| Oracle® Database SecureFiles and Large Objects Developer's Guide 11g Release 2 (11.2) Part Number E18294-01 |
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PDF · Mobi · ePub |
| Oracle® Database SecureFiles and Large Objects Developer's Guide 11g Release 2 (11.2) Part Number E18294-01 |
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|
PDF · Mobi · ePub |
This chapter describes SQL semantics that are supported for LOBs. These techniques allow you to use LOBs directly in SQL code and provide an alternative to using LOB-specific APIs for some operations.
This chapter contains these topics:
You can access CLOB and NCLOB data types using SQL VARCHAR2 semantics, such as SQL string operators and functions. (LENGTH functions can be used with BLOB data types and CLOB and NCLOBs.) These techniques are beneficial in the following situations:
When performing operations on LOBs that are relatively small in size (up to about 100K bytes).
After migrating your database from LONG columns to LOB data types, any SQL string functions, contained in your existing PL/SQL application, continue to work after the migration.
SQL semantics are not recommended in the following situations:
When you use advanced features such as random access and piece-wise fetch, you must use LOB APIs.
When performing operations on LOBs that are relatively large in size (greater than 1MB) using SQL semantics can impact performance. Using the LOB APIs is recommended in this situation.
Note:
SQL semantics are used with persistent and temporary LOBs. (SQL semantics do not apply to
BFILE columns because BFILE is a read-only data type.)Many SQL operators and functions that take VARCHAR2 columns as arguments also accept LOB columns. The following list summarizes which categories of SQL functions and operators are supported for use with LOBs. Details on individual functions and operators are given in Table 16-1.
The following categories of SQL functions and operators are supported for use with LOBs:
Concatenation
Comparison
(Some comparison functions are not supported for use with LOBs.)
Character functions
Conversion
(Some conversion functions are not supported for use with LOBs.)
The following categories of functions are not supported for use with LOBs:
Aggregate functions
Note that although pre-defined aggregate functions are not supported for use with LOBs, you can create user-defined aggregate functions to use with LOBs. See the Oracle Database Data Cartridge Developer's Guide for more information on user-defined aggregate functions.
Unicode functions
Details on individual functions and operators are in Table 16-1, which lists SQL operators and functions that take VARCHAR2 types as operands or arguments, or return a VARCHAR2 value. The "SQL" column identifies the functions and operators that are supported for CLOB and NCLOB data types. (The LENGTH function is also supported for the BLOB data type.)
The DBMS_LOB PL/SQL package supplied with Oracle Database supports using LOBs with most of the functions listed in Table 16-1 as indicated in the "PL/SQL" column.
Note:
Operators and functions with "No" indicated in the SQL column of Table 16-1 do not work in SQL queries used in PL/SQL blocks - even though some of these operators and functions are supported for use directly in PL/SQL code.Implicit Conversion of CLOB to CHAR Types
Functions designated as "CNV" in the SQL or PL/SQL column of Table 16-1 are performed by converting the CLOB to a character data type, such as VARCHAR2. In the SQL environment, only the first 4K bytes of the CLOB are converted and used in the operation; in the PL/SQL environment, only the first 32K bytes of the CLOB are converted and used in the operation.
