(ns lux.analyser.lux (:require (clojure [template :refer [do-template]]) [clojure.core.match :as M :refer [matchv]] clojure.core.match.array (lux [base :as & :refer [|do return return* fail fail* |let |list]] [parser :as &parser] [type :as &type] [macro :as ¯o] [host :as &host]) (lux.analyser [base :as &&] [lambda :as &&lambda] [case :as &&case] [env :as &&env] [def :as &&def]))) (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 ^^") ;; (prn 'analyse-tuple (str "[" (->> ?elems (&/|map &/show-ast) (&/|interpose " ") (&/fold str "")) "]") ;; (&type/show-type exo-type)) (matchv ::M/objects [exo-type] [["lux;TupleT" ?members]] (|do [=elems (&/map% (fn [ve] (|let [[elem-t elem] ve] (&&/analyse-1 analyse elem-t elem))) (&/zip2 ?members ?elems))] (return (&/|list (&/V "Expression" (&/T (&/V "tuple" =elems) exo-type))))) [_] (fail "[Analyser Error] Tuples require tuple-types."))) (defn analyse-variant [analyse exo-type ident ?value] ;; (prn "^^ analyse-variant ^^") (|do [;; :let [_ (prn 'analyse-variant/exo-type (&type/show-type exo-type))] ?tag (&&/resolved-ident ident) exo-type* (matchv ::M/objects [exo-type] [["lux;VarT" ?id]] (&/try-all% (&/|list (|do [exo-type* (&type/deref ?id)] (&type/actual-type exo-type*)) (|do [_ (&type/set-var ?id &type/Type)] (&type/actual-type &type/Type)))) [_] (&type/actual-type exo-type)) ;; :let [_ (prn 'analyse-variant/exo-type* (&type/show-type exo-type*))] ] (matchv ::M/objects [exo-type*] [["lux;VariantT" ?cases]] (if-let [vtype (&/|get ?tag ?cases)] (|do [;; :let [_ (prn 'VARIANT_BODY ?tag (&/show-ast ?value) (&type/show-type vtype))] =value (&&/analyse-1 analyse vtype ?value) ;; :let [_ (prn 'GOT_VALUE =value)] ] (return (&/|list (&/V "Expression" (&/T (&/V "variant" (&/T ?tag =value)) exo-type))))) (fail (str "[Analyser Error] There is no case " ?tag " for variant type " (&type/show-type exo-type*)))) [_] (fail (str "[Analyser Error] Can't create a variant if the expected type is " (&type/show-type exo-type*)))))) (defn analyse-record [analyse exo-type ?elems] (|do [=elems (&/map% (fn [kv] (matchv ::M/objects [kv] [[k v]] (|do [=v (&&/analyse-1 analyse v)] (return (to-array [k =v]))))) ?elems) =elems-types (&/map% (fn [kv] (matchv ::M/objects [kv] [[k v]] (|do [module (if (= "" k) &/get-module-name (return k)) =v (&&/expr-type v)] (return (to-array [module =v]))))) =elems) ;; :let [_ (prn 'analyse-tuple =elems)] ] (return (&/|list (&/V "Expression" (&/T (&/V "lux;record" =elems) (&/V "lux;RecordT" =elems-types))))))) (defn ^:private show-frame [frame] (str "{{" (->> frame (&/get$ "lux;locals") (&/get$ "lux;mappings") &/|keys &/->seq (interpose " ") (reduce str "")) "}}")) (defn ^:private type-test [exo-type binding] (|do [btype (&&/expr-type binding) o?? (&type/is-Type? exo-type)] (if o?? (|do [i?? (&type/is-Type? btype)] (if i?? (do ;; (println "FOUND TWO TYPES!") (return (&/|list binding))) (fail "[Type Error] Types don't match."))) (|do [_ (&type/check exo-type btype)] (return (&/|list binding)))))) (defn analyse-symbol [analyse exo-type ident] (|do [module-name &/get-module-name] (fn [state] (|let [[?module ?name] ident local-ident (str ?module ";" ?name) global-ident (str (if (= "" ?module) module-name ?module) ";" ?name) stack (&/get$ "lux;local-envs" state) no-binding? #(and (->> % (&/get$ "lux;locals") (&/get$ "lux;mappings") (&/|contains? local-ident) not) (->> % (&/get$ "lux;closure") (&/get$ "lux;mappings") (&/|contains? local-ident) not)) [inner outer] (&/|split-with no-binding? stack)] (matchv ::M/objects [outer] [["lux;Nil" _]] (if-let [global (->> state (&/get$ "lux;global-env") &/from-some (&/get$ "lux;locals") (&/get$ "lux;mappings") (&/|get global-ident))] (&/run-state (type-test exo-type global) ;; (|do [btype (&&/expr-type global) ;; _ (&type/check exo-type btype)] ;; (return (&/|list global))) state) (do ;; (prn (str "((" (->> stack (&/|map show-frame) &/->seq (interpose " ") (reduce str "")) "))")) (fail* (str "[Analyser Error] Unrecognized identifier: " local-ident)))) [["lux;Cons" [top-outer _]]] (|let [scopes (&/|tail (&/folds #(&/|cons (&/get$ "lux;name" %2) %1) (&/|map #(&/get$ "lux;name" %) outer) (&/|reverse inner))) [=local inner*] (&/fold (fn [register+new-inner frame+in-scope] (|let [[register new-inner] register+new-inner [frame in-scope] frame+in-scope [register* frame*] (&&lambda/close-over (&/|cons module-name (&/|reverse in-scope)) ident register frame)] (&/T register* (&/|cons frame* new-inner)))) (&/T (or (->> top-outer (&/get$ "lux;locals") (&/get$ "lux;mappings") (&/|get local-ident)) (->> top-outer (&/get$ "lux;closure") (&/get$ "lux;mappings") (&/|get local-ident))) (&/|list)) (&/zip2 (&/|reverse inner) scopes))] (&/run-state (type-test exo-type =local) ;; (|do [btype (&&/expr-type =local) ;; _ (&type/check exo-type btype)] ;; (return (&/|list =local))) (&/set$ "lux;local-envs" (&/|++ inner* outer) state))) ))) )) (defn ^:private analyse-apply* [analyse exo-type =fn ?args] ;; (prn 'analyse-apply* (&/->seq (&/|map &/show-ast ?args))) ;; (prn 'analyse-apply*/exo-type (&type/show-type exo-type)) (matchv ::M/objects [=fn] [["Statement" _]] (fail "[Analyser Error] Can't apply a statement!") [["Expression" [?fun-expr ?fun-type]]] (matchv ::M/objects [?args] [["lux;Nil" _]] (|do [_ (&type/check exo-type ?fun-type)] (return (&/|list =fn))) [["lux;Cons" [?arg ?args*]]] (do ;; (prn 'analyse-apply*/=fn (&type/show-type ?fun-type)) (matchv ::M/objects [?fun-type] [["lux;AllT" _]] (&type/with-var (fn [$var] (|do [type* (&type/apply-type ?fun-type $var) output (analyse-apply* analyse exo-type (&/V "Expression" (&/T ?fun-expr type*)) ?args)] (matchv ::M/objects [output] [["lux;Cons" [["Expression" [?expr* ?type*]] ["lux;Nil" _]]]] (|do [type** (&type/clean $var ?type*)] (return (&/|list (&/V "Expression" (&/T ?expr* type**))))) [_] (assert false (prn-str 'analyse-apply*/output (aget output 0))))))) [["lux;LambdaT" [?input-t ?output-t]]] ;; (|do [=arg (&&/analyse-1 analyse ?input-t ?arg)] ;; (return (&/|list (&/V "Expression" (&/T (&/V "apply" (&/T =fn =arg)) ;; ?output-t))))) (|do [=arg (&&/analyse-1 analyse ?input-t ?arg)] (analyse-apply* analyse exo-type (&/V "Expression" (&/T (&/V "apply" (&/T =fn =arg)) ?output-t)) ?args*)) [_] (fail "[Analyser Error] Can't apply a non-function."))) ))) (defn analyse-apply [analyse exo-type =fn ?args] ;; (prn 'analyse-apply1 (aget =fn 0)) (|do [loader &/loader] (matchv ::M/objects [=fn] [["Expression" [=fn-form =fn-type]]] (do ;; (prn 'analyse-apply2 (aget =fn-form 0)) (matchv ::M/objects [=fn-form] [["global" [?module ?name]]] (|do [macro? (&&def/macro? ?module ?name)] (if macro? (let [macro-class (&host/location (&/|list ?module ?name))] (|do [macro-expansion (¯o/expand loader macro-class ?args) ;; :let [_ (when (and (= "lux" ?module) ;; (= "`" ?name)) ;; (prn 'macro-expansion (->> macro-expansion (&/|map &/show-ast) (&/|interpose " ") (&/fold str ""))))] ;; :let [_ (prn 'EXPANDING (&type/show-type exo-type))] output (&/flat-map% (partial analyse exo-type) macro-expansion)] (return output))) (analyse-apply* analyse exo-type =fn ?args))) [_] (analyse-apply* analyse exo-type =fn ?args))) [_] (fail "[Analyser Error] Can't call a statement!")) )) (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) =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)) exo-type)))))) (defn analyse-lambda* [analyse exo-type ?self ?arg ?body] ;; (prn 'analyse-lambda ?self ?arg ?body) (matchv ::M/objects [exo-type] [["lux;LambdaT" [?arg-t ?return-t]]] (|do [[=scope =captured =body] (&&lambda/with-lambda ?self exo-type ?arg ?arg-t (&&/analyse-1 analyse ?return-t ?body))] (return (&/V "Expression" (&/T (&/V "lambda" (&/T =scope =captured =body)) exo-type)))) [_] (fail (str "[Analyser Error] Functions require function types: " (&type/show-type exo-type))))) (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 $var) output (analyse-lambda** analyse exo-type* ?self ?arg ?body)] (matchv ::M/objects [$var] [["lux;VarT" ?id]] (|do [? (&type/bound? ?id)] (if ? (fail "[Analyser Error] Can't use type-var in any type-specific way inside polymorphic functions.") (return output))))))) [_] (analyse-lambda* analyse exo-type ?self ?arg ?body))) (defn 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 ?name ?value] (prn 'analyse-def/CODE ?name (&/show-ast ?value)) (|do [module-name &/get-module-name ? (&&def/defined? module-name ?name)] (if ? (fail (str "[Analyser Error] Can't redefine " ?name)) (|do [;; :let [_ (prn 'analyse-def/_0)] =value (&/with-scope ?name (analyse-1+ analyse ?value)) ;; :let [_ (prn 'analyse-def/_1)] =value-type (&&/expr-type =value) ;; :let [_ (prn 'analyse-def/_2)] :let [_ (prn 'analyse-def/TYPE ?name (&type/show-type =value-type)) _ (println)] _ (&&def/define module-name ?name =value-type) ;; :let [_ (prn 'analyse-def/_3)] ] (return (&/|list (&/V "Statement" (&/V "def" (&/T ?name =value))))))))) (defn analyse-declare-macro [ident] (|do [current-module &/get-module-name ;; :let [_ (prn 'analyse-declare-macro/current-module current-module)] [?module ?name] (&&/resolved-ident* ident) ;; :let [_ (prn 'analyse-declare-macro '[?module ?name] [?module ?name])] ] (if (= ?module current-module) (|do [_ (&&def/declare-macro ?module ?name)] (return (&/|list))) (fail "Can't declare macros from foreign modules.")))) (defn analyse-import [analyse exo-type ?path] (return (&/|list))) (defn analyse-export [analyse ?ident] (return (&/|list))) (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) ;; :let [_ (println "analyse-check#1")] ==type (eval! =type) _ (&type/check exo-type ==type) ;; :let [_ (println "analyse-check#4" (&type/show-type ==type))] =value (&&/analyse-1 analyse ==type ?value) ;; :let [_ (println "analyse-check#5")] ] (matchv ::M/objects [=value] [["Expression" [?expr ?expr-type]]] (return (&/|list (&/V "Expression" (&/T ?expr ==type))))))) (defn analyse-coerce [analyse eval! exo-type ?type ?value] (|do [=type (&&/analyse-1 analyse &type/Type ?type) ==type (eval! =type) =value (&&/analyse-1 analyse ==type ?value)] (matchv ::M/objects [=value] [["Expression" [?expr ?expr-type]]] (return (&/|list (&/V "Expression" (&/T ?expr ==type)))))))