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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_divU
-/* ROUTINE: $$divU
- .
- . Single precision divide for unsigned integers.
- .
- . Quotient is truncated towards zero.
- . Traps on divide by zero.
-
- INPUT REGISTERS:
- . arg0 == dividend
- . arg1 == divisor
- . mrp == return pc
- . sr0 == return space when called externally
-
- OUTPUT REGISTERS:
- . arg0 = undefined
- . arg1 = undefined
- . ret1 = quotient
-
- OTHER REGISTERS AFFECTED:
- . r1 = undefined
-
- SIDE EFFECTS:
- . Causes a trap under the following conditions:
- . divisor is zero
- . Changes memory at the following places:
- . NONE
-
- PERMISSIBLE CONTEXT:
- . Unwindable.
- . Does not create a stack frame.
- . Suitable for internal or external millicode.
- . Assumes the special millicode register conventions.
-
- DISCUSSION:
- . Branchs to other millicode routines using BE:
- . $$divU_# for 3,5,6,7,9,10,12,14,15
- .
- . For selected small divisors calls the special divide by constant
- . routines written by Karl Pettis. These are: 3,5,6,7,9,10,12,14,15. */
-
-RDEFINE(temp,r1)
-RDEFINE(retreg,ret1) /* r29 */
-RDEFINE(temp1,arg0)
- SUBSPA_MILLI_DIV
- ATTR_MILLI
- .export $$divU,millicode
- .import $$divU_3,millicode
- .import $$divU_5,millicode
- .import $$divU_6,millicode
- .import $$divU_7,millicode
- .import $$divU_9,millicode
- .import $$divU_10,millicode
- .import $$divU_12,millicode
- .import $$divU_14,millicode
- .import $$divU_15,millicode
- .proc
- .callinfo millicode
- .entry
-GSYM($$divU)
-/* The subtract is not nullified since it does no harm and can be used
- by the two cases that branch back to "normal". */
- ldo -1(arg1),temp /* is there at most one bit set ? */
- and,= arg1,temp,r0 /* if so, denominator is power of 2 */
- b LREF(regular_seq)
- addit,= 0,arg1,0 /* trap for zero dvr */
- copy arg0,retreg
- extru,= arg1,15,16,temp /* test denominator with 0xffff0000 */
- extru retreg,15,16,retreg /* retreg = retreg >> 16 */
- or arg1,temp,arg1 /* arg1 = arg1 | (arg1 >> 16) */
- ldi 0xcc,temp1 /* setup 0xcc in temp1 */
- extru,= arg1,23,8,temp /* test denominator with 0xff00 */
- extru retreg,23,24,retreg /* retreg = retreg >> 8 */
- or arg1,temp,arg1 /* arg1 = arg1 | (arg1 >> 8) */
- ldi 0xaa,temp /* setup 0xaa in temp */
- extru,= arg1,27,4,r0 /* test denominator with 0xf0 */
- extru retreg,27,28,retreg /* retreg = retreg >> 4 */
- and,= arg1,temp1,r0 /* test denominator with 0xcc */
- extru retreg,29,30,retreg /* retreg = retreg >> 2 */
- and,= arg1,temp,r0 /* test denominator with 0xaa */
- extru retreg,30,31,retreg /* retreg = retreg >> 1 */
- MILLIRETN
- nop
-LSYM(regular_seq)
- comib,>= 15,arg1,LREF(special_divisor)
- subi 0,arg1,temp /* clear carry, negate the divisor */
- ds r0,temp,r0 /* set V-bit to 1 */
-LSYM(normal)
- add arg0,arg0,retreg /* shift msb bit into carry */
- ds r0,arg1,temp /* 1st divide step, if no carry */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 2nd divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 3rd divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 4th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 5th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 6th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 7th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 8th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 9th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 10th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 11th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 12th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 13th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 14th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 15th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 16th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 17th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 18th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 19th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 20th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 21st divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 22nd divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 23rd divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 24th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 25th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 26th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 27th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 28th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 29th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 30th divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 31st divide step */
- addc retreg,retreg,retreg /* shift retreg with/into carry */
- ds temp,arg1,temp /* 32nd divide step, */
- MILLIRET
- addc retreg,retreg,retreg /* shift last retreg bit into retreg */
-
-/* Handle the cases where divisor is a small constant or has high bit on. */
-LSYM(special_divisor)
-/* blr arg1,r0 */
-/* comib,>,n 0,arg1,LREF(big_divisor) ; nullify previous instruction */
-
-/* Pratap 8/13/90. The 815 Stirling chip set has a bug that prevents us from
- generating such a blr, comib sequence. A problem in nullification. So I
- rewrote this code. */
-
-#if defined(CONFIG_64BIT)
-/* Clear the upper 32 bits of the arg1 register. We are working with
- small divisors (and 32-bit unsigned integers) We must not be mislead
- by "1" bits left in the upper 32 bits. */
- depd %r0,31,32,%r25
-#endif
- comib,> 0,arg1,LREF(big_divisor)
- nop
- blr arg1,r0
- nop
-
-LSYM(zero_divisor) /* this label is here to provide external visibility */
- addit,= 0,arg1,0 /* trap for zero dvr */
- nop
- MILLIRET /* divisor == 1 */
- copy arg0,retreg
- MILLIRET /* divisor == 2 */
- extru arg0,30,31,retreg
- MILLI_BEN($$divU_3) /* divisor == 3 */
- nop
- MILLIRET /* divisor == 4 */
- extru arg0,29,30,retreg
- MILLI_BEN($$divU_5) /* divisor == 5 */
- nop
- MILLI_BEN($$divU_6) /* divisor == 6 */
- nop
- MILLI_BEN($$divU_7) /* divisor == 7 */
- nop
- MILLIRET /* divisor == 8 */
- extru arg0,28,29,retreg
- MILLI_BEN($$divU_9) /* divisor == 9 */
- nop
- MILLI_BEN($$divU_10) /* divisor == 10 */
- nop
- b LREF(normal) /* divisor == 11 */
- ds r0,temp,r0 /* set V-bit to 1 */
- MILLI_BEN($$divU_12) /* divisor == 12 */
- nop
- b LREF(normal) /* divisor == 13 */
- ds r0,temp,r0 /* set V-bit to 1 */
- MILLI_BEN($$divU_14) /* divisor == 14 */
- nop
- MILLI_BEN($$divU_15) /* divisor == 15 */
- nop
-
-/* Handle the case where the high bit is on in the divisor.
- Compute: if( dividend>=divisor) quotient=1; else quotient=0;
- Note: dividend>==divisor iff dividend-divisor does not borrow
- and not borrow iff carry. */
-LSYM(big_divisor)
- sub arg0,arg1,r0
- MILLIRET
- addc r0,r0,retreg
- .exit
- .procend
- .end
-#endif