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+/* 32 and 64-bit millicode, original author Hewlett-Packard
+ adapted for gcc by Paul Bame <bame@debian.org>
+ and Alan Modra <alan@linuxcare.com.au>.
+
+ Copyright 2001, 2002, 2003 Free Software Foundation, Inc.
+
+ This file is part of GCC and is released under the terms of
+ of the GNU General Public License as published by the Free Software
+ Foundation; either version 2, or (at your option) any later version.
+ See the file COPYING in the top-level GCC source directory for a copy
+ of the license. */
+
+#include "milli.h"
+
+#ifdef L_remI
+/* ROUTINE: $$remI
+
+ DESCRIPTION:
+ . $$remI returns the remainder of the division of two signed 32-bit
+ . integers. The sign of the remainder is the same as the sign of
+ . the dividend.
+
+
+ INPUT REGISTERS:
+ . arg0 == dividend
+ . arg1 == divisor
+ . mrp == return pc
+ . sr0 == return space when called externally
+
+ OUTPUT REGISTERS:
+ . arg0 = destroyed
+ . arg1 = destroyed
+ . ret1 = remainder
+
+ OTHER REGISTERS AFFECTED:
+ . r1 = undefined
+
+ SIDE EFFECTS:
+ . Causes a trap under the following conditions: DIVIDE BY ZERO
+ . Changes memory at the following places: NONE
+
+ PERMISSIBLE CONTEXT:
+ . Unwindable
+ . Does not create a stack frame
+ . Is usable for internal or external microcode
+
+ DISCUSSION:
+ . Calls other millicode routines via mrp: NONE
+ . Calls other millicode routines: NONE */
+
+RDEFINE(tmp,r1)
+RDEFINE(retreg,ret1)
+
+ SUBSPA_MILLI
+ ATTR_MILLI
+ .proc
+ .callinfo millicode
+ .entry
+GSYM($$remI)
+GSYM($$remoI)
+ .export $$remI,MILLICODE
+ .export $$remoI,MILLICODE
+ ldo -1(arg1),tmp /* is there at most one bit set ? */
+ and,<> arg1,tmp,r0 /* if not, don't use power of 2 */
+ addi,> 0,arg1,r0 /* if denominator > 0, use power */
+ /* of 2 */
+ b,n LREF(neg_denom)
+LSYM(pow2)
+ comb,>,n 0,arg0,LREF(neg_num) /* is numerator < 0 ? */
+ and arg0,tmp,retreg /* get the result */
+ MILLIRETN
+LSYM(neg_num)
+ subi 0,arg0,arg0 /* negate numerator */
+ and arg0,tmp,retreg /* get the result */
+ subi 0,retreg,retreg /* negate result */
+ MILLIRETN
+LSYM(neg_denom)
+ addi,< 0,arg1,r0 /* if arg1 >= 0, it's not power */
+ /* of 2 */
+ b,n LREF(regular_seq)
+ sub r0,arg1,tmp /* make denominator positive */
+ comb,=,n arg1,tmp,LREF(regular_seq) /* test against 0x80000000 and 0 */
+ ldo -1(tmp),retreg /* is there at most one bit set ? */
+ and,= tmp,retreg,r0 /* if not, go to regular_seq */
+ b,n LREF(regular_seq)
+ comb,>,n 0,arg0,LREF(neg_num_2) /* if arg0 < 0, negate it */
+ and arg0,retreg,retreg
+ MILLIRETN
+LSYM(neg_num_2)
+ subi 0,arg0,tmp /* test against 0x80000000 */
+ and tmp,retreg,retreg
+ subi 0,retreg,retreg
+ MILLIRETN
+LSYM(regular_seq)
+ addit,= 0,arg1,0 /* trap if div by zero */
+ add,>= 0,arg0,retreg /* move dividend, if retreg < 0, */
+ sub 0,retreg,retreg /* make it positive */
+ sub 0,arg1, tmp /* clear carry, */
+ /* negate the divisor */
+ ds 0, tmp,0 /* set V-bit to the comple- */
+ /* ment of the divisor sign */
+ or 0,0, tmp /* clear tmp */
+ add retreg,retreg,retreg /* shift msb bit into carry */
+ ds tmp,arg1, tmp /* 1st divide step, if no carry */
+ /* out, msb of quotient = 0 */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+LSYM(t1)
+ ds tmp,arg1, tmp /* 2nd divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 3rd divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 4th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 5th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 6th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 7th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 8th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 9th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 10th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 11th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 12th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 13th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 14th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 15th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 16th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 17th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 18th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 19th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 20th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 21st divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 22nd divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 23rd divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 24th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 25th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 26th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 27th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 28th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 29th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 30th divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 31st divide step */
+ addc retreg,retreg,retreg /* shift retreg with/into carry */
+ ds tmp,arg1, tmp /* 32nd divide step, */
+ addc retreg,retreg,retreg /* shift last bit into retreg */
+ movb,>=,n tmp,retreg,LREF(finish) /* branch if pos. tmp */
+ add,< arg1,0,0 /* if arg1 > 0, add arg1 */
+ add,tr tmp,arg1,retreg /* for correcting remainder tmp */
+ sub tmp,arg1,retreg /* else add absolute value arg1 */
+LSYM(finish)
+ add,>= arg0,0,0 /* set sign of remainder */
+ sub 0,retreg,retreg /* to sign of dividend */
+ MILLIRET
+ nop
+ .exit
+ .procend
+#ifdef milliext
+ .origin 0x00000200
+#endif
+ .end
+#endif