a197a2d3eb
Removed directories for no longer supported architectures.
599 lines
17 KiB
NASM
599 lines
17 KiB
NASM
dnl SPARC v9 64-bit mpn_addmul_1 -- Multiply a limb vector with a limb and add
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dnl the result to a second limb vector.
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dnl Copyright 1998, 2000, 2001, 2002, 2003, 2004 Free Software Foundation,
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dnl Inc.
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dnl This file is part of the GNU MP Library.
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dnl The GNU MP Library is free software; you can redistribute it and/or modify
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dnl it under the terms of the GNU Lesser General Public License as published
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dnl by the Free Software Foundation; either version 2.1 of the License, or (at
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dnl your option) any later version.
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dnl The GNU MP Library is distributed in the hope that it will be useful, but
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dnl WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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dnl or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
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dnl License for more details.
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dnl You should have received a copy of the GNU Lesser General Public License
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dnl along with the GNU MP Library; see the file COPYING.LIB. If not, write
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dnl to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
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dnl Boston, MA 02110-1301, USA.
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include(`../config.m4')
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C cycles/limb
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C UltraSPARC 1&2: 14
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C UltraSPARC 3: 17.5
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C Algorithm: We use eight floating-point multiplies per limb product, with the
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C invariant v operand split into four 16-bit pieces, and the up operand split
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C into 32-bit pieces. We sum pairs of 48-bit partial products using
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C floating-point add, then convert the four 49-bit product-sums and transfer
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C them to the integer unit.
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C Possible optimizations:
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C 0. Rewrite to use algorithm of mpn_addmul_2.
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C 1. Align the stack area where we transfer the four 49-bit product-sums
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C to a 32-byte boundary. That would minimize the cache collision.
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C (UltraSPARC-1/2 use a direct-mapped cache.) (Perhaps even better would
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C be to align the area to map to the area immediately before up?)
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C 2. Sum the 4 49-bit quantities using 32-bit operations, as in the
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C develop mpn_addmul_2. This would save many integer instructions.
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C 3. Unrolling. Questionable if it is worth the code expansion, given that
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C it could only save 1 cycle/limb.
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C 4. Specialize for particular v values. If its upper 32 bits are zero, we
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C could save many operations, in the FPU (fmuld), but more so in the IEU
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C since we'll be summing 48-bit quantities, which might be simpler.
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C 5. Ideally, we should schedule the f2/f3 and f4/f5 RAW further apart, and
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C the i00,i16,i32,i48 RAW less apart. The latter apart-scheduling should
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C not be greater than needed for L2 cache latency, and also not so great
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C that i16 needs to be copied.
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C 6. Avoid performing mem+fa+fm in the same cycle, at least not when we want
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C to get high IEU bandwidth. (12 of the 14 cycles will be free for 2 IEU
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C ops.)
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C Instruction classification (as per UltraSPARC-1/2 functional units):
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C 8 FM
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C 10 FA
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C 12 MEM
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C 10 ISHIFT + 14 IADDLOG
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C 1 BRANCH
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C 55 insns totally (plus one mov insn that should be optimized out)
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C The loop executes 56 instructions in 14 cycles on UltraSPARC-1/2, i.e we
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C sustain the peak execution rate of 4 instructions/cycle.
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C INPUT PARAMETERS
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C rp i0
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C up i1
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C n i2
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C v i3
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ASM_START()
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REGISTER(%g2,#scratch)
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REGISTER(%g3,#scratch)
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define(`p00', `%f8') define(`p16',`%f10') define(`p32',`%f12') define(`p48',`%f14')
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define(`r32',`%f16') define(`r48',`%f18') define(`r64',`%f20') define(`r80',`%f22')
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define(`v00',`%f24') define(`v16',`%f26') define(`v32',`%f28') define(`v48',`%f30')
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define(`u00',`%f32') define(`u32', `%f34')
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define(`a00',`%f36') define(`a16',`%f38') define(`a32',`%f40') define(`a48',`%f42')
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define(`cy',`%g1')
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define(`rlimb',`%g3')
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define(`i00',`%l0') define(`i16',`%l1') define(`i32',`%l2') define(`i48',`%l3')
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define(`xffffffff',`%l7')
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define(`xffff',`%o0')
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PROLOGUE(mpn_addmul_1)
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C Initialization. (1) Split v operand into four 16-bit chunks and store them
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C as IEEE double in fp registers. (2) Clear upper 32 bits of fp register pairs
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C f2 and f4. (3) Store masks in registers aliased to `xffff' and `xffffffff'.
