scsh-0.6/scheme/bcomp/stack-check.scm

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1999-09-14 08:45:02 -04:00
; Copyright (c) 1993-1999 by Richard Kelsey and Jonathan Rees. See file COPYING.
; This determines the maximum stack depth needed by a code vector.
(define (maximum-stack-use code-vector)
(cond ((not (= (code-vector-ref code-vector 0)
(enum op protocol)))
0)
((= (code-vector-ref code-vector 1)
nary-dispatch-protocol) ; has unjumped-to targets
(stack-max code-vector
6
0
0
(do ((i 2 (+ i 1))
(r '() (let ((target (code-vector-ref code-vector i)))
(if (= 0 target)
r
(cons (cons target 0) r)))))
((= i 6)
r))))
(else
(stack-max code-vector
(protocol-skip code-vector)
0
0
'()))))
(define (protocol-skip code-vector)
(let ((protocol (code-vector-ref code-vector 1)))
(cond ((or (= protocol two-byte-nargs-protocol)
(= protocol two-byte-nargs+list-protocol))
4)
((= protocol args+nargs-protocol)
3)
(else
2))))
;----------------
; A vector of procedures, one for each opcode.
(define stack-delta (make-vector op-count #f))
(define-syntax define-delta
(syntax-rules ()
((define-delta opcode fun)
(vector-set! stack-delta (enum op opcode) fun))))
; Handle the opcode at I. DEPTH is the current stack depth, MAXIMUM is the
; maximum so far, and JUMPS is a list of (<index> . <depth>) giving the stack
; depth at jump targets.
(define (stack-max code-vector i depth maximum jumps)
((vector-ref stack-delta (code-vector-ref code-vector i))
code-vector
(+ i 1)
depth
maximum
jumps))
; Do nothing and advance BYTE-SIZE bytes.
(define (nothing byte-size)
(lambda (code-vector i depth maximum jumps)
(stack-max code-vector
(+ i byte-size)
depth
maximum
jumps)))
; Pop COUNT values from the stack and advance BYTE-SIZE bytes.
(define (popper count byte-args)
(lambda (code-vector i depth maximum jumps)
(stack-max code-vector
(+ i byte-args)
(- depth count)
maximum
jumps)))
; Push COUNT values onto the stack and advance BYTE-SIZE bytes.
(define (pusher count byte-args)
(lambda (code-vector i depth maximum jumps)
(stack-max code-vector
(+ i byte-args)
(+ depth count)
(imax maximum (+ depth count))
jumps)))
; Continue on at opcode I. This is used for opcodes that do not fall through
; to the next instruction. I is either the end of the code vector or the target
; of a jump or continuation.
(define (continue code-vector i maximum jumps)
(cond ((= i (code-vector-length code-vector))
maximum)
((assq i jumps)
=> (lambda (pair)
(stack-max code-vector i (cdr pair) maximum jumps)))
(else
(error "stack-max: no one jumps to target" i))))
; Skip BYTE-ARGS and then continue.
(define (continuer byte-args)
(lambda (code-vector i depth maximum jumps)
(continue code-vector (+ i byte-args) maximum jumps)))
;----------------
; All the special opcodes
(define-delta make-env (pusher environment-stack-size 2))
;(define-delta push (pusher 1 0))
(define-delta pop (popper 1 0))
(define-delta call (continuer 1))
(define-delta big-call (continuer 2))
(define-delta move-args-and-call (continuer 1))
(define-delta apply (continuer 2))
(define-delta closed-apply (continuer 0))
(define-delta with-continuation (nothing 0)) ; what the compiler requires
(define-delta call-with-values (continuer 0))
(define-delta return (continuer 0))
(define-delta values (continuer 2))
(define-delta closed-values (continuer 0))
(define-delta ignore-values (nothing 0))
(define-delta goto-template (continuer 2))
(define-delta call-template (continuer 3))
; We should never reach a PROTOCOL opcode.
