diff options
author | JJ | 2024-10-24 00:26:11 +0000 |
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committer | JJ | 2024-10-24 00:51:25 +0000 |
commit | 7e2cb02cb9e846b9502de7f677e69ebcc710cdce (patch) | |
tree | 28f0437766b404c246422d8d188db6021a16474b /stlc-hor.rkt | |
parent | 9b1389448b5e29e2baa8a48e5e9c4b24bae207c9 (diff) |
refactor all implementations to use contracts
Diffstat (limited to 'stlc-hor.rkt')
-rw-r--r-- | stlc-hor.rkt | 154 |
1 files changed, 154 insertions, 0 deletions
diff --git a/stlc-hor.rkt b/stlc-hor.rkt new file mode 100644 index 0000000..ad568c9 --- /dev/null +++ b/stlc-hor.rkt @@ -0,0 +1,154 @@ +#lang racket +(require "lib.rkt") +(require "base.rkt") +(provide (all-defined-out)) + +;; The Simply-Typed Lambda Calculus with higher-order references + +;; Whether the system is *predicative* or *impredicative*. +;; The predicative system disallows quantification over references. +;; The impredicative system allows so by tweaking level rules. +(define impredicative? #f) + +;; Checks an expression for syntactic well-formedness. +(define (stlc-hor/expr? expr) + (match expr + [x #:when (symbol? x) #t] + [n #:when (natural? n) #t] + [(or `(new ,e) `(! ,e)) (stlc-hor/expr? e)] + [(or `(set ,e1 ,e2) `(,e1 ,e2)) (and (stlc-hor/expr? e1) (stlc-hor/expr? e2))] + [`(λ (,x : ,t) ,e) (and (symbol? x) (stlc-hor/type? t) (stlc-hor/expr? e))] + [_ #f])) + +;; Checks a type for syntactic well-formedness. +(define (stlc-hor/type? type) + (match type + [t #:when (symbol? t) #t] + [`(,t1 → ,k ,t2) (and (natural? k) (stlc-hor/type? t1) (stlc-hor/type? t2))] + [_ #f])) + +;; Checks a value for syntactic well-formedness. +(define (stlc-hor/value? value) + (match value + [x #:when (symbol? x) #t] + [n #:when (natural? n) #t] + [`(,v1 ,v2) (and (stlc-hor/value? v1) (stlc-hor/value? v2))] + [`(λ ,x ,e ,env) (and (symbol? x) (stlc-hor/expr? e) (dict? env))] + [_ #f])) + +;; Interprets an expression down to a value, in a given context. +(define (interpret expr) + (interpret/core (desugar expr) #hash() (make-hash))) +(define/contract (interpret/core expr Γ Σ) + (-> stlc-hor/expr? dict? dict? stlc-hor/value?) + (match expr + [r #:when (dict-has-key? Σ r) r] + [x #:when (dict-has-key? Γ x) (dict-ref Γ x)] + [f #:when (symbol? f) f] + + [`(new ,e) + (let ([r (gensym)]) + (dict-set! Σ r e) r)] + [`(! ,e) + (let ([r (interpret/core e Γ Σ)]) + (if (dict-has-key? Σ r) + (interpret/core (dict-ref Σ r) Γ Σ) + (err (format "attempting to deref unknown reference ~a" r))))] + [`(set ,e1 ,e2) + (let ([r (interpret/core e1 Γ Σ)]) + (if (dict-has-key? Σ r) (dict-set! Σ r (interpret/core e2 Γ Σ)) + (err (format "attempting to update unknown reference ~a" r)))) + 'sole] + + [`(λ ,x ,e) `(λ ,x ,e ,Γ)] + [`(,e1 ,e2) + (match (interpret/core e1 Γ Σ) + [`(λ ,x ,e1 ,env) + (interpret/core e1 (dict-set env x (interpret/core e2 Γ Σ)) Σ)] + [e1 (err (format "attempting to interpret arg ~a