4.3BSD-Reno/src/pgrm/lisp/liszt/instr.l
(include-if (null (get 'chead 'version)) "../chead.l")
(Liszt-file instr
"$Header: instr.l,v 1.9 87/12/15 17:03:01 sklower Exp $")
;;; ---- i n s t r emulate machine instructions
;;;
;;; -[Thu Jan 5 18:40:50 1984 by jkf]-
; The routines in this file emulate instructions, usually VAX-11
; ones. Routines names with the prefix "e-" take EIADR's, and
; those with "d-" take IADR's as arguments.
; Some of the simple routines are accually macros, and can be found in
; ../cmacros.l
;--- d-add :: emit an add intruction
; 68000 has a quick add for $1 - $8
;
; (the one for the vax is a macro in cmacros.l)
#+for-68k
(defun e-add (src dst)
(if (and (dtpr src)
(eq '$ (car src))
(and (>& (cadr src) 0) (<& (cadr src) 9)))
then (e-write3 'addql src dst)
else (e-write3 'addl src dst)))
;--- e-sub :: emit an add intruction (check for quick add: (immed 1 - 8))
;
#+for-68k
(defun e-sub (src dst)
(if (and (dtpr src)
(eq '$ (car src))
(zerop (cadr src)))
thenret
elseif (and (dtpr src)
(numberp (cadr src))
(and (>& (cadr src) 0) (<& (cadr src) 9)))
then (e-write3 'subql src dst)
else (e-write3 'subl src dst)))
; NOTE: The cmp routines emis instructions to test the condition codes
; by arg1 - arg2 (ie, arg1 is subtracted from arg2). On the
; 68000 the args must be reversed.
;--- e-cmp :: compare two EIADR values
;
; NOTE: for 68000, this does "cmpl dst,src"
;
#+for-68k
(defun e-cmp (src dst)
(if (and (symbolp src)
(memq src '(d0 d7 a0 a1 a2 d3 d1 d2 a3 a4 a5 sp d6 a6 d4 d5)))
then ; the form is "cmp <ea>,Rx"
(e-write3 'cmpl dst src)
elseif (and (dtpr dst)
(or (memq (car dst) '($ \#))
(and (eq '* (car dst))
(eq '\# (cadr dst)))))
then ; the form is "cmp #const,<ea>"
(if (and (dtpr src)
(or (memq (car src) '($ \#))
(and (eq '* (car src))
(eq '\# (cadr src)))))
then ; we have "cmp #n,#m"
; and we can't do it in one cmp
(d-regused 'd6)
(e-write3 'movl src 'd6)
(e-write3 'cmpl dst 'd6)
else ; we have "cmp #n,<ea>"
(e-write3 'cmpl dst src))
elseif (and (dtpr src)
(dtpr dst)
(eq '+ (car src))
(eq '+ (car dst)))
then ; the form is "cmp An@+,Am@+"
(e-write3 'cmpml dst src)
else ; addressing modes are too complicated to
; do in 1 instruction...
(d-regused 'd6)
(e-write3 'movl src 'd6)
(e-write3 'cmpl dst 'd6)))
;--- e-move :: move value from one place to anther
; this corresponds to d-move except the args are EIADRS
;
(defun e-move (from to)
(if (and (dtpr from)
(eq '$ (car from))
(eq 0 (cadr from)))
then (e-write2 'clrl to)
else (e-write3 'movl from to)))
;--- d-move :: emit instructions to move value from one place to another
;
(defun d-move (from to)
(makecomment `(from ,(e-uncvt from) to ,(e-uncvt to)))
#+(or for-vax for-tahoe)
(cond ((eq 'Nil from) (e-move '($ 0) (e-cvt to)))
(t (e-move (e-cvt from) (e-cvt to))))
#+for-68k
(let ((froma (e-cvt from))
(toa (e-cvt to)))
(if (and (dtpr froma)
(eq '$ (car froma))
(and (>& (cadr froma) -1) (<& (cadr froma) 65))
(atom toa)
(eq 'd (nthchar toa 1)))
then ;it's a mov #immed,Dn, where 0 <= immed <= 64
; i.e., it's a quick move
(e-write3 'moveq froma toa)
else (cond ((eq 'Nil froma) (e-write3 'movl '#.nil-reg toa))
(t (e-write3 'movl froma toa))))))
;--- d-movespec :: move from loc to loc where the first addr given is
; an EIADR
; - from : EIADR
; - to : IADR
;
(defun d-movespec (from to)
(makecomment `(fromspec ,from to ,(e-uncvt to)))
(e-move from (e-cvt to)))
;--- d-ashl :: emit shift code (don't know what direction to shift)
#+for-68k
(defun d-ashl (count src dst)
(let ((genlab1 (d-genlab))
(genlab2 (d-genlab)))
(e-write3 'movl src dst)
(e-write2 'tstl count)
(e-write2 'bmi genlab1)
(e-write3 'asll count dst)
(e-write2 'bra genlab2)
(e-label genlab1)
(e-write3 'asrl count dst)
(e-writel genlab2)))
;--- d-asrl :: emit shift right code
#+for-68k
(defun d-asrl (count src dst)
(e-write3 'movl src dst)
(if (and (numberp count) (greaterp count 8))
then (e-write3 'moveq (concat "#" count) 'd0)
(e-write3 'asrl 'd0 dst)
else (e-write3 'asrl (concat "#" count) dst)))
;--- d-asll :: emit shift left code
#+for-68k
(defun d-asll (count src dst)
(e-write3 'movl src dst)
(if (and (numberp count) (greaterp count 8))
then (e-write3 'moveq `($ ,count) 'd0)
(e-write3 'asll 'd0 dst)
else (e-write3 'asll `($ ,count) dst)))