scsh-0.6/ps-compiler/prescheme/unused/dispatch.scm

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1999-09-14 08:45:02 -04:00
; Copyright (c) 1994 by Richard Kelsey. See file COPYING.
(define (dispatches->computed-gotos forms)
(walk (lambda (f)
(if (and (form-var f)
(eq? 'initialize (form-type f)))
(let ((value (thunk-value (form-node f))))
(if (and value
(call-node? value)
(eq? 'make-dispatch-table
(primop-id (call-primop value))))
(dispatch->computed-goto f value)))))
forms)
forms)
; FORM defines a dispatch vector, created in MAKE-CALL. This replaces the
; dispatch vector with a procedure that performs a computed goto.
; The references to VAR, the variable to which the dispatch
; vector is bound, are analysed to find all of the uses of the vector and all
; of the dispatch procedures added to it. These procedures are put in the
; appropriate slot of VEC, a model of the dispatch vector.
; Once all of the references are known, the dispatch vector is replaced with
; a procedure and all of the dispatches are replaced with calls. The dispatch
; procedures from VEC become the continuations of the computed-goto call.
(define (dispatch->computed-goto form make-call)
(initialize-lambdas)
(let* ((var (form-var form))
(size-node (call-arg make-call 0))
(size (if (and (literal-node? size-node)
(integer? (literal-value size-node))
(>= (literal-value size-node) 0))
(literal-value size-node)
(error "dispatch vector ~A's size is not a positive integer"
(variable-name (form-var form)))))
(vec (make-vector size #f)))
(analyze-dispatch-vector var vec)
(add-lambdas (form-lambdas form))
(let ((goto-proc (make-computed-goto var vec size make-call)))
(for-each (lambda (ref)
(let ((call (node-parent ref)))
(set-call-primop! call (get-primop (enum primop unknown-call)))
(insert-call-arg call 2 (make-literal-node 1 #f))))
(variable-refs var))
(set-form-node! form goto-proc (make-lambda-list))
(set-form-type! form 'lambda)
(values)))))
; Possible problems with a call to DEFINE-DISPATCH are:
; The index is not an integer constant in the right range.
; The procedure value cannot be moved.
(define (analyze-dispatch-vector var vec)
(walk-refs-safely
(lambda (ref)
(let ((call (node-parent ref)))
(if (and (eq? 'define-dispatch! (primop-id (call-primop call)))
(= 1 (node-index ref)))
(let ((index (if (literal-node? (call-arg call 2))
(literal-value (call-arg call 2))
#f))
(proc (get-procedure-value (call-arg call 3)))
(form (node-flag (node-base ref))))
(if (or (not (integer? index))
(< index 0)
(>= index (vector-length vec))
(not proc))
(error "problem with DEFINE-DISPATCH! in ~S"
(form-source form)))
(receive (ours theirs)
(partition-list (lambda (n)
(eq? proc (node-base n)))
(form-lambdas form))
(replace-body call (detach-body (lambda-body (call-arg call 0))))
(set-form-lambdas! form theirs)
(add-lambdas ours)
(vector-set! vec index proc))))))
var))
(define (get-procedure-value node)
(cond ((lambda-node? node)
(if (no-free-references? node)
(detach node)
#f))
((global-reference? node)
(detach node))
(else #f)))
; make computed goto call, put the exits in the call
(define (make-computed-goto var vec size make-call)
(receive (goto-proc goto-call default-var cont-var)
(make-dispatch-procedure make-call size)
(do ((i 0 (+ i 1)))
((>= i size))
(let ((cont (if (vector-ref vec i)
(make-goto-continuation (vector-ref vec i) cont-var)
(make-goto-default default-var))))
(attach goto-call i cont)))
(simplify-lambda-body goto-proc)
goto-proc))
; ($MAKE-DISPATCH-TABLE <cont> <size> <default>)
; =>
; (LAMBDA (C I)
; ((LAMBDA (D)
; ($COMPUTED-GOTO <empty> ... <empty> I))
; (LAMBDA ()
; (LET ((X ($PROC-CALL <default>)))
; ($UNKNOWN-RETURN C X)))))
;
; The new procedure, the goto call, D, the default procedure, and C are all
; returned.
(define (make-dispatch-procedure call size)
(let ((default (detach (call-arg call 1)))
(goto-call (make-call-node (get-prescheme-primop 'computed-goto)
(+ size 1)
size)))
(if (not default)
(error '"cannot move dispatch default ~S" (call-arg call 1)))
(let-nodes ((l1 ((c type/unknown) (i type/unknown)) (let 1 l2 def))
(l2 ((d type/unknown)) goto-call)
(def () (unknown-call 1 l3 default '(0 #f)))
(l3 ((x type/unknown)) (unknown-return 0 (* c) '1 (* x))))
(attach goto-call size (make-reference-node i))
(change-lambda-type l1 'proc) ; LET-NODES only makes CONT lambdas
(set-lambda-protocol! l1 1) ; indicate number of non-cont arguments
(erase (node-base call))
(values l1 goto-call d c))))
; Return a continuation that calls DEFAULT-PROC (to which DEFAULT-VAR is bound).
(define (make-goto-default default-var)
(let-nodes ((l1 () (jump 0 (* default-var))))
l1))
; Make a continuation that calls PROC and then returns to CONT-VAR.
;
; (LAMBDA ()
; (CALL (LAMBDA (V) (UNKNOWN-RETURN <cont-var> V))
; <proc>))
(define (make-goto-continuation proc-node cont-var)
(let-nodes ((l1 () c1)
(c1 (unknown-call 1 l2 proc-node '(0 #f)))
(l2 ((v type/unknown))
(unknown-return 0 (* cont-var) '1 (* v))))
l1))
;------------------------------------------------------------------------------
; Defining the primops used in all this.
; (MAKE-DISPATCH-TABLE <size> <default>)
(define-scheme-primop make-dispatch-table allocate)
; ($DEFINE-DISPATCH! <table> <index> <procedure>)
(define-nonsimple-scheme-primop define-dispatch! write)
; ($DISPATCH <cont> <table>)
(define-nonsimple-scheme-primop dispatch)
; (COMPUTED-GOTO <exit0> <exit1> ... <exitN> <dispatch-value>)
(define-nonsimple-scheme-primop computed-goto)