This document shows how to use the DBItest package when implementing a new DBI backend or when applying it to an existing backend. The DBItest package provides a large collection of automated tests.
The test cases in the DBItest package are structured very similarly to the sections in the “backend” vignette:
Like the “backend” vignette, this vignette assumes that you are
implementing the RKazam package that has a
Kazam() function that creates a new DBIDriver
instance for connecting to a “Kazam” database.
You can add the tests in the DBItest package incrementally, as you
proceed with implementing the various parts of the DBI. The DBItest
package builds upon the testthat package. To enable it, run the
following in your package directory (after installing or updating
devtools):
This creates, among others, a file test-DBItest.R in the
tests/testthat directory. Replace its entire contents by
the following:
Now test your package with devtools::test(). If you
followed at least the “Getting started” section of the DBI “backend”
vignette, all tests should succeed.
By adding the corresponding test function to your
tests/test-DBItest.R file before implementing a
section, you get immediate feedback which functionality of this section
still needs to be implemented by running devtools::test()
again. Therefore, proceed by appending the following to
tests/test-DBItest.R, to include a test case for the
forthcoming section:
Again, all tests should succeed when you are done with the “Driver” section. Add the call to the next tester function, implement the following section until all tests succeed, and so forth.
In this scenario, you are usually interested only in the first error
the test suite finds. The StopReporter of
testthat is most helpful here, activate it by passing
reporter = "stop" to devtools::test().
Alternatively, call the relevant DBItest::test_() function
directly.
The tests are documented with the corresponding functions: For
instance, ?test_driver shows a coarse description of all
tests for the “Driver” test case. Test failures will include the name of
the test that is failing; in this case, investigating the documentation
or the source code of the DBItest package will usually lead to the cause
of the error.
Not all tests can be satisfied: For example, there is one test that
tests that logical variables survive a write-read roundtrip
to the database, whereas another test tests that logical
variables are converted to integer in such a case. Tests
can be skipped by adding regular expressions for the tests to skip as
character vector to the call, as in the following1:
Some other reasons to skip tests are: - your database does not support a feature - you want to postpone or avoid the implementation of a feature - the test takes too long to run.
For an existing backends, simply enabling all tests may be the
quickest way to get started. Run the following in your package directory
(after installing or updating devtools):
This creates, among others, a file test-DBItest.R in the
tests/testthat directory. Replace its entire contents by
the following:
The notes about “Kazam” and skipping tests from the previous section
apply here as well. The test_all() function simply calls
all test cases.
DBItest is currently geared towards usage as part of a package’s test suite. With some effort it is possible to test a database backend against a custom database. This can help verify that your database installation gives expected results when accessed with DBI with specific connection arguments.
The example below shows how to run tests with the RSQLite backend.
First, we need to define a test context. It contains:
?DBI::`DBIConnector-class` for details,?tweaks,Database backends that use DBItest for testing usually have a file
test/testthat/helper-DBItest.R or
test/testthat/test-DBItest.R where a call to
make_context() can be found. The help for
make_context() already contains an example that works for
RSQLite. Adapt it to your needs.
The make_context() function must be called before any
tests can run.
library(DBItest)
tweaks <- tweaks(
constructor_relax_args = TRUE,
placeholder_pattern = c("?", "$1", "$name", ":name"),
date_cast = function(x) paste0("'", x, "'"),
time_cast = function(x) paste0("'", x, "'"),
timestamp_cast = function(x) paste0("'", x, "'"),
logical_return = function(x) as.integer(x),
date_typed = FALSE,
time_typed = FALSE,
timestamp_typed = FALSE
)
default_skip <- c("roundtrip_date", "roundtrip_timestamp")
invisible(make_context(
new(
"DBIConnector",
.drv = RSQLite::SQLite(),
.conn_args = list(dbname = tempfile("DBItest", fileext = ".sqlite"))
),
tweaks = tweaks,
default_skip = default_skip
))Use test_all() to run all tests, and
test_some() to run a specific test that failed previously.
The test_* functions need to be run with a testthat
reporter to avoid stopping at the first error or warning. For
interactive use, the “progress” reporter gives good results. In the
example below, the “location” and “stop” reporters are combined. Review
?testthat::Reporter for a list of reporters.
## Test passedDBItest relies heavily on metaprogramming. Unfortunately, this means
that a failing test may give no indication of the reason for the
failure. The test_some() function now by default integrates
the new experimental dblog
package package. It prints the DBI code that is executed as the
tests are run, as seen above.
Another way to scout for the reason of the problem is to review the sources of DBItest and relate the test name (that is printed with each failure) with the human-readable specification embedded with the test code.
## Start test: DBItest: Result: get_query_atomic
## [success]
## [success]
## [success]
## [success]
## [success]
## [success]
## [success]
## End test: DBItest: Result: get_query_atomicThe terminating NULL allows appending new
lines to the end by copy-pasting an existing line, without having to
take care of the terminating comma.↩︎