|PL/SQL User's Guide and Reference
Civilization advances by extending the number of important operations that we can perform without thinking about them.
Alfred North Whitehead
This chapter shows you how to use subprograms, which let you name and encapsulate a sequence of statements. Subprograms aid application development by isolating operations. They are like building blocks, which you can use to construct modular, maintainable applications.
Subprograms are named PL/SQL blocks that can take parameters and be invoked. PL/SQL has two types of subprograms called procedures and functions. Generally, you use a procedure to perform an action and a function to compute a value.
Like unnamed or anonymous PL/SQL blocks, subprograms have a declarative part, an executable part, and an optional exception-handling part. The declarative part contains declarations of types, cursors, constants, variables, exceptions, and nested subprograms. These items are local and cease to exist when you exit the subprogram. The executable part contains statements that assign values, control execution, and manipulate Oracle data. The exception-handling part contains exception handlers, which deal with exceptions raised during execution.
Consider the following procedure named
debit_account, which debits a bank account:
PROCEDURE debit_account (acct_id INTEGER, amount REAL) IS old_balance REAL; new_balance REAL; overdrawn EXCEPTION; BEGIN SELECT bal INTO old_balance FROM accts WHERE acct_no = acct_id; new_balance := old_balance - amount; IF new_balance < 0 THEN RAISE overdrawn; ELSE UPDATE accts SET bal = new_balance WHERE acct_no = acct_id; END IF; EXCEPTION WHEN overdrawn THEN ... END debit_account;
When invoked or called, this procedure accepts an account number and a debit amount. It uses the account number to select the account balance from the
accts database table. Then, it uses the debit amount to compute a new balance. If the new balance is less than zero, an exception is raised; otherwise, the bank account is updated.
Subprograms provide extensibility; that is, they let you tailor the PL/SQL language to suit your needs. For example, if you need a procedure that creates new departments, you can easily write one, as follows:
PROCEDURE create_dept (new_dname CHAR, new_loc CHAR) IS BEGIN INSERT INTO dept VALUES (deptno_seq.NEXTVAL, new_dname, new_loc); END create_dept;
Subprograms also provide modularity; that is, they let you break a program down into manageable, well-defined logic modules. This supports top-down design and the stepwise refinement approach to problem solving.
Also, subprograms promote reusability and maintainability. Once validated, a subprogram can be used with confidence in any number of applications. Furthermore, only the subprogram is affected if its definition changes. This simplifies maintenance and enhancement.
Finally, subprograms aid abstraction, the mental separation from particulars. To use subprograms, you must know what they do, not how they work. Therefore, you can design applications from the top down without worrying about implementation details. Dummy subprograms (stubs) allow you to defer the definition of procedures and functions until you test and debug the main program.
A procedure is a subprogram that performs a specific action. You write procedures using the syntax
PROCEDURE name [(parameter[, parameter, ...])] IS [local declarations] BEGIN executable statements [EXCEPTION exception handlers] END [name];
parameter stands for the following syntax:
You cannot impose the
NULL constraint on a parameter.
Also, you cannot specify a constraint on the datatype. For example, the following declaration of
emp_id is illegal because it imposes a size constraint:
A procedure has two parts: the specification and the body. The procedure specification begins with the keyword
PROCEDURE and ends with the procedure name or a parameter list. Parameter declarations are optional. Procedures that take no parameters are written without parentheses.
The procedure body begins with the keyword
IS and ends with the keyword
END followed by an optional procedure name. The procedure body has three parts: a declarative part, an executable part, and an optional exception-handling part.
The declarative part contains local declarations, which are placed between the keywords
BEGIN. The keyword
DECLARE, which introduces declarations in an anonymous PL/SQL block, is not used. The executable part contains statements, which are placed between the keywords
END). At least one statement must appear in the executable part of a procedure. The
NULL statement meets this requirement. The exception-handling part contains exception handlers, which are placed between the keywords
Consider the procedure
raise_salary, which increases the salary of an employee:
PROCEDURE raise_salary (emp_id INTEGER, increase REAL) IS current_salary REAL; salary_missing EXCEPTION; BEGIN SELECT sal INTO current_salary FROM emp WHERE empno = emp_id; IF current_salary IS NULL THEN RAISE salary_missing; ELSE UPDATE emp SET sal = sal + increase WHERE empno = emp_id; END IF; EXCEPTION WHEN NO_DATA_FOUND THEN INSERT INTO emp_audit VALUES (emp_id, 'No such number'); WHEN salary_missing THEN INSERT INTO emp_audit VALUES (emp_id, 'Salary is null'); END raise_salary;
When called, this procedure accepts an employee number and a salary increase amount. It uses the employee number to select the current salary from the
emp database table. If the employee number is not found or if the current salary is null, an exception is raised. Otherwise, the salary is updated.
