swc/crates/swc_bundler/tests/.cache/untrusted/39d2dd490d1a245f67b152b633ad85b4a73aa296.ts
2021-11-09 20:42:49 +09:00

168 lines
4.2 KiB
TypeScript

// Loaded from https://raw.githubusercontent.com/denjucks/dex/master/lib/dialects/postgres/query/compiler.js
// PostgreSQL Query Builder & Compiler
// ------
import QueryCompiler from '../../../query/compiler.js';
import _ from '../../../deps/lodash@4.17.15/index.js';
const identity = _.identity;
const reduce = _.reduce;
class QueryCompiler_PG extends QueryCompiler {
constructor(client, builder) {
super(client, builder);
this._defaultInsertValue = 'default';
}
// Compiles a truncate query.
truncate() {
return `truncate ${this.tableName} restart identity`;
}
// is used if the an array with multiple empty values supplied
// Compiles an `insert` query, allowing for multiple
// inserts using a single query statement.
insert() {
const sql = QueryCompiler.prototype.insert.call(this);
if (sql === '') return sql;
const { returning } = this.single;
return {
sql: sql + this._returning(returning),
returning,
};
}
// Compiles an `update` query, allowing for a return value.
update() {
const withSQL = this.with();
const updateData = this._prepUpdate(this.single.update);
const wheres = this.where();
const { returning } = this.single;
return {
sql:
withSQL +
`update ${this.single.only ? 'only ' : ''}${this.tableName} ` +
`set ${updateData.join(', ')}` +
(wheres ? ` ${wheres}` : '') +
this._returning(returning),
returning,
};
}
// Compiles an `update` query, allowing for a return value.
del() {
const sql = QueryCompiler.prototype.del.apply(this, arguments);
const { returning } = this.single;
return {
sql: sql + this._returning(returning),
returning,
};
}
aggregate(stmt) {
return this._aggregate(stmt, { distinctParentheses: true });
}
_returning(value) {
return value ? ` returning ${this.formatter.columnize(value)}` : '';
}
// Join array of table names and apply default schema.
_tableNames(tables) {
const schemaName = this.single.schema;
const sql = [];
for (let i = 0; i < tables.length; i++) {
let tableName = tables[i];
if (tableName) {
if (schemaName) {
tableName = `${schemaName}.${tableName}`;
}
sql.push(this.formatter.wrap(tableName));
}
}
return sql.join(', ');
}
forUpdate() {
const tables = this.single.lockTables || [];
return (
'for update' + (tables.length ? ' of ' + this._tableNames(tables) : '')
);
}
forShare() {
const tables = this.single.lockTables || [];
return (
'for share' + (tables.length ? ' of ' + this._tableNames(tables) : '')
);
}
skipLocked() {
return 'skip locked';
}
noWait() {
return 'nowait';
}
// Compiles a columnInfo query
columnInfo() {
const column = this.single.columnInfo;
let schema = this.single.schema;
// The user may have specified a custom wrapIdentifier function in the config. We
// need to run the identifiers through that function, but not format them as
// identifiers otherwise.
const table = this.client.customWrapIdentifier(this.single.table, identity);
if (schema) {
schema = this.client.customWrapIdentifier(schema, identity);
}
let sql =
'select * from information_schema.columns where table_name = ? and table_catalog = ?';
const bindings = [table, this.client.database()];
if (schema) {
sql += ' and table_schema = ?';
bindings.push(schema);
} else {
sql += ' and table_schema = current_schema()';
}
return {
sql,
bindings,
output(resp) {
const out = reduce(
resp.rows,
function (columns, val) {
columns[val.column_name] = {
type: val.data_type,
maxLength: val.character_maximum_length,
nullable: val.is_nullable === 'YES',
defaultValue: val.column_default,
};
return columns;
},
{}
);
return (column && out[column]) || out;
},
};
}
distinctOn(value) {
return 'distinct on (' + this.formatter.columnize(value) + ') ';
}
}
export default QueryCompiler_PG;