Oracle PL/SQL Tutorial/PL SQL Programming/Introduction — различия между версиями

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An example of an anonymous block.

DECLARE
  hundreds_counter  NUMBER(1,-2);
BEGIN
  hundreds_counter := 100;
  LOOP
    DBMS_OUTPUT.PUT_LINE(hundreds_counter);
     hundreds_counter := hundreds_counter + 100;
   END LOOP;
 EXCEPTION
 WHEN OTHERS THEN
   DBMS_OUTPUT.PUT_LINE("That is as high as you can go.");
END;
/


Anonymous blocks can be nested in the procedure and exception blocks in as many levels as you want

<<MAIN>>
declare
    ...
     Declaration section
    ...
begin
    ...
    Procedural section
    ...
        <<SUB1>>
        declare
        ...
        begin
        ...
        end;
    ...
exception
    ...
end;


You can label all blocks including nested ones by using identifiers enclosed in << >>.

This notation allows programmers to reference elements of different blocks.

Anonymous Block Structure

An anonymous block does not form the body of a procedure, function, or trigger.

Anonymous blocks can be used inline as part of a SQL*Plus script.

Anonymous blocks can also be nested inside procedure and function blocks for error handling.

The Syntax for PL/SQL Anonymous Blocks



[DECLARE variable_declarations]
BEGIN
  program_code
  [EXCEPTION error_handling_code]
END;


error_handling_code controls branches in the event of an error.

The keyword EXCEPTION begins the portion of the block that contains exception-handling code.

The exception-handling portion of a block is optional.

If the exception-handling portion is present, any runtime error or exception will cause program control to branch to this part of the block.

Assigning values to variables

SQL>
SQL>
SQL> declare
  2      v_length NUMBER DEFAULT 5;
  3      v_height NUMBER := 4;
  4      v_width  NUMBER;
  5      v_volume NUMBER;
  6      v_min    NUMBER;
  7  begin
  8      v_width := 3;
  9      v_volume:= v_length*v_width*v_height;
 10      v_min := least(v_length,v_width,v_height);
 11  end;
 12  /
PL/SQL procedure successfully completed.
SQL>


Assign SQL query results to PL/SQL variables

SQL>
SQL>
SQL> -- create demo table
SQL> create table Employee(
  2    ID                 VARCHAR2(4 BYTE)         NOT NULL,
  3    First_Name         VARCHAR2(10 BYTE),
  4    Last_Name          VARCHAR2(10 BYTE),
  5    Start_Date         DATE,
  6    End_Date           DATE,
  7    Salary             Number(8,2),
  8    City               VARCHAR2(10 BYTE),
  9    Description        VARCHAR2(15 BYTE)
 10  )
 11  /
Table created.
SQL>
SQL> -- prepare data
SQL> insert into Employee(ID,  First_Name, Last_Name, Start_Date,                     End_Date,                       Salary,  City,       Description)
  2               values ("01","Jason",    "Martin",  to_date("19960725","YYYYMMDD"), to_date("20060725","YYYYMMDD"), 1234.56, "Toronto",  "Programmer")
  3  /
1 row created.
SQL> insert into Employee(ID,  First_Name, Last_Name, Start_Date,                     End_Date,                       Salary,  City,       Description)
  2                values("02","Alison",   "Mathews", to_date("19760321","YYYYMMDD"), to_date("19860221","YYYYMMDD"), 6661.78, "Vancouver","Tester")
  3  /
1 row created.
SQL> insert into Employee(ID,  First_Name, Last_Name, Start_Date,                     End_Date,                       Salary,  City,       Description)
  2                values("03","James",    "Smith",   to_date("19781212","YYYYMMDD"), to_date("19900315","YYYYMMDD"), 6544.78, "Vancouver","Tester")
  3  /
1 row created.
SQL> insert into Employee(ID,  First_Name, Last_Name, Start_Date,                     End_Date,                       Salary,  City,       Description)
  2                values("04","Celia",    "Rice",    to_date("19821024","YYYYMMDD"), to_date("19990421","YYYYMMDD"), 2344.78, "Vancouver","Manager")
  3  /
1 row created.
SQL> insert into Employee(ID,  First_Name, Last_Name, Start_Date,                     End_Date,                       Salary,  City,       Description)
  2                values("05","Robert",   "Black",   to_date("19840115","YYYYMMDD"), to_date("19980808","YYYYMMDD"), 2334.78, "Vancouver","Tester")
  3  /
1 row created.
SQL> insert into Employee(ID,  First_Name, Last_Name, Start_Date,                     End_Date,                       Salary, City,        Description)
  2                values("06","Linda",    "Green",   to_date("19870730","YYYYMMDD"), to_date("19960104","YYYYMMDD"), 4322.78,"New York",  "Tester")
  3  /
1 row created.
SQL> insert into Employee(ID,  First_Name, Last_Name, Start_Date,                     End_Date,                       Salary, City,        Description)
  2                values("07","David",    "Larry",   to_date("19901231","YYYYMMDD"), to_date("19980212","YYYYMMDD"), 7897.78,"New York",  "Manager")
  3  /
1 row created.
SQL> insert into Employee(ID,  First_Name, Last_Name, Start_Date,                     End_Date,                       Salary, City,        Description)
  2                values("08","James",    "Cat",     to_date("19960917","YYYYMMDD"), to_date("20020415","YYYYMMDD"), 1232.78,"Vancouver", "Tester")
  3  /
1 row created.
SQL>
SQL>
SQL>
SQL> -- display data in the table
SQL> select * from Employee
  2  /

