swc/crates/swc_bundler/tests/.cache/untrusted/afcaf9928f3ee5bac47e7c9dbe6af18c6320247e.ts
2021-11-09 20:42:49 +09:00

890 lines
23 KiB
TypeScript

// Loaded from https://raw.githubusercontent.com/denjucks/dex/master/lib/query/compiler.js
// Query Compiler
// -------
import helpers from '../helpers.js';
import Raw from '../raw.js';
import QueryBuilder from './builder.js';
import JoinClause from './joinclause.js';
import debug from '../deps/debug@4.1.1/src/index.js';
import _ from '../deps/lodash@4.17.15/index.js';
const assign = _.assign;
const bind = _.bind;
const compact = _.compact;
const groupBy = _.groupBy;
const has = _.has;
const isEmpty = _.isEmpty;
const isString = _.isString;
const isUndefined = _.isUndefined;
const map = _.map;
const omitBy = _.omitBy;
const reduce = _.reduce;
import * as uuidlib from "../deps/uuid/mod.ts";
const uuid = {
v1: uuidlib.v1.generate
}
const debugBindings = debug('knex:bindings');
const components = [
'columns',
'join',
'where',
'union',
'group',
'having',
'order',
'limit',
'offset',
'lock',
'waitMode',
];
// The "QueryCompiler" takes all of the query statements which
// have been gathered in the "QueryBuilder" and turns them into a
// properly formatted / bound query string.
class QueryCompiler {
constructor(client, builder) {
this.client = client;
this.method = builder._method || 'select';
this.options = builder._options;
this.single = builder._single;
this.timeout = builder._timeout || false;
this.cancelOnTimeout = builder._cancelOnTimeout || false;
this.grouped = groupBy(builder._statements, 'grouping');
this.formatter = client.formatter(builder);
// Used when the insert call is empty.
this._emptyInsertValue = 'default values';
this.first = this.select;
}
// Collapse the builder into a single object
toSQL(method, tz) {
this._undefinedInWhereClause = false;
this.undefinedBindingsInfo = [];
method = method || this.method;
const val = this[method]() || '';
const query = {
method,
options: reduce(this.options, assign, {}),
timeout: this.timeout,
cancelOnTimeout: this.cancelOnTimeout,
bindings: this.formatter.bindings || [],
__knexQueryUid: uuid.v1(),
};
Object.defineProperties(query, {
toNative: {
value: () => {
return {
sql: this.client.positionBindings(query.sql),
bindings: this.client.prepBindings(query.bindings),
};
},
enumerable: false,
},
});
if (isString(val)) {
query.sql = val;
} else {
assign(query, val);
}
if (method === 'select' || method === 'first') {
if (this.single.as) {
query.as = this.single.as;
}
}
if (this._undefinedInWhereClause) {
debugBindings(query.bindings);
throw new Error(
`Undefined binding(s) detected when compiling ` +
`${method.toUpperCase()}. Undefined column(s): [${this.undefinedBindingsInfo.join(
', '
)}] query: ${query.sql}`
);
}
return query;
}
// Compiles the `select` statement, or nested sub-selects by calling each of
// the component compilers, trimming out the empties, and returning a
// generated query string.
select() {
let sql = this.with();
const statements = components.map((component) => this[component](this));
sql += compact(statements).join(' ');
return sql;
}
pluck() {
let toPluck = this.single.pluck;
if (toPluck.indexOf('.') !== -1) {
toPluck = toPluck.split('.').slice(-1)[0];
}
return {
sql: this.select(),
pluck: toPluck,
};
}
// Compiles an "insert" query, allowing for multiple
// inserts using a single query statement.
insert() {
const insertValues = this.single.insert || [];
let sql = this.with() + `insert into ${this.tableName} `;
if (Array.isArray(insertValues)) {
if (insertValues.length === 0) {
return '';
}
} else if (typeof insertValues === 'object' && isEmpty(insertValues)) {
return sql + this._emptyInsertValue;
}
const insertData = this._prepInsert(insertValues);
if (typeof insertData === 'string') {
sql += insertData;
} else {
if (insertData.columns.length) {
sql += `(${this.formatter.columnize(insertData.columns)}`;
sql += ') values (';
let i = -1;
while (++i < insertData.values.length) {
if (i !== 0) sql += '), (';
sql += this.formatter.parameterize(
insertData.values[i],
this.client.valueForUndefined
);
}
sql += ')';
} else if (insertValues.length === 1 && insertValues[0]) {
sql += this._emptyInsertValue;
} else {
sql = '';
}
}
return sql;
}
// Compiles the "update" query.
