Oracle SQL statement Optimization 34

Very good SQL statement optimization 34 article

1) Select the most efficient table name order (valid only in the rule-based optimizer):
The ORACLE parser processes the table names in the FROM clause in a right-to-left order, and the FROM clause is written in the final table (the underlying table driving tables) will be processed first, and in the case where the FROM clause contains more than one table, you must select the table with the lowest number of records as the base

The

table. If you have more than 3 tables connected to the query, you need to select the Crosstab table (intersection table) as the underlying table, which is the table referenced by the other table.   The connection order in the WHERE clause of the
(2). :  
Oracle parses the WHERE clause in a bottom-up order, and according to this principle, the connection between tables must be written before other where conditions, and those conditions that can filter out the maximum number of records must be written at the end of the WHERE clause.  
(3) Avoid using ' * ' in the SELECT clause:  
Oracle will convert ' * ' to all column names in the process of parsing, which is done by querying the data dictionary, which means it will take more time to  
(4) Reduce the number of times to access the database:  
Oracle does a lot of work internally: Parse SQL statements, estimate index utilization, bind variables, read data blocks, etc.  
(5) Reset pro*c parameters in Sql*plus, Sql*forms, and ArraySize, Can increase the amount of data retrieved per database access, the recommended value is 200 
(6) Use the Decode function to reduce processing time:  
Use the Decode function to avoid repeatedly scanning the same record or repeating the same table.  
(7) Integration of simple, unrelated database access:  
If you have several simple database query statements, you can integrate them into a single query (even if they are not related)  
(8) Delete duplicate records:  
The most efficient method of deleting duplicate records (because of the use of ROWID) example:  
Delete from emp E where E.rowid > (SELECT MIN (x.rowid) from EMP X where x.emp_no = E.emp_no);  
(9) replaces delete:  with truncate;
when a record in a table is deleted, the rollback segment (rollback segments) is typically used to hold information that can be recovered. If you do not have a COMMIT transaction, Oracle restores the data to the state before it was deleted (to be precise, to revert to the

before the delete command was executed.

When using truncate, the rollback segment no longer holds any information that can be recovered. When the command is run, the data cannot be restored. So very few resources are invoked and the execution time is very short. (Translator Press: truncate only in Delete full table applies, truncate is DDL is not

DML)
(10) Use commit as much as possible:
Whenever possible, use commit as many of the programs as possible, so that the performance of the program is improved and the requirements are reduced by the resources freed by the commit:
Resources Freed by Commit:
A. Information for recovering data on a rollback segment.
B. Locks acquired by program statements
C. Redo space in the log buffer
D. Oracle manages internal spending on 3 of these resources
(11) Replace the HAVING clause with a WHERE clause:
Avoid having a HAVING clause that filters the result set only after all records have been retrieved. This processing requires sorting, totals, and so on. If you can limit the number of records through the WHERE clause, you can reduce this overhead. (in non-Oracle) on,

Where, having these three clauses can be added conditionally, on is the first to execute, where the second, having the last, because on is the non-conforming record filter before the statistics, it can reduce the intermediate operation to process the data, it should be said that speed is the most

Fast, where should also be faster than having to, because it filters the data before the sum, in two table joins only use on, so in a table, the left where and have compared. In the case of this single-table query statistic, if the condition to be filtered is not

When it comes to calculating fields, the results are the same, just where you can use the Rushmore technique, and having the latter is not, at a slower speed, if you want to involve a calculated field, it means that the value of the field is indeterminate before it is calculated, depending on the

Written workflow, where the action time is done before the calculation, and having is calculated after the function, so in this case, the results will be different. On a multi-table join query, on has an earlier effect than where. The system starts with each

The join condition between tables, when multiple tables are synthesized into a temporary table, then filtered by where, then computed, and then filtered by having. Therefore, to filter the conditions to play the right role, first of all to understand when this condition should be made

And then decide to put it there.
(12) Reduce the query on the table:
In the SQL statement that contains the subquery, pay particular attention to reducing the query on the table. Example:

Select Tab_name from TABLES where (tab_name,db_ver) = (SELECT tab_name,db_ver from tab_columns where VERSION = 604)
(13) Improve SQL efficiency through internal functions.:
Complex SQL often sacrifices execution efficiency. The ability to master the above application function to solve the problem is very meaningful in practical work.
(14) using the alias of the table:
When you concatenate multiple tables in an SQL statement, use the alias of the table and prefix the alias to each column. This reduces the time to parse and reduces the syntax errors caused by column ambiguity.
(15) Replace in with exists with not exists instead of in:
In many base-table-based queries, it is often necessary to join another table in order to satisfy one condition. In this case, using EXISTS (or not EXISTS) will usually improve the efficiency of the query. In a subquery, the NOT IN clause performs an internal sort and merge.

