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(.module:
  lux
  (lux (control [monad #+ do]
                ["ex" exception #+ exception:])
       (data [number]
             [text]
             text/format
             (coll [list "list/" Functor<List> Fold<List>]
                   (set ["set" unordered #+ Set])))
       [macro #+ "meta/" Monad<Meta>]
       (macro [code]))
  (luxc [lang]
        (lang [".L" variable #+ Register Variable]
              ["ls" synthesis #+ Synthesis Path]
              (host ["_" php #+ Expression Statement Except Var])))
  [//]
  (// [".T" runtime]
      [".T" primitive]
      [".T" reference]))

(def: #export (translate-let translate register valueS bodyS)
  (-> (-> Synthesis (Meta Expression)) Register Synthesis Synthesis
      (Meta Expression))
  (do macro.Monad<Meta>
    [valueO (translate valueS)
     bodyO (translate bodyS)
     #let [@register (referenceT.variable register)]]
    (wrap (|> bodyO
              (list (_.set!' @register valueO))
              _.array/*
              (_.nth (_.int 1))))))

(def: #export (translate-record-get translate valueS pathP)
  (-> (-> Synthesis (Meta Expression)) Synthesis (List [Nat Bit])
      (Meta Expression))
  (do macro.Monad<Meta>
    [valueO (translate valueS)]
    (wrap (list/fold (function (_ [idx tail?] source)
                       (let [method (if tail?
                                      runtimeT.product//right
                                      runtimeT.product//left)]
                         (method source (_.int (:coerce Int idx)))))
                     valueO
                     pathP))))

(def: #export (translate-if testO thenO elseO)
  (-> Expression Expression Expression Expression)
  (_.? testO thenO elseO))

(def: @savepoint (_.var "pm_cursor_savepoint"))
(def: @cursor (_.var "pm_cursor"))

(def: (push-cursor! value)
  (-> Expression Statement)
  (_.do! (_.array-push/2 @cursor value)))

(def: save-cursor!
  Statement
  (_.do! (_.array-push/2 @savepoint (_.array-slice/2 @cursor (_.int 0)))))

(def: restore-cursor!
  Statement
  (_.set! @cursor (_.array-pop/1 @savepoint)))

(def: cursor-top
  Expression
  (_.nth (|> @cursor _.count/1 (_.- (_.int 1)))
         @cursor))

(def: pop-cursor!
  Statement
  (_.do! (_.array-pop/1 @cursor)))

(def: pm-error (_.string "PM-ERROR"))

(def: php-exception (_.global "Exception"))

(def: (new-Exception error)
  (-> Expression Expression)
  (_.new php-exception (list error)))

(def: fail-pm! (_.throw! (new-Exception pm-error)))

(def: @temp (_.var "temp"))

(exception: #export (Unrecognized-Path {message Text})
  message)

(def: @alt-error (_.var "alt_error"))

(def: (pm-catch! handler!)
  (-> Statement Except)
  {#_.class php-exception
   #_.exception @alt-error
   #_.handler (_.if! (|> @alt-error (_.send "getMessage" (list)) (_.= pm-error))
                     handler!
                     (_.throw! @alt-error))})

(def: (translate-pattern-matching' translate pathP)
  (-> (-> Synthesis (Meta Expression)) Path (Meta Statement))
  (case pathP
    (^code ("lux case exec" (~ bodyS)))
    (do macro.Monad<Meta>
      [bodyO (translate bodyS)]
      (wrap (_.return! bodyO)))

    (^code ("lux case pop"))
    (meta/wrap pop-cursor!)

    (^code ("lux case bind" (~ [_ (#.Nat register)])))
    (meta/wrap (_.set! (referenceT.variable register) cursor-top))

    (^template [<tag> <format>]
      [_ (<tag> value)]
      (meta/wrap (_.when! (_.not (_.= (|> value <format>) cursor-top))
                          fail-pm!)))
    ([#.Int  _.int]
     [#.Bit _.bool]
     [#.Frac _.float]
     [#.Text _.string])

    (^template [<pm> <getter>]
      (^code (<pm> (~ [_ (#.Nat idx)])))
      (meta/wrap (push-cursor! (<getter> cursor-top (_.int (:coerce Int idx))))))
    (["lux case tuple left" runtimeT.product//left]
     ["lux case tuple right" runtimeT.product//right])

    (^template [<pm> <flag>]
      (^code (<pm> (~ [_ (#.Nat idx)])))
      (meta/wrap (|> (_.set! @temp (runtimeT.sum//get cursor-top (_.int (:coerce Int idx)) <flag>))
                     (_.then! (_.if! (_.is-null/1 @temp)
                                     fail-pm!
                                     (push-cursor! @temp))))))
    (["lux case variant left"  _.null]
     ["lux case variant right" (_.string "")])