Table 16-1 SQL VARCHAR2 Functions and Operators on LOBs
| Category | Operator / Function | SQL Example / Comments | SQL | PL/SQL |
|---|---|---|---|---|
|
Concatenation |
||, CONCAT() |
Select clobCol || clobCol2 from tab; |
Yes |
Yes |
|
Comparison |
= , !=, >, >=, <, <=, <>, ^= |
if clobCol=clobCol2 then... |
No |
Yes |
|
Comparison |
IN, NOT IN |
if clobCol NOT IN (clob1, clob2, clob3) then... |
No |
Yes |
|
Comparison |
SOME, ANY, ALL |
if clobCol < SOME (select clobCol2 from...) then... |
No |
N/A |
|
Comparison |
BETWEEN |
if clobCol BETWEEN clobCol2 and clobCol3 then... |
No |
Yes |
|
Comparison |
LIKE [ESCAPE] |
if clobCol LIKE '%pattern%' then... |
Yes |
Yes |
|
Comparison |
IS [NOT] NULL |
where clobCol IS NOT NULL |
Yes |
Yes |
|
Character Functions |
INITCAP, NLS_INITCAP |
select INITCAP(clobCol) from... |
CNV |
CNV |
|
Character Functions |
LOWER, NLS_LOWER, UPPER, NLS_UPPER |
...where LOWER(clobCol1) = LOWER(clobCol2) |
Yes |
Yes |
|
Character Functions |
LPAD, RPAD |
select RPAD(clobCol, 20, ' La') from... |
Yes |
Yes |
|
Character Functions |
TRIM, LTRIM, RTRIM |
...where RTRIM(LTRIM(clobCol,'ab'), 'xy') = 'cd' |
Yes |
Yes |
|
Character Functions |
REPLACE |
select REPLACE(clobCol, 'orig','new') from... |
Yes |
Yes |
|
Character Functions |
SOUNDEX |
...where SOUNDEX(clobCOl) = SOUNDEX('SMYTHE') |
CNV |
CNV |
|
Character Functions |
SUBSTR |
...where substr(clobCol, 1,4) = 'THIS' |
Yes |
Yes |
|
Character Functions |
TRANSLATE |
select TRANSLATE(clobCol, '123abc','NC') from... |
CNV |
CNV |
|
Character Functions |
ASCII |
select ASCII(clobCol) from... |
CNV |
CNV |
|
Character Functions |
INSTR |
...where instr(clobCol, 'book') = 11 |
Yes |
Yes |
|
Character Functions |
LENGTH |
...where length(clobCol) != 7; |
Yes |
Yes |
|
Character Functions |
NLSSORT |
...where NLSSORT (clobCol,'NLS_SORT = German') > NLSSORT ('S','NLS_SORT = German') |
CNV |
CNV |
|
Character Functions |
INSTRB, SUBSTRB, LENGTHB |
These functions are supported only for |
Yes |
Yes |
|
Character Functions - Regular Expressions |
REGEXP_LIKE |
This function searches a character column for a pattern. Use this function in the See the Oracle Database SQL Language Reference for syntax details on SQL functions for regular expressions. See the Oracle Database Advanced Application Developer's Guide for information on using regular expressions with the database. |
Yes |
Yes |
|
Character Functions - Regular Expressions |
REGEXP_REPLACE |
This function searches for a pattern in a character column and replaces each occurrence of that pattern with the pattern you specify. |
Yes |
Yes |
|
Character Functions - Regular Expressions |
REGEXP_INSTR |
This function searches a string for a given occurrence of a regular expression pattern. You specify which occurrence you want to find and the start position to search from. This function returns an integer indicating the position in the string where the match is found. |
Yes |
Yes |
|
Character Functions - Regular Expressions |
REGEXP_SUBSTR |
This function returns the actual substring matching the regular expression pattern you specify. |
Yes |
Yes |
|
Conversion |
CHARTOROWID |
CHARTOROWID(clobCol) |
CNV |
CNV |
|
Conversion |
COMPOSE |
COMPOSE('string') Returns a Unicode string given a string in the data type CHAR, VARCHAR2,CLOB, NCHAR, NVARCHAR2, NCLOB. An o code point qualified by an umlaut code point is returned as the o-umlaut code point. |
CNV |
CNV |
|
Conversion |
DECOMPOSE |
DECOMPOSE('str' [CANONICAL | COMPATIBILITY] ) Valid for Unicode character arguments. Returns a Unicode string after decomposition in the same character set as the input. o-umlaut code point is returned as the o code point followed by the umlaut code point. |
CNV |
CNV |
|
Conversion |
HEXTORAW |
HEXTORAW(CLOB) |
No |
CNV |
|
Conversion |
CONVERT |
select CONVERT(clobCol,'WE8DEC','WE8HP') from... |
Yes |
CNV |
|
Conversion |
TO_DATE |
TO_DATE(clobCol) |
CNV |
CNV |
|
Conversion |
TO_NUMBER |
TO_NUMBER(clobCol) |
