Oracle Raise Application Error
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difference between raise and raise_application_error in oracle RAISE_APPLICATION_ERROR tips Oracle Database Tips by raise_application_error(-20001 Burleson Consulting March 3, 2015 Question: What does the PL/SQL raise_application_error code do? Answer: The raise_application_error is actually a procedure defined raise_application_error parameters by Oracle that allows the developer to raise an exception and associate an error number and message with the procedure. This allows the application to raise application errors rather than just Oracle errors. Error raise application error in oracle triggers numbers are defined between -20,000 and -20,999. Oracle provides the raise_application_error procedure to allow you to raise custom error numbers within your applications. You can generate errors and their associated text starting with -20000 and proceeding through -20999 (a grand total of 1,000 error numbers that you can use). Below we illustrate the use of the raise_application_error procedure. Using the raise_application_error procedure: DECLARE Balance integer := 24; BEGINRaise_application_error Sqlerrm
IF (nBalance <= 100) THEN Raise_Application_Error (-20343, 'The balance is too low.');END IF;END; In this example, error number -20343 is raised if the value of nBalance isn't greater than 100, yielding a message that looks like this: ORA-20343: The balance is too low. All other numbers belong to Oracle for its own errors. The message can be anything that will fit in a varchar2(2000). The final parameter passed to the procedure is a Boolean(true/false) that tells the procedure to add this error to the error stack or replace all errors in the stack with this error. Passing the value of 'True' adds the error to the current stack, while the default is 'False'. SQL> create or replace procedure test_var2 (n_test IN number := 0,3 n_result OUT number)4 as5 begin 6 if n_test > 100 then7 raise_application_error(-20010,'Number Too Large');8 end if;9 n_result := n_test;10 end; 11 / Procedure created. SQL> declare2 n_numb number := &Number;3 n_2 number := 0;4 begin5 test_var(n_numb, n_2);6 dbms_output.put_line(n_2);7 end;8 /Enter value for number: 5old 2: n_numb number := &Number;new 2: n_numb number := 5;5 PL/SQL procedure successfully completed. SQL> /Enter value for number: 105old 2: n_numb number := &Number;new 2: n_numb number := 105; declare*ERROR at line 1:ORA-20
Churchill Run-time errors arise from design faults, coding mistakes, hardware failures, and many other sources. Although you cannot anticipate all possible errors, you
Difference Between Pragma Exception_init And Raise_application_error
can plan to handle certain kinds of errors meaningful to your PL/SQL raise_application_error in oracle 11g program. With many programming languages, unless you disable error checking, a run-time error such as stack overflow or raise application error in sql server division by zero stops normal processing and returns control to the operating system. With PL/SQL, a mechanism called exception handling lets you "bulletproof" your program so that it can continue http://www.dba-oracle.com/t_raise_application_error.htm operating in the presence of errors. This chapter discusses the following topics: Overview of PL/SQL Error Handling Advantages of PL/SQL Exceptions Predefined PL/SQL Exceptions Defining Your Own PL/SQL Exceptions How PL/SQL Exceptions Are Raised How PL/SQL Exceptions Propagate Reraising a PL/SQL Exception Handling Raised PL/SQL Exceptions Tips for Handling PL/SQL Errors Overview of PL/SQL Error Handling In PL/SQL, a warning https://docs.oracle.com/cd/A97630_01/appdev.920/a96624/07_errs.htm or error condition is called an exception. Exceptions can be internally defined (by the run-time system) or user defined. Examples of internally defined exceptions include division by zero and out of memory. Some common internal exceptions have predefined names, such as ZERO_DIVIDE and STORAGE_ERROR. The other internal exceptions can be given names. You can define exceptions of your own in the declarative part of any PL/SQL block, subprogram, or package. For example, you might define an exception named insufficient_funds to flag overdrawn bank accounts. Unlike internal exceptions, user-defined exceptions must be given names. When an error occurs, an exception is raised. That is, normal execution stops and control transfers to the exception-handling part of your PL/SQL block or subprogram. Internal exceptions are raised implicitly (automatically) by the run-time system. User-defined exceptions must be raised explicitly by RAISE statements, which can also raise predefined exceptions. To handle raised exceptions, you write separate routines called exception handlers. After an exception handler runs, the current block stops executing and the enclosing block resumes with the next statement. If there is n
