PL/SQL has three categories of control statements:
Conditional selection statements, which run different statements for different data values.
The conditional selection statements are IF
and and CASE
.
Loop statements, which run the same statements with a series of different data values.
The loop statements are the basic LOOP
, FOR
LOOP
, and WHILE
LOOP
.
The EXIT
statement transfers control to the end of a loop. The CONTINUE
statement exits the current iteration of a loop and transfers control to the next iteration. Both EXIT
and CONTINUE
have an optional WHEN
clause, where you can specify a condition.
Sequential control statements, which are not crucial to PL/SQL programming.
The sequential control statements are GOTO
, which goes to a specified statement, and NULL
, which does nothing.
The conditional selection statements, IF
and CASE
, run different statements for different data values.
The IF
statement either runs or skips a sequence of one or more statements, depending on a condition. The IF
statement has these forms:
IF
THEN
IF
THEN
ELSE
IF
THEN
ELSIF
The CASE
statement chooses from a sequence of conditions, and runs the corresponding statement. The CASE
statement has these forms:
Simple, which evaluates a single expression and compares it to several potential values.
Searched, which evaluates multiple conditions and chooses the first one that is true.
The CASE
statement is appropriate when a different action is to be taken for each alternative.
The IF
THEN
statement has this structure:
IF condition THEN statements END IF;
If the condition
is true, the statements
run; otherwise, the IF
statement does nothing. (For complete syntax, see "IF Statement".)
In Example 4-1, the statements between THEN
and END
IF
run if and only if the value of sales
is greater than quota
+200.
DECLARE PROCEDURE p ( sales NUMBER, quota NUMBER, emp_id NUMBER ) IS bonus NUMBER := 0; updated VARCHAR2(3) := 'No'; BEGIN IF sales > (quota + 200) THEN bonus := (sales - quota)/4; UPDATE employees SET salary = salary + bonus WHERE employee_id = emp_id; updated := 'Yes'; END IF; DBMS_OUTPUT.PUT_LINE ( 'Table updated? ' || updated || ', ' || 'bonus = ' || bonus || '.' ); END p; BEGIN p(10100, 10000, 120); p(10500, 10000, 121); END; /
Result:
Table updated? No, bonus = 0. Table updated? Yes, bonus = 125.
Tip:
Avoid clumsyIF
statements such as:
IF new_balance < minimum_balance THEN overdrawn := TRUE; ELSE overdrawn := FALSE; END IF;
Instead, assign the value of the BOOLEAN
expression directly to a BOOLEAN
variable:
overdrawn := new_balance < minimum_balance;
A BOOLEAN
variable is either TRUE
, FALSE
, or NULL
. Do not write:
IF overdrawn = TRUE THEN RAISE insufficient_funds; END IF;
Instead, write:
IF overdrawn THEN RAISE insufficient_funds; END IF;
The IF
THEN
ELSE
statement has this structure:
IF condition THEN statements ELSE else_statements END IF;
If the value of condition
is true, the statements
run; otherwise, the else_statements
run. (For complete syntax, see "IF Statement".)
In Example 4-2, the statement between THEN
and ELSE
runs if and only if the value of sales
is greater than quota
+200; otherwise, the statement between ELSE
and END
IF
runs.
Example 4-2 IF THEN ELSE Statement
DECLARE PROCEDURE p ( sales NUMBER, quota NUMBER, emp_id NUMBER ) IS bonus NUMBER := 0; BEGIN IF sales > (quota + 200) THEN bonus := (sales - quota)/4; ELSE bonus := 50; END IF; DBMS_OUTPUT.PUT_LINE('bonus = ' || bonus); UPDATE employees SET salary = salary + bonus WHERE employee_id = emp_id; END p; BEGIN p(10100, 10000, 120); p(10500, 10000, 121); END; /
Result:
bonus = 50 bonus = 125
IF
statements can be nested, as in Example 4-3.
Example 4-3 Nested IF THEN ELSE Statements
DECLARE PROCEDURE p ( sales NUMBER, quota NUMBER, emp_id NUMBER ) IS bonus NUMBER := 0; BEGIN IF sales > (quota + 200) THEN bonus := (sales - quota)/4; ELSE IF sales > quota THEN bonus := 50; ELSE bonus := 0; END IF; END IF; DBMS_OUTPUT.PUT_LINE('bonus = ' || bonus); UPDATE employees SET salary = salary + bonus WHERE employee_id = emp_id; END p; BEGIN p(10100, 10000, 120); p(10500, 10000, 121); p(9500, 10000, 122); END; /
Result:
bonus = 50 bonus = 125 bonus = 0
The IF
THEN
ELSIF
statement has this structure:
IF condition_1 THEN statements_1 ELSIF condition_2 THEN statements_2 [ ELSIF condition_3 THEN statements_3 ]... [ ELSE else_statements ] END IF;
The IF
THEN
ELSIF
statement runs the first statements
for which condition
is true. Remaining conditions are not evaluated. If no condition
is true, the else_statements
run, if they exist; otherwise, the IF
THEN
ELSIF
statement does nothing. (For complete syntax, see "IF Statement".)
