diff options
-rw-r--r-- | source/lux.lux | 2458 | ||||
-rw-r--r-- | src/lux/analyser.clj | 2 | ||||
-rw-r--r-- | src/lux/analyser/base.clj | 27 | ||||
-rw-r--r-- | src/lux/analyser/case.clj | 348 | ||||
-rw-r--r-- | src/lux/analyser/env.clj | 2 | ||||
-rw-r--r-- | src/lux/analyser/host.clj | 4 | ||||
-rw-r--r-- | src/lux/analyser/lux.clj | 155 | ||||
-rw-r--r-- | src/lux/base.clj | 29 | ||||
-rw-r--r-- | src/lux/compiler/case.clj | 22 | ||||
-rw-r--r-- | src/lux/compiler/lux.clj | 6 | ||||
-rw-r--r-- | src/lux/type.clj | 145 |
11 files changed, 1605 insertions, 1593 deletions
diff --git a/source/lux.lux b/source/lux.lux index ca6a1925c..84eaab689 100644 --- a/source/lux.lux +++ b/source/lux.lux @@ -74,1232 +74,1252 @@ #Nil])])])])])])])])])])]))]) #NothingT])))) -## (deftype (Maybe a) -## (| #None -## (#Some a))) -(def' Maybe - (#AllT [#Nil "Maybe" "a" - (#VariantT (#Cons [["lux;None" (#TupleT #Nil)] - (#Cons [["lux;Some" (#BoundT "a")] - #Nil])]))])) - -## (deftype (Bindings k v) -## (& #counter Int -## #mappings (List (, k v)))) -(def' Bindings - (#AllT [#Nil "Bindings" "k" - (#AllT [#Nil "" "v" - (#RecordT (#Cons [["lux;counter" Int] - (#Cons [["lux;mappings" (#AppT [List - (#TupleT (#Cons [(#BoundT "k") - (#Cons [(#BoundT "v") - #Nil])]))])] - #Nil])]))])])) - -## (deftype (Env k v) -## (& #name Text -## #inner-closures Int -## #locals (Bindings k v) -## #closure (Bindings k v))) -(def' Env - (#AllT [#Nil "Env" "k" - (#AllT [#Nil "" "v" - (#RecordT (#Cons [["lux;name" Text] - (#Cons [["lux;inner-closures" Int] - (#Cons [["lux;locals" (#AppT [(#AppT [Bindings (#BoundT "k")]) - (#BoundT "v")])] - (#Cons [["lux;closure" (#AppT [(#AppT [Bindings (#BoundT "k")]) - (#BoundT "v")])] - #Nil])])])]))])])) - -## (deftype Cursor -## (, Text Int Int)) -(def' Cursor - (#TupleT (#Cons [Text (#Cons [Int (#Cons [Int #Nil])])]))) - -## (deftype (Meta m v) -## (| (#Meta (, m v)))) -(def' Meta - (#AllT [#Nil "Meta" "m" - (#AllT [#Nil "" "v" - (#VariantT (#Cons [["lux;Meta" (#TupleT (#Cons [(#BoundT "m") - (#Cons [(#BoundT "v") - #Nil])]))] - #Nil]))])])) - +## (def' Type +## (case' (#AppT [(#BoundT "Type") (#BoundT "")]) +## Type +## (case' (#AppT [List (#TupleT (#Cons [Text (#Cons [Type #Nil])]))]) +## TypeEnv +## (#AppT [(#AllT [#Nil "Type" "" +## (#VariantT (#Cons [["lux;AnyT" (#TupleT #Nil)] +## (#Cons [["lux;NothingT" (#TupleT #Nil)] +## (#Cons [["lux;DataT" Text] +## (#Cons [["lux;TupleT" (#AppT [List (#AppT [(#BoundT "Type") (#BoundT "")])])] +## (#Cons [["lux;VariantT" TypeEnv] +## (#Cons [["lux;RecordT" TypeEnv] +## (#Cons [["lux;LambdaT" (#TupleT (#Cons [Type (#Cons [Type #Nil])]))] +## (#Cons [["lux;BoundT" Text] +## (#Cons [["lux;VarT" Int] +## (#Cons [["lux;AllT" (#TupleT (#Cons [TypeEnv (#Cons [Text (#Cons [Text (#Cons [Type #Nil])])])]))] +## (#Cons [["lux;AppT" (#TupleT (#Cons [Type (#Cons [Type #Nil])]))] +## #Nil])])])])])])])])])])]))]) +## #NothingT])))) + +## ## (deftype (Maybe a) +## ## (| #None +## ## (#Some a))) +## (def' Maybe +## (#AllT [#Nil "Maybe" "a" +## (#VariantT (#Cons [["lux;None" (#TupleT #Nil)] +## (#Cons [["lux;Some" (#BoundT "a")] +## #Nil])]))])) + +## ## (deftype (Bindings k v) +## ## (& #counter Int +## ## #mappings (List (, k v)))) +## (def' Bindings +## (#AllT [#Nil "Bindings" "k" +## (#AllT [#Nil "" "v" +## (#RecordT (#Cons [["lux;counter" Int] +## (#Cons [["lux;mappings" (#AppT [List +## (#TupleT (#Cons [(#BoundT "k") +## (#Cons [(#BoundT "v") +## #Nil])]))])] +## #Nil])]))])])) + +## ## (deftype (Env k v) +## ## (& #name Text +## ## #inner-closures Int +## ## #locals (Bindings k v) +## ## #closure (Bindings k v))) +## (def' Env +## (#AllT [#Nil "Env" "k" +## (#AllT [#Nil "" "v" +## (#RecordT (#Cons [["lux;name" Text] +## (#Cons [["lux;inner-closures" Int] +## (#Cons [["lux;locals" (#AppT [(#AppT [Bindings (#BoundT "k")]) +## (#BoundT "v")])] +## (#Cons [["lux;closure" (#AppT [(#AppT [Bindings (#BoundT "k")]) +## (#BoundT "v")])] +## #Nil])])])]))])])) + +## ## (deftype Cursor +## ## (, Text Int Int)) +## (def' Cursor +## (#TupleT (#Cons [Text (#Cons [Int (#Cons [Int #Nil])])]))) + +## ## (deftype (Meta m v) +## ## (| (#Meta (, m v)))) +## (def' Meta +## (#AllT [#Nil "Meta" "m" +## (#AllT [#Nil "" "v" +## (#VariantT (#Cons [["lux;Meta" (#TupleT (#Cons [(#BoundT "m") +## (#Cons [(#BoundT "v") +## #Nil])]))] +## #Nil]))])])) + +## ## (def' Reader +## ## (List (Meta Cursor Text))) ## (def' Reader -## (List (Meta Cursor Text))) -(def' Reader - (#AppT [List - (#AppT [(#AppT [Meta Cursor]) - Text])])) - -## (deftype Compiler_State -## (& #source (Maybe Reader) -## #modules (List Any) -## #module-aliases (List Any) -## #global-env (Maybe (Env Text Any)) -## #local-envs (List (Env Text Any)) -## #types (Bindings Int Type) -## #writer (^ org.objectweb.asm.ClassWriter) -## #loader (^ java.net.URLClassLoader) -## #eval-ctor Int)) -(def' Compiler_State - (#RecordT (#Cons [["lux;source" (#AppT [Maybe Reader])] - (#Cons [["lux;modules" (#AppT [List Any])] - (#Cons [["lux;module-aliases" (#AppT [List Any])] - (#Cons [["lux;global-env" (#AppT [Maybe (#AppT [(#AppT [Env Text]) Any])])] - (#Cons [["lux;local-envs" (#AppT [List (#AppT [(#AppT [Env Text]) Any])])] - (#Cons [["lux;types" (#AppT [(#AppT [Bindings Int]) Type])] - (#Cons [["lux;writer" (#DataT "org.objectweb.asm.ClassWriter")] - (#Cons [["lux;loader" (#DataT "java.lang.ClassLoader")] - (#Cons [["lux;eval-ctor" Int] - #Nil])])])])])])])])]))) - -## (deftype #rec Syntax -## (Meta Cursor (| (#Bool Bool) -## (#Int Int) -## (#Real Real) -## (#Char Char) -## (#Text Text) -## (#Form (List Syntax)) -## (#Tuple (List Syntax)) -## (#Record (List (, Text Syntax)))))) -(def' Syntax - (case' (#AppT [(#BoundT "Syntax") (#BoundT "")]) - Syntax - (case' (#AppT [List Syntax]) - SyntaxList - (#AppT [(#AllT [#Nil "Syntax" "" - (#AppT [(#AppT [Meta Cursor]) - (#VariantT (#Cons [["lux;Bool" Bool] - (#Cons [["lux;Int" Int] - (#Cons [["lux;Real" Real] - (#Cons [["lux;Char" Char] - (#Cons [["lux;Text" Text] - (#Cons [["lux;Form" SyntaxList] - (#Cons [["lux;Tuple" SyntaxList] - (#Cons [["lux;Record" (#AppT [List (#TupleT (#Cons [Text (#Cons [Syntax #Nil])]))])] - #Nil])])])])])])])]))])]) - #NothingT])))) +## (#AppT [List +## (#AppT [(#AppT [Meta Cursor]) +## Text])])) + +## ## (deftype Compiler_State +## ## (& #source (Maybe Reader) +## ## #modules (List Any) +## ## #module-aliases (List Any) +## ## #global-env (Maybe (Env Text Any)) +## ## #local-envs (List (Env Text Any)) +## ## #types (Bindings Int Type) +## ## #writer (^ org.objectweb.asm.ClassWriter) +## ## #loader (^ java.net.URLClassLoader) +## ## #eval-ctor Int)) +## (def' Compiler_State +## (#RecordT (#Cons [["lux;source" (#AppT [Maybe Reader])] +## (#Cons [["lux;modules" (#AppT [List Any])] +## (#Cons [["lux;module-aliases" (#AppT [List Any])] +## (#Cons [["lux;global-env" (#AppT [Maybe (#AppT [(#AppT [Env Text]) Any])])] +## (#Cons [["lux;local-envs" (#AppT [List (#AppT [(#AppT [Env Text]) Any])])] +## (#Cons [["lux;types" (#AppT [(#AppT [Bindings Int]) Type])] +## (#Cons [["lux;writer" (#DataT "org.objectweb.asm.ClassWriter")] +## (#Cons [["lux;loader" (#DataT "java.lang.ClassLoader")] +## (#Cons [["lux;eval-ctor" Int] +## #Nil])])])])])])])])]))) -## (deftype (Either l r) -## (| (#Left l) -## (#Right r))) -(def' Either - (#AllT [#Nil "_" "l" - (#AllT [#Nil "" "r" - (#VariantT (#Cons [["lux;Left" (#BoundT "l")] - (#Cons [["lux;Right" (#BoundT "r")] - #Nil])]))])])) - -## (deftype Macro -## (-> (List Syntax) Compiler_State -## (Either Text [Compiler_State (List Syntax)]))) -(def' Macro - (case' (#AppT [List Syntax]) - SyntaxList - (#LambdaT [SyntaxList - (#LambdaT [Compiler_State - (#AppT [(#AppT [Either Text]) - (#TupleT (#Cons [Compiler_State - (#Cons [SyntaxList #Nil])]))])])]))) - -## Base functions & macros -## (def (_meta data) -## (All [a] (-> a (Meta Cursor a))) -## (#Meta [["" -1 -1] data])) -(def' _meta - (check' (#AllT [#Nil "_" "a" - (#LambdaT [(#BoundT "a") - (#AppT [(#AppT [Meta Cursor]) - (#BoundT "a")])])]) - (lambda' _ data - (#Meta [["" -1 -1] data])))) - -(def' let' - (check' Macro - (lambda' _ tokens - (lambda' _ state - (case' tokens - (#Cons [lhs (#Cons [rhs (#Cons [body #Nil])])]) - (#Right [state - (#Cons [(_meta (#Form (#Cons [(_meta (#Symbol ["" "case'"])) - (#Cons [rhs (#Cons [lhs (#Cons [body #Nil])])])]))) - #Nil])]) - - _ - (#Left "Wrong syntax for let'")) - )))) - -## (def' let' -## (check' Macro -## (lambda' _ tokens -## (lambda' _ state -## (#Left "Wrong syntax for let'") -## )))) - -## (def' let' -## (lambda' _ tokens -## (lambda' _ state -## (case' tokens -## (#Cons [lhs (#Cons [rhs (#Cons [body #Nil])])]) -## (#Right [state -## (#Cons [(_meta (#Form (#Cons [(_meta (#Symbol ["" "case'"])) -## (#Cons [rhs (#Cons [lhs (#Cons [body #Nil])])])]))) -## #Nil])]) - -## _ -## (#Left "Wrong syntax for let'")) -## ))) -## (declare-macro' let') - -## ## ## (All 21268 -## ## ## (-> 21268 -## ## ## (All 21267 -## ## ## (-> 21267 -## ## ## (| (#lux;Right (, 21267 -## ## ## (| (#lux;Cons (, (((All Meta m (All v (| (#lux;Meta (, m v))))) -## ## ## (, (^ java.lang.String []) (^ java.lang.Long []) (^ java.lang.Long []))) -## ## ## ⌈17⌋) -## ## ## (| (#lux;Nil (, ))))))))))))) - -## ## (def' lambda +## ## (deftype #rec Syntax +## ## (Meta Cursor (| (#Bool Bool) +## ## (#Int Int) +## ## (#Real Real) +## ## (#Char Char) +## ## (#Text Text) +## ## (#Form (List Syntax)) +## ## (#Tuple (List Syntax)) +## ## (#Record (List (, Text Syntax)))))) +## (def' Syntax +## (case' (#AppT [(#BoundT "Syntax") (#BoundT "")]) +## Syntax +## (case' (#AppT [List Syntax]) +## SyntaxList +## (#AppT [(#AllT [#Nil "Syntax" "" +## (#AppT [(#AppT [Meta Cursor]) +## (#VariantT (#Cons [["lux;Bool" Bool] +## (#Cons [["lux;Int" Int] +## (#Cons [["lux;Real" Real] +## (#Cons [["lux;Char" Char] +## (#Cons [["lux;Text" Text] +## (#Cons [["lux;Form" SyntaxList] +## (#Cons [["lux;Tuple" SyntaxList] +## (#Cons [["lux;Record" (#AppT [List (#TupleT (#Cons [Text (#Cons [Syntax #Nil])]))])] +## #Nil])])])])])])])]))])]) +## #NothingT])))) + +## ## ## (deftype (Either l r) +## ## ## (| (#Left l) +## ## ## (#Right r))) +## ## (def' Either +## ## (#AllT [#Nil "_" "l" +## ## (#AllT [#Nil "" "r" +## ## (#VariantT (#Cons [["lux;Left" (#BoundT "l")] +## ## (#Cons [["lux;Right" (#BoundT "r")] +## ## #Nil])]))])])) + +## ## ## (deftype Macro +## ## ## (-> (List Syntax) Compiler_State +## ## ## (Either Text [Compiler_State (List Syntax)]))) +## ## (def' Macro +## ## (case' (#AppT [List Syntax]) +## ## SyntaxList +## ## (#LambdaT [SyntaxList +## ## (#LambdaT [Compiler_State +## ## (#AppT [(#AppT [Either Text]) +## ## (#TupleT (#Cons [Compiler_State +## ## (#Cons [SyntaxList #Nil])]))])])]))) + +## ## ## Base functions & macros +## ## ## (def (_meta data) +## ## ## (All [a] (-> a (Meta Cursor a))) +## ## ## (#Meta [["" -1 -1] data])) +## ## (def' _meta +## ## (check' (#AllT [#Nil "_" "a" +## ## (#LambdaT [(#BoundT "a") +## ## (#AppT [(#AppT [Meta Cursor]) +## ## (#BoundT "a")])])]) +## ## (lambda' _ data +## ## (#Meta [["" -1 -1] data])))) + +## ## (def' let' +## ## (check' Macro +## ## (lambda' _ tokens +## ## (lambda' _ state +## ## (case' tokens +## ## (#Cons [lhs (#Cons [rhs (#Cons [body #Nil])])]) +## ## (#Right [state +## ## (#Cons [(_meta (#Form (#Cons [(_meta (#Symbol ["" "case'"])) +## ## (#Cons [rhs (#Cons [lhs (#Cons [body #Nil])])])]))) +## ## #Nil])]) + +## ## _ +## ## (#Left "Wrong syntax for let'")) +## ## )))) + +## ## (def' let' ## ## (check' Macro ## ## (lambda' _ tokens ## ## (lambda' _ state -## ## (let' output (case' tokens -## ## (#Cons [(#Meta [_ (#Tuple (#Cons [arg args']))]) (#Cons [body #Nil])]) -## ## (_meta (#Form (#Cons [(_meta (#Symbol ["" "lambda'"])) -## ## (#Cons [(_meta (#Symbol ["" ""])) -## ## (#Cons [arg -## ## (#Cons [(case' args' -## ## #Nil -## ## body - -## ## _ -## ## (_meta (#Form (#Cons [(_meta (#Symbol ["lux" "lambda"])) -## ## (#Cons [(_meta (#Tuple args')) -## ## (#Cons [body #Nil])])])))) -## ## #Nil])])])]))) - -## ## (#Cons [(#Meta [_ (#Symbol self)]) (#Cons [(#Meta [_ (#Tuple (#Cons [arg args']))]) (#Cons [body #Nil])])]) -## ## (_meta (#Form (#Cons [(_meta (#Symbol ["" "lambda'"])) -## ## (#Cons [(_meta (#Symbol self)) -## ## (#Cons [arg -## ## (#Cons [(case' args' -## ## #Nil -## ## body - -## ## _ -## ## (_meta (#Form (#Cons [(_meta (#Symbol ["lux" "lambda"])) -## ## (#Cons [(_meta (#Tuple args')) -## ## (#Cons [body #Nil])])])))) -## ## #Nil])])])])))) -## ## (#Right [state (#Cons [output #Nil])])) +## ## (#Left "Wrong syntax for let'") ## ## )))) -## ## (declare-macro lambda) -## ## (def' def -## ## (check' Macro -## ## (lambda [tokens state] -## ## (let' output (case' tokens -## ## (#Cons [(#Meta [_ (#Symbol name)]) (#Cons [body #Nil])]) -## ## (_meta (#Form (#Cons [(_meta (#Symbol ["" "def'"])) tokens]))) - -## ## (#Cons [(#Meta [_ (#Form (#Cons [(#Meta [_ (#Symbol name)]) args]))]) -## ## (#Cons [body #Nil])]) -## ## (_meta (#Form (#Cons [(_meta (#Symbol ["" "def'"])) -## ## (#Cons [(_meta (#Symbol name)) -## ## (#Cons [(_meta (#Form (#Cons [(_meta (#Symbol ["lux" "lambda"])) -## ## (#Cons [(_meta (#Symbol name)) -## ## (#Cons [(_meta (#Tuple args)) -## ## (#Cons [body #Nil])])])]))) -## ## #Nil])])]))) - -## ## (#Cons [(#Meta [_ (#Symbol name)]) (#Cons [type (#Cons [body #Nil])])]) -## ## (_meta (#Form (#Cons [(_meta (#Symbol ["" "def'"])) -## ## (#Cons [(_meta (#Symbol name)) -## ## (#Cons [(_meta (#Form (#Cons [(_meta (#Symbol ["" "check'"])) -## ## (#Cons [type -## ## (#Cons [body -## ## #Nil])])]))) -## ## #Nil])])]))) - -## ## (#Cons [(#Meta [_ (#Form (#Cons [(#Meta [_ (#Symbol name)]) args]))]) -## ## (#Cons [type (#Cons [body #Nil])])]) -## ## (_meta (#Form (#Cons [(_meta (#Symbol ["" "def'"])) -## ## (#Cons [(_meta (#Symbol name)) -## ## (#Cons [(_meta (#Form (#Cons [(_meta (#Symbol ["" "check'"])) -## ## (#Cons [type -## ## (#Cons [(_meta (#Form (#Cons [(_meta (#Symbol ["lux" "lambda"])) -## ## (#Cons [(_meta (#Symbol name)) -## ## (#Cons [(_meta (#Tuple args)) -## ## (#Cons [body #Nil])])])]))) -## ## #Nil])])]))) -## ## #Nil])])])))) -## ## (#Right [state (#Cons [output #Nil])]))))) -## ## (declare-macro def) - -## ## (def (defmacro tokens state) -## ## (let' [fn-name fn-def] (case' tokens -## ## (#Cons [(#Meta [_ (#Form (#Cons [(#Meta [_ (#Symbol fn-name)]) args]))]) -## ## (#Cons [body #Nil])]) -## ## [fn-name -## ## (_meta (#Form (#Cons [(_meta (#Symbol ["lux" "def"])) -## ## (#Cons [(_meta (#Form (#Cons [(_meta (#Symbol fn-name)) args]))) -## ## (#Cons [(_meta (#Form (#Cons [(_meta (#Symbol ["" "check'"])) -## ## (#Cons [(_meta (#Symbol ["lux;" "Macro"])) -## ## (#Cons [(_meta (#Form (#Cons [(_meta (#Symbol ["lux" "lambda"])) -## ## (#Cons [(_meta (#Symbol name)) -## ## (#Cons [(_meta (#Tuple args)) -## ## (#Cons [body #Nil])])])]))) -## ## #Nil])])]))) -## ## #Nil])])])))]) -## ## (let' declaration (_meta (#Form (#Cons [(_meta (#Symbol ["" "declare-macro"])) (#Cons [(_meta (#Symbol fn-name)) #Nil])]))) -## ## (#Right [state (#Cons [fn-def (#Cons [declaration #Nil])])])))) -## ## (declare-macro defmacro) - -## ## (defmacro (comment tokens state) -## ## (#Right [state #Nil])) - -## ## (def (int+ x y) -## ## (-> Int Int Int) -## ## (jvm-ladd x y)) - -## ## (def (id x) -## ## (All [a] (-> a a)) -## ## x) - -## ## (def (print x) -## ## (-> (^ java.lang.Object) []) -## ## (jvm-invokevirtual java.io.PrintStream "print" [java.lang.Object] -## ## (jvm-getstatic java.lang.System "out") [x])) - -## ## (def (println x) -## ## (-> (^ java.lang.Object) []) -## ## (jvm-invokevirtual java.io.PrintStream "println" [java.lang.Object] -## ## (jvm-getstatic java.lang.System "out") [x])) - -## ## (deftype (IO a) -## ## (-> (,) a)) - -## ## (defmacro (io tokens) -## ## (case' tokens -## ## (#Cons [value #Nil]) -## ## (return (list (` (lambda [_] (~ value))))))) - -## ## (def (fold f init xs) -## ## (All [a b] -## ## (-> (-> a b a) a (List b) a)) -## ## (case' xs -## ## #Nil -## ## init - -## ## (#Cons [x xs']) -## ## (fold f (f init x) xs'))) - -## ## (def (reverse list) -## ## (All [a] -## ## (-> (List a) (List a))) -## ## (fold (lambda [tail head] -## ## (#Cons [head tail])) -## ## #Nil -## ## list)) - -## ## (defmacro (list xs state) -## ## (let' xs' (reverse xs) -## ## (let' output (fold (lambda [tail head] -## ## (_meta (#Form (#Cons [(_meta (#Tag ["lux" "Cons"])) -## ## (#Cons [(_meta (#Tuple (#Cons [head (#Cons [tail #Nil])]))) -## ## #Nil])])))) -## ## (_meta (#Tag ["lux" "Nil"])) -## ## xs') -## ## (#Right [state (#Cons [output #Nil])])))) - -## ## (defmacro (list+ xs state) -## ## (case' (reverse xs) -## ## #Nil -## ## [#Nil state] - -## ## (#Cons [last init']) -## ## (let' output (fold (lambda [tail head] -## ## (_meta (#Form (list (_meta (#Tag ["lux" "Cons"])) (_meta (#Tuple (list head tail))))))) -## ## last -## ## init') -## ## (#Right [state (#Cons [output #Nil])])))) - -## ## (def (as-pairs xs) -## ## (All [a] -## ## (-> (List a) (List [a a]))) -## ## (case' xs -## ## (#Cons [x (#Cons [y xs'])]) -## ## (#Cons [[x y] (as-pairs xs')]) - -## ## _ -## ## #Nil)) - -## ## (defmacro (let tokens state) -## ## (case' tokens -## ## (#Cons [(#Meta [_ (#Tuple bindings)]) (#Cons [body #Nil])]) -## ## (let' output (fold (lambda [body binding] -## ## (case' binding -## ## [label value] -## ## (_meta (#Form (list (_meta (#Symbol ["lux" "let'"])) label value body))))) -## ## body -## ## (reverse (as-pairs bindings))) -## ## (#Right [state (list output)])))) - -## ## (def (. f g) -## ## (All [a b c] -## ## (-> (-> b c) (-> a b) (-> a c))) -## ## (lambda [x] (f (g x)))) - -## ## (def (++ xs ys) -## ## (All [a] -## ## (-> (List a) (List a) (List a))) -## ## (case' xs -## ## #Nil -## ## ys - -## ## (#Cons [x xs']) -## ## (#Cons [x (++ xs' ys)]))) - -## ## (def concat -## ## (All [a] -## ## (-> (List (List a)) (List a))) -## ## (fold ++ #Nil)) - -## ## (def (map f xs) -## ## (All [a b] -## ## (-> (-> a b) (List a) (List b))) -## ## (case' xs -## ## #Nil -## ## #Nil - -## ## (#Cons [x xs']) -## ## (#Cons [(f x) (map f xs')]))) - -## ## (def flat-map -## ## (All [a b] -## ## (-> (-> a (List b)) (List a) (List b))) -## ## (. concat map)) - -## ## (def (wrap-meta content) -## ## ... -## ## (_meta (#Form (list (_meta (#Tag ["lux" "Meta"])) -## ## (_meta (#Tuple (list (_meta (#Tuple (list (_meta (#Form (list (_meta (#Tag ["lux" "Text"])) (_meta (#Text ""))))) -## ## (_meta (#Form (list (_meta (#Tag ["lux" "Int"])) (_meta (#Int -1))))) -## ## (_meta (#Form (list (_meta (#Tag ["lux" "Int"])) (_meta (#Int -1)))))))) -## ## (_meta content)))))))) - -## ## (def (untemplate-list tokens) -## ## (-> (List Syntax) Syntax) -## ## (case' tokens -## ## #Nil -## ## (_meta (#Tag ["lux" "Nil"])) - -## ## (#Cons [token tokens']) -## ## (_meta (#Form (list (_meta (#Tag ["lux" "Cons"])) -## ## (_meta (#Tuple (list token (untemplate-list tokens'))))))))) - -## ## (def (untemplate token) -## ## ... -## ## (case' token -## ## (#Meta [_ (#Bool value)]) -## ## (wrap-meta (#Form (list (_meta (#Tag ["lux" "Bool"])) (_meta (#Bool value))))) - -## ## (#Meta [_ (#Int value)]) -## ## (wrap-meta (#Form (list (_meta (#Tag ["lux" "Int"])) (_meta (#Int value))))) - -## ## (#Meta [_ (#Real value)]) -## ## (wrap-meta (#Form (list (_meta (#Tag ["lux" "Real"])) (_meta (#Real value))))) - -## ## (#Meta [_ (#Char value)]) -## ## (wrap-meta (#Form (list (_meta (#Tag ["lux" "Char"])) (_meta (#Char value))))) - -## ## (#Meta [_ (#Text value)]) -## ## (wrap-meta (#Form (list (_meta (#Tag ["lux" "Text"])) (_meta (#Text value))))) - -## ## (#Meta [_ (#Tag [module name])]) -## ## (wrap-meta (#Form (list (_meta (#Tag ["lux" "Tag"])) (_meta (#Tuple (list (_meta (#Text module)) (_meta (#Text name)))))))) - -## ## (#Meta [_ (#Symbol [module name])]) -## ## (wrap-meta (#Form (list (_meta (#Tag ["lux" "Symbol"])) (_meta (#Tuple (list (_meta (#Text module)) (_meta (#Text name)))))))) - -## ## (#Meta [_ (#Tuple elems)]) -## ## (wrap-meta (#Form (list (_meta (#Tag ["lux" "Tuple"])) (untemplate-list (map untemplate elems))))) - -## ## (#Meta [_ (#Form (#Cons [(#Meta [_ (#Symbol [_ "~"])]) (#Cons [(#Meta [_ unquoted]) #Nil])]))]) -## ## (_meta unquoted) - -## ## (#Meta [_ (#Form elems)]) -## ## (wrap-meta (#Form (list (_meta (#Tag ["lux" "Form"])) (untemplate-list (map untemplate elems))))) -## ## )) - -## ## (defmacro (` tokens state) -## ## (case' tokens -## ## (#Cons [template #Nil]) -## ## (#Right [state (list (untemplate template))]))) - -## ## (defmacro (if tokens state) -## ## (case' tokens -## ## (#Cons [test (#Cons [then (#Cons [else #Nil])])]) -## ## (#Right [state -## ## (list (` (case' (~ test) -## ## true (~ then) -## ## false (~ else))))]))) - -## ## (def (filter p xs) -## ## (All [a] -## ## (-> (-> a Bool) (List a) (List a))) -## ## (case' xs -## ## #Nil -## ## #Nil - -## ## (#Cons [x xs']) -## ## (if (p x) -## ## (#Cons [x (filter p xs')]) -## ## (filter p xs')))) - -## ## (deftype (LuxStateM a) -## ## (-> CompilerState (Either Text [CompilerState a]))) - -## ## (def (return val) -## ## (All [a] -## ## (-> a (LuxStateM a))) -## ## (lambda [state] -## ## (#Right [state val]))) - -## ## (def (fail msg) -## ## (-> Text (LuxStateM Nothing)) -## ## (lambda [_] -## ## (#Left msg))) - -## ## (def (bind f v) -## ## (All [m a b] (-> (-> a (m b)) (m a) (m b))) -## ## (lambda [state] -## ## (case' (v state) -## ## (#Right [state' x]) -## ## (f x state') - -## ## (#Left msg) -## ## (#Left msg)))) - -## ## (def (first pair) -## ## (All [a b] (-> (, a b) a)) -## ## (case' pair -## ## [f s] -## ## f)) - -## ## (def (second pair) -## ## (All [a b] 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## (def (not x) -## ## (-> Bool Bool) -## ## (case' x -## ## true false -## ## false true)) - -## ## (defmacro (|> tokens) -## ## (case' tokens -## ## (#Cons [init apps]) -## ## (return (list (fold (lambda [acc app] -## ## (case' app -## ## (#Form parts) -## ## (#Form (++ parts (list acc))) - -## ## _ -## ## (` ((~ app) (~ acc))))) -## ## init -## ## apps))))) - -## ## (defmacro ($ tokens) -## ## (case' tokens -## ## (#Cons [op (#Cons [init args])]) -## ## (return (list (fold (lambda [acc elem] -## ## (` ((~ op) (~ acc) (~ elem)))) -## ## init -## ## args))))) - -## ## (def (const x) -## ## (All [a] -## ## (-> a (-> Any a))) -## ## (lambda [_] -## ## x)) - -## ## (def (int> x y) -## ## (-> Int Int Bool) -## ## (jvm-lgt x y)) - -## ## (def (int< x y) -## ## (-> Int Int Bool) -## ## (jvm-llt x y)) - -## ## (def inc -## ## (-> Int Int) -## ## (int+ 1)) - -## ## (def dec -## ## (-> Int Int) -## ## (int+ -1)) - -## ## (def (repeat n x) -## ## (All [a] (-> Int a (List a))) -## ## (if (int> n 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list)) - -## ## (def (zip2 xs ys) -## ## (All [a b] -## ## (-> (List a) (List b) (List (, a b)))) -## ## (case' [xs ys] -## ## [(#Cons [x xs']) (#Cons [y ys'])] -## ## (#Cons [[x y] (zip2 xs' ys')]) - -## ## _ -## ## #Nil)) - -## ## (def (get key map) -## ## (All [a b] -## ## (-> a (List (, a b)) (Maybe b))) -## ## (case' map -## ## #Nil -## ## #None - -## ## (#Cons [[k v] map']) -## ## (if (jvm-invokevirtual java.lang.Object "equals" [java.lang.Object] -## ## k [key]) -## ## (#Some v) -## ## (get key map')))) - -## ## (def (get-ident x) -## ## (-> Syntax Text) -## ## (case' x -## ## (#Meta [_ (#Symbol [_ ident])]) -## ## ident)) - -## ## (def (text-++ x y) -## ## (-> Text Text Text) -## ## (jvm-invokevirtual java.lang.String "concat" [java.lang.String] -## ## x [y])) - -## ## (def (show-env env) -## ## ... -## ## (|> env (map first) (interpose ", ") (fold text-++ ""))) - -## ## (def (apply-template env template) -## ## (case' template -## ## (#Meta [_ (#Symbol [_ ident])]) -## ## 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xs'))] -## ## [drop xs (drop (dec n) xs')]) - -## ## (do-templates [<name> <done> <step>] -## ## [(def (<name> f xs) -## ## (All [a] -## ## (-> (-> a Bool) (List a) (List a))) -## ## (case' xs -## ## #Nil #Nil -## ## (#Cons [x xs']) (if (f x) <step> #Nil)))] - -## ## [take-while #Nil (list+ x (take-while f xs'))] -## ## [drop-while xs (drop-while f xs')]) - -## ## ## (defmacro (get@ tokens) -## ## ## (let [output (case' tokens -## ## ## (#Cons [tag (#Cons [record #Nil])]) -## ## ## (` (get@' (~ tag) (~ record))) - -## ## ## (#Cons [tag #Nil]) -## ## ## (` (lambda [record] (get@' (~ tag) record))))] -## ## ## (return (list output)))) - -## ## ## (defmacro (set@ tokens) -## ## ## (let [output (case' tokens -## ## ## (#Cons [tag (#Cons [value (#Cons [record #Nil])])]) -## ## ## (` (set@' (~ tag) (~ value) (~ record))) - -## ## ## (#Cons [tag (#Cons [value #Nil])]) -## ## ## (` (lambda [record] (set@' (~ tag) (~ value) record))) - -## ## ## (#Cons [tag #Nil]) -## ## ## (` (lambda [value record] (set@' (~ tag) value record))))] -## ## ## (return (list output)))) - -## ## ## (defmacro (update@ tokens) -## ## ## (let [output (case' tokens -## ## ## (#Cons [tag (#Cons [func (#Cons [record #Nil])])]) -## ## ## (` (let [_record_ (~ record)] -## ## ## (set@' (~ tag) ((~ func) (get@' (~ tag) _record_)) _record_))) - -## ## ## (#Cons [tag (#Cons [func #Nil])]) -## ## ## (` (lambda [record] -## ## ## (` (set@' (~ tag) ((~ func) (get@' (~ tag) record)) record)))) - -## ## ## (#Cons [tag #Nil]) -## ## ## (` (lambda [func record] -## ## ## (set@' (~ tag) (func (get@' (~ tag) record)) record))))] -## ## ## (return (list output)))) - -## ## (def (show-int int) -## ## (-> Int Text) -## ## (jvm-invokevirtual java.lang.Object "toString" [] -## ## int [])) - -## ## (def gensym -## ## (LuxStateM Syntax) -## ## (lambda [state] -## ## [(update@ [#gen-seed] inc state) -## ## (_meta (#Symbol ($ text-++ "__" (show-int (get@ [#gen-seed] state)) "__")))])) - -## ## ## (do-template [<name> <member>] -## ## ## (def (<name> pair) -## ## ## (case' pair -## ## ## [f s] -## ## ## <member>)) - -## ## ## [first f] -## ## ## [second