    (^code ("lux case seq" (~ leftP) (~ rightP)))
    (do macro.Monad<Meta>
      [leftO (translate-pattern-matching' translate leftP)
       rightO (translate-pattern-matching' translate rightP)]
      (wrap (|> leftO
                (_.then! rightO))))

    (^code ("lux case alt" (~ leftP) (~ rightP)))
    (do macro.Monad<Meta>
      [leftO (translate-pattern-matching' translate leftP)
       rightO (translate-pattern-matching' translate rightP)]
      (wrap (_.try! (|> save-cursor!
                        (_.then! leftO))
                    (list (pm-catch!
                           (|> restore-cursor!
                               (_.then! rightO)))))))

    _
    (lang.throw Unrecognized-Path (%code pathP))
    ))

(def: (translate-pattern-matching translate pathP)
  (-> (-> Synthesis (Meta Expression)) Path (Meta Statement))
  (do macro.Monad<Meta>
    [pattern-matching (translate-pattern-matching' translate pathP)]
    (wrap (_.try! pattern-matching
                  (list (pm-catch!
                         (_.throw! (new-Exception (_.string "Invalid expression for pattern-matching.")))))))))

(def: (initialize-pattern-matching! stack-init)
  (-> Expression Statement)
  (|> (_.set! @cursor (_.array/* (list stack-init)))
      (_.then! (_.set! @savepoint (_.array/* (list))))))

(def: empty (Set Variable) (set.new number.Hash<Int>))

(type: Storage
  {#bindings (Set Variable)
   #dependencies (Set Variable)})

(def: (path-variables pathP)
  (-> Path Storage)
  (loop [pathP pathP
         outer-variables {#bindings empty
                          #dependencies empty}]
    ## TODO: Remove (let [outer recur]) once loops can have names.
    (let [outer recur]
      (case pathP
        (^code ("lux case bind" (~ [_ (#.Nat register)])))
        (update@ #bindings (set.add (.int register))
                 outer-variables)

        (^or (^code ("lux case seq" (~ leftP) (~ rightP)))
             (^code ("lux case alt" (~ leftP) (~ rightP))))
        (list/fold outer outer-variables (list leftP rightP))

        (^code ("lux case exec" (~ bodyS)))
        (loop [bodyS bodyS
               inner-variables outer-variables]
          ## TODO: Remove (let [inner recur]) once loops can have names.
          (let [inner recur]
            (case bodyS
              (^code ((~ [_ (#.Nat tag)]) (~ [_ (#.Bit last?)]) (~ valueS)))
              (inner valueS inner-variables)

              (^code [(~+ members)])
              (list/fold inner inner-variables members)

              (^ [_ (#.Form (list [_ (#.Int var)]))])
              (if (set.member? (get@ #bindings inner-variables) var)
                inner-variables
                (update@ #dependencies (set.add var) inner-variables))

              (^code ("lux call" (~ functionS) (~+ argsS)))
              (list/fold inner inner-variables (#.Cons functionS argsS))

              (^code ("lux function" (~ [_ (#.Nat arity)]) [(~+ environment)] (~ bodyS)))
              (|> environment
                  (list/map (|>> (list) code.form))
                  (list/fold inner inner-variables))

              (^code ("lux let" (~ [_ (#.Nat register)]) (~ inputS) (~ exprS)))
              (list/fold inner (update@ #bindings (set.add (.int register))
                                        inner-variables)
                         (list inputS exprS))

              (^code ("lux case" (~ inputS) (~ pathPS)))
              (|> inner-variables (inner inputS) (outer pathPS))

              (^code ((~ [_ (#.Text procedure)]) (~+ argsS)))
              (list/fold inner inner-variables argsS)

              _
              inner-variables)))

        _
        outer-variables))))

(def: generated-name
  (-> Text (Meta Text))
  (|>> macro.gensym
       (:: macro.Monad<Meta> map (|>> %code lang.normalize-name))))

(def: #export (translate-case translate valueS pathP)
  (-> (-> Synthesis (Meta Expression)) Synthesis Path (Meta Expression))
  (do macro.Monad<Meta>
    [valueO (translate valueS)
     @case (:: @ map _.global (generated-name "case"))
     @value (:: @ map _.var (generated-name "value"))
     #let [@dependencies+ (|> (path-variables pathP)
                              (get@ #dependencies)
                              set.to-list
                              (list/map referenceT.local))]
     pattern-matching! (translate-pattern-matching translate pathP)
     _ (//.save (_.function! @case (|> (list& @value @dependencies+)
                                       (list/map _.parameter))
                             (|> (initialize-pattern-matching! @value)
                                 (_.then! pattern-matching!))))]
    (wrap (_.apply (list& valueO @dependencies+) @case))))