You cannot select more than 25 topics
Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
1457 lines
58 KiB
Scheme
1457 lines
58 KiB
Scheme
;;; Copyright (c) 2000-2015 Dipanwita Sarkar, Andrew W. Keep, R. Kent Dybvig, Oscar Waddell
|
|
;;; See the accompanying file Copyright for details
|
|
|
|
(library (tests compiler)
|
|
(export
|
|
;; languages
|
|
LP L0 L1 L2 L3 L4 L5 L6 L7 L8 L9 L10 L11 L12 L13 L14 L15 L16 L17 L18
|
|
|
|
;; parsers
|
|
parse-LP parse-L0 parse-L1 parse-L2 parse-L3 parse-L4 parse-L5 parse-L6
|
|
parse-L7 parse-L8 parse-L9 parse-L10 parse-L11 parse-L13 parse-L14
|
|
parse-L15 parse-L16 parse-L17 parse-L18
|
|
|
|
;; unparsers
|
|
unparse-LP unparse-L0 unparse-L1 unparse-L2 unparse-L3 unparse-L4
|
|
unparse-L5 unparse-L6 unparse-L7 unparse-L8 unparse-L9 unparse-L10
|
|
unparse-L11 unparse-L12 unparse-L13 unparse-L14 unparse-L15 unparse-L16
|
|
unparse-L17 unparse-L18
|
|
|
|
;; passes
|
|
verify-scheme remove-implicit-begin remove-unquoted-constant
|
|
remove-one-armed-if uncover-settable remove-impure-letrec remove-set!
|
|
sanitize-binding remove-anonymous-lambda uncover-free convert-closure
|
|
lift-letrec explicit-closure normalize-context remove-complex-opera*
|
|
remove-anonymous-call introduce-dummy-rp remove-nonunary-let
|
|
return-of-set! explicit-labels
|
|
|
|
;; preprocessor
|
|
rename-vars/verify-legal)
|
|
(import (rnrs) (nanopass) (tests helpers) (tests synforms) (nanopass nano-syntax-dispatch))
|
|
|
|
(define-language LP
|
|
(terminals
|
|
(variable (x))
|
|
(datum (d))
|
|
(user-primitive (pr)))
|
|
(Expr (e body)
|
|
d
|
|
x
|
|
pr
|
|
(set! x e)
|
|
(if e1 e2)
|
|
(if e1 e2 e3)
|
|
(begin e1 ... e2)
|
|
(lambda (x ...) body1 ... body2)
|
|
(let ((x e) ...) body1 ... body2)
|
|
(letrec ((x e) ...) body1 ... body2)
|
|
(e0 e1 ...)))
|
|
|
|
(define-parser parse-LP LP)
|
|
|
|
(define-language L0 (extends LP)
|
|
(Expr (e body)
|
|
(- d
|
|
x
|
|
pr
|
|
(e0 e1 ...))
|
|
(+ (datum d)
|
|
(var x)
|
|
(primapp pr e ...)
|
|
(app e0 e1 ...))))
|
|
|
|
(define-parser parse-L0 L0)
|
|
|
|
(define-who rename-vars/verify-legal
|
|
(lambda (expr)
|
|
(define keywords '(quote set! if begin let letrec lambda))
|
|
(define extend-env*
|
|
(lambda (x* env)
|
|
(let f ([x* x*] [rx* '()] [env env])
|
|
(if (null? x*)
|
|
(values (reverse rx*) env)
|
|
(let ([x (car x*)])
|
|
(let ([rx (gen-symbol x)])
|
|
(f (cdr x*) (cons rx rx*) (cons (cons x rx) env))))))))
|
|
(let f ([expr expr] [env '()])
|
|
(define f* (lambda (e* env) (map (lambda (e) (f e env)) e*)))
|
|
(with-output-language (L0 Expr)
|
|
(syncase expr
|
|
[,const (guard (constant? const)) `(datum ,const)]
|
|
[(quote ,lit) (guard (not (assq 'quote env))) `(datum ,lit)]
|
|
[,var
|
|
(guard (symbol? var))
|
|
(cond
|
|
[(assq var env) => (lambda (a) `(var ,(cdr a)))]
|
|
[(memq var keywords) (error who "invalid reference to keyword" var)]
|
|
[else (error who "reference to unbound var" var)])]
|
|
[(set! ,var ,rhs)
|
|
(guard (not (assq 'set! env)) (symbol? var))
|
|
(cond
|
|
[(assq var env) => (lambda (a) `(set! ,(cdr a) ,(f rhs env)))]
|
|
[(memq var keywords) (error who "set! of keyword" expr)]
|
|
[else (error who "set! of unbound var" expr)])]
|
|
[(if ,e0 ,e1)
|
|
(guard (not (assq 'if env)))
|
|
`(if ,(f e0 env) ,(f e1 env))]
|
|
[(if ,e0 ,e1 ,e2)
|
|
(guard (not (assq 'if env)))
|
|
`(if ,(f e0 env) ,(f e1 env) ,(f e2 env))]
|
|
[(begin ,e* ... ,e)
|
|
(guard (not (assq 'begin env)))
|
|
`(begin ,(f* e* env) ... ,(f e env))]
|
|
[(let ([,x* ,rhs*] ...) ,e* ... ,e)
|
|
(guard (for-all symbol? x*) (set? x*))
|
|
(let-values ([(x* new-env) (extend-env* x* env)])
|
|
`(let ([,x* ,(f* rhs* env)] ...)
|
|
,(f* e* new-env) ... ,(f e new-env)))]
|
|
[(letrec ([,x* ,rhs*] ...) ,e* ... ,e)
|
|
(guard (for-all symbol? x*) (set? x*))
|
|
(let-values ([(x* env) (extend-env* x* env)])
|
|
`(letrec ([,x* ,(f* rhs* env)] ...)
|
|
,(f* e* env) ... ,(f e env)))]
|
|
[(lambda (,x* ...) ,e* ... ,e)
|
|
(guard (not (assq 'lambda env)) (for-all symbol? x*) (set? x*))
|
|
(let-values ([(x* env) (extend-env* x* env)])
|
|
`(lambda (,x* ...) ,(f* e* env) ... ,(f e env)))]
|
|
[(,prim ,rand* ...)
|
|
(guard (not (assq prim env)) (user-primitive? prim)
|
|
(= (cadr (assq prim list-of-user-primitives)) (length rand*)))
|
|
`(primapp ,prim ,(f* rand* env) ...)]
|
|
[(,rator ,rand* ...) `(app ,(f rator env) ,(f* rand* env) ...)]
|
|
[else (error who "invalid expression" expr)])))))
|
|
|
|
(define-pass verify-scheme : LP (ir) -> L0 ()
|
|
(definitions
|
|
(define invalid-var?
|
|
(lambda (x env)
|
|
(cond
|
|
[(memq x env) #f]
|
|
[(keyword? x) "keyword"]
|
|
[(user-primitive? x) "user-primitive"]
|
|
[else "unbound variable"])))
|
|
|
|
(define valid-bindings?
|
|
(lambda (ls)
|
|
(for-all variable? ls)))
|
|
|
|
(define duplicate-names?
|
|
(lambda (var*)
|
|
(let f ([ls var*] [dups '()])
|
|
(cond
|
|
[(null? ls) (if (null? dups) #f dups)]
|
|
[(and (memq (car ls) (cdr ls)) (not (memq (car ls) dups)))
|
|
(f (cdr ls) (cons (car ls) dups))]
|
|
[else (f (cdr ls) dups)]))))
|
|
(define format-list
|
|
(lambda (ls)
|
|
(case (length ls)
|
|
[(0) ""]
|
|
[(1) (format "~s" (car ls))]
|
|
[(2) (format "~s and ~s" (car ls) (cadr ls))]
|
|
[else (let f ([a (car ls)] [ls (cdr ls)])
|
|
(if (null? ls)
|
|
(format "and ~s" a)
|
|
(format "~s, ~a" a (f (car ls) (cdr ls)))))]))))
|
|
(Expr : Expr (ir [env '()]) -> Expr ()
|
|
[,d `(datum ,d)]
|
|
[,x (let ([invalid? (invalid-var? x env)])
|
|
(if invalid?
|
|
(error 'verify-scheme (format "reference to ~a ~s" invalid? x))
|
|
`(var ,x)))]
|
|
[(set! ,x ,e)
|
|
(let ([invalid? (invalid-var? x env)])
|
|
(if invalid?
|
|
(error 'verify-scheme (format "assignment to ~a ~s" invalid? x))
|
|
(let ([e (Expr e env)])
|
|
`(set! ,x ,e))))]
|
|
[(lambda (,x ...) ,body1 ... ,body2)
|
|
(cond
|
|
[(not (valid-bindings? x))
|
|
(error 'verify-scheme
|
|
(format "invalid binding list ~a in lambda form" x))]
|
|
[(duplicate-names? x)
|
|
=>
|
|
(lambda (x)
|
|
(error 'verify-scheme
|
|
(format "duplicate bindings ~a in lambda form"
|
|
(format-list x))))]
|
|
[else
|
|
(let ([env (append env x)])
|
|
(let ([body1 (map (lambda (x) (Expr x env)) body1)]
|
|
[body2 (Expr body2 env)])
|
|
`(lambda (,x ...) ,body1 ... ,body2)))])]
|
|
[(let ((,x ,e) ...) ,body1 ... ,body2) ;; track variables
|
|
(cond
|
|
[(not (valid-bindings? x))
|
|
(error 'verify-scheme
|
|
(format "invalid binding list ~a in let form" x))]
|
|
[(duplicate-names? x)
|
|
=>
|
|
(lambda (x)
|
|
(error 'verify-scheme
|
|
(format "duplicate bindings ~a in let form"
|
|
(format-list x))))]
|
|
[else
|
|
(let ([e (map (lambda (x) (Expr x env)) e)])
|
|
(let ([env (append env x)])
|
|
(let ([body1 (map (lambda (x) (Expr x env)) body1)]
|
|
[body2 (Expr body2 env)])
|
|
`(let ((,x ,e) ...) ,body1 ... ,body2))))])]
|
|
[(letrec ((,x ,e) ...) ,body1 ... ,body2) ;; track variables
|
|
(cond
|
|
[(not (valid-bindings? x))
|
|
(error 'verify-scheme
|
|
(format "invalid binding list ~a in letrec form" x))]
|
|
[(duplicate-names? x)
|
|
=>
|
|
(lambda (x)
|
|
(error 'verify-scheme
|
|
(format "duplicate bindings ~a in letrec form"
|
|
(format-list x))))]
|
|
[else
|
|
(let ([env (append env x)])
|
|
(let ([e (map (lambda (x) (Expr x env)) e)])
|
|
(let ([body1 (map (lambda (x) (Expr x env)) body1)]
|
|
[body2 (Expr body2 env)])
|
|
`(letrec ((,x ,e) ...) ,body1 ... ,body2))))])]
|
|
[(,e0 ,e1 ...)
