SQL adaptation guide for SQL SERVER 2005, 2008, 2012, 2014, 2016 / Data dictionary |
SQL Server supports a special type named UNIQUEIDENTIFIER, which can be used to store "Globally Unique Identifiers" (GUIDs). UNIQUEIDENTIFIER values can be generated with the NEWID() function. When creating a table, you typically define a UNIQUEIDENTIFIER column with a DEFAULT clause where the value is produced from a NEWID() call:
CREATE TABLE mytab ( k INT, id UNIQUEIDENTIFIER DEFAULT NEWID(), c VARCHAR(10) )
The UNIQUEIDENTIFIER type is based on the BINARY(16) SQL Server type. The Genero language does not have an equivalent type for BINARY(16). However, BINARY values can be represented as hexadecimal strings in CHAR or VARCHAR variables.
A UNIQUEIDENTIFIER value is usually represented as a GUID identifier, with the following hexadecimal format:
XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX (where X can be 0-9, A-F )
You typically fetch UNIQUEIDENTIFIER data into a CHAR(36) Genero variable. The resulting value will be expressed in hexadecimal string using the format. You can then reuse that value in an SQL statement, but you have to convert the CHAR(36) hexadecimal string value back to a UNIQUEIDENTIFIER value with the CONVERT() SQL Server function, as shown in this example:
DEFINE pi CHAR(36) CREATE TABLE mytab ( k INT, i UNIQUEIDENTIFIER DEFAULT NEWID(), c VARCHAR(10) ) INSERT INTO mytab ( k, c ) VALUES ( 1, 'aaa' ) SELECT i INTO pi FROM mytab WHERE k = 1 UPDATE mytab SET c = 'xxx' WHERE i = CONVERT(UNIQUEIDENTIFIER, pi)
When extracting a database schema, UNIQUEIDENTIFIER columns can be clearly distinguished from BINARY(N) columns. The fgldbsch tool will produce a CHAR(36) type code in the .sch file for UNIQUEIDENTIFIER columns.
You can also exclude the UNIQUEIDENTIFIER columns from the table definition in the schema file, by using the x character at the appropriate position of the string passed with the -cv data type conversion option of fgldbsch.