CNV |
CNV |
|
Conversion |
TO_TIMESTAMP |
TO_TIMESTAMP(clobCol) |
No |
CNV |
|
Conversion |
TO_MULTI_BYTE TO_SINGLE_BYTE |
TO_MULTI_BYTE(clobCol) TO_SINGLE_BYTE(clobCol) |
CNV |
CNV |
|
Conversion |
TO_CHAR |
TO_CHAR(clobCol) |
Yes |
Yes |
|
Conversion |
TO_NCHAR |
TO_NCHAR(clobCol) |
Yes |
Yes |
|
Conversion |
TO_LOB |
INSERT INTO... SELECT TO_LOB(longCol)... Note that |
N/A |
N/A |
|
Conversion |
TO_CLOB |
TO_CLOB(varchar2Col) |
Yes |
Yes |
|
Conversion |
TO_NCLOB |
TO_NCLOB(varchar2Clob) |
Yes |
Yes |
|
Aggregate Functions |
COUNT |
select count(clobCol) from... |
No |
N/A |
|
Aggregate Functions |
MAX, MIN |
select MAX(clobCol) from... |
No |
N/A |
|
Aggregate Functions |
GROUPING |
select grouping(clobCol) from... group by cube (clobCol); |
No |
N/A |
|
Other Functions |
GREATEST, LEAST |
select GREATEST (clobCol1, clobCol2) from... |
No |
CNV |
|
Other Functions |
DECODE |
select DECODE(clobCol, condition1, value1, defaultValue) from... |
CNV |
CNV |
|
Other Functions |
NVL |
select NVL(clobCol,'NULL') from... |
Yes |
Yes |
|
Other Functions |
DUMP |
select DUMP(clobCol) from... |
No |
N/A |
|
Other Functions |
VSIZE |
select VSIZE(clobCol) from... |
No |
N/A |
|
Unicode |
INSTR2, SUBSTR2, LENGTH2, LIKE2 |
These functions use UCS2 code point semantics. |
No |
CNV |
|
Unicode |
INSTR4, SUBSTR4, LENGTH4, LIKE4 |
These functions use UCS4 code point semantics. |
No |
CNV |
|
Unicode |
INSTRC, SUBSTRC, LENGTHC, LIKEC |
These functions use complete character semantics. |
No |
CNV |
Variations on the INSTR, SUBSTR, LENGTH, and LIKE functions are provided for Unicode support. (These variations are indicated as "Unicode" in the "Category" column of Table 16-1.)
See Also:
for a detailed description on the usage of UNICODE functions.
Codepoint semantics of the INSTR, SUBSTR, LENGTH, and LIKE functions, described in Table 16-1, differ depending on the data type of the argument passed to the function. These functions use different codepoint semantics depending on whether the argument is a VARCHAR2 or a CLOB type as follows:
When the argument is a CLOB, UCS2 codepoint semantics are used for all character sets.
When the argument is a character type, such as VARCHAR2, the default codepoint semantics are used for the given character set:
UCS2 codepoint semantics are used for AL16UTF16 and UTF8 character sets.
UCS4 codepoint semantics are used for all other character sets, such as AL32UTF8.
If you are storing character data in a CLOB or NCLOB, then note that the amount and offset parameters for any APIs that read or write data to the CLOB or NCLOB are specified in UCS2 codepoints. In some character sets, a full character consists one or more UCS2 codepoints called a surrogate pair. In this scenario, you must ensure that the amount or offset you specify does not cut into a full character. This avoids reading or writing a partial character.
Starting from 10g, Oracle Database helps to detect half surrogate pair on read/write boundaries in such scenarios. In the case of read, the offset and amount is adjusted accordingly to avoid returning a half character, in which case the amount returned could be less than what is asked for. In the case of write, an error is raised to prevent from corrupting the existing data caused by overwriting a partial character in the destination CLOB or NCLOB.
The return type of a function or operator that takes a LOB or VARCHAR2 is the same as the data type of the argument passed to the function or operator.
Functions that take more than one argument, such as CONCAT, return a LOB data type if one or more arguments is a LOB. For example, CONCAT(CLOB, VARCHAR2) returns a CLOB.
See Also:
Oracle Database SQL Language Reference for details on the CONCAT function and the concatenation operator (||).A LOB instance is always accessed and manipulated through a LOB locator. This is also true for return values: SQL functions and operators return a LOB locator when the return value is a LOB instance.
