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(;module:
  [lux #- char]
  (lux (control [monad #+ do]
                ["p" parser]
                ["ex" exception #+ exception:])
       (concurrency ["A" atom])
       (data ["e" error]
             [maybe]
             [product]
             [bool "bool/" Eq<Bool>]
             [text "text/" Eq<Text>]
             (text format
                   ["l" lexer])
             (coll [list "list/" Fold<List> Functor<List> Monoid<List>]
                   [array]
                   [dict #+ Dict]))
       [macro "macro/" Monad<Meta>]
       (macro [code]
              ["s" syntax])
       (lang [type]
             (type ["tc" check]))
       [host])
  (luxc ["&" lang]
        (lang ["&;" host]
              ["la" analysis]
              (analysis ["&;" common]
                        [";A" inference])))
  ["@" ../common]
  )

(exception: #export Wrong-Syntax)
(def: (wrong-syntax procedure args)
  (-> Text (List Code) Text)
  (format "Procedure: " procedure "\n"
          "Arguments: " (%code (code;tuple args))))

(exception: #export JVM-Type-Is-Not-Class)

(exception: #export Non-Interface)
(exception: #export Non-Object)
(exception: #export Non-Array)
(exception: #export Non-Throwable)
(exception: #export Non-JVM-Type)

(exception: #export Unknown-Class)
(exception: #export Primitives-Cannot-Have-Type-Parameters)
(exception: #export Primitives-Are-Not-Objects)
(exception: #export Invalid-Type-For-Array-Element)

(exception: #export Unknown-Field)
(exception: #export Mistaken-Field-Owner)
(exception: #export Not-Virtual-Field)
(exception: #export Not-Static-Field)
(exception: #export Cannot-Set-Final-Field)

(exception: #export No-Candidates)
(exception: #export Too-Many-Candidates)

(exception: #export Cannot-Cast)
(def: (cannot-cast to from)
  (-> Type Type Text)
  (format "From: " (%type from) "\n"
          "  To: " (%type to)))

(exception: #export Cannot-Possibly-Be-Instance)

(exception: #export Cannot-Convert-To-Class)
(exception: #export Cannot-Convert-To-Parameter)
(exception: #export Cannot-Convert-To-Lux-Type)
(exception: #export Unknown-Type-Var)
(exception: #export Type-Parameter-Mismatch)
(exception: #export Cannot-Correspond-Type-With-Class)

(def: #export null-class Text "#Null")

(do-template [<name> <class>]
  [(def: #export <name> Type (#;Primitive <class> (list)))]

  ## Boxes
  [Boolean   "java.lang.Boolean"]
  [Byte      "java.lang.Byte"]
  [Short     "java.lang.Short"]
  [Integer   "java.lang.Integer"]
  [Long      "java.lang.Long"]
  [Float     "java.lang.Float"]
  [Double    "java.lang.Double"]
  [Character "java.lang.Character"]
  [String    "java.lang.String"]

  ## Primitives
  [boolean   "boolean"]
  [byte      "byte"]
  [short     "short"]
  [int       "int"]
  [long      "long"]
  [float     "float"]
  [double    "double"]
  [char      "char"]
  )

(def: conversion-procs
  @;Bundle
  (<| (@;prefix "convert")
      (|> (dict;new text;Hash<Text>)
          (@;install "double-to-float" (@;unary Double Float))
          (@;install "double-to-int" (@;unary Double Integer))
          (@;install "double-to-long" (@;unary Double Long))
          (@;install "float-to-double" (@;unary Float Double))
          (@;install "float-to-int" (@;unary Float Integer))
          (@;install "float-to-long" (@;unary Float Long))
          (@;install "int-to-byte" (@;unary Integer Byte))
          (@;install "int-to-char" (@;unary Integer Character))
          (@;install "int-to-double" (@;unary Integer Double))
          (@;install "int-to-float" (@;unary Integer Float))
          (@;install "int-to-long" (@;unary Integer Long))
          (@;install "int-to-short" (@;unary Integer Short))
          (@;install "long-to-double" (@;unary Long Double))
          (@;install "long-to-float" (@;unary Long Float))
          (@;install "long-to-int" (@;unary Long Integer))
          (@;install "long-to-short" (@;unary Long Short))
          (@;install "long-to-byte" (@;unary Long Byte))
          (@;install "char-to-byte" (@;unary Character Byte))
          (@;install "char-to-short" (@;unary Character Short))
          (@;install "char-to-int" (@;unary Character Integer))
          (@;install "char-to-long" (@;unary Character Long))
          (@;install "byte-to-long" (@;unary Byte Long))
          (@;install "short-to-long" (@;unary Short Long))
          )))

(do-template [<name> <prefix> <type>]
  [(def: <name>
     @;Bundle
     (<| (@;prefix <prefix>)
         (|> (dict;new text;Hash<Text>)
             (@;install "+" (@;binary <type> <type> <type>))
             (@;install "-" (@;binary <type> <type> <type>))
             (@;install "*" (@;binary <type> <type> <type>))
             (@;install "/" (@;binary <type> <type> <type>))
             (@;install "%" (@;binary <type> <type> <type>))
             (@;install "=" (@;binary <type> <type> Boolean))
             (@;install "<" (@;binary <type> <type> Boolean))
             (@;install "and" (@;binary <type> <type> <type>))
             (@;install "or" (@;binary <type> <type> <type>))
             (@;install "xor" (@;binary <type> <type> <type>))
             (@;install "shl" (@;binary <type> Integer <type>))
             (@;install "shr" (@;binary <type> Integer <type>))
             (@;install "ushr" (@;binary <type> Integer <type>))
             )))]

  [int-procs  "int"  Integer]
  [long-procs "long" Long]
  )