applied to unknown expression ~a" e2 e1))])])) + +;; Checks an expression against some type, in a given context. +(define (check expr with) + (check/core (desugar expr) with #hash())) +(define/contract (check/core expr with Γ) + (-> stlc-hor/expr? stlc-hor/type? dict? boolean?) + (match expr + [`(new ,e) + (match with + [`(Ref ,t) (check/core e t Γ)] + [_ #f])] + [`(! ,e) + (check/core e `(Ref ,with) Γ)] + + [`(λ (,x : ,t) ,e) + (match with + [`(,t1 → ,k ,t2) + (and (equal? t t1) (check/core e t2 (dict-set Γ x t)) + (if impredicative? + (> k (level-expr e (dict-set Γ x t1))) + (>= k (level-expr e (dict-set Γ x t1)))))] + [_ #f])] + + [_ (equal? (infer/core expr Γ) with)])) + +;; Infers a type from some expression, in a given context. +(define (infer expr) + (infer/core (desugar expr) #hash())) +(define/contract (infer/core expr Γ) + (-> stlc-hor/expr? dict? stlc-hor/type?) + (match expr + ['sole 'Unit] + [n #:when (natural? n) 'Nat] + [x #:when (dict-has-key? Γ x) (dict-ref Γ x)] + [f #:when (symbol? f) + (err (format "attempting to infer type of free variable ~a" f))] + + [`(new ,e) `(Ref ,(infer/core e Γ))] + [`(! ,e) + (match (infer/core e Γ) + [`(Ref ,t) t] + [t (err "attempting to deref term not of Ref type!")])] + [`(set ,e1 ,e2) + (match (infer/core e1 Γ) + [`(Ref ,t) + (if (check/core e2 t Γ) 'Unit + (err (format "attempting to update ~a: ~a with term ~a: ~a of differing type" + e1 t e2 (infer/core e2 Γ))))] + [t (err (format "attempting to update non-reference ~a: ~a" e1 t))])] + + [`(λ (,x : ,t1) ,e) + (let ([t2 (infer/core e (dict-set Γ x t1))] + [k (level-expr e (dict-set Γ x t1))]) + `(,t1 → ,(if impredicative? (+ k 1) k) ,t2))] + [`(,e1 ,e2) + (match (infer/core e1 Γ) + [`(,t1 → ,k ,t2) + (if (check/core e2 t1 Γ) t2 + (err (format "inferred argument type ~a does not match arg ~a of type ~a" + t1 e2 (infer/core e2 Γ))))] + [t (err (format "expected → type on application body, got ~a" t))])])) + +;; Get the level associated with a type. This is known at compile time. +(define/contract (level-type type) + (-> stlc-hor/type? natural?) + (match type + [(or 'Unit 'Nat) 0] + [`(Ref ,t) + (let ([k (level-type t)]) + (if (and impredicative? (zero? k)) 0 (+ 1 k)))] + [`(,t1 → ,k ,t2) + (if (and (>= k (level-type t1)) (>= k (level-type t2))) k + (err (format "annotated level ~a is less than inferred levels of ~a and ~a!" + k t1 t2)))] + [t (err (format "attempting to infer the level of unknown type ~a" t))])) + +;; Get the level of an arbitrary expression. This is not known until runtime. +(define/contract (level-expr expr Γ) + (-> stlc-hor/expr? dict? natural?) + (match expr + ['sole 0] + [n #:when (natural? n) 0] + [x #:when (dict-has-key? Γ x) (level-type (dict-ref Γ x))] + [(or `(new ,e) `(! ,e) `(λ (,_ : ,_) ,e)) (level-expr e Γ)] + [(or `(set ,e1 ,e2) `(,e1 ,e2)) (max (level-expr e1 Γ) (level-expr e2 Γ))] + [x #:when (symbol? x) 0])) ; local variables, not in Γ |