Create unit tests and benchmarks at the same time
MIT License
Test your benchmarks!
Benchmark your tests!
It's too easy to accidentally try and benchmark apples and oranges together. Wouldn't it be nice if you could somehow guarantee that your benchmarks satisfy some simple tests (e.g. a group of comparisons all return the same value)?
Furthermore, trying to compare multiple inputs/functions against each
other requires a lot of boilerplate, making it even easier to
accidentally compare the wrong things (e.g. using whnf
instead of
nf
).
testbench aims to help solve these problems and more by making it easier to write unit tests and benchmarks together by stating up-front what requirements are needed and then using simple functions to state the next parameter to be tested/benchmarked.
This uses HUnit and criterion to create the tests and benchmarks
respectively, and it's possible to obtain these explicitly to embed
them within existing test- or benchmark-suites. Alternatively, you
can use the provided testBench
function directly to first run the
tests and then -- if the tests all succeeded -- run the benchmarks.
Please see the provided examples/
directory.
No availability of specifying an environment to run benchmarks in.
To be able to display the tree-like structure more readily for comparisons, the following limitations (currently) have to be made:
The idea behind testbench came about because of two related dissatisfactions with criterion that I found:
Even when the bcompare
function was still available, it still
seemed very difficult/clumsy to write comparison benchmarks since
so much needed to be duplicated for each comparison.
When trying to find examples of benchmarks that performed
comparisons between different implementations, I came across some
that seemingly did the same calculation on different
inputs/implementations, but upon closer analysis the implementation
that "won" was actually doing less work than the others (not by a
large amount, but the difference was non-negligible in my opinion).
This would have been easy to pick up if even a simple test was
performed (e.g. using ==
would have led rise to a type mis-match,
making it obvious they did different things).
testbench aims to solve these problems by making it easier to write
comparisons up-front: by using the compareFunc
function to specify
what you are benchmarking and how, then using comp
just to specify
the input (without needing to also re-specify the function,
evaluationg type, etc.).
No, for basic/default usage this library handles all that for you.
There are two overall hints for good benchmarks though:
Use the NFData
variants (e.g. normalForm
) where possible: this
ensures the calculation is actually completed rather than laziness
biting you.
If the variance is high, make the benchmark do more work to decrease it.
Hopefully by the nature of this question it is obvious why I did not pick one over the others. HUnit is low-level enough that it can be utilised by any of the others if so required whilst keeping the dependencies required minimal.
Not to mention that these tests are more aimed at checking that the benchmarks are valid and are thus typically equality/predicate-based tests on the result from a simple function; as such it is more intended that they are quickly run as a verification stage rather than the basis for a large test-suite.
criterion currently does not lend itself well to visualising the results from comparison-style benchmarks:
A very limited internal tree-like structure which is not really apparent when results are displayed.
No easy way to actually compare benchmark values: there used to be
a bcompare
function but it hasn't been available since version
1.0.0.0 came out in August 2014. As such, comparisons must be done
by hand by comparing the results visually.
Having more than a few benchmarks together produces a lot of output (either to the terminal or a resulting report): combined with the previous point, having more than a few benchmarks is discouraged.
Note that if however you wish to use criterion more directly (either
for configurability or to be able to have reports), a combination of
getTestBenches
and flattenBenchForest
will provide you with a
Benchmark
value that is accepted by criterion.