In Example 4-4, when the value of sales
is larger than 50000, both the first and second conditions are true. However, because the first condition is true, bonus
is assigned the value 1500, and the second condition is never tested. After bonus
is assigned the value 1500, control passes to the DBMS_OUTPUT
.PUT_LINE
invocation.
Example 4-4 IF THEN ELSIF Statement
DECLARE PROCEDURE p (sales NUMBER) IS bonus NUMBER := 0; BEGIN IF sales > 50000 THEN bonus := 1500; ELSIF sales > 35000 THEN bonus := 500; ELSE bonus := 100; END IF; DBMS_OUTPUT.PUT_LINE ( 'Sales = ' || sales || ', bonus = ' || bonus || '.' ); END p; BEGIN p(55000); p(40000); p(30000); END; /
Result:
Sales = 55000, bonus = 1500. Sales = 40000, bonus = 500. Sales = 30000, bonus = 100.
A single IF
THEN
ELSIF
statement is easier to understand than a logically equivalent nested IF
THEN
ELSE
statement:
-- IF THEN ELSIF statement IF condition_1 THEN statements_1; ELSIF condition_2 THEN statements_2; ELSIF condition_3 THEN statement_3; END IF; -- Logically equivalent nested IF THEN ELSE statements IF condition_1 THEN statements_1; ELSE IF condition_2 THEN statements_2; ELSE IF condition_3 THEN statements_3; END IF; END IF; END IF;
Example 4-5 uses an IF
THEN
ELSIF
statement with many ELSIF
clauses to compare a single value to many possible values. For this purpose, a simple CASE
statement is clearer—see Example 4-6.
Example 4-5 IF THEN ELSIF Statement Simulates Simple CASE Statement
DECLARE grade CHAR(1); BEGIN grade := 'B'; IF grade = 'A' THEN DBMS_OUTPUT.PUT_LINE('Excellent'); ELSIF grade = 'B' THEN DBMS_OUTPUT.PUT_LINE('Very Good'); ELSIF grade = 'C' THEN DBMS_OUTPUT.PUT_LINE('Good'); ELSIF grade = 'D' THEN DBMS_OUTPUT. PUT_LINE('Fair'); ELSIF grade = 'F' THEN DBMS_OUTPUT.PUT_LINE('Poor'); ELSE DBMS_OUTPUT.PUT_LINE('No such grade'); END IF; END; /
Result:
Very Good
The simple CASE
statement has this structure:
CASE selector WHEN selector_value_1 THEN statements_1 WHEN selector_value_2 THEN statements_2 ... WHEN selector_value_n THEN statements_n [ ELSE else_statements ] END CASE;]
The selector
is an expression (typically a single variable). Each selector_value
can be either a literal or an expression. (For complete syntax, see "CASE Statement".)
The simple CASE
statement runs the first statements
for which selector_value
equals selector
. Remaining conditions are not evaluated. If no selector_value
equals selector
, the CASE
statement runs else_statements
if they exist and raises the predefined exception CASE_NOT_FOUND
otherwise.
Example 4-6 uses a simple CASE
statement to compare a single value to many possible values. The CASE
statement in Example 4-6 is logically equivalent to the IF
THEN
ELSIF
statement in Example 4-5.
Example 4-6 Simple CASE Statement
DECLARE grade CHAR(1); BEGIN grade := 'B'; CASE grade WHEN 'A' THEN DBMS_OUTPUT.PUT_LINE('Excellent'); WHEN 'B' THEN DBMS_OUTPUT.PUT_LINE('Very Good'); WHEN 'C' THEN DBMS_OUTPUT.PUT_LINE('Good'); WHEN 'D' THEN DBMS_OUTPUT.PUT_LINE('Fair'); WHEN 'F' THEN DBMS_OUTPUT.PUT_LINE('Poor'); ELSE DBMS_OUTPUT.PUT_LINE('No such grade'); END CASE; END; /
Result:
Very Good
Note:
As in a simpleCASE
expression, if the selector in a simple CASE
statement has the value NULL
, it cannot be matched by WHEN
NULL
(see Example 2-51, "Simple CASE Expression with WHEN NULL"). Instead, use a searched CASE
statement with WHEN
condition
IS
NULL
(see Example 2-53, "Searched CASE Expression with WHEN ... IS NULL").The searched CASE
statement has this structure:
CASE WHEN condition_1 THEN statements_1 WHEN condition_2 THEN statements_2 ... WHEN condition_n THEN statements_n [ ELSE else_statements ] END CASE;]
The searched CASE
statement runs the first statements
for which condition
is true. Remaining conditions are not evaluated. If no condition
is true, the CASE
statement runs else_statements
if they exist and raises the predefined exception CASE_NOT_FOUND
otherwise. (For complete syntax, see "CASE Statement".)