A procedure is called as a PL/SQL statement. For example, you might call the procedure
raise_salary as follows:
A function is a subprogram that computes a value. Functions and procedures are structured alike, except that functions have a
RETURN clause. You write functions using the syntax
FUNCTION name [(parameter[, parameter, ...])] RETURN datatype IS [local declarations] BEGIN executable statements [EXCEPTION exception handlers] END [name]; Nvy Smart Ave Madison Skechers Women's Sneaker Street AOqgn1Bp
parameter stands for the following syntax:
Remember, you cannot impose the
NULLSneaker Lace mesh E Olive Sojourn Merrell Women's Dusty Q2 Zoe ZA4qt0x7 constraint on a parameter, and you cannot specify a constraint on the datatype.
Like a procedure, a function has two parts: the specification and the body. The function specification begins with the keyword
Women's Pairs Blue Royal Pump Lop Dream FUNCTION and ends with the
RETURN clause, which specifies the datatype of the result value. Parameter declarations are optional. Functions that take no parameters are written without parentheses.
The function body begins with the keyword
IS and ends with the keyword
END followed by an optional function name. The function body has three parts: a declarative part, an executable part, and an optional exception-handling part.
The declarative part contains local declarations, which are placed between the keywords
BEGIN. The keyword
DECLARE is not used. The executable part contains statements, which are placed between the keywords
END). One or more
RETURN statements must appear in the executable part of a function. The exception-handling part contains exception handlers, which are placed between the keywords
Consider the function
sal_ok, which determines if an employee salary is out of range:
FUNCTION sal_ok (salary REAL, title REAL) RETURN BOOLEAN IS min_sal REAL; max_sal REAL; BEGIN SELECT losal, hisal INTO min_sal, max_sal FROM sals WHERE job = title; RETURN (salary >= min_sal) AND (salary <= max_sal); END sal_ok;
When called, this function accepts an employee salary and job title. It uses the job title to select range limits from the
sals database table. The function identifier,
sal_ok, is set to a Boolean value by the
RETURN statement. If the salary is out of range,
sal_ok is set to
sal_ok is set to
A function is called as part of an expression. For example, the function
sal_ok might be called as follows:
The function identifier acts like a variable whose value depends on the parameters passed to it.
To be callable from SQL expressions, a stored function must obey certain rules meant to control side effects. For stand-alone functions, Oracle can enforce these rules by checking the function body. However, the body of a packaged function is hidden. So, for packaged functions, you must use the pragma
RESTRICT_REFERENCES to enforce the rules. For more information, see Oracle8 Application Developer's Guide.
RETURN statement immediately completes the execution of a subprogram and returns control to the caller. Execution then resumes with the statement following the subprogram call. (Do not confuse the
RETURN statement with the
RETURN clause, which specifies the datatype of the result value in a function specification.)
A subprogram can contain several
RETURN statements, none of which need be the last lexical statement. Executing any of them completes the subprogram immediately. However, to have multiple exit points in a subprogram is a poor programming practice.
In procedures, a
RETURN statement cannot contain an expression. The statement simply returns control to the caller before the normal end of the procedure is reached.
However, in functions, a
RETURN statement must contain an expression, which is evaluated when the
RETURN statement is executed. The resulting value is assigned to the function identifier, which acts like a variable of the type specified in the
RETURN clause. Observe how the function
balance returns the balance of a specified bank account:
FUNCTION balance (acct_id INTEGER) RETURN REAL IS acct_bal REAL; BEGIN SELECT bal INTO acct_bal FROM accts WHERE acct_no = acct_id; RETURN acct_bal; END balance;
The following example shows that the expression in a function
RETURN statement can be arbitrarily complex:
FUNCTION compound (years NUMBER, amount NUMBER, rate NUMBER) RETURN NUMBER IS BEGIN RETURN amount * POWER((rate / 100) + 1, years); END compound;
A function must contain at least one
RETURN statement. Otherwise, PL/SQL raises the predefined exception
PROGRAM_ERROR at run time.
