(module type-equal-unit mzscheme
(require
"signatures.ss"
"type-def-structs.ss"
"effect-structs.ss"
"planet-requires.ss"
(lib "unit.ss")
(lib "match.ss")
(lib "67.ss" "srfi"))
(provide (all-defined))
(require-libs)
(define-unit type-equal@
(import type-structs^ subst^ effect-structs^)
(export type-equal^)
(define (rename a b)
(match* (a b)
[($ poly vs1 b1) ($ poly vs2 b2) (let ([vs* (map (lambda (v) (make-tvar (gensym v))) vs1)])
(list (subst-all (map list vs1 vs*) b1)
(subst-all (map list vs2 vs*) b2)))]
[($ mu v1 b1) ($ mu v2 b2) (let ([v* (make-tvar (gensym v1))])
(list (subst v1 v* b1)
(subst v2 v* b2)))]))
(define (poly-equal? comp? p1 p2)
(match (list p1 p2)
[(($ poly v1 b1) ($ poly v2 b2))
(and (= (length v1) (length v2))
(apply comp? (rename p1 p2)))]))
(define (mu-equal? comp? m1 m2)
(match (list m1 m2)
[(($ mu v1 b1) ($ mu v2 b2))
(apply comp? (rename m1 m2))]))
(define type-equal-rules
(add-equiv-rule
mu? mu-equal?
(add-equiv-rule
poly? poly-equal?
(add-equiv-rule/leaf set:set? set:equal? default-equiv-rules))))
(define tc-result-equal-rules
(add-equiv-rule/leaf
identifier? (lambda (a b) (eq? (syntax-e a) (syntax-e b)))
type-equal-rules))
(define type-equal? (make-equiv type-equal-rules))
(define tc-result-equal? (make-equiv tc-result-equal-rules))
(current-equiv-rules type-equal-rules)
(define-syntax match*
(syntax-rules ()
[(match* (vars ...) [pats ... expr] ...)
(match (list vars ...)
[(pats ...) expr] ...)]))
(define (effect-compare s t)
(select-compare
s t
[true-effect? 0]
[false-effect? 0]
[latent-var-true-effect? 0]
[latent-var-false-effect? 0]
[restrict-effect? (type-compare (restrict-effect-t s) (restrict-effect-t t))
(symbol-compare (syntax-e (restrict-effect-v s) (restrict-effect-v t)))]
[remove-effect? (type-compare (remove-effect-t s) (remove-effect-t t))
(symbol-compare (syntax-e (remove-effect-v s) (remove-effect-v t)))]
[latent-restrict-effect? (type-compare (restrict-effect-t s) (restrict-effect-t t))]
[latent-remove-effect? (type-compare (remove-effect-t s) (remove-effect-t t))]
[var-true-effect? (symbol-compare (syntax-e (var-true-effect-v s) (var-true-effect-v t)))]
[var-false-effect? (symbol-compare (syntax-e (var-false-effect-v s) (var-false-effect-v t)))]
))
(define (type-compare s t)
(define (arr-ty-compare s t)
(match (list s t)
[(($ arr dom1 rng1 rest1 thn-eff1 els-eff1) ($ arr dom2 rng2 rest2 thn-eff2 els-eff2))
(refine-compare
(list-compare type-compare dom1 dom2)
(type-compare rest1 rest2)
(type-compare rng1 rng2)
(list-compare effect-compare thn-eff1 thn-eff2)
(list-compare effect-compare els-eff1 els-eff2))]))
(define (union-elems/in-order s) (set:elements (union-elems s)))
(select-compare
s t
[dynamic? 0]
[univ? 0]
[tvar? (symbol-compare (tvar-name s) (tvar-name t))]
[base-type? (symbol-compare (base-type-name s) (base-type-name t))]
[value? (default-compare (value-v s) (value-v t))]
[poly? (apply type-compare (rename s t))]
[mu? (apply type-compare (rename s t))]
[values-ty? (list-compare type-compare (values-ty-types s) (values-ty-types t))]
[funty? (list-compare arr-ty-compare (funty-arities s) (funty-arities t))]
[pair-ty? (type-compare (pair-ty-car s) (pair-ty-car t))
(type-compare (pair-ty-cdr s) (pair-ty-cdr t))]
[vec? (type-compare (vec-elem s) (vec-elem t))]
[pred-ty? (type-compare (pred-ty-type s) (pred-ty-type t))]
[struct-ty? (symbol-compare (struct-ty-name s) (struct-ty-name t))
(type-compare (struct-ty-parent s) (struct-ty-parent t))
(list-compare type-compare (struct-ty-flds s) (struct-ty-flds t))]
[union? (list-compare type-compare
(union-elems/in-order s)
(union-elems/in-order t))]
))
(define (type<? a b)
(<? type-compare a b))
)
)