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(.module:
  lux
  (lux (control ["p" parser "p/" Monad<Parser>]
                [monad #+ do])
       (data text/format
             (coll [list "list/" Monad<List>]))
       [macro]
       (macro [code]
              ["s" syntax #+ syntax:])
       [io #+ Process])
  [//]
  (luxc [lang]
        (lang (host ["_" php #+ Expression Computation Statement]))))

(def: prefix Text "LuxRuntime")

(def: #export unit Computation (_.string //.unit))

(def: (flag value)
  (-> Bool Computation)
  (if value
    (_.string "")
    _.null))

(def: (variant' tag last? value)
  (-> Expression Expression Expression Computation)
  (_.array/** (list [(_.string //.variant-tag-field) tag]
                    [(_.string //.variant-flag-field) last?]
                    [(_.string //.variant-value-field) value])))

(def: #export (variant tag last? value)
  (-> Nat Bool Expression Computation)
  (variant' (_.int (.int tag))
            (flag last?)
            value))

(def: #export none
  Computation
  (variant +0 false unit))

(def: #export some
  (-> Expression Computation)
  (variant +1 true))

(def: #export left
  (-> Expression Computation)
  (variant +0 false))

(def: #export right
  (-> Expression Computation)
  (variant +1 true))

(type: Runtime Statement)

(def: declaration
  (s.Syntax [Text (List Text)])
  (p.either (p.seq s.local-symbol (p/wrap (list)))
            (s.form (p.seq s.local-symbol (p.some s.local-symbol)))))

(syntax: (runtime: {[name args] declaration}
           definition)
  (let [implementation (code.local-symbol (format "@@" name))
        runtime (format "__" prefix "__" (lang.normalize-name name))
        @runtime (` (_.global (~ (code.text runtime))))
        argsC+ (list/map code.local-symbol args)
        argsLC+ (list/map (|>> lang.normalize-name code.text (~) (_.var) (`))
                          args)
        declaration (` ((~ (code.local-symbol name))
                        (~+ argsC+)))
        type (` (-> (~+ (list.repeat (list.size argsC+) (` _.Expression)))
                    _.Computation))]
    (wrap (list (` (def: (~' #export) (~ declaration)
                     (~ type)
                     (_.apply (list (~+ argsC+)) (~ @runtime))))
                (` (def: (~ implementation)
                     _.Statement
                     (~ (case argsC+
                          #.Nil
                          (` (_.define! (~ @runtime) (~ definition)))

                          _
                          (` (let [(~+ (|> (list.zip2 argsC+ argsLC+)
                                           (list/map (function (_ [left right])
                                                       (list left right)))
                                           list/join))]
                               (_.function! (~ @runtime)
                                            ((~! list/map) _.parameter (list (~+ argsLC+)))
                                            (~ definition))))))))))))

(syntax: (with-vars {vars (s.tuple (p.many s.local-symbol))}
           body)
  (wrap (list (` (let [(~+ (|> vars
                               (list/map (function (_ var)
                                           (list (code.local-symbol var)
                                                 (` (_.var (~ (code.text (lang.normalize-name var))))))))
                               list/join))]
                   (~ body))))))

## (runtime: (lux//try op)
##   (let [$error (_.var "error")
##         $value (_.var "value")]
##     (_.try! ($_ _.then!
##                 (_.set! (list $value) (_.apply (list unit) op))
##                 (_.return! (right (@@ $value))))
##             (list [(list "Exception") $error
##                    (_.return! (left (_.apply (list (@@ $error)) (_.global "str"))))]))))

## (runtime: (lux//program-args program-args)
##   (let [$inputs (_.var "inputs")
##         $value (_.var "value")]
##     ($_ _.then!
##         (_.set! (list $inputs) none)
##         (<| (_.for-in! $value program-args)
##             (_.set! (list $inputs)
##                     (some (_.tuple (list (@@ $value) (@@ $inputs))))))
##         (_.return! (@@ $inputs)))))

## (def: runtime//lux
##   Runtime
##   ($_ _.then!
##       @@lux//try
##       @@lux//program-args))

## (runtime: (io//log! message)
##   ($_ _.then!
##       (_.print! message)
##       (_.return! ..unit)))

## (def: (exception message)
##   (-> Expression Computation)
##   (_.apply (list message) (_.global "Exception")))

## (runtime: (io//throw! message)
##   ($_ _.then!
##       (_.raise! (exception message))
##       (_.return! ..unit)))

## (runtime: (io//exit! code)
##   ($_ _.then!
##       (_.import! "sys")
##       (_.do! (|> (_.global "sys") (_.send (list code) "exit")))
##       (_.return! ..unit)))

## (runtime: (io//current-time! _)
##   ($_ _.then!
##       (_.import! "time")
##       (_.return! (let [time (|> (_.global "time")
##                                 (_.send (list) "time")
##                                 (_.* (_.int 1_000)))]
##                    (_.apply (list time) (_.global "int"))))))

## (def: runtime//io
##   Runtime
##   ($_ _.then!
##       @@io//log!
##       @@io//throw!
##       @@io//exit!
##       @@io//current-time!))