FunctionsRegular Expressions FunctionsStatistical FunctionsLinear Regression FunctionsPL SQL Data TypesPL SQL StatementsPL SQL OperatorsPL SQL ProgrammingCursorCollectionsFunction Procedure PackagesTriggerSQL PLUS Session EnvironmentSystem Tables Data DictionarySystem PackagesObject OrientedXMLLarge ObjectsTransactionUser http://www.java2s.com/Tutorial/Oracle/0480__PL-SQL-Programming/AcompleteexampleusingRAISEAPPLICATIONERROR.htm PrivilegeA complete example using RAISE_APPLICATION_ERROR : raise_application_error«PL SQL Programming«Oracle PL/SQL TutorialOracle PL/SQL TutorialPL SQL Programmingraise_application_errorSQL> SQL> SQL> create table company( 2 product_id http://www.oraclenerd.com/2010/10/never-use-raiseapplicationerror-again.html number(4) not null, 3 company_id NUMBER(8) not null, 4 company_short_name varchar2(30) not null, 5 company_long_name varchar2(60) 6 ); Table created. SQL> error in insert into company values(1,1001,'A Inc.','Long Name A Inc.'); 1 row created. SQL> insert into company values(1,1002,'B Inc.','Long Name B Inc.'); 1 row created. SQL> insert into company values(1,1003,'C Inc.','Long Name C Inc.'); 1 row created. SQL> insert into company values(2,1004,'D Inc.','Long Name D Inc.'); raise application error 1 row created. SQL> insert into company values(2,1005,'E Inc.','Long Name E Inc.'); 1 row created. SQL> insert into company values(2,1006,'F Inc.','Long Name F Inc.'); 1 row created. SQL> SQL> SQL> SQL> SQL> CREATE OR REPLACE PROCEDURE org_proc 2 (p_flag_in VARCHAR2, 3 p_product_id NUMBER, 4 p_company_id NUMBER, 5 p_company_short_name VARCHAR2, 6 p_company_long_name VARCHAR2) 7 IS 8 v_error_code NUMBER; 9 BEGIN 10 IF (p_flag_in ='I')THEN 11 BEGIN 12 INSERT INTO company VALUES(p_product_id,p_company_id,p_company_short_name,p_company_long_name); 13 EXCEPTION WHEN OTHERS THEN 14 v_error_code :=SQLCODE; 15 IF v_error_code =-1 THEN 16 RAISE_APPLICATION_ERROR(-20000,'Organization '||TO_CHAR(p_company_id)||' already exists.'); 17 ELSIF v_error_code =-2291 THEN 18 RAISE_APPLICATION_ERROR(-20001,'Invalid Hierarchy Code '||TO_CHAR(p_product_id)||' specified.'); 19 END IF; 20 END; 21 ELSIF (p_flag_in ='C')THEN 22 BEGIN 23 UPDATE company 24 set company_short_name =p_company_short_name, 25 company_long_name =p_company_long_name 26 WHERE product_id =p_product_id 27 AND company_id =p_compan
is. It is an abomination of hard-coding and poor practice. If you didn't know that, I'm sorry I was the one who told you. I've written and used extensively an ultra-simple framework to eliminate RAISE_APPLICATION_ERROR from my code forever.Here's an example (assume 11gR2) of something we all know we can do:begin dbms_output.put_line(1/0); end;This will throw an unhandled ORA-01476 exception. We could write some meaningful handling of that with this:begin dbms_output.put_line(1/0);exception when zero_divide then dbms_output.put_line('zero divide exception caught');end;This coding is elegant because Oracle has conveniently predefined an exception named ZERO_DIVIDE and a corresponding pragma for us. Unfortunately, Oracle has only 22 predefined exceptions. What happens when I do this:declare d date;begin d := to_date('2010-09-30', 'YYYY-MM-DD'); -- works dbms_output.put_line(d); d := to_date('12345-09-30', 'YYYY-MM-DD'); -- fails dbms_output.put_line(d);end;This will throw an unhandled ORA-01861 exception. My option to handle this is less than meaningful because this is not a predefined exception:declare d date;begin d := to_date('2010-09-30', 'YYYY-MM-DD'); -- works dbms_output.put_line(d); d := to_date('12345-09-30', 'YYYY-MM-DD'); -- fails dbms_output.put_line(d);exception when others then case sqlcode when -1861 then dbms_output.put_line('literal does not match exception caught'); else raise; end case;end;This leads me to the inevitable desire to create my own named exception and pragma, so I could have code that looks like this instead:declare d date;begin d := to_date('2010-09-30', 'YYYY-MM-DD'); -- works dbms_output.put_line(d); d := to_date('12345-09-30', 'YYYY-MM-DD'); -- fails dbms_output.put_line(d);exception when error.ora_literal_string_mismatch then dbms_output.put_line('literal does not match exception caught');end;Understanding this, creating my own ERROR package with a friendly named exception and pragma for ORA-01861 leads me to the pattern of how to handle my own application exceptions, namely defining an exception and pragma. But how does this get RAISE_APPLICATION_ERROR out of my life? Consider the ERROR abbreviated package source I use (full source: error.pks and error.pkb):create or replace package error is package_name constant varchar2(32) := 'error'; -- in case you want to change the package name -- application exceptions and pragmas (snip) not_on