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save %sp, -256, %sp
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mov -1, %g4
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srlx %g4, 48, xffff C store mask in register `xffff'
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and %i3, xffff, %g2
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stx %g2, [%sp+2223+0]
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srlx %i3, 16, %g3
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and %g3, xffff, %g3
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stx %g3, [%sp+2223+8]
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srlx %i3, 32, %g2
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and %g2, xffff, %g2
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stx %g2, [%sp+2223+16]
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srlx %i3, 48, %g3
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stx %g3, [%sp+2223+24]
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srlx %g4, 32, xffffffff C store mask in register `xffffffff'
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sllx %i2, 3, %i2
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mov 0, cy C clear cy
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add %i0, %i2, %i0
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add %i1, %i2, %i1
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neg %i2
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add %i1, 4, %i5
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add %i0, -32, %i4
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add %i0, -16, %i0
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ldd [%sp+2223+0], v00
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ldd [%sp+2223+8], v16
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ldd [%sp+2223+16], v32
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ldd [%sp+2223+24], v48
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ld [%sp+2223+0],%f2 C zero f2
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ld [%sp+2223+0],%f4 C zero f4
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ld [%i5+%i2], %f3 C read low 32 bits of up[i]
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ld [%i1+%i2], %f5 C read high 32 bits of up[i]
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fxtod v00, v00
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fxtod v16, v16
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fxtod v32, v32
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fxtod v48, v48
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C Start real work. (We sneakingly read f3 and f5 above...)
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C The software pipeline is very deep, requiring 4 feed-in stages.
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fxtod %f2, u00
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fxtod %f4, u32
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fmuld u00, v00, a00
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fmuld u00, v16, a16
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fmuld u00, v32, p32
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fmuld u32, v00, r32
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fmuld u00, v48, p48
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addcc %i2, 8, %i2
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bnz,pt %icc, .L_two_or_more
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fmuld u32, v16, r48
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.L_one:
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fmuld u32, v32, r64 C FIXME not urgent
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faddd p32, r32, a32
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fdtox a00, a00
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faddd p48, r48, a48
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fmuld u32, v48, r80 C FIXME not urgent
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fdtox a16, a16
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fdtox a32, a32
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fdtox a48, a48
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std a00, [%sp+2223+0]
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std a16, [%sp+2223+8]
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std a32, [%sp+2223+16]
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std a48, [%sp+2223+24]
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add %i2, 8, %i2
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fdtox r64, a00
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ldx [%i0+%i2], rlimb C read rp[i]
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fdtox r80, a16
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ldx [%sp+2223+0], i00
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ldx [%sp+2223+8], i16
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ldx [%sp+2223+16], i32
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ldx [%sp+2223+24], i48
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std a00, [%sp+2223+0]
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std a16, [%sp+2223+8]
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add %i2, 8, %i2
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srlx rlimb, 32, %g4 C HI(rlimb)
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and rlimb, xffffffff, %g5 C LO(rlimb)
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add i00, %g5, %g5 C i00+ now in g5
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ldx [%sp+2223+0], i00
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srlx i16, 48, %l4 C (i16 >> 48)
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mov i16, %g2
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ldx [%sp+2223+8], i16
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srlx i48, 16, %l5 C (i48 >> 16)
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add i32, %g4, %g4 C i32+ now in g4
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sllx i48, 32, %l6 C (i48 << 32)
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srlx %g4, 32, %o3 C (i32 >> 32)
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add %l5, %l4, %o1 C hi64- in %o1
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std a00, [%sp+2223+0]