Any LOB instance returned by a SQL function is a temporary LOB instance. LOB instances in tables (persistent LOBs) are not modified by SQL functions, even when the function is used in the SELECT list of a query.
The return value of the LENGTH function differs depending on whether the argument passed is a LOB or a character string:
If the input is a character string of length zero, then LENGTH returns NULL.
For a CLOB of length zero, or an empty locator such as that returned by EMPTY_CLOB(), the LENGTH and DBMS_LOB.GETLENGTH functions return FALSE.
Some LOB data types support implicit conversion and can be used in operations such as cross-type assignment and parameter passing. These conversions are processed at the SQL layer and can be performed in all client interfaces that use LOB types.
The database enables you to perform operations such as cross-type assignment and cross-type parameter passing between CLOB and NCLOB data types. The database performs implicit conversions between these types when necessary to preserve properties such as character set formatting.
Note that, when implicit conversions occur, each character in the source LOB is changed to the character set of the destination LOB, if needed. In this situation, some degradation of performance may occur if the data size is large. When the character set of the destination and the source are the same, there is no degradation of performance.
After an implicit conversion between CLOB and NCLOB types, the destination LOB is implicitly created as a temporary LOB. This new temporary LOB is independent from the source LOB. If the implicit conversion occurs as part of a define operation in a SELECT statement, then any modifications to the destination LOB do not affect the persistent LOB in the table that the LOB was selected from as shown in the following example:
SQL> -- check lob length before update
SQL> select dbms_lob.getlength(ad_sourcetext) from Print_media
2 where product_id=3106 and ad_id = 13001;
DBMS_LOB.GETLENGTH(AD_SOURCETEXT)
---------------------------------
205
SQL>
SQL> declare
2 clob1 clob;
3 amt number:=10;
4 BEGIN
5 -- select a clob column into a clob, no implicit convesion
6 SELECT ad_sourcetext INTO clob1 FROM Print_media
7 WHERE product_id=3106 and ad_id=13001 FOR UPDATE;
8
9 dbms_lob.trim(clob1, amt); -- Trim the selected lob to 10 bytes
10 END;
11 /
PL/SQL procedure successfully completed.
SQL> -- Modification is performed on clob1 which points to the
SQL> -- clob column in the table
SQL> select dbms_lob.getlength(ad_sourcetext) from Print_media
2 where product_id=3106 and ad_id = 13001;
DBMS_LOB.GETLENGTH(AD_SOURCETEXT)
---------------------------------
10
SQL>
SQL> rollback;
Rollback complete.
SQL> -- check lob length before update
SQL> select dbms_lob.getlength(ad_sourcetext) from Print_media
2 where product_id=3106 and ad_id = 13001;
DBMS_LOB.GETLENGTH(AD_SOURCETEXT)
---------------------------------
205
SQL>
SQL> declare
2 nclob1 nclob;
3 amt number:=10;
4 BEGIN
5
6 -- select a clob column into a nclob, implicit conversion occurs
7 SELECT ad_sourcetext INTO nclob1 FROM Print_media
8 WHERE product_id=3106 and ad_id=13001 FOR UPDATE;
9
10 dbms_lob.trim(nclob1, amt); -- Trim the selected lob to 10 bytes
11 END;
12 /
PL/SQL procedure successfully completed.
SQL> -- Modification to nclob1 does not affect the clob in the table,
SQL> -- because nclob1 is a independent temporary LOB
SQL> select dbms_lob.getlength(ad_sourcetext) from Print_media
2 where product_id=3106 and ad_id = 13001;
DBMS_LOB.GETLENGTH(AD_SOURCETEXT)
---------------------------------
205
See Also:
"Implicit Conversions Between CLOB and VARCHAR2" for information on PL/SQL semantics support for implicit conversions between CLOB and VARCHAR2 types.
"Implicit Character Set Conversions with LOBs" for more information on implicit character set conversions when loading LOBs from BILEs.
Oracle Database SQL Language Reference for details on implicit conversions supported for all data types.
Table 16-2 lists SQL operations that are not supported on LOB columns.