update() {
// Make sure tableName is processed by the formatter first.
const withSQL = this.with();
const { tableName } = this;
const updateData = this._prepUpdate(this.single.update);
const wheres = this.where();
return (
withSQL +
`update ${this.single.only ? 'only ' : ''}${tableName}` +
' set ' +
updateData.join(', ') +
(wheres ? ` ${wheres}` : '')
);
}
// Compiles the columns in the query, specifying if an item was distinct.
columns() {
let distinctClause = '';
if (this.onlyUnions()) return '';
const columns = this.grouped.columns || [];
let i = -1,
sql = [];
if (columns) {
while (++i < columns.length) {
const stmt = columns[i];
if (stmt.distinct) distinctClause = 'distinct ';
if (stmt.distinctOn) {
distinctClause = this.distinctOn(stmt.value);
continue;
}
if (stmt.type === 'aggregate') {
sql.push(...this.aggregate(stmt));
} else if (stmt.type === 'aggregateRaw') {
sql.push(this.aggregateRaw(stmt));
} else if (stmt.value && stmt.value.length > 0) {
sql.push(this.formatter.columnize(stmt.value));
}
}
}
if (sql.length === 0) sql = ['*'];
return (
`select ${distinctClause}` +
sql.join(', ') +
(this.tableName
? ` from ${this.single.only ? 'only ' : ''}${this.tableName}`
: '')
);
}
_aggregate(stmt, { aliasSeparator = ' as ', distinctParentheses } = {}) {
const value = stmt.value;
const method = stmt.method;
const distinct = stmt.aggregateDistinct ? 'distinct ' : '';
const wrap = (identifier) => this.formatter.wrap(identifier);
const addAlias = (value, alias) => {
if (alias) {
return value + aliasSeparator + wrap(alias);
}
return value;
};
const aggregateArray = (value, alias) => {
let columns = value.map(wrap).join(', ');
if (distinct) {
const openParen = distinctParentheses ? '(' : ' ';
const closeParen = distinctParentheses ? ')' : '';
columns = distinct.trim() + openParen + columns + closeParen;
}
const aggregated = `${method}(${columns})`;
return addAlias(aggregated, alias);
};
const aggregateString = (value, alias) => {
const aggregated = `${method}(${distinct + wrap(value)})`;
return addAlias(aggregated, alias);
};
if (Array.isArray(value)) {
return [aggregateArray(value)];
}
if (typeof value === 'object') {
if (stmt.alias) {
throw new Error('When using an object explicit alias can not be used');
}
return Object.entries(value).map(([alias, column]) => {
if (Array.isArray(column)) {
return aggregateArray(column, alias);
}
return aggregateString(column, alias);
});
}
// Allows us to speciy an alias for the aggregate types.
const splitOn = value.toLowerCase().indexOf(' as ');
let column = value;
let { alias } = stmt;
if (splitOn !== -1) {
column = value.slice(0, splitOn);
if (alias) {
throw new Error(`Found multiple aliases for same column: ${column}`);
}
alias = value.slice(splitOn + 4);
}
return [aggregateString(column, alias)];
}
aggregate(stmt) {
return this._aggregate(stmt);
}
aggregateRaw(stmt) {
const distinct = stmt.aggregateDistinct ? 'distinct ' : '';
return `${stmt.method}(${distinct + this.formatter.unwrapRaw(stmt.value)})`;
}
// Compiles all each of the `join` clauses on the query,
// including any nested join queries.
