V4.22 15 Apr 2004 (c) 2000-2004 John Lim (jlim#natsoft.com.my).
AXMLS (c) 2004 ars Cognita, Inc
This software is dual licensed using BSD-Style and LGPL. This means you can use it in compiled proprietary and commercial products.
Useful ADOdb links: Download Other Docs
This documentation describes a PHP class library to automate the creation of tables, indexes and foreign key constraints portably for multiple databases. Richard Tango-Lowy and Dan Cech have been kind enough to contribute AXMLS, an XML schema system for defining databases.
Currently the following databases are supported:
Well-tested: PostgreSQL, MySQL, Oracle, MSSQL.
Beta-quality: DB2, Informix, Sybase, Interbase, Firebird.
Alpha-quality: MS Access (does not support DEFAULT values) and generic ODBC.
include_once('adodb.inc.php'); # First create a normal connection $db->NewADOConnection('mysql'); $db->Connect(...); # Then create a data dictionary object, using this connection $dict = NewDataDictionary($db); # We have a portable declarative data dictionary format in ADOdb, similar to SQL. # Field types use 1 character codes, and fields are separated by commas. # The following example creates three fields: "col1", "col2" and "col3": $flds = " col1 C(32) NOTNULL DEFAULT 'abc', col2 I DEFAULT 0, col3 N(12.2) "; # We demonstrate creating tables and indexes $sqlarray = $dict->CreateTableSQL($tabname, $flds, $taboptarray); $dict->ExecuteSQLArray($sqlarray);
$idxflds = 'co11, col2'; $sqlarray = $dict->CreateIndexSQL($idxname, $tabname, $idxflds); $dict->ExecuteSQLArray($sqlarray);
Create a database with the name $dbname;
RETURNS: an array of strings, the sql to be executed, or false $tabname: name of table $fldarray: string (or array) containing field info $taboptarray: array containing table options
The new format of $fldarray uses a free text format, where each field is comma-delimited. The first token for each field is the field name, followed by the type and optional field size. Then optional keywords in $otheroptions:
"$fieldname $type $colsize $otheroptions"
The older (and still supported) format of $fldarray is a 2-dimensional array, where each row in the 1st dimension represents one field. Each row has this format:
array($fieldname, $type, [,$colsize] [,$otheroptions]*)
The first 2 fields must be the field name and the field type. The field type can be a portable type codes or the actual type for that database.
Legal portable type codes include:
C: varchar X: Largest varchar size XL: For Oracle, returns CLOB, otherwise same as 'X' above C2: Multibyte varchar X2: Multibyte varchar (largest size) B: BLOB (binary large object) D: Date (some databases do not support this, and we return a datetime type) T: Datetime or Timestamp L: Integer field suitable for storing booleans (0 or 1) I: Integer (mapped to I4) I1: 1-byte integer I2: 2-byte integer I4: 4-byte integer I8: 8-byte integer F: Floating point number N: Numeric or decimal number
The $colsize field represents the size of the field. If a decimal number is used, then it is assumed that the number following the dot is the precision, so 6.2 means a number of size 6 digits and 2 decimal places. It is recommended that the default for number types be represented as a string to avoid any rounding errors.
The $otheroptions include the following keywords (case-insensitive):
AUTO For autoincrement number. Emulated with triggers if not available. Sets NOTNULL also. AUTOINCREMENT Same as auto. KEY Primary key field. Sets NOTNULL also. Compound keys are supported. PRIMARY Same as KEY. DEF Synonym for DEFAULT for lazy typists. DEFAULT The default value. Character strings are auto-quoted unless the string begins and ends with spaces, eg ' SYSDATE '. NOTNULL If field is not null. DEFDATE Set default value to call function to get today's date. DEFTIMESTAMP Set default to call function to get today's datetime. NOQUOTE Prevents autoquoting of default string values. CONSTRAINTS Additional constraints defined at the end of the field definition.
The Data Dictonary accepts two formats, the older array specification:
$flds = array( array('COLNAME', 'DECIMAL', '8.4', 'DEFAULT' => 0, 'NOTNULL'), array('id', 'I' , 'AUTO'), array('`MY DATE`', 'D' , 'DEFDATE'), array('NAME', 'C' , '32', 'CONSTRAINTS' => 'FOREIGN KEY REFERENCES reftable') );
Or the simpler declarative format:
$flds = " COLNAME DECIMAL(8.4) DEFAULT 0 NOTNULL, id I AUTO, `MY DATE` D DEFDATE, NAME C(32) CONSTRAINTS 'FOREIGN KEY REFERENCES reftable' ";
Note that if you have special characters in the field name (e.g. My Date), you should enclose it in back-quotes. Normally field names are not case-sensitive, but if you enclose it in back-quotes, some databases treat the names as case-sensitive, and some don't. So be careful.
The $taboptarray is the 3rd parameter of the CreateTableSQL function. This contains table specific settings. Legal keywords include:
Database specific table options can be defined also using the name of the database type as the array key. In the following example, create the table as ISAM with MySQL, and store the table in the "users" tablespace if using Oracle. And because we specified REPLACE, drop the table first.