ID   FIRST_NAME           LAST_NAME            START_DAT END_DATE      SALARY CITY       DESCRIPTION
---- -------------------- -------------------- --------- --------- ---------- ---------- ---------------
01   Jason                Martin               25-JUL-96 25-JUL-06    1234.56 Toronto    Programmer
02   Alison               Mathews              21-MAR-76 21-FEB-86    6661.78 Vancouver  Tester
03   James                Smith                12-DEC-78 15-MAR-90    6544.78 Vancouver  Tester
04   Celia                Rice                 24-OCT-82 21-APR-99    2344.78 Vancouver  Manager
05   Robert               Black                15-JAN-84 08-AUG-98    2334.78 Vancouver  Tester
06   Linda                Green                30-JUL-87 04-JAN-96    4322.78 New York   Tester
07   David                Larry                31-DEC-90 12-FEB-98    7897.78 New York   Manager
08   James                Cat                  17-SEP-96 15-APR-02    1232.78 Vancouver  Tester
8 rows selected.
SQL>
SQL>
SQL> declare
  2      v_name VARCHAR2(256);
  3  begin
  4      select first_name
  5        into v_name
  6        from employee
  7      where id=7;
  8      DBMS_OUTPUT.put_line("v_name:"||v_name);
  9
 10  end;
 11  /
v_name:David
PL/SQL procedure successfully completed.
SQL>
SQL>
SQL> -- clean the table
SQL> drop table Employee
  2  /
Table dropped.
SQL>
SQL>


Character and string literals in the Oracle world are enclosed by single quotes

SQL>
SQL> declare
  2      v_char  CHAR(1):="H";
  3      v_text1 VARCHAR2(10) :="Hello";
  4      v_text2    CHAR(1) :=""; -- the same as NULL
  5  begin
  6     NULL;
  7  End;
  8  /
PL/SQL procedure successfully completed.
SQL>


Comments

PL/SQL allows two types of comments: single and multi-line.

Single-line comments start with a delimiter -- and go to the end of the line, as shown here:



declare
  here you should declare variables,
  constants, etc.
   ...
begin
-- here you place your code
    ...
end;
/


Declaring a Variable by Reference

declare
    variable_name  table.column%TYPE;
    variable_name2 variable_name%TYPE;
    variable_row   table%ROWTYPE;
begin
The following code shows some examples of defining datatypes:

SQL> -- create demo table
SQL> create table Employee(
  2    ID                 VARCHAR2(4 BYTE)         NOT NULL,
  3    First_Name         VARCHAR2(10 BYTE),
  4    Last_Name          VARCHAR2(10 BYTE),
  5    Start_Date         DATE,
  6    End_Date           DATE,
  7    Salary             Number(8,2),
  8    City               VARCHAR2(10 BYTE),
  9    Description        VARCHAR2(15 BYTE)
 10  )
 11  /
Table created.
SQL>
SQL> -- prepare data
SQL> insert into Employee(ID,  First_Name, Last_Name, Start_Date,                     End_Date,                       Salary,  City,       Description)
  2               values ("01","Jason",    "Martin",  to_date("19960725","YYYYMMDD"), to_date("20060725","YYYYMMDD"), 1234.56, "Toronto",  "Programmer")
  3  /
1 row created.
SQL> insert into Employee(ID,  First_Name, Last_Name, Start_Date,                     End_Date,                       Salary,  City,       Description)
  2                values("02","Alison",   "Mathews", to_date("19760321","YYYYMMDD"), to_date("19860221","YYYYMMDD"), 6661.78, "Vancouver","Tester")
  3  /
1 row created.
SQL> insert into Employee(ID,  First_Name, Last_Name, Start_Date,                     End_Date,                       Salary,  City,       Description)
  2                values("03","James",    "Smith",   to_date("19781212","YYYYMMDD"), to_date("19900315","YYYYMMDD"), 6544.78, "Vancouver","Tester")
  3  /
1 row created.
SQL> insert into Employee(ID,  First_Name, Last_Name, Start_Date,                     End_Date,                       Salary,  City,       Description)
  2                values("04","Celia",    "Rice",    to_date("19821024","YYYYMMDD"), to_date("19990421","YYYYMMDD"), 2344.78, "Vancouver","Manager")
  3  /
1 row created.
SQL> insert into Employee(ID,  First_Name, Last_Name, Start_Date,                     End_Date,                       Salary,  City,       Description)
  2                values("05","Robert",   "Black",   to_date("19840115","YYYYMMDD"), to_date("19980808","YYYYMMDD"), 2334.78, "Vancouver","Tester")
  3  /
1 row created.
SQL> insert into Employee(ID,  First_Name, Last_Name, Start_Date,                     End_Date,                       Salary, City,        Description)
  2                values("06","Linda",    "Green",   to_date("19870730","YYYYMMDD"), to_date("19960104","YYYYMMDD"), 4322.78,"New York",  "Tester")
  3  /
1 row created.
SQL> insert into Employee(ID,  First_Name, Last_Name, Start_Date,                     End_Date,                       Salary, City,        Description)
  2                values("07","David",    "Larry",   to_date("19901231","YYYYMMDD"), to_date("19980212","YYYYMMDD"), 7897.78,"New York",  "Manager")
  3  /
1 row created.
SQL> insert into Employee(ID,  First_Name, Last_Name, Start_Date,                     End_Date,                       Salary, City,        Description)
  2                values("08","James",    "Cat",     to_date("19960917","YYYYMMDD"), to_date("20020415","YYYYMMDD"), 1232.78,"Vancouver", "Tester")
  3  /
1 row created.
SQL>
SQL>
SQL>
SQL> -- display data in the table
SQL> select * from Employee
  2  /

ID   FIRST_NAME           LAST_NAME            START_DAT END_DATE      SALARY CITY       DESCRIPTION
---- -------------------- -------------------- --------- --------- ---------- ---------- ---------------
01   Jason                Martin               25-JUL-96 25-JUL-06    1234.56 Toronto    Programmer
02   Alison               Mathews              21-MAR-76 21-FEB-86    6661.78 Vancouver  Tester
03   James                Smith                12-DEC-78 15-MAR-90    6544.78 Vancouver  Tester
04   Celia                Rice                 24-OCT-82 21-APR-99    2344.78 Vancouver  Manager
05   Robert               Black                15-JAN-84 08-AUG-98    2334.78 Vancouver  Tester
06   Linda                Green                30-JUL-87 04-JAN-96    4322.78 New York   Tester
07   David                Larry                31-DEC-90 12-FEB-98    7897.78 New York   Manager
08   James                Cat                  17-SEP-96 15-APR-02    1232.78 Vancouver  Tester
8 rows selected.
SQL>
SQL>
SQL> declare
  2      v_empno1 employee.id%TYPE;
  3      v_empno2 v_empno1%TYPE;
  4      v_emp_rec employee%ROWTYPE;
  5  begin
  6      NULL;
  7  end;
  8  /
PL/SQL procedure successfully completed.
SQL>
SQL> -- clean the table
SQL> drop table Employee
  2  /
Table dropped.
SQL>
SQL>
SQL>


Declaring variables

In PL/SQL, variables must be included in the declaration block before they can be used.

There are a number of ways to declare a variable.

The most common way is by using a direct declaration, as shown here:



declare
    variable_name [constant] DATATYPE [DEFAULT value |DEFAULT NULL];
begin
    ...


Delimiters

A delimiter is a simple or compound symbol that has a special meaning in PL/ SQL.

Delimiter Description +, -, *, / Addition, subtraction/negation, multiplication, division % Attribute indicator " Character string delimiter . Component selector (,) Expression or list delimiter

Host variable indicator , Item separator " Quoted identifier delimiter = Relational operator @ Remote access indicator

Statement terminator

=

Assignment operator => Association operator || Concatenation operator

Exponentiation operator <<, >> Label delimiter (begin and end) /*, */ Multi-line comment delimiter (begin and end) -- Single-line comment indicator .. Range operator <, >, <=, >= Relational operators <>, "=, ~=, ^= Different version of NOT EQUAL

Each complete line of the PL/SQL code must end with a semicolon (;).