The searched CASE
statement in Example 4-7 is logically equivalent to the simple CASE
statement in Example 4-6.
Example 4-7 Searched CASE Statement
DECLARE grade CHAR(1); BEGIN grade := 'B'; CASE WHEN grade = 'A' THEN DBMS_OUTPUT.PUT_LINE('Excellent'); WHEN grade = 'B' THEN DBMS_OUTPUT.PUT_LINE('Very Good'); WHEN grade = 'C' THEN DBMS_OUTPUT.PUT_LINE('Good'); WHEN grade = 'D' THEN DBMS_OUTPUT.PUT_LINE('Fair'); WHEN grade = 'F' THEN DBMS_OUTPUT.PUT_LINE('Poor'); ELSE DBMS_OUTPUT.PUT_LINE('No such grade'); END CASE; END; /
Result:
Very Good
In both Example 4-7 and Example 4-6, the ELSE
clause can be replaced by an EXCEPTION
part. Example 4-8 is logically equivalent to Example 4-7.
Example 4-8 EXCEPTION Instead of ELSE Clause in CASE Statement
DECLARE grade CHAR(1); BEGIN grade := 'B'; CASE WHEN grade = 'A' THEN DBMS_OUTPUT.PUT_LINE('Excellent'); WHEN grade = 'B' THEN DBMS_OUTPUT.PUT_LINE('Very Good'); WHEN grade = 'C' THEN DBMS_OUTPUT.PUT_LINE('Good'); WHEN grade = 'D' THEN DBMS_OUTPUT.PUT_LINE('Fair'); WHEN grade = 'F' THEN DBMS_OUTPUT.PUT_LINE('Poor'); END CASE; EXCEPTION WHEN CASE_NOT_FOUND THEN DBMS_OUTPUT.PUT_LINE('No such grade'); END; /
Result:
Very Good
Loop statements run the same statements with a series of different values. The loop statements are:
Basic LOOP
FOR
LOOP
Cursor FOR
LOOP
WHILE
LOOP
The statements that exit a loop are:
EXIT
EXIT
WHEN
The statements that exit the current iteration of a loop are:
CONTINUE
CONTINUE
WHEN
EXIT
, EXIT
WHEN
, CONTINUE
, and CONTINUE
WHEN
and can appear anywhere inside a loop, but not outside a loop. Oracle recommends using these statements instead of the "GOTO Statement", which can exit a loop or the current iteration of a loop by transferring control to a statement outside the loop. (A raised exception also exits a loop. For information about exceptions, see "Overview of Exception Handling".)
LOOP
statements can be labeled, and LOOP
statements can be nested. Labels are recommended for nested loops to improve readability. You must ensure that the label in the END
LOOP
statement matches the label at the beginning of the same loop statement (the compiler does not check).
For information about the cursor FOR
LOOP
, see "Query Result Set Processing With Cursor FOR LOOP Statements".
The basic LOOP
statement has this structure:
[ label ] LOOP statements END LOOP [ label ];
With each iteration of the loop, the statements
run and control returns to the top of the loop. To prevent an infinite loop, a statement or raised exception must exit the loop.
See Also:
"Basic LOOP Statement"The EXIT
statement exits the current iteration of a loop unconditionally and transfers control to the end of either the current loop or an enclosing labeled loop.
In Example 4-9, the EXIT
statement inside the basic LOOP
statement transfers control unconditionally to the end of the current loop.
Example 4-9 Basic LOOP Statement with EXIT Statement
DECLARE x NUMBER := 0; BEGIN LOOP DBMS_OUTPUT.PUT_LINE ('Inside loop: x = ' || TO_CHAR(x)); x := x + 1; IF x > 3 THEN EXIT; END IF; END LOOP; -- After EXIT, control resumes here DBMS_OUTPUT.PUT_LINE(' After loop: x = ' || TO_CHAR(x)); END; /
Result:
Inside loop: x = 0 Inside loop: x = 1 Inside loop: x = 2 Inside loop: x = 3 After loop: x = 4
See Also:
"EXIT Statement"The EXIT
WHEN
statement exits the current iteration of a loop when the condition in its WHEN
clause is true, and transfers control to the end of either the current loop or an enclosing labeled loop.
Each time control reaches the EXIT
WHEN
statement, the condition in its WHEN
clause is evaluated. If the condition is not true, the EXIT
WHEN
statement does nothing. To prevent an infinite loop, a statement inside the loop must make the condition true, as in Example 4-10.