(do-template [<name> <prefix> <type>]
  [(def: <name>
     @;Bundle
     (<| (@;prefix <prefix>)
         (|> (dict;new text;Hash<Text>)
             (@;install "+" (@;binary <type> <type> <type>))
             (@;install "-" (@;binary <type> <type> <type>))
             (@;install "*" (@;binary <type> <type> <type>))
             (@;install "/" (@;binary <type> <type> <type>))
             (@;install "%" (@;binary <type> <type> <type>))
             (@;install "=" (@;binary <type> <type> Boolean))
             (@;install "<" (@;binary <type> <type> Boolean))
             )))]

  [float-procs  "float"  Float]
  [double-procs "double" Double]
  )

(def: char-procs
  @;Bundle
  (<| (@;prefix "char")
      (|> (dict;new text;Hash<Text>)
          (@;install "=" (@;binary Character Character Boolean))
          (@;install "<" (@;binary Character Character Boolean))
          )))

(def: #export boxes
  (Dict Text Text)
  (|> (list ["boolean" "java.lang.Boolean"]
            ["byte" "java.lang.Byte"]
            ["short" "java.lang.Short"]
            ["int" "java.lang.Integer"]
            ["long" "java.lang.Long"]
            ["float" "java.lang.Float"]
            ["double" "java.lang.Double"]
            ["char" "java.lang.Character"])
      (dict;from-list text;Hash<Text>)))

(def: (array-length proc)
  (-> Text @;Proc)
  (function [analyse eval args]
    (case args
      (^ (list arrayC))
      (do macro;Monad<Meta>
        [_ (&;infer Nat)
         [var-id varT] (&;with-type-env tc;var)
         arrayA (&;with-type (type (Array varT))
                  (analyse arrayC))]
        (wrap (la;procedure proc (list arrayA))))

      _
      (&;throw @;Incorrect-Procedure-Arity (@;wrong-arity proc +1 (list;size args))))))

(def: (array-new proc)
  (-> Text @;Proc)
  (function [analyse eval args]
    (case args
      (^ (list lengthC))
      (do macro;Monad<Meta>
        [lengthA (&;with-type Nat
                   (analyse lengthC))
         expectedT macro;expected-type
         [level elem-class] (: (Meta [Nat Text])
                               (loop [analysisT expectedT
                                      level +0]
                                 (case analysisT
                                   (#;Apply inputT funcT)
                                   (case (type;apply (list inputT) funcT)
                                     (#;Some outputT)
                                     (recur outputT level)

                                     #;None
                                     (&;throw Non-Array (%type expectedT)))

                                   (^ (#;Primitive "#Array" (list elemT)))
                                   (recur elemT (n.inc level))

                                   (#;Primitive class _)
                                   (wrap [level class])
                                   
                                   _
                                   (&;throw Non-Array (%type expectedT)))))
         _ (if (n.> +0 level)
             (wrap [])
             (&;throw Non-Array (%type expectedT)))]
        (wrap (la;procedure proc (list (code;nat (n.dec level)) (code;text elem-class) lengthA))))

      _
      (&;throw @;Incorrect-Procedure-Arity (@;wrong-arity proc +1 (list;size args))))))

(def: (check-jvm objectT)
  (-> Type (Meta Text))
  (case objectT
    (#;Primitive name _)
    (macro/wrap name)

    (#;Named name unnamed)
    (check-jvm unnamed)

    (#;Var id)
    (macro/wrap "java.lang.Object")

    (^template [<tag>]
      (<tag> env unquantified)
      (check-jvm unquantified))
    ([#;UnivQ]
     [#;ExQ])

    (#;Apply inputT funcT)
    (case (type;apply (list inputT) funcT)
      (#;Some outputT)
      (check-jvm outputT)

      #;None
      (&;throw Non-Object (%type objectT)))

    _
    (&;throw Non-Object (%type objectT))))

(def: (check-object objectT)
  (-> Type (Meta Text))
  (do macro;Monad<Meta>
    [name (check-jvm objectT)]
    (if (dict;contains? name boxes)
      (&;throw Primitives-Are-Not-Objects name)
      (macro/wrap name))))

(def: (box-array-element-type elemT)
  (-> Type (Meta [Type Text]))
  (case elemT
    (#;Primitive name #;Nil)
    (let [boxed-name (|> (dict;get name boxes)
                         (maybe;default name))]
      (macro/wrap [(#;Primitive boxed-name #;Nil)
                   boxed-name]))

    (#;Primitive name _)
    (if (dict;contains? name boxes)
      (&;throw Primitives-Cannot-Have-Type-Parameters name)
      (macro/wrap [elemT name]))

    _
    (&;throw Invalid-Type-For-Array-Element (%type elemT))))

(def: (array-read proc)
  (-> Text @;Proc)
  (function [analyse eval args]
    (case args
      (^ (list arrayC idxC))
      (do macro;Monad<Meta>
        [[var-id varT] (&;with-type-env tc;var)
         _ (&;infer varT)
         arrayA (&;with-type (type (Array varT))
                  (analyse arrayC))
         ?elemT (&;with-type-env
                  (tc;read var-id))
         [elemT elem-class] (box-array-element-type (maybe;default varT ?elemT))
         idxA (&;with-type Nat
                (analyse idxC))]
        (wrap (la;procedure proc (list (code;text elem-class) idxA arrayA))))

      _
      (&;throw @;Incorrect-Procedure-Arity (@;wrong-arity proc +2 (list;size args))))))

(def: (array-write proc)
  (-> Text @;Proc)
  (function [analyse eval args]
    (case args
      (^ (list arrayC idxC valueC))
      (do macro;Monad<Meta>
        [[var-id varT] (&;with-type-env tc;var)
         _ (&;infer (type (Array varT)))
         arrayA (&;with-type (type (Array varT))
                  (analyse arrayC))
         ?elemT (&;with-type-env
                  (tc;read var-id))
         [valueT elem-class] (box-array-element-type (maybe;default varT ?elemT))
         idxA (&;with-type Nat
                (analyse idxC))
         valueA (&;with-type valueT
                  (analyse valueC))]
        (wrap (la;procedure proc (list (code;text elem-class) idxA valueA arrayA))))

