(.module: [library [lux {"-" nat} [abstract [equivalence {"+" Equivalence}] [order {"+" Order}]] [control ["[0]" try {"+" Try}] ["[0]" exception {"+" exception:}]] [data [text ["%" format {"+" format}]] ["[0]" format "_" ["[1]" binary {"+" Writer}]]] [macro ["[0]" template]] [math [number ["n" nat] ["[0]" i64]]] [type abstract]]]) (abstract: .public (Unsigned brand) Nat (def: .public value (-> (Unsigned Any) Nat) (|>> :representation)) (implementation: .public equivalence (All (_ brand) (Equivalence (Unsigned brand))) (def: (= reference sample) (n.= (:representation reference) (:representation sample)))) (implementation: .public order (All (_ brand) (Order (Unsigned brand))) (def: &equivalence ..equivalence) (def: (< reference sample) (n.< (:representation reference) (:representation sample)))) (exception: .public (value_exceeds_the_maximum [type Symbol value Nat maximum (Unsigned Any)]) (exception.report ["Type" (%.symbol type)] ["Value" (%.nat value)] ["Maximum" (%.nat (:representation maximum))])) (exception: .public [brand] (subtraction_cannot_yield_negative_value [type Symbol parameter (Unsigned brand) subject (Unsigned brand)]) (exception.report ["Type" (%.symbol type)] ["Parameter" (%.nat (:representation parameter))] ["Subject" (%.nat (:representation subject))])) (template [ <+> <-> ] [(with_expansions [ (template.symbol [ "'"])] (abstract: .public Any) (type: .public (Unsigned ))) (def: .public ) (def: .public (|> (n.* i64.bits_per_byte) i64.mask :abstraction)) (def: .public ( value) (-> Nat (Try )) (if (n.> (:representation ) value) (exception.except ..value_exceeds_the_maximum [(symbol ) value ]) {try.#Success (:abstraction value)})) (def: .public (<+> parameter subject) (-> (Try )) ( (n.+ (:representation parameter) (:representation subject)))) (def: .public (<-> parameter subject) (-> (Try )) (let [parameter' (:representation parameter) subject' (:representation subject)] (if (n.> subject' parameter') (exception.except ..subtraction_cannot_yield_negative_value [(symbol ) parameter subject]) {try.#Success (:abstraction (n.- parameter' subject'))}))) (def: .public ( left right) (-> ) (:abstraction (n.max (:representation left) (:representation right))))] [1 U1 bytes/1 u1 maximum/1 +/1 -/1 max/1] [2 U2 bytes/2 u2 maximum/2 +/2 -/2 max/2] [4 U4 bytes/4 u4 maximum/4 +/4 -/4 max/4] ) (template [ ] [(def: .public (-> ) (|>> :transmutation))] [lifted/2 U1 U2] [lifted/4 U2 U4] ) (template [ ] [(def: .public (Writer ) (|>> :representation ))] [writer/1 U1 format.bits/8] [writer/2 U2 format.bits/16] [writer/4 U4 format.bits/32] ) )