In Example 4-10, the EXIT
WHEN
statement inside the basic LOOP
statement transfers control to the end of the current loop when x
is greater than 3. Example 4-10 is logically equivalent to Example 4-9.
Example 4-10 Basic LOOP Statement with EXIT WHEN Statement
DECLARE x NUMBER := 0; BEGIN LOOP DBMS_OUTPUT.PUT_LINE('Inside loop: x = ' || TO_CHAR(x)); x := x + 1; -- prevents infinite loop EXIT WHEN x > 3; END LOOP; -- After EXIT statement, control resumes here DBMS_OUTPUT.PUT_LINE('After loop: x = ' || TO_CHAR(x)); END; /
Result:
Inside loop: x = 0 Inside loop: x = 1 Inside loop: x = 2 Inside loop: x = 3 After loop: x = 4
See Also:
"EXIT Statement"In Example 4-11, one basic LOOP
statement is nested inside the other, and both have labels. The inner loop has two EXIT
WHEN
statements; one that exits the inner loop and one that exits the outer loop.
Example 4-11 Nested, Labeled Basic LOOP Statements with EXIT WHEN Statements
DECLARE s PLS_INTEGER := 0; i PLS_INTEGER := 0; j PLS_INTEGER; BEGIN <<outer_loop>> LOOP i := i + 1; j := 0; <<inner_loop>> LOOP j := j + 1; s := s + i * j; -- Sum several products EXIT inner_loop WHEN (j > 5); EXIT outer_loop WHEN ((i * j) > 15); END LOOP inner_loop; END LOOP outer_loop; DBMS_OUTPUT.PUT_LINE ('The sum of products equals: ' || TO_CHAR(s)); END; /
Result:
The sum of products equals: 166
An EXIT
WHEN
statement in an inner loop can transfer control to an outer loop only if the outer loop is labeled.
In Example 4-12, the outer loop is not labeled; therefore, the inner loop cannot transfer control to it.
Example 4-12 Nested, Unabeled Basic LOOP Statements with EXIT WHEN Statements
DECLARE i PLS_INTEGER := 0; j PLS_INTEGER := 0; BEGIN LOOP i := i + 1; DBMS_OUTPUT.PUT_LINE ('i = ' || i); LOOP j := j + 1; DBMS_OUTPUT.PUT_LINE ('j = ' || j); EXIT WHEN (j > 3); END LOOP; DBMS_OUTPUT.PUT_LINE ('Exited inner loop'); EXIT WHEN (i > 2); END LOOP; DBMS_OUTPUT.PUT_LINE ('Exited outer loop'); END; /
Result:
i = 1 j = 1 j = 2 j = 3 j = 4 Exited inner loop i = 2 j = 5 Exited inner loop i = 3 j = 6 Exited inner loop Exited outer loop PL/SQL procedure successfully completed.
The CONTINUE
statement exits the current iteration of a loop unconditionally and transfers control to the next iteration of either the current loop or an enclosing labeled loop.
In Example 4-13, the CONTINUE
statement inside the basic LOOP
statement transfers control unconditionally to the next iteration of the current loop.
Example 4-13 CONTINUE Statement in Basic LOOP Statement
DECLARE x NUMBER := 0; BEGIN LOOP -- After CONTINUE statement, control resumes here DBMS_OUTPUT.PUT_LINE ('Inside loop: x = ' || TO_CHAR(x)); x := x + 1; IF x < 3 THEN CONTINUE; END IF; DBMS_OUTPUT.PUT_LINE ('Inside loop, after CONTINUE: x = ' || TO_CHAR(x)); EXIT WHEN x = 5; END LOOP; DBMS_OUTPUT.PUT_LINE (' After loop: x = ' || TO_CHAR(x)); END; /
Result:
Inside loop: x = 0 Inside loop: x = 1 Inside loop: x = 2 Inside loop, after CONTINUE: x = 3 Inside loop: x = 3 Inside loop, after CONTINUE: x = 4 Inside loop: x = 4 Inside loop, after CONTINUE: x = 5 After loop: x = 5
See Also:
"CONTINUE Statement"The CONTINUE
WHEN
statement exits the current iteration of a loop when the condition in its WHEN
clause is true, and transfers control to the next iteration of either the current loop or an enclosing labeled loop.
Each time control reaches the CONTINUE
WHEN
statement, the condition in its WHEN
clause is evaluated. If the condition is not true, the CONTINUE
WHEN
statement does nothing.
In Example 4-14, the CONTINUE
WHEN
statement inside the basic LOOP
statement transfers control to the next iteration of the current loop when x
is less than 3. Example 4-14 is logically equivalent to Example 4-13.
