Release 8.0
A58227-01
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| Oracle8 Concepts Release 8.0 A58227-01 |
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The translator of Homer should above all be penetrated by a sense of four qualities of his author: that he is eminently rapid; that he is eminently plain and direct ... both in his syntax and in his words; that he is eminently plain and direct in the substance of his thought, ...; and, finally, that he is eminently noble.
Matthew Arnold: On Translating Homer
This chapter describes the Oracle direct-load INSERT feature for serial or parallel inserts. It also describes the NOLOGGING feature that is available for direct-load INSERT and some DDL statements. This chapter's topics include:
See Chapter 22, "Parallel Execution" for parallel-specific issues.
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Attention: The parallel direct-load INSERT feature described in this chapter is available only if you have purchased the Oracle8 Enterprise Edition. See Getting to Know Oracle8 and the Oracle8 Enterprise Edition for more information. |
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Additional Information:
See Oracle8 Tuning for information on how to tune parallel direct-load INSERT. |
Direct-load INSERT enhances performance during insert operations by formatting and writing data directly into Oracle datafiles, without using the buffer cache. This functionality is similar to that of the Direct Loader utility (SQL*Loader).
Direct-load INSERT appends the inserted data after existing data in a table; free space within the existing data is not reused. Data can be inserted into partitioned or nonpartitioned tables, either in parallel or serially.
Several options of direct-load INSERT exist with respect to parallelism, table partitioning, and logging. "Varieties of Direct-Load INSERT Statements" on page 21-3 describes these features. For additional information about the parallellism and partitioning options of direct-load INSERT, see Chapter 22, "Parallel Execution".
A major benefit of direct-load INSERT is that you can load data without logging redo or undo entries, which improves the insert performance significantly. Both serial and parallel direct-load INSERT have this performance advantage over conventional path INSERT.
With the conventional path INSERT, in contrast, free space in the object is reused and referential integrity can be maintained. The conventional path for insertions cannot be parallelized.
With direct-load INSERT, you can insert data into existing tables instead of having to create new tables. Direct-load INSERT updates the indexes of the table, but CREATE TABLE ... AS SELECT only creates a new table which does not have any indexes. See "CREATE TABLE ... AS SELECT in Parallel" on page 22-26 for more information.
With a parallel INSERT, atomicity of the transaction is ensured. Atomicity cannot be guaranteed if multiple parallel loads are used. Also, parallel load could leave some table indexes in an "Unusable" state at the end of the load if errors occurred while updating the indexes. In comparison, parallel INSERT atomically updates the table and indexes (that is, it rolls back the statement if errors occur while updating the index).
Direct-load INSERT (serial or parallel) can only support the INSERT ... SELECT syntax of an INSERT statement, not the INSERT... values syntax. The parallelism for INSERT ... SELECT is determined from either parallel hints or parallel table definition clauses.
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Additional Information:
See Oracle8 SQL Reference for information about the syntax of INSERT ... SELECT statements. |
Direct-load INSERT can be performed either:
Direct-load INSERT can be done on partitioned or nonpartitioned tables, and it can be done either serially or in parallel.
In all the cases, the bumping of the high water mark or merging of the temporary segment is delayed until commit is issued, because this action immediately makes the data visible to other processes (that is, it commits the insert operation).
The APPEND hint is required for using serial direct-load INSERT. Parallel direct-load INSERT requires either a PARALLEL hint in the statement or a PARALLEL clause in the table definition; the APPEND hint is optional. Parallel direct-load INSERT also requires parallel DML to be enabled with the ALTER SESSION ENABLE PARALLEL DML statement.
Table 21-1 summarizes these requirements and compares direct-load INSERT with conventional INSERT.
| Insert Type | Serial | Parallel |
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Direct-load INSERT |
Yes: requires |
Yes: requires |
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Conventional INSERT |
Yes (default) |
No |
You can specify serial direct-load INSERT with the APPEND hint, for example:
INSERT /*+ APPEND */ INTO emp SELECT * FROM t_emp; COMMIT;
You can specify parallel direct-load INSERT by setting the PARALLEL attribute of the table into which rows are inserted, for example:
ALTER TABLE emp PARALLEL (DEGREE 10); ALTER SESSION ENABLE PARALLEL DML; INSERT INTO emp SELECT * FROM t_emp; COMMIT;
You can also specify parallelism for the SELECT operation by setting the PARALLEL attribute of the table from which rows are selected:
ALTER TABLE emp PARALLEL (DEGREE 10); ALTER TABLE t_emp PARALLEL (DEGREE 10); ALTER SESSION ENABLE PARALLEL DML; INSERT INTO emp SELECT * FROM t_emp; COMMIT;
The PARALLEL hint for an INSERT or SELECT operation takes precedence over a table's PARALLEL attribute. For example, the degree of parallelism in the following INSERT ... SELECT statement is 12 regardless of whether the PARALLEL attributes are set for the EMP and T_EMP tables:
ALTER SESSION ENABLE PARALLEL DML; INSERT /*+ PARALLEL(emp,12) */ INTO emp SELECT /*+ PARALLEL(t_emp,12) */ * FROM t_emp; COMMIT;
For more information on parallel INSERT statements, see "Rules for Parallelizing INSERT ... SELECT" on page 22-20.