$taboptarray = array('mysql' => 'TYPE=ISAM', 'oci8' => 'tablespace users', 'REPLACE');
You can also define foreignkey constraints. The following is syntax for postgresql:
$taboptarray = array('constraints' => ', FOREIGN KEY (col1) REFERENCES reftable (refcol)');
Returns the SQL to drop the specified table.
Checks to see if table exists, if table does not exist, behaves like CreateTableSQL. If table exists, generates appropriate ALTER TABLE MODIFY COLUMN commands if field already exists, or ALTER TABLE ADD $column if field does not exist.
The class must be connected to the database for ChangeTableSQL to detect the existence of the table. Idea and code contributed by Florian Buzin.
RETURNS: an array of strings, the sql to be executed, or false $idxname: name of index $tabname: name of table $flds: list of fields as a comma delimited string or an array of strings $idxoptarray: array of index creation options
$idxoptarray is similar to $taboptarray in that index specific information can be embedded in the array. Other options include:
CLUSTERED Create clustered index (only mssql) BITMAP Create bitmap index (only oci8) UNIQUE Make unique index FULLTEXT Make fulltext index (only mysql) HASH Create hash index (only postgres) DROP Drop legacy index
Returns the SQL to drop the specified index.
Add one or more columns. Not guaranteed to work under all situations.
Warning, not all databases support this feature.
Drop 1 or more columns.
Set the schema.
These functions are wrappers for the corresponding functions in the connection object. However, the table names will be autoquoted by the TableName function (see below) before being passed to the connection object.
If the provided name is quoted with backquotes (`) or contains special characters, returns the name quoted with the appropriate quote character, otherwise the name is returned unchanged.
The same as NameQuote, but will prepend the current schema if specified
Convert between database-independent 'Meta' and database-specific 'Actual' type codes.
RETURNS: 0 if failed, 1 if executed all but with errors, 2 if executed successfully $sqlarray: an array of strings with sql code (no semicolon at the end of string) $contOnError: if true, then continue executing even if error occurs
Executes an array of SQL strings returned by CreateTableSQL or CreateIndexSQL.
This is a class contributed by Richard Tango-Lowy and Dan Cech that allows the user to quickly and easily build a database using the excellent ADODB database library and a simple XML formatted file. You can download the latest version of AXMLS here.
First, create an XML database schema. Let's call it "schema.xml:"
<?xml version="1.0"?> <schema version="0.2"> <table name="mytable"> <field name="row1" type="I"> <descr>An integer row that's a primary key and autoincrements</descr> <KEY/> <AUTOINCREMENT/> </field> <field name="row2" type="C" size="16"> <descr>A 16 character varchar row that can't be null</descr> <NOTNULL/> </field> <index name="myindex"> <col>row1</col> <col>row2</col> </index> </table> <sql> <descr>SQL to be executed only on specific platforms</descr> <query platform="postgres|postgres7"> insert into mytable ( row1, row2 ) values ( 12, 'stuff' ) </query> <query platform="mysql"> insert into mytable ( row1, row2 ) values ( 12, 'different stuff' ) </query> </sql> </schema>
Create a new database using the appropriate tool for your platform.
Executing the following PHP code will create the a mytable and myindex
in the database and insert one row into mytable if the platform is postgres or mysql.
include_once('/path/to/adodb.inc.php'); include_once('/path/to/adodb-xmlschema.inc.php'); // To build the schema, start by creating a normal ADOdb connection: $db->NewADOConnection( 'mysql' ); $db->Connect( ... ); // Create the schema object and build the query array. $schema = new adoSchema( $db ); // Optionally, set a prefix for newly-created tables. In this example // the prefix "myprefix_" will result in a table named "myprefix_tablename". $schema->SetPrefix( 'myprefix_' ); // Build the SQL array $schema->ParseSchema( 'schema.xml' ); // Execute the SQL on the database $result = $schema->ExecuteSchema(); // Finally, clean up after the XML parser // (PHP won't do this for you!) $schema->Destroy();
There are two steps involved in using AXMLS in your application: first, you must create a schema, or XML representation of your database, and second, you must create the PHP code that will parse and execute the schema.
Let's begin with a schema that describes a typical, if simplistic user management table for an application.
<?xml version="1.0"?> <schema version="0.2"> <table name="users"> <desc>A typical users table for our application.</desc> <field name="userId" type="I"> <descr>A unique ID assigned to each user.</descr> <KEY/> <AUTOINCREMENT/> </field> <field name="userName" type="C" size="16"><NOTNULL/></field> <index name="userName"> <descr>Put a unique index on the user name</descr> <col>userName</col> <UNIQUE/> </index> </table> <sql> <descr>Insert some data into the users table.</descr> <query>insert into users (userName) values ( 'admin' )</query> <query>insert into users (userName) values ( 'Joe' )</query> </sql> </schema>
Let's take a detailed look at this schema.
The opening <?xml version="1.0"?> tag is required by XML. The <schema> tag tells the parser that the enclosed markup defines an XML schema. The version="0.2" attribute sets the version of the AXMLS DTD used by the XML schema.