(runtime: (product//left product index)
  (let [$index_min_length (_.var "index_min_length")]
    (|> (_.set! $index_min_length (_.+ (_.int 1) index))
        (_.then! (_.if! (_.> $index_min_length (_.count/1 product))
                        ## No need for recursion
                        (_.return! (_.nth index product))
                        ## Needs recursion
                        (_.return! (product//left (_.nth (_.- (_.int 1)
                                                              (_.count/1 product))
                                                         product)
                                                  (_.- (_.count/1 product)
                                                       $index_min_length))))))))

(runtime: (product//right product index)
  (let [$index_min_length (_.var "index_min_length")]
    (|> (_.set! $index_min_length (_.+ (_.int 1) index))
        (_.then! (<| (_.if! (_.= $index_min_length (_.count/1 product))
                            ## Last element.
                            (_.return! (_.nth index product)))
                     (_.if! (_.< $index_min_length (_.count/1 product))
                            ## Needs recursion
                            (_.return! (product//right (_.nth (_.- (_.int 1)
                                                                   (_.count/1 product))
                                                              product)
                                                       (_.- (_.count/1 product)
                                                            $index_min_length))))
                     ## Must slice
                     (_.return! (_.array-slice/2 product index)))))))

(runtime: (sum//get sum wantedTag wantsLast)
  (let [no-match! (_.return! _.null)
        sum-tag (_.nth (_.string //.variant-tag-field) sum)
        sum-flag (_.nth (_.string //.variant-flag-field) sum)
        sum-value (_.nth (_.string //.variant-value-field) sum)
        is-last? (_.= (_.string "") sum-flag)
        test-recursion! (_.if! is-last?
                               ## Must recurse.
                               (_.return! (sum//get sum-value (_.- sum-tag wantedTag) wantsLast))
                               no-match!)]
    (<| (_.if! (_.= sum-tag wantedTag)
               (_.if! (|> (_.and (_.is-null/1 wantsLast) (_.is-null/1 sum-flag))
                          (_.or (|> (_.and (_.not (_.is-null/1 wantsLast))
                                           (_.not (_.is-null/1 sum-flag)))
                                    (_.and (_.= wantsLast sum-flag)))))
                      (_.return! sum-value)
                      test-recursion!))
        (_.if! (_.> sum-tag wantedTag)
               test-recursion!)
        (_.if! (|> (_.< sum-tag wantedTag)
                   (_.and (_.not (_.is-null/1 wantsLast))))
               (_.return! (variant' (_.- wantedTag sum-tag) sum-flag sum-value)))
        no-match!)))

(def: runtime//adt
  Runtime
  (|> @@product//left
      (_.then! @@product//right)
      (_.then! @@sum//get)))

## (runtime: (bit//logical-right-shift param subject)
##   (let [mask (|> (_.int 1)
##                  (_.bit-shl (_.- param (_.int 64)))
##                  (_.- (_.int 1)))]
##     (_.return! (|> subject
##                    (_.bit-shr param)
##                    (_.bit-and mask)))))

## (def: runtime//bit
##   Runtime
##   ($_ _.then!
##       @@bit//logical-right-shift))

## (runtime: (text//index subject param start)
##   (with-vars [idx]
##     ($_ _.then!
##         (_.set! (list idx) (_.send (list param start) "find" subject))
##         (_.if! (_.= (_.int -1) (@@ idx))
##                (_.return! ..none)
##                (_.return! (..some (@@ idx)))))))

## (def: inc (|>> (_.+ (_.int 1))))

## (do-template [<name> <top-cmp>]
##   [(def: (<name> top value)
##      (-> Expression Expression Expression)
##      (_.and (|> value (_.>= (_.int 0)))
##             (|> value (<top-cmp> top))))]

##   [within? _.<]
##   [up-to?  _.<=]
##   )

## (runtime: (text//clip @text @from @to)
##   (with-vars [length]
##     ($_ _.then!
##         (_.set! (list length) (_.count/1 @text))
##         (_.if! ($_ _.and
##                    (|> @to (within? (@@ length)))
##                    (|> @from (up-to? @to)))
##                (_.return! (..some (|> @text (_.slice @from (inc @to)))))
##                (_.return! ..none)))))