|
|
(let ([e1 (map (lambda (x) (Expr x env)) e1)])
|
|
(if (and (symbol? e0) (user-primitive? e0))
|
|
`(primapp ,e0 ,e1 ...)
|
|
`(app ,(Expr e0 env) ,e1 ...)))]))
|
|
|
|
(define-language L1 (extends L0)
|
|
(Expr (e body)
|
|
(- (lambda (x ...) body1 ... body2)
|
|
(let ((x e) ...) body1 ... body2)
|
|
(letrec ((x e) ...) body1 ... body2))
|
|
(+ (lambda (x ...) body)
|
|
(let ((x e) ...) body)
|
|
(letrec ((x e) ...) body))))
|
|
|
|
(define-parser parse-L1 L1)
|
|
|
|
(define-pass remove-implicit-begin : L0 (ir) -> L1 ()
|
|
(process-expr-expr : Expr (ir) -> Expr ()
|
|
[(lambda (,x ...) ,[body1] ... ,[body2])
|
|
`(lambda (,x ...) (begin ,body1 ... ,body2))]
|
|
[(let ((,x ,[e]) ...) ,[body1] ... ,[body2])
|
|
`(let ((,x ,e) ...) (begin ,body1 ... ,body2))]
|
|
[(letrec ((,x ,[e]) ...) ,[body1] ... ,[body2])
|
|
`(letrec ((,x ,e) ...) (begin ,body1 ... ,body2))]))
|
|
|
|
(define-language L2 (extends L1)
|
|
(Expr (e body)
|
|
(- (datum d))
|
|
(+ (quoted-const d))))
|
|
|
|
(define-parser parse-L2 L2)
|
|
|
|
(define-pass remove-unquoted-constant : L1 (ir) -> L2 ()
|
|
(process-expr-expr : Expr (ir) -> Expr ()
|
|
[(datum ,d) `(quoted-const ,d)]))
|
|
|
|
(define-language L3 (extends L2) (Expr (e body) (- (if e1 e2))))
|
|
|
|
(define-parser parse-L3 L3)
|
|
|
|
(define-pass remove-one-armed-if : L2 (ir) -> L3 ()
|
|
(process-expr-expr : Expr (ir) -> Expr ()
|
|
[(if ,[e1] ,[e2]) `(if ,e1 ,e2 (primapp void))]))
|
|
|
|
(define-language L4 (extends L3)
|
|
(Expr (e body)
|
|
(- (lambda (x ...) body)
|
|
(let ((x e) ...) body)
|
|
(letrec ((x e) ...) body))
|
|
(+ (lambda (x ...) sbody)
|
|
(let ((x e) ...) sbody)
|
|
(letrec ((x e) ...) sbody)))
|
|
(SetBody (sbody) (+ (settable (x ...) body) => body)))
|
|
|
|
(define-parser parse-L4 L4)
|
|
|
|
(define-pass uncover-settable : L3 (ir) -> L4 ()
|
|
(definitions
|
|
(define Expr*
|
|
(lambda (e* asgn-var*)
|
|
(if (null? e*)
|
|
(values '() asgn-var*)
|
|
(let-values ([(e asgn-var*) (Expr (car e*) asgn-var*)])
|
|
(let-values ([(e* asgn-var*) (Expr* (cdr e*) asgn-var*)])
|
|
(values (cons e e*) asgn-var*)))))))
|
|
(Expr : Expr (ir asgn-var*) -> Expr (asgn-var*)
|
|
[(set! ,x ,[e asgn-var*]) (values `(set! ,x ,e) (set-cons x asgn-var*))]
|
|
[(lambda (,x* ...) ,[body asgn-var*])
|
|
(let ([set-x* (intersection asgn-var* x*)])
|
|
(values `(lambda (,x* ...) (settable (,set-x* ...) ,body))
|
|
(difference asgn-var* set-x*)))]
|
|
[(let ([,x* ,e*]...) ,[body asgn-var*])
|
|
(let ([set-x* (intersection asgn-var* x*)])
|
|
(let-values ([(e* asgn-var*) (Expr* e* (difference asgn-var* set-x*))])
|
|
(values `(let ([,x* ,e*] ...) (settable (,set-x* ...) ,body)) asgn-var*)))]
|
|
[(letrec ([,x* ,e*]...) ,[body asgn-var*])
|
|
(let-values ([(e* asgn-var*) (Expr* e* asgn-var*)])
|
|
(let ([set-x* (intersection asgn-var* x*)])
|
|
(values `(letrec ((,x* ,e*) ...) (settable (,set-x* ...) ,body))
|
|
(difference asgn-var* set-x*))))]
|
|
; TODO: this code used to be supported by the automatic combiners, we've
|
|
; abandoned this in favor of threading, but we've not added threading yet
|
|
[(app ,[e asgn-var*] ,e* ...)
|
|
(let-values ([(e* asgn-var*) (Expr* e* asgn-var*)])
|
|
(values `(app ,e ,e* ...) asgn-var*))]
|
|
[(primapp ,pr ,e* ...)
|
|
(let-values ([(e* asgn-var*) (Expr* e* asgn-var*)])
|
|
(values `(primapp ,pr ,e* ...) asgn-var*))]
|
|
[(if ,[e0 asgn-var*] ,e1 ,e2)
|
|
(let-values ([(e1 asgn-var*) (Expr e1 asgn-var*)])
|
|
(let-values ([(e2 asgn-var*) (Expr e2 asgn-var*)])
|
|
(values `(if ,e0 ,e1 ,e2) asgn-var*)))]
|
|
[(begin ,e* ... ,[e asgn-var*])
|
|
(let-values ([(e* asgn-var*) (Expr* e* asgn-var*)])
|
|
(values `(begin ,e* ... ,e) asgn-var*))])
|
|
(let-values ([(e asgn-var*) (Expr ir '())]) e))
|
|
|
|
(define-language L5 (extends L4)
|
|
(Expr (e body)
|
|
(+ lexpr
|
|
(letrec ((x lexpr) ...) body))
|
|
(- (lambda (x ...) sbody)
|
|
(letrec ((x e) ...) sbody)))
|
|
(LambdaExpr (lexpr) (+ (lambda (x ...) sbody))))
|
|
|
|
(define-parser parse-L5 L5)
|
|
|
|
(define-pass remove-impure-letrec : L4 (ir) -> L5 ()
|
|
(process-expr-expr : Expr (ir) -> Expr ()
|
|
[(lambda (,x ...) ,[sbody])
|
|
(in-context LambdaExpr `(lambda (,x ...) ,sbody))]
|
|
[(letrec ((,x1 (lambda (,x2 ...) ,[sbody1])) ...) (settable () ,[body2]))
|
|
(let ([lambdabody (map
|
|
(lambda (x sbody)
|
|
(in-context LambdaExpr `(lambda (,x ...) ,sbody)))
|
|
x2 sbody1)])
|
|
`(letrec ((,x1 ,lambdabody) ...) ,body2))]
|
|
[(letrec ((,x1 ,[e]) ...) (settable (,x2 ...) ,[body]))
|
|
(let ()
|
|
(define void-maker
|
|
(lambda (ids)
|
|
(letrec ((helper (lambda (ls)
|
|
(if (null? (cdr ls))
|
|
(list (in-context Expr `(primapp void)))
|
|
(cons (in-context Expr `(primapp void))
|
|
(helper (cdr ls)))))))
|
|
(helper (iota (length ids))))))
|
|
(let* ([new-ids (map gen-symbol x1)]
|
|
[voids (void-maker x1)]
|
|
[bodies (map (lambda (lhs id)
|
|
`(set! ,lhs (var ,id))) x1 new-ids)]
|
|
[rbodies (reverse bodies)]
|
|
[new-body (cdr rbodies)]
|
|
[rest-bodies (car rbodies)])
|
|
`(let ([,x1 ,voids] ...)
|
|
(settable (,x1 ...)
|
|
(begin
|
|
(primapp void)
|
|
(let ([,new-ids ,e] ...)
