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30891f35fa
We stopped adding "Contributed by" or similar lines in sources in 2012 in favour of git logs and keeping the Contributors section of the glibc manual up to date. Removing these lines makes the license header a bit more consistent across files and also removes the possibility of error in attribution when license blocks or files are copied across since the contributed-by lines don't actually reflect reality in those cases. Move all "Contributed by" and similar lines (Written by, Test by, etc.) into a new file CONTRIBUTED-BY to retain record of these contributions. These contributors are also mentioned in manual/contrib.texi, so we just maintain this additional record as a courtesy to the earlier developers. The following scripts were used to filter a list of files to edit in place and to clean up the CONTRIBUTED-BY file respectively. These were not added to the glibc sources because they're not expected to be of any use in future given that this is a one time task: https://gist.github.com/siddhesh/b5ecac94eabfd72ed2916d6d8157e7dc https://gist.github.com/siddhesh/15ea1f5e435ace9774f485030695ee02 Reviewed-by: Carlos O'Donell <carlos@redhat.com>
218 lines
4.3 KiB
ArmAsm
218 lines
4.3 KiB
ArmAsm
/* Copyright (C) 1996-2021 Free Software Foundation, Inc.
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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
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License as published by the Free Software Foundation; either
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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,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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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
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License along with the GNU C Library. If not, see
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<https://www.gnu.org/licenses/>. */
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#include "div_libc.h"
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#undef FRAME
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#ifdef __alpha_fix__
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#define FRAME 0
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#else
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#define FRAME 16
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#endif
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#undef X
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#undef Y
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#define X $17
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#define Y $18
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.set noat
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.align 4
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.globl ldiv
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.ent ldiv
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ldiv:
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.frame sp, FRAME, ra
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#if FRAME > 0
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lda sp, -FRAME(sp)
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#endif
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#ifdef PROF
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.set macro
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ldgp gp, 0(pv)
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lda AT, _mcount
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jsr AT, (AT), _mcount
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.set nomacro
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.prologue 1
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#else
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.prologue 0
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#endif
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beq Y, $divbyzero
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excb
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mf_fpcr $f10
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_ITOFT2 X, $f0, 0, Y, $f1, 8
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.align 4
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cvtqt $f0, $f0
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cvtqt $f1, $f1
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divt/c $f0, $f1, $f0
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unop
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/* Check to see if X fit in the double as an exact value. */
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sll X, (64-53), AT
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sra AT, (64-53), AT
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cmpeq X, AT, AT
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beq AT, $x_big
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/* If we get here, we're expecting exact results from the division.
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Do nothing else besides convert and clean up. */
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cvttq/c $f0, $f0
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excb
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mt_fpcr $f10
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_FTOIT $f0, $0, 0
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$egress:
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mulq $0, Y, $1
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subq X, $1, $1
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stq $0, 0($16)
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stq $1, 8($16)
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mov $16, $0
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#if FRAME > 0
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lda sp, FRAME(sp)
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#endif
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ret
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.align 4
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$x_big:
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/* If we get here, X is large enough that we don't expect exact
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results, and neither X nor Y got mis-translated for the fp
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division. Our task is to take the fp result, figure out how
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far it's off from the correct result and compute a fixup. */
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#define Q v0 /* quotient */
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#define R t0 /* remainder */
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#define SY t1 /* scaled Y */
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#define S t2 /* scalar */
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#define QY t3 /* Q*Y */
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/* The fixup code below can only handle unsigned values. */
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or X, Y, AT
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mov $31, t5
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blt AT, $fix_sign_in
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$fix_sign_in_ret1:
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cvttq/c $f0, $f0
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_FTOIT $f0, Q, 8
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$fix_sign_in_ret2:
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mulq Q, Y, QY
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excb
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mt_fpcr $f10
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.align 4
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subq QY, X, R
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mov Y, SY
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mov 1, S
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bgt R, $q_high
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$q_high_ret:
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subq X, QY, R
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mov Y, SY
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mov 1, S
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bgt R, $q_low
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$q_low_ret:
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negq Q, t4
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cmovlbs t5, t4, Q
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br $egress
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.align 4
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/* The quotient that we computed was too large. We need to reduce
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it by S such that Y*S >= R. Obviously the closer we get to the
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correct value the better, but overshooting high is ok, as we'll
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fix that up later. */
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0:
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addq SY, SY, SY
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addq S, S, S
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$q_high:
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cmpult SY, R, AT
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bne AT, 0b
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subq Q, S, Q
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unop
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subq QY, SY, QY
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br $q_high_ret
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.align 4
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/* The quotient that we computed was too small. Divide Y by the
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current remainder (R) and add that to the existing quotient (Q).
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The expectation, of course, is that R is much smaller than X. */
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/* Begin with a shift-up loop. Compute S such that Y*S >= R. We
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already have a copy of Y in SY and the value 1 in S. */
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0:
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addq SY, SY, SY
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addq S, S, S
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$q_low:
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cmpult SY, R, AT
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bne AT, 0b
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/* Shift-down and subtract loop. Each iteration compares our scaled
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Y (SY) with the remainder (R); if SY <= R then X is divisible by
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Y's scalar (S) so add it to the quotient (Q). */
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2: addq Q, S, t3
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srl S, 1, S
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cmpule SY, R, AT
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subq R, SY, t4
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cmovne AT, t3, Q
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cmovne AT, t4, R
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srl SY, 1, SY
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bne S, 2b
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br $q_low_ret
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.align 4
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$fix_sign_in:
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/* If we got here, then X|Y is negative. Need to adjust everything
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such that we're doing unsigned division in the fixup loop. */
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/* T5 is true if result should be negative. */
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xor X, Y, AT
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cmplt AT, 0, t5
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cmplt X, 0, AT
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negq X, t0
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cmovne AT, t0, X
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cmplt Y, 0, AT
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negq Y, t0
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cmovne AT, t0, Y
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blbc t5, $fix_sign_in_ret1
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cvttq/c $f0, $f0
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_FTOIT $f0, Q, 8
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.align 3
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negq Q, Q
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br $fix_sign_in_ret2
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$divbyzero:
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mov a0, v0
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lda a0, GEN_INTDIV
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call_pal PAL_gentrap
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stq zero, 0(v0)
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stq zero, 8(v0)
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#if FRAME > 0
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lda sp, FRAME(sp)
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#endif
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ret
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.end ldiv
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weak_alias (ldiv, lldiv)
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weak_alias (ldiv, imaxdiv)
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