glibc/sysdeps/alpha/divrem.h

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/* Copyright (C) 1996, 1997 Free Software Foundation, Inc.
Contributed by David Mosberger (davidm@cs.arizona.edu).
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This file is part of the GNU C Library.
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The GNU C Library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
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The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, write to the Free
Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
02111-1307 USA. */
/* The current Alpha chips don't provide hardware for integer
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division. The C compiler expects the functions
__divqu: 64-bit unsigned long divide
__remqu: 64-bit unsigned long remainder
__divqs/__remqs: signed 64-bit
__divlu/__remlu: unsigned 32-bit
__divls/__remls: signed 32-bit
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These are not normal C functions: instead of the normal calling
sequence, these expect their arguments in registers t10 and t11, and
return the result in t12 (aka pv). Register AT may be clobbered
(assembly temporary), anything else must be saved. */
#include <sysdep.h>
#ifdef __linux__
# include <asm/gentrap.h>
# include <asm/pal.h>
#else
# include <machine/pal.h>
#endif
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#define mask v0
#define divisor t0
#define compare AT
#define tmp1 t2
#define tmp2 t3
#define retaddr t9
#define arg1 t10
#define arg2 t11
#define result t12
#if IS_REM
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# define DIV_ONLY(x,y...)
# define REM_ONLY(x,y...) x,##y
# define modulus result
# define quotient t1
# define GETSIGN(x) mov arg1, x
# define STACK 32
#else
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# define DIV_ONLY(x,y...) x,##y
# define REM_ONLY(x,y...)
# define modulus t1
# define quotient result
# define GETSIGN(x) xor arg1, arg2, x
# define STACK 48
#endif
#if SIZE == 8
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# define LONGIFY(x,y) mov x,y
# define SLONGIFY(x,y) mov x,y
# define _SLONGIFY(x)
# define NEG(x,y) negq x,y
#else
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# define LONGIFY(x,y) zapnot x,15,y
# define SLONGIFY(x,y) sextl x,y
# define _SLONGIFY(x) sextl x,x
# define NEG(x,y) negl x,y
#endif
.set noreorder
.set noat
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.ent UFUNC_NAME
.globl UFUNC_NAME
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.align 3
UFUNC_NAME:
lda sp, -STACK(sp)
.frame sp, STACK, retaddr, 0
#ifdef PROF
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stq ra, 0(sp)
stq pv, 8(sp)
stq gp, 16(sp)
br AT, 1f
1: ldgp gp, 0(AT)
mov retaddr, ra
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lda AT, _mcount
jsr AT, (AT), _mcount
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ldq ra, 0(sp)
ldq pv, 8(sp)
ldq gp, 16(sp)
#endif
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.prologue 0
$udiv:
stq t0, 0(sp)
LONGIFY (arg2, divisor)
stq t1, 8(sp)
LONGIFY (arg1, modulus)
stq v0, 16(sp)
clr quotient
stq tmp1, 24(sp)
ldiq mask, 1
DIV_ONLY(stq tmp2,32(sp))
beq divisor, $divbyzero
.align 3
#if SIZE == 8
/* Shift divisor left. */
1: cmpult divisor, modulus, compare
blt divisor, 2f
addq divisor, divisor, divisor
addq mask, mask, mask
bne compare, 1b
unop
2:
#else
/* Shift divisor left using 3-bit shifts as we can't overflow.
This results in looping three times less here, but up to
two more times later. Thus using a large shift isn't worth it. */
1: cmpult divisor, modulus, compare
s8addq divisor, zero, divisor
s8addq mask, zero, mask
bne compare, 1b
#endif
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/* Now go back to the right. */
3: DIV_ONLY(addq quotient, mask, tmp2)
srl mask, 1, mask
cmpule divisor, modulus, compare
subq modulus, divisor, tmp1
DIV_ONLY(cmovne compare, tmp2, quotient)
srl divisor, 1, divisor
cmovne compare, tmp1, modulus
bne mask, 3b
$done: ldq t0, 0(sp)
ldq t1, 8(sp)
ldq v0, 16(sp)
ldq tmp1, 24(sp)
DIV_ONLY(ldq tmp2, 32(sp))
lda sp, STACK(sp)
ret zero, (retaddr), 1
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$divbyzero:
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mov a0, tmp1
ldiq a0, GEN_INTDIV
call_pal PAL_gentrap
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mov tmp1, a0
clr result /* If trap returns, return zero. */
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br $done
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.end UFUNC_NAME
.ent SFUNC_NAME
.globl SFUNC_NAME
.align 3
SFUNC_NAME:
lda sp, -STACK(sp)
.frame sp, STACK, retaddr, 0
#ifdef PROF
stq ra, 0(sp)
stq pv, 8(sp)
stq gp, 16(sp)
br AT, 1f
1: ldgp gp, 0(AT)
mov retaddr, ra
jsr AT, _mcount
ldq ra, 0(sp)
ldq pv, 8(sp)
ldq gp, 16(sp)
#endif
.prologue 0
or arg1, arg2, AT
_SLONGIFY(AT)
bge AT, $udiv /* don't need to mess with signs */
/* Save originals and find absolute values. */
stq arg1, 0(sp)
NEG (arg1, AT)
stq arg2, 8(sp)
cmovge AT, AT, arg1
stq retaddr, 16(sp)
NEG (arg2, AT)
stq tmp1, 24(sp)
cmovge AT, AT, arg2
/* Do the unsigned division. */
bsr retaddr, UFUNC_NAME
/* Restore originals and adjust the sign of the result. */
ldq arg1, 0(sp)
ldq arg2, 8(sp)
GETSIGN (AT)
NEG (result, tmp1)
_SLONGIFY(AT)
ldq retaddr, 16(sp)
cmovlt AT, tmp1, result
ldq tmp1, 24(sp)
lda sp, STACK(sp)
ret zero, (retaddr), 1
.end SFUNC_NAME