Package: |
svUnit |
Type: |
Package |
Version: |
0.7-12 |
Date: |
2014-03-02 |
License: |
GPL 2 or above, at your convenience |
The test unit framework provided in svUnit is based on tests, also called
assertions, implemented in checkxxx()
functions. For instance, the
checkTrue(expr)
function check if its 'expr' argument returns
TRUE
. Results of these assertions are collected in a centralized logger
located in the .Log
object in .GlobalEnv. This is a 'svSuiteData'
object with data about the context of the tests (see for instance,
lastTest()
, lastSuite()
or metadata(.Log)
).
Assertions can give three results: (1) TRUE
if success,
(2) FALSE
in case of failure (in our example, 'expr' in
checkTrue(expr)
did not return TRUE
), and (3) NA
if the
code in 'expr' cannot be parsed or executed correctly. All these errors or
failures are catch and recorded in the logger, as individual 'svTestData'
objects.
Both the logger ('svSuiteData' object) and test records inside it
('svTestData' objects) have convenient methods to visualize information they
contain: print()
, summary()
and stats()
methods. Access
to the individual test records in the logger is done with list-like
instructions: .Log$mytest
returns the 'svTestData' object named
'mytest', itself the result of running test in the 'mytest' test function
(i.e., runTest(mytest)
, see hereunder). Assertions run at the command
line, outside of specific contexts provided by test functions, test units and
test suites (see hereunder) are recorded under the 'eval' 'svTestData' object
in the logger (i.e., .Log$eval
).
Since a 'svSuiteData' object (the logger) is also an environment, you can get
the list of all test records it contains using ls(.Log)
, and you can
eliminate a given test record using something like:
rm(mytest, envir = .Log)
.
Test cases are collections of assertions with the satellite code needed to
build example or situations to be tested. They are collected together in
argument-less functions with class being 'svTest'. See ?svTest
for
further explanations and a couple of example test cases/test functions.
In its simplest instance, a test function is defined as a separate R object
loaded in memory (unlike RUnit where all test must be defined in files). You
run it simply by using runTest(mytest)
. A slightly more structured way
to work is to attach the test function to the object it testes. You use
test(myobj) <- testmyobj
to do so, and retrieve it with
test(myobj)
. Now, the test function always follows the tested object.
Testing the object is still simple by using runTest(myobj)
, which is
totally equivalent to runTest(test(myobj))
. One can determine if an
object has a test function associated, or is a test function itself by using
is.test(myobj)
.
Several test functions can be collected together in so-called test units. A
test unit only exists on disk. It is a file named 'runit*.R' containing
sourceable R code with test functions having names starting with 'test'
(unlike RUnit, the default convention of file names starting with 'runit' and
test function names starting with 'test' is not customizable in svUnit). One
can also define special .setUp()
and .tearDown()
functions in
the unit. The first function will be run before each test function, and the
latter one will be run after it. Test units are created manually, or from a
collection of objects with associated test functions loaded in an environment
(usually .GlobalEnv) thanks to the makeUnit()
method. These units
should be mutually compatible with those used in the RUnit package (at least
this is verified with version 0.4-17 of RUnit).
Test units defined for packages should be located in the package /runitTests
subdirectory (/inst/runitTests for source of the package) or one of its
subdirectories. That way, they are located automatically by the function
svSuiteList()
that also automatically detects all objects with
associated test functions loaded in .GlobalEnv. Test suites are 'svSuite'
objects with a list of test units or test objects to collect in the suite.
Thus, svSuiteList()
automatically builds such a suite with all tests it
finds in R, with many possibilities to filter packages' test units, objects'
test functions, or to add non standard directories with test units, for
instance. See ?svSuite
for more details on creating and using these
suites.
A GUI (Graphical User Interface) is provided to automatically build and run
tests suites and to get a graphical (tree) interactive report of the results
in the Komodo Edit or IDE code editor, together with the SciViews-K extension.
If you want to use this (optional) GUI, visit
http://www.sciviews/org/SciViews-K to install required software components on
your machine.
Finally, the svUnit framework is compatible with R CMD check (see the manual
"Writing R extensions"). You simply define man pages (.Rd files) with an
example section running selected test units from your package. The function
errorLog()
is designed to generate and error if one or more tests
failed or raised an error during R CMD check, and it should be used at the end
of the example that runs your unit test(s). That way, R CMD check is
interrupted and a detailed report of the tests that failed or raised an error
is printed. See an example in ?unitTests.svUnit
.