
const ret = this._joinFlag || 'inner';
this._joinFlag = 'inner';
return ret;
},
// Helper for compiling any aggregate queries.
_aggregate(method, column, options = {}) {
this._statements.push({
grouping: 'columns',
type: column instanceof Raw ? 'aggregateRaw' : 'aggregate',
method,
value: column,
aggregateDistinct: options.distinct || false,
alias: options.as,
});
return this;
},
// Helper function for clearing or reseting a grouping type from the builder
_clearGrouping(grouping) {
this._statements = reject(this._statements, { grouping });
},
// Helper function that checks if the builder will emit a select query
_isSelectQuery() {
return ['pluck', 'first', 'select'].includes(this._method);
},
// Helper function that checks if the query has a lock mode set
_hasLockMode() {
return [lockMode.forShare, lockMode.forUpdate].includes(this._single.lock);
},
});
Object.defineProperty(Builder.prototype, 'or', {
get() {
return this._bool('or');
},
});
Object.defineProperty(Builder.prototype, 'not', {
get() {
return this._not(true);
},
});
Builder.prototype.select = Builder.prototype.columns;
Builder.prototype.column = Builder.prototype.columns;
Builder.prototype.andWhereNot = Builder.prototype.whereNot;
Builder.prototype.andWhereNotColumn = Builder.prototype.whereNotColumn;
Builder.prototype.andWhere = Builder.prototype.where;
Builder.prototype.andWhereColumn = Builder.prototype.whereColumn;
Builder.prototype.andWhereRaw = Builder.prototype.whereRaw;
Builder.prototype.andWhereBetween = Builder.prototype.whereBetween;
Builder.prototype.andWhereNotBetween = Builder.prototype.whereNotBetween;
Builder.prototype.andHaving = Builder.prototype.having;
Builder.prototype.andHavingIn = Builder.prototype.havingIn;
Builder.prototype.andHavingNotIn = Builder.prototype.havingNotIn;
Builder.prototype.andHavingNull = Builder.prototype.havingNull;
Builder.prototype.andHavingNotNull = Builder.prototype.havingNotNull;
Builder.prototype.andHavingExists = Builder.prototype.havingExists;
Builder.prototype.andHavingNotExists = Builder.prototype.havingNotExists;
Builder.prototype.andHavingBetween = Builder.prototype.havingBetween;
Builder.prototype.andHavingNotBetween = Builder.prototype.havingNotBetween;
Builder.prototype.from = Builder.prototype.table;
Builder.prototype.into = Builder.prototype.table;
Builder.prototype.del = Builder.prototype.delete;
// Attach all of the top level promise methods that should be chainable.
import interfacelib from '../interface.js';
interfacelib(Builder);
helpers.addQueryContext(Builder);
Builder.extend = (methodName, fn) => {
if (Object.prototype.hasOwnProperty.call(Builder.prototype, methodName)) {
throw new Error(
`Can't extend QueryBuilder with existing method ('${methodName}').`
);
}
assign(Builder.prototype, { [methodName]: fn });
};
export default Builder;