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sllx %g4, 16, %o2 C (i32 << 16)
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add %o3, %o1, %o1 C hi64 in %o1 1st ASSIGNMENT
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std a16, [%sp+2223+8]
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sllx %o1, 48, %o3 C (hi64 << 48)
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add %g2, %o2, %o2 C mi64- in %o2
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add %l6, %o2, %o2 C mi64- in %o2
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sub %o2, %o3, %o2 C mi64 in %o2 1st ASSIGNMENT
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add cy, %g5, %o4 C x = prev(i00) + cy
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b .L_out_1
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add %i2, 8, %i2
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.L_two_or_more:
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ld [%i5+%i2], %f3 C read low 32 bits of up[i]
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fmuld u32, v32, r64 C FIXME not urgent
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faddd p32, r32, a32
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ld [%i1+%i2], %f5 C read high 32 bits of up[i]
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fdtox a00, a00
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faddd p48, r48, a48
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fmuld u32, v48, r80 C FIXME not urgent
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fdtox a16, a16
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fdtox a32, a32
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fxtod %f2, u00
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fxtod %f4, u32
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fdtox a48, a48
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std a00, [%sp+2223+0]
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fmuld u00, v00, p00
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std a16, [%sp+2223+8]
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fmuld u00, v16, p16
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std a32, [%sp+2223+16]
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fmuld u00, v32, p32
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std a48, [%sp+2223+24]
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faddd p00, r64, a00
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fmuld u32, v00, r32
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faddd p16, r80, a16
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fmuld u00, v48, p48
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addcc %i2, 8, %i2
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bnz,pt %icc, .L_three_or_more
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fmuld u32, v16, r48
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.L_two:
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fmuld u32, v32, r64 C FIXME not urgent
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faddd p32, r32, a32
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fdtox a00, a00
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ldx [%i0+%i2], rlimb C read rp[i]
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faddd p48, r48, a48
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fmuld u32, v48, r80 C FIXME not urgent
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fdtox a16, a16
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ldx [%sp+2223+0], i00
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fdtox a32, a32
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ldx [%sp+2223+8], i16
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ldx [%sp+2223+16], i32
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ldx [%sp+2223+24], i48
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fdtox a48, a48
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std a00, [%sp+2223+0]
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std a16, [%sp+2223+8]
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std a32, [%sp+2223+16]
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std a48, [%sp+2223+24]
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add %i2, 8, %i2
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fdtox r64, a00
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srlx rlimb, 32, %g4 C HI(rlimb)
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and rlimb, xffffffff, %g5 C LO(rlimb)
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ldx [%i0+%i2], rlimb C read rp[i]
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add i00, %g5, %g5 C i00+ now in g5
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fdtox r80, a16
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ldx [%sp+2223+0], i00
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srlx i16, 48, %l4 C (i16 >> 48)
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mov i16, %g2
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ldx [%sp+2223+8], i16
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srlx i48, 16, %l5 C (i48 >> 16)
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add i32, %g4, %g4 C i32+ now in g4
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ldx [%sp+2223+16], i32
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sllx i48, 32, %l6 C (i48 << 32)
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ldx [%sp+2223+24], i48
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srlx %g4, 32, %o3 C (i32 >> 32)
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add %l5, %l4, %o1 C hi64- in %o1
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std a00, [%sp+2223+0]
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sllx %g4, 16, %o2 C (i32 << 16)
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add %o3, %o1, %o1 C hi64 in %o1 1st ASSIGNMENT
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std a16, [%sp+2223+8]
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sllx %o1, 48, %o3 C (hi64 << 48)
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add %g2, %o2, %o2 C mi64- in %o2
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add %l6, %o2, %o2 C mi64- in %o2
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sub %o2, %o3, %o2 C mi64 in %o2 1st ASSIGNMENT