|
|
;;**** this need not be from the output nonterminal ****
|
|
(settable ()
|
|
(begin ,new-body ... ,rest-bodies)))
|
|
,body)))))])
|
|
(process-setbody-setbody : SetBody (ir) -> SetBody ()
|
|
[(settable (,x ...) ,[body]) `(settable (,x ...) ,body)])
|
|
(process-expr-lexpr : Expr (ir) -> LambdaExpr ()
|
|
[(lambda (,x ...) ,[sbody]) `(lambda (,x ...) ,sbody)])
|
|
(process-setbody-expr : SetBody (ir) -> Expr ()
|
|
[(settable (,x ...) ,[body]) `,body]))
|
|
|
|
(define-language L6 (extends L5)
|
|
(Expr (e body)
|
|
(- (let ((x e) ...) sbody)
|
|
(set! x e))
|
|
(+ (let ((x e) ...) body)))
|
|
(LambdaExpr (lexpr)
|
|
(- (lambda (x ...) sbody))
|
|
(+ (lambda (x ...) body)))
|
|
(SetBody (sbody) (- (settable (x ...) body))))
|
|
|
|
(define-parser parse-L6 L6)
|
|
|
|
(define-pass remove-set! : L5 (ir) -> L6 ()
|
|
(Expr : Expr (ir [set* '()]) -> Expr ()
|
|
[(var ,x) (if (memq x set*) `(primapp car (var ,x)) `(var ,x))]
|
|
[(set! ,x ,[e set* -> e]) `(primapp set-car! (var ,x) ,e)]
|
|
[(let ((,x ,[e set* -> e]) ...) ,sbody)
|
|
(let ([body (SetBody sbody x e set*)])
|
|
`,body)])
|
|
(LambdaExpr : LambdaExpr (ir set*) -> LambdaExpr ()
|
|
[(lambda (,x ...) ,[sbody x '() set* -> body]) `,body])
|
|
(SetBody : SetBody (ir x* e* set*) -> Expr ()
|
|
[(settable () ,[body set* -> body])
|
|
(if (null? e*)
|
|
`(lambda (,x* ...) ,body)
|
|
`(let ([,x* ,e*] ...) ,body))]
|
|
[(settable (,x ...) ,[body (append x set*) -> body])
|
|
(let ()
|
|
(define settable-bindings
|
|
(lambda (var* set*)
|
|
(if (null? var*) (values '() '() '())
|
|
(let ([var (car var*)])
|
|
(let-values ([(var* lhs* rhs*)
|
|
(settable-bindings (cdr var*) set*)])
|
|
(if (memq var set*)
|
|
(let ([tmp (gen-symbol var)])
|
|
(values (cons tmp var*)
|
|
(cons var lhs*)
|
|
(cons (in-context
|
|
Expr
|
|
`(primapp cons (var ,tmp)
|
|
(primapp void))) rhs*)))
|
|
;; **** (primapp void) is still a problem here ****
|
|
(values (cons var var*) lhs* rhs*)))))))
|
|
(let-values ([(x* lhs* rhs*) (settable-bindings x* x)])
|
|
;; **** cannot have (let (,(apply append bindings*)) ---) or
|
|
;; some such, due to nano-syntax-dispatch
|
|
;; the problem is not that we don't allow ,(arbitrary
|
|
;; function call) in the metaparser
|
|
(if (null? e*)
|
|
`(lambda (,x* ...) (let ([,lhs* ,rhs*] ...) ,body))
|
|
`(let ([,x* ,e*] ...) (let ([,lhs* ,rhs*] ...) ,body)))))]))
|
|
|
|
(define-pass sanitize-binding : L6 (ir) -> L6 ()
|
|
(Expr : Expr (ir [rhs? #f]) -> Expr (#f)
|
|
[(var ,x) (values `(var ,x) #f)]
|
|
[(if ,[e1 #f -> e1 ig1] ,[e2 #f -> e2 ig2] ,[e3 #f -> e3 ig3])
|
|
(values `(if ,e1 ,e2 ,e3) #f)]
|
|
[(begin ,[e1 #f -> e1 ig1] ... ,[e2 #f -> e2 ig2])
|
|
(values `(begin ,e1 ... ,e2) #f)]
|
|
[(primapp ,pr ,[e #f -> e ig] ...) (values `(primapp ,pr ,e ...) #f)]
|
|
[(app ,[e0 #f -> e0 ig0] ,[e1 #f -> e1 ig1] ...)
|
|
(values `(app ,e0 ,e1 ...) #f)]
|
|
[(quoted-const ,d) (values `(quoted-const ,d) #f)]
|
|
[(let ([,x ,[e #t -> e lambda?]] ...) ,[body #f -> body ig])
|
|
(let-values ([(let-x* let-e* letrec-x* letrec-e*)
|
|
(let f ([x x] [e e] [lambda? lambda?])
|
|
(if (null? x)
|
|
(values '() '() '() '())
|
|
(let-values ([(let-x let-e letrec-x letrec-e)
|
|
(f (cdr x) (cdr e) (cdr lambda?))])
|
|
(let ([lhs (car x)]
|
|
[rhs (car e)]
|
|
[rhs-lambda? (car lambda?)])
|
|
(if rhs-lambda?
|
|
(values let-x let-e (cons lhs letrec-x)
|
|
(cons rhs letrec-e))
|
|
(values (cons lhs let-x) (cons rhs let-e)
|
|
letrec-x letrec-e))))))])
|
|
(if (null? letrec-x*)
|
|
(values `(let ([,let-x* ,let-e*] ...) ,body) #f)
|
|
(if (null? let-x*)
|
|
(values `(letrec ([,letrec-x* ,letrec-e*] ...) ,body) #f)
|
|
(values `(letrec ([,letrec-x* ,letrec-e*] ...)
|
|
(let ([,let-x* ,let-e*] ...) ,body)) #f))))]
|
|
[(letrec ([,x1 (lambda (,x2 ...) ,[body1 #f -> body1 ig1])] ...)
|
|
,[body2 #f -> body2 ig2])
|
|
(values `(letrec ([,x1 (lambda (,x2 ...) ,body1)] ...) ,body2) #f)])
|
|
(LambdaExpr : LambdaExpr (ir [rhs? #f]) -> LambdaExpr (dummy)
|
|
[(lambda (,x ...) ,[body #f -> body ig])
|
|
(values `(lambda (,x ...) ,body) #t)]))
|
|
|
|
(define-language L7 (extends L6) (Expr (e body) (- lexpr)))
|
|
|
|
(define-parser parse-L7 L7)
|
|
|
|
(define-pass remove-anonymous-lambda : L6 (ir) -> L7 ()
|
|
(Expr : Expr (ir) -> Expr ()
|
|
[(lambda (,x ...) ,[body])
|
|
(let ([anon (gen-symbol 'anon)])
|
|
`(letrec ([,anon (lambda (,x ...) ,body)]) (var ,anon)))]))
|
|
|
|
#;
|
|
(define-pass remove-anonymous-lambda : L6 (ir) -> L7 ()
|
|
(Expr : Expr (ir) -> Expr ()
|
|
[(lambda (,x ...) ,[body])
|
|
(let ([anon (gen-symbol 'anon)])
|
|
`(letrec ([,anon (lambda (,x ...) ,body)]) (var ,anon)))]
|
|
[(var ,x) `(var ,x)]
|
|
[(quoted-const ,d) `(quoted-const ,d)]
|
|
[(if ,[e1] ,[e2] ,[e3]) `(if ,e1 ,e2 ,e3)]
|
|
[(begin ,[e1] ... ,[e2]) `(begin ,e1 ... ,e2)]
|
|
[(let ([,x ,[e]] ...) ,[body]) `(let ([,x ,e] ...) ,body)]
|
|
[(letrec ([,x ,[lexpr]] ...) ,[body])
|
|
`(letrec ([,x ,lexpr] ...) ,body)]
|
|
[(primapp ,pr ,[e] ...) `(primapp ,pr ,e ...)]
|
|
[(app ,[e0] ,[e1] ...) `(app ,e0 ,e1 ...)])
|
|
(LambdaExpr : LambdaExpr (ir) -> LambdaExpr ()
|
|
[(lambda (,x ...) ,[body]) `(lambda (,x ...) ,body)]))
|
|
|
|
(define-language L8 (extends L7)
|
|
(entry Expr)
|
|
(LambdaExpr (lexpr) (- (lambda (x ...) body)))
|
|
(FreeExp (free-body) (+ (free (x ...) body) => body))
|
|
(LambdaExpr (lexpr) (+ (lambda (x ...) free-body))))
|
|
|
|
(define-parser parse-L8 L8)
|
|
|
|
(define-pass uncover-free : L7 (ir) -> L8 ()
|
|
(definitions
|
|
(define LambdaExpr*
|
|
(lambda (lexpr* free*)
|
|
(if (null? lexpr*)
|
|
(values '() free*)
|
|
(let-values ([(lexpr free*) (LambdaExpr (car lexpr*) free*)])
|
|
(let-values ([(lexpr* free*) (LambdaExpr* (cdr lexpr*) free*)])
|
|
(values (cons lexpr lexpr*) free*))))))
|
|
(define Expr*
|
|
(lambda (e* free*)
|
|
(if (null? e*)
|
|
(values '() free*)
|
|
(let-values ([(e free*) (Expr (car e*) free*)])
|
|
(let-values ([(e* free*) (Expr* (cdr e*) free*)])
|
|
(values (cons e e*) free*)))))))
|
|
(Expr : Expr (ir free*) -> Expr (free*)
|
|
[(letrec ([,x* ,lexpr*] ...) ,[body free*])
|
|
(let-values ([(e* free*) (LambdaExpr* lexpr* free*)])
|
|
(values `(letrec ([,x* ,e*] ...) ,body) (difference free* x*)))]
|
|
[(let ([,x* ,e*] ...) ,[body free*])
|
|
(let-values ([(e* free*) (Expr* e* (difference free* x*))])
|
|
(values `(let ([,x* ,e*] ...) ,body) free*))]
|
|
[(var ,x) (values `(var ,x) (cons x free*))]
|
|
; TODO: get threaded variables working so we don't need to do this by hand
|
|
[(app ,[e free*] ,e* ...)
|
|
(let-values ([(e* free*) (Expr* e* free*)])
|
|
(values `(app ,e ,e* ...) free*))]
|
|
[(primapp ,pr ,e* ...)
|
|
(let-values ([(e* free*) (Expr* e* free*)])
|
|
(values `(primapp ,pr ,e* ...) free*))]
|
|
[(if ,[e1 free*] ,e2 ,e3)
|
|
(let-values ([(e2 free*) (Expr e2 free*)])
|
|
(let-values ([(e3 free*) (Expr e3 free*)])
|
|
(values `(if ,e1 ,e2 ,e3) free*)))]
|
|
[(begin ,e* ... ,[e free*])
|
|
(let-values ([(e* free*) (Expr* e* free*)])
|
|
(values `(begin ,e* ... ,e) free*))])
|
|
(LambdaExpr : LambdaExpr (ir free*) -> LambdaExpr (free*)
|
|
[(lambda (,x* ...) ,[body free*])
|
|
(let ([free* (difference free* x*)])
|
|
(values `(lambda (,x* ...) (free (,free* ...) ,body)) free*))])
|
|
(let-values ([(e free*) (Expr ir '())]) e))
|
|
|
|
(define-language L9
|
|
(terminals
|
|
(variable (x))
|
|
(datum (d))
|
|
(user-primitive (pr)))
|
|
(Expr (e body)
|
|
(var x)
|
|
(quoted-const d)
|
|
(if e1 e2 e3)
|
|
(begin e1 ... e2)
|
|
(let ((x e) ...) body)
|
|
(letrec ((x lexpr) ...) c-letrec)
|
|
(primapp pr e ...)
|
|
(app e0 e1 ...)
|
|
(anonymous-call e0 e1 ...))
