Annotations are used to configure tests and suites in a declarative way similar to modern OOP languages. This way, test configuration is stored along with the test logic inside the test package. No configuration files or tables are needed. The annotation names are based on popular testing frameworks such as JUnit. The framework runner searches for all the suitable annotated packages, automatically configures suites, forms the suite hierarchy, executes it and reports results in specified formats.
Annotations are interpreted only in the package specification and are case-insensitive. We strongly recommend using lower-case annotations as described in this documentation.
There are two distinct types of annotations, identified by their location in package:
- Procedure level annotations - placed directly before a procedure (
--%test
,--%beforeall
,--%beforeeach
etc.). - Package level annotations - placed at any place in package except directly before procedure (
--%suite
,--%suitepath
etc.).
We strongly recommend putting package level annotations at the very top of package except for the --%context
annotations (described below)
Annotation | Level | Description |
---|---|---|
--%suite(<description>) |
Package | Mandatory. Marks package as a test suite. Optional suite description can be provided (see displayname ). |
--%suitepath(<path>) |
Package | Similar to java package. The annotation allows logical grouping of suites into hierarchies. |
--%displayname(<description>) |
Package/procedure | Human-readable and meaningful description of a context/suite/test. Provides description to a context when used within context . When used with test or suite annotation, overrides the <description> provided with suite /test . |
--%test(<description>) |
Procedure | Denotes that the annotated procedure is a unit test procedure. Optional test description can by provided (see displayname ). |
--%throws(<exception>[,...]) |
Procedure | Denotes that the annotated test procedure must throw one of the exceptions provided. Supported forms of exceptions are: numeric literals, numeric contant names, exception constant names, predefined Oracle exception names. |
--%beforeall |
Procedure | Denotes that the annotated procedure should be executed once before all elements of the suite. |
--%beforeall([[<owner>.]<package>.]<procedure>[,...]) |
Package | Denotes that the mentioned procedure(s) should be executed once before all elements of the suite. |
--%afterall |
Procedure | Denotes that the annotated procedure should be executed once after all elements of the suite. |
--%afterall([[<owner>.]<package>.]<procedure>[,...]) |
Package | Denotes that the mentioned procedure(s) should be executed once after all elements of the suite. |
--%beforeeach |
Procedure | Denotes that the annotated procedure should be executed before each %test procedure in the suite. |
--%beforeeach([[<owner>.]<package>.]<procedure>[,...]) |
Package | Denotes that the mentioned procedure(s) should be executed before each %test procedure in the suite. |
--%aftereach |
Procedure | Denotes that the annotated procedure should be executed after each %test procedure in the suite. |
--%aftereach([[<owner>.]<package>.]<procedure>[,...]) |
Package | Denotes that the mentioned procedure(s) should be executed after each %test procedure in the suite. |
--%beforetest([[<owner>.]<package>.]<procedure>[,...]) |
Procedure | Denotes that mentioned procedure(s) should be executed before the annotated %test procedure. |
--%aftertest([[<owner>.]<package>.]<procedure>[,...]) |
Procedure | Denotes that mentioned procedure(s) should be executed after the annotated %test procedure. |
--%rollback(<type>) |
Package/procedure | Defines transaction control. Supported values: auto (default) - a savepoint is created before invocation of each "before block" is and a rollback to specific savepoint is issued after each "after" block; manual - rollback is never issued automatically. Property can be overridden for child element (test in suite) |
--%disabled |
Package/procedure | Used to disable a suite or a test. Disabled suites/tests do not get executed, they are however marked and reported as disabled in a test run. |
--%context(<name>) |
Package | Denotes start of a named context (sub-suite) in a suite package |
--%endcontext |
Package | Denotes end of a nested context (sub-suite) in a suite package |
--%tags |
Package/procedure | Used to label a test or a suite for purpose of identification |
The --%suite
annotation denotes PLSQL package as a unit test suite.
It accepts an optional description that will be visible when running the tests.
When description is not provided, package name is displayed on report.
Note
Package is considered a test-suite only when package specification contains the
--%suite
annotation at the package level.Some annotations like
--%suite
,--%test
and--%displayname
accept parameters. The parameters for annotations need to be placed in brackets. Values for parameters should be provided without any quotation marks. If the parameters are placed without brackets or with incomplete brackets, they will be ignored.Example:
--%suite(The name of suite without closing bracket
Example:--%suite The name of suite without brackets
Suite package without description.
create or replace package test_package as
--%suite
end;
/
exec ut.run('test_package');
test_package
Finished in .002415 seconds
0 tests, 0 failed, 0 errored, 0 disabled, 0 warning(s)
Suite package with description.
create or replace package test_package as
--%suite(Tests for a package)
end;
/
exec ut.run('test_package');
Tests for a package
Finished in .001646 seconds
0 tests, 0 failed, 0 errored, 0 disabled, 0 warning(s)
When multiple --%suite
annotations are specified in package, the first annotation will be used and a warning message will appear indicating duplicate annotation.
create or replace package test_package as
--%suite(Tests for a package)
--%suite(Bad annotation)
end;
/
exec ut.run('test_package');
Tests for a package
Warnings:
1) test_package
Duplicate annotation "--%suite". Annotation ignored.
at "TESTS_OWNER.TEST_PACKAGE", line 3
Finished in .003318 seconds
0 tests, 0 failed, 0 errored, 0 disabled, 1 warning(s)
When --%suite
annotation is bound to procedure, it is ignored and results in package not getting recognized as test suite.
create or replace package test_package as
--%suite(Tests for a package)
procedure some_proc;
end;
/
exec ut.run('test_package');
ORA-20204: Suite package TESTS_OWNER.test_package not found
ORA-06512: at "UT3.UT_RUNNER", line 106
ORA-06512: at "UT3.UT", line 115
ORA-06512: at "UT3.UT", line 306
ORA-06512: at "UT3.UT", line 364
ORA-06512: at line 1
The --%test
annotation denotes procedure withing test suite as a unit test.
It accepts an optional description that will be reported when the test is executed.
When description is not provided, procedure name is displayed on report.
