| Oracle® Database PL/SQL User's Guide and Reference 10g Release 2 (10.2) Part Number B14261-01 |
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View PDF |
| Oracle® Database PL/SQL User's Guide and Reference 10g Release 2 (10.2) Part Number B14261-01 |
|
|
View PDF |
This appendix discusses the program limits that are imposed by the PL/SQL language. PL/SQL is based on the programming language Ada. As a result, PL/SQL uses a variant of Descriptive Intermediate Attributed Notation for Ada (DIANA), a tree-structured intermediate language. It is defined using a meta-notation called Interface Definition Language (IDL). DIANA is used internally by compilers and other tools.
At compile time, PL/SQL source code is translated into machine-readable m-code. Both the DIANA and m-code for a procedure or package are stored in the database. At run time, they are loaded into the shared memory pool. The DIANA is used to compile dependent procedures; the m-code is simply executed.
In the shared memory pool, a package spec, object type spec, standalone subprogram, or anonymous block is limited to 67108864 (2**26) DIANA nodes which correspond to tokens such as identifiers, keywords, operators, and so on. This allows for ~6,000,000 lines of code unless you exceed limits imposed by the PL/SQL compiler, some of which are given in Table C-1.
Table C-1 PL/SQL Compiler Limits
| Item | Limit |
|---|---|
| bind variables passed to a program unit | 32768 |
| exception handlers in a program unit | 65536 |
| fields in a record | 65536 |
| levels of block nesting | 255 |
| levels of record nesting | 32 |
| levels of subquery nesting | 254 |
| levels of label nesting | 98 |
| levels of nested collections | no predefined limit |
magnitude of a BINARY_INTEGER value |
-2147483648..2147483647 |
magnitude of a PLS_INTEGER value |
-2147483648..2147483647 |
| number of formal parameters in an explicit cursor, function, or procedure | 65536 |
| objects referenced by a program unit | 65536 |
precision of a FLOAT value (binary digits) |
126 |
precision of a NUMBER value (decimal digits) |
38 |
precision of a REAL value (binary digits) |
63 |
| size of an identifier (characters) | 30 |
| size of a string literal (bytes) | 32767 |
size of a CHAR value (bytes) |
32767 |
size of a LONG value (bytes) |
32760 |
size of a LONG RAW value (bytes) |
32760 |
size of a RAW value (bytes) |
32767 |
size of a VARCHAR2 value (bytes) |
32767 |
size of an NCHAR value (bytes) |
32767 |
size of an NVARCHAR2 value (bytes) |
32767 |
size of a BFILE value (bytes) |
4G * value of DB_BLOCK_SIZE parameter |
size of a BLOB value (bytes) |
4G * value of DB_BLOCK_SIZE parameter |
size of a CLOB value (bytes) |
4G * value of DB_BLOCK_SIZE parameter |
size of an NCLOB value (bytes) |
4G * value of DB_BLOCK_SIZE parameter |
To estimate how much memory a program unit requires, you can query the data dictionary view user_object_size. The column parsed_size returns the size (in bytes) of the "flattened" DIANA. For example:
SQL> SELECT * FROM user_object_size WHERE name = 'PKG1';NAME TYPE SOURCE_SIZE PARSED_SIZE CODE_SIZE ERROR_SIZE----------------------------------------------------------------PKG1 PACKAGE 46 165 119 0PKG1 PACKAGE BODY 82 0 139 0Unfortunately, you cannot estimate the number of DIANA nodes from the parsed size. Two program units with the same parsed size might require 1500 and 2000 DIANA nodes, respectively because, for example, the second unit contains more complex SQL statements.
When a PL/SQL block, subprogram, package, or object type exceeds a size limit, you get an error such as PLS-00123: program too large. Typically, this problem occurs with packages or anonymous blocks. With a package, the best solution is to divide it into smaller packages. With an anonymous block, the best solution is to redefine it as a group of subprograms, which can be stored in the database.
For additional information about the limits on datatypes, see Chapter 3, "PL/SQL Datatypes". For limits on collection subscripts, see "Referencing Collection Elements".
