dijkstra-backend-cloudron/node_modules/knex/lib/dialects/oracle/query/compiler.js

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/* eslint max-len:0 */
// Oracle Query Builder & Compiler
// ------
const {
assign,
isPlainObject,
isEmpty,
isString,
map,
reduce,
compact,
identity,
} = require('lodash');
const inherits = require('inherits');
const QueryCompiler = require('../../../query/compiler');
const { ReturningHelper } = require('../utils');
const components = [
'columns',
'join',
'where',
'union',
'group',
'having',
'order',
'lock',
];
// Query Compiler
// -------
// Set the "Formatter" to use for the queries,
// ensuring that all parameterized values (even across sub-queries)
// are properly built into the same query.
function QueryCompiler_Oracle(client, builder) {
QueryCompiler.call(this, client, builder);
}
inherits(QueryCompiler_Oracle, QueryCompiler);
assign(QueryCompiler_Oracle.prototype, {
// Compiles an "insert" query, allowing for multiple
// inserts using a single query statement.
insert() {
let insertValues = this.single.insert || [];
let { returning } = this.single;
if (!Array.isArray(insertValues) && isPlainObject(this.single.insert)) {
insertValues = [this.single.insert];
}
// always wrap returning argument in array
if (returning && !Array.isArray(returning)) {
returning = [returning];
}
if (
Array.isArray(insertValues) &&
insertValues.length === 1 &&
isEmpty(insertValues[0])
) {
return this._addReturningToSqlAndConvert(
`insert into ${this.tableName} (${this.formatter.wrap(
this.single.returning
)}) values (default)`,
returning,
this.tableName
);
}
if (
isEmpty(this.single.insert) &&
typeof this.single.insert !== 'function'
) {
return '';
}
const insertData = this._prepInsert(insertValues);
const sql = {};
if (isString(insertData)) {
return this._addReturningToSqlAndConvert(
`insert into ${this.tableName} ${insertData}`,
returning
);
}
if (insertData.values.length === 1) {
return this._addReturningToSqlAndConvert(
`insert into ${this.tableName} (${this.formatter.columnize(
insertData.columns
)}) values (${this.formatter.parameterize(insertData.values[0])})`,
returning,
this.tableName
);
}
const insertDefaultsOnly = insertData.columns.length === 0;
sql.sql =
'begin ' +
map(insertData.values, (value) => {
let returningHelper;
const parameterizedValues = !insertDefaultsOnly
? this.formatter.parameterize(value, this.client.valueForUndefined)
: '';
const returningValues = Array.isArray(returning)
? returning
: [returning];
let subSql = `insert into ${this.tableName} `;
if (returning) {
returningHelper = new ReturningHelper(returningValues.join(':'));
sql.outParams = (sql.outParams || []).concat(returningHelper);
}
if (insertDefaultsOnly) {
// no columns given so only the default value
subSql += `(${this.formatter.wrap(
this.single.returning
)}) values (default)`;
} else {
subSql += `(${this.formatter.columnize(
insertData.columns
)}) values (${parameterizedValues})`;
}
subSql += returning
? ` returning ROWID into ${this.formatter.parameter(returningHelper)}`
: '';
// pre bind position because subSql is an execute immediate parameter
// later position binding will only convert the ? params
subSql = this.formatter.client.positionBindings(subSql);
const parameterizedValuesWithoutDefault = parameterizedValues
.replace('DEFAULT, ', '')
.replace(', DEFAULT', '');
return (
`execute immediate '${subSql.replace(/'/g, "''")}` +
(parameterizedValuesWithoutDefault || returning ? "' using " : '') +
parameterizedValuesWithoutDefault +
(parameterizedValuesWithoutDefault && returning ? ', ' : '') +
(returning ? 'out ?' : '') +
';'
);
}).join(' ') +
'end;';
if (returning) {
sql.returning = returning;
// generate select statement with special order by to keep the order because 'in (..)' may change the order
sql.returningSql =
`select ${this.formatter.columnize(returning)}` +
' from ' +
this.tableName +
' where ROWID in (' +
sql.outParams.map((v, i) => `:${i + 1}`).join(', ') +
')' +
' order by case ROWID ' +
sql.outParams
.map((v, i) => `when CHARTOROWID(:${i + 1}) then ${i}`)
.join(' ') +
' end';
}
return sql;
},
// Update method, including joins, wheres, order & limits.
