aboutsummaryrefslogtreecommitdiff
path: root/src/lux/analyser/lux.clj
blob: c821a085d61dda00810f8943f5e122b9b7b4f375 (plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
(ns lux.analyser.lux
  (:require (clojure [template :refer [do-template]])
            [clojure.core.match :refer [match]]
            (lux [base :as & :refer [exec return fail
                                     if-m try-all-m map-m mapcat-m reduce-m
                                     assert!]]
                 [parser :as &parser]
                 [type :as &type]
                 [macro :as &macro]
                 [host :as &host])
            (lux.analyser [base :as &&]
                          [lambda :as &&lambda]
                          [case :as &&case]
                          [env :as &&env]
                          [def :as &&def])))

;; [Resources]
(defn analyse-tuple [analyse ?elems]
  (exec [=elems (mapcat-m analyse ?elems)
         =elems-types (map-m &&/expr-type =elems)
         ;; :let [_ (prn 'analyse-tuple =elems)]
         ]
    (return (list [::&&/Expression [::&&/tuple =elems] [::&type/Tuple =elems-types]]))))

(defn analyse-ident [analyse ident]
  (fn [state]
    (let [[top & stack*] (::&/local-envs state)]
      (if-let [=bound (or (get-in top [:locals  :mappings ident])
                          (get-in top [:closure :mappings ident]))]
        [::&/ok [state (list =bound)]]
        (let [no-binding? #(and (-> % :locals  :mappings (contains? ident) not)
                                (-> % :closure :mappings (contains? ident) not))
              [inner outer] (split-with no-binding? stack*)]
          (if (empty? outer)
            (if-let [global (get-in state [::&/global-env ident])]
              [::&/ok [state (list global)]]
              [::&/failure (str "[Analyser Error] Unresolved identifier: " ident)])
            (let [[=local inner*] (reduce (fn [[register new-inner] frame]
                                            (let [[register* frame*] (&&lambda/close-over (:name frame) ident register frame)]
                                              [register* (cons frame* new-inner)]))
                                          [(or (get-in (first outer) [:locals  :mappings ident])
                                               (get-in (first outer) [:closure :mappings ident]))
                                           '()]
                                          (reverse (cons top inner)))]
              [::&/ok [(assoc state ::&/local-envs (concat inner* outer)) (list =local)]])
            ))
        ))
    ))

(defn analyse-call [analyse ?fn ?args]
  (exec [=fn (&&/analyse-1 analyse ?fn)
         loader &/loader]
    (match =fn
      [::&&/Expression =fn-form =fn-type]
      (match =fn-form
        [::&&/global ?module ?name]
        (exec [macro? (&&def/macro? ?module ?name)]
          (if macro?
            (let [macro-class (&host/location (list ?name ?module))
                  [macro-expansion state*] (&macro/expand loader macro-class ?args)]
              (mapcat-m analyse macro-expansion))
            (exec [=args (mapcat-m analyse ?args)
                   :let [[needs-num =return-type] (match =fn-type
                                                    [::&type/function ?fargs ?freturn]
                                                    (let [needs-num (count ?fargs)
                                                          provides-num (count =args)]
                                                      (if (> needs-num provides-num)
                                                        [needs-num [::&type/function (drop provides-num ?fargs) ?freturn]]
                                                        [needs-num &type/+dont-care-type+])))]]
              (return (list [::&&/Expression [::&&/static-call needs-num =fn =args] =return-type])))))

        _
        (exec [=args (mapcat-m analyse ?args)]
          (return (list [::&&/Expression [::&&/call =fn =args] &type/+dont-care-type+]))))

      :else
      (fail "Can't call something without a type."))
    ))

(defn analyse-case [analyse ?variant ?branches]
  (exec [=variant (&&/analyse-1 analyse ?variant)
         _ (assert! (and (> (count ?branches) 0) (even? (count ?branches)))
                    "Unbalanced branches in \"case'\" expression.")
         :let [branches (partition 2 ?branches)
               locals-per-branch (map &&case/locals (map first branches))
               max-locals (reduce max 0 (map count locals-per-branch))]
         base-register &&env/next-local-idx
         =bodies (map-m (partial &&case/analyse-branch analyse max-locals)
                        (map vector locals-per-branch (map second branches)))
         :let [_ (prn 'analyse-case/=bodies =bodies)]
         =body-types (map-m &&/expr-type =bodies)
         =case-type (reduce-m &type/merge [::&type/Nothing] =body-types)
         :let [=branches (map vector (map first branches) =bodies)]]
    (return (list [::&&/Expression [::&&/case =variant base-register max-locals =branches] =case-type]))))

(defn analyse-lambda [analyse ?self ?arg ?body]
  (exec [[_ =arg =return :as =lambda-type] &type/fresh-function
         [=scope =captured =body] (&&lambda/with-lambda ?self =lambda-type
                                    ?arg =arg
                                    (&&/analyse-1 analyse ?body))
         =body-type (&&/expr-type =body)
         =lambda-type (exec [_ (&type/solve =return =body-type)]
                   (&type/clean =lambda-type))
         :let [=lambda-form (match =body
                         [::&&/Expression [::&&/lambda ?sub-scope ?sub-captured ?sub-args ?sub-body] _]
                         [::&&/lambda =scope =captured (cons ?arg ?sub-args) (&&lambda/raise-expr ?arg ?sub-body)]

                         _
                         [::&&/lambda =scope =captured (list ?arg) =body])]]
    (return (list [::&&/Expression =lambda-form =lambda-type]))))

(defn analyse-def [analyse ?name ?value]
  ;; (prn 'analyse-def ?name ?value)
  (exec [module-name &/get-module-name]
    (if-m (&&def/defined? module-name ?name)
          (fail (str "Can't redefine " ?name))
          (exec [=value (&&/analyse-1 analyse ?value)
                 =value (match =value
                          [::&&/Expression =value-form =value-type]
                          (return (match =value-form
                                    [::&&/lambda ?old-scope ?env ?args ?body]
                                    [::&&/Expression [::&&/lambda (list module-name ?name) ?env ?args ?body] =value-type]
                                    
                                    _
                                    =value))

                          _
                          (fail ""))
                 =value-type (&&/expr-type =value)
                 _ (if-m (&&def/annotated? module-name ?name)
                         (return nil)
                         (&&def/annotate module-name ?name :public =value-type))
                 _ (&&def/define module-name ?name)]
            (return (list [::&&/Statement [::&&/def ?name =value]]))))))

(defn analyse-declare-macro [?ident]
  (exec [_ (&&def/annotate ?ident :public [::&type/Any])]
    (return (list))))

(defn analyse-require [analyse ?path]
  (assert false)
  (return (list)))