All versions of AXMLS prior to version 1.0 have a schema version of "0.1". The current schema version is "0.2".
<?xml version="1.0"?> <schema version="0.2"> ... </schema>
Next we define one or more tables. A table consists of a fields (and other objects) enclosed by <table> tags. The name="" attribute specifies the name of the table that will be created in the database.
<table name="users"> <desc>A typical users table for our application.</desc> <field name="userId" type="I"> <descr>A unique ID assigned to each user.</descr> <KEY/> <AUTOINCREMENT/> </field> <field name="userName" type="C" size="16"><NOTNULL/></field> </table>
This table is called "users" and has a description and two fields. The description is optional, and is currently only for your own information; it is not applied to the database.
The first <field> tag will create a field named "userId" of type "I", or integer. (See the ADOdb Data Dictionary documentation for a list of valid types.) This <field> tag encloses two special field options: <KEY/>, which specifies this field as a primary key, and <AUTOINCREMENT/>, which specifies that the database engine should automatically fill this field with the next available value when a new row is inserted.
The second <field> tag will create a field named "userName" of type "C", or character, and of length 16 characters. The <NOTNULL/> option specifies that this field does not allow NULLs.
There are two ways to add indexes to a table. The simplest is to mark a field with the <KEY/> option as described above; a primary key is a unique index. The second and more powerful method uses the <index> tags.
<table name="users"> ... <index name="userName"> <descr>Put a unique index on the user name</descr> <col>userName</col> <UNIQUE/> </index> </table>
The <index> tag specifies that an index should be created on the enclosing table. The name="" attribute provides the name of the index that will be created in the database. The description, as above, is for your information only. The <col> tags list each column that will be included in the index. Finally, the <UNIQUE/> tag specifies that this will be created as a unique index.
Finally, AXMLS allows you to include arbitrary SQL that will be applied to the database when the schema is executed.
<sql> <descr>Insert some data into the users table.</descr> <query>insert into users (userName) values ( 'admin' )</query> <query>insert into users (userName) values ( 'Joe' )</query> </sql>
The <sql> tag encloses any number of SQL queries that you define for your own use.
Now that we've defined an XML schema, you need to know how to apply it to your database. Here's a simple PHP script that shows how to load the schema.
<?PHP /* You must tell the script where to find the ADOdb and * the AXMLS libraries. */ require( "path_to_adodb/adodb.inc.php"); require( "path_to_adodb/adodb-xmlschema.inc.php" ); /* Configuration information. Define the schema filename, * RDBMS platform (see the ADODB documentation for valid * platform names), and database connection information here. */ $schemaFile = 'example.xml'; $platform = 'mysql'; $dbHost = 'localhost'; $dbName = 'database'; $dbUser = 'username'; $dbPassword = 'password'; /* Start by creating a normal ADODB connection. */ $db = ADONewConnection( $platform ); $db->Connect( $dbHost, $dbUser, $dbPassword, $dbName ); /* Use the database connection to create a new adoSchema object. */ $schema = new adoSchema( $db ); /* Call ParseSchema() to build SQL from the XML schema file. * Then call ExecuteSchema() to apply the resulting SQL to * the database. */ $sql = $schema->ParseSchema( $schemaFile ); $result = $schema->ExecuteSchema(); ?>
Let's look at each part of the example in turn. After you manually create the database, there are three steps required to load (or upgrade) your schema.
First, create a normal ADOdb connection. The variables and values here should be those required to connect to your database.
$db = ADONewConnection( 'mysql' ); $db->Connect( 'host', 'user', 'password', 'database' );
Second, create the adoSchema object that load and manipulate your schema. You must pass an ADOdb database connection object in order to create the adoSchema object.
$schema = new adoSchema( $db );
Third, call ParseSchema() to parse the schema and then ExecuteSchema() to apply it to the database. You must pass ParseSchema() the path and filename of your schema file.
$schema->ParseSchema( $schemaFile ); $schema->ExecuteSchema();
Execute the above code and then log into your database. If you've done all this right, you should see your tables, indexes, and SQL.
You can find the source files for this tutorial in the examples directory as tutorial_shema.xml and tutorial.php. See the class documentation for a more detailed description of the adoSchema methods, including methods and schema elements that are not described in this tutorial.
(See xmlschema.dtd for the full specification)
<?xml version="1.0"?> <schema version="0.2"> <table name="tablename" platform="platform1|platform2|..."> <descr>Optional description</descr> <field name="fieldname" type="datadict_type" size="size"> <KEY/> <NOTNULL/> <AUTOINCREMENT/> <DEFAULT value="value"/> </field> ... more fields <index name="indexname" platform="platform1|platform2|..."> <descr>Optional description</descr> <col>fieldname</col> ... more columns </index> ... more indexes </table> ... more tables <sql platform="platform1|platform2|..."> <descr>Optional description</descr> <query platform="platform1|platform2|...">SQL query</query> ... more queries </sql> ... more SQL </schema>