If --%test
raises an unhandled exception the following will happen:
- the test will be marked as errored and exception stack trace will be captured and reported
- the
--%aftertest
,--%aftereach
procedures will be executed for the errored test - the
--%afterall
procedures will be executed - test execution will continue uninterrupted for rest of the suite
Test procedure without description.
create or replace package test_package as
--%suite(Tests for a package)
--%test
procedure some_test;
end;
/
create or replace package body test_package as
procedure some_test is begin null; end;
end;
/
exec ut.run('test_package');
Tests for a package
some_test [.003 sec]
Finished in .004109 seconds
1 tests, 0 failed, 0 errored, 0 disabled, 0 warning(s)
Test procedure with description.
create or replace package test_package as
--%suite(Tests for a package)
--%test(Description of tested behavior)
procedure some_test;
end;
/
create or replace package body test_package as
procedure some_test is begin null; end;
end;
/
exec ut.run('test_package');
Tests for a package
Description of tested behavior [.005 sec]
Finished in .006828 seconds
1 tests, 0 failed, 0 errored, 0 disabled, 0 warning(s)
When multiple --%test
annotations are specified for a procedure, the first annotation will be used and a warning message will appear indicating duplicate annotation.
create or replace package test_package as
--%suite(Tests for a package)
--%test(Description of tested behavior)
--%test(Duplicate description)
procedure some_test;
end;
/
create or replace package body test_package as
procedure some_test is begin null; end;
end;
/
exec ut.run('test_package');
Tests for a package
Description of tested behavior [.007 sec]
Warnings:
1) test_package
Duplicate annotation "--%test". Annotation ignored.
at "TESTS_OWNER.TEST_PACKAGE.SOME_TEST", line 5
Finished in .008815 seconds
1 tests, 0 failed, 0 errored, 0 disabled, 1 warning(s)
Marks annotated suite package or test procedure as disabled.
Disabling suite.
create or replace package test_package as
--%suite(Tests for a package)
--%disabled
--%test(Description of tested behavior)
procedure some_test;
--%test(Description of another behavior)
procedure other_test;
end;
/
create or replace package body test_package as
procedure some_test is begin null; end;
procedure other_test is begin null; end;
end;
/
exec ut.run('test_package');
Tests for a package
Description of tested behavior [0 sec] (DISABLED)
Description of another behavior [0 sec] (DISABLED)
Finished in .001441 seconds
2 tests, 0 failed, 0 errored, 2 disabled, 0 warning(s)
Disabling individual test(s).
create or replace package test_package as
--%suite(Tests for a package)
--%test(Description of tested behavior)
procedure some_test;
--%test(Description of another behavior)
--%disabled
procedure other_test;
end;
/
create or replace package body test_package as
procedure some_test is begin null; end;
procedure other_test is begin null; end;
end;
/
exec ut.run('test_package');
Tests for a package
Description of tested behavior [.004 sec]
Description of another behavior [0 sec] (DISABLED)
Finished in .005868 seconds
2 tests, 0 failed, 0 errored, 1 disabled, 0 warning(s)
There are two possible ways to use the --%beforeall
annotation.
As a procedure level annotation:
--%suite(Some test suite)
--%beforeall
procedure to_be_executed_before_all;
--%test
procedure some_test;
Marks annotated procedure to be executed before all test procedures in a suite.
As a package level annotation (not associated with any procedure).
--%suite(Some test suite)
--%beforeall(to_be_executed_before_all, other_package.some_setup)
--%test
procedure some_test;
procedure to_be_executed_before_all;
Indicates that the procedure(s) mentioned as the annotation parameter are to be executed before all test procedures in a suite.
If --%beforeall
raises an exception, suite content cannot be safely executed as the setup was not executed successfully for the suite.
If --%beforeall
raises an exception the following will happen:
- the
--%beforeall
procedures that follow the failed one, will not be executed - all
--%test
procedures and their--%beforeeach
,--%aftereach
,--%beforetest
and--%aftertest
procedures within suite package will not be executed - all
--%test
procedures will be marked as failed - the
--%afterall
procedures will be executed - test execution will continue uninterrupted for other suite packages
When multiple --%beforeall
procedures are defined in a suite package, all of them will be executed before invoking any test.
For multiple --%beforeall
procedures order of execution is defined by annotation position in the package specification.
create or replace package test_package as
--%suite(Tests for a package)
--%test(Description of tested behavior)
procedure some_test;
--%test(Description of another behavior)
procedure other_test;
--%beforeall
procedure setup_stuff;
end;
/
create or replace package body test_package as
procedure setup_stuff is
begin
dbms_output.put_line('--- SETUP_STUFF invoked ---');
end;
procedure some_test is begin null; end;
procedure other_test is begin null; end;
end;
/
exec ut.run('test_package');
Tests for a package
--- SETUP_STUFF invoked ---
Description of tested behavior [.004 sec]
Description of another behavior [.003 sec]
Finished in .012292 seconds
2 tests, 0 failed, 0 errored, 0 disabled, 0 warning(s)
In the below example a combination pacakge and procedure level --%beforeall
annotations is used.
The order of execution of the beforeall procedures is determined by the annotation position in package.
All of the --%beforeall
procedures get invoked before any test is executed in a suite.
create or replace package test_package as
--%suite(Tests for a package)
--%beforeall(initial_setup,test_package.another_setup)
--%test(Description of tested behavior)
procedure some_test;
--%test(Description of another behavior)
procedure other_test;
--%beforeall
procedure next_setup;
--%beforeall(one_more_setup)
procedure another_setup;
procedure one_more_setup;
procedure initial_setup;
end;
/
create or replace package body test_package as
procedure one_more_setup is
begin
dbms_output.put_line('--- ONE_MORE_SETUP invoked ---');
end;
procedure next_setup is
begin
dbms_output.put_line('--- NEXT_SETUP invoked ---');
end;
procedure another_setup is
begin
dbms_output.put_line('--- ANOTHER_SETUP invoked ---');
end;
procedure initial_setup is
begin
dbms_output.put_line('--- INITIAL_SETUP invoked ---');
end;
procedure some_test is begin null; end;
procedure other_test is begin null; end;
end;
/
exec ut.run('test_package');
Tests for a package
--- INITIAL_SETUP invoked ---
--- ANOTHER_SETUP invoked ---
--- NEXT_SETUP invoked ---
--- ONE_MORE_SETUP invoked ---
Description of tested behavior [.003 sec]
Description of another behavior [.002 sec]
Finished in .018944 seconds
2 tests, 0 failed, 0 errored, 0 disabled, 0 warning(s)
When multiple --%beforeall
annotations are specified for a procedure, the first annotation will be used and a warning message will appear indicating duplicate annotation.