s]) - -## ## (def (show-syntax syntax) -## ## (-> Syntax Text) -## ## (case' syntax -## ## (#Meta [_ (#Bool value)]) -## ## (jvm-invokevirtual java.lang.Object "toString" [] -## ## value []) - -## ## (#Meta [_ (#Int value)]) -## ## (jvm-invokevirtual java.lang.Object "toString" [] -## ## value []) - -## ## (#Meta [_ (#Real value)]) -## ## (jvm-invokevirtual java.lang.Object "toString" [] -## ## value []) - -## ## (#Meta [_ (#Char value)]) -## ## (jvm-invokevirtual java.lang.Object "toString" [] -## ## value []) - -## ## (#Meta [_ (#Text value)]) -## ## (jvm-invokevirtual java.lang.Object "toString" [] -## ## value []) - -## ## (#Meta [_ (#Symbol [module name])]) -## ## ($ text-++ module ";" name) - -## ## (#Meta [_ (#Tag [module name])]) -## ## ($ text-++ "#" module ";" name) - -## ## (#Meta [_ (#Tuple members)]) -## ## ($ text-++ "[" (fold text-++ "" (interpose " " (map show-syntax members))) "]") - -## ## (#Meta [_ (#Form members)]) -## ## ($ text-++ "(" (fold text-++ "" (interpose " " (map show-syntax members))) ")") -## ## )) - -## ## (defmacro (do tokens) -## ## (case' tokens -## ## (#Cons [(#Meta [_ monad]) (#Cons [(#Meta [_ (#Tuple bindings)]) (#Cons [body #Nil])])]) -## ## (let [output (fold (lambda [body binding] -## ## (case' binding -## ## [lhs rhs] -## ## (` (lux;bind (lambda [(~ lhs)] (~ body)) -## ## (~ rhs))))) -## ## body -## ## (reverse (as-pairs bindings)))] -## ## (return (list (` (using (~ monad) (~ output)))))))) - -## ## (def (map% f xs) -## ## (All [m a b] -## ## (-> (-> a (m b)) (List a) (m (List b)))) -## ## (case' xs -## ## #Nil -## ## (return xs) - -## ## (#Cons [x xs']) -## ## (do [y (f x) -## ## ys (map% f xs')] -## ## (return (#Cons [y ys]))))) - -## ## ## (defmacro ($keys tokens) +## ## (def' let' +## ## (lambda' _ tokens +## ## (lambda' _ state +## ## (case' tokens +## ## (#Cons [lhs (#Cons [rhs (#Cons [body #Nil])])]) +## ## (#Right [state +## ## (#Cons [(_meta (#Form (#Cons [(_meta (#Symbol ["" "case'"])) +## ## (#Cons [rhs (#Cons [lhs (#Cons [body #Nil])])])]))) +## ## #Nil])]) + +## ## _ +## ## (#Left "Wrong syntax for let'")) +## ## ))) +## ## (declare-macro' let') + +## ## ## ## (All 21268 +## ## ## ## (-> 21268 +## ## ## ## (All 21267 +## ## ## ## (-> 21267 +## ## ## ## (| (#lux;Right (, 21267 +## ## ## ## (| (#lux;Cons (, (((All Meta m (All v (| (#lux;Meta (, m v))))) +## ## ## ## (, (^ java.lang.String []) (^ java.lang.Long []) (^ java.lang.Long []))) +## ## ## ## ⌈17⌋) +## ## ## ## (| (#lux;Nil (, ))))))))))))) + +## ## ## (def' lambda +## ## ## (check' Macro +## ## ## (lambda' _ tokens +## ## ## (lambda' _ state +## ## ## (let' output (case' tokens +## ## ## (#Cons [(#Meta [_ (#Tuple (#Cons [arg args']))]) (#Cons [body #Nil])]) +## ## ## (_meta (#Form (#Cons [(_meta (#Symbol ["" "lambda'"])) +## ## ## (#Cons [(_meta (#Symbol ["" ""])) +## ## ## (#Cons [arg +## ## ## (#Cons [(case' args' +## ## ## #Nil +## ## ## body + +## ## ## _ +## ## ## (_meta (#Form (#Cons [(_meta (#Symbol ["lux" "lambda"])) +## ## ## (#Cons [(_meta (#Tuple args')) +## ## ## (#Cons [body #Nil])])])))) +## ## ## #Nil])])])]))) + +## ## ## (#Cons [(#Meta [_ (#Symbol self)]) (#Cons [(#Meta [_ (#Tuple (#Cons [arg args']))]) (#Cons [body #Nil])])]) +## ## ## (_meta (#Form (#Cons [(_meta (#Symbol ["" "lambda'"])) +## ## ## (#Cons [(_meta (#Symbol self)) +## ## ## (#Cons [arg +## ## ## (#Cons [(case' args' +## ## ## #Nil +## ## ## body + +## ## ## _ +## ## ## (_meta (#Form (#Cons [(_meta (#Symbol ["lux" "lambda"])) +## ## ## (#Cons [(_meta (#Tuple args')) +## ## ## (#Cons [body #Nil])])])))) +## ## ## #Nil])])])])))) +## ## ## (#Right [state (#Cons [output #Nil])])) +## ## ## )))) +## ## ## (declare-macro lambda) + +## ## ## (def' def +## ## ## (check' Macro +## ## ## (lambda [tokens state] +## ## ## (let' output (case' tokens +## ## ## (#Cons [(#Meta [_ (#Symbol name)]) (#Cons [body #Nil])]) +## ## ## (_meta (#Form (#Cons [(_meta (#Symbol ["" "def'"])) tokens]))) + +## ## ## (#Cons [(#Meta [_ (#Form (#Cons [(#Meta [_ (#Symbol name)]) args]))]) +## ## ## (#Cons [body #Nil])]) +## ## ## (_meta (#Form (#Cons [(_meta (#Symbol ["" "def'"])) +## ## ## (#Cons [(_meta (#Symbol name)) +## ## ## (#Cons [(_meta (#Form (#Cons [(_meta (#Symbol ["lux" "lambda"])) +## ## ## (#Cons [(_meta (#Symbol name)) +## ## ## (#Cons [(_meta (#Tuple args)) +## ## ## (#Cons [body #Nil])])])]))) +## ## ## #Nil])])]))) + +## ## ## (#Cons [(#Meta [_ (#Symbol name)]) (#Cons [type (#Cons [body #Nil])])]) +## ## ## (_meta (#Form (#Cons [(_meta (#Symbol ["" "def'"])) +## ## ## (#Cons [(_meta (#Symbol name)) +## ## ## (#Cons [(_meta (#Form (#Cons [(_meta (#Symbol ["" "check'"])) +## ## ## (#Cons [type +## ## ## (#Cons [body +## ## ## #Nil])])]))) +## ## ## #Nil])])]))) + +## ## ## (#Cons [(#Meta [_ (#Form (#Cons [(#Meta [_ (#Symbol name)]) args]))]) +## ## ## (#Cons [type (#Cons [body #Nil])])]) +## ## ## (_meta (#Form (#Cons [(_meta (#Symbol ["" "def'"])) +## ## ## (#Cons [(_meta (#Symbol name)) +## ## ## (#Cons [(_meta (#Form (#Cons [(_meta (#Symbol ["" "check'"])) +## ## ## (#Cons [type +## ## ## (#Cons [(_meta (#Form (#Cons [(_meta (#Symbol ["lux" "lambda"])) +## ## ## (#Cons [(_meta (#Symbol name)) +## ## ## (#Cons [(_meta (#Tuple args)) +## ## ## (#Cons [body #Nil])])])]))) +## ## ## #Nil])])]))) +## ## ## #Nil])])])))) +## ## ## (#Right [state (#Cons [output #Nil])]))))) +## ## ## (declare-macro def) + +## ## ## (def (defmacro tokens state) +## ## ## (let' [fn-name fn-def] (case' tokens +## ## ## (#Cons [(#Meta [_ (#Form (#Cons [(#Meta [_ (#Symbol fn-name)]) args]))]) +## ## ## (#Cons [body #Nil])]) +## ## ## [fn-name +## ## ## (_meta (#Form (#Cons [(_meta (#Symbol ["lux" "def"])) +## ## ## (#Cons [(_meta (#Form (#Cons [(_meta (#Symbol fn-name)) args]))) +## ## ## (#Cons [(_meta (#Form (#Cons [(_meta (#Symbol ["" "check'"])) +## ## ## (#Cons [(_meta (#Symbol ["lux;" "Macro"])) +## ## ## (#Cons [(_meta (#Form (#Cons [(_meta (#Symbol ["lux" "lambda"])) +## ## ## (#Cons [(_meta (#Symbol name)) +## ## ## (#Cons [(_meta (#Tuple args)) +## ## ## (#Cons [body #Nil])])])]))) +## ## ## #Nil])])]))) +## ## ## #Nil])])])))]) +## ## ## (let' declaration (_meta (#Form (#Cons [(_meta (#Symbol ["" "declare-macro"])) (#Cons [(_meta (#Symbol fn-name)) #Nil])]))) +## ## ## (#Right [state (#Cons [fn-def (#Cons [declaration #Nil])])])))) +## ## ## (declare-macro defmacro) + +## ## ## (defmacro (comment tokens state) +## ## ## (#Right [state #Nil])) + +## ## ## (def (int+ x y) +## ## ## (-> Int Int Int) +## ## ## (jvm-ladd x y)) + +## ## ## (def (id x) +## ## ## (All [a] (-> a a)) +## ## ## x) + +## ## ## (def (print x) +## ## ## (-> (^ java.lang.Object) []) +## ## ## (jvm-invokevirtual java.io.PrintStream "print" [java.lang.Object] +## ## ## (jvm-getstatic java.lang.System "out") [x])) + +## ## ## (def (println x) +## ## ## (-> (^ java.lang.Object) []) +## ## ## (jvm-invokevirtual java.io.PrintStream "println" [java.lang.Object] +## ## ## (jvm-getstatic java.lang.System "out") [x])) + +## ## ## (deftype (IO a) +## ## ## (-> (,) a)) + +## ## ## (defmacro (io tokens) ## ## ## (case' tokens -## ## ## (#Cons [(#Meta [_ (#Tuple fields)]) #Nil]) -## ## ## (return (list (_meta (#Record (map (lambda [slot] -## ## ## (case' slot -## ## ## (#Meta [_ (#Tag [module name])]) -## ## ## [($ text-++ module ";" name) (_meta (#Symbol [module name]))])) -## ## ## fields))))))) - -## ## ## (defmacro ($or tokens) +## ## ## (#Cons [value #Nil]) +## ## ## (return (list (` (lambda [_] (~ value))))))) + +## ## ## (def (fold f init xs) +## ## ## (All [a b] +## ## ## (-> (-> a b a) a (List b) a)) +## ## ## (case' xs +## ## ## #Nil +## ## ## init + +## ## ## (#Cons [x xs']) +## ## ## (fold f (f init x) xs'))) + +## ## ## (def (reverse list) +## ## ## (All [a] +## ## ## (-> (List a) (List a))) +## ## ## (fold (lambda [tail head] +## ## ## (#Cons [head tail])) +## ## ## #Nil +## ## ## list)) + +## ## ## (defmacro (list xs state) +## ## ## (let' xs' (reverse xs) +## ## ## (let' output (fold (lambda [tail head] +## ## ## (_meta (#Form (#Cons [(_meta (#Tag ["lux" "Cons"])) +## ## ## (#Cons [(_meta (#Tuple (#Cons [head (#Cons [tail #Nil])]))) +## ## ## #Nil])])))) +## ## ## (_meta (#Tag ["lux" "Nil"])) +## ## ## xs') +## ## ## (#Right [state (#Cons [output #Nil])])))) + +## ## ## (defmacro (list+ xs state) +## ## ## (case' (reverse xs) +## ## ## #Nil +## ## ## [#Nil state] + +## ## ## (#Cons [last init']) +## ## ## (let' output (fold (lambda [tail head] +## ## ## (_meta (#Form (list (_meta (#Tag ["lux" "Cons"])) (_meta (#Tuple (list head tail))))))) +## ## ## last +## ## ## init') +## ## ## (#Right [state (#Cons [output #Nil])])))) + +## ## ## (def (as-pairs xs) +## ## ## (All [a] +## ## ## (-> (List a) (List [a a]))) +## ## ## (case' xs +## ## ## (#Cons [x (#Cons [y xs'])]) +## ## ## (#Cons [[x y] (as-pairs xs')]) + +## ## ## _ +## ## ## #Nil)) + +## ## ## (defmacro (let tokens state) ## ## ## (case' tokens -## ## ## (#Cons [(#Meta [_ (#Tuple patterns)]) (#Cons [body #Nil])]) -## ## ## (return (flat-map (lambda [pattern] (list pattern body)) -## ## ## patterns)))) - -## ## ## (def null jvm-null) - -## ## (defmacro (^ tokens) -## ## (case' tokens -## ## (#Cons [(#Meta [_ (#Symbol [_ class-name])]) #Nil]) -## ## (return (list (` (#DataT (~ (_meta (#Text class-name))))))) -## ## )) - -## ## (defmacro (, members) -## ## (return (list (_meta (#Form (list+ (_meta (#Tag ["lux" "TupleT"])) (untemplate-list members))))))) - -## ## (defmacro (| members) -## ## (let [members' (map (lambda [m] -## ## (case' m -## ## (#Meta [_ (#Tag [module name])]) -## ## [($ text-++ module ";" name) (` (#Tuple (list)))] - -## ## (#Meta [_ (#Form (#Cons [(#Meta [_ (#Tag [module name])]) (#Cons [value #Nil])]))]) -## ## [($ text-++ module ";" name) (` (#Tuple (~ value)))])) -## ## members)] -## ## (return (list (_meta (#Form (list+ (_meta (#Tag ["lux" "VariantT"])) (untemplate-list members)))))))) - -## ## (defmacro (& members) -## ## (let [members' (map (lambda [m] -## ## (case' m -## ## (#Meta [_ (#Form (#Cons [(#Meta [_ (#Tag [module name])]) (#Cons [value #Nil])]))]) -## ## [($ text-++ module ";" name) (` (#Tuple (~ value)))])) -## ## members)] -## ## (return (list (_meta (#Form (list+ (_meta (#Tag ["lux" "RecordT"])) (untemplate-list members)))))))) - -## ## (defmacro (-> tokens) -## ## (case' (reverse tokens) -## ## (#Cons [f-return f-args]) -## ## (fold (lambda [f-return f-arg] -## ## (` (#LambdaT [(~ f-arg) (~ f-return)]))) -## ## f-return -## ## f-args))) - -## ## (def (text= x y) -## ## (-> Text Text Bool) -## ## (jvm-invokevirtual java.lang.Object "equals" [java.lang.Object] -## ## x [y])) - -## ## (def (replace-ident ident value syntax) -## ## (-> (, Text Text) Syntax Syntax Syntax) -## ## (let [[module name] ident] -## ## (case' syntax -## ## (#Meta [_ (#Symbol [?module ?name])]) -## ## (if (and (text= module ?module) -## ## (text= name ?name)) -## ## value -## ## syntax) - -## ## (#Meta [_ (#Form members)]) -## ## (_meta (#Form (map (replace-ident ident value) members))) - -## ## (#Meta [_ (#Tuple members)]) -## ## (_meta (#Tuple (map (replace-ident ident value) members))) - -## ## (#Meta [_ (#Record members)]) -## ## (_meta (#Record (map (lambda [kv] -## ## (case' kv -## ## [k v] -## ## [k (replace-ident ident value v)])) -## ## members))) - -## ## _ -## ## syntax))) - -## ## (defmacro (All tokens) -## ## (let [[name args body] (case' tokens -## ## (#Cons [(#Meta [_ (#Symbol [_ name])]) (#Cons [(#Meta [_ (#Tuple args)]) (#Cons [body #Nil])])]) -## ## [name args body] - -## ## (#Cons [(#Meta [_ (#Tuple args)]) (#Cons [body #Nil])]) -## ## ["" args body]) -## ## rolled (fold (lambda [body arg] -## ## (case' arg -## ## (#Meta [_ (#Symbol [arg-module arg-name])]) -## ## (` (#AllT (list) "" (~ (_meta (#Text arg-name))) (~ (replace-ident [arg-module arg-name] -## ## (` (#BoundT (~ (#Text arg-name)))) -## ## body)))))) -## ## body -## ## args)] -## ## (case' rolled -## ## (#Meta [_ (#Form (#Cons [(#Meta [_ (#Tag ["lux" "AllT"])]) (#Cons [env (#Cons [(#Meta [_ (#Text "")]) (#Cons [(#Meta [_ (#Text arg-name)]) (#Cons [body #Nil])])])])]))]) -## ## (return (list (` (#AllT (~ env) (~ (#Text name)) (~ (#Text arg-name)) -## ## (~ (replace-ident arg-name (` (#BoundT (~ (#Text name)))) -## ## body))))))))) - -## ## (defmacro (Exists tokens) -## ## (case' tokens -## ## (#Cons [args (#Cons [body #Nil])]) -## ## (return (list (` (All (~ args) (~ body))))))) - -## ## (def Any #AnyT) -## ## (def Nothing #NothingT) -## ## (def Bool (^ java.lang.Boolean)) -## ## (def Int (^ java.lang.Long)) -## ## (def Real (^ java.lang.Double)) -## ## (def Char (^ java.lang.Character)) -## ## (def Text (^ java.lang.String)) - -## ## (deftype (List a) -## ## (| #Nil -## ## (#Cons (, a (List a))))) - -## ## (deftype #rec Type -## ## (| #AnyT -## ## #NothingT -## ## (#DataT Text) -## ## (#TupleT (List Type)) -## ## (#VariantT (List (, Text Type))) -## ## (#RecordT (List (, Text