(define-delta protocol
(lambda stuff
(error "looking for protocol's stack delta")))
; Peephole optimizations
(define-delta push
(lambda (cv pc depth maximum jumps)
(if (= (enum op local0)
(code-vector-ref cv pc))
(begin
(code-vector-set! cv (- pc 1) (enum op push-local0))
(code-vector-set! cv pc (code-vector-ref cv (+ pc 1)))
(stack-max cv
(+ pc 2)
(+ depth 1)
(imax maximum (+ depth 1))
jumps))
(stack-max cv
pc
(+ depth 1)
(imax maximum (+ depth 1))
jumps))))
(define-delta local0
(lambda (cv pc depth maximum jumps)
(if (= (enum op push)
(code-vector-ref cv (+ pc 1)))
(begin
(code-vector-set! cv (- pc 1) (enum op local0-push))
(stack-max cv
(+ pc 2)
(+ depth 1)
(imax maximum (+ depth 1))
jumps))
(stack-max cv
(+ pc 1)
depth
maximum
jumps))))
; Pop the given numbers of stack values.
(define-delta make-stored-object
(lambda (cv pc depth maximum jumps)
(let ((args (code-vector-ref cv pc)))
(stack-max cv (+ pc 2) (- depth (- args 1)) maximum jumps))))
; Skip over the environment specification.
(define-delta make-flat-env
(lambda (code-vector i depth maximum jumps)
(let ((include-*val*? (= 1 (code-vector-ref code-vector i)))
(count (code-vector-ref code-vector (+ i 1))))
(let loop ((i (+ i 2)) (count (if include-*val*? (- count 1) count)))
(if (= count 0)
(stack-max code-vector
i
depth maximum jumps)
(let ((level-count (code-vector-ref code-vector (+ i 1))))
(loop (+ i 2 level-count)
(- count level-count))))))))
; Adds the target to the list of jumps.
; The -1 is to back up over the opcode.
(define (do-make-cont total-bytes)
(lambda (code-vector i depth maximum jumps)
(let ((target (+ i -1 (get-offset code-vector i))))
(stack-max code-vector
(+ i total-bytes) ; eat offset and size
(+ depth continuation-stack-size)
(max maximum (+ depth continuation-stack-size))
(cons (cons target depth) jumps)))))
(define-delta make-cont (do-make-cont 3))
(define-delta make-big-cont (do-make-cont 4))
; Add the jump target(s) and either fall-through or not.
; The -1 is to back up over the opcode.
(define-delta jump-if-false
(lambda (code-vector i depth maximum jumps)
(let ((target (+ i -1 (get-offset code-vector i))))
(stack-max code-vector
(+ i 2) ; eat label
depth
maximum
(cons (cons target depth) jumps)))))
(define-delta jump
(lambda (code-vector i depth maximum jumps)
(let ((target (+ i -1 (get-offset code-vector i))))
(continue code-vector
(+ i 2) ; eat label
maximum
(cons (cons target depth) jumps)))))
(define-delta computed-goto
(lambda (code-vector i depth maximum jumps)
(let ((count (code-vector-ref code-vector i))
(base (- i 1)) ; back up over opcode
(i (+ i 1)))
(let loop ((c 0) (jumps jumps))
(if (= c count)
(stack-max code-vector
(+ i (* 2 count))
depth
maximum
jumps)
(loop (+ c 1)
(cons (cons (+ base (get-offset code-vector (+ i (* c 2))))
depth)
jumps)))))))
;----------------
; Fill in the `normal' opcodes using the information in OPCODE-ARG-SPECS.
(define (stack-function arg-specs)
(let loop ((specs arg-specs) (skip 0))
(cond ((null? specs)
(nothing skip))
((integer? (car specs))
(if (> (car specs) 1)
(popper (- (car specs) 1) skip)
(nothing skip)))
(else
(loop (cdr specs) (+ skip (arg-spec-size (car specs))))))))
(define (arg-spec-size spec)
(case spec
((nargs byte stob junk) 1)
((two-bytes offset small-index index) 2)
(else
(error "unknown arg-spec" spec))))
(do ((i 0 (+ i 1)))
((= i (vector-length stack-delta)))
(if (not (vector-ref stack-delta i))
(vector-set! stack-delta i (stack-function (vector-ref opcode-arg-specs i)))))
;----------------
; Utilities
; Much faster then Scheme's generic function.
(define (imax x y)
(if (< x y) y x))
(define (get-offset code pc)
(+ (* (code-vector-ref code pc)
byte-limit)
(code-vector-ref code (+ pc 1))))