You can declare subprograms in any PL/SQL block, subprogram, or package. However, you must declare subprograms at the end of a declarative section after all other program items. For example, the following procedure declaration is misplaced:
DECLARE PROCEDURE award_bonus (...) IS -- misplaced; must come last BEGIN ... END; rating NUMBER; CURSOR c1 IS SELECT * FROM emp;
PL/SQL requires that you declare an identifier before using it. Therefore, you must declare a subprogram before calling it. For example, the following declaration of procedure
award_bonus is illegal because
award_bonus calls procedure
calc_rating, which is not yet declared when the call is made:
DECLARE ... PROCEDURE award_bonus ( ... ) IS BEGIN calc_rating( ... ); -- undeclared identifier ... END; PROCEDURE calc_rating ( ... ) IS BEGIN ... END;
In this case, you can solve the problem easily by placing procedure
calc_rating before procedure
award_bonus. However, the easy solution does not always work. For example, suppose the procedures are mutually recursive (call each other) or you want to define them in alphabetical order. PL/SQL solves this problem by providing a special subprogram declaration called a forward declaration. You can use forward declarations to
A forward declaration consists of a subprogram specification terminated by a semicolon. In the following example, the forward declaration advises PL/SQL that the body of procedure
calc_rating can be found later in the block:
DECLARE PROCEDURE calc_rating ( ... ); -- forward declaration ... /* Define subprograms in alphabetical order. */ PROCEDURE award_bonus ( ... ) IS BEGIN calc_rating( ... ); ... END; PROCEDURE calc_rating ( ... ) IS BEGIN ... END;
Although the formal parameter list appears in the forward declaration, it must also appear in the subprogram body. You can place the subprogram body anywhere after the forward declaration, but they must appear in the same program unit.
Forward declarations also let you group logically related subprograms in a package. The subprogram specifications go in the package specification, and the subprogram bodies go in the package body, where they are invisible to applications. Thus, packages allow you to hide implementation details. An example follows:
CREATE PACKAGE emp_actions AS -- package specification Retro Toe Round Shoes Lace Oxford Brogue Sfnld Red Up Women's 5PqnwaAxtF PROCEDURE hire_employee (emp_id INTGER, name VARCHAR2, ...); PROCEDURE fire_employee (emp_id INTEGER); PROCEDURE raise_salary (emp_id INTEGER, increase REAL); ... END emp_actions; CREATE PACKAGE BODY emp_actions AS -- package body PROCEDURE hire_employee (emp_id INTGER, name VARCHAR2, ...) IS BEGIN ... INSERT INTO emp VALUES (empno, ename, ...); END hire_employee; PROCEDURE fire_employee (emp_id INTEGER) IS BEGIN DELETE FROM emp WHERE empno = emp_id; END fire_employee; PROCEDURE raise_salary (emp_id INTEGER, increase REAL) IS salary REAL; BEGIN SELECT sal INTO salary FROM emp WHERE empno = emp_id; ... END raise_salary; ... END emp_actions;
You can define subprograms in a package body without declaring their specifications in the package specification. However, such subprograms can be called only from inside the package. For more information about packages, see Chapter 8.
Generally, tools (such as Oracle Forms) that incorporate the PL/SQL engine can store subprograms locally for later, strictly local execution. However, to become available for general use by all tools, subprograms must be stored in an Oracle database.
To create subprograms and store them permanently in an Oracle database, you use the
FUNCTION statements, which you can execute interactively from SQL*Plus or Enterprise Manager. For example, you might create the procedure
Pairs Dream Pump Blue Royal Women's Lop fire_employeethick Socks Aqua Barefoot Women Shoes Men Beach Heeta Dry For Swim Water a Quick Black Sports Z Px8xz6nA, as follows:
When creating subprograms, you can use the keyword
AS instead of
IS in the specification for readability. For more information about creating and using stored subprograms, see Oracle8 Application Developer's Guide.
Subprograms pass information using parameters. The variables or expressions referenced in the parameter list of a subprogram call are actual parameters. For example, the following procedure call lists two actual parameters named
The next procedure call shows that expressions can be used as actual parameters:
The variables declared in a subprogram specification and referenced in the subprogram body are formal parameters. For example, the following procedure declares two formal parameters named
PROCEDURE raise_salary (emp_id INTEGER, increase REAL) IS current_salary REAL; ... BEGIN SELECT sal INTO current_salary FROM emp WHERE empno = emp_id; ... UPDATE emp SET sal = sal + increase WHERE empno = emp_id; END raise_salary;
A good programming practice is to use different names for actual and formal parameters.
When you call procedure
raise_salary, the actual parameters are evaluated and the result values are assigned to the corresponding formal parameters. Before assigning the value of an actual parameter to a formal parameter, PL/SQL converts the datatype of the value if necessary. For example, the following call to
raise_salary is legal:
The actual parameter and its corresponding formal parameter must have compatible datatypes. For instance, PL/SQL cannot convert between the
REAL datatypes. Also, the result value must be convertible to the new datatype. The following procedure call raises the predefined exception
VALUE_ERROR because PL/SQL cannot convert the second actual parameter to a number:
Stiletto High Pointed Women's Party Dress Strappy Pu Onlymaker Heels Wedding Strap Ladies Ankle Pumps Toe Shoes Crisscross Black C01XR5wqraise_salary(emp_num, '$2500'); -- note the dollar sign
For more information, see "Datatype Conversion".
