| #lang racket |
| |
| ;; a model of contracts in a call-by-value functional language |
| |
| (require redex "common.rkt") |
| |
| ;; ----------------------------------------------------------------------------- |
| ;; syntax |
| (define-language Lambda |
| (e ::= |
| x (lambda (x) e) (e e) |
| n (+ e e) |
| (if0 e e e) |
| (c · e x x) ;; monitor a contract |
| (blame x)) |
| (n ::= number) |
| (c ::= num? even? odd? pos? (c -> c)) |
| (x ::= variable-not-otherwise-mentioned)) |
| |
| ;; ----------------------------------------------------------------------------- |
| ;; examples |
| |
| (define a-module (term {(even? -> pos?) · (lambda (x) (+ x 1)) server client})) |
| (define p-good (term [,a-module 2])) |
| (define p-bad-server (term [,a-module -2])) |
| (define p-bad-client (term [,a-module 1])) |
| |
| (module+ test |
| (test-equal (redex-match? Lambda c (term (even? -> pos?))) #t) |
| (test-equal (redex-match? Lambda e p-good) #true) |
| (test-equal (redex-match? Lambda e |
| (term |
| {(even? -> pos?) · (lambda (x) (+ x 1)) |
| server |
| client})) #true) |
| |
| (test-equal (redex-match? Lambda e p-bad-server) #true) |
| (test-equal (redex-match? Lambda e p-bad-client) #true)) |
| |
| ;; ----------------------------------------------------------------------------- |
| ;; the standard reductions |
| |
| (define-extended-language Lambda-calculus Lambda |
| (v ::= n (lambda (x) e)) |
| (E ::= hole |
| (v ... E e ...) |
| (+ v ... E e ...) |
| (c · E x x))) |
| |
| (module+ test |
| (test-->> s-->c #:equiv =α/racket p-good 3) |
| (test-->> s-->c #:equiv =α/racket p-bad-client (term (blame client))) |
| (test-->> s-->c #:equiv =α/racket p-bad-server (term (blame server)))) |
| |
| (define s-->c |
| (reduction-relation |
| Lambda-calculus |
| (--> (in-hole E ((lambda (x) e) v)) (in-hole E (subst ([v x]) e)) βv) |
| (--> (in-hole E (+ n_1 n_2)) (in-hole E ,(+ (term n_1) (term n_2))) +) |
| (--> (in-hole E (if0 0 e_then e_else)) (in-hole E e_then) if0-true) |
| (--> (in-hole E (if0 v e_then e_else)) |
| (in-hole E e_then) |
| (where #false (zero? (term v))) |
| if0-false) |
| (--> (in-hole E (pos? · n x_s x_c)) |
| (in-hole E ,(c positive? (term n) (term x_s) (term x_c))) |
| pos) |
| (--> (in-hole E (even? · n x_s x_c)) |
| (in-hole E ,(c even? (term n) (term x_s) (term x_c))) |
| even) |
| (--> (in-hole E (odd? · n x_s x_c)) |
| (in-hole E ,(c odd? (term n) (term x_s) (term x_c))) |
| odd) |
| (--> (in-hole E (num? · n x_s x_c)) |
| (in-hole E 0) |
| num) |
| (--> (in-hole E ((c_1 -> c_2) · (lambda (x) e) x_s x_c)) |
| (in-hole E |
| (lambda (x) |
| (c_2 · ((lambda (x) e) (c_1 · x x_c x_s)) x_s x_c)))) |
| (--> (in-hole E (blame x)) |
| (blame x) |
| (where #false ,(equal? (term hole) (term E))) |
| blame))) |
| |
| (define (c pred? n server client) |
| (if (pred? n) n (term (blame ,server)))) |
| |
| #; |
| (module+ test |
| (traces -->βv p-bad-client)) |
| |
| ;; ----------------------------------------------------------------------------- |
| (module+ test |
| (test-results)) |
| |
| |
| |