      _
      (&;throw @;Incorrect-Procedure-Arity (@;wrong-arity proc +3 (list;size args))))))

(def: array-procs
  @;Bundle
  (<| (@;prefix "array")
      (|> (dict;new text;Hash<Text>)
          (@;install "length" array-length)
          (@;install "new" array-new)
          (@;install "read" array-read)
          (@;install "write" array-write)
          )))

(def: (object-null proc)
  (-> Text @;Proc)
  (function [analyse eval args]
    (case args
      (^ (list))
      (do macro;Monad<Meta>
        [expectedT macro;expected-type
         _ (check-object expectedT)]
        (wrap (la;procedure proc (list))))

      _
      (&;throw @;Incorrect-Procedure-Arity (@;wrong-arity proc +0 (list;size args))))))

(def: (object-null? proc)
  (-> Text @;Proc)
  (function [analyse eval args]
    (case args
      (^ (list objectC))
      (do macro;Monad<Meta>
        [_ (&;infer Bool)
         [objectT objectA] (&common;with-unknown-type
                             (analyse objectC))
         _ (check-object objectT)]
        (wrap (la;procedure proc (list objectA))))

      _
      (&;throw @;Incorrect-Procedure-Arity (@;wrong-arity proc +1 (list;size args))))))

(def: (object-synchronized proc)
  (-> Text @;Proc)
  (function [analyse eval args]
    (case args
      (^ (list monitorC exprC))
      (do macro;Monad<Meta>
        [[monitorT monitorA] (&common;with-unknown-type
                               (analyse monitorC))
         _ (check-object monitorT)
         exprA (analyse exprC)]
        (wrap (la;procedure proc (list monitorA exprA))))

      _
      (&;throw @;Incorrect-Procedure-Arity (@;wrong-arity proc +2 (list;size args))))))

(host;import java.lang.Object
  (equals [Object] boolean))

(host;import java.lang.ClassLoader)

(host;import #long java.lang.reflect.Type
  (getTypeName [] String))

(host;import java.lang.reflect.GenericArrayType
  (getGenericComponentType [] java.lang.reflect.Type))

(host;import java.lang.reflect.ParameterizedType
  (getRawType [] java.lang.reflect.Type)
  (getActualTypeArguments [] (Array java.lang.reflect.Type)))

(host;import (java.lang.reflect.TypeVariable d)
  (getName [] String)
  (getBounds [] (Array java.lang.reflect.Type)))

(host;import (java.lang.reflect.WildcardType d)
  (getLowerBounds [] (Array java.lang.reflect.Type))
  (getUpperBounds [] (Array java.lang.reflect.Type)))

(host;import java.lang.reflect.Modifier
  (#static isStatic [int] boolean)
  (#static isFinal [int] boolean)
  (#static isInterface [int] boolean)
  (#static isAbstract [int] boolean))

(host;import java.lang.reflect.Field
  (getDeclaringClass [] (java.lang.Class Object))
  (getModifiers [] int)
  (getGenericType [] java.lang.reflect.Type))

(host;import java.lang.reflect.Method
  (getName [] String)
  (getModifiers [] int)
  (getDeclaringClass [] (Class Object))
  (getTypeParameters [] (Array (TypeVariable Method)))
  (getGenericParameterTypes [] (Array java.lang.reflect.Type))
  (getGenericReturnType [] java.lang.reflect.Type)
  (getGenericExceptionTypes [] (Array java.lang.reflect.Type)))

(host;import (java.lang.reflect.Constructor c)
  (getModifiers [] int)
  (getDeclaringClass [] (Class c))
  (getTypeParameters [] (Array (TypeVariable (Constructor c))))
  (getGenericParameterTypes [] (Array java.lang.reflect.Type))
  (getGenericExceptionTypes [] (Array java.lang.reflect.Type)))

(host;import (java.lang.Class c)
  (getName [] String)
  (getModifiers [] int)
  (#static forName [String boolean ClassLoader] #try (Class Object))
  (isAssignableFrom [(Class Object)] boolean)
  (getTypeParameters [] (Array (TypeVariable (Class c))))
  (getGenericInterfaces [] (Array java.lang.reflect.Type))
  (getGenericSuperclass [] java.lang.reflect.Type)
  (getDeclaredField [String] #try Field)
  (getConstructors [] (Array (Constructor Object)))
  (getDeclaredMethods [] (Array Method)))

(def: (load-class name)
  (-> Text (Meta (Class Object)))
  (do macro;Monad<Meta>
    [class-loader &host;class-loader]
    (case (Class.forName [name false class-loader])
      (#e;Success [class])
      (wrap class)

      (#e;Error error)
      (&;throw Unknown-Class name))))

(def: (sub-class? super sub)
  (-> Text Text (Meta Bool))
  (do macro;Monad<Meta>
    [super (load-class super)
     sub (load-class sub)]
    (wrap (Class.isAssignableFrom [sub] super))))

(def: (object-throw proc)
  (-> Text @;Proc)
  (function [analyse eval args]
    (case args
      (^ (list exceptionC))
      (do macro;Monad<Meta>
        [_ (&;infer Bottom)
         [exceptionT exceptionA] (&common;with-unknown-type
                                   (analyse exceptionC))
         exception-class (check-object exceptionT)
         ? (sub-class? "java.lang.Throwable" exception-class)
         _ (: (Meta Unit)
              (if ?
                (wrap [])
                (&;throw Non-Throwable exception-class)))]
        (wrap (la;procedure proc (list exceptionA))))

      _
      (&;throw @;Incorrect-Procedure-Arity (@;wrong-arity proc +1 (list;size args))))))

(def: (object-class proc)
  (-> Text @;Proc)
  (function [analyse eval args]
    (case args
      (^ (list classC))
      (case classC
        [_ (#;Text class)]
        (do macro;Monad<Meta>
          [_ (&;infer (#;Primitive "java.lang.Class" (list (#;Primitive class (list)))))
           _ (load-class class)]
          (wrap (la;procedure proc (list (code;text class)))))