When procedure is annotated as both --%beforeall
and --%test
, the procedure will become a test and a warning message will appear indicating invalid annotation combination.
create or replace package test_package as
--%suite(Tests for a package)
--%beforeall
--%beforeall
procedure initial_setup;
--%test(Description of tested behavior)
--%beforeall
procedure some_test;
--%test(Description of another behavior)
procedure other_test;
end;
/
create or replace package body test_package as
procedure initial_setup is
begin
dbms_output.put_line('--- INITIAL_SETUP invoked ---');
end;
procedure some_test is begin null; end;
procedure other_test is begin null; end;
end;
/
exec ut.run('test_package');
Tests for a package
--- INITIAL_SETUP invoked ---
Description of tested behavior [.003 sec]
Description of another behavior [.004 sec]
Warnings:
1) test_package
Duplicate annotation "--%beforeall". Annotation ignored.
at "UT3_TESTER.TEST_PACKAGE.INITIAL_SETUP", line 5
2) test_package
Annotation "--%beforeall" cannot be used with annotation: "--%test"
at "UT3_TESTER.TEST_PACKAGE.SOME_TEST", line 9
Finished in .012158 seconds
2 tests, 0 failed, 0 errored, 0 disabled, 2 warning(s)
There are two possible ways to use the --%afterall
annotation.
As a procedure level annotation:
--%suite(Some test suite)
--%afterall
procedure to_be_executed_after_all;
--%test
procedure some_test;
Marks annotated procedure to be executed after all test procedures in a suite.
As a package level annotation (not associated with any procedure).
--%suite(Some test suite)
--%afterall(to_be_executed_after_all, other_package.some_cleanup)
--%test
procedure some_test;
procedure to_be_executed_after_all;
Indicates that the procedure(s) mentioned as the annotation parameter are to be executed after all test procedures in a suite.
If --%afterall
raises an exception the following will happen:
- a warning will be raised, indicating that
--%afterall
procedure has failed - execution will continue uninterrupted for rest of the suite
If --%afterall
raises an exception, it can have negative impact on other tests, as the environment was not cleaned-up after the tests.
This however doesn't have direct impact on test execution within current suite, as the tests are already complete by the time --%afterall
is called.
When multiple --%afterall
procedures are defined in a suite, all of them will be executed after invoking all tests from the suite.
For multiple --%afterall
procedures order of execution is defined by annotation position in the package specification.
All rules defined for --%beforeall
also apply for --%afterall
annotation. See beforeall for more details.
create or replace package test_package as
--%suite(Tests for a package)
--%test(Description of tested behavior)
procedure some_test;
--%test(Description of another behavior)
procedure other_test;
--%afterall
procedure cleanup_stuff;
end;
/
create or replace package body test_package as
procedure cleanup_stuff is
begin
dbms_output.put_line('---CLEANUP_STUFF invoked ---');
end;
procedure some_test is begin null; end;
procedure other_test is begin null; end;
end;
/
exec ut.run('test_package');
Tests for a package
Description of tested behavior [.003 sec]
Description of another behavior [.005 sec]
---CLEANUP_STUFF invoked ---
Finished in .014161 seconds
2 tests, 0 failed, 0 errored, 0 disabled, 0 warning(s)
The procedure annotated as --%beforeeach
is getting executed before each test in a suite.
That means that the procedure will be executed as many times as there are test in suite package.
There are two possible ways to use the --%beforeeach
annotation.
As a procedure level annotation:
--%suite(Some test suite)
--%beforeeach
procedure to_be_executed_before_each;
--%test
procedure some_test;
Marks annotated procedure to be executed before each test procedures in a suite.
As a package level annotation (not associated with any procedure).
--%suite(Some test suite)
--%beforeeach(to_be_executed_before_each, other_package.some_setup)
--%test
procedure some_test;
procedure to_be_executed_before_each;
Indicates that the procedure(s) mentioned as the annotation parameter are to be executed before each test procedure in a suite.
If a test is marked as disabled the --%beforeeach
procedure is not invoked for that test.
If --%beforeeach
raises an unhandled exception the following will happen:
- the following
--%beforeeach
as well as all--%beforetest
for that test will not be executed - the test will be marked as errored and exception stack trace will be captured and reported
- the
--%aftertest
,--%aftereach
procedures will be executed for the errored test - the
--%afterall
procedures will be executed - test execution will continue uninterrupted for rest of the suite
As a rule, the --%beforeeach
execution gets aborted if preceding --%beforeeach
failed.
When multiple --%beforeeach
procedures are defined in a suite, all of them will be executed before invoking each test.
For multiple --%beforeeach
procedures order of execution is defined by annotation position in the package specification.
create or replace package test_package as
--%suite(Tests for a package)
--%test(Description of tested behavior)
procedure some_test;
--%test(Description of another behavior)
procedure other_test;
--%beforeeach
procedure setup_for_test;
--%beforeall
procedure setup_stuff;
end;
/
create or replace package body test_package as
procedure setup_stuff is
begin
dbms_output.put_line('---SETUP_STUFF invoked ---');
end;
procedure setup_for_test is
begin
dbms_output.put_line('---SETUP_FOR_TEST invoked ---');
end;
procedure some_test is
begin
dbms_output.put_line('---SOME_TEST invoked ---');
end;
procedure other_test is
begin
dbms_output.put_line('---OTHER_TEST invoked ---');
end;
end;
/
exec ut.run('test_package');
Tests for a package
---SETUP_STUFF invoked ---
Description of tested behavior [.004 sec]
---SETUP_FOR_TEST invoked ---
---SOME_TEST invoked ---
Description of another behavior [.006 sec]
---SETUP_FOR_TEST invoked ---
---OTHER_TEST invoked ---
Finished in .014683 seconds
2 tests, 0 failed, 0 errored, 0 disabled, 0 warning(s)
See beforeall for more examples.
Marks annotated procedure to be executed after each test procedure in a suite.
The procedure annotated as --%aftereach
is getting executed after each test in a suite.
That means that the procedure will be executed as many times as there are test in suite package.
There are two possible ways to use the --%aftereach
annotation.
As a procedure level annotation:
--%suite(Some test suite)
--%aftereach
procedure to_be_executed_after_each;
--%test
procedure some_test;
Marks annotated procedure to be executed after each test procedures in a suite.
As a package level annotation (not associated with any procedure).
--%suite(Some test suite)
--%aftereach(to_be_executed_after_each, other_package.some_setup)
--%test
procedure some_test;
procedure to_be_executed_after_each;
Indicates that the procedure(s) mentioned as the annotation parameter are to be executed after each test procedure in a suite.
If a test is marked as disabled the --%aftereach
procedure is not invoked for that test.
If --%aftereach
raises an unhandled exception the following will happen:
- the test will be marked as errored and exception stack trace will be captured and reported
- the
--%aftertest
,--%aftereach
procedures will be executed for the errored test - the
--%afterall
procedures will be executed - test execution will continue uninterrupted for rest of the suite
When multiple --%aftereach
procedures are defined in a suite, all of them will be executed after invoking each test.
For multiple --%aftereach
procedures order of execution is defined by the annotation position in the package specification.
