License | MIT |
---|---|
Maintainer | douglas.mcclean@gmail.com |
Stability | experimental |
Safe Haskell | Safe |
Language | Haskell2010 |
Extensions |
|
This kind is sufficient to exactly express the closure of Q⁺ ∪ {π} under multiplication and division. As a result it is useful for representing conversion factors between physical units.
Synopsis
- data ExactPi' = ExactPi' TypeInt Nat Nat
- class KnownExactPi (v :: ExactPi') where
- type family (a :: ExactPi') * (b :: ExactPi') :: ExactPi' where ...
- type family (a :: ExactPi') / (b :: ExactPi') :: ExactPi' where ...
- type family Recip (a :: ExactPi') :: ExactPi' where ...
- type ExactNatural n = ExactPi' Zero n 1
- type One = ExactNatural 1
- type Pi = ExactPi' Pos1 1 1
- type MinCtxt v a = (KnownExactPi v, MinCtxt' v a, KnownMinCtxt (MinCtxt' v))
- type family MinCtxt' (v :: ExactPi') where ...
- injMin :: forall v a. MinCtxt v a => Proxy v -> a
Type Level ExactPi Values
A type-level representation of a non-negative rational multiple of an integer power of pi.
Each type in this kind can be exactly represented at the term level by a value of type ExactPi
,
provided that its denominator is non-zero.
Note that there are many representations of zero, and many representations of dividing by zero. These are not excluded because doing so introduces a lot of extra machinery. Play nice! Future versions may not include a representation for zero.
Of course there are also many representations of every value, because the numerator need not be comprime to the denominator. For many purposes it is not necessary to maintain the types in reduced form, they will be appropriately reduced when converted to terms.
class KnownExactPi (v :: ExactPi') where Source #
A KnownDimension is one for which we can construct a term-level representation.
Each validly constructed type of kind ExactPi'
has a KnownExactPi
instance, provided that
its denominator is non-zero.
Instances
(KnownTypeInt z, KnownNat p, KnownNat q, 1 <= q) => KnownExactPi (ExactPi' z p q) Source # | |
Defined in Data.ExactPi.TypeLevel |
Arithmetic
type family (a :: ExactPi') * (b :: ExactPi') :: ExactPi' where ... Source #
Forms the product of ExactPi'
types (in the arithmetic sense).
type family (a :: ExactPi') / (b :: ExactPi') :: ExactPi' where ... Source #
Forms the quotient of ExactPi'
types (in the arithmetic sense).
type family Recip (a :: ExactPi') :: ExactPi' where ... Source #
Forms the reciprocal of an ExactPi'
type.
type One = ExactNatural 1 Source #
The ExactPi'
type representing the number 1.
Conversion to Term Level
type family MinCtxt' (v :: ExactPi') where ... Source #
Determines the minimum context required for a numeric type to hold the value
associated with a specific ExactPi'
type.
injMin :: forall v a. MinCtxt v a => Proxy v -> a Source #
Converts an ExactPi'
type to a numeric value with the minimum required context.
When the value is known to be an integer, it can be returned as any instance of Num
. Similarly,
rationals require Fractional
, and values that involve pi
require Floating
.