Example 4-14 CONTINUE WHEN Statement in Basic LOOP Statement
DECLARE x NUMBER := 0; BEGIN LOOP -- After CONTINUE statement, control resumes here DBMS_OUTPUT.PUT_LINE ('Inside loop: x = ' || TO_CHAR(x)); x := x + 1; CONTINUE WHEN x < 3; DBMS_OUTPUT.PUT_LINE ('Inside loop, after CONTINUE: x = ' || TO_CHAR(x)); EXIT WHEN x = 5; END LOOP; DBMS_OUTPUT.PUT_LINE (' After loop: x = ' || TO_CHAR(x)); END; /
Result:
Inside loop: x = 0 Inside loop: x = 1 Inside loop: x = 2 Inside loop, after CONTINUE: x = 3 Inside loop: x = 3 Inside loop, after CONTINUE: x = 4 Inside loop: x = 4 Inside loop, after CONTINUE: x = 5 After loop: x = 5
See Also:
"CONTINUE Statement"The FOR
LOOP
statement runs one or more statements while the loop index is in a specified range. The statement has this structure:
[ label ] FOR index IN [ REVERSE ] lower_bound..upper_bound LOOP statements END LOOP [ label ];
Without REVERSE
, the value of index
starts at lower_bound
and increases by one with each iteration of the loop until it reaches upper_bound
. If lower_bound
is greater than upper_bound
, then the statements
never run.
With REVERSE
, the value of index
starts at upper_bound
and decreases by one with each iteration of the loop until it reaches lower_bound
. If upper_bound
is less than lower_bound
, then the statements
never run.
An EXIT
, EXIT
WHEN
, CONTINUE
, or CONTINUE
WHEN
in the statements
can cause the loop or the current iteration of the loop to end early.
Tip:
To process the rows of a query result set, use a cursorFOR
LOOP
, which has a query instead of a range of integers. For details, see "Query Result Set Processing With Cursor FOR LOOP Statements".See Also:
"FOR LOOP Statement"In Example 4-15, index
is i
, lower_bound
is 1, and upper_bound
is 3. The loop prints the numbers from 1 to 3.
Example 4-15 FOR LOOP Statements
BEGIN DBMS_OUTPUT.PUT_LINE ('lower_bound < upper_bound'); FOR i IN 1..3 LOOP DBMS_OUTPUT.PUT_LINE (i); END LOOP; DBMS_OUTPUT.PUT_LINE ('lower_bound = upper_bound'); FOR i IN 2..2 LOOP DBMS_OUTPUT.PUT_LINE (i); END LOOP; DBMS_OUTPUT.PUT_LINE ('lower_bound > upper_bound'); FOR i IN 3..1 LOOP DBMS_OUTPUT.PUT_LINE (i); END LOOP; END; /
Result:
lower_bound < upper_bound 1 2 3 lower_bound = upper_bound 2 lower_bound > upper_bound
The FOR
LOOP
statement in Example 4-16 is the reverse of the one in Example 4-15: It prints the numbers from 3 to 1.
Example 4-16 Reverse FOR LOOP Statements
BEGIN DBMS_OUTPUT.PUT_LINE ('upper_bound > lower_bound'); FOR i IN REVERSE 1..3 LOOP DBMS_OUTPUT.PUT_LINE (i); END LOOP; DBMS_OUTPUT.PUT_LINE ('upper_bound = lower_bound'); FOR i IN REVERSE 2..2 LOOP DBMS_OUTPUT.PUT_LINE (i); END LOOP; DBMS_OUTPUT.PUT_LINE ('upper_bound < lower_bound'); FOR i IN REVERSE 3..1 LOOP DBMS_OUTPUT.PUT_LINE (i); END LOOP; END; /
Result:
upper_bound > lower_bound 3 2 1 upper_bound = lower_bound 2 upper_bound < lower_bound
In some languages, the FOR
LOOP
has a STEP
clause that lets you specify a loop index increment other than 1. To simulate the STEP
clause in PL/SQL, multiply each reference to the loop index by the desired increment.
In Example 4-17, the FOR
LOOP
effectively increments the index by five.
Example 4-17 Simulating STEP Clause in FOR LOOP Statement
DECLARE step PLS_INTEGER := 5; BEGIN FOR i IN 1..3 LOOP DBMS_OUTPUT.PUT_LINE (i*step); END LOOP; END; /
Result:
5 10 15
The index of a FOR
LOOP
statement is implicitly declared as a variable of type PLS_INTEGER
that is local to the loop. The statements in the loop can read the value of the index, but cannot change it. Statements outside the loop cannot reference the index. After the FOR
LOOP
statement runs, the index is undefined. (A loop index is sometimes called a loop counter.)
In Example 4-18, the FOR
LOOP
statement tries to change the value of its index, causing an error.