Table 16-2 Unsupported Usage of LOBs in SQL
| SQL Operations Not Supported | Example of unsupported usage |
|---|---|
|
SELECT DISTINCT |
SELECT DISTINCT clobCol from... |
|
SELECT clause ORDER BY |
SELECT... ORDER BY clobCol |
|
SELECT clause GROUP BY |
SELECT avg(num) FROM... GROUP BY clobCol |
|
UNION, INTERSECT, MINUS (Note that UNION ALL works for LOBs.) |
SELECT clobCol1 from tab1 UNION SELECT clobCol2 from tab2; |
|
Join queries |
SELECT... FROM... WHERE tab1.clobCol = tab2.clobCol |
|
Index columns |
CREATE INDEX clobIndx ON tab(clobCol)... |
The following semantics, used with VARCHAR2 and RAW data types, also apply to LOBs:
Defining a CHAR buffer on a CLOB
You can define a VARCHAR2 for a CLOB and RAW for a BLOB column. You can also define CLOB and BLOB types for VARCHAR2 and RAW columns.
Selecting a CLOB column into a CHAR buffer or VARCHAR2
If a CLOB column is selected into a VARCHAR2 variable, then data stored in the CLOB column is retrieved and put into the CHAR buffer. If the buffer is not large enough to contain all the CLOB data, then a truncation error is thrown and no data is written to the buffer. After successful completion of the SELECT operation, the VARCHAR2 variable holds as a regular character buffer.
In contrast, when a CLOB column is selected into a local CLOB variable, the CLOB locator is fetched.
Selecting a BLOB column into a RAW
When a BLOB column is selected into a RAW variable, the BLOB data is copied into the RAW buffer. If the size of the BLOB exceeds the size of the buffer, then a truncation error is thrown and no data is written to the buffer.
When a LOB is returned from a SQL function, the result returned is a temporary LOB. Your application should view the temporary LOB as local storage for the data returned from the SELECT operation as follows:
In PL/SQL, the temporary LOB has the same lifetime (duration) as other local PL/SQL program variables. It can be passed to subsequent SQL or PL/SQL VARCHAR2 functions or queries as a PL/SQL local variable. The temporary LOB goes out of scope at the end of the program block at which time, the LOB is freed. These are the same semantics as those for PL/SQL VARCHAR2 variables. At any time, nonetheless, you can use a DBMS_LOB.FREETEMPORARY() call to release the resources taken by the local temporary LOBs.
Note:
If the SQL statement returns a LOB or a LOB is anOUT parameter for a PL/SQL function or procedure, you must test if it is a temporary LOB, and if it is, then free it after you are done with it.In OCI, the temporary LOBs returned from SQL queries are always in session duration, unless a user-defined duration is present, in which case, the temporary LOBs are in the user-defined duration.
The following example illustrates selecting out a CLOB column into a VARCHAR2 and returning the result as a CHAR buffer of declared size:
DECLARE vc1 VARCHAR2(32000); lb1 CLOB; lb2 CLOB; BEGIN SELECT clobCol1 INTO vc1 FROM tab WHERE colID=1; -- lb1 is a temporary LOB SELECT clobCol2 || clobCol3 INTO lb1 FROM tab WHERE colID=2; lb2 := vc1|| lb1; -- lb2 is a still temporary LOB, so the persistent data in the database -- is not modified. An update is necessary to modify the table data. UPDATE tab SET clobCol1 = lb2 WHERE colID = 1; DBMS_LOB.FREETEMPORARY(lb2); -- Free up the space taken by lb2
<... some more queries ...>
END; -- at the end of the block, lb1 is automatically freed
You can use the IS NULL and IS NOT NULL operators with LOB columns. When used with LOBs, these operators determine whether a LOB locator is stored in the row.
Note:
In the SQL 92 standard, a character string of length zero is distinct from aNULL string. The return value of IS NULL differs when you pass a LOB compared to a VARCHAR2:
When you pass an initialized LOB of length zero to the IS NULL function, zero (FALSE) is returned. These semantics are compliant with the SQL standard.
When you pass a VARCHAR2 of length zero to the IS NULL function, TRUE is returned.