To run the code, type / at the beginning of the first blank line after the last line of the code.



SQL> set SERVEROUTPUT ON
SQL> declare
  2      v_string varchar2(256):="Hello, World!";
  3  begin
  4      dbms_output.put_line(v_string);
  5  end;
  6  /
Hello, World!
PL/SQL procedure successfully completed.
SQL>


Examples of Integer and Real Literals

SQL>
SQL>
SQL> declare
  2      v_int1 BINARY_INTEGER :=5;  -- integer
  3      v_int2 BINARY_INTEGER :=-5; -- integer
  4      v_int3 BINARY_INTEGER :=0;  -- integer
  5      v_int4 BINARY_INTEGER :=+5; -- integer
  6
  7      v_real1 NUMBER :=1.0;       -- real
  8      v_real2 NUMBER :=1.;        -- real
  9      v_real3 NUMBER :=-7.113;    -- real
 10      v_real4 NUMBER :=0.2;       -- real
 11      v_real5 NUMBER :=.3;        -- real
 12      v_real6 NUMBER :=0.1;       -- real
 13      v_real7 NUMBER :=2/6;       -- real
 14  begin
 15     NULL;
 16  end;
 17  /
PL/SQL procedure successfully completed.
SQL>


Literals as variable values

Literals are explicit numeric, character, string, or Boolean values not represented by an identifier.

Two types of numeric literals exist:

  1. Integer literals represent optionally signed numeric values without decimal points.
  2. Real literals represent optionally signed whole or fractional numbers with decimal points.

24. 1. Introduction 24. 1. 1. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Writingasimpleprogram.htm">Writing a simple program</a> 24. 1. 2. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/EachcompletelineofthePLSQLcodemustendwithasemicolon.htm">Each complete line of the PL/SQL code must end with a semicolon (;).</a> 24. 1. 3. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/AnonymousBlockStructure.htm">Anonymous Block Structure</a> 24. 1. 4. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Anexampleofananonymousblock.htm">An example of an anonymous block.</a> 24. 1. 5. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Anonymousblockscanbenestedintheprocedureandexceptionblocksinasmanylevelsasyouwant.htm">Anonymous blocks can be nested in the procedure and exception blocks in as many levels as you want</a> 24. 1. 6. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/TheLexicalSetofElements.htm">The Lexical Set of Elements</a> 24. 1. 7. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Delimiters.htm">Delimiters</a> 24. 1. 8. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Comments.htm">Comments</a> 24. 1. 9. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Multilinecommentsstartwithandendwith.htm">Multi-line comments start with /* and end with */.</a> 24. 1. 10. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Declaringvariables.htm">Declaring variables</a> 24. 1. 11. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/DeclaringaVariablebyReference.htm">Declaring a Variable by Reference</a> 24. 1. 12. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Therearesomerestrictionsonthedeclarationofvariables.htm">There are some restrictions on the declaration of variables:</a> 24. 1. 13. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Assigningvaluestovariables.htm">Assigning values to variables</a> 24. 1. 14. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/AssignSQLqueryresultstoPLSQLvariables.htm">Assign SQL query results to PL/SQL variables</a> 24. 1. 15. Literals as variable values 24. 1. 16. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/ExamplesofIntegerandRealLiterals.htm">Examples of Integer and Real Literals</a> 24. 1. 17. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Numericliteralscannotcontaindollarsignsorcommasbuttheycanbewritteninscientificnotation.htm">Numeric literals cannot contain dollar signs or commas, but they can be written in scientific notation</a> 24. 1. 18. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/CharacterandstringliteralsintheOracleworldareenclosedbysinglequotes.htm">Character and string literals in the Oracle world are enclosed by single quotes</a>

Multi-line comments start with /* and end with */.

These delimiters may span as many lines as needed. An example is shown here:



declare
/* This code is written by sqle.ru. Dec 20 2007 */
    ...
begin
    ...
end;


Numeric literals cannot contain dollar signs or commas, but they can be written in scientific notation

SQL>
SQL> declare
  2  --    v_real1 NUMBER:=$123456.00; -- INVALID
  3  --    v_real2 NUMBER:=123,456.00; -- INVALID
  4        v_real3 NUMBER:=5e10;       -- VALID
  5        v_real3 NUMBER:=5e-3;       -- VALID
  6  begin
  7       NULL;
  8  end;
  9  /
PL/SQL procedure successfully completed.
SQL>
SQL>
SQL>


Oracle supports scientific notation for numbers between 1E-130 and 1E+126, where E stands for "times ten to the power of".

