Migrating from Oracle to SQL Server
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Migrating from Oracle to SQL Server
In Microsoft public newsgroups, I've been observing a recent increase in the number of questions that deal with migrating from Oracle to SQL Server. It is not an easy task to migrate your Oracle database and applications to SQL Server, as there are major architectural differences between SQL Server and Oracle. Further, Oracle's PL/SQL is vastly different from Microsoft's Transact-SQL (T-SQL).
The most commonly asked question is, "Is there a tool that I can use, to translate my PL/SQL scripts, stored procedures, triggers and functions into T-SQL?" Sadly, the answer is No. There is no magic tool that can convert all your PL/SQL code to T-SQL. Even if such a tool exists, I can guarantee that it will not work in all situations. So, migrating or porting your PL/SQL code to T-SQL is a painfully manual process. The more standard (ANSI SQL) SQL you write, the more easier it is to translate, as ANSI SQL is more likely to work independant of the RDBMS. However, it need not be that manual anymore. I recently learned about a tool from DBBest.com. Do check it out!
Also, do not forget to check out SwisSQL Database Migration tools.
If you are tasked with porting or migrating an Oracle database application to Microsoft SQL Server, the following are the primary resources you should approach for help and migration guidelines:
The %TYPE data type of Oracle, lets you create a variable and have that variable's data type be defined by a table or view column or a PL/SQL package variable.
There is no equivalent for Oracle's %TYPE datatype in T-SQL, but it can be simulated (not very conveniently though) using User Defined Data types (UDT). Here is an example:
EXEC sp_addtype 'MyType', 'smallint', NULL
CREATE TABLE MyTable (i MyType)
CREATE PROC MyProc
AS
BEGIN
DECLARE @i MyType
END
Use INSTEAD OF trigger in SQL Server as an equivalent to Oracle's BEFORE trigger.
For more information on INSTEAD OF triggers, see SQL Server Books Online
DECODE can be conveniently simulated using the T-SQL CASE expression. Here's an example:
SELECT Sport,
CASE Sport
WHEN 'Cricket' THEN 'England'
WHEN 'Hockey' THEN 'India'
WHEN 'Base Ball' THEN 'America'
ELSE NULL
END AS 'Originating Country'
FROM Sports
There are a lot of alternatives for Oracle's DESCRIBE, in SQL Server. You could use the system stored procedure sp_help for detailed information about a table's columns and other properties.
If sp_help is providing you with too much information, then try the ODBC catalog stored procedure, sp_columns.
There are a bunch of other useful sp_help* stored procedures available in SQL Server. You can find more information about those in SQL Server Books Online.
If none of those procedures are suitable for your requirements, then you could query the system view INFORMATION_SCHEMA.COLUMNS, to get the desired information. You could wrap your code inside a stored procedure named DESCRIBE, if you wish.
As a last resort, you could even query system tables like sysobjects and syscolumns, but this is not a recommended approach.
There is no DUAL table in SQL Server. In fact, you don't need one in SQL Server, as you can have a SELECT statement without a FROM clause.
For example, consider the following SELECT statement in Oracle:
SELECT 'Something'
FROM DUAL
In SQL Server, the same result can be obtained by the following command:
SELECT 'Something'
If you are porting some code from Oracle into SQL Server and if you don't want to remove all references to DUAL table, then just create a DUAL table in your database using the following commands:
CREATE TABLE DUAL
(
DUMMY varchar(1)
)
INSERT INTO DUAL (DUMMY) VALUES ('X')
Use EXISTS clause to generate the same result.
The following example illustrates the simulation of Oracle's INTERSECT operator:
SELECT OrderID, OrderDate
FROM Orders O
WHERE EXISTS
(
SELECT 1
FROM RefundsTable R
WHERE O.OrderID = R.OrderID
)
Use NOT EXISTS clause in your SELECT statement to generate the same result.
The following example illustrates the simulation of Oracle's MINUS operator:
SELECT OrderID, OrderDate
FROM Orders O
WHERE NOT EXISTS
(
SELECT 1
FROM RefundsTable R
WHERE O.OrderID = R.OrderID
)
Oracle 8i and prior versions didn't support this feature and is introduced in Oracle 9i. This feature basically enables you to store a table, within a column. It is like having an array of records in your database columns.
SQL Server has no concept of nested tables.
As a workaround, You could store your sub-tables or child tables in the form of XML inside a char, nchar, varchar, nvarchar, text or ntext type column, and parse it as needed, at runtime. See OPENXML, sp_xml_preparedocument, sp_xml_removedocument in SQL Server 2000 Books Online.
Another possible workaround would be to store comma separated values (CSV).
Note that this is against the basic rules of normalization. Columns are nomore atomic, with nested tables.
From a design point of view, best thing to do would be, to create different tables for representing different entities and link them with primary and foreign key relationships. This will also make searching easier.
:-)
No equivalent in SQL Server for Oracle's Packages and Package variables concept
Every database product implements and extends the standard SQL. Oracle's implementation of SQL is called PL/SQL, while Microsoft's is called T-SQL (Transact-SQL)
Though there is no inbuilt support in SQL Server for row level permissions, you can implement it using view and system functions.
For more information and a working example, read this article:
Implementing row level permissions/security in SQL Server databases
Though there is no rownum or rowid in SQL Server, there are several ways in which a row number can be generated.
For some examples, read this article:
Q186133 INF: How to Dynamically Number Rows in a Select Statement
Use the locking hint UPDLOCK in your SELECT statement.
See SQL Server Books Online for more information.
It is much simpler in SQL Server to generate a sequence value for a primary key or a non-key column.
You just need to turn on the IDENTITY property of column. IDENTITY property can be set to columns of the following data types: tinyint, smallint, int, bigint, decimal, numeric
Try this example to see how it works:
CREATE TABLE foo
(
i int IDENTITY(1, 1)
j int
)
INSERT INTO foo (j) VALUES (911)
INSERT INTO foo (j) VALUES (999)
For connecting to SQL Server and executing queries and modifying data, use the built-in Query Analyzer. It is much more powerful and friendlier than Oracle's SQL *Plus
Though there's no direct equivalent in T-SQL for Oracle's START WITH...CONNECT BY, there are several ways and efficient techniques for processing and querying hierarcical data.
For more information, read this article:
Working with hierarchical data in SQL Server databases
You can simulate Oracle Synonyms in SQL Server using Views. For example, the following creates a view that returns the OrderID and OrderDate from Orders table.
CREATE VIEW vOrders
AS
SELECT OrderID, OrderDate
FROM Orders
Now you can select data from the view, using the following SELECT statement:
SELECT * FROM vOrders
The following example will create a view which is equivalent to Oracles TABS synonym or USER_TABLES data dictionary view (For simplicity, I am only including the table name in the view definition):
CREATE VIEW TABS
AS
SELECT name AS table_name
FROM sysobjects
WHERE type = 'U'
Now you can execute the following SELECT statement to return all user table names:
SELECT table_name
FROM TABS