As a rule, the --%aftereach
gets executed even if the associated --%beforeeach
, --%beforetest
, --%test
or other --%aftereach
procedures have raised unhandled exceptions.
create or replace package test_package as
--%suite(Tests for a package)
--%test(Description of tested behavior)
procedure some_test;
--%test(Description of another behavior)
procedure other_test;
--%aftereach
procedure cleanup_for_test;
--%afterall
procedure cleanup_stuff;
end;
/
create or replace package body test_package as
procedure cleanup_stuff is
begin
dbms_output.put_line('---CLEANUP_STUFF invoked ---');
end;
procedure cleanup_for_test is
begin
dbms_output.put_line('---CLEANUP_FOR_TEST invoked ---');
end;
procedure some_test is
begin
dbms_output.put_line('---SOME_TEST invoked ---');
end;
procedure other_test is
begin
dbms_output.put_line('---OTHER_TEST invoked ---');
end;
end;
/
exec ut.run('test_package');
Tests for a package
Description of tested behavior [.006 sec]
---SOME_TEST invoked ---
---CLEANUP_FOR_TEST invoked ---
Description of another behavior [.006 sec]
---OTHER_TEST invoked ---
---CLEANUP_FOR_TEST invoked ---
---CLEANUP_STUFF invoked ---
Finished in .018115 seconds
2 tests, 0 failed, 0 errored, 0 disabled, 0 warning(s)
See beforeall for more examples.
Indicates specific setup procedure(s) to be executed for a test. The procedure(s) can be located either:
- within current package (package name is optional)
- within another package
The annotation need to be placed alongside --%test
annotation.
The --%beforetest
procedures are executed after invoking all --%beforeeach
for a test.
If a test is marked as disabled the --%beforetest
procedures are not invoked for that test.
If --%beforetest
raises an unhandled exception the following will happen:
- the following
--%beforetest
for that test will not be executed - the test will be marked as errored and exception stack trace will be captured and reported
- the
--%aftertest
,--%aftereach
procedures will be executed for the errored test - the
--%afterall
procedures will be executed - test execution will continue uninterrupted for rest of the suite
When multiple --%beforetest
procedures are defined for a test, all of them will be executed before invoking the test.
The order of execution for --%beforetest
procedures is defined by:
- position of procedure on the list within single annotation
- annotation position
As a rule, the --%beforetest
execution gets aborted if preceding --%beforeeach
or --%beforetest
failed.
create or replace package test_package as
--%suite(Tests for a package)
--%test(Description of tested behavior)
--%beforetest(test_package.setup_for_a_test)
--%beforetest(another_setup_for_a_test)
procedure some_test;
--%test(Description of another behavior)
--%beforetest(test_package.setup_for_a_test, another_setup_for_a_test)
procedure other_test;
procedure another_setup_for_a_test;
procedure setup_for_a_test;
end;
/
create or replace package body test_package as
procedure setup_for_a_test is
begin
dbms_output.put_line('---SETUP_FOR_A_TEST invoked ---');
end;
procedure another_setup_for_a_test is
begin
dbms_output.put_line('---ANOTHER_SETUP_FOR_A_TEST invoked ---');
end;
procedure some_test is
begin
dbms_output.put_line('---SOME_TEST invoked ---');
end;
procedure other_test is
begin
dbms_output.put_line('---OTHER_TEST invoked ---');
end;
end;
/
exec ut.run('test_package');
Tests for a package
Description of tested behavior [.008 sec]
---SETUP_FOR_A_TEST invoked ---
---ANOTHER_SETUP_FOR_A_TEST invoked ---
---SOME_TEST invoked ---
Description of another behavior [.005 sec]
---SETUP_FOR_A_TEST invoked ---
---ANOTHER_SETUP_FOR_A_TEST invoked ---
---OTHER_TEST invoked ---
Finished in .015185 seconds
2 tests, 0 failed, 0 errored, 0 disabled, 0 warning(s)
Indicates specific cleanup procedure(s) to be executed for a test. The procedure(s) can be located either:
- within current package (package name is optional)
- within another package
The annotation need to be placed alongside --%test
annotation.
If a test is marked as disabled the --%aftertest
procedures are not invoked for that test.
If --%aftertest
raises an unhandled exception the following will happen:
- the test will be marked as errored and exception stack trace will be captured and reported
- the following
--%aftertest
and all--%aftereach
procedures will be executed for the errored test - the
--%afterall
procedures will be executed - test execution will continue uninterrupted for rest of the suite
When multiple --%aftertest
procedures are defined for a test, all of them will be executed before invoking the test.
The order of execution for --%aftertest
procedures is defined by:
- position of procedure on the list within single annotation
- annotation position
As a rule, the --%aftertest
gets executed even if the associated --%beforeeach
, --%beforetest
, --%test
or other --%aftertest
procedures have raised unhandled exceptions.
create or replace package test_package as
--%suite(Tests for a package)
--%test(Description of tested behavior)
--%aftertest(test_package.cleanup_for_a_test)
--%aftertest(another_cleanup_for_a_test)
procedure some_test;
--%test(Description of another behavior)
--%aftertest(test_package.cleanup_for_a_test, another_cleanup_for_a_test)
procedure other_test;
procedure another_cleanup_for_a_test;
procedure cleanup_for_a_test;
end;
/
create or replace package body test_package as
procedure cleanup_for_a_test is
begin
dbms_output.put_line('---CLEANUP_FOR_A_TEST invoked ---');
end;
procedure another_cleanup_for_a_test is
begin
dbms_output.put_line('---ANOTHER_CLEANUP_FOR_A_TEST invoked ---');
end;
procedure some_test is
begin
dbms_output.put_line('---SOME_TEST invoked ---');
end;
procedure other_test is
begin
dbms_output.put_line('---OTHER_TEST invoked ---');
end;
end;
/
exec ut.run('test_package');
Tests for a package
Description of tested behavior [.008 sec]
---SOME_TEST invoked ---
---CLEANUP_FOR_A_TEST invoked ---
---ANOTHER_CLEANUP_FOR_A_TEST invoked ---
Description of another behavior [.006 sec]
---OTHER_TEST invoked ---
---CLEANUP_FOR_A_TEST invoked ---
---ANOTHER_CLEANUP_FOR_A_TEST invoked ---
Finished in .016873 seconds
2 tests, 0 failed, 0 errored, 0 disabled, 0 warning(s)
In most of the cases, the code to be tested is consisting of PLSQL packages containing procedures and functions.
When creating test suites, it's quite common to maintain one to one
relationship between test suite packages and tested code.