Type))) -## ## (#LambdaT (, Type Type)) -## ## (#BoundT Text) -## ## (#VarT Int) -## ## (#AllT (, (List (, Text Type)) Text Text Type)) -## ## (#AppT (, Type Type)))) - -## ## (deftype (Either l r) -## ## (| (#Left l) -## ## (#Right r))) +## ## ## (#Cons [(#Meta [_ (#Tuple bindings)]) (#Cons [body #Nil])]) +## ## ## (let' output (fold (lambda [body binding] +## ## ## (case' binding +## ## ## [label value] +## ## ## (_meta (#Form (list (_meta (#Symbol ["lux" "let'"])) label value body))))) +## ## ## body +## ## ## (reverse (as-pairs bindings))) +## ## ## (#Right [state (list output)])))) + +## ## ## (def (. f g) +## ## ## (All [a b c] +## ## ## (-> (-> b c) (-> a b) (-> a c))) +## ## ## (lambda [x] (f (g x)))) + +## ## ## (def (++ xs ys) +## ## ## (All [a] +## ## ## (-> (List a) (List a) (List a))) +## ## ## (case' xs +## ## ## #Nil +## ## ## ys + +## ## ## (#Cons [x xs']) +## ## ## (#Cons [x (++ xs' ys)]))) + +## ## ## (def concat +## ## ## (All [a] +## ## ## (-> (List (List a)) (List a))) +## ## ## (fold ++ #Nil)) + +## ## ## (def (map f xs) +## ## ## (All [a b] +## ## ## (-> (-> a b) (List a) (List b))) +## ## ## (case' xs +## ## ## #Nil +## ## ## #Nil + +## ## ## (#Cons [x xs']) +## ## ## (#Cons [(f x) (map f xs')]))) + +## ## ## (def flat-map +## ## ## (All [a b] +## ## ## (-> (-> a (List b)) (List a) (List b))) +## ## ## (. concat map)) + +## ## ## (def (wrap-meta content) +## ## ## ... +## ## ## (_meta (#Form (list (_meta (#Tag ["lux" "Meta"])) +## ## ## (_meta (#Tuple (list (_meta (#Tuple (list (_meta (#Form (list (_meta (#Tag ["lux" "Text"])) (_meta (#Text ""))))) +## ## ## (_meta (#Form (list (_meta (#Tag ["lux" "Int"])) (_meta (#Int -1))))) +## ## ## (_meta (#Form (list (_meta (#Tag ["lux" "Int"])) (_meta (#Int -1)))))))) +## ## ## (_meta content)))))))) + +## ## ## (def (untemplate-list tokens) +## ## ## (-> (List Syntax) Syntax) +## ## ## (case' tokens +## ## ## #Nil +## ## ## (_meta (#Tag ["lux" "Nil"])) -## ## (deftype #rec Syntax -## ## (| (#Bool Bool) -## ## (#Int Int) -## ## (#Real Real) -## ## (#Char Char) -## ## (#Text Text) -## ## (#Form (List Syntax)) -## ## (#Tuple (List Syntax)) -## ## (#Record (List (, Text Syntax))))) - -## ## (deftype Macro -## ## (-> (List Syntax) CompilerState -## ## (Either Text (, CompilerState (List Syntax))))) - -## ## (def (macro-expand syntax) -## ## (-> Syntax (LuxStateM (List Syntax))) -## ## (case' syntax -## ## (#Form (#Cons [(#Symbol macro-name) args])) -## ## (do [macro (get-macro macro-name)] -## ## ((coerce macro Macro) args)))) - -## ## (defmacro (case tokens) -## ## (case' tokens -## ## (#Cons value branches) -## ## (loop [kind #Pattern -## ## pieces branches -## ## new-pieces (list)] -## ## (case' pieces -## ## #Nil -## ## (return (list (' (case' (~ value) (~@ new-pieces))))) - -## ## (#Cons piece pieces') -## ## (let [[kind' expanded more-pieces] (case' kind -## ## #Body -## ## [#Pattern (list piece) #Nil] - -## ## #Pattern -## ## (do [expansion (macro-expand piece)] -## ## (case' expansion -## ## #Nil -## ## [#Pattern #Nil #Nil] - -## ## (#Cons exp #Nil) -## ## [#Body (list exp) #Nil] - -## ## (#Cons exp exps) -## ## [#Body (list exp) exps])) -## ## )] -## ## (recur kind' (++ expanded new-pieces) (++ more-pieces pieces)))) -## ## ))) - -## ## (def (defsyntax tokens) -## ## ...) - -## ## (deftype (State s a) -## ## (-> s (, s a))) - -## ## (deftype (Parser a) -## ## (State (List Syntax) a)) - -## ## (def (parse-ctor tokens) -## ## (Parser (, Syntax (List Syntax))) -## ## (case tokens -## ## (list+ (#Symbol name) tokens') -## ## [tokens' [(#Symbol name) (list)]] - -## ## (list+ (#Form (list+ (#Symbol name) args)) tokens') -## ## [tokens' [(#Symbol name) args]])) - -## ## (defsyntax (defsig -## ## [[name args] parse-ctor] -## ## [anns ($+ $1)]) -## ## (let [def-body (fold (lambda [body arg] (` (lambda [(~ arg)] (~ body)))) -## ## (` (#Record (~ (untemplate-list ...)))) -## ## args)] -## ## (return (list (` (def (~ name) (~ def-body))))))) - -## ## (defsyntax (defstruct -## ## [[name args] parse-ctor] -## ## signature -## ## [defs ($+ $1)]) -## ## (let [def-body (fold (lambda [body arg] (` (lambda [(~ arg)] (~ body)))) -## ## (` (#Record (~ (untemplate-list ...)))) -## ## args)] -## ## (return (list (` (def (~ name) -## ## (: (~ def-body) (~ signature)))))))) - -## ## (defsig (Monad m) -## ## (: return (All [a] (-> a (m a)))) -## ## (: bind (All [a b] (-> (-> a (m b)) (m a) (m b))))) - -## ## (defstruct ListMonad (Monad List) -## ## (def (return x) -## ## (list x)) - -## ## (def bind (. concat map))) - -## ## (defsig (Eq a) -## ## (: = (-> a a Bool))) - -## ## (defstruct (List_Eq A_Eq) -## ## (All [a] (-> (Eq a) (Eq (List a)))) - -## ## (def (= xs ys) -## ## (and (= (length xs) (length ys)) -## ## (map (lambda [[x y]] -## ## (with A_Eq -## ## (= x y))) -## ## (zip2 xs ys))))) - -## ## ## ## (def (with tokens) -## ## ## ## ...) - -## ## ## ## TODO: Full pattern-matching -## ## ## ## TODO: Type-related macros -## ## ## ## TODO: (Im|Ex)ports-related macros -## ## ## ## TODO: Macro-related macros - -## ## ## ## (import "lux") -## ## ## ## (module-alias "lux" "l") -## ## ## ## (def-alias "lux;map" "map") - -## ## ## ## (def (require tokens) -## ## ## ## (case tokens -## ## ## ## ...)) - -## ## ## ## (require lux #as l #refer [map]) +## ## ## (#Cons [token tokens']) +## ## ## (_meta (#Form (list (_meta (#Tag ["lux" "Cons"])) +## ## ## (_meta (#Tuple (list token (untemplate-list tokens'))))))))) + +## ## ## (def (untemplate token) +## ## ## ... +## ## ## (case' token +## ## ## (#Meta [_ (#Bool value)]) +## ## ## (wrap-meta (#Form (list (_meta (#Tag ["lux" "Bool"])) (_meta (#Bool value))))) + +## ## ## (#Meta [_ (#Int value)]) +## ## ## (wrap-meta (#Form (list (_meta (#Tag ["lux" "Int"])) (_meta (#Int value))))) + +## ## ## (#Meta [_ (#Real value)]) +## ## ## (wrap-meta (#Form (list (_meta (#Tag ["lux" "Real"])) (_meta (#Real value))))) + +## ## ## (#Meta [_ (#Char value)]) +## ## ## (wrap-meta (#Form (list (_meta (#Tag ["lux" "Char"])) (_meta (#Char value))))) + +## ## ## (#Meta [_ (#Text value)]) +## ## ## (wrap-meta (#Form (list (_meta (#Tag ["lux" "Text"])) (_meta (#Text value))))) + +## ## ## (#Meta [_ (#Tag [module name])]) +## ## ## (wrap-meta (#Form (list (_meta (#Tag ["lux" "Tag"])) (_meta (#Tuple (list (_meta (#Text module)) (_meta (#Text name)))))))) + +## ## ## (#Meta [_ (#Symbol [module name])]) +## ## ## (wrap-meta (#Form (list (_meta (#Tag ["lux" "Symbol"])) (_meta (#Tuple (list (_meta (#Text module)) (_meta (#Text name)))))))) + +## ## ## (#Meta [_ (#Tuple elems)]) +## ## ## (wrap-meta (#Form (list (_meta (#Tag ["lux" "Tuple"])) (untemplate-list (map untemplate elems))))) + +## ## ## (#Meta [_ (#Form (#Cons [(#Meta [_ (#Symbol [_ "~"])]) (#Cons [(#Meta [_ unquoted]) #Nil])]))]) +## ## ## (_meta unquoted) + +## ## ## (#Meta [_ (#Form elems)]) +## ## ## (wrap-meta (#Form (list (_meta (#Tag ["lux" "Form"])) (untemplate-list (map untemplate elems))))) +## ## ## )) + +## ## ## (defmacro (` tokens state) +## ## ## (case' tokens +## ## ## (#Cons [template #Nil]) +## ## ## (#Right [state (list (untemplate template))]))) + +## ## ## (defmacro (if tokens state) +## ## ## (case' tokens +## ## ## (#Cons [test (#Cons [then (#Cons [else #Nil])])]) +## ## ## (#Right [state +## ## ## (list (` (case' (~ test) +## ## ## true (~ then) +## ## ## false (~ else))))]))) + +## ## ## (def (filter p xs) +## ## ## (All [a] +## ## ## (-> (-> a Bool) (List a) (List a))) +## ## ## (case' xs +## ## ## #Nil +## ## ## #Nil + +## ## ## (#Cons [x xs']) +## ## ## (if (p x) +## ## ## (#Cons [x (filter p xs')]) +## ## ## (filter p xs')))) + +## ## ## (deftype (LuxStateM a) +## ## ## (-> CompilerState (Either Text [CompilerState a]))) + +## ## ## (def (return val) +## ## ## (All [a] +## ## ## (-> a (LuxStateM a))) +## ## ## (lambda [state] +## ## ## (#Right [state val]))) + +## ## ## (def (fail msg) +## ## ## (-> Text (LuxStateM Nothing)) +## ## ## (lambda [_] +## ## ## (#Left msg))) + +## ## ## (def (bind f v) +## ## ## (All [m a b] (-> (-> a (m b)) (m a) (m b))) +## ## ## (lambda [state] +## ## ## (case' (v state) +## ## ## (#Right [state' x]) +## ## ## (f x state') + +## ## ## (#Left msg) +## ## ## (#Left msg)))) + +## ## ## (def (first pair) +## ## ## (All [a b] (-> (, a b) a)) +## ## ## (case' pair +## ## ## [f s] +## ## ## f)) + +## ## ## (def (second pair) +## ## ## (All [a b] (-> (, a b) b)) +## ## ## (case' pair +## ## ## [f s] +## ## ## s)) + +## ## ## (defmacro (loop tokens) +## ## ## (case' tokens +## ## ## (#Cons [bindings (#Cons [body #Nil])]) +## ## ## (let [pairs (as-pairs bindings)] +## ## ## (return (list (#Form (#Cons [(` (lambda (~ (#Symbol ["lux" "recur"])) (~ (#Tuple (map first pairs))) +## ## ## (~ body))) +## ## ## (map second pairs)]))))))) + +## ## ## (defmacro (export tokens) +## ## ## (return (map (lambda [t] (` (export' (~ t)))) +## ## ## tokens))) + +## ## ## (defmacro (and tokens) +## ## ## (let [as-if (case' tokens +## ## ## #Nil +## ## ## (` true) + +## ## ## (#Cons [init tests]) +## ## ## (fold (lambda [prev next] +## ## ## (` (if (~ prev) (~ next) false))) +## ## ## init +## ## ## tokens) +## ## ## )] +## ## ## (return (list as-if)))) + +## ## ## (defmacro (or tokens) +## ## ## (let [as-if (case' tokens +## ## ## #Nil +## ## ## (` false) + +## ## ## (#Cons [init tests]) +## ## ## (fold (lambda [prev next] +## ## ## (` (if (~ prev) true (~ next)))) +## ## ## init +## ## ## tokens) +## ## ## )] +## ## ## (return (list as-if)))) + +## ## ## (def (not x) +## ## ## (-> Bool Bool) +## ## ## (case' x +## ## ## true false +## ## ## false true)) + +## ## ## (defmacro (|> tokens) +## ## ## (case' tokens +## ## ## (#Cons [init apps]) +## ## ## (return (list (fold (lambda [acc app] +## ## ## (case' app +## ## ## (#Form parts) +## ## ## (#Form (++ parts (list acc))) + +## ## ## _ +## ## ## (` ((~ app) (~ acc))))) +## ## ## init +## ## ## apps))))) + +## ## ## (defmacro ($ tokens) +## ## ## (case' tokens +## ## ## (#Cons [op (#Cons [init args])]) +## ## ## (return (list (fold (lambda [acc elem] +## ## ## (` ((~ op) (~ acc) (~ elem)))) +## ## ## init +## ## ## args))))) + +## ## ## (def (const x) +## ## ## (All [a] +## ## ## (-> a (-> Any a))) +## ## ## (lambda [_] +## ## ## x)) + +## ## ## (def (int> x y) +## ## ## (-> Int Int Bool) +## ## ## (jvm-lgt x y)) + +## ## ## (def (int< x y) +## ## ## (-> Int Int Bool) +## ## ## (jvm-llt x y)) + +## ## ## (def inc +## ## ## (-> Int Int) +## ## ## (int+ 1)) + +## ## ## (def dec +## ## ## (-> Int Int) +## ## ## (int+ -1)) + +## ## ## (def (repeat n x) +## ## ## (All [a] (-> Int a (List a))) +## ## ## (if (int> n 0) +## ## ## (#Cons [x (repeat (dec n) x)]) +## ## ## #Nil)) + +## ## ## (def size +## ## ## (All [a] +## ## ## (-> (List a) Int)) +## ## ## (fold (lambda [acc _] (inc acc)) 0)) + +## ## ## (def (last xs) +## ## ## (All [a] +## ## ## (-> (List a) (Maybe a))) +## ## ## (case' xs +## ## ## #Nil #None +## ## ## (#Cons [x #Nil]) (#Some x) +## ## ## (#Cons [_ xs']) (last xs'))) + +## ## ## (def (init xs) +## ## ## (All [a] +## ## ## (-> (List a) (Maybe (List a)))) +## ## ## (case' xs +## ## ## #Nil #None +## ## ## (#Cons [_ #Nil]) (#Some #Nil) +## ## ## (#Cons [x xs']) (case' (init xs') +## ## ## (#Some xs'') +## ## ## (#Some (#Cons [x xs''])) + +## ## ## _ +## ## ## (#Some (#Cons [x #Nil]))))) + +## ## ## (defmacro (cond tokens) +## ## ## (case' (reverse tokens) +## ## ## (#Cons [else branches']) +## ## ## (return (list (fold (lambda [else branch] +## ## ## (case' branch +## ## ## [test then] +## ## ## (` (if (~ test) (~ then) (~ else))))) +## ## ## else +## ## ## (|> branches' reverse as-pairs)))))) + +## ## ## (def (interleave xs ys) +## ## ## (All [a] +## ## ## (-> (List a) (List a) (List a))) +## ## ## (case' [xs ys] +## ## ## [(#Cons [x xs']) (#Cons [y ys'])] +## ## ## (list+ x y (interleave xs' ys')) + +## ## ## _ +## ## ## #Nil)) + +## ## ## (def (interpose sep xs) +## ## ## (All [a] +## ## ## (-> a (List a) (List a))) +## ## ## (case' xs +## ## ## #Nil +## ## ## xs + +## ## ## (#Cons [x #Nil]) +## ## ## xs + +## ## ## (#Cons [x xs']) +## ## ## (list+ x sep (interpose sep xs')))) + +## ## ## (def (empty? xs) +## ## ## (All [a] +## ## ## (-> (List a) Bool)) +## ## ## (case' xs +## ## ## #Nil true +## ## ## _ false)) + +## ## ## ## ## ## (do-template [<name> <op>] +## ## ## ## ## ## (def (<name> p xs) +## ## ## ## ## ## (case xs +## ## ## ## ## ## #Nil true +## ## ## ## ## ## (#Cons [x xs']) (<op> (p x) (<name> p xs')))) + +## ## ## ## ## ## [every? and] +## ## ## ## ## ## [any? or]) + +## ## ## (def (range from to) +## ## ## (-> Int Int (List Int)) +## ## ## (if (int< from to) +## ## ## (#Cons [from (range (inc from) to)]) +## ## ## #Nil)) + +## ## ## (def (tuple->list tuple) +## ## ## (-> Syntax (List Syntax)) +## ## ## (case' tuple +## ## ## (#Meta [_ (#Tuple list)]) +## ## ## list)) + +## ## ## (def (zip2 xs ys) +## ## ## (All [a b] +## ## ## (-> (List