        _
        (&;throw Wrong-Syntax (wrong-syntax proc args)))

      _
      (&;throw @;Incorrect-Procedure-Arity (@;wrong-arity proc +1 (list;size args))))))

(def: (object-instance? proc)
  (-> Text @;Proc)
  (function [analyse eval args]
    (case args
      (^ (list classC objectC))
      (case classC
        [_ (#;Text class)]
        (do macro;Monad<Meta>
          [_ (&;infer Bool)
           [objectT objectA] (&common;with-unknown-type
                               (analyse objectC))
           object-class (check-object objectT)
           ? (sub-class? class object-class)]
          (if ?
            (wrap (la;procedure proc (list (code;text class))))
            (&;throw Cannot-Possibly-Be-Instance (format object-class " !<= "  class))))

        _
        (&;throw Wrong-Syntax (wrong-syntax proc args)))

      _
      (&;throw @;Incorrect-Procedure-Arity (@;wrong-arity proc +2 (list;size args))))))

(def: object-procs
  @;Bundle
  (<| (@;prefix "object")
      (|> (dict;new text;Hash<Text>)
          (@;install "null" object-null)
          (@;install "null?" object-null?)
          (@;install "synchronized" object-synchronized)
          (@;install "throw" object-throw)
          (@;install "class" object-class)
          (@;install "instance?" object-instance?)
          )))

(def: type-descriptor
  (-> java.lang.reflect.Type Text)
  (java.lang.reflect.Type.getTypeName []))

(def: (java-type-to-class type)
  (-> java.lang.reflect.Type (Meta Text))
  (cond (host;instance? Class type)
        (macro/wrap (Class.getName [] (:! Class type)))

        (host;instance? ParameterizedType type)
        (java-type-to-class (ParameterizedType.getRawType [] (:! ParameterizedType type)))

        ## else
        (&;throw Cannot-Convert-To-Class (type-descriptor type))))

(type: Mappings
  (Dict Text Type))

(def: fresh-mappings Mappings (dict;new text;Hash<Text>))

(def: (java-type-to-lux-type mappings java-type)
  (-> Mappings java.lang.reflect.Type (Meta Type))
  (cond (host;instance? TypeVariable java-type)
        (let [var-name (TypeVariable.getName [] (:! TypeVariable java-type))]
          (case (dict;get var-name mappings)
            (#;Some var-type)
            (macro/wrap var-type)
            
            #;None
            (&;throw Unknown-Type-Var var-name)))

        (host;instance? WildcardType java-type)
        (let [java-type (:! WildcardType java-type)]
          (case [(array;read +0 (WildcardType.getUpperBounds [] java-type))
                 (array;read +0 (WildcardType.getLowerBounds [] java-type))]
            (^or [(#;Some bound) _] [_ (#;Some bound)])
            (java-type-to-lux-type mappings bound)
            
            _
            (macro/wrap Top)))

        (host;instance? Class java-type)
        (let [java-type (:! (Class Object) java-type)
              class-name (Class.getName [] java-type)]
          (macro/wrap (case (array;size (Class.getTypeParameters [] java-type))
                        +0
                        (#;Primitive class-name (list))
                        
                        arity
                        (|> (list;n.range +0 (n.dec arity))
                            list;reverse
                            (list/map (|>. (n.* +2) n.inc #;Bound))
                            (#;Primitive class-name)
                            (type;univ-q arity)))))

        (host;instance? ParameterizedType java-type)
        (let [java-type (:! ParameterizedType java-type)
              raw (ParameterizedType.getRawType [] java-type)]
          (if (host;instance? Class raw)
            (do macro;Monad<Meta>
              [paramsT (|> java-type
                           (ParameterizedType.getActualTypeArguments [])
                           array;to-list
                           (monad;map @ (java-type-to-lux-type mappings)))]
              (macro/wrap (#;Primitive (Class.getName [] (:! (Class Object) raw))
                                       paramsT)))
            (&;throw JVM-Type-Is-Not-Class (type-descriptor raw))))

        (host;instance? GenericArrayType java-type)
        (do macro;Monad<Meta>
          [innerT (|> (:! GenericArrayType java-type)
                      (GenericArrayType.getGenericComponentType [])
                      (java-type-to-lux-type mappings))]
          (wrap (#;Primitive "#Array" (list innerT))))

        ## else
        (&;throw Cannot-Convert-To-Lux-Type (type-descriptor java-type))))

(type: Direction
  #In
  #Out)

(def: (choose direction to from)
  (-> Direction Text Text Text)
  (case direction
    #In to
    #Out from))

(def: (correspond-type-params class type)
  (-> (Class Object) Type (Meta Mappings))
  (case type
    (#;Primitive name params)
    (let [class-name (Class.getName [] class)
          class-params (array;to-list (Class.getTypeParameters [] class))
          num-class-params (list;size class-params)
          num-type-params (list;size params)]
      (cond (not (text/= class-name name))
            (&;throw Cannot-Correspond-Type-With-Class
                     (format "Class = " class-name "\n"
                             "Type = " (%type type)))

            (not (n.= num-class-params num-type-params))
            (&;throw Type-Parameter-Mismatch
                     (format "Expected: " (%i (nat-to-int num-class-params)) "\n"
                             "  Actual: " (%i (nat-to-int num-type-params)) "\n"
                             "   Class: " class-name "\n"
                             "    Type: " (%type type)))

            ## else
            (macro/wrap (|> params
                            (list;zip2 (list/map (TypeVariable.getName []) class-params))
                            (dict;from-list text;Hash<Text>)))
            ))

    _
    (&;throw Non-JVM-Type (%type type))))

(def: (cast direction to from)
  (-> Direction Type Type (Meta [Text Type]))
  (do macro;Monad<Meta>
    [to-name (check-jvm to)
     from-name (check-jvm from)]
    (cond (dict;contains? to-name boxes)
          (let [box (maybe;assume (dict;get to-name boxes))]
            (if (text/= box from-name)
              (wrap [(choose direction to-name from-name) (#;Primitive to-name (list))])
              (&;throw Cannot-Cast (cannot-cast to from))))