Example 4-18 FOR LOOP Statement Tries to Change Index Value
BEGIN FOR i IN 1..3 LOOP IF i < 3 THEN DBMS_OUTPUT.PUT_LINE (TO_CHAR(i)); ELSE i := 2; END IF; END LOOP; END; /
Result:
i := 2; * ERROR at line 6: ORA-06550: line 6, column 8: PLS-00363: expression 'I' cannot be used as an assignment target ORA-06550: line 6, column 8: PL/SQL: Statement ignored
In Example 4-19, a statement outside the FOR
LOOP
statement references the loop index, causing an error.
Example 4-19 Outside Statement References FOR LOOP Statement Index
BEGIN FOR i IN 1..3 LOOP DBMS_OUTPUT.PUT_LINE ('Inside loop, i is ' || TO_CHAR(i)); END LOOP; DBMS_OUTPUT.PUT_LINE ('Outside loop, i is ' || TO_CHAR(i)); END; /
Result:
DBMS_OUTPUT.PUT_LINE ('Outside loop, i is ' || TO_CHAR(i)); * ERROR at line 6: ORA-06550: line 6, column 58: PLS-00201: identifier 'I' must be declared ORA-06550: line 6, column 3: PL/SQL: Statement ignored
If the index of a FOR
LOOP
statement has the same name as a variable declared in an enclosing block, the local implicit declaration hides the other declaration, as Example 4-20 shows.
Example 4-20 FOR LOOP Statement Index with Same Name as Variable
DECLARE i NUMBER := 5; BEGIN FOR i IN 1..3 LOOP DBMS_OUTPUT.PUT_LINE ('Inside loop, i is ' || TO_CHAR(i)); END LOOP; DBMS_OUTPUT.PUT_LINE ('Outside loop, i is ' || TO_CHAR(i)); END; /
Result:
Inside loop, i is 1 Inside loop, i is 2 Inside loop, i is 3 Outside loop, i is 5
Example 4-21 shows how to change Example 4-20 to allow the statement inside the loop to reference the variable declared in the enclosing block.
Example 4-21 FOR LOOP Statement References Variable with Same Name as Index
<<main>> -- Label block. DECLARE i NUMBER := 5; BEGIN FOR i IN 1..3 LOOP DBMS_OUTPUT.PUT_LINE ( 'local: ' || TO_CHAR(i) || ', global: ' || TO_CHAR(main.i) -- Qualify reference with block label. ); END LOOP; END main; /
Result:
local: 1, global: 5 local: 2, global: 5 local: 3, global: 5
In Example 4-22, the indexes of the nested FOR
LOOP
statements have the same name. The inner loop references the index of the outer loop by qualifying the reference with the label of the outer loop. For clarity only, the inner loop also qualifies the reference to its own index with its own label.
Example 4-22 Nested FOR LOOP Statements with Same Index Name
BEGIN <<outer_loop>> FOR i IN 1..3 LOOP <<inner_loop>> FOR i IN 1..3 LOOP IF outer_loop.i = 2 THEN DBMS_OUTPUT.PUT_LINE ('outer: ' || TO_CHAR(outer_loop.i) || ' inner: ' || TO_CHAR(inner_loop.i)); END IF; END LOOP inner_loop; END LOOP outer_loop; END; /
Result:
outer: 2 inner: 1 outer: 2 inner: 2 outer: 2 inner: 3
The lower and upper bounds of a FOR
LOOP
statement can be either numeric literals, numeric variables, or numeric expressions. If a bound does not have a numeric value, then PL/SQL raises the predefined exception VALUE_ERROR
.
Example 4-23 FOR LOOP Statement Bounds
DECLARE first INTEGER := 1; last INTEGER := 10; high INTEGER := 100; low INTEGER := 12; BEGIN -- Bounds are numeric literals: FOR j IN -5..5 LOOP NULL; END LOOP; -- Bounds are numeric variables: FOR k IN REVERSE first..last LOOP NULL; END LOOP; -- Lower bound is numeric literal, -- Upper bound is numeric expression: FOR step IN 0..(TRUNC(high/low) * 2) LOOP NULL; END LOOP; END; /
In Example 4-24, the upper bound of the FOR
LOOP
statement is a variable whose value is determined at run time.
Example 4-24 Specifying FOR LOOP Statement Bounds at Run Time
DROP TABLE temp; CREATE TABLE temp ( emp_no NUMBER, email_addr VARCHAR2(50) ); DECLARE emp_count NUMBER; BEGIN SELECT COUNT(employee_id) INTO emp_count FROM employees; FOR i IN 1..emp_count LOOP INSERT INTO temp (emp_no, email_addr) VALUES(i, 'to be added later'); END LOOP; END; /
Suppose that you must exit a FOR
LOOP
statement immediately if a certain condition arises. You can put the condition in an EXIT
WHEN
statement inside the FOR
LOOP
statement.
In Example 4-25, the FOR
LOOP
statement executes 10 times unless the FETCH
statement inside it fails to return a row, in which case it ends immediately.