## (runtime: (text//char text idx)
##   (_.if! (|> idx (within? (_.count/1 text)))
##          (_.return! (..some (_.apply (list (|> text (_.slice idx (inc idx))))
##                                      (_.global "ord"))))
##          (_.return! ..none)))

## (def: runtime//text
##   Runtime
##   ($_ _.then!
##       @@text//index
##       @@text//clip
##       @@text//char))

## (def: (check-index-out-of-bounds array idx body!)
##   (-> Expression Expression Statement Statement)
##   (_.if! (|> idx (_.<= (_.count/1 array)))
##          body!
##          (_.raise! (exception (_.string "Array index out of bounds!")))))

## (runtime: (array//get array idx)
##   (with-vars [temp]
##     (<| (check-index-out-of-bounds array idx)
##         ($_ _.then!
##             (_.set! (list temp) (_.nth idx array))
##             (_.if! (_.= _.null (@@ temp))
##                    (_.return! ..none)
##                    (_.return! (..some (@@ temp))))))))

## (runtime: (array//put array idx value)
##   (<| (check-index-out-of-bounds array idx)
##       ($_ _.then!
##           (_.set-nth! idx value array)
##           (_.return! array))))

## (def: runtime//array
##   Runtime
##   ($_ _.then!
##       @@array//get
##       @@array//put))

## (def: #export atom//field Text "_lux_atom")

## (runtime: (atom//compare-and-swap atom old new)
##   (let [atom//field (_.string atom//field)]
##     (_.if! (_.= old (_.nth atom//field atom))
##            ($_ _.then!
##                (_.set-nth! atom//field new atom)
##                (_.return! (_.bool true)))
##            (_.return! (_.bool false)))))

## (def: runtime//atom
##   Runtime
##   ($_ _.then!
##       @@atom//compare-and-swap))

## (runtime: (process//future procedure)
##   ($_ _.then!
##       (_.import! "threading")
##       (let [params (_.dict (list [(_.string "target") procedure]))]
##         (_.do! (|> (_.global "threading")
##                    (_.send-keyword (list) params "Thread")
##                    (_.send (list) "start"))))
##       (_.return! ..unit)))

## (runtime: (process//schedule milli-seconds procedure)
##   ($_ _.then!
##       (_.import! "threading")
##       (let [seconds (|> milli-seconds (_./ (_.float 1_000.0)))]
##         (_.do! (|> (_.global "threading")
##                    (_.send (list seconds procedure) "Timer")
##                    (_.send (list) "start"))))
##       (_.return! ..unit)))

## (def: runtime//process
##   Runtime
##   ($_ _.then!
##       @@process//future
##       @@process//schedule))

## (do-template [<name> <method>]
##   [(runtime: (<name> input)
##      ($_ _.then!
##          (_.import! "math")
##          (_.return! (|> (_.global "math") (_.send (list input) <method>)))))]

##   [math//cos  "cos"]
##   [math//sin  "sin"]
##   [math//tan  "tan"]
##   [math//acos "acos"]
##   [math//asin "asin"]
##   [math//atan "atan"]
##   [math//exp  "exp"]
##   [math//log  "log"]
##   [math//ceil "ceil"]
##   [math//floor "floor"]
##   )

## (def: runtime//math
##   Runtime
##   ($_ _.then!
##       @@math//cos
##       @@math//sin
##       @@math//tan
##       @@math//acos
##       @@math//asin
##       @@math//atan
##       @@math//exp
##       @@math//log
##       @@math//ceil
##       @@math//floor))

(def: check-necessary-conditions!
  Statement
  (let [condition (_.= (_.int 8)
                       (_.global "PHP_INT_SIZE"))
        error-message (_.string (format "Cannot run program!" "\n"
                                        "Lux/PHP programs require 64-bit PHP builds!"))
        ->Exception (|>> (list) (_.new (_.global "Exception")))]
    (_.when! (_.not condition)
             (_.throw! (->Exception error-message)))))

(def: runtime
  Runtime
  (|> check-necessary-conditions!
      ## runtime//lux
      (_.then! runtime//adt)
      ## runtime//bit
      ## runtime//text
      ## runtime//array
      ## runtime//atom
      ## runtime//io
      ## runtime//process
      ## runtime//math
      ))

(def: #export artifact Text (format prefix //.extension))

(def: #export translate
  (Meta (Process Any))
  (do macro.Monad<Meta>
    [_ //.init-module-buffer
     _ (//.save runtime)]
    (//.save-module! artifact)))