In either case, not in is the least effective (because it performs a full table traversal of the table in the subquery). To avoid using not, we can change it to an outer join (Outer Joins) or not EXISTS.
Example:

(efficient) SELECT * from EMP (base table) where EMPNO > 0 and EXISTS (select ' X ' from DEPT where DEPT. DEPTNO = EMP. DEPTNO and LOC = ' Melb ') (inefficient) SELECT * from EMP (base table) WHERE

EMPNO > 0 and DEPTNO in (SELECT DEPTNO from DEPT WHERE LOC = ' Melb ')
(16) Identify the SQL statement for ' inefficient execution ':
Although there are many graphical tools for SQL optimization, it is always a good idea to write your own SQL tools to solve the problem:

SELECT executions, disk_reads, Buffer_gets, ROUND ((buffer_gets-disk_reads)/buffer_gets,2) Hit_radio, ROUND (DISK_ reads/executions,2) Reads_per_run, sql_text from V$sqlarea WHERE

Executions>0 and Buffer_gets > 0 and (buffer_gets-disk_reads)/buffer_gets < 0.8 ORDER by 4 DESC; (17) Use Index to improve efficiency:
An index is a conceptual part of a table used to improve the efficiency of retrieving data, and Oracle uses a complex self-balancing b-tree structure. In general, querying data through an index is faster than a full table scan. When Oracle finds the best path to execute queries and UPDATE statements, Oracle

The optimizer will use the index. Also, using indexes when joining multiple tables can improve efficiency. Another advantage of using an index is that it provides the uniqueness of the primary key (primary key) Validation: Those long or long raw data types, you can index almost all the columns. Wildcard

Often, using indexes in large tables is particularly effective. Of course, you will also find that using indexes can also improve efficiency when scanning small tables. Although the use of indexes can improve the efficiency of query, but we must also pay attention to its cost. Indexes require space to store, and they need to be set

The index itself will be modified whenever a record is added to the table or the index column is modified. This means that each record's insert, DELETE, and update will pay more than 4, 5 disk I/O. Because the index requires additional storage space and processing, those

Unnecessary indexes can slow down the query response time. It is necessary to periodically refactor the index.:
ALTER INDEX <INDEXNAME> REBUILD <TABLESPACENAME>
18) Replace distinct with exists:
Avoid using DISTINCT in the SELECT clause when submitting a query that contains one-to-many table information, such as a departmental table and an employee table. It is generally possible to consider replacing with exist, EXISTS makes the query faster because the RDBMS core module will once the conditions of the subquery are met

and return the results immediately. Example:

(inefficient): Select DISTINCT dept_no,dept_name from DEPT D, EMP E WHERE d.dept_no = e.dept_no (efficient): Select Dept_no,dept_name FRO M DEPT D WHERE EXISTS (SELECT ' X ' from EMP E

WHERE e.dept_no = d.dept_no);
SQL statements are capitalized, because Oracle always parses the SQL statements first, converting lowercase letters to uppercase and then executing
(20) Use the connector "+" connection string sparingly in Java code!
(21) Avoid using not on indexed columns typically,
We want to avoid using not on indexed columns, and not to have the same effect as using functions on indexed columns. When Oracle "encounters" not, he stops using the index instead of performing a full-table scan.
(22) Avoid using calculations on indexed columns.
Where clause, if the index column is part of a function. The optimizer will use a full table scan without using an index.
Example:

Inefficient: SELECT ... From DEPT WHERE SAL * > 25000; Efficient: SELECT ... From DEPT WHERE SAL > 25000/12;
(23) Replace > with >=

Efficient: SELECT * from emp where DEPTNO >=4 inefficient: SELECT * from emp where DEPTNO >3
The difference between the two is that the former DBMS will jump directly to the first record that dept equals 4 and the latter will first navigate to the Deptno=3 record and scan forward to the first record with a dept greater than 3.
(24) Replace or with union (for indexed columns)
In general, replacing or in a WHERE clause with Union will have a good effect. Using or on an indexed column causes a full table scan. Note that the above rules are valid only for multiple indexed columns. If a column is not indexed, the query efficiency may be because you have no choice

or down. In the following example, indexes are built on both loc_id and region.

Efficient: Select loc_id, Loc_desc, region from location WHERE loc_id = Ten UNION SELECT loc_id, Loc_desc, region from Locatio N WHERE region = "MELBOURNE" inefficient: Select loc_id,

Loc_desc, region from location WHERE loc_id = ten OR region = "MELBOURNE"
If you persist in using or, you need to return the least logged index column to the front.
(25) Replace or with in
This is a simple and easy-to-remember rule, but the actual execution effect has to be tested, and under Oracle8i, the execution path seems to be the same.

Inefficient: SELECT .... From location WHERE loc_id = ten or loc_id = or loc_id = 30 efficient SELECT ... From location WHERE loc_in in (10,20,30);
(26) Avoid using is null and is not NULL on an indexed column
To avoid using any nullable columns in the index, Oracle will not be able to use the index. For single-column indexes, this record will not exist in the index if the column contains null values.　For composite indexes, if each column is empty, the same record does not exist in the index. If there is at least

A column is not empty, the record exists in the index. For example, if a uniqueness index is established on column A and column B of a table, and the table has a value of a, a and a record of (123,null), Oracle will not accept the next record (insert) with the same A, B value (123,null).