Example 4-25 EXIT WHEN Statement in FOR LOOP Statement
DECLARE
v_employees employees%ROWTYPE;
CURSOR c1 is SELECT * FROM employees;
BEGIN
OPEN c1;
-- Fetch entire row into v_employees record:
FOR i IN 1..10 LOOP
FETCH c1 INTO v_employees;
EXIT WHEN c1%NOTFOUND;
-- Process data here
END LOOP;
CLOSE c1;
END;
/
Now suppose that the FOR
LOOP
statement that you must exit early is nested inside another FOR
LOOP
statement. If, when you exit the inner loop early, you also want to exit the outer loop, then label the outer loop and specify its name in the EXIT
WHEN
statement, as in Example 4-26.
If you want to exit the inner loop early but complete the current iteration of the outer loop, then label the outer loop and specify its name in the CONTINUE
WHEN
statement, as in Example 4-27.
Example 4-26 EXIT WHEN Statement in Inner FOR LOOP Statement
DECLARE v_employees employees%ROWTYPE; CURSOR c1 is SELECT * FROM employees; BEGIN OPEN c1; -- Fetch entire row into v_employees record: <<outer_loop>> FOR i IN 1..10 LOOP -- Process data here FOR j IN 1..10 LOOP FETCH c1 INTO v_employees; EXIT outer_loop WHEN c1%NOTFOUND; -- Process data here END LOOP; END LOOP outer_loop; CLOSE c1; END; /
Example 4-27 CONTINUE WHEN Statement in Inner FOR LOOP Statement
DECLARE v_employees employees%ROWTYPE; CURSOR c1 is SELECT * FROM employees; BEGIN OPEN c1; -- Fetch entire row into v_employees record: <<outer_loop>> FOR i IN 1..10 LOOP -- Process data here FOR j IN 1..10 LOOP FETCH c1 INTO v_employees; CONTINUE outer_loop WHEN c1%NOTFOUND; -- Process data here END LOOP; END LOOP outer_loop; CLOSE c1; END; /
See Also:
"Overview of Exception Handling" for information about exceptions, which can also cause a loop to end immediately if a certain condition arisesThe WHILE
LOOP
statement runs one or more statements while a condition is true. It has this structure:
[ label ] WHILE condition LOOP statements END LOOP [ label ];
If the condition
is true, the statements
run and control returns to the top of the loop, where condition
is evaluated again. If the condition
is not true, control transfers to the statement after the WHILE
LOOP
statement. To prevent an infinite loop, a statement inside the loop must make the condition false or null. For complete syntax, see "WHILE LOOP Statement".
An EXIT
, EXIT
WHEN
, CONTINUE
, or CONTINUE
WHEN
in the statements
can cause the loop or the current iteration of the loop to end early.
In Example 4-28, the statements in the first WHILE
LOOP
statement never run, and the statements in the second WHILE
LOOP
statement run once.
Example 4-28 WHILE LOOP Statements
DECLARE done BOOLEAN := FALSE; BEGIN WHILE done LOOP DBMS_OUTPUT.PUT_LINE ('This line does not print.'); done := TRUE; -- This assignment is not made. END LOOP; WHILE NOT done LOOP DBMS_OUTPUT.PUT_LINE ('Hello, world!'); done := TRUE; END LOOP; END; /
Result:
Hello, world!
Some languages have a LOOP
UNTIL
or REPEAT
UNTIL
structure, which tests a condition at the bottom of the loop instead of at the top, so that the statements run at least once. To simulate this structure in PL/SQL, use a basic LOOP
statement with an EXIT
WHEN
statement:
LOOP statements EXIT WHEN condition; END LOOP;
Unlike the IF
and LOOP
statements, the sequential control statements GOTO
and NULL
are not crucial to PL/SQL programming.
The GOTO
statement, which goes to a specified statement, is seldom needed. Occasionally, it simplifies logic enough to warrant its use.
The NULL
statement, which does nothing, can improve readability by making the meaning and action of conditional statements clear.
The GOTO
statement transfers control to a label unconditionally. The label must be unique in its scope and must precede an executable statement or a PL/SQL block. When run, the GOTO
statement transfers control to the labeled statement or block. For GOTO
statement restrictions, see "GOTO Statement".
Use GOTO
statements sparingly—overusing them results in code that is hard to understand and maintain. Do not use a GOTO
statement to transfer control from a deeply nested structure to an exception handler. Instead, raise an exception. For information about the PL/SQL exception-handling mechanism, see Chapter 11, "PL/SQL Error Handling."
DECLARE p VARCHAR2(30); n PLS_INTEGER := 37; BEGIN FOR j in 2..ROUND(SQRT(n)) LOOP IF n MOD j = 0 THEN p := ' is not a prime number'; GOTO print_now; END IF; END LOOP; p := ' is a prime number'; <<print_now>> DBMS_OUTPUT.PUT_LINE(TO_CHAR(n) || p); END; /
Result:
37 is a prime number
A label can appear only before a block (as in Example 4-21) or before a statement (as in Example 4-29), not in a statement, as in Example 4-30.