When calling a subprogram, you can write the actual parameters using either positional or named notation. That is, you can indicate the association between an actual and formal parameter by position or name. For example, given the declarations
DECLARE acct INTEGER; amt REAL; Women's Dress Black Klein Pump Leather Guardian Sport Anne 7wEq1xvB PROCEDURE credit_acct (acct_no INTEGER, amount REAL) IS ...
you can call the procedure
credit_acct in four logically equivalent ways:
BEGIN credit_acct(acct, amt); -- positional notation credit_acct(amount => amt, acct_no => acct); -- named notation credit_acct(acct_no => acct, amount => amt); -- named notation credit_acct(acct, amount => amt); -- mixed notation
The first procedure call uses positional notation. The PL/SQL compiler associates the first actual parameter,
acct, with the first formal parameter,
acct_no. And, the compiler associates the second actual parameter,
Pump Blue Lop Dream Royal Women's Pairs amt, with the second formal parameter,
The second procedure call uses named notation. An arrow (
=>) serves as the association operator, which associates the formal parameter to the left of the arrow with the actual parameter to the right of the arrow.
The third procedure call also uses named notation and shows that you can list the parameter pairs in any order. Therefore, you need not know the order in which the formal parameters are listed.
The fourth procedure call shows that you can mix positional and named notation. In this case, the first parameter uses positional notation, and the second parameter uses named notation. Positional notation must precede named notation. The reverse is not allowed. For example, the following procedure call is illegal:
You use parameter modes to define the behavior of formal parameters. The three parameter modes,
IN (the default),
OUTWomen's Soft Flats Orange Leather Casual Comfort Slip Bottom Loafers On Boat Mules Shoes Split Sukeq qTxd4q, and
OUT, can be used with any subprogram. However, avoid using the
OUT modes with functions. The purpose of a function is to take zero or more arguments (actual parameters) and return a single value. To have a function return multiple values is a poor programming practice. Also, functions should be free from side effects, which change the values of variables not local to the subprogram.
IN parameter lets you pass values to the subprogram being called. Inside the subprogram, an
IN parameter acts like a constant. Therefore, it cannot be assigned a value. For example, the following assignment statement causes a compilation error:
PROCEDURE debit_account (acct_id IN INTEGER, amount IN REAL) IS minimum_purchase CONSTANT REAL := 10.0; service_charge CONSTANT REAL := 0.50; BEGIN ... IF amount < minimum_purchase THEN amount := amount + service_charge; -- causes syntax error END IF;
The actual parameter that corresponds to an
IN formal parameter can be a constant, literal, initialized variable, or expression. Unlike
IN parameters can be initialized to default values. For more information, see "Parameter Default Values".
OUT parameter lets you return values to the caller of a subprogram. Inside the subprogram, an
OUT parameter acts like an uninitialized variable. Therefore, its value cannot be assigned to another variable or reassigned to itself. For instance, the following assignment statement causes a compilation error:
PROCEDURE calc_bonus (emp_id IN INTEGER, bonus OUT REAL) IS hire_date DATE; Rhode Womens Steve Madden white Black PwUYEqBEGIN SELECT sal * 0.10, hiredate INTO bonus, hire_date FROM emp WHERE empno = emp_id; IF MONTHS_BETWEEN(SYSDATE, hire_date) > 60 THEN bonus := bonus + 500; -- causes syntax error END IF; Rose Brown Shoe Jane Mary Women's Croc Drew EqwSg0g
The actual parameter that corresponds to an
OUT formal parameter must be a variable; it cannot be a constant or an expression. For example, the following procedure call is illegal:
OUT actual parameter can have a value before the subprogram is called. However, the value is lost when you call the subprogram. Inside the subprogram, an
OUT formal parameter cannot be used in an expression; the only operation allowed on the parameter is to assign it a value.
OUT formal parameters are initialized to
NULL. So, before exiting a subprogram, explicitly assign values to all
OUT formal parameters. Otherwise, the corresponding actual parameters will be null. If you exit successfully, PL/SQL assigns values to the actual parameters. However, if you exit with an unhandled exception, PL/SQL does not assign values to the actual parameters.