Direct-load INSERT operations can be done with or without logging of redo information. You can specify no-logging mode for the table, partition, or index into which data will be inserted by using an ALTER TABLE, ALTER INDEX, or ALTER TABLESPACE command.
The no-logging mode improves performance because it generates much less log. The user is responsible for backing up the data after a no-logging insert operation in order to be able to perform media recovery.
Table 21-2 compares the LOGGING and NOLOGGING modes for direct-load and conventional INSERT.
| Insert Type | LOGGING | NOLOGGING |
|---|---|---|
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Direct-load INSERT |
Yes: recoverability requires |
Yes: requires |
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Conventional INSERT |
Yes (default): recoverability requires |
No |
You can specify no-logging mode for direct-load INSERT by setting the NOLOGGING attribute of the table into which rows are inserted, for example:
ALTER TABLE emp NOLOGGING; ALTER SESSION ENABLE PARALLEL DML; INSERT /*+ PARALLEL(emp,12) */ INTO emp SELECT /*+ PARALLEL(t_emp,12) */ * FROM t_emp; COMMIT;
You can also set the NOLOGGING attribute for a partition, tablespace, or index; for example:
ALTER TABLE emp MODIFY PARTITION emp_lmnop NOLOGGING; ALTER TABLESPACE personnel NOLOGGING; ALTER INDEX emp_ix NOLOGGING; ALTER INDEX emp_ix MODIFY PARTITION eix_lmnop NOLOGGING;
Although you can set the NOLOGGING attribute for a table, partition, index, or tablespace, no-logging mode does not apply to every operation performed on the schema object for which you set the NOLOGGING attribute.
Only the following operations can make use of no-logging mode:
All of these SQL statements can be parallelized (see Chapter 22, "Parallel Execution"). They can execute in logging or no-logging mode for both serial and parallel execution.
Other SQL statements (such as UPDATE, DELETE, conventional path INSERT, and various DDL statements not listed above) are unaffected by the NOLOGGING attribute of the schema object.
If the LOGGING or NOLOGGING clause is not specified, the logging attribute of the table, partition, or index defaults to the logging attribute of the tablespace in which it resides.
For LOBs, if the LOGGING or NOLOGGING clause is omitted, then:
This section describes index maintenance, space allocation, and data locks for direct-load INSERT.
For direct-load INSERT on nonpartitioned tables or partitioned tables that have local or global indexes, index maintenance is done at the end of the INSERT operation. This index maintenance is performed by the parallel server processes for parallel direct-load INSERT or by the single process for serial direct-load INSERT on partitioned or nonpartitioned tables.
If your direct-load INSERT modifies most of the data in a table, you can avoid the performance impact of index maintenance by dropping the index before the INSERT and then rebuilding it afterwards.
Direct-load INSERT requires more space than conventional path INSERT, because direct-load INSERT ignores existing space in the free lists of the segment. For parallel direct-load INSERT into nonpartitioned tables, free blocks below the high water mark of the table segment are also ignored. Additional space requirements must be considered before using direct-load INSERT.
Parallel direct-load INSERT into a nonpartitioned table creates temporary segments - one segment for each degree of parallelism. For example, if you use parallel INSERT into a nonpartitioned table with the degree of parallelism set to four, then four temporary segments are created.
Each parallel server process first inserts its data into a temporary segment, and finally the data in all of the temporary segments is appended to the table. (This is the same mechanism as CREATE TABLE ... AS SELECT.)
To provide sufficient storage for temporary segments, without wasting space on segments that are larger than you need, you should specify appropriate values for the storage parameters NEXT and PCTINCREASE for a nonpartitioned table into which you want to do a parallel INSERT. You can change the values of these parameters with the STORAGE option of the ALTER TABLE statement. After performing the parallel DML statement, you can change the NEXT and PCTINCREASE storage parameters back to settings appropriate for non-parallel operations.
For parallel INSERT into a partitioned table, however, no temporary segments are created. Each parallel server process simply inserts its data into a partition above the high water mark.
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Additional Information:
Refer to the parallel execution chapter in Oracle8 Tuning for more discussion of space management. |
In direct-load INSERT, exclusive locks are obtained on the table (or on all the partitions of a partitioned table) precluding any concurrent insert, update, or delete on the table. Concurrent queries, however, are supported and will see only the data in the table before the INSERT began. These locks also prevent any concurrent index creation or rebuild operations. This must be taken into account before using direct-load INSERT because it affects table concurrency. For more information, see "Lock and Enqueue Resources for Parallel DML" on page 22-36.
The restrictions on direct-load INSERT are the same as those imposed on direct-path parallel loading with SQL*Loader, because they use the same underlying mechanism. In addition, the general parallel DML restrictions also apply to direct-load INSERT.
Serial and parallel direct-load INSERT have the following restrictions:
Violations of the restrictions will cause the statement to execute serially, using the conventional insert path, without warnings or error messages. An exception is the restriction on statements accessing the same table more than once in a transaction, which can cause error messages.
For example, if triggers or referential integrity are present on the table, then the APPEND hint will be ignored when you try to use direct-load INSERT (serial or parallel), as well as the PARALLEL hint or clause, if any.
For more information about the general restrictions on parallel DML (including parallel INSERT), see "Restrictions on Parallel DML" on page 22-37.