Example 4-30 Incorrect Label Placement
DECLARE
done BOOLEAN;
BEGIN
FOR i IN 1..50 LOOP
IF done THEN
GOTO end_loop;
END IF;
<<end_loop>>
END LOOP;
END;
/
Result:
END LOOP; * ERROR at line 9: ORA-06550: line 9, column 3: PLS-00103: Encountered the symbol "END" when expecting one of the following: ( begin case declare exit for goto if loop mod null raise return select update while with <an identifier> <a double-quoted delimited-identifier> <a bind variable> << continue close current delete fetch lock insert open rollback savepoint set sql run commit forall merge pipe purge
To correct Example 4-30, add a NULL
statement, as in Example 4-31.
Example 4-31 GOTO Statement Goes to Labeled NULL Statement
DECLARE done BOOLEAN; BEGIN FOR i IN 1..50 LOOP IF done THEN GOTO end_loop; END IF; <<end_loop>> NULL; END LOOP; END; /
A GOTO
statement can transfer control to an enclosing block from the current block, as in Example 4-32.
Example 4-32 GOTO Statement Transfers Control to Enclosing Block
DECLARE v_last_name VARCHAR2(25); v_emp_id NUMBER(6) := 120; BEGIN <<get_name>> SELECT last_name INTO v_last_name FROM employees WHERE employee_id = v_emp_id; BEGIN DBMS_OUTPUT.PUT_LINE (v_last_name); v_emp_id := v_emp_id + 5; IF v_emp_id < 120 THEN GOTO get_name; END IF; END; END; /
Result:
Weiss
The GOTO
statement transfers control to the first enclosing block in which the referenced label appears.
The GOTO
statement in Example 4-33 transfers control into an IF
statement, causing an error.
Example 4-33 GOTO Statement Cannot Transfer Control into IF Statement
DECLARE valid BOOLEAN := TRUE; BEGIN GOTO update_row; IF valid THEN <<update_row>> NULL; END IF; END; /
Result:
GOTO update_row; * ERROR at line 4: ORA-06550: line 4, column 3: PLS-00375: illegal GOTO statement; this GOTO cannot transfer control to label 'UPDATE_ROW' ORA-06550: line 6, column 12: PL/SQL: Statement ignored
The NULL
statement only passes control to the next statement. Some languages refer to such an instruction as a no-op (no operation).
Some uses for the NULL
statement are:
To provide a target for a GOTO
statement, as in Example 4-31.
To improve readability by making the meaning and action of conditional statements clear, as in Example 4-34
To create placeholders and stub subprograms, as in Example 4-35
To show that you are aware of a possibility, but that no action is necessary, as in Example 4-36
In Example 4-34, the NULL
statement emphasizes that only salespersons receive commissions.
Example 4-34 NULL Statement Showing No Action
DECLARE
v_job_id VARCHAR2(10);
v_emp_id NUMBER(6) := 110;
BEGIN
SELECT job_id INTO v_job_id
FROM employees
WHERE employee_id = v_emp_id;
IF v_job_id = 'SA_REP' THEN
UPDATE employees
SET commission_pct = commission_pct * 1.2;
ELSE
NULL; -- Employee is not a sales rep
END IF;
END;
/
In Example 4-35, the NULL
statement lets you compile this subprogram and fill in the real body later.
Note:
Using theNULL
statement might raise an unreachable
code
warning if warnings are enabled. For information about warnings, see "Compile-Time Warnings".Example 4-35 NULL Statement as Placeholder During Subprogram Creation
CREATE OR REPLACE PROCEDURE award_bonus ( emp_id NUMBER, bonus NUMBER ) AS BEGIN -- Executable part starts here NULL; -- Placeholder -- (raises "unreachable code" if warnings enabled) END award_bonus; /
In Example 4-36, the NULL
statement shows that you have chosen to take no action for grades other than A, B, C, D, and F.
Example 4-36 NULL Statement in ELSE Clause of Simple CASE Statement
CREATE OR REPLACE PROCEDURE print_grade (
grade CHAR
) AUTHID DEFINER AS
BEGIN
CASE grade
WHEN 'A' THEN DBMS_OUTPUT.PUT_LINE('Excellent');
WHEN 'B' THEN DBMS_OUTPUT.PUT_LINE('Very Good');
WHEN 'C' THEN DBMS_OUTPUT.PUT_LINE('Good');
WHEN 'D' THEN DBMS_OUTPUT.PUT_LINE('Fair');
WHEN 'F' THEN DBMS_OUTPUT.PUT_LINE('Poor');
ELSE NULL;
END CASE;
END;
/