          (dict;contains? from-name boxes)
          (let [box (maybe;assume (dict;get from-name boxes))]
            (do @
              [[_ castT] (cast direction to (#;Primitive box (list)))]
              (wrap [(choose direction to-name from-name) castT])))

          (text/= to-name from-name)
          (wrap [(choose direction to-name from-name) from])

          (text/= null-class from-name)
          (wrap [(choose direction to-name from-name) to])

          ## else
          (do @
            [to-class (load-class to-name)
             from-class (load-class from-name)
             _ (&;assert Cannot-Cast (cannot-cast to from)
                         (Class.isAssignableFrom [from-class] to-class))
             candiate-parents (monad;map @
                                         (function [java-type]
                                           (do @
                                             [class-name (java-type-to-class java-type)
                                              class (load-class class-name)]
                                             (wrap [java-type (Class.isAssignableFrom [class] to-class)])))
                                         (list& (Class.getGenericSuperclass [] from-class)
                                                (array;to-list (Class.getGenericInterfaces [] from-class))))]
            (case (|> candiate-parents
                      (list;filter product;right)
                      (list/map product;left))
              (#;Cons parent _)
              (do @
                [mapping (correspond-type-params from-class from)
                 parentT (java-type-to-lux-type mapping parent)
                 [_ castT] (cast direction to parentT)]
                (wrap [(choose direction to-name from-name) castT]))

              #;Nil
              (&;throw Cannot-Cast (cannot-cast to from)))))))

(def: (infer-out outputT)
  (-> Type (Meta [Text Type]))
  (do macro;Monad<Meta>
    [expectedT macro;expected-type
     [unboxed castT] (cast #Out expectedT outputT)
     _ (&;with-type-env
         (tc;check expectedT castT))]
    (wrap [unboxed castT])))

(def: (find-field class-name field-name)
  (-> Text Text (Meta [(Class Object) Field]))
  (do macro;Monad<Meta>
    [class (load-class class-name)]
    (case (Class.getDeclaredField [field-name] class)
      (#e;Success field)
      (let [owner (Field.getDeclaringClass [] field)]
        (if (is owner class)
          (wrap [class field])
          (&;throw Mistaken-Field-Owner
                   (format "       Field: " field-name "\n"
                           " Owner Class: " (Class.getName [] owner) "\n"
                           "Target Class: " class-name "\n"))))

      (#e;Error _)
      (&;throw Unknown-Field (format class-name "#" field-name)))))

(def: (static-field class-name field-name)
  (-> Text Text (Meta [Type Bool]))
  (do macro;Monad<Meta>
    [[class fieldJ] (find-field class-name field-name)
     #let [modifiers (Field.getModifiers [] fieldJ)]]
    (if (Modifier.isStatic [modifiers])
      (let [fieldJT (Field.getGenericType [] fieldJ)]
        (do @
          [fieldT (java-type-to-lux-type fresh-mappings fieldJT)]
          (wrap [fieldT (Modifier.isFinal [modifiers])])))
      (&;throw Not-Static-Field (format class-name "#" field-name)))))

(def: (virtual-field class-name field-name objectT)
  (-> Text Text Type (Meta [Type Bool]))
  (do macro;Monad<Meta>
    [[class fieldJ] (find-field class-name field-name)
     #let [modifiers (Field.getModifiers [] fieldJ)]]
    (if (not (Modifier.isStatic [modifiers]))
      (do @
        [#let [fieldJT (Field.getGenericType [] fieldJ)
               var-names (|> class
                             (Class.getTypeParameters [])
                             array;to-list
                             (list/map (TypeVariable.getName [])))]
         mappings (: (Meta Mappings)
                     (case objectT
                       (#;Primitive _class-name _class-params)
                       (do @
                         [#let [num-params (list;size _class-params)
                                num-vars (list;size var-names)]
                          _ (&;assert Type-Parameter-Mismatch
                                      (format "Expected: " (%i (nat-to-int num-params)) "\n"
                                              "  Actual: " (%i (nat-to-int num-vars)) "\n"
                                              "   Class: " _class-name "\n"
                                              "    Type: " (%type objectT))
                                      (n.= num-params num-vars))]
                         (wrap (|> (list;zip2 var-names _class-params)
                                   (dict;from-list text;Hash<Text>))))

                       _
                       (&;throw Non-Object (%type objectT))))
         fieldT (java-type-to-lux-type mappings fieldJT)]
        (wrap [fieldT (Modifier.isFinal [modifiers])]))
      (&;throw Not-Virtual-Field (format class-name "#" field-name)))))

(def: (analyse-object class analyse sourceC)
  (-> Text &;Analyser Code (Meta [Type la;Analysis]))
  (do macro;Monad<Meta>
    [target-class (load-class class)
     targetT (java-type-to-lux-type fresh-mappings
                                    (:! java.lang.reflect.Type
                                        target-class))
     [sourceT sourceA] (&common;with-unknown-type
                         (analyse sourceC))
     [unboxed castT] (cast #Out targetT sourceT)
     _ (&;assert Cannot-Cast (cannot-cast targetT sourceT)
                 (not (dict;contains? unboxed boxes)))]
    (wrap [castT sourceA])))

(def: (analyse-input analyse targetT sourceC)
  (-> &;Analyser Type Code (Meta [Type Text la;Analysis]))
  (do macro;Monad<Meta>
    [[sourceT sourceA] (&common;with-unknown-type
                         (analyse sourceC))
     [unboxed castT] (cast #In targetT sourceT)]
    (wrap [castT unboxed sourceA])))