a) (List b) (List (, a b)))) +## ## ## (case' [xs ys] +## ## ## [(#Cons [x xs']) (#Cons [y ys'])] +## ## ## (#Cons [[x y] (zip2 xs' ys')]) + +## ## ## _ +## ## ## #Nil)) + +## ## ## (def (get key map) +## ## ## (All [a b] +## ## ## (-> a (List (, a b)) (Maybe b))) +## ## ## (case' map +## ## ## #Nil +## ## ## #None + +## ## ## (#Cons [[k v] map']) +## ## ## (if (jvm-invokevirtual java.lang.Object "equals" [java.lang.Object] +## ## ## k [key]) +## ## ## (#Some v) +## ## ## (get key map')))) + +## ## ## (def (get-ident x) +## ## ## (-> Syntax Text) +## ## ## (case' x +## ## ## (#Meta [_ (#Symbol [_ ident])]) +## ## ## ident)) + +## ## ## (def (text-++ x y) +## ## ## (-> Text Text Text) +## ## ## (jvm-invokevirtual java.lang.String "concat" [java.lang.String] +## ## ## x [y])) + +## ## ## (def (show-env env) +## ## ## ... +## ## ## (|> env (map first) (interpose ", ") (fold text-++ ""))) + +## ## ## (def (apply-template env template) +## ## ## (case' template +## ## ## (#Meta [_ (#Symbol [_ ident])]) +## ## ## (case' (get ident env) +## ## ## (#Some subst) +## ## ## subst + +## ## ## _ +## ## ## template) + +## ## ## (#Meta [_ (#Tuple elems)]) +## ## ## (_meta (#Tuple (map (apply-template env) elems))) + +## ## ## (#Meta [_ (#Form elems)]) +## ## ## (_meta (#Form (map (apply-template env) elems))) + +## ## ## (#Meta [_ (#Record members)]) +## ## ## (_meta (#Record (map (lambda [kv] +## ## ## (case' kv +## ## ## [slot value] +## ## ## [(apply-template env slot) (apply-template env value)])) +## ## ## members))) + +## ## ## _ +## ## ## template)) + +## ## ## (defmacro (do-templates tokens) +## ## ## (case' tokens +## ## ## (#Cons [bindings (#Cons [(#Meta [_ (#Tuple templates)]) data])]) +## ## ## (let [bindings-list (map get-ident (tuple->list bindings)) +## ## ## data-lists (map tuple->list data) +## ## ## apply (lambda [env] (map (apply-template env) templates))] +## ## ## (|> data-lists +## ## ## (map (. apply (zip2 bindings-list))) +## ## ## return)))) + +## ## ## ## ## ## (do-template [<name> <offset>] +## ## ## ## ## ## (def <name> (int+ <offset>)) + +## ## ## ## ## ## [inc 1] +## ## ## ## ## ## [dec -1]) + +## ## ## (def (int= x y) +## ## ## (-> Int Int Bool) +## ## ## (jvm-leq x y)) + +## ## ## (def (int% x y) +## ## ## (-> Int Int Int) +## ## ## (jvm-lrem x y)) + +## ## ## (def (int>= x y) +## ## ## (-> Int Int Bool) +## ## ## (or (int= x y) +## ## ## (int> x y))) + +## ## ## (do-templates [<name> <cmp>] +## ## ## [(def (<name> x y) +## ## ## (-> Int Int Int) +## ## ## (if (<cmp> x y) +## ## ## x +## ## ## y))] + +## ## ## [max int>] +## ## ## [min int<]) + +## ## ## (do-templates [<name> <cmp>] +## ## ## [(def (<name> n) +## ## ## (-> Int Bool) +## ## ## (<cmp> n 0))] + +## ## ## [neg? int<] +## ## ## [pos? int>=]) + +## ## ## (def (even? n) +## ## ## (-> Int Bool) +## ## ## (int= 0 (int% n 0))) + +## ## ## (def (odd? n) +## ## ## (-> Int Bool) +## ## ## (not (even? n))) + +## ## ## (do-templates [<name> <done> <step>] +## ## ## [(def (<name> n xs) +## ## ## (All [a] +## ## ## (-> Int (List a) (List a))) +## ## ## (if (int> n 0) +## ## ## (case' xs +## ## ## #Nil #Nil +## ## ## (#Cons [x xs']) <step>) +## ## ## <done>))] + +## ## ## [take #Nil (list+ x (take (dec n) xs'))] +## ## ## [drop xs (drop (dec n) xs')]) + +## ## ## (do-templates [<name> <done> <step>] +## ## ## [(def (<name> f xs) +## ## ## (All [a] +## ## ## (-> (-> a Bool) (List a) (List a))) +## ## ## (case' xs +## ## ## #Nil #Nil +## ## ## (#Cons [x xs']) (if (f x) <step> #Nil)))] + +## ## ## [take-while #Nil (list+ x (take-while f xs'))] +## ## ## [drop-while xs (drop-while f xs')]) + +## ## ## ## (defmacro (get@ tokens) +## ## ## ## (let [output (case' tokens +## ## ## ## (#Cons [tag (#Cons [record #Nil])]) +## ## ## ## (` (get@' (~ tag) (~ record))) + +## ## ## ## (#Cons [tag #Nil]) +## ## ## ## (` (lambda [record] (get@' (~ tag) record))))] +## ## ## ## (return (list output)))) + +## ## ## ## (defmacro (set@ tokens) +## ## ## ## (let [output (case' tokens +## ## ## ## (#Cons [tag (#Cons [value (#Cons [record #Nil])])]) +## ## ## ## (` (set@' (~ tag) (~ value) (~ record))) + +## ## ## ## (#Cons [tag (#Cons [value #Nil])]) +## ## ## ## (` (lambda [record] (set@' (~ tag) (~ value) record))) + +## ## ## ## (#Cons [tag #Nil]) +## ## ## ## (` (lambda [value record] (set@' (~ tag) value record))))] +## ## ## ## (return (list output)))) + +## ## ## ## (defmacro (update@ tokens) +## ## ## ## (let [output (case' tokens +## ## ## ## (#Cons [tag (#Cons [func (#Cons [record #Nil])])]) +## ## ## ## (` (let [_record_ (~ record)] +## ## ## ## (set@' (~ tag) ((~ func) (get@' (~ tag) _record_)) _record_))) + +## ## ## ## (#Cons [tag (#Cons [func #Nil])]) +## ## ## ## (` (lambda [record] +## ## ## ## (` (set@' (~ tag) ((~ func) (get@' (~ tag) record)) record)))) + +## ## ## ## (#Cons [tag #Nil]) +## ## ## ## (` (lambda [func record] +## ## ## ## (set@' (~ tag) (func (get@' (~ tag) record)) record))))] +## ## ## ## (return (list output)))) + +## ## ## (def (show-int int) +## ## ## (-> Int Text) +## ## ## (jvm-invokevirtual java.lang.Object "toString" [] +## ## ## int [])) + +## ## ## (def gensym +## ## ## (LuxStateM Syntax) +## ## ## (lambda [state] +## ## ## [(update@ [#gen-seed] inc state) +## ## ## (_meta (#Symbol ($ text-++ "__" (show-int (get@ [#gen-seed] state)) "__")))])) + +## ## ## ## (do-template [<name> <member>] +## ## ## ## (def (<name> pair) +## ## ## ## (case' pair +## ## ## ## [f s] +## ## ## ## <member>)) + +## ## ## ## [first f] +## ## ## ## [second s]) + +## ## ## (def (show-syntax syntax) +## ## ## (-> Syntax Text) +## ## ## (case' syntax +## ## ## (#Meta [_ (#Bool value)]) +## ## ## (jvm-invokevirtual java.lang.Object "toString" [] +## ## ## value []) + +## ## ## (#Meta [_ (#Int value)]) +## ## ## (jvm-invokevirtual java.lang.Object "toString" [] +## ## ## value []) + +## ## ## (#Meta [_ (#Real value)]) +## ## ## (jvm-invokevirtual java.lang.Object "toString" [] +## ## ## value []) + +## ## ## (#Meta [_ (#Char value)]) +## ## ## (jvm-invokevirtual java.lang.Object "toString" [] +## ## ## value []) + +## ## ## (#Meta [_ (#Text value)]) +## ## ## (jvm-invokevirtual java.lang.Object "toString" [] +## ## ## value []) + +## ## ## (#Meta [_ (#Symbol [module name])]) +## ## ## ($ text-++ module ";" name) + +## ## ## (#Meta [_ (#Tag [module name])]) +## ## ## ($ text-++ "#" module ";" name) + +## ## ## (#Meta [_ (#Tuple members)]) +## ## ## ($ text-++ "[" (fold text-++ "" (interpose " " (map show-syntax members))) "]") + +## ## ## (#Meta [_ (#Form members)]) +## ## ## ($ text-++ "(" (fold text-++ "" (interpose " " (map show-syntax members))) ")") +## ## ## )) + +## ## ## (defmacro (do tokens) +## ## ## (case' tokens +## ## ## (#Cons [(#Meta [_ monad]) (#Cons [(#Meta [_ (#Tuple bindings)]) (#Cons [body #Nil])])]) +## ## ## (let [output (fold (lambda [body binding] +## ## ## (case' binding +## ## ## [lhs rhs] +## ## ## (` (lux;bind (lambda [(~ lhs)] (~ body)) +## ## ## (~ rhs))))) +## ## ## body +## ## ## (reverse (as-pairs bindings)))] +## ## ## (return (list (` (using (~ monad) (~ output)))))))) + +## ## ## (def (map% f xs) +## ## ## (All [m a b] +## ## ## (-> (-> a (m b)) (List a) (m (List b)))) +## ## ## (case' xs +## ## ## #Nil +## ## ## (return xs) + +## ## ## (#Cons [x xs']) +## ## ## (do [y (f x) +## ## ## ys (map% f xs')] +## ## ## (return (#Cons [y ys]))))) + +## ## ## ## (defmacro ($keys tokens) +## ## ## ## (case' tokens +## ## ## ## (#Cons [(#Meta [_ (#Tuple fields)]) #Nil]) +## ## ## ## (return (list (_meta (#Record (map (lambda [slot] +## ## ## ## (case' slot +## ## ## ## (#Meta [_ (#Tag [module name])]) +## ## ## ## [($ text-++ module ";" name) (_meta (#Symbol [module name]))])) +## ## ## ## fields))))))) + +## ## ## ## (defmacro ($or tokens) +## ## ## ## (case' tokens +## ## ## ## (#Cons [(#Meta [_ (#Tuple patterns)]) (#Cons [body #Nil])]) +## ## ## ## (return (flat-map (lambda [pattern] (list pattern body)) +## ## ## ## patterns)))) + +## ## ## ## (def null jvm-null) + +## ## ## (defmacro (^ tokens) +## ## ## (case' tokens +## ## ## (#Cons [(#Meta [_ (#Symbol [_ class-name])]) #Nil]) +## ## ## (return (list (` (#DataT (~ (_meta (#Text class-name))))))) +## ## ## )) + +## ## ## (defmacro (, members) +## ## ## (return (list (_meta (#Form (list+ (_meta (#Tag ["lux" "TupleT"])) (untemplate-list members))))))) + +## ## ## (defmacro (| members) +## ## ## (let [members' (map (lambda [m] +## ## ## (case' m +## ## ## (#Meta [_ (#Tag [module name])]) +## ## ## [($ text-++ module ";" name) (` (#Tuple (list)))] + +## ## ## (#Meta [_ (#Form (#Cons [(#Meta [_ (#Tag [module name])]) (#Cons [value #Nil])]))]) +## ## ## [($ text-++ module ";" name) (` (#Tuple (~ value)))])) +## ## ## members)] +## ## ## (return (list (_meta (#Form (list+ (_meta (#Tag ["lux" "VariantT"])) (untemplate-list members)))))))) + +## ## ## (defmacro (& members) +## ## ## (let [members' (map (lambda [m] +## ## ## (case' m +## ## ## (#Meta [_ (#Form (#Cons [(#Meta [_ (#Tag [module name])]) (#Cons [value #Nil])]))]) +## ## ## [($ text-++ module ";" name) (` (#Tuple (~ value)))])) +## ## ## members)] +## ## ## (return (list (_meta (#Form (list+ (_meta (#Tag ["lux" "RecordT"])) (untemplate-list members)))))))) + +## ## ## (defmacro (-> tokens) +## ## ## (case' (reverse tokens) +## ## ## (#Cons [f-return f-args]) +## ## ## (fold (lambda [f-return f-arg] +## ## ## (` (#LambdaT [(~ f-arg) (~ f-return)]))) +## ## ## f-return +## ## ## f-args))) + +## ## ## (def (text= x y) +## ## ## (-> Text Text Bool) +## ## ## (jvm-invokevirtual java.lang.Object "equals" [java.lang.Object] +## ## ## x [y])) + +## ## ## (def (replace-ident ident value syntax) +## ## ## (-> (, Text Text) Syntax Syntax Syntax) +## ## ## (let [[module name] ident] +## ## ## (case' syntax +## ## ## (#Meta [_ (#Symbol [?module ?name])]) +## ## ## (if (and (text= module ?module) +## ## ## (text= name ?name)) +## ## ## value +## ## ## syntax) + +## ## ## (#Meta [_ (#Form members)]) +## ## ## (_meta (#Form (map (replace-ident ident value) members))) + +## ## ## (#Meta [_ (#Tuple members)]) +## ## ## (_meta (#Tuple (map (replace-ident ident value) members))) + +## ## ## (#Meta [_ (#Record members)]) +## ## ## (_meta (#Record (map (lambda [kv] +## ## ## (case' kv +## ## ## [k v] +## ## ## [k (replace-ident ident value v)])) +## ## ## members))) + +## ## ## _ +## ## ## syntax))) + +## ## ## (defmacro (All tokens) +## ## ## (let [[name args body] (case' tokens +## ## ## (#Cons [(#Meta [_ (#Symbol [_ name])]) (#Cons [(#Meta [_ (#Tuple args)]) (#Cons [body #Nil])])]) +## ## ## [name args body] + +## ## ## (#Cons [(#Meta [_ (#Tuple args)]) (#Cons [body #Nil])]) +## ## ## ["" args body]) +## ## ## rolled (fold (lambda [body arg] +## ## ## (case' arg +## ## ## (#Meta [_ (#Symbol [arg-module arg-name])]) +## ## ## (` (#AllT (list) "" (~ (_meta (#Text arg-name))) (~ (replace-ident [arg-module arg-name] +## ## ## (` (#BoundT (~ (#Text arg-name)))) +## ## ## body)))))) +## ## ## body +## ## ## args)] +## ## ## (case' rolled +## ## ## (#Meta [_ (#Form (#Cons [(#Meta [_ (#Tag ["lux" "AllT"])]) (#Cons [env (#Cons [(#Meta [_ (#Text "")]) (#Cons [(#Meta [_ (#Text arg-name)]) (#Cons [body #Nil])])])])]))]) +## ## ## (return (list (` (#AllT (~ env) (~ (#Text name)) (~ (#Text arg-name)) +## ## ## (~ (replace-ident arg-name (` (#BoundT (~ (#Text name)))) +## ## ## body))))))))) + +## ## ## (defmacro (Exists tokens) +## ## ## (case' tokens +## ## ## (#Cons [args (#Cons [body #Nil])]) +## ## ## (return (list (` (All (~ args) (~ body))))))) + +## ## ## (def Any #AnyT) +## ## ## (def Nothing #NothingT) +## ## ## (def Bool (^ java.lang.Boolean)) +## ## ## (def Int (^ java.lang.Long)) +## ## ## (def Real (^ java.lang.Double)) +## ## ## (def Char (^ java.lang.Character)) +## ## ## (def Text (^ java.lang.String)) + +## ## ## (deftype (List a) +## ## ## (| #Nil +## ## ## (#Cons (, a (List a))))) + +## ## ## (deftype #rec Type +## ## ## (| #AnyT +## ## ## #NothingT +## ## ## (#DataT Text) +## ## ## (#TupleT (List Type)) +## ## ## (#VariantT (List (, Text Type))) +## ## ## (#RecordT (List (, Text Type))) +## ## ## (#LambdaT (, Type Type)) +## ## ## (#BoundT Text) +## ## ## (#VarT Int) +## ## ## (#AllT (, (List (, Text Type)) Text Text Type)) +## ## ## (#AppT (, Type Type)))) + +## ## ## (deftype (Either l r) +## ## ## (| (#Left l) +## ## ## (#Right r))) + +## ## ## (deftype #rec Syntax +## ## ## (| (#Bool Bool) +## ## ## (#Int Int) +## ## ## (#Real Real) +## ## ## (#Char Char) +## ## ## (#Text Text) +## ## ## (#Form (List Syntax)) +## ## ## (#Tuple (List Syntax)) +## ## ## (#Record (List (, Text Syntax))))) + +## ## ## (deftype Macro +## ## ## (-> (List Syntax) CompilerState +## ## ## (Either Text (, CompilerState (List Syntax))))) + +## ## ## (def (macro-expand syntax) +## ## ## (-> Syntax (LuxStateM (List Syntax))) +## ## ## (case' syntax +## ## ## (#Form (#Cons [(#Symbol