|
|
(LambdaExpr (lexpr)
|
|
(lambda (x ...) bf-body))
|
|
(BindFree (bf-body)
|
|
(bind-free (x1 x2 ...) body))
|
|
(Closure (c-exp)
|
|
(closure x1 x2 ...))
|
|
(ClosureLetrec (c-letrec)
|
|
(closure-letrec ((x c-exp) ...) body)))
|
|
|
|
(define-parser parse-L9 L9)
|
|
|
|
(define-pass convert-closure : L8 (ir) -> L9 ()
|
|
(Expr : Expr (ir [direct '()]) -> Expr ()
|
|
[(app (var ,x) ,[e1 direct -> e1] ...)
|
|
(guard (assq x direct))
|
|
`(app (var ,(cdr (assq x direct))) (var ,x) ,e1 ...)]
|
|
[(app ,[e0 direct -> e0] ,[e1 direct -> e1] ...)
|
|
`(anonymous-call ,e0 ,e1 ...)]
|
|
[(letrec ([,x1 (lambda (,x2 ...) (free (,x3 ...) ,body1))] ...) ,body2)
|
|
(let ([code-name* (map gen-label x1)]
|
|
[cp* (map (lambda (x) (gen-symbol 'cp)) x1)])
|
|
(let* ([direct (append (map cons x1 code-name*) direct)]
|
|
[body1 (map (lambda (exp)(Expr exp direct)) body1)]
|
|
[bind-free* (map (lambda (cp formal* free* lbody)
|
|
(in-context LambdaExpr
|
|
`(lambda (,cp ,formal* ...)
|
|
(bind-free (,cp ,free* ...)
|
|
,lbody))))
|
|
cp* x2 x3 body1)]
|
|
[closure* (map (lambda (code-name free*)
|
|
(in-context Closure
|
|
`(closure ,code-name ,free* ...)))
|
|
code-name* x3)])
|
|
`(letrec ([,code-name* ,bind-free*] ...)
|
|
(closure-letrec ([,x1 ,closure*] ...)
|
|
,(Expr body2 direct)))))]))
|
|
|
|
(define-language L10 (extends L9)
|
|
(entry LetrecExpr)
|
|
(LetrecExpr (lrexpr) (+ (letrec ((x lexpr) ...) e)))
|
|
(Expr (e body)
|
|
(- (letrec ((x lexpr) ...) c-letrec))
|
|
(+ (closure-letrec ((x c-exp) ...) body)))
|
|
(ClosureLetrec (c-letrec) (- (closure-letrec ((x c-exp) ...) body))))
|
|
|
|
(define-parser parse-L10 L10)
|
|
|
|
(define-pass lift-letrec : L9 (ir) -> L10 ()
|
|
(definitions
|
|
(define Expr*
|
|
(lambda (e* binding*)
|
|
(if (null? e*)
|
|
(values '() binding*)
|
|
(let-values ([(e binding*) (Expr (car e*) binding*)])
|
|
(let-values ([(e* binding*) (Expr* (cdr e*) binding*)])
|
|
(values (cons e e*) binding*))))))
|
|
(define LambdaExpr*
|
|
(lambda (lexpr* binding*)
|
|
(if (null? lexpr*)
|
|
(values '() binding*)
|
|
(let-values ([(lexpr binding*) (LambdaExpr (car lexpr*) binding*)])
|
|
(let-values ([(lexpr* binding*) (LambdaExpr* (cdr lexpr*) binding*)])
|
|
(values (cons lexpr lexpr*) binding*)))))))
|
|
(Expr : Expr (ir binding*) -> Expr (binding*)
|
|
; TODO: we'd like to do this using variable threading!
|
|
[(var ,x) (values `(var ,x) binding*)]
|
|
[(quoted-const ,d) (values `(quoted-const ,d) binding*)]
|
|
[(if ,e1 ,e2 ,[e3 binding*])
|
|
(let-values ([(e1 binding*) (Expr e1 binding*)])
|
|
(let-values ([(e2 binding*) (Expr e2 binding*)])
|
|
(values `(if ,e1 ,e2 ,e3) binding*)))]
|
|
[(begin ,e1 ... ,[e2 binding*])
|
|
(let-values ([(e1 binding*) (Expr* e1 binding*)])
|
|
(values `(begin ,e1 ... ,e2) binding*))]
|
|
[(let ([,x* ,e*] ...) ,[body binding*])
|
|
(let-values ([(e* binding*) (Expr* e* binding*)])
|
|
(values `(let ([,x* ,e*] ...) ,body) binding*))]
|
|
[(primapp ,pr ,e* ...)
|
|
(let-values ([(e* binding*) (Expr* e* binding*)])
|
|
(values `(primapp ,pr ,e* ...) binding*))]
|
|
[(app ,[e binding*] ,e* ...)
|
|
(let-values ([(e* binding*) (Expr* e* binding*)])
|
|
(values `(app ,e ,e* ...) binding*))]
|
|
[(anonymous-call ,[e binding*] ,e* ...)
|
|
(let-values ([(e* binding*) (Expr* e* binding*)])
|
|
(values `(anonymous-call ,e ,e* ...) binding*))]
|
|
[(letrec ((,x* ,lexpr*) ...) ,[e binding*])
|
|
(let-values ([(lexpr* binding*) (LambdaExpr* lexpr* binding*)])
|
|
(values e (append (map cons x* lexpr*) binding*)))])
|
|
(LambdaExpr : LambdaExpr (ir binding*) -> LambdaExpr (binding*)
|
|
[(lambda (,x* ...) ,[bf-body binding*])
|
|
(values `(lambda (,x* ...) ,bf-body) binding*)])
|
|
(BindFree : BindFree (ir binding*) -> BindFree (binding*)
|
|
[(bind-free (,x ,x* ...) ,[body binding*])
|
|
(values `(bind-free (,x ,x* ...) ,body) binding*)])
|
|
(ClosureLetrec : ClosureLetrec (ir binding*) -> Expr (binding*)
|
|
[(closure-letrec ([,x* ,[c-exp*]] ...) ,[body binding*])
|
|
(values `(closure-letrec ([,x* ,c-exp*] ...) ,body) binding*)])
|
|
(let-values ([(e binding*) (Expr ir '())])
|
|
(let ([x* (map car binding*)] [e* (map cdr binding*)])
|
|
`(letrec ([,x* ,e*] ...) ,e))))
|
|
|
|
(define-language L11 (extends L10)
|
|
(entry LetrecExpr)
|
|
(terminals
|
|
(+ (system-primitive (spr))))
|
|
(Expr (e body)
|
|
(- (closure-letrec ((x c-exp) ...) body))
|
|
(+ (sys-primapp spr e ...)))
|
|
(BindFree (bf-body) (- (bind-free (x1 x2 ...) body)))
|
|
(Closure (c-exp) (- (closure x1 x2 ...)))
|
|
(LambdaExpr (lexpr)
|
|
(- (lambda (x ...) bf-body))
|
|
(+ (lambda (x ...) body))))
|
|
|
|
(define-parser parse-L11 L11)
|
|
|
|
(define-pass explicit-closure : L10 (ir) -> L11 ()
|
|
(LetrecExpr : LetrecExpr (ir) -> LetrecExpr ()
|
|
[(letrec ((,x ,[lexpr]) ...) ,e)
|
|
(let ([e (Expr e '() '())]) `(letrec ((,x ,lexpr) ...) ,e))])
|
|
|
|
(Expr : Expr (ir [cp '()] [env '()]) -> Expr ()
|
|
[(var ,x)
|
|
(let ([i (list-index x env)])
|
|
(if (>= i 0)
|
|
`(sys-primapp closure-ref (var ,cp) (quoted-const ,i))
|
|
`(var ,x)))]
|
|
[(closure-letrec ((,x ,[c-exp -> e free**]) ...)
|
|
,[body cp env -> body])
|
|
(let* ([e* (append (apply append
|
|
(map
|
|
(lambda (lhs free*)
|
|
(map
|
|
(lambda (i free)
|
|
`(sys-primapp
|
|
closure-set!
|
|
(var ,lhs)
|
|
(quoted-const ,i)
|
|
,(let ([ind (list-index free env)])
|
|
(if (>= ind 0)
|
|
`(sys-primapp
|
|
closure-ref
|
|
(var ,cp)
|
|
(quoted-const ,ind))
|
|
`(var ,free)))))
|
|
(iota (length free*)) free*))
|
|
x free**))
|
|
(list body))])
|
|
(let* ([re* (reverse e*)] [e1 (cdr re*)] [e2 (car re*)])
|
|
`(let ([,x ,e] ...) (begin ,e1 ... ,e2))))])
|
|
(BindFree : BindFree (ir) -> Expr ()
|
|
[(bind-free (,x1 ,x2 ...) ,[body x1 x2 -> body]) `,body])
|
|
(Closure : Closure (ir) -> Expr (dummy)
|
|
[(closure ,x1 ,x2 ...)
|
|
(values `(sys-primapp make-closure (var ,x1)
|
|
(quoted-const ,(length x2))) x2)])
|
|
(LambdaExpr : LambdaExpr (ir) -> LambdaExpr ()
|
|
[(lambda (,x ...) ,[bf-body -> body]) `(lambda (,x ...) ,body)]))
|
|
|
|
(define-language L12
|
|
(terminals
|
|
(variable (x))
|
|
(datum (d))
|
|
(value-primitive (vp))
|
|
(predicate-primitive (pp))
|
|
(effect-primitive (ep))
|
|
(system-primitive (spr)))
|
|
(LetrecExpr (lrexpr)
|
|
(letrec ((x lexpr) ...) v))
|
|
(LambdaExpr (lexpr)
|
|
(lambda (x ...) v))
|
|
(Value (v)
|
|
(var x)
|
|
(quoted-const d)
|
|
(if p1 v2 v3)
|
|
(begin f0 ... v1)
|
|
(let ((x v1) ...) v2)
|
|
(primapp vp v ...)
|
|
(sys-primapp spr v ...)
|
|
(anonymous-call v0 v1 ...)
|
|
(app v0 v1 ...))
|
|
(Predicate (p)
|
|
(true)
|
|
(false)
|
|
(if p1 p2 p3)
|
|
(begin f0 ... p1)
|
|
(let ((x v) ...) p)
|
|
(primapp pp v ...)