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add cy, %g5, %o4 C x = prev(i00) + cy
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b .L_out_2
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add %i2, 8, %i2
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.L_three_or_more:
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ld [%i5+%i2], %f3 C read low 32 bits of up[i]
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fmuld u32, v32, r64 C FIXME not urgent
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faddd p32, r32, a32
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ld [%i1+%i2], %f5 C read high 32 bits of up[i]
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fdtox a00, a00
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ldx [%i0+%i2], rlimb C read rp[i]
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faddd p48, r48, a48
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fmuld u32, v48, r80 C FIXME not urgent
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fdtox a16, a16
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ldx [%sp+2223+0], i00
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fdtox a32, a32
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ldx [%sp+2223+8], i16
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fxtod %f2, u00
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ldx [%sp+2223+16], i32
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fxtod %f4, u32
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ldx [%sp+2223+24], i48
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fdtox a48, a48
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std a00, [%sp+2223+0]
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fmuld u00, v00, p00
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std a16, [%sp+2223+8]
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fmuld u00, v16, p16
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std a32, [%sp+2223+16]
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fmuld u00, v32, p32
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std a48, [%sp+2223+24]
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faddd p00, r64, a00
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fmuld u32, v00, r32
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faddd p16, r80, a16
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fmuld u00, v48, p48
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addcc %i2, 8, %i2
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bnz,pt %icc, .L_four_or_more
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fmuld u32, v16, r48
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.L_three:
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fmuld u32, v32, r64 C FIXME not urgent
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faddd p32, r32, a32
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fdtox a00, a00
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srlx rlimb, 32, %g4 C HI(rlimb)
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and rlimb, xffffffff, %g5 C LO(rlimb)
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ldx [%i0+%i2], rlimb C read rp[i]
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faddd p48, r48, a48
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add i00, %g5, %g5 C i00+ now in g5
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fmuld u32, v48, r80 C FIXME not urgent
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fdtox a16, a16
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ldx [%sp+2223+0], i00
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fdtox a32, a32
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srlx i16, 48, %l4 C (i16 >> 48)
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mov i16, %g2
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ldx [%sp+2223+8], i16
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srlx i48, 16, %l5 C (i48 >> 16)
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add i32, %g4, %g4 C i32+ now in g4
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ldx [%sp+2223+16], i32
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sllx i48, 32, %l6 C (i48 << 32)
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ldx [%sp+2223+24], i48
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fdtox a48, a48
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srlx %g4, 32, %o3 C (i32 >> 32)
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add %l5, %l4, %o1 C hi64- in %o1
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std a00, [%sp+2223+0]
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sllx %g4, 16, %o2 C (i32 << 16)
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add %o3, %o1, %o1 C hi64 in %o1 1st ASSIGNMENT
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std a16, [%sp+2223+8]
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sllx %o1, 48, %o3 C (hi64 << 48)
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add %g2, %o2, %o2 C mi64- in %o2
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std a32, [%sp+2223+16]
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add %l6, %o2, %o2 C mi64- in %o2
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std a48, [%sp+2223+24]
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sub %o2, %o3, %o2 C mi64 in %o2 1st ASSIGNMENT
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add cy, %g5, %o4 C x = prev(i00) + cy
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b .L_out_3
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add %i2, 8, %i2
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.L_four_or_more:
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ld [%i5+%i2], %f3 C read low 32 bits of up[i]
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fmuld u32, v32, r64 C FIXME not urgent
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faddd p32, r32, a32
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ld [%i1+%i2], %f5 C read high 32 bits of up[i]
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fdtox a00, a00
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srlx rlimb, 32, %g4 C HI(rlimb)
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and rlimb, xffffffff, %g5 C LO(rlimb)
