scsh-0.6/ps-compiler/prescheme/primop/base.scm

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1999-09-14 08:45:02 -04:00
; Copyright (c) 1994 by Richard Kelsey. See file COPYING.
(define (simplify-letrec1 call)
(let* ((cont (call-arg call 0))
(next (lambda-body cont))
(var (car (lambda-variables cont))))
(if (not (and (calls-this-primop? next 'letrec2)
(= 1 (length (variable-refs var)))
(eq? next (node-parent (car (variable-refs var))))
(= 1 (node-index (car (variable-refs var))))))
(error "badly formed LETREC ~S ~S" call (node-parent call)))
(simplify-args call 0)
(check-letrec-scoping call cont next)
(if (every? unused? (cdr (lambda-variables cont)))
(replace-body call (detach-body (lambda-body (call-arg next 0)))))))
(define (check-letrec-scoping letrec1 binder letrec2)
(let ((values (sub-vector->list (call-args letrec2) 2))
(body (call-arg letrec2 0)))
(for-each (lambda (n) (set-node-flag! n 'okay)) values)
(set-node-flag! body 'okay)
(for-each (lambda (var)
(for-each (lambda (ref)
(set-node-flag! (marked-ancestor ref) 'lose))
(variable-refs var)))
(cdr (lambda-variables binder)))
(let ((non-recur (filter (lambda (p)
(eq? (node-flag (car p)) 'okay))
(map cons values (cdr (lambda-variables binder))))))
(for-each (lambda (n) (set-node-flag! n #f)) values)
(set-node-flag! body #f)
(if (not (null? non-recur))
(letrec->let (map car non-recur)
(map cdr non-recur)
letrec1 binder letrec2)))))
(define (letrec->let vals vars letrec1 binder letrec2)
(for-each detach vals)
(remove-null-arguments letrec2
(- (vector-length (call-args letrec2))
(length vals)))
(set-lambda-variables!
binder
(filter (lambda (v) (not (memq v vars)))
(lambda-variables binder)))
(move-body letrec1
(lambda (letrec1)
(let-nodes ((call (let 1 l1 . vals))
(l1 vars letrec1))
call))))
; (return (lambda (a) ...) x)
; =>
; (let (lambda (a) ...) x)
(define (simplify-ps-return call)
(let ((cont (call-arg call 0))
(value (call-arg call 1)))
(cond ((not (lambda-node? cont))
(default-simplifier call))
(else
(set-call-primop! call (get-primop (enum primop let)))
(set-call-exits! call 1)
(set-node-simplified?! call #f)))))
(make-primop 'dispatch #f #f default-simplifier (lambda (call) 1) #f)
(make-primop 'let #f #f simplify-let (lambda (call) 1) #f)
(make-primop 'letrec1 #f #f (lambda (call)
(simplify-letrec1 call)) (lambda (call) 1) #f)
(make-primop 'letrec2 #f #f default-simplifier (lambda (call) 1) #f)
(make-primop 'undefined-value #t #f default-simplifier
(lambda (call) 1)
(lambda (call) type/null))
(make-primop 'undefined-effect #t #f default-simplifier
(lambda (call) 1)
(lambda (call) type/null))
(make-primop 'global-ref #t 'read default-simplifier
(lambda (call) 1)
(lambda (call)
(variable-type (reference-variable (call-arg call 0)))))
;(make-primop 'allocate #f #f 'allocate simplify-allocation (lambda (call) 1))
(make-primop 'global-set! #f 'write default-simplifier
(lambda (call) 1) #f)
(make-proc-primop 'call 'write simplify-known-call
(lambda (call) 1) 1)
(make-proc-primop 'tail-call 'write simplify-known-tail-call
(lambda (call) 1) 1)
(make-proc-primop 'return #f simplify-ps-return (lambda (call) 1) 0)
(make-proc-primop 'jump #f simplify-jump (lambda (call) 1) 0)
(make-proc-primop 'throw #f default-simplifier (lambda (call) 1) 0)
; This delays simplifying the arguments until we see if the procedure
; is a lambda-node.
(define (simplify-unknown-call call)
(simplify-arg call 1) ; simplify the procedure
(let ((proc (call-arg call 1)))
(cond ((lambda-node? proc)
(determine-lambda-protocol proc (list proc))
(mark-changed proc))
((and (reference-node? proc)
(variable-simplifier (reference-variable proc)))
=> (lambda (proc)
(proc call)))
(else
(simplify-args call 0))))) ; simplify all arguments
(make-proc-primop 'unknown-call 'write simplify-unknown-call
(lambda (call) 1) 1)
(make-proc-primop 'unknown-tail-call 'write simplify-unknown-call
(lambda (call) 1) 1)
(make-proc-primop 'unknown-return #f default-simplifier
(lambda (call) 1) 0)
(define (simplify-unspecific call)
(let ((node (make-undefined-literal)))
(set-literal-type! node type/null)
(replace call node)))
(define-scheme-primop unspecific #f type/null simplify-unspecific)
(define-scheme-primop uninitialized-value type/null)
(define-scheme-primop null-pointer? type/boolean)
(define-scheme-primop null-pointer type/boolean) ; type can't be right
(define-scheme-primop eq? type/boolean) ; should have a simplifier
;(define (exp->type exp)
; (if (quote-exp? exp)
; (real-exp->type (quote-exp-value exp))
; (error "can't turn ~S into a type" exp)))
;
;(define (real-exp->type exp)
; (let ((lose (lambda () (error "can't turn ~S into a type" exp))))
; (let label ((exp exp))
; (cond ((pair? exp)
; (case (car exp)
; ((pointer)
; (make-pointer-type (label (cadr exp))))
; ((arrow)
; (make-arrow-type (map label (cadr exp)) (caddr exp)))
; (else
; (lose))))
; ((and (symbol? exp)
; (lookup-type exp))
; => identity)
; (else
; (lose))))))
(define-scheme-cond-primop test simplify-test expand-test simplify-test?)
;(define-primitive-expander 'unspecific 0
; (lambda (source args cenv)
; (make-quote-exp the-undefined-value type/unknown)))