|
|
(sys-primapp spr v ...)
|
|
(anonymous-call v0 v1 ...)
|
|
(app v0 v1 ...))
|
|
(Effect (f)
|
|
(nop)
|
|
(if p1 f2 f3)
|
|
(begin f0 ... f1)
|
|
(let ((x v) ...) f)
|
|
(primapp ep v ...)
|
|
(sys-primapp spr v ...)
|
|
(anonymous-call v0 v1 ...)
|
|
(app v0 v1 ...)))
|
|
|
|
(define-parser parse-L12 L12)
|
|
|
|
(define-pass normalize-context : L11 (ir) -> L12 ()
|
|
(LetrecExpr : LetrecExpr (ir) -> LetrecExpr ()
|
|
[(letrec ((,x ,[lexpr]) ...) ,[v]) `(letrec ((,x ,lexpr) ...) ,v)])
|
|
(LambdaExpr : LambdaExpr (ir) -> LambdaExpr ()
|
|
[(lambda (,x ...) ,[v]) `(lambda (,x ...) ,v)])
|
|
(Value : Expr (ir) -> Value ()
|
|
[(var ,x) `(var ,x)]
|
|
[(quoted-const ,d) `(quoted-const ,d)]
|
|
[(if ,[p0] ,[v1] ,[v2]) `(if ,p0 ,v1 ,v2)]
|
|
[(begin ,[f0] ... ,[v1]) `(begin ,f0 ... ,v1)]
|
|
[(let ((,x ,[v1]) ...) ,[v2]) `(let ((,x ,v1) ...) ,v2)]
|
|
[(primapp ,pr ,[p])
|
|
(guard (equal? pr 'not))
|
|
`(if ,p (quoted-const #f) (quoted-const #t))]
|
|
[(primapp ,pr ,[v0] ...)
|
|
(guard (predicate-primitive? pr))
|
|
`(if (primapp ,pr ,v0 ...) (quoted-const #t) (quoted-const #f))]
|
|
[(primapp ,pr ,[v0] ...)
|
|
(guard (value-primitive? pr))
|
|
`(primapp ,pr ,v0 ...)]
|
|
[(primapp ,pr ,[v0] ...)
|
|
(guard (effect-primitive? pr))
|
|
`(begin (primapp ,pr ,v0 ...) (primapp void))]
|
|
[(sys-primapp ,spr ,[v0] ...)
|
|
(guard (predicate-primitive? spr))
|
|
`(if (sys-primapp ,spr ,v0 ...) (quoted-const #t) (quoted-const #f))]
|
|
[(sys-primapp ,spr ,[v0] ...)
|
|
(guard (value-primitive? spr))
|
|
`(sys-primapp ,spr ,v0 ...)]
|
|
[(sys-primapp ,spr ,[v0] ...)
|
|
(guard (effect-primitive? spr))
|
|
`(begin (primapp ,spr ,v0 ...) (primapp void))]
|
|
[(anonymous-call ,[v0] ,[v1] ...) `(anonymous-call ,v0 ,v1 ...)]
|
|
[(app ,[v0] ,[v1] ...) `(app ,v0 ,v1 ...)])
|
|
(Predicate : Expr (ir) -> Predicate ()
|
|
[(var ,x)
|
|
`(if (primapp eq? (var ,x) (quoted-const #f)) (false) (true))]
|
|
[(quoted-const ,d) (if d `(true) `(false))]
|
|
[(if ,[p0] ,[p1] ,[p2]) `(if ,p0 ,p1 ,p2)]
|
|
[(begin ,[f0] ... ,[p1]) `(begin ,f0 ... ,p1)]
|
|
[(let ((,x ,[v]) ...) ,[p]) `(let ((,x ,v) ...) ,p)]
|
|
[(primapp ,pr ,[p]) (guard (equal? pr 'not)) `(if ,p (false) (true))]
|
|
[(primapp ,pr ,[v0] ...)
|
|
(guard (predicate-primitive? pr))
|
|
`(primapp ,pr ,v0 ...)]
|
|
[(primapp ,pr ,[v0] ...)
|
|
(guard (value-primitive? pr))
|
|
`(if (primapp eq? (primapp ,pr ,v0 ...) (quoted-const #f))
|
|
(false) (true))]
|
|
[(primapp ,pr ,[v0] ...)
|
|
(guard (effect-primitive? pr))
|
|
`(begin (primapp ,pr ,v0 ...)(true))]
|
|
[(sys-primapp ,spr ,[v0] ...)
|
|
(guard (predicate-primitive? spr))
|
|
`(sys-primapp ,spr ,v0 ...)]
|
|
[(sys-primapp ,spr ,[v0] ...)
|
|
(guard (value-primitive? spr))
|
|
`(if (primapp eq? (sys-primapp ,spr ,v0 ...) (quoted-const #f))
|
|
(false) (true))]
|
|
[(sys-primapp ,spr ,[v0] ...)
|
|
(guard (effect-primitive? spr))
|
|
`(begin (sys-primapp ,spr ,v0 ...)(true))]
|
|
[(anonymous-call ,[v0] ,[v1] ...)
|
|
`(if (primapp eq? (anonymous-call ,v0 ,v1 ...) (quoted-const #f))
|
|
(false) (true))]
|
|
[(app ,[v0] ,[v1] ...)
|
|
`(if (primapp eq? (app ,v0 ,v1 ...) (quoted-const #f))
|
|
(false) (true))])
|
|
(Effect : Expr (ir) -> Effect ()
|
|
[(var ,x) `(nop)]
|
|
[(quoted-const ,d) `(nop)]
|
|
[(if ,[p0] ,[f1] ,[f2]) `(if ,p0 ,f1 ,f2)]
|
|
[(begin ,[f0] ... ,[f1]) `(begin ,f0 ... ,f1)]
|
|
[(let ((,x ,[v]) ...) ,[f]) `(let ((,x ,v) ...) ,f)]
|
|
[(primapp ,pr ,[f]) (guard (equal? pr 'not)) f]
|
|
[(primapp ,pr ,[f0] ...)
|
|
(guard (or (predicate-primitive? pr) (value-primitive? pr)))
|
|
(if (null? f0) `(nop) `(begin ,f0 ... (nop)))]
|
|
[(primapp ,pr ,[v0] ...)
|
|
(guard (effect-primitive? pr))
|
|
`(primapp ,pr ,v0 ...)]
|
|
[(sys-primapp ,spr ,[f0] ...)
|
|
(guard (or (predicate-primitive? spr) (value-primitive? spr)))
|
|
(if (null? f0) `(nop) `(begin ,f0 ... (nop)))]
|
|
[(sys-primapp ,spr ,[v0] ...)
|
|
(guard (effect-primitive? spr))
|
|
`(sys-primapp ,spr ,v0 ...)]
|
|
[(anonymous-call ,[v0] ,[v1] ...) `(anonymous-call ,v0 ,v1 ...)]
|
|
[(app ,[v0] ,[v1] ...) `(app ,v0 ,v1 ...)]))
|
|
|
|
(define-language L13
|
|
(terminals
|
|
(variable (x))
|
|
(datum (d))
|
|
(value-primitive (vp))
|
|
(predicate-primitive (pp))
|
|
(effect-primitive (ep))
|
|
(system-primitive (spr)))
|
|
(LetrecExpr (lrexpr)
|
|
(letrec ((x lexpr) ...) v))
|
|
(LambdaExpr (lexpr)
|
|
(lambda (x ...) v))
|
|
(Triv (t)
|
|
(var x)
|
|
(quoted-const d))
|
|
(Value (v)
|
|
t
|
|
(if p1 v2 v3)
|
|
(begin f0 ... v1)
|
|
(let ((x v1) ...) v2)
|
|
(primapp vp t ...)
|
|
(sys-primapp spr t ...)
|
|
(anonymous-call t0 t1 ...)
|
|
(app t0 t1 ...))
|
|
(Predicate (p)
|
|
(true)
|
|
(false)
|
|
(if p1 p2 p3)
|
|
(begin f0 ... p1)
|
|
(let ((x v) ...) p)
|
|
(primapp pp t ...)
|
|
(sys-primapp spr t ...)
|
|
(anonymous-call t0 t1 ...)
|
|
(app t0 t1 ...))
|
|
(Effect (f)
|
|
(nop)
|
|
(if p1 f2 f3)
|
|
(begin f0 ... f1)
|
|
(let ((x v) ...) f)
|
|
(primapp ep t ...)
|
|
(sys-primapp spr t ...)
|
|
(anonymous-call t0 t1 ...)
|
|
(app t0 t1 ...)))
|
|
|
|
(define-parser parse-L13 L13)
|
|
|
|
(define-pass remove-complex-opera* : L12 (ir) -> L13 ()
|
|
(definitions
|
|
(define remove-nulls
|
|
(lambda (ls)
|
|
(if (null? ls)
|
|
'()
|
|
(if (null? (car ls))
|
|
(remove-nulls (cdr ls))
|
|
(cons (car ls) (remove-nulls (cdr ls))))))))
|
|
(LetrecExpr : LetrecExpr (ir) -> LetrecExpr ()
|
|
[(letrec ((,x ,[lexpr]) ...) ,[v]) `(letrec ((,x ,lexpr) ...) ,v)])
|
|
(LambdaExpr : LambdaExpr (ir) -> LambdaExpr ()
|
|
[(lambda (,x ...) ,[v]) `(lambda (,x ...) ,v)])
|
|
(Opera : Value (ir) -> Triv (dummy)
|
|
[(var ,x) (values `(var ,x) '())]
|
|
[(quoted-const ,d) (values `(quoted-const ,d) '())]
|
|
; [,[v] (let ([tmp (gen-symbol 'tmp)])
|
|
; (values `(var ,tmp)
|
|
; (list tmp (in-context Value `,v))))])
|
|
[(if ,[p1] ,[v2] ,[v3])
|
|
(let ([tmp (gen-symbol 'tmp)])
|
|
(values `(var ,tmp)
|
|
(list tmp (in-context Value `(if ,p1 ,v2 ,v3)))))]
|
|
[(begin ,[f0] ... ,[v1])
|
|
(let ([tmp (gen-symbol 'tmp)])
|
|
(values `(var ,tmp)
|
|
(list tmp (in-context Value `(begin ,f0 ... ,v1)))))]
|
|
[(let ((,x ,[v1]) ...) ,[v2])
|
|
(let ([tmp (gen-symbol 'tmp)])
|
|
(values `(var ,tmp)
|
|
(list tmp (in-context Value `(let ((,x ,v1) ...) ,v2)))))]
|
|
[(primapp ,vp ,[t* binding*] ...)