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ldx [%i0+%i2], rlimb C read rp[i]
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faddd p48, r48, a48
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add i00, %g5, %g5 C i00+ now in g5
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fmuld u32, v48, r80 C FIXME not urgent
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fdtox a16, a16
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ldx [%sp+2223+0], i00
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fdtox a32, a32
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srlx i16, 48, %l4 C (i16 >> 48)
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mov i16, %g2
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ldx [%sp+2223+8], i16
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fxtod %f2, u00
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srlx i48, 16, %l5 C (i48 >> 16)
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add i32, %g4, %g4 C i32+ now in g4
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ldx [%sp+2223+16], i32
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fxtod %f4, u32
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sllx i48, 32, %l6 C (i48 << 32)
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ldx [%sp+2223+24], i48
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fdtox a48, a48
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srlx %g4, 32, %o3 C (i32 >> 32)
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add %l5, %l4, %o1 C hi64- in %o1
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std a00, [%sp+2223+0]
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fmuld u00, v00, p00
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sllx %g4, 16, %o2 C (i32 << 16)
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add %o3, %o1, %o1 C hi64 in %o1 1st ASSIGNMENT
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std a16, [%sp+2223+8]
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fmuld u00, v16, p16
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sllx %o1, 48, %o3 C (hi64 << 48)
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add %g2, %o2, %o2 C mi64- in %o2
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std a32, [%sp+2223+16]
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fmuld u00, v32, p32
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add %l6, %o2, %o2 C mi64- in %o2
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std a48, [%sp+2223+24]
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faddd p00, r64, a00
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fmuld u32, v00, r32
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sub %o2, %o3, %o2 C mi64 in %o2 1st ASSIGNMENT
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faddd p16, r80, a16
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fmuld u00, v48, p48
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add cy, %g5, %o4 C x = prev(i00) + cy
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addcc %i2, 8, %i2
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bnz,pt %icc, .Loop
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fmuld u32, v16, r48
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.L_four:
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b,a .L_out_4
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C BEGIN MAIN LOOP
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.align 16
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.Loop:
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C 00
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srlx %o4, 16, %o5 C (x >> 16)
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ld [%i5+%i2], %f3 C read low 32 bits of up[i]
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fmuld u32, v32, r64 C FIXME not urgent
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faddd p32, r32, a32
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C 01
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add %o5, %o2, %o2 C mi64 in %o2 2nd ASSIGNMENT
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and %o4, xffff, %o5 C (x & 0xffff)
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ld [%i1+%i2], %f5 C read high 32 bits of up[i]
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fdtox a00, a00
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C 02
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srlx rlimb, 32, %g4 C HI(rlimb)
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and rlimb, xffffffff, %g5 C LO(rlimb)
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ldx [%i0+%i2], rlimb C read rp[i]
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faddd p48, r48, a48
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C 03
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srlx %o2, 48, %o7 C (mi64 >> 48)
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add i00, %g5, %g5 C i00+ now in g5
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fmuld u32, v48, r80 C FIXME not urgent
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fdtox a16, a16
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C 04
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sllx %o2, 16, %i3 C (mi64 << 16)
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add %o7, %o1, cy C new cy
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ldx [%sp+2223+0], i00
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fdtox a32, a32
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C 05
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srlx i16, 48, %l4 C (i16 >> 48)
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mov i16, %g2
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ldx [%sp+2223+8], i16
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fxtod %f2, u00
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C 06
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srlx i48, 16, %l5 C (i48 >> 16)
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add i32, %g4, %g4 C i32+ now in g4
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ldx [%sp+2223+16], i32
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fxtod %f4, u32
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C 07
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sllx i48, 32, %l6 C (i48 << 32)