| ;;; ------------------------------------------------------------ |
| ;;; common.rkt starts here |
| |
| #lang racket |
| |
| ;; basic definitions for the Redex Summer School 2015 |
| |
| (provide |
| ;; Language |
| Lambda |
| |
| ;; Any -> Boolean |
| ;; is the given value in the expression language? |
| lambda? |
| |
| ;; x (x ...) -> Boolean |
| ;; (in x (x_1 ...)) determines whether x occurs in x_1 ... |
| in |
| |
| ;; Any Any -> Boolean |
| ;; (=α/racket e_1 e_2) determines whether e_1 is α-equivalent to e_2 |
| ;; e_1, e_2 are in Lambda or extensions of Lambda that |
| ;; do not introduce binding constructs beyond lambda |
| =α/racket |
| |
| ;; ((Lambda x) ...) Lambda -> Lambda |
| ;; (subs ((e_1 x_1) ...) e) substitures e_1 for x_1 ... in e |
| ;; e_1, ... e are in Lambda or extensions of Lambda that |
| ;; do not introduce binding constructs beyond lambda |
| subst) |
| |
| ;; ----------------------------------------------------------------------------- |
| (require redex) |
| |
| (define-language Lambda |
| (e ::= |
| x |
| (lambda (x_!_ ...) e) |
| (e e ...)) |
| (x ::= variable-not-otherwise-mentioned)) |
| |
| (define lambda? (redex-match? Lambda e)) |
| |
| (module+ test |
| (define e1 (term y)) |
| (define e2 (term (lambda (y) y))) |
| (define e3 (term (lambda (x y) y))) |
| (define e4 (term (,e2 e3))) |
| |
| (test-equal (lambda? e1) #true) |
| (test-equal (lambda? e2) #true) |
| (test-equal (lambda? e3) #true) |
| (test-equal (lambda? e4) #true) |
| |
| (define eb1 (term (lambda (x x) y))) |
| (define eb2 (term (lambda (x y) 3))) |
| |
| (test-equal (lambda? eb1) #false) |
| (test-equal (lambda? eb2) #false)) |
| |
| ;; ----------------------------------------------------------------------------- |
| ;; (in x x_1 ...) is x a member of (x_1 ...)? |
| |
| (module+ test |
| (test-equal (term (in x (y z x y z))) #true) |
| (test-equal (term (in x ())) #false) |
| (test-equal (term (in x (y z w))) #false)) |
| |
| (define-metafunction Lambda |
| in : x (x ...) -> boolean |
| [(in x (x_1 ... x x_2 ...)) #true] |
| [(in x (x_1 ...)) #false]) |
| |
| ;; ----------------------------------------------------------------------------- |
| ;; (=α e_1 e_2) determines whether e_1 and e_2 are α equivalent |
| |
| (module+ test |
| (test-equal (term (=α (lambda (x) x) (lambda (y) y))) #true) |
| (test-equal (term (=α (lambda (x) (x 1)) (lambda (y) (y 1)))) #true) |
| (test-equal (term (=α (lambda (x) x) (lambda (y) z))) #false)) |
| |
| (define-metafunction Lambda |
| =α : any any -> boolean |
| [(=α any_1 any_2) ,(equal? (term (sd any_1)) (term (sd any_2)))]) |
| |
| ;; a Racket definition for use in Racket positions |
| (define (=α/racket x y) (term (=α ,x ,y))) |
| |
| ;; (sd e) computes the static distance version of e |
| (define-extended-language SD Lambda |
| (e ::= .... (K n)) |
| (n ::= natural)) |
| |
| (define SD? (redex-match? SD e)) |
| |
| (module+ test |
| (define sd1 (term (K 1))) |
| (define sd2 (term 1)) |
| |
| (test-equal (SD? sd1) #true)) |
| |
| (define-metafunction SD |
| sd : any -> any |
