scsh-0.6/scheme/env/space.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.
; ,open architecture primitives assembler packages enumerated
; ,open features sort locations display-conditions
(define length-procedures
(do ((i (- stob-count 1) (- i 1))
(l '() (cons (eval `(lap *length ()
(protocol 1)
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(pop)
(stored-object-length
,(enumerand->name i stob))
(push)
(literal '2)
(arithmetic-shift)
(return))
(interaction-environment))
l)))
((< i 0) l)))
(define (space)
(collect)
(display " pure impure total") (newline)
(display " count bytes count bytes count bytes")
(newline)
(let loop ((i 0)
(p-count-total 0)
(p-bytes-total 0)
(i-count-total 0)
(i-bytes-total 0))
(if (< i stob-count)
(begin
(collect)
(let ((xs (find-all i))
(length (list-ref length-procedures i)))
(let loop2 ((j (- (vector-length xs) 1))
(p-count 0)
(i-count 0)
(p-bytes 0)
(i-bytes 0))
(if (< j 0)
(begin (report1 (enumerand->name i stob)
p-count p-bytes
i-count i-bytes)
(loop (+ i 1)
(+ p-count-total p-count)
(+ p-bytes-total p-bytes)
(+ i-count-total i-count)
(+ i-bytes-total i-bytes)))
(if (immutable? (vector-ref xs j))
(loop2 (- j 1)
(+ p-count 1)
i-count
(+ p-bytes (+ 4 (length (vector-ref xs j))))
i-bytes)
(loop2 (- j 1)
p-count
(+ i-count 1)
p-bytes
(+ i-bytes (+ 4 (length (vector-ref xs j))))))))))
(report1 'total
p-count-total p-bytes-total
i-count-total i-bytes-total))))
(define (report1 name p-count p-bytes i-count i-bytes)
(write-padded name 16)
(write-padded p-count 7)
(write-padded p-bytes 7)
(write-padded i-count 7)
(write-padded i-bytes 7)
(write-padded (+ p-count i-count) 7)
(write-padded (+ p-bytes i-bytes) 8)
(newline))
(define least-byte-type (enum stob string))
(define (write-padded x pad)
(let ((s (if (symbol? x)
(symbol->string x)
(number->string x))))
(display (make-string (- pad (string-length s)) #\space))
(display s)))
(define (record-space . pred-option)
(collect)
(let ((pred (if (null? pred-option) (lambda (x) #t) (car pred-option)))
(rs (find-all (enum stob record)))
(a '()))
(do ((i (- (vector-length rs) 1) (- i 1)))
((< i 0)
(for-each (lambda (z)
(write-padded (cadr z) 7)
(write-padded (* (caddr z) 4) 7)
(display " ")
(write (car z))
(newline))
(sort-list a (lambda (z1 z2)
(> (caddr z1) (caddr z2))))))
(let* ((r (vector-ref rs i))
(probe (assq (record-ref r 0) a)))
(if (pred r)
(if probe
(begin (set-car! (cdr probe) (+ (cadr probe) 1))
(set-car! (cddr probe) (+ (caddr probe)
(+ 1 (record-length r)))))
(set! a (cons (list (record-ref r 0) 1 (+ 1 (record-length r)))
a))))))))
(define (vector-space . pred-option)
(collect)
(let ((pred (if (null? pred-option) (lambda (x) #t) (car pred-option)))
(vs (find-all (enum stob vector))))
(let ((e-count 0)
(e-bytes 0)
(t-count 0)
(t-bytes 0)
(b-count 0)
(b-bytes 0)
(v-count 0)
(v-bytes 0)
(l-count 0)
(l-bytes 0)
(o-count 0)
(o-bytes 0))
(let loop ((i (- (vector-length vs) 1)))
(if (< i 0)
(let ((fz (lambda (k b what)
(write-padded k 7)
(write-padded b 7)
(display what)
(newline))))
(fz t-count t-bytes " table buckets")
(fz e-count e-bytes " table entries")
(fz b-count b-bytes " bindings")
(fz v-count v-bytes " environment info")
(fz l-count l-bytes " lexical environments")
(fz o-count o-bytes " other"))
(let* ((v (vector-ref vs i))
(len (vector-length v))
(bytes (* (+ len 1) 4)))
(cond ((not (pred v)))
((and (= len 3)
(bucket? (vector-ref v 2)))
(set! e-count (+ e-count 1))
(set! e-bytes (+ e-bytes bytes)))
((and (= len 3)
(location? (vector-ref v 1)))
(set! b-count (+ b-count 1))
(set! b-bytes (+ b-bytes bytes)))
((vector-every bucket? v)
(set! t-count (+ t-count 1))
(set! t-bytes (+ t-bytes bytes)))
((or (and (= len 4)
(integer? (vector-ref v 0))
(list? (vector-ref v 3)))
(vector-every symbol? v))
(set! v-count (+ v-count 1))
(set! v-bytes (+ v-bytes bytes)))
((and (> len 1)
(or (vector? (vector-ref v 0))
(integer? (vector-ref v 0))))
(set! l-count (+ l-count 1))
(set! l-bytes (+ l-bytes bytes)))
(else
;;(if (= (remainder i 197) 0)
;; (begin (write v) (newline)))
(set! o-count (+ o-count 1))
(set! o-bytes (+ o-bytes bytes))))
(loop (- i 1))))))))
(define (bucket? x)
(or (eq? x #f)
(vector? x)))
(define (vector-every pred v)
(let loop ((i (- (vector-length v) 1)))
(if (< i 0)
#t
(if (pred (vector-ref v i))
(loop (- i 1))
#f))))
(define (mutable? x) (not (immutable? x)))
; Print a random sampling of mutable pairs.
(define (pair-space)
(collect)
(let ((vs (find-all (enum stob pair))))
(let loop ((i (- (vector-length vs) 1))
(j 0))
(if (>= i 0)
(let ((x (vector-ref vs i)))
(if (mutable? x)
(begin (if (= (remainder j 293) 0)
(begin (limited-write x (current-output-port) 4 4)
(newline)))
(loop (- i 1) (+ j 1)))
(loop (- i 1) j)))))))