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or %i3, %o5, %o5
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ldx [%sp+2223+24], i48
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fdtox a48, a48
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C 08
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srlx %g4, 32, %o3 C (i32 >> 32)
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add %l5, %l4, %o1 C hi64- in %o1
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std a00, [%sp+2223+0]
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fmuld u00, v00, p00
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C 09
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sllx %g4, 16, %o2 C (i32 << 16)
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add %o3, %o1, %o1 C hi64 in %o1 1st ASSIGNMENT
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std a16, [%sp+2223+8]
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fmuld u00, v16, p16
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C 10
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sllx %o1, 48, %o3 C (hi64 << 48)
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add %g2, %o2, %o2 C mi64- in %o2
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std a32, [%sp+2223+16]
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fmuld u00, v32, p32
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C 11
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add %l6, %o2, %o2 C mi64- in %o2
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std a48, [%sp+2223+24]
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faddd p00, r64, a00
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fmuld u32, v00, r32
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C 12
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sub %o2, %o3, %o2 C mi64 in %o2 1st ASSIGNMENT
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stx %o5, [%i4+%i2]
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faddd p16, r80, a16
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fmuld u00, v48, p48
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C 13
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add cy, %g5, %o4 C x = prev(i00) + cy
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addcc %i2, 8, %i2
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bnz,pt %icc, .Loop
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fmuld u32, v16, r48
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C END MAIN LOOP
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.L_out_4:
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srlx %o4, 16, %o5 C (x >> 16)
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fmuld u32, v32, r64 C FIXME not urgent
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faddd p32, r32, a32
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add %o5, %o2, %o2 C mi64 in %o2 2nd ASSIGNMENT
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and %o4, xffff, %o5 C (x & 0xffff)
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fdtox a00, a00
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srlx rlimb, 32, %g4 C HI(rlimb)
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and rlimb, xffffffff, %g5 C LO(rlimb)
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ldx [%i0+%i2], rlimb C read rp[i]
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faddd p48, r48, a48
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srlx %o2, 48, %o7 C (mi64 >> 48)
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add i00, %g5, %g5 C i00+ now in g5
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fmuld u32, v48, r80 C FIXME not urgent
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fdtox a16, a16
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sllx %o2, 16, %i3 C (mi64 << 16)
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add %o7, %o1, cy C new cy
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ldx [%sp+2223+0], i00
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fdtox a32, a32
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srlx i16, 48, %l4 C (i16 >> 48)
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mov i16, %g2
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ldx [%sp+2223+8], i16
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srlx i48, 16, %l5 C (i48 >> 16)
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add i32, %g4, %g4 C i32+ now in g4
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ldx [%sp+2223+16], i32
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sllx i48, 32, %l6 C (i48 << 32)
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or %i3, %o5, %o5
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ldx [%sp+2223+24], i48
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fdtox a48, a48
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srlx %g4, 32, %o3 C (i32 >> 32)
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add %l5, %l4, %o1 C hi64- in %o1
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std a00, [%sp+2223+0]
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sllx %g4, 16, %o2 C (i32 << 16)
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add %o3, %o1, %o1 C hi64 in %o1 1st ASSIGNMENT
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std a16, [%sp+2223+8]
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sllx %o1, 48, %o3 C (hi64 << 48)
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add %g2, %o2, %o2 C mi64- in %o2
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std a32, [%sp+2223+16]
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add %l6, %o2, %o2 C mi64- in %o2
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std a48, [%sp+2223+24]
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sub %o2, %o3, %o2 C mi64 in %o2 1st ASSIGNMENT
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stx %o5, [%i4+%i2]
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add cy, %g5, %o4 C x = prev(i00) + cy
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add %i2, 8, %i2
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.L_out_3:
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srlx %o4, 16, %o5 C (x >> 16)
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add %o5, %o2, %o2 C mi64 in %o2 2nd ASSIGNMENT