(def: (static-get proc)
  (-> Text @;Proc)
  (function [analyse eval args]
    (case args
      (^ (list classC fieldC))
      (case [classC fieldC]
        [[_ (#;Text class)] [_ (#;Text field)]]
        (do macro;Monad<Meta>
          [[fieldT final?] (static-field class field)
           [unboxed castT] (infer-out fieldT)]
          (wrap (la;procedure proc (list (code;text class) (code;text field)
                                         (code;text unboxed)))))

        _
        (&;throw Wrong-Syntax (wrong-syntax proc args)))

      _
      (&;throw @;Incorrect-Procedure-Arity (@;wrong-arity proc +2 (list;size args))))))

(def: (static-put proc)
  (-> Text @;Proc)
  (function [analyse eval args]
    (case args
      (^ (list classC fieldC valueC))
      (case [classC fieldC]
        [[_ (#;Text class)] [_ (#;Text field)]]
        (do macro;Monad<Meta>
          [_ (&;infer Unit)
           [fieldT final?] (static-field class field)
           _ (&;assert Cannot-Set-Final-Field (format class "#" field)
                       (not final?))
           [valueT unboxed valueA] (analyse-input analyse fieldT valueC)
           _ (&;with-type-env
               (tc;check fieldT valueT))]
          (wrap (la;procedure proc (list (code;text class) (code;text field)
                                         (code;text unboxed) valueA))))

        _
        (&;throw Wrong-Syntax (wrong-syntax proc args)))

      _
      (&;throw @;Incorrect-Procedure-Arity (@;wrong-arity proc +3 (list;size args))))))

(def: (virtual-get proc)
  (-> Text @;Proc)
  (function [analyse eval args]
    (case args
      (^ (list classC fieldC objectC))
      (case [classC fieldC]
        [[_ (#;Text class)] [_ (#;Text field)]]
        (do macro;Monad<Meta>
          [[objectT objectA] (analyse-object class analyse objectC)
           [fieldT final?] (virtual-field class field objectT)
           [unboxed castT] (infer-out fieldT)]
          (wrap (la;procedure proc (list (code;text class) (code;text field)
                                         (code;text unboxed) objectA))))

        _
        (&;throw Wrong-Syntax (wrong-syntax proc args)))

      _
      (&;throw @;Incorrect-Procedure-Arity (@;wrong-arity proc +3 (list;size args))))))

(def: (virtual-put proc)
  (-> Text @;Proc)
  (function [analyse eval args]
    (case args
      (^ (list classC fieldC valueC objectC))
      (case [classC fieldC]
        [[_ (#;Text class)] [_ (#;Text field)]]
        (do macro;Monad<Meta>
          [[objectT objectA] (analyse-object class analyse objectC)
           _ (&;infer objectT)
           [fieldT final?] (virtual-field class field objectT)
           _ (&;assert Cannot-Set-Final-Field (format class "#" field)
                       (not final?))
           [valueT unboxed valueA] (analyse-input analyse fieldT valueC)]
          (wrap (la;procedure proc (list (code;text class) (code;text field) (code;text unboxed) valueA objectA))))

        _
        (&;throw Wrong-Syntax (wrong-syntax proc args)))

      _
      (&;throw @;Incorrect-Procedure-Arity (@;wrong-arity proc +4 (list;size args))))))

(def: (java-type-to-parameter type)
  (-> java.lang.reflect.Type (Meta Text))
  (cond (host;instance? Class type)
        (macro/wrap (Class.getName [] (:! Class type)))

        (host;instance? ParameterizedType type)
        (java-type-to-parameter (ParameterizedType.getRawType [] (:! ParameterizedType type)))

        (or (host;instance? TypeVariable type)
            (host;instance? WildcardType type))
        (macro/wrap "java.lang.Object")

        (host;instance? GenericArrayType type)
        (do macro;Monad<Meta>
          [componentP (java-type-to-parameter (GenericArrayType.getGenericComponentType [] (:! GenericArrayType type)))]
          (wrap (format componentP "[]")))

        ## else
        (&;throw Cannot-Convert-To-Parameter (type-descriptor type))))

(type: Method-Type
  #Static
  #Abstract
  #Virtual
  #Special
  #Interface)

(def: (check-method class method-name method-type arg-classes method)
  (-> (Class Object) Text Method-Type (List Text) Method (Meta Bool))
  (do macro;Monad<Meta>
    [parameters (|> (Method.getGenericParameterTypes [] method)
                    array;to-list
                    (monad;map @ java-type-to-parameter))
     #let [modifiers (Method.getModifiers [] method)]]
    (wrap (and (Object.equals [class] (Method.getDeclaringClass [] method))
               (text/= method-name (Method.getName [] method))
               (case #Static
                 #Special
                 (Modifier.isStatic [modifiers])

                 _
                 true)
               (case method-type
                 #Special
                 (not (or (Modifier.isInterface [(Class.getModifiers [] class)])
                          (Modifier.isAbstract [modifiers])))

                 _
                 true)
               (n.= (list;size arg-classes) (list;size parameters))
               (list/fold (function [[expectedJC actualJC] prev]
                            (and prev
                                 (text/= expectedJC actualJC)))
                          true
                          (list;zip2 arg-classes parameters))))))

(def: (check-constructor class arg-classes constructor)
  (-> (Class Object) (List Text) (Constructor Object) (Meta Bool))
  (do macro;Monad<Meta>
    [parameters (|> (Constructor.getGenericParameterTypes [] constructor)
                    array;to-list
                    (monad;map @ java-type-to-parameter))]
    (wrap (and (Object.equals [class] (Constructor.getDeclaringClass [] constructor))
               (n.= (list;size arg-classes) (list;size parameters))
               (list/fold (function [[expectedJC actualJC] prev]
                            (and prev
                                 (text/= expectedJC actualJC)))
                          true
                          (list;zip2 arg-classes parameters))))))

(def: idx-to-bound
  (-> Nat Type)
  (|>. (n.* +2) n.inc #;Bound))

(def: (type-vars amount offset)
  (-> Nat Nat (List Type))
  (if (n.= +0 amount)
    (list)
    (|> (list;n.range offset (|> amount n.dec (n.+ offset)))
        (list/map idx-to-bound))))

