/usr/share/scsh-0.6/env/disasm.scm is in scsh-common-0.6 0.6.7-8.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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; Copyright (c) 1993-1999 by Richard Kelsey and Jonathan Rees. See file COPYING.
; This is file assem.scm.
;;;; Disassembler
; This defines a command processor command
; dis <expression>
; that evaluates <expression> to obtain a procedure or lambda-expression,
; which is then disassembled.
; Needs:
; template? template-name template-code
; closure? closure-template
; code-vector-...
; location-name
; The assembly language is designed to be rereadable. See env/assem.scm.
(define-command-syntax 'dis "[<exp>]" "disassemble procedure"
'(&opt expression))
; The command. The thing to be disassembled defaults to the focus object (##).
(define (dis . maybe-exp)
(disassemble (if (null? maybe-exp)
(focus-object)
(eval (car maybe-exp) (environment-for-commands)))))
(define (disassemble obj)
(really-disassemble (coerce-to-template obj) 0)
(newline))
; Instruction loop. WRITE-INSTRUCTION returns the new program counter.
(define (really-disassemble tem level)
(write (template-name tem))
(let ((length (template-code-length (template-code tem))))
(let loop ((pc 0))
(if (< pc length)
(loop (write-instruction tem pc level #t))))))
; The protocol used for procedures that require extra stack space uses three
; bytes at the end of the code vector.
(define (template-code-length code)
(if (and (= (enum op protocol)
(code-vector-ref code 0))
(= big-stack-protocol
(code-vector-ref code 1)))
(- (code-vector-length code) 3)
(code-vector-length code)))
; Write out the intstruction at PC in TEMPLATE. LEVEL is the nesting depth
; of TEMPLATE. If WRITE-SUB-TEMPLATES? is false we don't write out any
; templates found.
;
; Special handling is required for the few instructions that do not use a
; fixed number of code-stream arguments.
(define (write-instruction template pc level write-sub-templates?)
(let* ((code (template-code template))
(opcode (code-vector-ref code pc)))
(newline-indent (* level 3))
(write-pc pc)
(display " (")
(write (enumerand->name opcode op))
(let ((pc (cond ((= opcode (enum op computed-goto))
(display-computed-goto pc code))
((= opcode (enum op make-flat-env))
(display-flat-env (+ pc 1) code))
((= opcode (enum op protocol))
(display-protocol (code-vector-ref code (+ pc 1)) pc code))
(else
(print-opcode-args opcode pc code template
level write-sub-templates?)))))
(display #\))
pc)))
; Write out all of the branches of a computed goto.
(define (display-computed-goto start-pc code)
(display #\space)
(let ((count (code-vector-ref code (+ start-pc 1))))
(write count)
(do ((pc (+ start-pc 2) (+ pc 2))
(count count (- count 1)))
((= count 0) pc)
(display #\space)
(write `(=> ,(+ start-pc (get-offset pc code) 2))))))
; Write out the environment specs for the make-flat-env opcode.
(define (display-flat-env pc code)
(let ((total-count (code-vector-ref code (+ 1 pc))))
(display #\space) (write total-count)
(let loop ((pc (+ pc 2)) (count 0) (old-back 0))
(if (= count total-count)
pc
(let ((back (+ (code-vector-ref code pc)
old-back))
(limit (+ pc 2 (code-vector-ref code (+ pc 1)))))
(do ((pc (+ pc 2) (+ pc 1))
(count count (+ count 1))
(offsets '() (cons (code-vector-ref code pc) offsets)))
((= pc limit)
(display #\space)
(write `(,back ,(reverse offsets)))
(loop pc count back))))))))
; Display a protocol, returning the number of bytes of instruction stream that
; were consumed.
(define (display-protocol protocol pc code)
(display #\space)
(+ pc (cond ((<= protocol maximum-stack-args)
(display protocol)
2)
((= protocol two-byte-nargs-protocol)
(display (get-offset (+ pc 2) code))
4)
((= protocol two-byte-nargs+list-protocol)
(display (get-offset (+ pc 2) code))
(display " +")
4)
((= protocol args+nargs-protocol)
(display "args+nargs")
3)
((= protocol nary-dispatch-protocol)
(display "nary-dispatch")
(do ((i 0 (+ i 1)))
((= i 4))
(let ((offset (code-vector-ref code (+ pc 2 i))))
(if (not (= offset 0))
(begin
(display #\space)
(display (list (if (= i 3) '>2 i)
'=>
(+ pc offset)))))))
6)
((= protocol big-stack-protocol)
(display "big-stack")
(let ((size (display-protocol (code-vector-ref code
(- (code-vector-length code)
3))
pc
code)))
(display #\space)
(display (get-offset (- (code-vector-length code) 2) code))
size))
(else
(error "unknown protocol" protocol)))))
; Generic opcode argument printer.
(define (print-opcode-args op start-pc code template level write-templates?)
(let ((specs (vector-ref opcode-arg-specs op)))
(let loop ((specs specs) (pc (+ start-pc 1)))
(cond ((or (null? specs)
(= 0 (arg-spec-size (car specs) pc code)))
pc)
((eq? (car specs) 'junk) ; avoid printing a space
(loop (cdr specs) (+ pc 1)))
(else
(display #\space)
(print-opcode-arg specs pc start-pc code template level write-templates?)
(loop (cdr specs) (+ pc (arg-spec-size (car specs) pc code))))))))
; The number of bytes required by an argument.
(define (arg-spec-size spec pc code)
(case spec
((nargs byte stob junk) 1)
((offset index small-index two-bytes) 2)
((env-data) (+ 1 (* 2 (code-vector-ref code pc))))
(else 0)))
; Print out the particular type of argument.
(define (print-opcode-arg specs pc start-pc code template level write-templates?)
(case (car specs)
((nargs byte)
(write (code-vector-ref code pc)))
((two-bytes)
(write (get-offset pc code)))
((index)
(let ((thing (template-ref template (get-offset pc code))))
(write-literal-thing thing level write-templates?)))
((small-index)
(let ((thing (template-ref template (code-vector-ref code pc))))
(write-literal-thing thing level write-templates?)))
((offset)
(write `(=> ,(+ start-pc (get-offset pc code)))))
((stob)
(write (enumerand->name (code-vector-ref code pc) stob)))
((env-data)
(let ((nobjects (code-vector-ref code pc)))
(let loop ((offset (+ pc 1)) (n nobjects))
(cond ((not (zero? n))
(display (list (code-vector-ref code offset)
(code-vector-ref code (+ offset 1))))
(if (not (= n 1))
(write-char #\space))
(loop (+ offset 2) (- n 1)))))))))
(define (write-literal-thing thing level write-templates?)
(cond ((location? thing)
(write (or (location-name thing)
`(location ,(location-id thing)))))
((not (template? thing))
(display #\')
(write thing))
(write-templates?
(really-disassemble thing (+ level 1)))
(else
(display "..."))))
;----------------
; Utilities.
; Turn OBJ into a template, if possible.
(define (coerce-to-template obj)
(cond ((template? obj) obj)
((closure? obj) (closure-template obj))
((continuation? obj) (continuation-template obj))
(else (error "expected a procedure or continuation" obj))))
; Fetch the two-byte value at PC in CODE.
(define (get-offset pc code)
(+ (* (code-vector-ref code pc)
byte-limit)
(code-vector-ref code (+ pc 1))))
; Indenting and aligning the program counter.
(define (newline-indent n)
(newline)
(do ((i n (- i 1)))
((= i 0))
(display #\space)))
(define (write-pc pc)
(if (< pc 100) (display " "))
(if (< pc 10) (display " "))
(write pc))
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