ALIKE and your wildcard characters from
The Access Database Engine (Jet, ACE, whatever) has two ANSI Query Modes which each use different wildcard characters for
OLE DB always uses ANSI-92 Query Mode.
DAO always uses ANSI-89 Query Mode.
The Access UI can be set to use one or the other.
However, when using
ALIKE keyword the wildcard character is always
% regardless of ANSI Query Mode.
Consider a business rule that states a data element must consist of exactly eight numeric characters. Say I implemented the rule as follows:
CREATE TABLE MyStuff
ID CHAR(8) NOT NULL,
CHECK (ID NOT LIKE '%[!0-9]%')
It is inevitable that I would use
% as the wildcard character because Access's
CHAR data type and
CHECK constraints can only be created in ANSI-92 Query Mode.
However, someone could access the database using DAO, which always uses ANS-89 Query Mode, and the
% character would be considered a literal rather than a 'special' character, and the following code could be executed:
INSERT INTO MyStuff (ID) VALUES ('%[!0-9]%');
the insert would succeed and my data integrity would be shot :(
The same could be said by using
* in a Validation Rule created in ANSI-89 Query Mode and someone who connects using ADO, which always uses ANSI-92 Query Mode, and INSERTs a
* character where a
* character ought not to be.
As far as I know, there is no way of mandating which ANSI Query Mode is used to access one's Access database. Therefore, I think that all SQL should be coded to behave consistently regardless of ANSI Query Mode chosen by the user.
Note it is not too difficult to code for both using
LIKE with the above example e.g.
ID NOT LIKE '%[!0-9]%'
AND ID NOT LIKE '*[!0-9]*'
...or indeed avoid wildcards completely e.g.
CHECK (ID LIKE '[0-9][0-9][0-9][0-9][0-9][0-9][0-9][0-9]')
ALIKE will result in less verbose code i.e. easier for the human reader and therefore easier to maintain.
Also, when the time comes to port to a SQL product that is compliant with SQL Standards,
ALIKE ports well too i.e. transforming the
ALIKE keyword to
LIKE is all that is required. When parsing a given SQL predicate, it is far, far easier to locate the one
LIKE keyword in than it is to find all the multiple instances of the
* character in text literals. Remember that "portable" does not mean "code will run 'as is'"; rather, it is a measure of how easy it is to move code between platforms (and bear in mind that moving between versions of the same product is a port e.g. Jet 4.0 to ACE is a port because user level security no longer functions,
DECIMAL values sort differently, etc).