OUT parameter lets you pass initial values to the subprogram being called and return updated values to the caller. Inside the subprogram, an
OUT parameter acts like an initialized variable. Therefore, it can be assigned a value and its value can be assigned to another variable. That means you can use an
OUT formal parameter as if it were a normal variable. You can change its value or reference the value in any way, as the following example shows:
PROCEDURE calc_bonus (emp_id IN INTEGER, bonus IN OUT REAL) IS hire_date DATE; bonus_missing EXCEPTION; BEGIN SELECT sal * 0.10, hiredate INTO bonus, hire_date FROM emp WHERE empno = emp_id; IF bonus IS NULL THEN RAISE bonus_missing; END IF; IF MONTHS_BETWEEN(SYSDATE, hire_date) > 60 THEN bonus := bonus + 500; END IF; ... EXCEPTION WHEN bonus_missing THEN ... END calc_bonus; Women's Dansko Slide Sandal Sophie Blue Metallic Shimmer drBAB
The actual parameter that corresponds to an
OUT formal parameter must be a variable; it cannot be a constant or an expression. Table 7-1 summarizes all you need to know about the parameter modes.
the defaultNina Emiko Women's Pump Ivory Dress Pg7Pqa
must be specified
must be specified
passes values to a subprogram
Dream Pairs Lop Pump Women's Royal Blue returns values to the caller
passes initial values to a subprogram and returns updated values to the caller
formal parameter acts like a constant
formal parameter acts like an uninitialized variable
formal parameter acts like an initialized variable
formal parameter cannot be assigned a value
formal parameter cannot be used in an expression and must be assigned a value
formal parameter should be assigned a value
actual parameter can be a constant, initialized variable, literal, or expression
actual parameter must be a variable
actual parameter must be a variable
actual parameter is passed by reference (a pointer to the value is passed in)
actual parameter is passed by value (a copy of the value is passed out)
actual parameter is passed by value (a copy of the value is passed in and out)
As the example below shows, you can initialize
IN parameters to default values. That way, you can pass different numbers of actual parameters to a subprogram, accepting or overriding the default values as you please. Moreover, you can add new formal parameters without having to change every call to the subprogram.
PROCEDURE create_dept ( new_dname CHAR DEFAULT 'TEMP', new_loc CHAR DEFAULT 'TEMP') IS BEGIN INSERT INTO dept VALUES (deptno_seq.NEXTVAL, new_dname, new_loc);
If an actual parameter is not passed, the default value of its corresponding formal parameter is used. Consider the following calls to
create_dept; create_dept('MARKETING'); create_dept('MARKETING', 'NEW YORK'); Dress Aravon Strtch Pump Women's Asym Black Kitt 1tPw7rqt
The first call passes no actual parameters, so both default values are used. The second call passes one actual parameter, so the default value for
new_loc is used. The third call passes two actual parameters, so neither default value is used.
Usually, you can use positional notation to override the default values of formal parameters. However, you cannot skip a formal parameter by leaving out its actual parameter. For example, the following call incorrectly associates the actual parameter
'NEW YORK' with the formal parameter
You cannot solve the problem by leaving a placeholder for the actual parameter. For example, the following call is illegal:
In such cases, you must use named notation, as follows:
Also, you cannot assign a null to an uninitialized formal parameter by leaving out its actual parameter. For example, given the declaration
DECLARE FUNCTION gross_pay (emp_id IN NUMBER, st_hours IN NUMBER DEFAULT 40, ot_hours IN NUMBER) RETURN REAL IS
the following function call does not assign a null to
Pump Charcoal Wedge Women's Suede Cl By Laundry Chinese snake Brinley wY0YaqIF gross_pay(emp_num) > max_pay THEN ... -- illegal
Instead, you must pass the null explicitly, as in
or you can initialize
NULL, as follows:
Finally, when creating a stored subprogram, you cannot use bind variables in the
DEFAULT clause. The following SQL*Plus example raises a bad bind variable exception because at the time of creation,
num is just a placeholder whose value might change:
To optimize a subprogram call, the PL/SQL compiler can choose between two methods of parameter passing. With the by-value method, the value of an actual parameter is passed to the subprogram. With the by-reference method, only a pointer to the value is passed, in which case the actual and formal parameters reference the same item.
Passing large composite types by value is inefficient. So, in most cases-but never across client/server boundaries-PL/SQL passes composite types by reference, which saves time.
The easy-to-avoid problem of aliasing occurs when a global variable appears as an actual parameter in a subprogram call and then is referenced within the subprogram. The result is indeterminate because it depends on the method of parameter passing chosen by the compiler. In the example below, procedure
add_entry refers to varray
lexicon in two different ways: as a parameter and as a global variable. So, when
add_entry is called, the identifiers
lexicon name the same varray.
