Single-predicate classifications matching on TRUE can be optimized into
aliases. These sometimes occur in hand-written code, but can also be
generated by templates.
A previous commit used a rustdoc tool lint, but that support wasn't added
until 1.52.0 (2021-05-06).
Note that this represents the minimum _required_ version to build TAMER; you
can use a later version.
This template prepares for the introduction of the new classification
system, which is a full rewrite that is both more performant and more
correct in its behavior. Unfortunately, the corrections will cause problems
with old code that may be relying on certain cases, particularly where
undefined values are implicitly treated as zero.
Consequently, the legacy and new systems will exist side-by-side, able to be
toggled on as desired so people can verify that behavior is correct before
we switch it on by default. This template allows switching on the system
for an entire package (if it's placed at the toplevel), or portions of a
package, though the latter should only be used in exceptional circumstances.
See the test cases in commits to follow for more information.
This package is not used today. See RELEASES.md for more information; This
is a dangerous package that never should have existed.
This also fixes the test suite.
The classification system rewrite removed the debug value collection that
previously existed. It didn't make a whole lot of sense anyway, given that
that compiler rearranges matches.
This falls back to showing the value of the @on, which should be good
enough, and is honestly better than what we had before.
This provides an element-level rather than row-level focus, which I feel is
more appropriate.
One could draw lines to connect each of the elements, but that'd likely be
too noisy and it'd be a lot of work.
This starts with the Hadamard Product as an example. It also:
- Configures BibLaTeX with biber.
- Renames \undef, since BibLaTeX apparently defines it.
- Redefines the citation and url colors, since they're bright and ugly.
This is just some plain English to go along with and help rationalize the
text. Further rationale will be provided in a dedicated section in the
future; such information is vitally important to understand why the system
evolved as it did.
I find this provides a visualization that is likely to be significantly more
intuitive for others. It even holds when the matrix is not
rectangular (yes, I know, it's not really a matrix then), so long as all
matrices share the same respective K_j.
This uses the same variable subscript on \equiv itself to define the symbol,
rather than the previous symbol which looked like equiv rotated, but also
looked too much like a turnstile used for "infer", a metalanguage construct
that is not appropriate here. It kept bothering me.
This represents the old cmatch system (which is in use today, but the
classification system has since been rewritten, though it has not yet been
merged). It was my attempt over a decade ago to reason about how this
system ought to work.
I think it's fair to say that this is absolute insanity and that the new
formulation is significantly better.