The Lexical Set of Elements

  1. The PL/SQL lexical set of elements consists of identifiers, delimiters, literals, and comments.
  2. Identifiers are names of PL/SQL program items and units.
  3. These items and units could be of different kinds - constants, variables, exceptions, cursors, cursor variables, subprograms, and packages.
  4. An identifier cannot exceed 30 characters.
  5. An identifier consists of a letter optionally followed by more letters, numerals, dollar signs, underscores, and number signs.
  6. By default, identifiers are not case sensitive.
  7. Identifiers may not be the same as reserved words, so you cannot use the word end as a variable name.

24. 1. Introduction 24. 1. 1. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Writingasimpleprogram.htm">Writing a simple program</a> 24. 1. 2. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/EachcompletelineofthePLSQLcodemustendwithasemicolon.htm">Each complete line of the PL/SQL code must end with a semicolon (;).</a> 24. 1. 3. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/AnonymousBlockStructure.htm">Anonymous Block Structure</a> 24. 1. 4. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Anexampleofananonymousblock.htm">An example of an anonymous block.</a> 24. 1. 5. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Anonymousblockscanbenestedintheprocedureandexceptionblocksinasmanylevelsasyouwant.htm">Anonymous blocks can be nested in the procedure and exception blocks in as many levels as you want</a> 24. 1. 6. The Lexical Set of Elements 24. 1. 7. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Delimiters.htm">Delimiters</a> 24. 1. 8. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Comments.htm">Comments</a> 24. 1. 9. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Multilinecommentsstartwithandendwith.htm">Multi-line comments start with /* and end with */.</a> 24. 1. 10. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Declaringvariables.htm">Declaring variables</a> 24. 1. 11. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/DeclaringaVariablebyReference.htm">Declaring a Variable by Reference</a> 24. 1. 12. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Therearesomerestrictionsonthedeclarationofvariables.htm">There are some restrictions on the declaration of variables:</a> 24. 1. 13. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Assigningvaluestovariables.htm">Assigning values to variables</a> 24. 1. 14. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/AssignSQLqueryresultstoPLSQLvariables.htm">Assign SQL query results to PL/SQL variables</a> 24. 1. 15. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Literalsasvariablevalues.htm">Literals as variable values</a> 24. 1. 16. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/ExamplesofIntegerandRealLiterals.htm">Examples of Integer and Real Literals</a> 24. 1. 17. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/Numericliteralscannotcontaindollarsignsorcommasbuttheycanbewritteninscientificnotation.htm">Numeric literals cannot contain dollar signs or commas, but they can be written in scientific notation</a> 24. 1. 18. <A href="/Tutorial/Oracle/0480__PL-SQL-Programming/CharacterandstringliteralsintheOracleworldareenclosedbysinglequotes.htm">Character and string literals in the Oracle world are enclosed by single quotes</a>

There are some restrictions on the declaration of variables:

There is no forward declaration.

Multiple declarations are supported in PL/SQL, as shown here:



SQL> declare
  2      --v1, v2 NUMBER; -- INVALID
  3      -- VALID
  4      v1 NUMBER;
  5      v2 NUMBER;
  6  begin
  7      NULL;
  8  end;
  9  /
PL/SQL procedure successfully completed.


Writing a simple program

The simplest kind of PL/SQL code is called an anonymous block.

An anonymous block is a block of code that has its own DECLARE/BEGIN/END structure.

Anonymous blocks can either stand on their own (as shown here) or they can sit within any other PL/SQL program.

The general syntax for an anonymous block:



declare
    ...
     <Declaration part>
    ...
begin
    ...
    <Procedural part>
    ...
exception
    ...
    <Exception handler>
    ...
end;


  1. The declaration section defines all variables, cursors, subprograms, and other elements to be used in the code.
  2. The declaration section is optional.
  3. The procedural section contains the main body of the routine.
  4. The procedural section starts with the begin keyword and ends with the exception keyword or the end keyword if you have no exception section.
  5. The procedural section is the only mandatory part of the code.
  6. You must have at least one line of executable code in the procedural section.
  7. You can use the NULL command to indicate that nothing should be executed.
  8. The exception section is also optional.
  9. The exception section allows the program to intercept and process exceptions.