DECLARE TYPE Definition IS RECORD ( word VARCHAR2(20), meaning VARCHAR2(200)); TYPE Dictionary IS VARRAY(2000) OF Definition; Running Glacier Slingride Overcast Tri Armour black Grey Gray marlin Under Blue Shoe Speedform Women's nCwXCWq8 lexicon Dictionary := Dictionary(); PROCEDURE add_entry (word_list IN OUT Dictionary) IS BEGIN /* At this point, if the varray was passed by reference, it has two names. Hence, the term 'aliasing'. */ word_list(1).word := 'aardvark'; lexicon(1).word := 'aardwolf'; END; BEGIN lexicon.EXTEND; add_entry(lexicon); DBMS_OUTPUT.PUT_LINE(lexicon(1).word); -- prints 'aardvark' if parameter was passed by value -- prints 'aardwolf' if parameter was passed by reference END;
The result depends on the method of parameter passing chosen by the compiler. If the compiler chooses the by-value method,
lexicon are separate copies of the same varray. So, changing one does not affect the other. But, if the compiler chooses the by-reference method,
lexicon are just different names for the same varray. So, changing the value of
lexicon(1) also changes the value of
PL/SQL lets you overload subprogram names. That is, you can use the same name for several different subprograms as long as their formal parameters differ in number, order, or datatype family.
Suppose you want to initialize the first n rows in two index-by tables that were declared as follows:
DECLARE TYPE DateTabTyp IS TABLE OF DATE INDEX BY BINARY_INTEGER; TYPE RealTabTyp IS TABLE OF REAL INDEX BY BINARY_INTEGER; hiredate_tab DateTabTyp; sal_tab RealTabTyp;
You might write the following procedure to initialize the index-by table named
PROCEDURE initialize (tab OUT DateTabTyp, n INTEGER) IS BEGIN FOR i IN 1..n LOOP tab(i) := SYSDATE; END LOOP; END initialize;
And, you might write the next procedure to initialize the index-by table named
PROCEDURE initialize (tab OUT RealTabTyp, n INTEGER) IS BEGIN FOR i IN 1..n LOOP tab(i) := 0.0; END LOOP; END initialize;
Because the processing in these two procedures is the same, it is logical to give them the same name.
You can place the two overloaded
initialize procedures in the same block, subprogram, or package. PL/SQL determines which of the two procedures is being called by checking their formal parameters.
Consider the example below. If you call
initialize with a
DateTabTyp parameter, PL/SQL uses the first version of
initialize. But, if you call
initialize with a
RealTabTyp parameter, PL/SQL uses the second version.
DECLARE TYPE DateTabTyp IS TABLE OF DATE INDEX BY BINARY_INTEGER; TYPE RealTabTyp IS TABLE OF REAL INDEX BY BINARY_INTEGER; hiredate_tab DateTabTyp; comm_tab RealTabTyp; indx BINARY_INTEGER; ... BEGIN indx := 50; initialize(hiredate_tab, indx); -- calls first version initialize(comm_tab, indx); -- calls second version ... END;
Only local or packaged subprograms can be overloaded. Therefore, you cannot overload stand-alone subprograms. Also, you cannot overload two subprograms if their formal parameters differ only in name or parameter mode. For example, you cannot overload the following two procedures:
PROCEDURE reconcile (acct_no IN INTEGER) IS BEGIN ... END; PROCEDURE reconcile (acct_no OUT INTEGER) IS Nine Leather Womens Natural West Kimery rx71SgrBEGIN ... END;
Furthermore, you cannot overload two subprograms if their formal parameters differ only in datatype and the different datatypes are in the same family. For instance, you cannot overload the following procedures because the datatypes
REAL are in the same family:
PROCEDURE charge_back (amount INTEGER) IS BEGIN ... END; PROCEDURE charge_back (amount REAL) IS BEGIN ... END;
Likewise, you cannot overload two subprograms if their formal parameters differ only in subtype and the different subtypes are based on types in the same family. For example, you cannot overload the following procedures because the base types
LONG are in the same family:
DECLARE Women's Leather Clog Footwear Priscilla Imperial Klogs Hqvzw5x SUBTYPE Delimiter IS CHAR; SUBTYPE Text IS LONG; ... PROCEDURE scan (x Delimiter) IS BEGIN ... END; PROCEDURE scan (x Text) IS BEGIN ... END;
Finally, you cannot overload two functions that differ only in return type (the datatype of the result value) even if the types are in different families. For example, you cannot overload the following functions:
FUNCTION acct_ok (acct_id INTEGER) RETURN BOOLEAN IS BEGIN ... END; FUNCTION acct_ok (acct_id INTEGER) RETURN INTEGER IS BEGIN ... END;
Figure 7-1 shows how the PL/SQL compiler resolves subprogram calls. When the compiler encounters a procedure or function call, it tries to find a declaration that matches the call. The compiler searches first in the current scope and then, if necessary, in successive enclosing scopes. The compiler stops searching if it finds one or more subprogram declarations in which the subprogram name matches the name of the called subprogram.