When it comes to test procedures themselves, it is best practice to have one test procedure for one tested behavior of the code that is tested.
The relationship between test procedure and tested procedure/function will be therefore many to one
in most of the cases.
With this comes a challenge. How to group tests, related to one tested procedure, so that it is obvious that they relate to the same code.
This is where utPLSQL contexts come handy.
Contexts allow for creating sub-suites within a suite package and they allow for grouping of tests that are somehow related.
In essence, context behaves like a suite within a suite.
Context have following characteristics:
- start with the
--%context
annotation and ends with--%endcontext
- can have a name provided as parameter for example
--%context(remove_rooms_by_name)
- when no name is provided for context, the context is names
context_N
whereN
is the number of the context in suite - can have their own
--%beforeall
,--%beforeeach
,--%afterall
and--%aftereach
procedures --%beforeall
,--%beforeeach
,--%afterall
and--%aftereach
procedures defined at suite level, propagate to context- test suite package can have multiple contexts in it
- contexts cannot be nested
The below example illustrates usage of --%context
for separating tests for individual procedures of package.
Tested tables and code
create table rooms (
room_key number primary key,
name varchar2(100) not null
);
create table room_contents (
contents_key number primary key,
room_key number not null,
name varchar2(100) not null,
create_date timestamp default current_timestamp not null,
constraint fk_rooms foreign key (room_key) references rooms (room_key)
);
create or replace package rooms_management is
procedure remove_rooms_by_name( a_name rooms.name%type );
procedure add_rooms_content(
a_room_name rooms.name%type,
a_content_name room_contents.name%type
);
end;
/
create or replace package body rooms_management is
procedure remove_rooms_by_name( a_name rooms.name%type ) is
begin
if a_name is null then
raise program_error;
end if;
delete from rooms where name like a_name;
end;
procedure add_rooms_content(
a_room_name rooms.name%type,
a_content_name room_contents.name%type
) is
l_room_key rooms.room_key%type;
begin
select room_key into l_room_key
from rooms where name = a_room_name;
insert into room_contents
(contents_key, room_key, name)
select nvl(max(contents_key)+1, 1) as contents_key,
l_room_key,
a_content_name
from room_contents;
end;
end;
/
Below test suite defines:
--%beforeall
outside of context, that will be executed before all tests--%context(remove_rooms_by_name)
to group tests forremove_rooms_by_name
procedure--%context(add_rooms_content)
to group tests foradd_rooms_content
procedure
create or replace package test_rooms_management is
gc_null_value_exception constant integer := -1400;
--%suite(Rooms management)
--%beforeall
procedure setup_rooms;
--%context(remove_rooms_by_name)
--%displayname(Remove rooms by name)
--%test(Removes a room without content in it)
procedure remove_empty_room;
--%test(Raises exception when null room name given)
--%throws(-6501)
procedure null_room_name;
--%endcontext
--%context(add_rooms_content)
--%displayname(Add content to a room)
--%test(Fails when room name is not valid)
--%throws(no_data_found)
procedure fails_on_room_name_invalid;
--%test(Fails when content name is null)
--%throws(test_rooms_management.gc_null_value_exception)
procedure fails_on_content_null;
--%test(Adds a content to existing room)
procedure add_content_success;
--%endcontext
end;
/
create or replace package body test_rooms_management is
procedure setup_rooms is
begin
insert all
into rooms values(1, 'Dining Room')
into rooms values(2, 'Living Room')
into rooms values(3, 'Bathroom')
select 1 from dual;
insert all
into room_contents values(1, 1, 'Table', sysdate)
into room_contents values(3, 1, 'Chair', sysdate)
into room_contents values(4, 2, 'Sofa', sysdate)
into room_contents values(5, 2, 'Lamp', sysdate)
select 1 from dual;
dbms_output.put_line('---SETUP_ROOMS invoked ---');
end;
procedure remove_empty_room is
l_rooms_not_named_b sys_refcursor;
l_remaining_rooms sys_refcursor;
begin
open l_rooms_not_named_b for select * from rooms where name not like 'B%';
rooms_management.remove_rooms_by_name('B%');
open l_remaining_rooms for select * from rooms;
ut.expect( l_remaining_rooms ).to_equal(l_rooms_not_named_b);
end;
procedure room_with_content is
begin
rooms_management.remove_rooms_by_name('Living Room');
end;
procedure null_room_name is
begin
--Act
rooms_management.remove_rooms_by_name(NULL);
--Assert done by --%throws annotation
end;
procedure fails_on_room_name_invalid is
begin
--Act
rooms_management.add_rooms_content('bad room name','Chair');
--Assert done by --%throws annotation
end;
procedure fails_on_content_null is
begin
--Act
rooms_management.add_rooms_content('Dining Room',null);
--Assert done by --%throws annotation
end;
procedure add_content_success is
l_expected room_contents.name%type;
l_actual room_contents.name%type;
begin
--Arrange
l_expected := 'Table';
--Act
rooms_management.add_rooms_content( 'Dining Room', l_expected );
--Assert
select name into l_actual from room_contents
where contents_key = (select max(contents_key) from room_contents);
ut.expect( l_actual ).to_equal( l_expected );
end;
end;
/
When te tests are executed
exec ut.run('test_rooms_management');
The following report is displayed
Rooms management
---SETUP_ROOMS invoked ---
remove_rooms_by_name
Removes a room without content in it [.015 sec]
Raises exception when null room name given [.002 sec]
add_rooms_content
Fails when room name is not valid [.003 sec]
Fails when content name is null [.003 sec]
Adds a content to existing room [.003 sec]
Finished in .035261 seconds
5 tests, 0 failed, 0 errored, 0 disabled, 0 warning(s)
Tag is a label attached to the test or a suite path. It is used for identification and execution a group of tests / suites that share same tag.
It allows us to group a tests / suites using a various categorization and place a test / suite in multiple buckets. Same tests can be group with other tests based on the functionality , frequency, type of output etc.
e.q.
--%tags(batch,daily,csv)
or
--%tags(api,online,json)
Tags are defined as a coma separated list. When executing a test run with tag filter applied, framework will find all tests associated with given tags and execute them. Framework applies OR
logic when resolving a tags so any tests / suites that match at least one tag will be included in the test run.
When a suite gets tagged all of its children will automatically inherit a tag and get executed along the parent. Parent suit tests are not executed. but a suitepath hierarchy is kept.