| [(sd any_1) (sd/a any_1 ())]) |
| |
| (module+ test |
| (test-equal (term (sd/a x ())) (term x)) |
| (test-equal (term (sd/a x ((y) (z) (x)))) (term (K 2 0))) |
| (test-equal (term (sd/a ((lambda (x) x) (lambda (y) y)) ())) |
| (term ((lambda () (K 0 0)) (lambda () (K 0 0))))) |
| (test-equal (term (sd/a (lambda (x) (x (lambda (y) y))) ())) |
| (term (lambda () ((K 0 0) (lambda () (K 0 0)))))) |
| (test-equal (term (sd/a (lambda (z x) (x (lambda (y) z))) ())) |
| (term (lambda () ((K 0 1) (lambda () (K 1 0))))))) |
| |
| (define-metafunction SD |
| sd/a : any ((x ...) ...) -> any |
| [(sd/a x ((x_1 ...) ... (x_0 ... x x_2 ...) (x_3 ...) ...)) |
| ;; bound variable |
| (K n_rib n_pos) |
| (where n_rib ,(length (term ((x_1 ...) ...)))) |
| (where n_pos ,(length (term (x_0 ...)))) |
| (where #false (in x (x_1 ... ...)))] |
| [(sd/a (lambda (x ...) any_1) (any_rest ...)) |
| (lambda () (sd/a any_1 ((x ...) any_rest ...)))] |
| [(sd/a (any_fun any_arg ...) (any_rib ...)) |
| ((sd/a any_fun (any_rib ...)) (sd/a any_arg (any_rib ...)) ...)] |
| [(sd/a any_1 any) |
| ;; free variable, constant, etc |
| any_1]) |
| |
| |
| ;; ----------------------------------------------------------------------------- |
| ;; (subst ([e x] ...) e_*) substitutes e ... for x ... in e_* (hygienically) |
| |
| (module+ test |
| (test-equal (term (subst ([1 x][2 y]) x)) 1) |
| (test-equal (term (subst ([1 x][2 y]) y)) 2) |
| (test-equal (term (subst ([1 x][2 y]) z)) (term z)) |
| (test-equal (term (subst ([1 x][2 y]) (lambda (z w) (x y)))) |
| (term (lambda (z w) (1 2)))) |
| (test-equal (term (subst ([1 x][2 y]) (lambda (z w) (lambda (x) (x y))))) |
| (term (lambda (z w) (lambda (x) (x 2)))) |
| #:equiv =α/racket) |
| (test-equal (term (subst ((2 x)) ((lambda (x) (1 x)) x))) |
| (term ((lambda (x) (1 x)) 2)) |
| #:equiv =α/racket) |
| (test-equal (term (subst (((lambda (x) y) x)) (lambda (y) x))) |
| (term (lambda (y1) (lambda (x) y))) |
| #:equiv =α/racket)) |
| |
| (define-metafunction Lambda |
| subst : ((any x) ...) any -> any |
| [(subst [(any_1 x_1) ... (any_x x) (any_2 x_2) ...] x) any_x] |
| [(subst [(any_1 x_1) ... ] x) x] |
| [(subst [(any_1 x_1) ... ] (lambda (x ...) any_body)) |
| (lambda (x_new ...) |
| (subst ((any_1 x_1) ...) |
| (subst-raw ((x_new x) ...) any_body))) |
| (where (x_new ...) ,(variables-not-in (term (any_body any_1 ...)) (term (x ...)))) ] |
| [(subst [(any_1 x_1) ... ] (any ...)) ((subst [(any_1 x_1) ... ] any) ...)] |
| [(subst [(any_1 x_1) ... ] any_*) any_*]) |
| |
| (define-metafunction Lambda |
| subst-raw : ((x x) ...) any -> any |
| [(subst-raw ((x_n1 x_o1) ... (x_new x) (x_n2 x_o2) ...) x) x_new] |
| [(subst-raw ((x_n1 x_o1) ... ) x) x] |
| [(subst-raw ((x_n1 x_o1) ... ) (lambda (x ...) any)) |
| (lambda (x ...) (subst-raw ((x_n1 x_o1) ... ) any))] |
| [(subst-raw [(any_1 x_1) ... ] (any ...)) |
| ((subst-raw [(any_1 x_1) ... ] any) ...)] |
| [(subst-raw [(any_1 x_1) ... ] any_*) any_*]) |
| |
| ;; ----------------------------------------------------------------------------- |
| (module+ test |
| (test-results)) |
| |