To resolve a call among possibly like-named subprograms at the same level of scope, the compiler must find an exact match between the actual and formal parameters. That is, they must match in number, order, and datatype (unless some formal parameters were assigned default values). If no match is found or if multiple matches are found, the compiler generates a syntax error.
In the following example, you call the enclosing procedure
swap from within the function
valid. However, the compiler generates an error because neither declaration of
swap within the current scope matches the procedure call:
PROCEDURE swap (d1 DATE, d2 DATE) IS date1 DATE; date2 DATE; FUNCTION valid (d DATE) RETURN BOOLEAN IS PROCEDURE swap (n1 INTEGER, n2 INTEGER) IS BEGIN ... END swap; PROCEDURE swap (n1 REAL, n2 REAL) IS BEGIN ... END swap; BEGIN ... swap(date1, date2); END valid; BEGIN ...
Figure 7-1 How the PL/SQL Compiler Resolves Calls
PL/SQL declares built-in functions globally in package
STANDARD. Redeclaring them locally is error prone because your local declaration overrides the global declaration. Consider the following example, in which you declare a function named
sign, then within the scope of that declaration, try to call the built-in function
DECLARE x NUMBER; ... BEGIN DECLARE FUNCTION sign (n NUMBER) RETURN NUMBER IS BEGIN IF n < 0 THEN RETURN -1; ELSE RETURN 1; END IF; END; BEGIN ... x := SIGN(0); -- assigns 1 to x END; ... x := SIGN(0); -- assigns 0 to x END;
Inside the sub-block, PL/SQL uses your function definition, not the built-in definition. To call the built-in function from inside the sub-block, you must use dot notation, as follows:
Recursion is a powerful technique for simplifying the design of algorithms. Basically, recursion means self-reference. In a recursive mathematical sequence, each term is derived by applying a formula to preceding terms. The Fibonacci sequence (1, 1, 2, 3, 5, 8, 13, 21, ...), which was first used to model the growth of a rabbit colony, is an example. Each term in the sequence (after the second) is the sum of the two terms that immediately precede it.
In a recursive definition, something is defined in terms of simpler versions of itself. Consider the definition of n factorial (n!), the product of all integers from 1 to n:
A recursive subprogram is one that calls itself. Think of a recursive call as a call to some other subprogram that does the same task as your subprogram. Each recursive call creates a new instance of any items declared in the subprogram, including parameters, variables, cursors, and exceptions. Likewise, new instances of SQL statements are created at each level in the recursive descent.
Be careful where you place a recursive call. If you place it inside a cursor
FOR loop or between
CLOSE statements, another cursor is opened at each call. As a result, your program might exceed the limit set by the Oracle initialization parameter
There must be at least two paths through a recursive subprogram: one that leads to the recursive call and one that does not. That is, at least one path must lead to a terminating condition. Otherwise, the recursion would (theoretically) go on forever. In practice, if a recursive subprogram strays into infinite regress, PL/SQL eventually runs out of memory and raises
To solve some programming problems, you must repeat a sequence of statements until a condition is met. You can use iteration or recursion to solve such problems. Use recursion when the problem can be broken down into simpler versions of itself. For example, you can evaluate 3! as follows:
To implement this algorithm, you might write the following recursive function, which returns the factorial of a positive integer:
FUNCTION fac (n POSITIVE) RETURN INTEGER IS -- returns n! BEGIN IF n = 1 THEN -- terminating condition RETURN 1; ELSE RETURN n * fac(n - 1); -- recursive call END IF; END fac;
At each recursive call,
n is decremented. Eventually,
n becomes 1 and the recursion stops.
Consider the procedure below, which finds the staff of a given manager. The procedure declares two formal parameters,
tier, which represent the manager's employee number and a tier in his or her departmental organization. Staff members reporting directly to the manager occupy the first tier. When called, the procedure accepts a value for
mgr_no but uses the default value of
tier. For example, you might call the procedure as follows:
The procedure passes
mgr_no to a cursor in a cursor
FOR loop, which finds staff members at successively lower tiers in the organization. At each recursive call, a new instance of the
FOR loop is created and another cursor is opened, but prior cursors stay positioned on the next row in their result sets. When a fetch fails to return a row, the cursor is closed automatically and the
FOR loop is exited. Since the recursive call is inside the
FOR loop, the recursion stops.
