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- ;;; Ported from Scheme 48 1.9. See file COPYING for notices and license.
- ;;;
- ;;; Port Author: Andrew Whatson
- ;;;
- ;;; Original Authors: Richard Kelsey
- ;;;
- ;;; scheme48-1.9.2/ps-compiler/simp/let.scm
- (define-module (ps-compiler simp let)
- #:use-module (prescheme scheme48)
- #:use-module (ps-compiler node arch)
- #:use-module (ps-compiler node node)
- #:use-module (ps-compiler node node-util)
- #:use-module (ps-compiler node primop)
- #:use-module (ps-compiler node variable)
- #:use-module (ps-compiler param)
- #:use-module (ps-compiler simp join)
- #:use-module (ps-compiler simp simplify)
- #:use-module (ps-compiler util util)
- #:export (simplify-let))
- ;;; Simplifying LET nodes, i.e. calls to the LET primop.
- ;;;
- ;;; 1. Change the procedure to a JUMP procedure if necessary.
- ;;; 2. Check that the right number of arguments are present.
- ;;; 3. Substitute any values that can be substituted without reference to
- ;;; how they are used in the body; then remove the call if it is no
- ;;; longer necessary.
- ;;; 4. Try harder.
- (define (simplify-let call)
- (let ((proc (call-arg call 0)))
- (if (eq? (lambda-type proc) 'jump)
- (change-lambda-type proc 'cont))
- (cond ((n= (length (lambda-variables proc))
- (- (call-arg-count call) 1))
- (bug "wrong number of arguments in ~S" call))
- ((or (null? (lambda-variables proc))
- (substitute-let-arguments proc call quick-substitute))
- (remove-body call))
- (else
- (really-simplify-let proc call)))))
- ;; A value can be quickly substituted if it is a leaf node or if it has no
- ;; side-effects and is used only once.
- (define (quick-substitute var val)
- (or (literal-node? val)
- (reference-node? val)
- (and (not (side-effects? val))
- (null? (cdr (variable-refs var))))))
- ;; Simplify the arguments and then repeatedly simplify the body of PROC
- ;; and try substituting the arguments.
- ;; If all the arguments can be substituted the call node is removed.
- ;;
- ;; SUBSTITUTE-JOIN-ARGUMENTS copies arguments in an attempt to remove
- ;; conditionals via constant folding.
- (define (really-simplify-let proc call)
- (simplify-args call 1)
- (let loop ()
- (set-node-simplified?! proc #t)
- (simplify-lambda-body proc)
- (cond ((substitute-let-arguments proc call slow-substitute)
- (remove-body call))
- ((substitute-join-arguments proc call)
- (loop))
- ((not (node-simplified? proc))
- (loop)))))
- (define *duplicate-lambda-size* '-1) ;; don't duplicate anything
- (define *duplicate-jump-lambda-size* 1) ;; duplicate one call
- (define (slow-substitute var val)
- (cond ((or (literal-node? val) (reference-node? val))
- #t)
- ((call-node? val)
- (let ((refs (variable-refs var)))
- (and (not (null? refs))
- (null? (cdr refs))
- (or (not (side-effects? val 'allocate))
- (and (not (side-effects? val 'allocate 'read))
- (not-used-between? val (car refs)))))))
- ((every? called-node? (variable-refs var))
- (simplify-known-cont-calls (variable-refs var) val)
- (or (null? (cdr (variable-refs var)))
- (case (lambda-type val)
- ((proc known-proc)
- (small-node? val *duplicate-lambda-size*))
- ((jump)
- (small-node? val *duplicate-jump-lambda-size*))
- (else
- #f))))
- (else #f)))
- ;; This only detects the following situation:
- ;; (let (lambda (... var ...) (primop ... var ...))
- ;; ... value ...)
- ;; where the reference to VAR is contained within nested, non-writing calls
- ;; This depends on there being no simple calls with WRITE side-effects
- (define (not-used-between? call ref)
- (let ((top (lambda-body (call-arg (node-parent call) 0))))
- (let loop ((call (node-parent ref)))
- (cond ((eq? call top) #t)
- ((or (not (call-node? call))
- (eq? 'write (primop-side-effects (call-primop call))))
- #f)
- (else (loop (node-parent call)))))))
- (define (simplify-known-cont-calls refs l-node)
- (case (lambda-type l-node)
- ((proc)
- (determine-lambda-protocol l-node refs))
- ((cont)
- (bug "CONT lambda bound by LET ~S" l-node)))
- (if (calls-known? l-node)
- (simplify-known-lambda l-node)))
- ;; ($some-RETURN <proc> . <args>)
- ;; =>
- ;; ($JUMP <proc> . <args>)
- ;; could check argument reps as well
- (define (add-return-mark call l-node arg-count)
- (if (not (= (call-arg-count call) (+ arg-count 1)))
- (bug '"call ~S to join ~S has the wrong number of arguments"
- call l-node))
- (set-call-primop! call (get-primop (enum primop-enum jump))))
- ;; Removed arguments to a lambda-node in call position.
- ;; If any arguments are actually removed
- ;; REMOVE-NULL-ARGUMENTS shortens the argument vector.
- (define (substitute-let-arguments node call gone-proc)
- (let* ((vec (call-args call))
- (c (do ((vars (lambda-variables node) (cdr vars))
- (i 1 (+ i 1))
- (c 0 (if (keep-var-val (car vars) (vector-ref vec i) gone-proc)
- c
- (+ 1 c))))
- ((null? vars) c))))
- (cond ((= (+ c 1) (call-arg-count call)) #t)
- ((= c 0) #f)
- (else
- (remove-unused-variables node)
- (remove-null-arguments call (- (call-arg-count call) c))
- #f))))
- (define (keep-var-val var val gone-proc)
- (cond ((and (unused? var)
- (or (not (call-node? val))
- (not (side-effects? val 'allocate 'read))))
- (erase (detach val))
- #f)
- ((gone-proc var val)
- (substitute var val #t)
- #f)
- (else '#t)))
- ;; VAL is simple enough to be substituted in more than one location if
- ;; its body is a call with all leaf nodes.
- ;; -- no longer used --
- ;;(define (simple-lambda? val)
- ;; (vector-every? (lambda (n)
- ;; (and (not (lambda-node? n))
- ;; (call-args (lambda-body val))))
- (define (called-anywhere? var)
- (any? called-node? (variable-refs var)))
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