However, if all the index columns are empty, Oracle will assume that the entire key value is empty and null is not equal to NULL. So you can insert 1000 records with the same key value, of course they are empty! Because the null value does not exist in the index column, the index column in the WHERE clause is empty

A value comparison causes Oracle to deactivate the index.

Inefficient: (index invalidation) SELECT ... From DEPARTMENT WHERE dept_code are not NULL; Efficient: (index valid) SELECT ... From DEPARTMENT WHERE Dept_code >=0;
(27) Always use the first column of an index:
If the index is built on more than one column, the optimizer chooses to use the index only if its first column (leading column) is referenced by a WHERE clause. This is also a simple and important rule that when referencing only the second column of an index, the optimizer uses a full table scan

and ignoring the index
28) Replace union with Union-all (if possible):
When the SQL statement requires a union of two query result sets, the two result sets are merged in a union-all manner and then sorted before the final result is output. If you use UNION ALL instead of union, this sort is not necessary. The efficiency will be improved.

. It is important to note that the UNION all will output the same record in the two result set repeatedly. So you still have to analyze the feasibility of using union all from the business requirements. The UNION will sort the result set, which will use the memory of the sort_area_size. Right

The optimization of this memory is also very important. The following SQL can be used to query the consumption of sorts

Inefficient: Select Acct_num, Balance_amt from debit_transactions WHERE tran_date = ' 31-dec-95 ' UNION SELECT acct_num, Balance_amt From debit_transactions WHERE tran_date = ' 31-dec-

95 ' Efficient: Select Acct_num, Balance_amt from debit_transactions WHERE tran_date = ' 31-dec-95 ' UNION all SELECT acct_num, BALA Nce_amt from debit_transactions WHERE tran_date =

' 31-dec-95 '
(29) Where to replace order by:
The ORDER by clause uses the index only under two strict conditions.
All columns in an order by must be in the same index and remain in the order in which they are arranged in the index.
All columns in the ORDER by must be defined as non-empty.
The index used in the WHERE clause and the index used in the ORDER BY clause cannot be tied.
For example:

Table DEPT contains the following: Dept_code PK not NULL DEPT_DESC NOT NULL Dept_type NULL inefficient: (index not used) SELECT Dept_code from DEPT ORDER by Dept_ TYPE Efficient: (using index) SELECT Dept_code

From DEPT WHERE dept_type > 0 
(30) Avoid changing the type of the indexed column.:  
When comparing data of different data types, Oracle automatically makes simple type conversions for columns.  
Suppose Empno is an indexed column of a numeric type.  
SELECT ... From EMP WHERE EMPNO = ' 123 '  
Actually, after the Oracle type conversion, the statement is converted to:  
SELECT ... From EMP where EMPNO = To_number (' 123 ')  
Fortunately, the type conversion did not occur on the index column, and the purpose of the index was not changed.  
Now, suppose Emp_type is an indexed column of character types.  
SELECT ... From EMP WHERE emp_type = 123 
This statement is converted by Oracle to:  
SELECT ... From EMP Whereto_number (emp_type) =123 
This index will not be used because of the type conversions that occur internally! To avoid the implicit type conversion of your SQL by Oracle, it is best to explicitly display the type conversions. Note When comparing characters to numeric values, Oracle takes precedence in converting numeric types to character type  
(31) The WHERE clause to be careful:  
the WHERE clause in some SELECT statements does not use an index. Here are some examples . 
In the following example, (1) '! = ' will not use the index. Remember, indexes can only tell you what exists in the table, not what doesn't exist in the table. (2) ' | | ' is a character join function. As with other functions, the index is deactivated. (3) ' + ' is a math letter

Number. As with other mathematical functions, the index is deactivated. (4) The same index columns cannot be compared to each other, which will enable full table scanning.
A. If the number of records in a table that has more than 30% data is retrieved. Using indexes will not be significantly more efficient.
B. In certain situations, using an index may be slower than a full table scan, but this is the same order of magnitude difference. In general, the use of indexes than the full table scan to block several times or even thousands of times!
(33) Avoid using resource-intensive operations:
SQL statements with Distinct,union,minus,intersect,order by will start the SQL engine
Performs a resource-intensive sorting (sort) function. Distinct requires a sort operation, while the others need to perform at least two sorting. Typically, SQL statements with union, minus, and intersect can be overridden in other ways. If your database's

Sort_area_size deployment well, using union, minus, intersect can also be considered, after all, their readability is very strong
(34) Optimize GROUP by:
Increase the efficiency of the group BY statement by filtering out unwanted records before group by. The following two queries return the same result but the second one is significantly faster.

Inefficient: The Select job, avg (SAL) from the EMP GROUP by job has a job = ' president ' OR job = ' MANAGER ' efficient: Select Job, AVG (SAL) from EMP WHERE job = ' president ' OR job = ' MANAGER '

GROUP by JOB
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Oracle SQL statement Optimization 34