Sample tag package.
create or replace package ut_sample_test IS
--%suite(Sample Test Suite)
--%tag(suite1)
--%test(Compare Ref Cursors)
--%tag(test1,sample)
procedure ut_refcursors1;
--%test(Run equality test)
--%tag(test2,sample)
procedure ut_test;
end ut_sample_test;
/
create or replace package body ut_sample_test is
procedure ut_refcursors1 is
v_actual sys_refcursor;
v_expected sys_refcursor;
begin
open v_expected for select 1 as test from dual;
open v_actual for select 2 as test from dual;
ut.expect(v_actual).to_equal(v_expected);
end;
procedure ut_test is
begin
ut.expect(1).to_equal(0);
end;
end ut_sample_test;
/
Execution of the test is done by using a parameter a_tags
select * from table(ut.run(a_path => 'ut_sample_test',a_tags => 'suite1'));
select * from table(ut.run(a_tags => 'test1,test2'));
select * from table(ut.run(a_tags => 'sample'));
begin
ut.run(a_path => 'ut_sample_test',a_tags => 'suite1');
end;
/
exec ut.run('ut_sample_test', a_tags => 'sample');
Tags should adhere to following rules:
- tags are case sensitive
- tags cannot be an empty string
- tags cannot contain spaces e.g. to create a multi-word
tag
please use underscores,dashes, dots etc. e.g.test_of_batch
- tags with empty spaces will be ignored during execution
- tags can contain special characters
It is very likely that the application for which you are going to introduce tests consists of many different packages, procedures and functions. Usually procedures can be logically grouped inside a package, there also might be several logical groups of procedures in a single package and packages might be grouped into modules and modules into subject areas.
As your project grows, the codebase will grow to. utPLSQL allows you to group packages into modules and also allows for nesting modules.
Let's say you have a complex insurance application that deals with policies, claims and payments. The payment module contains several packages for payment recognition, charging, planning etc. The payment recognition module among others contains a complex recognize_payment
procedure that associates received money to the policies.
If you want to create tests for your application it is recommended to structure your tests similarly to the logical structure of your application. So you end up with something like:
- Integration tests
- Policy tests
- Claim tests
- Payment tests
- Payments recognition
- Payments set off
The %suitepath
annotation is used for such grouping. Even though test packages are defined in a flat structure the %suitepath
is used by the framework to form them into a hierarchical structure. Your payments recognition test package might look like:
create or replace package test_payment_recognition as
--%suite(Payment recognition tests)
--%suitepath(payments)
--%test(Recognize payment by policy number)
procedure test_recognize_by_num;
--%test(Recognize payment by payment purpose)
procedure test_recognize_by_purpose;
--%test(Recognize payment by customer)
procedure test_recognize_by_customer;
end test_payment_recognition;
And payments set off test package:
create or replace package test_payment_set_off as
--%suite(Payment set off tests)
--%suitepath(payments)
--%test(Creates set off)
procedure test_create_set_off;
--%test(Cancels set off)
procedure test_cancel_set_off;
end test_payment_set_off;
When you execute tests for your application, the framework constructs a test suite for each test package. Then it combines suites into grouping suites by the %suitepath
annotation value so that the fully qualified path to the recognize_by_num
procedure is USER:payments.test_payment_recognition.test_recognize_by_num
. If any of its expectations fails then the test is marked as failed, also the test_payment_recognition
suite, the parent suite payments
and the whole run is marked as failed.
The test report indicates which expectation has failed on the payments module. The payments recognition submodule is causing the failure as recognize_by_num
has not met the expectations of the test. Grouping tests into modules and submodules using the %suitepath
annotation allows you to logically organize your project's flat structure of packages into functional groups.
An additional advantage of such grouping is the fact that every element level of the grouping can be an actual unit test package containing a common module level setup for all of the submodules. So in addition to the packages mentioned above you could have the following package.
create or replace package payments as
--%suite(Payments)
--%beforeall
procedure set_common_payments_data;
--%afterall
procedure reset_common_paymnets_data;
end payments;
A %suitepath
can be provided in three ways:
- schema - execute all tests in the schema
- [schema]:suite1[.suite2][.suite3]...[.procedure] - execute all tests in all suites from suite1[.suite2][.suite3]...[.procedure] path. If schema is not provided, then the current schema is used. Example:
:all.rooms_tests
- [schema.]package[.procedure] - execute all tests in the specified test package. The whole hierarchy of suites in the schema is built before all before/after hooks or part suites for the provided suite package are executed as well. Example:
tests.test_contact.test_last_name_validator
or simplytest_contact.test_last_name_validator
iftests
is the current schema.
By default, changes performed by every setup, cleanup and test procedure are isolated by savepoints. This solution is suitable for use-cases where the code that is being tested as well as the unit tests themselves do not use transaction control (commit/rollback) or DDL commands.
In general, your unit tests should not use transaction control as long as the code you are testing is not using it too. Keeping the transactions uncommitted allows your changes to be isolated and the execution of tests does not impact others who might be using a shared development database.
If you are in a situation where the code you are testing uses transaction control (common case with ETL code), then your tests probably should not use the default automatic transaction control.
In that case use the annotation --%rollback(manual)
on the suite level to disable automatic transaction control for the entire suite.
If you are using nested suites, you need to make sure that the entire suite all the way to the root is using manual transaction control.
It is possible with utPLSQL to change the transaction control on individual suites or tests that are part of complex suite. It is strongly recommended not to have mixed transaction control in a suite. Mixed transaction control settings will not work properly when your suites are using shared setup/cleanup with beforeall, afterall, beforeeach or aftereach annotations. Your suite will most likely fail with error or warning on execution. Some of the automatic rollbacks will probably fail to execute depending on the configuration you have.
In some cases it is necessary to perform DDL as part of setup or cleanup for the tests.
It is recommended to move such DDL statements to a procedure with pragma autonomous_transaction
to eliminate implicit commits in the main session that is executing all your tests.
Doing so allows your tests to use the framework's automatic transaction control and releases you from the burden of manual cleanup of data that was created or modified by test execution.
When you are testing code that performs explicit or implicit commits, you may set the test procedure to run as an autonomous transaction with pragma autonomous_transaction
.
Keep in mind that when your test runs as autonomous transaction it will not see the data prepared in a setup procedure unless the setup procedure committed the changes.
Note
The
--%suitepath
annotation, when used, must be provided with a value of path. The path in suitepath cannot contain spaces. Dot (.) identifies individual elements of the path.Example:
--%suitepath(org.utplsql.core.utils)
The --%throws
annotation allows you to specify a list of exceptions as one of:
- number literals - example
--%throws(-20134)
- variables of type exception defined in a package specification - example
--%throws(exc_pkg.c_exception_No_variable)
- variables of type number defined in a package specification - example
--%throws(exc_pkg.c_some_exception)
- predefined oracle exceptions - example
--%throws(no_data_found)
The annotation is ignored, when no valid arguments are provided. Examples of invalid annotations --%throws()
,--%throws
, --%throws(abe, 723pf)
.