PROCEDURE find_staff (mgr_no NUMBER, tier NUMBER := 1) IS boss_name CHAR(10); CURSOR c1 (boss_no NUMBER) IS SELECT empno, ename FROM emp WHERE mgr = boss_no; BEGIN /* Get manager's name. */ SELECT ename INTO boss_name FROM emp WHERE empno = mgr_no; IF tier = 1 THEN INSERT INTO staff -- single-column output table VALUES (boss_name || ' manages the staff'); END IF; /* Find staff members who report directly to manager. */ FOR ee IN c1 (mgr_no) LOOP INSERT INTO staff VALUES (boss_name || ' manages ' || ee.ename || ' on tier ' || to_char(tier)); /* Drop to next tier in organization. */ find_staff(ee.empno, tier + 1); -- recursive call END LOOP; COMMIT; END;
Unlike the initial call, each recursive call passes a second actual parameter (the next tier) to the procedure.
The last example illustrates recursion, not the efficient use of set-oriented SQL statements. You might want to compare the performance of the recursive procedure to that of the following SQL statement, which does the same task:
INSERT INTO staff SELECT PRIOR ename || ' manages ' || ename || ' on tier ' || to_char(LEVEL - 1) FROM emp START WITH empno = 7839 CONNECT BY PRIOR empno = mgr;
The SQL statement is appreciably faster. However, the procedure is more flexible. For example, a multi-table query cannot contain the
BY clause. So, unlike the procedure, the SQL statement cannot be modified to do joins. (A join combines rows from two or more database tables.) In addition, a procedure can process data in ways that a single SQL statement cannot.
Subprograms are mutually recursive if they directly or indirectly call each other. In the example below, the Boolean functions
even, which determine whether a number is odd or even, call each other directly. The forward declaration of
odd is necessary because
odd, which is not yet declared when the call is made. (See "Forward Declarations".)
FUNCTION odd (n NATURAL) RETURN BOOLEAN; -- forward declaration Flat Jbu Jambu Women's Mary Encore Jane Charcoal Wildflower By 1x1a0gzFUNCTION even (n NATURAL) RETURN BOOLEAN IS BEGIN IF n = 0 THEN RETURN TRUE; ELSE RETURN odd(n - 1); -- mutually recursive call END IF; END even; FUNCTION odd (n NATURAL) RETURN BOOLEAN IS BEGIN IF n = 0 THEN RETURN FALSE; ELSE RETURN even(n - 1); -- mutually recursive call END IF; Leather Cobb Flat Almond Hill Women's Zip Penfield Y1YrwIEND odd;Mia Women's Mia Anja Mule Natural Women's 75aqawR
When a positive integer
n is passed to
even, the functions call each other by turns. At each call,
n is decremented. Ultimately,
n becomes zero and the final call returns
FALSE. For instance, passing the number 4 to
odd results in this sequence of calls:
On the other hand, passing the number 4 to
Royal Women's Pairs Blue Dream Pump Lop even results in the following sequence of calls:
Unlike iteration, recursion is not essential to PL/SQL programming. Any problem that can be solved using recursion can be solved using iteration. Also, the iterative version of a subprogram is usually easier to design than the recursive version. However, the recursive version is usually simpler, smaller, and therefore easier to debug. Compare the following functions, which compute the nth Fibonacci number:
-- recursive version FUNCTION fib (n POSITIVE) RETURN INTEGER IS BEGIN IF (n = 1) OR (n = 2) THEN RETURN 1; ELSE RETURN fib(n - 1) + fib(n - 2); Fashion Women's Feversole �� Grey Toe Bow Ballet Flat Liz Round Oq5FqxnT END IF; END fib; -- iterative version FUNCTION fib (n POSITIVE) RETURN INTEGER IS pos1 INTEGER := 1; pos2 INTEGER := 0; cum INTEGER; BEGIN IF (n = 1) OR (n = 2) THEN RETURN 1; ELSE cum := pos1 + pos2; FOR i IN 3..n LOOP pos2 := pos1; pos1 := cum; cum := pos1 + pos2; END LOOP; Leather Dress Wedding Fashion Patent 2018 Collection Spring Fall Oxford 1 Derby Shoes Men Formal For Leisure White 6xXSx8Rnw RETURN cum; END IF; END fib;
The recursive version of
fib is more elegant than the iterative version. However, the iterative version is more efficient; it runs faster and uses less storage. That is because each recursive call requires additional time and memory. As the number of recursive calls gets larger, so does the difference in efficiency. Still, if you expect the number of recursive calls to be small, you might choose the recursive version for its readability.