|
|
(let ([binding* (remove-nulls binding*)])
|
|
(let ([tmp (gen-symbol 'tmp)])
|
|
(if (null? binding*)
|
|
(values `(var ,tmp)
|
|
(list tmp (in-context Value `(primapp ,vp ,t* ...))))
|
|
(let ([x (map car binding*)] [v (map cadr binding*)])
|
|
(values `(var ,tmp)
|
|
(list tmp
|
|
(in-context
|
|
Value `(let ((,x ,v) ...)
|
|
(primapp ,vp ,t* ...)))))))))]
|
|
[(sys-primapp ,spr ,[t* binding*]...)
|
|
(let ([binding* (remove-nulls binding*)])
|
|
(let ([tmp (gen-symbol 'tmp)])
|
|
(if (null? binding*)
|
|
(values `(var ,tmp)
|
|
(list tmp (in-context
|
|
Value `(sys-primapp ,spr ,t* ...))))
|
|
(let ([x (map car binding*)][v (map cadr binding*)])
|
|
(values
|
|
`(var ,tmp)
|
|
(list
|
|
tmp (in-context
|
|
Value `(let ((,x ,v) ...)
|
|
(sys-primapp ,spr ,t* ...)))))))))]
|
|
[(anonymous-call ,[v0 binding] ,[v1 binding*] ...)
|
|
(let ([binding* (remove-nulls (cons binding binding*))]
|
|
[tmp (gen-symbol 'tmp)])
|
|
(if (null? binding*)
|
|
(values `(var ,tmp)
|
|
(list tmp (in-context Value
|
|
`(anonymous-call ,v0 ,v1 ...))))
|
|
(let ([x (map car binding*)] [v (map cadr binding*)])
|
|
(values `(var ,tmp)
|
|
(list tmp (in-context
|
|
Value
|
|
`(let ((,x ,v) ...)
|
|
(anonymous-call ,v0 ,v1 ...))))))))]
|
|
[(app ,[v0] ,[t* binding*] ...)
|
|
(let ([binding* (remove-nulls binding*)])
|
|
(let ([tmp (gen-symbol 'tmp)])
|
|
(if (null? binding*)
|
|
(values `(var ,tmp)
|
|
(list tmp (in-context Value `(app ,v0 ,t* ...))))
|
|
(let ([x (map car binding*)] [v (map cadr binding*)])
|
|
(values `(var ,tmp)
|
|
(list tmp
|
|
(in-context Value
|
|
`(let ((,x ,v) ...)
|
|
(app ,v0 ,t* ...)))))))))])
|
|
(Value : Value (ir) -> Value ()
|
|
[(var ,x) (in-context Triv `(var ,x))]
|
|
[(quoted-const ,d) (in-context Triv `(quoted-const ,d))]
|
|
[(if ,[p1] ,[v2] ,[v3]) `(if ,p1 ,v2 ,v3)]
|
|
[(begin ,[f0] ... ,[v1]) `(begin ,f0 ... ,v1)]
|
|
[(let ((,x ,[v1]) ...) ,[v2]) `(let ((,x ,v1) ...) ,v2)]
|
|
[(primapp ,vp ,[t* binding*] ...)
|
|
(let ([binding* (remove-nulls binding*)])
|
|
(if (null? binding*)
|
|
`(primapp ,vp ,t* ...)
|
|
(let ([x (map car binding*)] [v (map cadr binding*)])
|
|
`(let ((,x ,v) ...)
|
|
(primapp ,vp ,t* ...)))))]
|
|
[(sys-primapp ,spr ,[t* binding*] ...)
|
|
(let ([binding* (remove-nulls binding*)])
|
|
(if (null? binding*)
|
|
`(sys-primapp ,spr ,t* ...)
|
|
(let ([x (map car binding*)][v (map cadr binding*)])
|
|
`(let ((,x ,v) ...)
|
|
(sys-primapp ,spr ,t* ...)))))]
|
|
[(anonymous-call ,[t0 binding] ,[t1 binding*] ...)
|
|
(let ([binding* (remove-nulls (cons binding binding*))])
|
|
(if (null? binding*)
|
|
`(anonymous-call ,t0 ,t1 ...)
|
|
(let ([x (map car binding*)] [v (map cadr binding*)])
|
|
`(let ((,x ,v) ...)
|
|
(anonymous-call ,t0 ,t1 ...)))))]
|
|
[(app ,[v0] ,[t* binding*] ...)
|
|
(let ([binding* (remove-nulls binding*)])
|
|
(if (null? binding*)
|
|
`(app ,v0 ,t* ...)
|
|
(let ([x (map car binding*)] [v (map cadr binding*)])
|
|
`(let ((,x ,v) ...) (app ,v0 ,t* ...)))))])
|
|
(Predicate : Predicate (ir) -> Predicate ()
|
|
[(let ((,x ,[v]) ...) ,[p]) `(let ((,x ,v) ...) ,p)]
|
|
[(primapp ,pp ,[t* binding*] ...)
|
|
(let ([binding* (remove-nulls binding*)])
|
|
(if (null? binding*)
|
|
`(primapp ,pp ,t* ...)
|
|
(let ([x (map car binding*)] [v (map cadr binding*)])
|
|
`(let ((,x ,v) ...)
|
|
(primapp ,pp ,t* ...)))))]
|
|
[(sys-primapp ,spr ,[t* binding*] ...)
|
|
(let ([binding* (remove-nulls binding*)])
|
|
(if (null? binding*)
|
|
`(sys-primapp ,spr ,t* ...)
|
|
(let ([x (map car binding*)] [v (map cadr binding*)])
|
|
`(let ((,x ,v) ...)
|
|
(sys-primapp ,spr ,t* ...)))))]
|
|
[(anonymous-call ,[t0 binding] ,[t1 binding*]...)
|
|
(let ([binding* (remove-nulls (cons binding binding*))])
|
|
(if (null? binding*)
|
|
`(anonymous-call ,t0 ,t1 ...)
|
|
(let ([x (map car binding*)] [v (map cadr binding*)])
|
|
`(let ((,x ,v) ...)
|
|
(anonymous-call ,t0 ,t1 ...)))))]
|
|
[(app ,[v0] ,[t* binding*] ...)
|
|
(let ([binding* (remove-nulls binding*)])
|
|
(if (null? binding*)
|
|
`(app ,v0 ,t* ...)
|
|
(let ([x (map car binding*)] [v (map cadr binding*)])
|
|
`(let ((,x ,v) ...) (app ,v0 ,t* ...)))))])
|
|
(Effect : Effect (ir) -> Effect ()
|
|
[(let ((,x ,[v]) ...) ,[f]) `(let ((,x ,v) ...) ,f)]
|
|
[(primapp ,ep ,[t* binding*] ...)
|
|
(let ([binding* (remove-nulls binding*)])
|
|
(if (null? binding*)
|
|
`(primapp ,ep ,t* ...)
|
|
(let ([x (map car binding*)] [v (map cadr binding*)])
|
|
`(let ((,x ,v) ...)
|
|
(primapp ,ep ,t* ...)))))]
|
|
[(sys-primapp ,spr ,[t* binding*] ...)
|
|
(let ([binding* (remove-nulls binding*)])
|
|
(if (null? binding*)
|
|
`(sys-primapp ,spr ,t* ...)
|
|
(let ([x (map car binding*)] [v (map cadr binding*)])
|
|
`(let ((,x ,v) ...)
|
|
(sys-primapp ,spr ,t* ...)))))]
|
|
[(anonymous-call ,[t0 binding] ,[t1 binding*] ...)
|
|
(let ([binding* (remove-nulls (cons binding binding*))])
|
|
(if (null? binding*)
|
|
`(anonymous-call ,t0 ,t1 ...)
|
|
(let ([x (map car binding*)] [v (map cadr binding*)])
|
|
`(let ((,x ,v) ...) (anonymous-call ,t0 ,t1 ...)))))]
|
|
[(app ,[v0] ,[t* binding*] ...)
|
|
(let ([binding* (remove-nulls binding*)])
|
|
(if (null? binding*)
|
|
`(app ,v0 ,t* ...)
|
|
(let ([x (map car binding*)] [v (map cadr binding*)])
|
|
`(let ((,x ,v) ...) (app ,v0 ,t* ...)))))]))
|
|
|
|
(define-language L14 (extends L13)
|
|
(entry LetrecExpr)
|
|
(Value (v) (- (anonymous-call t0 t1 ...)))
|
|
(Predicate (p) (- (anonymous-call t0 t1 ...)))
|
|
(Effect (f) (- (anonymous-call t0 t1 ...))))
|
|
|
|
(define-pass remove-anonymous-call : L13 (ir) -> L14 ()
|
|
(Value : Value (ir) -> Value ()
|
|
[(anonymous-call ,[t0] ,[t1] ...)
|
|
(let ([tmp (gen-symbol 'tmp)])
|
|
`(let ([,tmp (sys-primapp procedure-code ,t0)])
|
|
(app (var ,tmp) ,t0 ,t1 ...)))])
|
|
(Predicate : Predicate (ir) -> Predicate ()
|
|
[(anonymous-call ,[t0] ,[t1] ...)
|
|
(let ([tmp (gen-symbol 'tmp)])
|
|
`(let ([,tmp (sys-primapp procedure-code ,t0)])
|
|
(app (var ,tmp) ,t0 ,t1 ...)))])
|
|
(Effect : Effect (ir) -> Effect ()
|
|
[(anonymous-call ,[t0] ,[t1] ...)
|
|
(let ([tmp (gen-symbol 'tmp)])
|
|
`(let ([,tmp (sys-primapp procedure-code ,t0)])
|
|
(app (var ,tmp) ,t0 ,t1 ...)))]))