If --%throws
annotation is specified with arguments and no exception is raised, the test is marked as failed.
If --%throws
annotation is specified with arguments and exception raised is not on the list of provided exceptions, the test is marked as failed.
The framework will raise a warning, when --%throws
annotation has invalid arguments or when no arguments were provided.
Annotation --%throws(7894562, operaqk, -=1, -20496, pow74d, posdfk3)
will be interpreted as --%throws(-20496)
.
Please note that NO_DATA_FOUND
exception is a special case in Oracle. To capture it use NO_DATA_FOUND
named exception or -1403
exception No.
Example:
create or replace package exc_pkg is
c_e_option1 constant number := -20200;
c_e_option2 constant varchar2(10) := '-20201';
c_e_option3 number := -20202;
e_option4 exception;
pragma exception_init(e_option4, -20203);
end;
/
create or replace package example_pgk as
--%suite(Example Throws Annotation)
--%test(Throws one of the listed exceptions)
--%throws(-20145,bad,-20146, -20189 ,-20563)
procedure raised_one_listed_exception;
--%test(Throws different exception than expected)
--%throws(-20144)
procedure raised_different_exception;
--%test(Throws different exception than listed)
--%throws(-20144,-00001,-20145)
procedure raised_unlisted_exception;
--%test(Gives failure when an exception is expected and nothing is thrown)
--%throws(-20459, -20136, -20145)
procedure nothing_thrown;
--%test(Throws package exception option1)
--%throws(exc_pkg.c_e_option1)
procedure raised_option1_exception;
--%test(Throws package exception option2)
--%throws(exc_pkg.c_e_option2)
procedure raised_option2_exception;
--%test(Throws package exception option3)
--%throws(exc_pkg.c_e_option3)
procedure raised_option3_exception;
--%test(Throws package exception option4)
--%throws(exc_pkg.e_option4)
procedure raised_option4_exception;
--%test(Raise name exception)
--%throws(DUP_VAL_ON_INDEX)
procedure raise_named_exc;
--%test(Invalid throws annotation)
--%throws
procedure bad_throws_annotation;
end;
/
create or replace package body example_pgk is
procedure raised_one_listed_exception is
begin
raise_application_error(-20189, 'Test error');
end;
procedure raised_different_exception is
begin
raise_application_error(-20143, 'Test error');
end;
procedure raised_unlisted_exception is
begin
raise_application_error(-20143, 'Test error');
end;
procedure nothing_thrown is
begin
ut.expect(1).to_equal(1);
end;
procedure raised_option1_exception is
begin
raise_application_error(exc_pkg.c_e_option1, 'Test error');
end;
procedure raised_option2_exception is
begin
raise_application_error(exc_pkg.c_e_option2, 'Test error');
end;
procedure raised_option3_exception is
begin
raise_application_error(exc_pkg.c_e_option3, 'Test error');
end;
procedure raised_option4_exception is
begin
raise exc_pkg.e_option4;
end;
procedure raise_named_exc is
begin
raise DUP_VAL_ON_INDEX;
end;
procedure bad_throws_annotation is
begin
null;
end;
end;
/
exec ut3.ut.run('example_pgk');
Running the test will give report:
Example Throws Annotation
Throws one of the listed exceptions [.002 sec]
Throws different exception than expected [.002 sec] (FAILED - 1)
Throws different exception than listed [.003 sec] (FAILED - 2)
Gives failure when an exception is expected and nothing is thrown [.002 sec] (FAILED - 3)
Throws package exception option1 [.003 sec]
Throws package exception option2 [.002 sec]
Throws package exception option3 [.002 sec]
Throws package exception option4 [.002 sec]
Raise name exception [.002 sec]
Invalid throws annotation [.002 sec]
Failures:
1) raised_different_exception
Actual: -20143 was expected to equal: -20144
ORA-20143: Test error
ORA-06512: at "UT3.EXAMPLE_PGK", line 9
ORA-06512: at "UT3.EXAMPLE_PGK", line 9
ORA-06512: at line 6
2) raised_unlisted_exception
Actual: -20143 was expected to be one of: (-20144, -1, -20145)
ORA-20143: Test error
ORA-06512: at "UT3.EXAMPLE_PGK", line 14
ORA-06512: at "UT3.EXAMPLE_PGK", line 14
ORA-06512: at line 6
3) nothing_thrown
Expected one of exceptions (-20459, -20136, -20145) but nothing was raised.
Warnings:
1) example_pgk
Invalid parameter value "bad" for "--%throws" annotation. Parameter ignored.
at "UT3.EXAMPLE_PGK.RAISED_ONE_LISTED_EXCEPTION", line 6
2) example_pgk
"--%throws" annotation requires a parameter. Annotation ignored.
at "UT3.EXAMPLE_PGK.BAD_THROWS_ANNOTATION", line 42
Finished in .025784 seconds
10 tests, 3 failed, 0 errored, 0 disabled, 2 warning(s)
create or replace package test_employee_pkg is
--%suite(Employee management)
--%suitepath(com.my_company.hr)
--%rollback(auto)
--%beforeall
procedure setup_employees;
--%beforeall
procedure setup_departments;
--%afterall
procedure cleanup_log_table;
--%context(add_employee)
--%beforeeach
procedure setup_for_add_employees;
--%test(Raises exception when employee already exists)
--%throws(-20145)
procedure add_existing_employee;
--%test(Inserts employee to emp table)
procedure add_employee;
--%endcontext
--%context(remove_employee)
--%beforeall
procedure setup_for_remove_employee;
--%test(Removed employee from emp table)
procedure del_employee;
--%endcontext
--%test(Test without context)
--%beforetest(setup_another_test)
--%aftertest(cleanup_another_test)
procedure some_test;
--%test(Name of test)
--%disabled
procedure disabled_test;
--%test(Name of test)
--%rollback(manual)
procedure no_transaction_control_test;
procedure setup_another_test;
procedure cleanup_another_test;
--%beforeeach
procedure set_session_context;
--%aftereach
procedure cleanup_session_context;
end test_employee_pkg;
When processing the test suite test_employee_pkg
defined in Example of annotated test package, the order of execution will be as follows.
