When there is a panic in an extensive test, tracing down where it came
from can be difficult since no information is provides (messeges are
e.g. "attempted to subtract with overflow"). Resolve this by calling the
functions within `panic::catch_unwind`, printing the input, and
continuing.
This also allows reusing the same generator logic between logspace tests
and extensive tests, so comes with a nice bit of cleanup.
Changes:
* Make the generator part of `CheckCtx` since a `Generator` and
`CheckCtx` are almost always passed together.
* Rename `domain_logspace` to `spaced` since this no longer only
operates within a domain and we may want to handle integer spacing.
* Domain is now calculated at runtime rather than using traits, which is
much easier to work with.
* With the above, domains for multidimensional functions are added.
* The extensive test generator code tests has been combined with the
domain_logspace generator code. With this, the domain tests have just
become a subset of extensive tests. These were renamed to "quickspace"
since, technically, the extensive tests are also "domain" or "domain
logspace" tests.
* Edge case generators now handle functions with multiple inputs.
* The test runners can be significantly cleaned up and deduplicated.
Currently the features that control what we test against are
`build-musl` and `test-multiprecision`. I didn't name them very
consistently and there isn't really any reason for that.
Rename `test-multiprecision` to `build-mpfr` to better reflect what it
actually does and to be more consistent with `build-musl`.
Add a generator that will test all inputs for input spaces `u32::MAX` or
smaller (e.g. single-argument `f32` routines). For anything larger,
still run approximately `u32::MAX` tests, but distribute inputs evenly
across the function domain.
Since we often only want to run one of these tests at a time, this
implementation parallelizes within each test using `rayon`. A custom
test runner is used so a progress bar is possible.
Specific tests must be enabled by setting the `LIBM_EXTENSIVE_TESTS`
environment variable, e.g.
LIBM_EXTENSIVE_TESTS=all_f16,cos,cosf cargo run ...
Testing on a recent machine, most tests take about two minutes or less.
The Bessel functions are quite slow and take closer to 10 minutes, and
FMA is increased to run for about the same.