|
|
|
|
(define-parser parse-L14 L14)
|
|
|
|
(define-language L15
|
|
(terminals
|
|
(variable (x))
|
|
(datum (d))
|
|
(value-primitive (vp))
|
|
(predicate-primitive (pp))
|
|
(effect-primitive (ep))
|
|
(system-primitive (spr)))
|
|
(LetrecExpr (lrexpr)
|
|
(letrec ((x1 lexpr) ...) rnexpr))
|
|
(RunExpr (rnexpr)
|
|
(run (x) tl))
|
|
(LambdaExpr (lexpr)
|
|
(lambda (x ...) tl))
|
|
(Triv (t)
|
|
(var x)
|
|
(quoted-const d))
|
|
(Application (a)
|
|
(app t0 t1 ...))
|
|
(Tail (tl)
|
|
(return t1 t2)
|
|
(if p1 tl2 tl3)
|
|
(begin f0 ... tl1)
|
|
(let ((x ntl1) ...) tl2)
|
|
(app t0 t1 ...))
|
|
(Nontail (ntl)
|
|
t
|
|
(if p1 ntl2 ntl3)
|
|
(begin f0 ... ntl1)
|
|
(let ((x ntl1) ...) ntl2)
|
|
(primapp vp t ...)
|
|
(sys-primapp spr t ...)
|
|
(return-point x a))
|
|
(Predicate (p)
|
|
(true)
|
|
(false)
|
|
(if p1 p2 p3)
|
|
(begin f0 ... p1)
|
|
(let ((x ntl) ...) p)
|
|
(primapp pp t ...)
|
|
(sys-primapp spr t ...))
|
|
(Effect (f)
|
|
(nop)
|
|
(if p1 f2 f3)
|
|
(begin f0 ... f1)
|
|
(let ((x ntl) ...) f)
|
|
(primapp ep t ...)
|
|
(sys-primapp spr t ...)
|
|
(return-point x a)))
|
|
|
|
(define-parser parse-L15 L15)
|
|
|
|
; (define process-tail
|
|
; (lambda (expr rp)
|
|
; (match expr
|
|
; [(quote ,datum) `(return ,rp (quote ,datum))]
|
|
; [,var (guard (symbol? var)) `(return ,rp ,var)]
|
|
; [(if ,test ,[conseq] ,[altern])
|
|
; `(if ,(process-nontail test) ,conseq ,altern)]
|
|
; [(begin ,expr* ...)
|
|
; `(begin
|
|
; ,@((foldl '())
|
|
; (lambda (expr)
|
|
; (lambda (expr*)
|
|
; (if (null? expr*)
|
|
; (cons (process-tail expr rp) expr*)
|
|
; (cons (process-nontail expr) expr*))))
|
|
; expr*))]
|
|
; [(let ([,lhs* ,rhs*] ...) ,[body])
|
|
; (let ([rhs* (map process-nontail rhs*)])
|
|
; `(let ([,lhs* ,rhs*] ...)
|
|
; ,body))]
|
|
; [(,prim ,rand* ...)
|
|
; (guard (primitive? prim))
|
|
; (let ([rand* (map process-nontail rand*)])
|
|
; (let ([tmp (gen-symbol 'tmp)])
|
|
; `(let ([,tmp (,prim ,rand* ...)])
|
|
; (return ,rp ,tmp))))]
|
|
; [(,rator ,rand* ...)
|
|
; (let ([rator (process-nontail rator)]
|
|
; [rand* (map process-nontail rand*)])
|
|
; `(,rator ,rp ,rand* ...))]
|
|
; [,expr (error 'insert-dummy-rp "Invalid expression: ~s" expr)])))
|
|
; (define process-nontail
|
|
; (lambda (expr)
|
|
; (match expr
|
|
; [(quote ,datum) `(quote ,datum)]
|
|
; [,var (guard (symbol? var)) `,var]
|
|
; [(if ,[test] ,[conseq] ,[altern])
|
|
; `(if ,test ,conseq ,altern)]
|
|
; [(begin ,[expr*] ...) `(begin ,expr* ...)]
|
|
; [(let ([,lhs* ,[rhs*]] ...) ,[body])
|
|
; `(let ([,lhs* ,rhs*] ...) ,body)]
|
|
; [(,prim ,[rand*] ...)
|
|
; (guard (primitive? prim))
|
|
; `(,prim ,rand* ...)]
|
|
; [(,[rator] ,[rand*] ...)
|
|
; (let ([label (gen-label (gen-symbol 'lab))])
|
|
; `(return-point ,label
|
|
; (,rator ,label ,rand* ...)))]
|
|
; [,expr (error 'insert-dummy-rp "Invalid expression: ~s" expr)])))
|
|
; (define process-lambda
|
|
; (lambda (expr)
|
|
; (match expr
|
|
; [(lambda (,formal* ...) ,body)
|
|
; (let ([rp (gen-symbol 'rp)])
|
|
; `(lambda (,rp ,formal* ...)
|
|
; ,(process-tail body rp)))])))
|
|
; (define process-letrec
|
|
; (lambda (expr)
|
|
; (match expr
|
|
; [(letrec ([,lhs* ,rhs*] ...) ,body)
|
|
; (let ([rhs* (map process-lambda rhs*)])
|
|
; (let ([rp (gen-symbol 'rp)])
|
|
; `(letrec ([,lhs* ,rhs*] ...)
|
|
; (run (,rp)
|
|
; ,(process-tail body rp)))))])))
|
|
|
|
(define-pass introduce-dummy-rp : L14 (ir) -> L15 ()
|
|
(LetrecExpr : LetrecExpr (ir) -> LetrecExpr ()
|
|
[(letrec ((,x ,[lexpr]) ...) ,[rnexpr])
|
|
`(letrec ((,x ,lexpr) ...) ,rnexpr)])
|
|
(LambdaExpr : LambdaExpr (ir) -> LambdaExpr ()
|
|
[(lambda (,x ...) ,v)
|
|
(let ([rp (gen-symbol 'rp)])
|
|
(let ([tl (ValueTail v rp)])
|
|
`(lambda (,rp ,x ...) ,tl)))])
|
|
(ValueRun : Value (ir) -> RunExpr ()
|
|
[(var ,x) (let ([rp (gen-symbol 'rp)])
|
|
`(run (,rp) (return (var ,rp) (var ,x))))]
|
|
[(quoted-const ,d)
|
|
(let ([rp (gen-symbol 'rp)])
|
|
`(run (,rp) (return (var ,rp) (quoted-const ,d))))]
|
|
[(if ,[p1] ,v2 ,v3)
|
|
(let ([rp (gen-symbol 'rp)])
|
|
(let ([tl2 (ValueTail v2 rp)]
|
|
[tl3 (ValueTail v3 rp)])
|
|
`(run (,rp) (if ,p1 ,tl2 ,tl3))))]
|
|
[(begin ,[f0] ... ,v1)
|
|
(let ([rp (gen-symbol 'rp)])
|
|
(let ([tl1 (ValueTail v1 rp)])
|
|
`(run (,rp) (begin ,f0 ... ,tl1))))]
|
|
[(let ((,x ,[ntl1]) ...) ,v2)
|
|
(let ([rp (gen-symbol 'rp)])
|
|
(let ([tl2 (ValueTail v2 rp)])
|
|
`(run (,rp) (let ((,x ,ntl1) ...) ,tl2))))]
|
|
[(primapp ,vp ,[t] ...)
|
|
(let ([rp (gen-symbol 'rp)])
|
|
(let ([tmp (gen-symbol 'tmp)])
|
|
`(run (,rp) (let ([,tmp (primapp ,vp ,t ...)])
|
|
(return (var ,rp) (var ,tmp))))))]
|
|
[(sys-primapp ,spr ,[t] ...)
|
|
(let ([rp (gen-symbol 'rp)])
|
|
(let ([tmp (gen-symbol 'tmp)])
|
|
`(run (,rp) (let ([,tmp (primapp ,spr ,t ...)])
|
|
(return (var ,rp) (var ,tmp))))))]
|
|
[(app ,[t0] ,[t1] ...)
|
|
(let ([rp (gen-symbol 'rp)])
|
|
`(run (,rp)(app ,t0 (var ,rp) ,t1 ...)))])
|
|
(ValueTail : Value (ir rp) -> Tail ()
|
|
[(var ,x) `(return (var ,rp) (var ,x))]
|
|
[(quoted-const ,d) `(return (var ,rp) (quoted-const ,d))]
|
|
[(if ,[p1] ,[ValueTail : v2 rp -> tl2] ,[ValueTail : v3 rp -> tl3])
|
|
`(if ,p1 ,tl2 ,tl3)]
|
|
[(begin ,[f0] ... ,[ValueTail : v1 rp -> tl1]) `(begin ,f0 ... ,tl1)]
|
|
[(let ((,x ,[ntl1]) ...) ,[ValueTail : v2 rp -> tl2])
|
|
`(let ((,x ,ntl1) ...) ,tl2)]
|
|
[(primapp ,vp ,[t] ...)
|
|
(let ([tmp (gen-symbol 'tmp)])
|
|
`(let ([,tmp (primapp ,vp ,t ...)])
|
|
(return (var ,rp) (var ,tmp))))]
|
|
[(sys-primapp ,spr ,[t] ...)
|
|
(let ([tmp (gen-symbol 'tmp)])
|
|
`(let ([,tmp (primapp ,spr ,t ...)])
|
|
(return (var ,rp) (var ,tmp))))]
|
|
[(app ,[t0] ,[t1] ...) `(app ,t0 (var ,rp) ,t1 ...)])
|
|
(ValueNTail : Value (ir) -> Nontail ()
|
|
[(if ,[p1] ,[ntl2] ,[ntl3]) `(if ,p1 ,ntl2 ,ntl3)]
|
|
[(begin ,[f0] ... ,[ntl1]) `(begin ,f0 ... ,ntl1)]
|
|
[(let ((,x ,[ntl1]) ...) ,[ntl2]) `(let ((,x ,ntl1) ...) ,ntl2)]
|
|
[(app ,[t0] ,[t1] ...)
|
|
(let ([label (gen-label (gen-symbol 'lab))])
|
|
`(return-point ,label (app ,t0 (var ,label) ,t1 ...)))])
|
|
(Predicate : Predicate (ir) -> Predicate ()
|
|
[(let ((,x ,[ntl1]) ...) ,[p]) `(let ((,x ,ntl1) ...) ,p)])
|
|
(Effect : Effect (ir) -> Effect ()
|
|
[(let ((,x ,[ntl1]) ...) ,[f]) `(let ((,x ,ntl1) ...) ,f)]
|
|
[(app ,[t0] ,[t1] ...)