join() {
let sql = '';
let i = -1;
const joins = this.grouped.join;
if (!joins) return '';
while (++i < joins.length) {
const join = joins[i];
const table = join.schema ? `${join.schema}.${join.table}` : join.table;
if (i > 0) sql += ' ';
if (join.joinType === 'raw') {
sql += this.formatter.unwrapRaw(join.table);
} else {
sql += join.joinType + ' join ' + this.formatter.wrap(table);
let ii = -1;
while (++ii < join.clauses.length) {
const clause = join.clauses[ii];
if (ii > 0) {
sql += ` ${clause.bool} `;
} else {
sql += ` ${clause.type === 'onUsing' ? 'using' : 'on'} `;
}
const val = this[clause.type].call(this, clause);
if (val) {
sql += val;
}
}
}
}
return sql;
}
onBetween(statement) {
return (
this.formatter.wrap(statement.column) +
' ' +
this._not(statement, 'between') +
' ' +
map(statement.value, bind(this.formatter.parameter, this.formatter)).join(
' and '
)
);
}
onNull(statement) {
return (
this.formatter.wrap(statement.column) +
' is ' +
this._not(statement, 'null')
);
}
onExists(statement) {
return (
this._not(statement, 'exists') +
' (' +
this.formatter.rawOrFn(statement.value) +
')'
);
}
onIn(statement) {
if (Array.isArray(statement.column)) return this.multiOnIn(statement);
return (
this.formatter.wrap(statement.column) +
' ' +
this._not(statement, 'in ') +
this.wrap(this.formatter.parameterize(statement.value))
);
}
multiOnIn(statement) {
let i = -1,
sql = `(${this.formatter.columnize(statement.column)}) `;
sql += this._not(statement, 'in ') + '((';
while (++i < statement.value.length) {
if (i !== 0) sql += '),(';
sql += this.formatter.parameterize(statement.value[i]);
}
return sql + '))';
}
// Compiles all `where` statements on the query.
where() {
const wheres = this.grouped.where;
if (!wheres) return;
const sql = [];
let i = -1;
while (++i < wheres.length) {
const stmt = wheres[i];
if (
Object.prototype.hasOwnProperty.call(stmt, 'value') &&
helpers.containsUndefined(stmt.value)
) {
this.undefinedBindingsInfo.push(stmt.column);
this._undefinedInWhereClause = true;
}
const val = this[stmt.type](stmt);
if (val) {
if (sql.length === 0) {
sql[0] = 'where';
} else {
sql.push(stmt.bool);
}
sql.push(val);
}
}
return sql.length > 1 ? sql.join(' ') : '';
}
group() {
return this._groupsOrders('group');
}
order() {
return this._groupsOrders('order');
}
// Compiles the `having` statements.
having() {
const havings = this.grouped.having;
if (!havings) return '';
const sql = ['having'];
for (let i = 0, l = havings.length; i < l; i++) {
const s = havings[i];
const val = this[s.type](s);
if (val) {
if (sql.length === 0) {
sql[0] = 'where';
}
if (sql.length > 1 || (sql.length === 1 && sql[0] !== 'having')) {
sql.push(s.bool);
}
sql.push(val);
}
}
return sql.length > 1 ? sql.join(' ') : '';
}
havingRaw(statement) {
return this._not(statement, '') + this.formatter.unwrapRaw(statement.value);
}
havingWrapped(statement) {
const val = this.formatter.rawOrFn(statement.value, 'where');
return (val && this._not(statement, '') + '(' + val.slice(6) + ')') || '';
}
havingBasic(statement) {
return (
this._not(statement, '') +
this.formatter.wrap(statement.column) +
' ' +
this.formatter.operator(statement.operator) +
' ' +
this.formatter.parameter(statement.value)
);
}
havingNull(statement) {
return (
this.formatter.wrap(statement.column) +
' is ' +
this._not(statement, 'null')
);
}
havingExists(statement) {
return (
this._not(statement, 'exists') +
' (' +
this.formatter.rawOrFn(statement.value) +
')'
);
}
havingBetween(statement) {
return (
this.formatter.wrap(statement.column) +
' ' +
this._not(statement, 'between') +
' ' +
map(statement.value, bind(this.formatter.parameter, this.formatter)).join(
' and '
)
);
}
havingIn(statement) {
if (Array.isArray(statement.column)) return this.multiHavingIn(statement);
return (
this.formatter.wrap(statement.column) +
' ' +
this._not(statement, 'in ') +
this.wrap(this.formatter.parameterize(statement.value))
);
}
multiHavingIn(statement) {
let i = -1,
sql = `(${this.formatter.columnize(statement.column)}) `;
sql += this._not(statement, 'in ') + '((';
while (++i < statement.value.length) {
if (i !== 0) sql += '),(';
sql += this.formatter.parameterize(statement.value[i]);
}
return sql + '))';
}
// Compile the "union" queries attached to the main query.
