new-luxc/source/luxc/analyser/function.lux


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(;module:
  lux
  (lux (control monad)
       (data [text]
             text/format
             (coll [list "L/" Fold<List> Monoid<List> Monad<List>]))
       [macro #+ Monad<Lux>]
       [type]
       (type ["TC" check]))
  (luxc ["&" base]
        (lang ["la" analysis #+ Analysis])
        ["&;" env]
        (analyser ["&;" common])))

## [Analysers]
(def: (bind-var var-id bound-idx type)
  (-> Nat Nat Type Type)
  (case type
    (#;Host name params)
    (#;Host name (L/map (bind-var var-id bound-idx) params))

    (^template [<tag>]
      (<tag> left right)
      (<tag> (bind-var var-id bound-idx left)
             (bind-var var-id bound-idx right)))
    ([#;Sum]
     [#;Product]
     [#;Function]
     [#;App])
    
    (#;Var id)
    (if (n.= var-id id)
      (#;Bound bound-idx)
      type)

    (^template [<tag>]
      (<tag> env quantified)
      (<tag> (L/map (bind-var var-id bound-idx) env)
             (bind-var var-id (n.+ +2 bound-idx) quantified)))
    ([#;UnivQ]
     [#;ExQ])
    
    (#;Named name unnamedT)
    (#;Named name
             (bind-var var-id bound-idx unnamedT))

    _
    type))

(def: #export (analyse-function analyse func-name arg-name body)
  (-> &;Analyser Text Text Code (Lux Analysis))
  (do Monad<Lux>
    [original macro;expected-type]
    (loop [expected original]
      (&;with-stacked-errors
        (function [_] (format "Functions require function types: " (type;to-text expected)))
        (case expected
          (#;Named name unnamedT)
          (recur unnamedT)

          (#;App funT argT)
          (do @
            [fully-applied (case (type;apply-type funT argT)
                             (#;Some value)
                             (wrap value)

                             #;None
                             (&;fail (format "Cannot apply type " (%type funT) " to  type " (%type argT))))]
            (recur fully-applied))
          
          (#;UnivQ _)
          (do @
            [[var-id var] (&;within-type-env
                           TC;existential)]
            (recur (assume (type;apply-type expected var))))

          (#;ExQ _)
          (&common;with-var
            (function [[var-id var]]
              (recur (assume (type;apply-type expected var)))))
          
          (#;Var id)
          (do @
            [? (&;within-type-env
                (TC;bound? id))]
            (if ?
              (do @
                [expected' (&;within-type-env
                            (TC;read-var id))]
                (recur expected'))
              ## Inference
              (&common;with-var
                (function [[input-id inputT]]
                  (&common;with-var
                    (function [[output-id outputT]]
                      (do @
                        [#let [funT (#;Function inputT outputT)]
                         =function (recur funT)
                         funT' (&;within-type-env
                                (TC;clean output-id funT))
                         concrete-input? (&;within-type-env
                                          (TC;bound? input-id))
                         funT'' (if concrete-input?
                                  (&;within-type-env
                                   (TC;clean input-id funT'))
                                  (wrap (#;UnivQ (list) (bind-var input-id +1 funT'))))
                         _ (&;within-type-env
                            (TC;check expected funT''))]
                        (wrap =function))
                      ))))))

          (#;Function inputT outputT)
          (<| (:: @ map (|>. #la;Function))
              &;with-scope
              (&env;with-local [func-name original])
              (&env;with-local [arg-name inputT])
              (&;with-expected-type outputT)
              (analyse body))
          
          _
          (&;fail "")
          )))))

(def: (analyse-apply' analyse funcT args)
  (-> &;Analyser Type (List Code) (Lux [Type (List Analysis)]))
  (case args
    #;Nil
    (:: Monad<Lux> wrap [funcT (list)])
    
    (#;Cons arg args')
    (&;with-stacked-errors
      (function [_] (format "Cannot apply function " (%type funcT)
                            " to args: " (|> args (L/map %code) (text;join-with " "))))
      (case funcT
        (#;Named name unnamedT)
        (analyse-apply' analyse unnamedT args)

        (#;UnivQ _)
        (&common;with-var
          (function [[var-id varT]]
            (do Monad<Lux>
              [[outputT argsA] (analyse-apply' analyse (assume (type;apply-type funcT varT)) args)]
              (do @
                [? (&;within-type-env
                    (TC;bound? var-id))
                 outputT' (if ?
                            (&;within-type-env
                             (TC;clean var-id outputT))
                            (wrap (#;UnivQ (list) (bind-var var-id +1 outputT))))]
                (wrap [outputT' argsA])))))

        (#;ExQ _)
        (do Monad<Lux>
          [[ex-id exT] (&;within-type-env
                        TC;existential)]
          (analyse-apply' analyse (assume (type;apply-type funcT exT)) args))

        (#;Function inputT outputT)
        (do Monad<Lux>
          [[outputT' args'A] (analyse-apply' analyse outputT args')
           argA (&;with-stacked-errors
                  (function [_] (format "Expected type: " (%type inputT) "\n"
                                        " For argument: " (%code arg)))
                  (&;with-expected-type inputT
                    (analyse arg)))]
          (wrap [outputT' (list& argA args'A)]))

        _
        (&;fail (format "Cannot apply a non-function: " (%type funcT)))))
    ))

(def: #export (analyse-apply analyse funcT funcA args)
  (-> &;Analyser Type Analysis (List Code) (Lux Analysis))
  (do Monad<Lux>
    [expected macro;expected-type
     [applyT argsA] (analyse-apply' analyse funcT args)
     _ (&;within-type-env
        (TC;check expected applyT))]
    (wrap (L/fold (function [arg func]
                    (#la;Apply arg func))
                  funcA
                  argsA))))