macro-name) args])) +## ## ## (do [macro (get-macro macro-name)] +## ## ## ((coerce macro Macro) args)))) + +## ## ## (defmacro (case tokens) +## ## ## (case' tokens +## ## ## (#Cons value branches) +## ## ## (loop [kind #Pattern +## ## ## pieces branches +## ## ## new-pieces (list)] +## ## ## (case' pieces +## ## ## #Nil +## ## ## (return (list (' (case' (~ value) (~@ new-pieces))))) + +## ## ## (#Cons piece pieces') +## ## ## (let [[kind' expanded more-pieces] (case' kind +## ## ## #Body +## ## ## [#Pattern (list piece) #Nil] + +## ## ## #Pattern +## ## ## (do [expansion (macro-expand piece)] +## ## ## (case' expansion +## ## ## #Nil +## ## ## [#Pattern #Nil #Nil] + +## ## ## (#Cons exp #Nil) +## ## ## [#Body (list exp) #Nil] + +## ## ## (#Cons exp exps) +## ## ## [#Body (list exp) exps])) +## ## ## )] +## ## ## (recur kind' (++ expanded new-pieces) (++ more-pieces pieces)))) +## ## ## ))) + +## ## ## (def (defsyntax tokens) +## ## ## ...) + +## ## ## (deftype (State s a) +## ## ## (-> s (, s a))) + +## ## ## (deftype (Parser a) +## ## ## (State (List Syntax) a)) + +## ## ## (def (parse-ctor tokens) +## ## ## (Parser (, Syntax (List Syntax))) +## ## ## (case tokens +## ## ## (list+ (#Symbol name) tokens') +## ## ## [tokens' [(#Symbol name) (list)]] + +## ## ## (list+ (#Form (list+ (#Symbol name) args)) tokens') +## ## ## [tokens' [(#Symbol name) args]])) + +## ## ## (defsyntax (defsig +## ## ## [[name args] parse-ctor] +## ## ## [anns ($+ $1)]) +## ## ## (let [def-body (fold (lambda [body arg] (` (lambda [(~ arg)] (~ body)))) +## ## ## (` (#Record (~ (untemplate-list ...)))) +## ## ## args)] +## ## ## (return (list (` (def (~ name) (~ def-body))))))) + +## ## ## (defsyntax (defstruct +## ## ## [[name args] parse-ctor] +## ## ## signature +## ## ## [defs ($+ $1)]) +## ## ## (let [def-body (fold (lambda [body arg] (` (lambda [(~ arg)] (~ body)))) +## ## ## (` (#Record (~ (untemplate-list ...)))) +## ## ## args)] +## ## ## (return (list (` (def (~ name) +## ## ## (: (~ def-body) (~ signature)))))))) + +## ## ## (defsig (Monad m) +## ## ## (: return (All [a] (-> a (m a)))) +## ## ## (: bind (All [a b] (-> (-> a (m b)) (m a) (m b))))) + +## ## ## (defstruct ListMonad (Monad List) +## ## ## (def (return x) +## ## ## (list x)) + +## ## ## (def bind (. concat map))) + +## ## ## (defsig (Eq a) +## ## ## (: = (-> a a Bool))) + +## ## ## (defstruct (List_Eq A_Eq) +## ## ## (All [a] (-> (Eq a) (Eq (List a)))) + +## ## ## (def (= xs ys) +## ## ## (and (= (length xs) (length ys)) +## ## ## (map (lambda [[x y]] +## ## ## (with A_Eq +## ## ## (= x y))) +## ## ## (zip2 xs ys))))) + +## ## ## ## ## (def (with tokens) +## ## ## ## ## ...) + +## ## ## ## ## TODO: Full pattern-matching +## ## ## ## ## TODO: Type-related macros +## ## ## ## ## TODO: (Im|Ex)ports-related macros +## ## ## ## ## TODO: Macro-related macros + +## ## ## ## ## (import "lux") +## ## ## ## ## (module-alias "lux" "l") +## ## ## ## ## (def-alias "lux;map" "map") + +## ## ## ## ## (def (require tokens) +## ## ## ## ## (case tokens +## ## ## ## ## ...)) + +## ## ## ## ## (require lux #as l #refer [map]) diff --git a/src/lux/analyser.clj b/src/lux/analyser.clj index 14d5599e4..7f65c6476 100644 --- a/src/lux/analyser.clj +++ b/src/lux/analyser.clj @@ -436,7 +436,7 @@ [["lux;Meta" [meta ["lux;Form" ["lux;Cons" [?fn ?args]]]]]] (fn [state] ;; (prn '(&/show-ast ?fn) (&/show-ast ?fn)) - (matchv ::M/objects [((&&/with-var #(&&/analyse-1 (partial analyse-ast eval!) % ?fn)) state)] + (matchv ::M/objects [((&type/with-var #(&&/analyse-1 (partial analyse-ast eval!) % ?fn)) state)] [["lux;Right" [state* =fn]]] ((&&lux/analyse-apply (partial analyse-ast eval!) exo-type =fn ?args) state*) diff --git a/src/lux/analyser/base.clj b/src/lux/analyser/base.clj index 35c12c3e0..9acd37028 100644 --- a/src/lux/analyser/base.clj +++ b/src/lux/analyser/base.clj @@ -1,7 +1,7 @@ (ns lux.analyser.base (:require [clojure.core.match :as M :refer [match matchv]] clojure.core.match.array - (lux [base :as & :refer [|do return fail]] + (lux [base :as & :refer [|let |do return fail]] [type :as &type]))) ;; [Resources] @@ -36,22 +36,9 @@ [_] (fail "[Analyser Error] Can't expand to other than 2 elements."))))) -(defn with-var [k] - (|do [=var &type/create-var - =ret (k =var)] - (matchv ::M/objects [=ret] - [["Expression" [?expr ?type]]] - (|do [id (&type/var-id =var) - =type (&type/clean id ?type) - :let [_ (prn 'with-var/CLEANING id)] - _ (&type/delete-var id)] - (return (&/V "Expression" (&/T ?expr =type)))) - - [_] - (assert false (pr-str '&&/with-var (aget =ret 0)))))) - -(defmacro with-vars [vars body] - (reduce (fn [b v] - `(with-var (fn [~v] ~b))) - body - (reverse vars))) +(defn resolved-ident [ident] + (|let [[?module ?name] ident] + (|do [module* (if (= "" ?module) + &/get-module-name + (return ?module))] + (return (&/ident->text (&/T module* ?name)))))) diff --git a/src/lux/analyser/case.clj b/src/lux/analyser/case.clj index 74d5ea5a3..7a0fbe510 100644 --- a/src/lux/analyser/case.clj +++ b/src/lux/analyser/case.clj @@ -17,149 +17,111 @@ [_] (&type/actual-type type))) -(defn ^:private variant-case [case type] - (matchv ::M/objects [type] - [["lux;VariantT" ?cases]] - (if-let [case-type (&/|get case ?cases)] - (return case-type) - (fail (str "[Pattern-maching error] Variant lacks case: " case))) - - [_] - (fail "[Pattern-maching error] Type is not a variant."))) - -(defn ^:private analyse-variant [analyse-pattern idx value-type tag value] - (|do [[idx* test] (analyse-pattern idx value-type value)] - (return (&/T idx* (&/V "VariantTestAC" (&/T tag test)))))) - -(defn ^:private analyse-pattern [idx value-type pattern] +(defn ^:private analyse-pattern [value-type pattern kont] ;; (prn 'analyse-pattern/pattern (aget pattern 0) (aget pattern 1) (alength (aget pattern 1))) (matchv ::M/objects [pattern] [["lux;Meta" [_ pattern*]]] ;; (assert false) - (do ;; (prn 'analyse-pattern/pattern* (aget pattern* 0)) - ;; (when (= "lux;Form" (aget pattern* 0)) - ;; (prn 'analyse-pattern/_2 (aget pattern* 1 0)) ;; "lux;Cons" - ;; (prn 'analyse-pattern/_2 (aget pattern* 1 1 0 0)) ;; "lux;Meta" - ;; (prn 'analyse-pattern/_2 (alength (aget pattern* 1 1 0 1))) - ;; (prn 'analyse-pattern/_2 (aget pattern* 1 1 0 1 1 0)) ;; "lux;Tag" - ;; (prn 'analyse-pattern/_2 [(aget pattern* 1 1 0 1 1 1 0) (aget pattern* 1 1 0 1 1 1 1)]) ;; ["" "Cons"] - ;; (prn 'analyse-pattern/_2 (aget pattern* 1 1 1 0)) ;; "lux;Cons" - ;; (prn 'analyse-pattern/_2 (aget pattern* 1 1 1 1 0)) ;; #<Object[] [Ljava.lang.Object;@63c7c38b> - ;; (prn 'analyse-pattern/_2 (aget pattern* 1 1 1 1 1 0)) ;; "lux;Nil" - ;; ) - ;; ["lux;Form" ["lux;Cons" [["lux;Meta" [_ ["lux;Tag" [?module ?name]]]] - ;; ["lux;Cons" [?value - ;; ["lux;Nil" _]]]]]] - (matchv ::M/objects [pattern*] - [["lux;Symbol" [?module ?name]]] - (return (&/T (inc idx) (&/V "StoreTestAC" (&/T idx (str ?module ";" ?name) value-type)))) - - [["lux;Bool" ?value]] - (|do [_ (&type/check value-type &type/Bool)] - (return (&/T idx (&/V "BoolTestAC" ?value)))) - - [["lux;Int" ?value]] - (|do [_ (&type/check value-type &type/Int)] - (return (&/T idx (&/V "IntTestAC" ?value)))) - - [["lux;Real" ?value]] - (|do [_ (&type/check value-type &type/Real)] - (return (&/T idx (&/V "RealTestAC" ?value)))) - - [["lux;Char" ?value]] - (|do [_ (&type/check value-type &type/Char)] - (return (&/T idx (&/V "CharTestAC" ?value)))) - - [["lux;Text" ?value]] - (|do [_ (&type/check value-type &type/Text)] - (return (&/T idx (&/V "TextTestAC" ?value)))) - - [["lux;Tuple" ?members]] - (|do [=vars (&/map% (constantly &type/create-var) ?members) - _ (&type/check value-type (&/V "lux;TupleT" =vars)) - [idx* tests] (&/fold% (fn [idx+subs mv] - (|let [[_idx subs] idx+subs - [?member ?var] mv] - (|do [[idx* test] (analyse-pattern _idx ?var ?member)] - (return (&/T idx* (&/|cons test subs)))))) - (&/T idx (&/|list)) - (&/zip2 ?members =vars))] - (return (&/T idx* (&/V "TupleTestAC" (&/|reverse tests))))) - - [["lux;Record" ?fields]] - (|do [=vars (&/map% (constantly &type/create-var) ?fields) - _ (&type/check value-type (&/V "lux;RecordT" (&/zip2 (&/|keys ?fields) =vars))) - tests (&/fold% (fn [idx+subs mv] - (|let [[_idx subs] idx+subs - [[slot value] ?var] mv] - (|do [[idx* test] (analyse-pattern _idx ?var value)] - (return (&/T idx* (&/|cons (&/T slot test) subs)))))) - (&/T idx (&/|list)) (&/zip2 ?fields =vars))] - (return (&/V "RecordTestAC" tests))) - - [["lux;Tag" [?module ?name]]] - (|do [module* (if (= "" ?module) - &/get-module-name - (return ?module)) - :let [=tag (str module* ";" ?name)] - value-type* (resolve-type value-type) - case-type (variant-case =tag value-type*)] - (analyse-variant analyse-pattern idx case-type =tag (&/V "lux;Meta" (&/T (&/T "" -1 -1) - (&/V "lux;Tuple" (&/|list)))))) - - [["lux;Form" ["lux;Cons" [["lux;Meta" [_ ["lux;Tag" [?module ?name]]]] - ["lux;Cons" [?value - ["lux;Nil" _]]]]]]] - (|do [module* (if (= "" ?module) - &/get-module-name - (return ?module)) - :let [=tag (str module* ";" ?name)] - value-type* (resolve-type value-type) - case-type (variant-case =tag value-type*)] - (analyse-variant analyse-pattern idx case-type =tag ?value)) - )) - )) - -(defn ^:private with-test [test body] - (matchv ::M/objects [test] - [["StoreTestAC" [?idx ?name ?type]]] - (&env/with-local ?name ?type - body) - - [["TupleTestAC" ?tests]] - (&/fold #(with-test %2 %1) body (&/|reverse ?tests)) - - [["RecordTestAC" ?tests]] - (&/fold #(with-test %2 %1) body (&/|reverse (&/|vals ?tests))) - - [["VariantTestAC" [?tag ?value]]] - (with-test ?value body) - - [_] - body - )) - -(defn ^:private analyse-branch [analyse exo-type value-type pattern body match] - (|do [idx &env/next-local-idx - [idx* =test] (analyse-pattern idx value-type pattern) - =body (with-test =test - (&&/analyse-1 analyse exo-type body))] - (matchv ::M/objects [match] - [["MatchAC" ?patterns]] - (return (&/V "MatchAC" (&/|cons (&/T =test =body) ?patterns)))))) + (matchv ::M/objects [pattern*] + [["lux;Symbol" ?ident]] + (|do [=kont (&env/with-local (&/ident->text ?ident) value-type + kont) + idx &env/next-local-idx] + (return (&/T (&/V "StoreTestAC" idx) =kont))) + + [["lux;Bool" ?value]] + (|do [_ (&type/check value-type &type/Bool) + =kont kont] + (return (&/T (&/V "BoolTestAC" ?value) =kont))) + + [["lux;Int" ?value]] + (|do [=kont kont + _ (&type/check value-type &type/Int)] + (return (&/T (&/V "IntTestAC" ?value) =kont))) + + [["lux;Real" ?value]] + (|do [=kont kont + _ (&type/check value-type &type/Real)] + (return (&/T (&/V "RealTestAC" ?value) =kont))) + + [["lux;Char" ?value]] + (|do [=kont kont + _ (&type/check value-type &type/Char)] + (return (&/T (&/V "CharTestAC" ?value) =kont))) + + [["lux;Text" ?value]] + (|do [=kont kont + _ (&type/check value-type &type/Text)] + (return (&/T (&/V "TextTestAC" ?value) =kont))) + + [["lux;Tuple" ?members]] + (&type/with-vars (&/|length ?members) + (fn [=vars] + (|do [_ (&type/check value-type (&/V "lux;TupleT" =vars)) + [=tests =kont] (&/fold (fn [kont* vm] + (|let [[v m] vm] + (|do [[=test [=tests =kont]] (analyse-pattern v m kont*)] + (matchv ::M/objects [=kont] + [["Expression" [?val ?type]]] + (|do [=type (&type/clean v ?type)] + (return (&/T (&/|cons =test =tests) + (&/V "Expression" (&/T ?val =type))))))))) + (|do [=kont kont] + (return (&/T (&/|list) =kont))) + (&/|reverse (&/zip2 =vars ?members)))] + (return (&/T (&/V "TupleTestAC" =tests) =kont))))) + + [["lux;Record" ?fields]] + (&type/with-vars (&/|length ?fields) + (fn [=vars] + (|do [_ (&type/check value-type (&/V "lux;RecordT" (&/zip2 (&/|keys ?fields) =vars))) + [=tests =kont] (&/fold (fn [kont* vm] + (|let [[v [k m]] vm] + (|do [[=test [=tests =kont]] (analyse-pattern v m kont*)] + (matchv ::M/objects [=kont] + [["Expression" [?val ?type]]] + (|do [=type (&type/clean v ?type)] + (return (&/T (&/|put k =test =tests) + (&/V "Expression" (&/T ?val =type))))))))) + (|do [=kont kont] + (return (&/T (&/|table) =kont))) + (&/|reverse (&/zip2 =vars ?fields)))] + (return (&/T (&/V "RecordTestAC" =tests) =kont))))) + + [["lux;Tag" ?ident]] + (|do [=tag (&&/resolved-ident ?ident) + value-type* (resolve-type value-type) + case-type (&type/variant-case =tag value-type*) + [=test =kont] (analyse-pattern case-type (&/V "lux;Meta" (&/T (&/T "" -1 -1) + (&/V "lux;Tuple" (&/|list)))) + kont)] + (return (&/T (&/V "VariantTestAC" (&/T =tag =test)) =kont))) + + [["lux;Form" ["lux;Cons" [["lux;Meta" [_ ["lux;Tag" ?ident]]] + ["lux;Cons" [?value + ["lux;Nil" _]]]]]]] + (|do [=tag (&&/resolved-ident ?ident) + value-type* (resolve-type value-type) + case-type (&type/variant-case =tag value-type*) + [=test =kont] (analyse-pattern case-type ?value + kont)] + (return (&/T (&/V "VariantTestAC" (&/T =tag =test)) =kont))) + ))) + +(defn ^:private analyse-branch [analyse exo-type value-type pattern body patterns] + (|do [pattern+body (analyse-pattern value-type pattern + (&&/analyse-1 analyse exo-type body))] + (return (&/|cons pattern+body patterns)))) (let [compare-kv #(compare (aget %1 0) (aget %2 0))] (defn ^:private merge-total [struct test+body] - ;; (prn 'merge-total (aget struct 0) (class test+body)) - ;; (prn 'merge-total (aget struct 0) (aget test+body 0)) - ;; (prn 'merge-total (aget struct 0) (aget test+body 0 0)) (matchv ::M/objects [test+body] [[test ?body]] (matchv ::M/objects [struct test] - [["DefaultTotal" total?] ["StoreTestAC" [?idx ?name type]]] + [["DefaultTotal" total?] ["StoreTestAC" ?idx]] (return (&/V "DefaultTotal" true)) - [[?tag [total? ?values]] ["StoreTestAC" [?idx ?name type]]] + [[?tag [total? ?values]] ["StoreTestAC" ?idx]] (return (&/V ?tag (&/T true ?values))) [["DefaultTotal" total?] ["BoolTestAC" ?value]] @@ -239,92 +201,86 @@ (return (&/V "VariantTotal" (&/T total? (&/|put ?tag struct ?branches))))) )))) -(defn ^:private totality-struct [owner-total? match] - (let [msg "Pattern matching is non-total"] - (matchv ::M/objects [match] - [["MatchAC" ?tests]] - (&/fold% merge-total (&/V "DefaultTotal" false) ?tests)))) - (defn ^:private check-totality [value-type struct] (prn 'check-totality (aget value-type 0) (aget struct 0) (&type/show-type value-type)) (matchv ::M/objects [struct] [["BoolTotal" [?total _]]] - (|do [_ (&type/check value-type &type/Bool)] - (return ?total)) + (return ?total) [["IntTotal" [?total _]]] - (|do [_ (&type/check value-type &type/Int)] - (return ?total)) + (return ?total) [["RealTotal" [?total _]]] - (|do [_ (&type/check value-type &type/Real)] - (return ?total)) + (return ?total) [["CharTotal" [?total _]]] - (|do [_ (&type/check value-type &type/Char)] - (return ?total)) + (return ?total) [["TextTotal" [?total _]]] - (|do [_ (&type/check value-type &type/Text)] - (return ?total)) + (return ?total) [["TupleTotal" [?total ?structs]]] - (|do [elems-vars (&/map% (constantly &type/create-var) ?structs) - _ (&type/check value-type (&/V "lux;TupleT" elems-vars)) - totals (&/map% (fn [sv] - (|let [[sub-struct tvar] sv] - (check-totality tvar sub-struct))) - (&/zip2 ?structs elems-vars))] - (return (or ?total - (every? true? totals)))) + (if ?total + (return true) + (|do [value-type* (resolve-type value-type)] + (matchv ::M/objects [value-type*] + [["lux;TupleT" ?members]] + (|do [totals (&/map% (fn [sv] + (|let [[sub-struct ?member] sv] + (check-totality ?member sub-struct))) + (&/zip2 ?structs ?members))] + (return (&/fold #(and %1 %2) true totals))) + + [_] + (fail "")))) [["RecordTotal" [?total ?structs]]] - (|do [elems-vars (&/map% (constantly &type/create-var) ?structs) - :let [structs+vars (&/zip2 ?structs elems-vars) - record-type (&/V "lux;RecordT" (&/|map (fn [sv] - (|let [[[k v] tvar] sv] - (&/T k tvar))) - structs+vars))] - _ (&type/check value-type record-type) - totals (&/map% (fn [sv] - (|let [[[k v] tvar] sv] - (check-totality tvar v))) - structs+vars)] - (return (or ?total - (every? true? totals)))) + (if ?total + (return true) + (|do [value-type* (resolve-type value-type)] + (matchv ::M/objects [value-type*] + [["lux;RecordT" ?fields]] + (|do [totals (&/map% (fn [field] + (|let [[?tk ?tv] field] + (if-let [sub-struct (&/|get ?tk ?structs)] + (check-totality ?tv sub-struct) + (return false)))) + ?fields)] + (return (&/fold #(and %1 %2) true totals))) + + [_] + (fail "")))) [["VariantTotal" [?total ?structs]]] - (&/try-all% (&/|list (|do [real-type (resolve-type value-type) - :let [_ (prn 'real-type/_1 (&type/show-type real-type))] - veredicts (matchv ::M/objects [real-type] - [["lux;VariantT" ?cases]] - (&/map% (fn [case] - (|let [[ctag ctype] case] - (if-let [sub-struct (&/|get ctag ?structs)] - (check-totality ctype sub-struct) - (return ?total)))) - ?cases) - - [_] - (fail "[Pattern-maching error] Value is not a variant."))] - (return (&/fold #(and %1 %2) ?total veredicts))) - (fail "[Pattern-maching error] Can't pattern-match on an unknown variant type."))) + (if ?total + (return true) + (|do [value-type* (resolve-type value-type)] + (matchv ::M/objects [value-type*] + [["lux;VariantT" ?cases]] + (|do [totals (&/map% (fn [case] + (|let [[?tk ?tv] case] + (if-let [sub-struct (&/|get ?tk ?structs)] + (check-totality ?tv sub-struct) + (return false)))) + ?cases)] + (return (&/fold #(and %1 %2) true totals))) + + [_] + (fail "")))) - [["DefaultTotal" true]] - (return true) + [["DefaultTotal" ?total]] + (return ?total) )) ;; [Exports] (defn analyse-branches [analyse exo-type value-type branches] - (|do [=match (&/fold% (fn [match branch] - (|let [[pattern body] branch] - (analyse-branch analyse exo-type value-type pattern body match))) - (&/V "MatchAC" (&/|list)) - branches) - struct (totality-struct false =match) + (|do [patterns (&/fold% (fn [patterns branch] + (|let [[pattern body] branch] + (analyse-branch analyse exo-type value-type pattern body patterns))) + (&/|list) + branches) + struct (&/fold% merge-total (&/V "DefaultTotal" false) patterns) ? (check-totality value-type struct)] - (matchv ::M/objects [=match] - [["MatchAC" ?tests]] - (if ? - (return (&/V "MatchAC" (&/|reverse ?tests))) - (fail "[Pattern-maching error] Pattern-matching is non-total."))))) + (if ? + (return (&/|reverse patterns)) + (fail "[Pattern-maching error] Pattern-matching is non-total.")))) diff --git a/src/lux/analyser/env.clj b/src/lux/analyser/env.clj index 454d8ad6c..a083801ed 100644 --- a/src/lux/analyser/env.clj +++ b/src/lux/analyser/env.clj @@ -10,7 +10,7 @@ (return* state (->> state (&/get$ "lux;local-envs") &/|head (&/get$ "lux;locals") (&/get$ "lux;counter"))))) (defn with-local [name type body] - (prn 'with-local name) + ;; (prn 'with-local name) (fn [state] (let [old-mappings (->> state (&/get$ "lux;local-envs") &/|head (&/get$ "lux;locals") (&/get$ "lux;mappings")) =return (body (&/update$ "lux;local-envs" diff --git a/src/lux/analyser/host.clj b/src/lux/analyser/host.clj index 33ceb2b22..404573de4 100644 --- a/src/lux/analyser/host.clj +++ b/src/lux/analyser/host.clj @@ -182,8 +182,8 @@ ["lux;Nil" _]]]]]]]]]] ["lux;Nil" _]]]]]]]]]]] (do ;; (prn 'analyse-jvm-interface ?member-name ?inputs ?output) - (|do [?inputs (&/map% extract-ident ?inputs)] - (return [?member-name [?inputs ?output]]))) + (|do [inputs* (&/map% extract-ident ?inputs)] + (return [?member-name [inputs* ?output]]))) [_] (fail "[Analyser Error] Invalid method signature!"))) diff --git a/src/lux/analyser/lux.clj b/src/lux/analyser/lux.clj index 32f65320a..8e3afb476 100644 --- a/src/lux/analyser/lux.clj +++ b/src/lux/analyser/lux.clj @@ -13,26 +13,34 @@ [env :as &&env] [def :as &&def]))) -(defn ^:private analyse-1+ [analyse] - (fn [?token] - (&&/with-var #(&&/analyse-1 analyse % ?token)))) +(defn ^:private analyse-1+ [analyse ?token] + (&type/with-var + (fn [$var] + (prn 'analyse-1+ (aget $var 1) (&/show-ast ?token)) + (|do [=expr (&&/analyse-1 analyse $var ?token)] + (matchv ::M/objects [=expr] + [["Expression" [?item ?type]]] + (|do [=type (&type/clean $var ?type)] + (return (&/V "Expression" (&/T ?item =type)))) + ))))) ;; [Exports] (defn analyse-tuple [analyse exo-type ?elems] ;; (prn 'analyse-tuple (str "[" (->> ?elems (&/|map &/show-ast) (&/|interpose " ") (&/fold str "")) "]") ;; (&type/show-type exo-type)) - (|do [members-vars (&/map% (constantly &type/create-var) ?elems) - _ (&type/check exo-type (&/V "lux;TupleT" members-vars)) - =elems (&/map% (fn [ve] - (|let [[=var elem] ve] - (|do [output (&&/analyse-1 analyse =var elem)] - (matchv ::M/objects [output] - [["Expression" [?val ?type]]] - (|do [=val-type (&type/clean =var ?type)] - (return (&/V "Expression" (&/T ?val exo-type)))))))) - (&/zip2 members-vars ?elems))] - (return (&/|list (&/V "Expression" (&/T (&/V "tuple" =elems) - exo-type)))))) + (&type/with-vars (&/|length ?elems) + (fn [=vars] + (|do [_ (&type/check exo-type (&/V "lux;TupleT" =vars)) + =elems (&/map% (fn [ve] + (|let [[=var elem] ve] + (|do [output (&&/analyse-1 analyse =var elem)] + (matchv ::M/objects [output] + [["Expression" [?val ?type]]] + (|do [=type (&type/clean =var ?type)] + (return (&/V "Expression" (&/T ?val =type)))))))) + (&/zip2 =vars ?elems))] + (return (&/|list (&/V "Expression" (&/T (&/V "tuple" =elems) + exo-type)))))))) (defn analyse-variant [analyse exo-type ident ?value] (|let [[?module ?name] ident] @@ -46,8 +54,8 @@ [["lux;VarT" ?id]] (|do [? (&type/bound? ?id)] (if ? - (|do [exo-type (&type/deref ?id)] - (&type/actual-type exo-type)) + (|do [exo-type* (&type/deref ?id)] + (&type/actual-type exo-type*)) (|do [_ (&type/set-var ?id &type/Type)] (&type/actual-type &type/Type)))) @@ -112,7 +120,7 @@ (return (&/|list global))) state) (do (prn (str "((" (->> stack (&/|map show-frame) &/->seq (interpose " ") (reduce str "")) "))")) - (fail* (str "[Analyser Error] Unrecognized identifier: " local-ident)))) + (fail* (str "[Analyser Error] Unrecognized identifier: " local-ident)))) [["lux;Cons" [top-outer _]]] (|let [scopes (&/|tail (&/folds #(&/|cons (&/get$ "lux;name" %2) %1) @@ -127,12 +135,15 @@ (->> top-outer (&/get$ "lux;closure") (&/get$ "lux;mappings") (&/|get local-ident))) (&/|list)) (&/zip2 (&/|reverse inner) scopes))] - (return* (&/set$ "lux;local-envs" (&/|++ inner* outer) state) (&/|list =local))) + (&/run-state (|do [=local-type (&&/expr-type =local) + _ (&type/check exo-type =local-type)] + (return (&/|list =local))) + (&/set$ "lux;local-envs" (&/|++ inner* outer) state))) ))) )) (defn ^:private analyse-apply* [analyse exo-type =fn ?args] - (|do [=args (&/map% (fn [arg] (&&/with-var #(&&/analyse-1 analyse % arg))) + (|do [=args (&/map% (fn [arg] (analyse-1+ analyse arg)) ?args) =fn-type (&&/expr-type =fn) [=apply =output-type] (&/fold% (fn [[=fn =fn-type] =input] @@ -176,12 +187,13 @@ )) (defn analyse-case [analyse exo-type ?value ?branches] + (prn 'analyse-case 'exo-type (&type/show-type exo-type) (&/show-ast ?value)) (|do [:let [num-branches (&/|length ?branches)] _ (&/assert! (> num-branches 0) "[Analyser Error] Can't have empty branches in \"case'\" expression.") _ (&/assert! (even? num-branches) "[Analyser Error] Unbalanced branches in \"case'\" expression.") - =value ((analyse-1+ analyse) ?value) - :let [_ (prn 'analyse-case/GOT_VALUE)] + =value (analyse-1+ analyse ?value) =value-type (&&/expr-type =value) + :let [_ (prn 'analyse-case/GOT_VALUE (&type/show-type =value-type))] =match (&&case/analyse-branches analyse exo-type =value-type (&/|as-pairs ?branches)) :let [_ (prn 'analyse-case/GOT_MATCH)]] (return (&/|list (&/V "Expression" (&/T (&/V "case" (&/T =value =match)) @@ -189,55 +201,67 @@ (defn analyse-lambda* [analyse exo-type ?self ?arg ?body] ;; (prn 'analyse-lambda ?self ?arg ?body) - (|do [lambda-expr (&&/with-vars [=arg =return] - (|do [:let [_ (prn 'analyse-lambda/_-1 (&type/show-type =arg) (&type/show-type =return))] - :let [=lambda-type* (&/V "lux;LambdaT" (&/T =arg =return))] - :let [_ (prn 'analyse-lambda/_0)] - _ (&type/check exo-type =lambda-type*) - :let [_ (prn 'analyse-lambda/_0.5 (&type/show-type exo-type))] - :let [_ (prn 'analyse-lambda/_1 (&type/show-type =lambda-type*))] - _ (|do [aid (&type/var-id =arg) - atype (&type/deref aid) - rid (&type/var-id =return) - rtype (&type/deref rid) - :let [_ (prn 'analyse-lambda/_1.5 (&type/show-type atype) (&type/show-type rtype))]] - (return nil)) - [=scope =captured =body] (&&lambda/with-lambda ?self =lambda-type* - ?arg =arg - (&&/analyse-1 analyse =return ?body)) - :let [_ (prn 'analyse-lambda/_2)] - =lambda-type (matchv ::M/objects [=arg] - [["lux;VarT" ?id]] - (|do [? (&type/bound? ?id)] - (if ? - (return =lambda-type*) - (let [var-name (str (gensym ""))] - (|do [_ (&type/set-var ?id (&/V "lux;BoundT" var-name))] - (return (&/V "lux;AllT" (&/T (&/|list) "" var-name =lambda-type*))))))) + (|do [lambda-expr (&type/with-vars 2 + (fn [=vars2] + (matchv ::M/objects [=vars2] + [["lux;Cons" [=arg ["lux;Cons" [=return ["lux;Nil" _]]]]]] + (|do [:let [_ (prn 'analyse-lambda/_-1 (&type/show-type =arg) (&type/show-type =return))] + :let [=lambda-type* (&/V "lux;LambdaT" (&/T =arg =return))] + :let [_ (prn 'analyse-lambda/_0)] + _ (&type/check exo-type =lambda-type*) + :let [_ (prn 'analyse-lambda/_0.5 (&type/show-type exo-type))] + :let [_ (prn 'analyse-lambda/_1 (&type/show-type =lambda-type*))] + ;; _ (|do [aid (&type/var-id =arg) + ;; atype (&type/deref aid) + ;; rid (&type/var-id =return) + ;; rtype (&type/deref rid) + ;; :let [_ (prn 'analyse-lambda/_1.5 (&type/show-type atype) (&type/show-type rtype))]] + ;; (return nil)) + [=scope =captured =body] (&&lambda/with-lambda ?self =lambda-type* + ?arg =arg + (&&/analyse-1 analyse =return ?body)) + =lambda-type** (&type/clean =return =lambda-type*) + :let [_ (prn 'analyse-lambda/_2)] + =lambda-type (matchv ::M/objects [=arg] + [["lux;VarT" ?id]] + (|do [? (&type/bound? ?id)] + (if ? + (&type/clean =arg =lambda-type**) + (let [var-name (str (gensym ""))] + (|do [_ (&type/set-var ?id (&/V "lux;BoundT" var-name)) + =lambda-type*** (&type/clean =arg =lambda-type**)] + (return (&/V "lux;AllT" (&/T (&/|list) "" var-name =lambda-type***))))))) - [_] - (fail "")) - :let [_ (prn 'analyse-lambda/_3 (&type/show-type =lambda-type))]] - (return (&/V "Expression" (&/T (&/V "lambda" (&/T =scope =captured =body)) =lambda-type))))) + [_] + (fail "")) + :let [_ (prn 'analyse-lambda/_3 (&type/show-type =lambda-type))]] + (return (&/V "Expression" (&/T (&/V "lambda" (&/T =scope =captured =body)) =lambda-type)))) + ))) :let [_ (prn 'analyse-lambda/_4)]] (return lambda-expr))) +(defn analyse-lambda** [analyse exo-type ?self ?arg ?body] + (prn 'analyse-lambda**/&& (aget exo-type 0)) + (matchv ::M/objects [exo-type] + [["lux;AllT" _]] + (&type/with-var + (fn [$var] + (|do [exo-type* (&type/apply-type exo-type $var) + output (analyse-lambda** analyse exo-type* ?self ?arg ?body)] + (matchv ::M/objects [output] + [["Expression" [?item ?type]]] + (|do [=type (&type/clean $var ?type)] + (return (&/V "Expression" (&/T ?item =type)))))))) + + [_] + (analyse-lambda* analyse exo-type ?self ?arg ?body))) + (defn analyse-lambda [analyse exo-type ?self ?arg ?body] - (prn 'analyse-lambda/&& (aget exo-type 0)) - (|do [output (matchv ::M/objects [exo-type] - [["lux;AllT" _]] - (&&/with-var - (fn [$arg] - (|do [exo-type* (&type/apply-type exo-type $arg) - outputs (analyse-lambda analyse exo-type* ?self ?arg ?body)] - (return (&/|head outputs))))) - - [_] - (analyse-lambda* analyse exo-type ?self ?arg ?body))] + (|do [output (analyse-lambda** analyse exo-type ?self ?arg ?body)] (return (&/|list output)))) (defn analyse-def [analyse exo-type ?name ?value] - ;; (prn 'analyse-def/CODE ?name (&/show-ast ?value)) + (prn 'analyse-def/CODE ?name (&/show-ast ?value)) (|do [_ (&type/check exo-type &type/Nothing) module-name &/get-module-name ? (&&def/defined? module-name ?name)] @@ -245,8 +269,7 @@ (fail (str "[Analyser Error] Can't redefine " ?name)) (|do [:let [_ (prn 'analyse-def/_0)] =value (&/with-scope ?name - (&&/with-var - #(&&/analyse-1 analyse % ?value))) + (analyse-1+ analyse ?value)) :let [_ (prn 'analyse-def/_1)] =value-type (&&/expr-type =value) :let [_ (prn 'analyse-def/_2)] @@ -270,7 +293,7 @@ (defn analyse-check [analyse eval! exo-type ?type ?value] (println "analyse-check#0") (|do [=type (&&/analyse-1 analyse &type/Type ?type) - ;; =type ((analyse-1+ analyse) ?type) + ;; =type (analyse-1+ analyse ?type) :let [_ (println "analyse-check#1")] ==type (eval! =type) _ (&type/check exo-type ==type) diff --git a/src/lux/base.clj b/src/lux/base.clj index f9d3c9c23..6771c9290 100644 --- a/src/lux/base.clj +++ b/src/lux/base.clj @@ -150,7 +150,6 @@ ;; (prn 'bind m-value step) (fn [state] (let [inputs (m-value state)] - ;; (prn 'bind/inputs (aget inputs 0)) (matchv ::M/objects [inputs] [["lux;Right" [?state ?datum]]] (let [next-fn (step ?datum)] @@ -159,7 +158,11 @@ (next-fn ?state)) [["lux;Left" _]] - inputs)))) + inputs + + ;; [_] + ;; (assert false (pr-str 'bind/inputs (aget inputs 0))) + )))) (defmacro |do [steps return] (assert (not= 0 (count steps)) "The steps can't be empty!") @@ -168,13 +171,13 @@ (case label :let `(|let ~computation ~inner) ;; else - ;; `(bind ~computation - ;; (fn [val#] - ;; (matchv ::M/objects [val#] - ;; [~label] - ;; ~inner))) `(bind ~computation - (fn [~label] ~inner)) + (fn [val#] + (matchv ::M/objects [val#] + [~label] + ~inner))) + ;; `(bind ~computation + ;; (fn [~label] ~inner)) )) return (reverse (partition 2 steps)))) @@ -375,12 +378,6 @@ (fold str "")) "}}")) -(defn if% [text-m then-m else-m] - (|do [? text-m] - (if ? - then-m - else-m))) - (defn apply% [monad call-state] (fn [state] ;; (prn 'apply-m monad call-state) @@ -726,3 +723,7 @@ [["lux;Meta" [_ ["lux;Form" ?elems]]]] (str "(" (->> ?elems (|map show-ast) (|interpose " ") (fold str "")) ")") )) + +(defn ident->text [ident] + (|let [[?module ?name] ident] + (str ?module ";" ?name))) diff --git a/src/lux/compiler/case.clj b/src/lux/compiler/case.clj index 7fd22dc59..0a24c5953 100644 --- a/src/lux/compiler/case.clj +++ b/src/lux/compiler/case.clj @@ -22,7 +22,7 @@ (defn ^:private compile-match [writer ?match $target $else] (prn 'compile-match (aget ?match 0) $target $else) (matchv ::M/objects [?match] - [["StoreTestAC" [?idx ?name ?value]]] + [["StoreTestAC" ?idx]] (doto writer (.visitVarInsn Opcodes/ASTORE ?idx) (.visitJumpInsn Opcodes/GOTO $target)) @@ -115,17 +115,15 @@ $value-else (new Label)])))) ))) -(defn ^:private separate-bodies [matches] - (prn 'separate-bodies (aget matches 0)) - (matchv ::M/objects [matches] - [["MatchAC" ?tests]] - (|let [[_ mappings patterns*] (&/fold (fn [$id+mappings+=matches pattern+body] - (|let [[$id mappings =matches] $id+mappings+=matches - [pattern body] pattern+body] - (&/T (inc $id) (&/|put $id body mappings) (&/|put $id pattern =matches)))) - (&/T 0 (&/|table) (&/|table)) - ?tests)] - (&/T mappings (&/|reverse patterns*))))) +(defn ^:private separate-bodies [patterns] + ;; (prn 'separate-bodies (aget matches 0)) + (|let [[_ mappings patterns*] (&/fold (fn [$id+mappings+=matches pattern+body] + (|let [[$id mappings =matches] $id+mappings+=matches + [pattern body] pattern+body] + (&/T (inc $id) (&/|put $id body mappings) (&/|put $id pattern =matches)))) + (&/T 0 (&/|table) (&/|table)) + patterns)] + (&/T mappings (&/|reverse patterns*)))) (let [ex-class (&host/->class "java.lang.IllegalStateException")] (defn ^:private compile-pattern-matching [writer compile mappings patterns $end] diff --git a/src/lux/compiler/lux.clj b/src/lux/compiler/lux.clj index a12c30531..2417a0459 100644 --- a/src/lux/compiler/lux.clj +++ b/src/lux/compiler/lux.clj @@ -146,12 +146,12 @@ (doto (.visitEnd))))] ;; :let [_ (prn 'compile-def/pre-body)] _ (&/with-writer (.visitMethod =class Opcodes/ACC_PUBLIC "<clinit>" "()V" nil nil) - (|do [*writer* &/get-writer - :let [_ (.visitCode *writer*)] + (|do [**writer** &/get-writer + :let [_ (.visitCode **writer**)] ;; :let [_ (prn 'compile-def/pre-body2)] _ (compile ?body) ;; :let [_ (prn 'compile-def/post-body2)] - :let [_ (doto *writer* + :let [_ (doto **writer** (.visitFieldInsn Opcodes/PUTSTATIC current-class "_datum" datum-sig) (.visitInsn Opcodes/RETURN) (.visitMaxs 0 0) diff --git a/src/lux/type.clj b/src/lux/type.clj index 4eeea30aa..b17079bcc 100644 --- a/src/lux/type.clj +++ b/src/lux/type.clj @@ -84,16 +84,17 @@ (fail* (str "[Type Error] Unknown type-var: " id))))) ;; [Exports] -(def create-var +;; Type vars +(def ^:private create-var (fn [state] (let [id (->> state (&/get$ "lux;types") (&/get$ "lux;counter"))] (return* (&/update$ "lux;types" #(->> % (&/update$ "lux;counter" inc) (&/update$ "lux;mappings" (fn [ms] (&/|put id (&/V "lux;None" nil) ms)))) state) - (&/V "lux;VarT" id))))) + id)))) -(defn delete-var [id] +(defn ^:private delete-var [id] (fn [state] (prn 'delete-var id) (if-let [tvar (->> state (&/get$ "lux;types") (&/get$ "lux;mappings") (&/|get id))] @@ -103,69 +104,73 @@ nil) (fail* (str "[Type Error] Unknown type-var: " id))))) -(defn var-id [type] - (matchv ::M/objects [type] - [["lux;VarT" ?id]] - (return ?id) - - [_] - (fail (str "[Type Error] Not type-var: " (show-type type))))) - -(defn clean [?tid type] +(defn with-var [k] + (|do [id create-var + output (k (&/V "lux;VarT" id)) + _ (delete-var id)] + (return output))) + +(defn with-vars [amount k] + (|do [=vars (&/map% (constantly create-var) (&/|range amount)) + output (k (&/|map #(&/V "lux;VarT" %) =vars)) + _ (&/map% delete-var (&/|reverse =vars))] + (return output))) + +(defn ^:private clean* [?tid type] (matchv ::M/objects [type] [["lux;VarT" ?id]] (if (= ?tid ?id) (|do [=type (deref ?id)] - (clean ?tid =type)) + (clean* ?tid =type)) (return type)) [["lux;LambdaT" [?arg ?return]]] - (|do [=arg (clean ?tid ?arg) - =return (clean ?tid ?return)] + (|do [=arg (clean* ?tid ?arg) + =return (clean* ?tid ?return)] (return (&/V "lux;LambdaT" (&/T =arg =return)))) [["lux;AppT" [?lambda ?param]]] - (|do [=lambda (clean ?tid ?lambda) - =param (clean ?tid ?param)] + (|do [=lambda (clean* ?tid ?lambda) + =param (clean* ?tid ?param)] (return (&/V "lux;AppT" (&/T =lambda =param)))) [["lux;TupleT" ?members]] - (|do [=members (&/map% (partial clean ?tid) ?members)] + (|do [=members (&/map% (partial clean* ?tid) ?members)] (return (&/V "lux;TupleT" =members))) [["lux;VariantT" ?members]] (|do [=members (&/map% (fn [[k v]] - (|do [=v (clean ?tid v)] + (|do [=v (clean* ?tid v)] (return (&/T k =v)))) ?members)] (return (&/V "lux;VariantT" =members))) [["lux;RecordT" ?members]] (|do [=members (&/map% (fn [[k v]] - (|do [=v (clean ?tid v)] + (|do [=v (clean* ?tid v)] (return (&/T k =v)))) ?members)] (return (&/V "lux;RecordT" =members))) [["lux;AllT" [?env ?name ?arg ?body]]] (|do [=env (&/map% (fn [[k v]] - (|do [=v (clean ?tid v)] + (|do [=v (clean* ?tid v)] (return (&/T k =v)))) ?env) - body* (clean ?tid ?body)] + body* (clean* ?tid ?body)] (return (&/V "lux;AllT" (&/T =env ?name ?arg body*)))) [_] (return type) )) -(defn with-var [k] - (|do [=var create-var - id (var-id =var) - type (k =var)] - (|do [type* (clean id type) - _ (delete-var id)] - (return type*)))) +(defn clean [tvar type] + (matchv ::M/objects [tvar] + [["lux;VarT" ?id]] + (clean* ?id type) + + [_] + (fail (str "[Type Error] Not type-var: " (show-type tvar))))) (defn show-type [type] ;; (prn 'show-type (aget type 0)) @@ -435,6 +440,26 @@ [_ ["lux;AppT" [F A]]] (|do [actual* (apply-type F A)] (check* fixpoints expected actual*)) + ;; (let [fp-pair (&/T expected actual) + ;; _ (prn 'RIGHT_APP (&/|length fixpoints)) + ;; _ (when (> (&/|length fixpoints) 10) + ;; (println 'FIXPOINTS (->> (&/|keys fixpoints) + ;; (&/|map (fn [pair] + ;; (|let [[e a] pair] + ;; (str (show-type e) ":+:" + ;; (show-type a))))) + ;; (&/|interpose "\n\n") + ;; (&/fold str ""))) + ;; (assert false))] + ;; (matchv ::M/objects [(fp-get fp-pair fixpoints)] + ;; [["lux;Some" ?]] + ;; (if ? + ;; (return (&/T fixpoints nil)) + ;; (fail (check-error expected actual))) + + ;; [["lux;None" _]] + ;; (|do [actual* (apply-type F A)] + ;; (check* (fp-put fp-pair true fixpoints) expected actual*)))) [["lux;AllT" _] _] (with-var @@ -470,23 +495,23 @@ [["lux;TupleT" e!members] ["lux;TupleT" a!members]] (do ;; (do (prn 'e!members (&/|length e!members)) ;; (prn 'a!members (&/|length a!members))) - (if (= (&/|length e!members) (&/|length a!members)) - (|do [fixpoints* (&/fold% (fn [fixp ea] - (|let [[e a] ea] - (do ;; (prn "lux;TupleT" 'ITER (show-type e) (show-type a)) - (|do [[fixp* _] (check* fixp e a)] - (return fixp*))))) - fixpoints - (&/zip2 e!members a!members)) - ;; :let [_ (prn "lux;TupleT" 'DONE)] - ] - (return (&/T fixpoints* nil))) - (do ;; (prn "lux;TupleT" (&/|length e!members) (&/|length a!members)) - ;; (prn "lux;TupleT" - ;; (&/fold str "" (&/|interpose " " (&/|map show-type e!members))) - ;; (&/fold str "" (&/|interpose " " (&/|map show-type a!members)))) - ;; (prn "lux;TupleT#fail" (fail "[Type Error] Tuples don't match in size.")) - (fail "[Type Error] Tuples don't match in size.")))) + (if (= (&/|length e!members) (&/|length a!members)) + (|do [fixpoints* (&/fold% (fn [fixp ea] + (|let [[e a] ea] + (do ;; (prn "lux;TupleT" 'ITER (show-type e) (show-type a)) + (|do [[fixp* _] (check* fixp e a)] + (return fixp*))))) + fixpoints + (&/zip2 e!members a!members)) + ;; :let [_ (prn "lux;TupleT" 'DONE)] + ] + (return (&/T fixpoints* nil))) + (do ;; (prn "lux;TupleT" (&/|length e!members) (&/|length a!members)) + ;; (prn "lux;TupleT" + ;; (&/fold str "" (&/|interpose " " (&/|map show-type e!members))) + ;; (&/fold str "" (&/|interpose " " (&/|map show-type a!members)))) + ;; (prn "lux;TupleT#fail" (fail "[Type Error] Tuples don't match in size.")) + (fail "[Type Error] Tuples don't match in size.")))) [["lux;VariantT" e!cases] ["lux;VariantT" a!cases]] (if (= (&/|length e!cases) (&/|length a!cases)) @@ -519,16 +544,7 @@ (fail "[Type Error] Records don't match in size.")) [_ _] - (do (prn (show-type expected) (show-type actual)) - (assert false)) - - ;; [["lux;BoundT" name] _] - ;; (do (prn "lux;BoundT" name) - ;; (assert false)) - ;; ... - - ;; [_ ["lux;BoundT" name]] - ;; ... + (fail (println-str "[Type Error] Can't type-check: " (show-type expected) (show-type actual))) )) (defn check [expected actual] @@ -543,9 +559,10 @@ [["lux;AllT" [local-env local-name local-arg local-def]]] (with-var - (fn [$arg] - (|do [func* (apply-type func $arg)] - (apply-lambda func* param)))) + (fn [$var] + (|do [func* (apply-type func $var) + =return (apply-lambda func* param)] + (clean $var =return)))) [_] (fail (str "[Type System] Can't apply type " (show-type func) " to type " (show-type param))) @@ -560,3 +577,13 @@ [_] (return type) )) + +(defn variant-case [case type] + (matchv ::M/objects [type] + [["lux;VariantT" ?cases]] + (if-let [case-type (&/|get case ?cases)] + (return case-type) + (fail (str "[Type Error] Variant lacks case: " case))) + + [_] + (fail (str "[Type Error] Type is not a variant: " (show-type type))))) |