SQL functions with LOBs as arguments, except functions that compare LOB values, are allowed in predicates of the WHERE clause. For example, the LENGTH function can be included in the predicate of the WHERE clause:
CREATE TABLE t (n NUMBER, c CLOB); INSERT INTO t VALUES (1, 'abc'); SELECT * FROM t WHERE c IS NOT NULL; SELECT * FROM t WHERE LENGTH(c) > 0; SELECT * FROM t WHERE c LIKE '%a%'; SELECT * FROM t WHERE SUBSTR(c, 1, 2) LIKE '%b%'; SELECT * FROM t WHERE INSTR(c, 'b') = 2;
Whatever SQL built-in functions and user-defined functions that are supported on local LOBs and BFILEs are also supported on remote LOBs and BFILEs, as long as the final value returned by nested functions is not a LOB. This includes functions for remote persistent and temporary LOBs and for BFILEs.
Built-in SQL functions which are executed on a remote site can be part of any SQL statement, like SELECT, INSERT, UPDATE, and DELETE. For example:
SELECT LENGTH(ad_sourcetext) FROM print_media@remote_site -- CLOB SELECT LENGTH(ad_fltextn) FROM print_media@remote_site; -- NCLOB SELECT LENGTH(ad_composite) FROM print_media@remote_site; -- BLOB SELECT product_id from print_media@remote_site WHERE LENGTH(ad_sourcetext) > 3; UPDATE print_media@remote_site SET product_id = 2 WHERE LENGTH(ad_sourcetext) > 3; SELECT TO_CHAR(foo@dbs2(...)) FROM dual@dbs2; -- where foo@dbs2 returns a temporary LOB
The SQL functions fall under the following (not necessarily exclusive) categories:
SQL functions that are not supported on LOBs. These functions are relevant only for CLOBs: an example is DECODE.
These functions cannot be supported on remote LOBs because they are not supported on local LOBs.
Functions taking exactly one LOB argument (all other arguments are of other data types) and not returning a LOB. These functions are relevant only for CLOBs, NCLOBs, and BLOBs: an example is LENGTH and it is supported. For example:
SELECT LENGTH(ad_composite) FROM print_media@remote_site; SELECT LENGTH(ad_header.logo) FROM print_media@remote_site; -- LOB in object SELECT product_id from print_media@remote_site WHERE LENGTH(ad_sourcetext) > 3;
Functions that return a LOB. All these functions are relevant only for CLOBs and NCLOBs. These functions may return the original LOB or produce a temporary LOB. These functions can be performed on the remote site, as long as the result returned to the local site is not a LOB.
Functions returning a temporary LOB are: REPLACE, SUBSTR, CONCAT, ||, TRIM, LTRIM, RTRIM, LOWER, UPPER, NLS_LOWER, NLS_UPPER, LPAD, and RPAD.
Functions returning the original LOB locator are: NVL, DECODE, and CASE. Note that even though DECODE and CASE are not supported currently to operate on LOBs, they could operate on other data types and return a LOB.
For example, the following statements are supported:
SELECT TO_CHAR(CONCAT(ad_sourcetext, ad_sourcetext)) FROM
print_media@remote_site;
SELECT TO_CHAR(SUBSTR(ad_fltextnfs, 1, 3)) FROM
print_media@remote_site;
But the following statements are not supported:
SELECT CONCAT(ad_sourcetext, ad_sourcetext) FROM
print_media@remote_site;
SELECT SUBSTR(ad_sourcetext, 1, 3) FROM print_media@remote_site;
Functions that take in more than one LOB argument:
These are: INSTR, LIKE, REPLACE, CONCAT, ||, SUBSTR, TRIM, LTRIM, RTRIM, LPAD, and RPAD. All these functions are relevant only for CLOBs and NCLOBs.
These functions are supported only if all the LOB arguments are in the same dblink, and the value returned is not a LOB. For example, the following is supported:
SELECT TO_CHAR(CONCAT(ad_sourcetext, ad_sourcetext)) FROM print_media@remote_site; -- CLOB SELECT TO_CHAR(CONCAT(ad_fltextn, ad_fltextn)) FROM print_media@remote_site; -- NCLOB
But the following is not supported:
SELECT TO_CHAR(CONCAT(a.ad_sourcetext, b.ad_sourcetext)) FROM print_media@db1 a, print_media@db2 b WHERE a.product_id = b.product_id;
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