update() {
const updates = this._prepUpdate(this.single.update);
const where = this.where();
let { returning } = this.single;
const sql =
`update ${this.tableName}` +
' set ' +
updates.join(', ') +
(where ? ` ${where}` : '');
if (!returning) {
return sql;
}
// always wrap returning argument in array
if (!Array.isArray(returning)) {
returning = [returning];
}
return this._addReturningToSqlAndConvert(sql, returning, this.tableName);
},
// Compiles a `truncate` query.
truncate() {
return `truncate table ${this.tableName}`;
},
forUpdate() {
return 'for update';
},
forShare() {
// lock for share is not directly supported by oracle
// use LOCK TABLE .. IN SHARE MODE; instead
this.client.logger.warn(
'lock for share is not supported by oracle dialect'
);
return '';
},
// Compiles a `columnInfo` query.
columnInfo() {
const column = this.single.columnInfo;
// The user may have specified a custom wrapIdentifier function in the config. We
// need to run the identifiers through that function, but not format them as
// identifiers otherwise.
const table = this.client.customWrapIdentifier(this.single.table, identity);
// Node oracle drivers doesn't support LONG type (which is data_default type)
const sql = `select * from xmltable( '/ROWSET/ROW'
passing dbms_xmlgen.getXMLType('
select char_col_decl_length, column_name, data_type, data_default, nullable
from user_tab_columns where table_name = ''${table}'' ')
columns
CHAR_COL_DECL_LENGTH number, COLUMN_NAME varchar2(200), DATA_TYPE varchar2(106),
DATA_DEFAULT clob, NULLABLE varchar2(1))`;
return {
sql: sql,
output(resp) {
const out = reduce(
resp,
function(columns, val) {
columns[val.COLUMN_NAME] = {
type: val.DATA_TYPE,
defaultValue: val.DATA_DEFAULT,
maxLength: val.CHAR_COL_DECL_LENGTH,
nullable: val.NULLABLE === 'Y',
};
return columns;
},
{}
);
return (column && out[column]) || out;
},
};
},
select() {
let query = this.with();
const statements = map(components, (component) => {
return this[component]();
});
query += compact(statements).join(' ');
return this._surroundQueryWithLimitAndOffset(query);
},
aggregate(stmt) {
return this._aggregate(stmt, { aliasSeparator: ' ' });
},
// for single commands only
_addReturningToSqlAndConvert(sql, returning, tableName) {
const res = {
sql,
};
if (!returning) {
return res;
}
const returningValues = Array.isArray(returning) ? returning : [returning];
const returningHelper = new ReturningHelper(returningValues.join(':'));
res.sql =
sql +
' returning ROWID into ' +
this.formatter.parameter(returningHelper);
res.returningSql = `select ${this.formatter.columnize(
returning
)} from ${tableName} where ROWID = :1`;
res.outParams = [returningHelper];
res.returning = returning;
return res;
},
_surroundQueryWithLimitAndOffset(query) {
let { limit } = this.single;
const { offset } = this.single;
const hasLimit = limit || limit === 0 || limit === '0';
limit = +limit;
if (!hasLimit && !offset) return query;
query = query || '';
if (hasLimit && !offset) {
return `select * from (${query}) where rownum <= ${this.formatter.parameter(
limit
)}`;
}
const endRow = +offset + (hasLimit ? limit : 10000000000000);
return (
'select * from ' +
'(select row_.*, ROWNUM rownum_ from (' +
query +
') row_ ' +
'where rownum <= ' +
this.formatter.parameter(endRow) +
') ' +
'where rownum_ > ' +
this.formatter.parameter(offset)
);
},
});
// 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.
QueryCompiler_Oracle.prototype.first = QueryCompiler_Oracle.prototype.select;
module.exports = QueryCompiler_Oracle;