create a savepoint 'before-suite'
execute setup_employees (--%beforeall)
execute setup_departments (--%beforeall)
create a savepoint 'before-context'
create savepoint 'before-test'
execute test_setup (--%beforeeach)
execute setup_for_add_employees (--%beforeeach from context)
execute add_existing_employee (--%test)
execute test_cleanup (--%aftereach)
rollback to savepoint 'before-test'
create savepoint 'before-test' (--%suite)
execute test_setup (--%beforeeach)
execute setup_for_add_employees (--%beforeeach from context)
execute add_employee (--%test)
execute test_cleanup (--%aftereach)
rollback to savepoint 'before-test'
rollback to savepoint 'before-context'
create a savepoint 'before-context'
execute setup_for_remove_employee (--%beforeall from context)
create savepoint 'before-test'
execute test_setup (--%beforeeach)
execute add_existing_employee (--%test)
execute test_cleanup (--%aftereach)
rollback to savepoint 'before-test'
rollback to savepoint 'before-context'
create savepoint 'before-test'
execute test_setup (--%beforeeach)
execute some_test (--%test)
execute test_cleanup (--%aftereach)
rollback to savepoint 'before-test'
create savepoint 'before-test'
execute test_setup (--%beforeeach)
execute setup_another_test (--%beforetest)
execute another_test (--%test)
execute cleanup_another_test (--%aftertest)
execute test_cleanup (--%beforeeach)
rollback to savepoint 'before-test'
mark disabled_test as disabled (--%test --%disabled)
execute test_setup (--%beforeeach)
execute no_transaction_control_test (--%test)
execute test_cleanup (--%aftertest)
execute global_cleanup (--%afterall)
rollback to savepoint 'before-suite'
Note
utPLSQL does not guarantee ordering of tests in suite. On contrary utPLSQL might give random order of tests/contexts in suite.
Order of execution within multiple occurrences of
before
/after
procedures is determined by the order of annotations in specific block (context/suite) of package specification.
It is possible to access information about currently running suite, test and befire/after procedure form within PLSQL procedure using SYS_CONTEXT.
The information is available by calling sys_context( 'UT3_INFO', attribute )
.
Following attributes are populated:
-
Always:
sys_context( 'UT3_INFO', 'RUN_PATHS' );
- list of suitepaths / suitenames used as input parameters for call tout.run(...)
orut_runner.run(...)
sys_context( 'UT3_INFO', 'SUITE_DESCRIPTION' );
- the description of test suite that is currently being executedsys_context( 'UT3_INFO', 'SUITE_PACKAGE' );
- the owner and name of test suite package that is currently being executedsys_context( 'UT3_INFO', 'SUITE_PATH' );
- the suitepath for the test suite package that is currently being executedsys_context( 'UT3_INFO', 'SUITE_START_TIME' );
- the execution start timestamp of test suite package that is currently being executedsys_context( 'UT3_INFO', 'CURRENT_EXECUTABLE_NAME' );
- the owner.package.procedure of currently running test suite executablesys_context( 'UT3_INFO', 'CURRENT_EXECUTABLE_TYPE' );
- the type of currently running test suite executable (one of:beforeall
,beforeeach
,beforetest
,test
,aftertest
,aftereach
,afterall
-
When running in suite context
sys_context( 'UT3_INFO', 'CONTEXT_DESCRIPTION' );
- the description of test suite context that is currently being executedsys_context( 'UT3_INFO', 'CONTEXT_NAME' );
- the name of test suite context that is currently being executedsys_context( 'UT3_INFO', 'CONTEXT_PATH' );
- the suitepath for the currently executed test suite contextsys_context( 'UT3_INFO', 'CONTEXT_START_TIME' );
- the execution start timestamp for the currently executed test suite context
-
When running a suite executable procedure that is a
test
orbeforeeach
,aftereach
,beforetest
,aftertest
sys_context( 'UT3_INFO', 'TEST_DESCRIPTION' );
- the description of test for which the current executable is being invokedsys_context( 'UT3_INFO', 'TEST_NAME' );
- the name of test for which the current executable is being invokedsys_context( 'UT3_INFO', 'TEST_START_TIME' );
- the execution start timestamp of test that is currently being executed (the time when firstbeforeeach
/beforetest
was called for that test)
Example:
create or replace procedure which_procecure_called_me is
begin
dbms_output.put_line(
'Currently running utPLSQL ' ||sys_context( 'ut3_info', 'current_executable_type' )
||' ' ||sys_context( 'ut3_info', 'current_executable_name' )
);
end;
/
create or replace package test_call is
--%suite
--%beforeall
procedure beforeall;
--%beforeeach
procedure beforeeach;
--%test
procedure test1;
--%test
procedure test2;
end;
/
create or replace package body test_call is
procedure beforeall is
begin
which_procecure_called_me();
dbms_output.put_line('Current test procedure is: '||sys_context('ut3_info','test_name'));
end;
procedure beforeeach is
begin
which_procecure_called_me();
dbms_output.put_line('Current test procedure is: '||sys_context('ut3_info','test_name'));
end;
procedure test1 is
begin
which_procecure_called_me();
ut.expect(sys_context('ut3_info','suite_package')).to_equal(user||'.test_call');
end;
procedure test2 is
begin
which_procecure_called_me();
ut.expect(sys_context('ut3_info','test_name')).to_equal(user||'.test_call.test2');
end;
end;
/
exec ut.run('test_call');
test_call
Currently running utPLSQL beforeall UT3.test_call.beforeall
Current test procedure is:
test1 [.008 sec]
Currently running utPLSQL beforeeach UT3.test_call.beforeeach
Current test procedure is: UT3.test_call.test1
Currently running utPLSQL test UT3.test_call.test1
test2 [.004 sec]
Currently running utPLSQL beforeeach UT3.test_call.beforeeach
Current test procedure is: UT3.test_call.test2
Currently running utPLSQL test UT3.test_call.test2
Finished in .021295 seconds
2 tests, 0 failed, 0 errored, 0 disabled, 0 warning(s)
utPLSQL needs to scan the source of package specifications to identify and parse annotations. To improve framework startup time, especially when dealing with database users owning large amounts of packages, the framework has a built-in persistent cache for annotations.
The annotation cache is checked for staleness and refreshed automatically on every run. The initial startup of utPLSQL for a schema will take longer than consecutive executions.
If you are in a situation where your database is controlled via CI/CD server and is refreshed/wiped before each run of your tests, consider building the annotation cache upfront and taking a snapshot of the database after the cache has been refreshed.
To build the annotation cache without actually invoking any tests, call ut_runner.rebuild_annotation_cache(a_object_owner)
for every unit test owner for which you want to have the annotation cache prebuilt.
Example:
exec ut_runner.rebuild_annotation_cache('HR');
To purge the annotation cache call ut_runner.purge_cache(a_object_owner, a_object_type)
.
Both parameters are optional and if not provided, all owners/object_types will be purged.
Example:
exec ut_runner.purge_cache('HR', 'PACKAGE');