union() {
const onlyUnions = this.onlyUnions();
const unions = this.grouped.union;
if (!unions) return '';
let sql = '';
for (let i = 0, l = unions.length; i < l; i++) {
const union = unions[i];
if (i > 0) sql += ' ';
if (i > 0 || !onlyUnions) sql += union.clause + ' ';
const statement = this.formatter.rawOrFn(union.value);
if (statement) {
if (union.wrap) sql += '(';
sql += statement;
if (union.wrap) sql += ')';
}
}
return sql;
}
// If we haven't specified any columns or a `tableName`, we're assuming this
// is only being used for unions.
onlyUnions() {
return !this.grouped.columns && this.grouped.union && !this.tableName;
}
limit() {
const noLimit = !this.single.limit && this.single.limit !== 0;
if (noLimit) return '';
return `limit ${this.formatter.parameter(this.single.limit)}`;
}
offset() {
if (!this.single.offset) return '';
return `offset ${this.formatter.parameter(this.single.offset)}`;
}
// Compiles a `delete` query.
del() {
// Make sure tableName is processed by the formatter first.
const { tableName } = this;
const withSQL = this.with();
const wheres = this.where();
return (
withSQL +
`delete from ${this.single.only ? 'only ' : ''}${tableName}` +
(wheres ? ` ${wheres}` : '')
);
}
// Compiles a `truncate` query.
truncate() {
return `truncate ${this.tableName}`;
}
// Compiles the "locks".
lock() {
if (this.single.lock) {
return this[this.single.lock]();
}
}
// Compiles the wait mode on the locks.
waitMode() {
if (this.single.waitMode) {
return this[this.single.waitMode]();
}
}
// Fail on unsupported databases
skipLocked() {
throw new Error(
'.skipLocked() is currently only supported on MySQL 8.0+ and PostgreSQL 9.5+'
);
}
// Fail on unsupported databases
noWait() {
throw new Error(
'.noWait() is currently only supported on MySQL 8.0+, MariaDB 10.3.0+ and PostgreSQL 9.5+'
);
}
distinctOn(value) {
throw new Error('.distinctOn() is currently only supported on PostgreSQL');
}
// On Clause
// ------
onWrapped(clause) {
const self = this;
const wrapJoin = new JoinClause();
clause.value.call(wrapJoin, wrapJoin);
let sql = '';
wrapJoin.clauses.forEach(function (wrapClause, ii) {
if (ii > 0) {
sql += ` ${wrapClause.bool} `;
}
const val = self[wrapClause.type](wrapClause);
if (val) {
sql += val;
}
});
if (sql.length) {
return `(${sql})`;
}
return '';
}
onBasic(clause) {
return (
this.formatter.wrap(clause.column) +
' ' +
this.formatter.operator(clause.operator) +
' ' +
this.formatter.wrap(clause.value)
);
}
onVal(clause) {
return (
this.formatter.wrap(clause.column) +
' ' +
this.formatter.operator(clause.operator) +
' ' +
this.formatter.parameter(clause.value)
);
}
onRaw(clause) {
return this.formatter.unwrapRaw(clause.value);
}
onUsing(clause) {
return '(' + this.formatter.columnize(clause.column) + ')';
}
// Where Clause
// ------
whereIn(statement) {
let columns = null;
if (Array.isArray(statement.column)) {
columns = `(${this.formatter.columnize(statement.column)})`;
} else {
columns = this.formatter.wrap(statement.column);
}
const values = this.formatter.values(statement.value);
return `${columns} ${this._not(statement, 'in ')}${values}`;
}
whereNull(statement) {
return (
this.formatter.wrap(statement.column) +
' is ' +
this._not(statement, 'null')
);
}
// Compiles a basic "where" clause.
whereBasic(statement) {
return (
this._not(statement, '') +
this.formatter.wrap(statement.column) +
' ' +
this.formatter.operator(statement.operator) +
' ' +
(statement.asColumn
? this.formatter.wrap(statement.value)
: this.formatter.parameter(statement.value))
);
}
whereExists(statement) {
return (
this._not(statement, 'exists') +
' (' +
this.formatter.rawOrFn(statement.value) +
')'
);
}
whereWrapped(statement) {
const val = this.formatter.rawOrFn(statement.value, 'where');
return (val && this._not(statement, '') + '(' + val.slice(6) + ')') || '';
}
whereBetween(statement) {
return (
this.formatter.wrap(statement.column) +
' ' +
this._not(statement, 'between') +
' ' +
map(statement.value, bind(this.formatter.parameter, this.formatter)).join(
' and '
)
);
}
// Compiles a "whereRaw" query.