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and %o4, xffff, %o5 C (x & 0xffff)
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fdtox r64, a00
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srlx rlimb, 32, %g4 C HI(rlimb)
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and rlimb, xffffffff, %g5 C LO(rlimb)
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ldx [%i0+%i2], rlimb C read rp[i]
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srlx %o2, 48, %o7 C (mi64 >> 48)
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add i00, %g5, %g5 C i00+ now in g5
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fdtox r80, a16
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sllx %o2, 16, %i3 C (mi64 << 16)
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add %o7, %o1, cy C new cy
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ldx [%sp+2223+0], i00
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srlx i16, 48, %l4 C (i16 >> 48)
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mov i16, %g2
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ldx [%sp+2223+8], i16
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srlx i48, 16, %l5 C (i48 >> 16)
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add i32, %g4, %g4 C i32+ now in g4
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ldx [%sp+2223+16], i32
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sllx i48, 32, %l6 C (i48 << 32)
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or %i3, %o5, %o5
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ldx [%sp+2223+24], i48
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srlx %g4, 32, %o3 C (i32 >> 32)
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add %l5, %l4, %o1 C hi64- in %o1
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std a00, [%sp+2223+0]
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sllx %g4, 16, %o2 C (i32 << 16)
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add %o3, %o1, %o1 C hi64 in %o1 1st ASSIGNMENT
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std a16, [%sp+2223+8]
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sllx %o1, 48, %o3 C (hi64 << 48)
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add %g2, %o2, %o2 C mi64- in %o2
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add %l6, %o2, %o2 C mi64- in %o2
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sub %o2, %o3, %o2 C mi64 in %o2 1st ASSIGNMENT
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stx %o5, [%i4+%i2]
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add cy, %g5, %o4 C x = prev(i00) + cy
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add %i2, 8, %i2
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.L_out_2:
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srlx %o4, 16, %o5 C (x >> 16)
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add %o5, %o2, %o2 C mi64 in %o2 2nd ASSIGNMENT
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and %o4, xffff, %o5 C (x & 0xffff)
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srlx rlimb, 32, %g4 C HI(rlimb)
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and rlimb, xffffffff, %g5 C LO(rlimb)
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srlx %o2, 48, %o7 C (mi64 >> 48)
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add i00, %g5, %g5 C i00+ now in g5
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sllx %o2, 16, %i3 C (mi64 << 16)
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add %o7, %o1, cy C new cy
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ldx [%sp+2223+0], i00
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srlx i16, 48, %l4 C (i16 >> 48)
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mov i16, %g2
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ldx [%sp+2223+8], i16
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srlx i48, 16, %l5 C (i48 >> 16)
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add i32, %g4, %g4 C i32+ now in g4
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sllx i48, 32, %l6 C (i48 << 32)
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or %i3, %o5, %o5
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srlx %g4, 32, %o3 C (i32 >> 32)
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add %l5, %l4, %o1 C hi64- in %o1
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sllx %g4, 16, %o2 C (i32 << 16)
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add %o3, %o1, %o1 C hi64 in %o1 1st ASSIGNMENT
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sllx %o1, 48, %o3 C (hi64 << 48)
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add %g2, %o2, %o2 C mi64- in %o2
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add %l6, %o2, %o2 C mi64- in %o2
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sub %o2, %o3, %o2 C mi64 in %o2 1st ASSIGNMENT
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stx %o5, [%i4+%i2]
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add cy, %g5, %o4 C x = prev(i00) + cy
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add %i2, 8, %i2
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.L_out_1:
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srlx %o4, 16, %o5 C (x >> 16)
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add %o5, %o2, %o2 C mi64 in %o2 2nd ASSIGNMENT
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and %o4, xffff, %o5 C (x & 0xffff)
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srlx %o2, 48, %o7 C (mi64 >> 48)
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sllx %o2, 16, %i3 C (mi64 << 16)
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add %o7, %o1, cy C new cy
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or %i3, %o5, %o5
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stx %o5, [%i4+%i2]
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sllx i00, 0, %g2
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add %g2, cy, cy
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sllx i16, 16, %g3
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add %g3, cy, cy
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return %i7+8
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mov cy, %o0
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EPILOGUE(mpn_addmul_1)
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