Commit Graph

9 Commits

Author SHA1 Message Date
a2f76a55b8 feat(return types): Add more return types for complex functions
These changes greatly increased the need for precision in generating
  implementations for signatures of operations whenever possible. So this
  commit also includes a refactor that basically caches all of the
  conversions of Pocomath implementations to typed-function implementatios so
  that they are more often externally available (i.e., not disrupted so much
  after invalidation).
2022-08-26 23:54:32 -04:00
e26df5f4fc feat(quaternion): Add convenience quaternion creator function
Even in the setup just prior to this commit, a quaternion with entries
  of type `number` is simply a `Complex<Complex<number>>`
  So if we provide a convenience wrapper to create sucha thing, we
  instantly have a quaternion data type. All of the operations come for
  "free" if they were properly defined for the `Complex` template.
  Multiplication already was, `abs` needed a little tweak, but there is
  absolutely no "extra" code to support quaternions. (This commit
  does not go through and check all arithmetic functions for proper operation
  and tweak those that still need some generalization.)

  Note that with the recursive template instantiation, a limit had to be placed
  on template instantiation depth. The limit moves deeper as actual arguments
  that are deeper nested instantiations are seen, so as long as one doesn't
  immediately invoke a triply-nested template, for example, the limit will
  never prevent an actual computation. It just prevents a runaway in the types
  that Pocomath thinks it needs to know about. (Basically before, using the
  quaternion creator would produce `Complex<Complex<number>>`. Then when you
  called it again, Pocomath would think "Maybe I will need
  `Complex<Complex<Complex<number>>>`?!" and create that, even though it had
  never seen that, and then another level next time, and so on. The limit
  just stops this progression one level beyond any nesting depth that's
  actually been observed.
2022-08-06 20:13:50 -07:00
1444b9828f refactor(Complex): Now a template type!
This means that the real and imaginary parts of a Complex must now be
  the same type. This seems like a real benefit: a Complex with a number real
  part and a bigint imaginary part does not seem sensible.

  Note that this is now straining typed-function in (at least) the following
  ways:
  (1) In this change, it was necessary to remove the logic that the square root
      of a negative number calls complex square root, which then calls back
      to the number square root in its algorithm. (This was creating a circular
      reference in the typed-function which the old implementation of Complex
      was somehow sidestepping.)
  (2) typed-function could not follow conversions that would be allowed by
      uninstantiated templates (e.g. number => Complex<number> if the latter
      template has not been instantiated) and so the facility for
      instantiating a template was surfaced (and for example is called explicitly
      in the demo loader `extendToComplex`. Similarly, this necessitated
      making the unary signature of the `complex` conversion function explicit,
      rather than just via implicit conversion to Complex.
  (3) I find the order of implementations is mattering more in typed-function
      definitions, implying that typed-function's sorting algorithm is having
      trouble distinguishing alternatives.

  But otherwise, the conversion went quite smoothly and I think is a good demo
  of the power of this approach. And I expect that it will work even more
  smoothly if some of the underlying facilities (subtypes, template types) are
  integrated into typed-function.
2022-08-06 08:27:44 -07:00
7d1a435aa0 feat(floor): Provide example of op-centric organization 2022-08-01 08:28:21 -07:00
fe54bc6004 feat: Template operations (#41)
Relational functions are added using templates, and existing generic functions are made more strict with them. Also a new built-in typeOf function is added, that automatically updates itself.

Resolves #34.

Co-authored-by: Glen Whitney <glen@studioinfinity.org>
Reviewed-on: #41
2022-08-01 10:09:32 +00:00
102a7c42dc feat(Complex): support division 2022-07-31 11:08:07 -07:00
c429c19dfe feat: Implement subtypes
This should eventually be moved into typed-function itself, but for
  now it can be implemented on top of the existing typed-function.

  Uses subtypes to define (and error-check) gcd and lcm, which are only
  defined for integer arguments.

  Resolves #36.
2022-07-30 04:59:04 -07:00
f68c7bd1fb fix(Types): Move distinct types into distinct identifiers
This allows types to be collected; prior to this commit they
   were conflicting from different modules.

   Uses this fix to extend sqrt to bigint, with the convention
   that it is undefined for non-perfect squares when 'predictable'
   is false and is the "best" approximation to the square root when
   'predictable' is true. Furthermore, for negative bigints, you might
   get a Gaussian integer when predictable is false; or you will just get
   your argument back when 'predictable' is true because what other
   bigint could you give back for a negative bigint?

   Also had to modify tests on the sign in sqrt(Complex) and add functions
   'zero' and 'one' to get types to match, as expected in #27.

   Adds numerous tests.

   Resolves #26.
   Resolves #27.
2022-07-25 11:56:12 -07:00
91ec20edd8 feat: Implement signature-specifc reference
Also implements a config object that upon change, lazily invalidates
  all operations that access it.

  Also allows references to signatures with nonexistent types (which
  typed-function does not); they come back as undefined.

  Uses these features to implement sqrt for number and complex.

  Resolves #7.
2022-07-25 04:20:13 -07:00