whereRaw(statement) {
return this._not(statement, '') + this.formatter.unwrapRaw(statement.value);
}
wrap(str) {
if (str.charAt(0) !== '(') return `(${str})`;
return str;
}
// Compiles all `with` statements on the query.
with() {
if (!this.grouped.with || !this.grouped.with.length) {
return '';
}
const withs = this.grouped.with;
if (!withs) return;
const sql = [];
let i = -1;
let isRecursive = false;
while (++i < withs.length) {
const stmt = withs[i];
if (stmt.recursive) {
isRecursive = true;
}
const val = this[stmt.type](stmt);
sql.push(val);
}
return `with ${isRecursive ? 'recursive ' : ''}${sql.join(', ')} `;
}
withWrapped(statement) {
const val = this.formatter.rawOrFn(statement.value);
return (
(val &&
this.formatter.columnize(statement.alias) + ' as (' + val + ')') ||
''
);
}
// Determines whether to add a "not" prefix to the where clause.
_not(statement, str) {
if (statement.not) return `not ${str}`;
return str;
}
_prepInsert(data) {
const isRaw = this.formatter.rawOrFn(data);
if (isRaw) return isRaw;
let columns = [];
const values = [];
if (!Array.isArray(data)) data = data ? [data] : [];
let i = -1;
while (++i < data.length) {
if (data[i] == null) break;
if (i === 0) columns = Object.keys(data[i]).sort();
const row = new Array(columns.length);
const keys = Object.keys(data[i]);
let j = -1;
while (++j < keys.length) {
const key = keys[j];
let idx = columns.indexOf(key);
if (idx === -1) {
columns = columns.concat(key).sort();
idx = columns.indexOf(key);
let k = -1;
while (++k < values.length) {
values[k].splice(idx, 0, undefined);
}
row.splice(idx, 0, undefined);
}
row[idx] = data[i][key];
}
values.push(row);
}
return {
columns,
values,
};
}
// "Preps" the update.
_prepUpdate(data = {}) {
const { counter = {} } = this.single;
for (const column of Object.keys(counter)) {
//Skip?
if (has(data, column)) {
//Needed?
this.client.logger.warn(
`increment/decrement called for a column that has already been specified in main .update() call. Ignoring increment/decrement and using value from .update() call.`
);
continue;
}
let value = counter[column];
const symbol = value < 0 ? '-' : '+';
if (symbol === '-') {
value = -value;
}
data[column] = this.client.raw(`?? ${symbol} ?`, [column, value]);
}
data = omitBy(data, isUndefined);
const vals = [];
const columns = Object.keys(data);
let i = -1;
while (++i < columns.length) {
vals.push(
this.formatter.wrap(columns[i]) +
' = ' +
this.formatter.parameter(data[columns[i]])
);
}
if (isEmpty(vals)) {
throw new Error(
[
'Empty .update() call detected!',
'Update data does not contain any values to update.',
'This will result in a faulty query.',
this.single.table ? `Table: ${this.single.table}.` : '',
this.single.update
? `Columns: ${Object.keys(this.single.update)}.`
: '',
].join(' ')
);
}
return vals;
}
_formatGroupsItemValue(value) {
const { formatter } = this;
if (value instanceof Raw) {
return formatter.unwrapRaw(value);
} else if (value instanceof QueryBuilder) {
return '(' + formatter.columnize(value) + ')';
} else {
return formatter.columnize(value);
}
}
// Compiles the `order by` statements.
_groupsOrders(type) {
const items = this.grouped[type];
if (!items) return '';
const { formatter } = this;
const sql = items.map((item) => {
const column = this._formatGroupsItemValue(item.value);
const direction =
type === 'order' && item.type !== 'orderByRaw'
? ` ${formatter.direction(item.direction)}`
: '';
return column + direction;
});
return sql.length ? type + ' by ' + sql.join(', ') : '';
}
// Get the table name, wrapping it if necessary.
// Implemented as a property to prevent ordering issues as described in #704.
get tableName() {
if (!this._tableName) {
// Only call this.formatter.wrap() the first time this property is accessed.
let tableName = this.single.table;
const schemaName = this.single.schema;
if (tableName && schemaName) tableName = `${schemaName}.${tableName}`;
this._tableName = tableName
? // Wrap subQuery with parenthesis, #3485
this.formatter.wrap(tableName, tableName instanceof QueryBuilder)
: '';
}
return this._tableName;
}
}
export default QueryCompiler;