|
|
(let ([label (gen-label (gen-symbol 'lab))])
|
|
`(return-point ,label (app ,t0 (var ,label) ,t1 ...)))]))
|
|
|
|
(define-language L16 (extends L15)
|
|
(entry LetrecExpr)
|
|
(Tail (tl)
|
|
(- (let ((x ntl1) ...) tl2))
|
|
(+ (let ((x ntl1)) tl2)))
|
|
(Nontail (ntl)
|
|
(- (let ((x ntl1) ...) ntl2))
|
|
(+ (let ((x ntl1)) ntl2)))
|
|
(Predicate (p)
|
|
(- (let ((x ntl) ...) p))
|
|
(+ (let ((x ntl)) p)))
|
|
(Effect (f)
|
|
(- (let ((x ntl) ...) f))
|
|
(+ (let ((x ntl)) f))))
|
|
|
|
(define-parser parse-L16 L16)
|
|
|
|
(define-pass remove-nonunary-let : L15 (ir) -> L16 ()
|
|
(Tail : Tail (ir) -> Tail ()
|
|
[(let ((,x ,[ntl]) ...) ,[tl])
|
|
(let loop ([lhs* x] [rhs* ntl])
|
|
(if (null? lhs*)
|
|
tl
|
|
(let ([x (car lhs*)]
|
|
[ntl (car rhs*)]
|
|
[tl (loop (cdr lhs*) (cdr rhs*))])
|
|
`(let ((,x ,ntl)) ,tl))))])
|
|
(Nontail : Nontail (ir) -> Nontail ()
|
|
[(let ((,x ,[ntl1]) ...) ,[ntl2])
|
|
(let loop ([lhs* x] [rhs* ntl1])
|
|
(if (null? lhs*)
|
|
ntl2
|
|
(let ([x (car lhs*)]
|
|
[ntl1 (car rhs*)]
|
|
[ntl2 (loop (cdr lhs*) (cdr rhs*))])
|
|
`(let ((,x ,ntl1)) ,ntl2))))])
|
|
(Predicate : Predicate (ir) -> Predicate ()
|
|
[(let ((,x ,[ntl]) ...) ,[p])
|
|
(let loop ([lhs* x] [rhs* ntl])
|
|
(if (null? lhs*)
|
|
p
|
|
(let ([x (car lhs*)]
|
|
[ntl (car rhs*)]
|
|
[p (loop (cdr lhs*) (cdr rhs*))])
|
|
`(let ((,x ,ntl)) ,p))))])
|
|
(Effect : Effect (ir) -> Effect ()
|
|
[(let ((,x ,[ntl]) ...) ,[f])
|
|
(let loop ([lhs* x] [rhs* ntl])
|
|
(if (null? lhs*)
|
|
f
|
|
(let ([x (car lhs*)]
|
|
[ntl (car rhs*)]
|
|
[f (loop (cdr lhs*) (cdr rhs*))])
|
|
`(let ((,x ,ntl)) ,f))))]))
|
|
|
|
(define-language L17 (extends L16)
|
|
(entry LetrecExpr)
|
|
(RunExpr (rnexpr)
|
|
(- (run (x) tl))
|
|
(+ (run (x) dec)))
|
|
(LambdaExpr (lexpr)
|
|
(- (lambda (x ...) tl))
|
|
(+ (lambda (x ...) dec)))
|
|
(DeclareExpr (dec) (+ (declare (x ...) tl)))
|
|
(Tail (tl) (- (let ((x ntl1)) tl2)))
|
|
(Nontail (ntl)
|
|
(- t
|
|
(if p1 ntl2 ntl3)
|
|
(begin f0 ... ntl1)
|
|
(let ((x ntl1)) ntl2)
|
|
(primapp vp t ...)
|
|
(sys-primapp spr t ...)
|
|
(return-point x a)))
|
|
(RhsExpr (rhs)
|
|
(+ t
|
|
(if p1 rhs2 rhs3)
|
|
(begin f0 ... rhs1)
|
|
(primapp vp t ...)
|
|
(sys-primapp spr t ...)
|
|
(return-point x a)))
|
|
(Predicate (p) (- (let ((x ntl)) p)))
|
|
(Effect (f)
|
|
(- (let ((x ntl)) f))
|
|
(+ (set! x rhs))))
|
|
|
|
(define-parser parse-L17 L17)
|
|
|
|
(define-pass return-of-set! : L16 (ir) -> L17 ()
|
|
(definitions
|
|
(define Effect*
|
|
(lambda (f* var*)
|
|
(if (null? f*)
|
|
(values '() var*)
|
|
(let-values ([(f var*) (Effect (car f*) var*)])
|
|
(let-values ([(f* var*) (Effect* (cdr f*) var*)])
|
|
(values (cons f f*) var*)))))))
|
|
(RunExpr : RunExpr (ir) -> RunExpr ()
|
|
[(run (,x) ,[tl '() -> tl var*]) `(run (,x) (declare (,var* ...) ,tl))])
|
|
(LambdaExpr : LambdaExpr (ir) -> LambdaExpr ()
|
|
[(lambda (,x* ...) ,[tl '() -> tl var*]) `(lambda (,x* ...) (declare (,var* ...) ,tl))])
|
|
(Tail : Tail (ir var*) -> Tail (var*)
|
|
[(let ([,x ,ntl]) ,[tl var*])
|
|
(let-values ([(rhs var*) (Nontail ntl var*)])
|
|
(values `(begin (set! ,x ,rhs) ,tl) (cons x var*)))]
|
|
[(if ,[p1 var*] ,tl2 ,tl3)
|
|
(let-values ([(tl2 var*) (Tail tl2 var*)])
|
|
(let-values ([(tl3 var*) (Tail tl3 var*)])
|
|
(values `(if ,p1 ,tl2 ,tl3) var*)))]
|
|
[(begin ,f* ... ,[tl var*])
|
|
(let-values ([(f* var*) (Effect* f* var*)])
|
|
(values `(begin ,f* ... ,tl) var*))])
|
|
(Nontail : Nontail (ir var*) -> RhsExpr (var*)
|
|
[(let ((,x ,ntl1)) ,[rhs2 var*])
|
|
(let-values ([(rhs1 var*) (Nontail ntl1 var*)])
|
|
(values `(begin (set! ,x ,rhs1) ,rhs2) (cons x var*)))]
|
|
[(if ,[p1 var*] ,ntl2 ,ntl3)
|
|
(let-values ([(rhs2 var*) (Nontail ntl2 var*)])
|
|
(let-values ([(rhs3 var*) (Nontail ntl3 var*)])
|
|
(values `(if ,p1 ,rhs2 ,rhs3) var*)))]
|
|
[(begin ,f* ... ,[rhs var*])
|
|
(let-values ([(f* var*) (Effect* f* var*)])
|
|
(values `(begin ,f* ... ,rhs) var*))]
|
|
; TODO: something we could do better here? Triv->Rhs is effectively just this code
|
|
[(quoted-const ,d) (values `(quoted-const ,d) var*)]
|
|
[(var ,x) (values `(var ,x) var*)])
|
|
(Effect : Effect (ir var*) -> Effect (var*)
|
|
[(let ([,x ,ntl]) ,[f var*])
|
|
(let-values ([(rhs var*) (Nontail ntl var*)])
|
|
(values `(begin (set! ,x ,rhs) ,f) var*))]
|
|
[(if ,[p1 var*] ,f2 ,f3)
|
|
(let-values ([(f2 var*) (Effect f2 var*)])
|
|
(let-values ([(f3 var*) (Effect f3 var*)])
|
|
(values `(if ,p1 ,f2 ,f3) var*)))]
|
|
[(begin ,f* ... ,[f var*])
|
|
(let-values ([(f* var*) (Effect* f* var*)])
|
|
(values `(begin ,f* ... ,f) var*))])
|
|
(Predicate : Predicate (ir var*) -> Predicate (var*)
|
|
[(let ([,x ,ntl]) ,[p var*])
|
|
(let-values ([(rhs var*) (Nontail ntl var*)])
|
|
(values `(begin (set! ,x ,rhs) ,p) (cons x var*)))]
|
|
[(if ,[p1 var*] ,p2 ,p3)
|
|
(let-values ([(p2 var*) (Predicate p2 var*)])
|
|
(let-values ([(p3 var*) (Predicate p3 var*)])
|
|
(values `(if ,p1 ,p2 ,p3) var*)))]
|
|
[(begin ,f* ... ,[p var*])
|
|
(let-values ([(f* var*) (Effect* f* var*)])
|
|
(values `(begin ,f* ... ,p) var*))]))
|
|
|
|
(define-language L18 (extends L17)
|
|
(entry LetrecExpr)
|
|
(Triv (t) (+ (label x))))
|
|
|
|
(define-parser parse-L18 L18)
|
|
|
|
(define-pass explicit-labels : L17 (ir) -> L18 ()
|
|
(LetrecExpr : LetrecExpr (ir [labs '()]) -> LetrecExpr ()
|
|
[(letrec ((,x ,[lexpr x -> lexpr]) ...) ,[rnexpr x -> rnexpr])
|
|
`(letrec ((,x ,lexpr) ...) ,rnexpr)])
|
|
(LambdaExpr : LambdaExpr (ir labs) -> LambdaExpr ())
|
|
(Triv : Triv (ir labs) -> Triv ()
|
|
[(var ,x) (if (memq x labs) `(label ,x) `(var ,x))])
|
|
(Application : Application (ir labs) -> Application ())
|
|
(DeclareExpr : DeclareExpr (ir labs) -> DeclareExpr ())
|
|
(RunExpr : RunExpr (ir labs) -> RunExpr ())
|
|
(Tail : Tail (ir labs) -> Tail ())
|
|
(RhsExpr : RhsExpr (ir labs) -> RhsExpr ()
|
|
[(return-point ,x ,a) (let ([a (Application a (cons x labs))])
|
|
`(return-point ,x ,a))])
|
|
(Predicate : Predicate (ir labs) -> Predicate ())
|
|
(Effect : Effect (ir labs) -> Effect ()
|
|
[(return-point ,x ,a) (let ([a (Application a (cons x labs))])
|
|
`(return-point ,x ,a))])))
|