(def: (method-to-type method-type method)
  (-> Method-Type Method (Meta [Type (List Type)]))
  (let [owner (Method.getDeclaringClass [] method)
        owner-name (Class.getName [] owner)
        owner-tvars (case method-type
                      #Static
                      (list)

                      _
                      (|> (Class.getTypeParameters [] owner)
                          array;to-list
                          (list/map (TypeVariable.getName []))))
        method-tvars (|> (Method.getTypeParameters [] method)
                         array;to-list
                         (list/map (TypeVariable.getName [])))
        num-owner-tvars (list;size owner-tvars)
        num-method-tvars (list;size method-tvars)
        all-tvars (list/compose owner-tvars method-tvars)
        num-all-tvars (list;size all-tvars)
        owner-tvarsT (type-vars num-owner-tvars +0)
        method-tvarsT (type-vars num-method-tvars num-owner-tvars)
        mappings (: Mappings
                    (if (list;empty? all-tvars)
                      fresh-mappings
                      (|> (list/compose owner-tvarsT method-tvarsT)
                          list;reverse
                          (list;zip2 all-tvars)
                          (dict;from-list text;Hash<Text>))))]
    (do macro;Monad<Meta>
      [inputsT (|> (Method.getGenericParameterTypes [] method)
                   array;to-list
                   (monad;map @ (java-type-to-lux-type mappings)))
       outputT (java-type-to-lux-type mappings (Method.getGenericReturnType [] method))
       exceptionsT (|> (Method.getGenericExceptionTypes [] method)
                       array;to-list
                       (monad;map @ (java-type-to-lux-type mappings)))
       #let [methodT (<| (type;univ-q num-all-tvars)
                         (type;function (case method-type
                                          #Static
                                          inputsT

                                          _
                                          (list& (#;Primitive owner-name (list;reverse owner-tvarsT))
                                                 inputsT)))
                         outputT)]]
      (wrap [methodT exceptionsT]))))

(def: (methods class-name method-name method-type arg-classes)
  (-> Text Text Method-Type (List Text) (Meta [Type (List Type)]))
  (do macro;Monad<Meta>
    [class (load-class class-name)
     candidates (|> class
                    (Class.getDeclaredMethods [])
                    array;to-list
                    (monad;map @ (function [method]
                                   (do @
                                     [passes? (check-method class method-name method-type arg-classes method)]
                                     (wrap [passes? method])))))]
    (case (list;filter product;left candidates)
      #;Nil
      (&;throw No-Candidates (format class-name "#" method-name))
      
      (#;Cons candidate #;Nil)
      (|> candidate product;right (method-to-type method-type))

      _
      (&;throw Too-Many-Candidates (format class-name "#" method-name)))))

(def: (constructor-to-type constructor)
  (-> (Constructor Object) (Meta [Type (List Type)]))
  (let [owner (Constructor.getDeclaringClass [] constructor)
        owner-name (Class.getName [] owner)
        owner-tvars (|> (Class.getTypeParameters [] owner)
                        array;to-list
                        (list/map (TypeVariable.getName [])))
        constructor-tvars (|> (Constructor.getTypeParameters [] constructor)
                              array;to-list
                              (list/map (TypeVariable.getName [])))
        num-owner-tvars (list;size owner-tvars)
        all-tvars (list/compose owner-tvars constructor-tvars)
        num-all-tvars (list;size all-tvars)
        owner-tvarsT (type-vars num-owner-tvars +0)
        constructor-tvarsT (type-vars num-all-tvars num-owner-tvars)
        mappings (: Mappings
                    (if (list;empty? all-tvars)
                      fresh-mappings
                      (|> (list/compose owner-tvarsT constructor-tvarsT)
                          list;reverse
                          (list;zip2 all-tvars)
                          (dict;from-list text;Hash<Text>))))]
    (do macro;Monad<Meta>
      [inputsT (|> (Constructor.getGenericParameterTypes [] constructor)
                   array;to-list
                   (monad;map @ (java-type-to-lux-type mappings)))
       exceptionsT (|> (Constructor.getGenericExceptionTypes [] constructor)
                       array;to-list
                       (monad;map @ (java-type-to-lux-type mappings)))
       #let [objectT (#;Primitive owner-name (list;reverse owner-tvarsT))
             constructorT (<| (type;univ-q num-all-tvars)
                              (type;function inputsT)
                              objectT)]]
      (wrap [constructorT exceptionsT]))))

(def: (constructor-methods class-name arg-classes)
  (-> Text (List Text) (Meta [Type (List Type)]))
  (do macro;Monad<Meta>
    [class (load-class class-name)
     candidates (|> class
                    (Class.getConstructors [])
                    array;to-list
                    (monad;map @ (function [constructor]
                                   (do @
                                     [passes? (check-constructor class arg-classes constructor)]
                                     (wrap [passes? constructor])))))]
    (case (list;filter product;left candidates)
      #;Nil
      (&;throw No-Candidates (format class-name "(" (text;join-with ", " arg-classes) ")"))
      
      (#;Cons candidate #;Nil)
      (|> candidate product;right constructor-to-type)

      _
      (&;throw Too-Many-Candidates class-name))))

(def: (decorate-inputs typesT inputsA)
  (-> (List Text) (List la;Analysis) (List la;Analysis))
  (|> inputsA
      (list;zip2 (list/map code;text typesT))
      (list/map (function [[type value]]
                  (la;product (list type value))))))

(def: (sub-type-analyser analyse)
  (-> &;Analyser &;Analyser)
  (function [argC]
    (do macro;Monad<Meta>
      [[argT argA] (&common;with-unknown-type
                     (analyse argC))
       expectedT macro;expected-type
       [unboxed castT] (cast #In expectedT argT)]
      (wrap argA))))

(def: (invoke//static proc)
  (-> Text @;Proc)
  (function [analyse eval args]
    (case (: (e;Error [Text Text (List [Text Code])])
             (s;run args ($_ p;seq s;text s;text (p;some (s;tuple (p;seq s;text s;any))))))
      (#e;Success [class method argsTC])
      (do macro;Monad<Meta>
        [#let [argsT (list/map product;left argsTC)]
         [methodT exceptionsT] (methods class method #Static argsT)
         [outputT argsA] (inferenceA;general (sub-type-analyser analyse) methodT (list/map product;right argsTC))
         [unboxed castT] (infer-out outputT)]
        (wrap (la;procedure proc (list& (code;text class) (code;text method)
                                        (code;text unboxed) (decorate-inputs argsT argsA)))))

      _
      (&;throw Wrong-Syntax (wrong-syntax proc args)))))

(def: (invoke//virtual proc)
  (-> Text @;Proc)
  (function [analyse eval args]
    (case (: (e;Error [Text Text Code (List [Text Code])])
             (s;run args ($_ p;seq s;text s;text s;any (p;some (s;tuple (p;seq s;text s;any))))))
      (#e;Success [class method objectC argsTC])
      (do macro;Monad<Meta>
        [#let [argsT (list/map product;left argsTC)]
         [methodT exceptionsT] (methods class method #Virtual argsT)
         [outputT allA] (inferenceA;general (sub-type-analyser analyse) methodT (list& objectC (list/map product;right argsTC)))
         #let [[objectA argsA] (case allA
                                 (#;Cons objectA argsA)
                                 [objectA argsA]

                                 _
                                 (undefined))]
         [unboxed castT] (infer-out outputT)]
        (wrap (la;procedure proc (list& (code;text class) (code;text method)
                                        (code;text unboxed) objectA (decorate-inputs argsT argsA)))))

      _
      (&;throw Wrong-Syntax (wrong-syntax proc args)))))

(def: (invoke//special proc)
  (-> Text @;Proc)
  (function [analyse eval args]
    (case (: (e;Error [(List Code) [Text Text Code (List [Text Code]) Unit]])
             (p;run args ($_ p;seq s;text s;text s;any (p;some (s;tuple (p;seq s;text s;any))) s;end!)))
      (#e;Success [_ [class method objectC argsTC _]])
      (do macro;Monad<Meta>
        [#let [argsT (list/map product;left argsTC)]
         [methodT exceptionsT] (methods class method #Special argsT)
         [outputT argsA] (inferenceA;general (sub-type-analyser analyse) methodT (list& objectC (list/map product;right argsTC)))
         [unboxed castT] (infer-out outputT)]
        (wrap (la;procedure proc (list& (code;text class) (code;text method)
                                        (code;text unboxed) (decorate-inputs argsT argsA)))))

      _
      (&;throw Wrong-Syntax (wrong-syntax proc args)))))

(def: (invoke//interface proc)
  (-> Text @;Proc)
  (function [analyse eval args]
    (case (: (e;Error [Text Text Code (List [Text Code])])
             (s;run args ($_ p;seq s;text s;text s;any (p;some (s;tuple (p;seq s;text s;any))))))
      (#e;Success [class-name method objectC argsTC])
      (do macro;Monad<Meta>
        [#let [argsT (list/map product;left argsTC)]
         class (load-class class-name)
         _ (&;assert Non-Interface class-name
                     (Modifier.isInterface [(Class.getModifiers [] class)]))
         [methodT exceptionsT] (methods class-name method #Interface argsT)
         [outputT argsA] (inferenceA;general (sub-type-analyser analyse) methodT (list& objectC (list/map product;right argsTC)))
         [unboxed castT] (infer-out outputT)]
        (wrap (la;procedure proc
                            (list& (code;text class-name) (code;text method) (code;text unboxed)
                                   (decorate-inputs argsT argsA)))))

      _
      (&;throw Wrong-Syntax (wrong-syntax proc args)))))

(def: (invoke//constructor proc)
  (-> Text @;Proc)
  (function [analyse eval args]
    (case (: (e;Error [Text (List [Text Code])])
             (s;run args ($_ p;seq s;text (p;some (s;tuple (p;seq s;text s;any))))))
      (#e;Success [class argsTC])
      (do macro;Monad<Meta>
        [#let [argsT (list/map product;left argsTC)]
         [methodT exceptionsT] (constructor-methods class argsT)
         [outputT argsA] (inferenceA;general (sub-type-analyser analyse) methodT (list/map product;right argsTC))
         [unboxed castT] (infer-out outputT)]
        (wrap (la;procedure proc (list& (code;text class) (decorate-inputs argsT argsA)))))

      _
      (&;throw Wrong-Syntax (wrong-syntax proc args)))))

(def: member-procs
  @;Bundle
  (<| (@;prefix "member")
      (|> (dict;new text;Hash<Text>)
          (dict;merge (<| (@;prefix "static")
                          (|> (dict;new text;Hash<Text>)
                              (@;install "get" static-get)
                              (@;install "put" static-put))))
          (dict;merge (<| (@;prefix "virtual")
                          (|> (dict;new text;Hash<Text>)
                              (@;install "get" virtual-get)
                              (@;install "put" virtual-put))))
          (dict;merge (<| (@;prefix "invoke")
                          (|> (dict;new text;Hash<Text>)
                              (@;install "static" invoke//static)
                              (@;install "virtual" invoke//virtual)
                              (@;install "special" invoke//special)
                              (@;install "interface" invoke//interface)
                              (@;install "constructor" invoke//constructor)
                              )))
          )))

(def: #export procedures
  @;Bundle
  (<| (@;prefix "jvm")
      (|> (dict;new text;Hash<Text>)
          (dict;merge conversion-procs)
          (dict;merge int-procs)
          (dict;merge long-procs)
          (dict;merge float-procs)
          (dict;merge double-procs)
          (dict;merge char-procs)
          (dict;merge array-procs)
          (dict;merge object-procs)
          (dict;merge member-procs)
          )))