mirror of https://github.com/FFmpeg/FFmpeg.git
Profiling results for overall decode and the output_data function in particular are as follows: Before After Mean StdDev Mean StdDev Confidence Change 6:2 total 339.6 15.1 329.3 16.0 95.8% +3.1% (insignificant) 6:2 function 24.6 6.0 9.9 3.1 100.0% +148.5% 8:2 total 324.5 15.5 323.6 14.3 15.2% +0.3% (insignificant) 8:2 function 20.4 3.9 9.9 3.4 100.0% +104.7% 6:6 total 572.8 20.6 539.9 24.2 100.0% +6.1% 6:6 function 54.5 5.6 16.0 3.8 100.0% +240.9% 8:8 total 741.5 21.2 702.5 18.5 100.0% +5.6% 8:8 function 63.9 7.6 18.4 4.8 100.0% +247.3% The assembly version has also been tested with a fuzz tester to ensure that any combinations of inputs not exercised by my available test streams still generate mathematically identical results to the C version. Signed-off-by: Martin Storsjö <martin@martin.st>pull/64/head
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/* |
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* Copyright (c) 2014 RISC OS Open Ltd |
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* Author: Ben Avison <bavison@riscosopen.org>
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* |
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* This file is part of Libav. |
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* |
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* Libav 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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* |
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* Libav 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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* |
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* You should have received a copy of the GNU Lesser General Public |
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* License along with Libav; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA |
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*/ |
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#include "libavutil/arm/asm.S" |
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.macro loadregoffsh2 group, index, base, offgroup, offindex |
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.altmacro |
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loadregoffsh2_ \group, %(\index), \base, \offgroup, %(\offindex) |
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.noaltmacro |
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.endm |
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.macro loadregoffsh2_ group, index, base, offgroup, offindex |
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ldr \group\index, [\base, \offgroup\offindex, lsl #2] |
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.endm |
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.macro eorlslreg check, data, group, index |
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.altmacro |
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eorlslreg_ \check, \data, \group, %(\index) |
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.noaltmacro |
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.endm |
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.macro eorlslreg_ check, data, group, index |
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eor \check, \check, \data, lsl \group\index |
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.endm |
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.macro decr_modulo var, by, modulus |
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.set \var, \var - \by |
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.if \var == 0 |
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.set \var, \modulus |
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.endif |
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.endm |
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.macro load_group1 size, channels, r0, r1, r2, r3, pointer_dead=0 |
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.if \size == 2 |
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ldrd \r0, \r1, [IN], #(\size + 8 - \channels) * 4 |
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.else // size == 4 |
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.if IDX1 > 4 || \channels==8 |
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ldm IN!, {\r0, \r1, \r2, \r3} |
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.else |
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ldm IN, {\r0, \r1, \r2, \r3} |
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.if !\pointer_dead |
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add IN, IN, #(4 + 8 - \channels) * 4 |
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.endif |
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.endif |
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.endif |
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decr_modulo IDX1, \size, \channels |
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.endm |
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.macro load_group2 size, channels, r0, r1, r2, r3, pointer_dead=0 |
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.if \size == 2 |
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.if IDX1 > 2 |
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ldm IN!, {\r2, \r3} |
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.else |
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//A .ifc \r2, ip |
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//A .if \pointer_dead |
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//A ldm IN, {\r2, \r3} |
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//A .else |
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//A ldr \r2, [IN], #4 |
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//A ldr \r3, [IN], #(\size - 1 + 8 - \channels) * 4 |
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//A .endif |
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//A .else |
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ldrd \r2, \r3, [IN], #(\size + 8 - \channels) * 4 |
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//A .endif |
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.endif |
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.endif |
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decr_modulo IDX1, \size, \channels |
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.endm |
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.macro implement_pack inorder, channels, shift |
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.if \inorder |
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.ifc \shift, mixed |
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CHECK .req a1 |
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COUNT .req a2 |
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IN .req a3 |
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OUT .req a4 |
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DAT0 .req v1 |
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DAT1 .req v2 |
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DAT2 .req v3 |
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DAT3 .req v4 |
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SHIFT0 .req v5 |
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SHIFT1 .req v6 |
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SHIFT2 .req sl |
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SHIFT3 .req fp |
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SHIFT4 .req ip |
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SHIFT5 .req lr |
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.macro output4words
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.set SIZE_GROUP1, IDX1 |
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.if SIZE_GROUP1 > 4 |
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.set SIZE_GROUP1, 4 |
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.endif |
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.set SIZE_GROUP2, 4 - SIZE_GROUP1 |
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load_group1 SIZE_GROUP1, \channels, DAT0, DAT1, DAT2, DAT3 |
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load_group2 SIZE_GROUP2, \channels, DAT0, DAT1, DAT2, DAT3 |
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.if \channels == 2 |
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lsl DAT0, SHIFT0 |
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lsl DAT1, SHIFT1 |
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lsl DAT2, SHIFT0 |
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lsl DAT3, SHIFT1 |
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.elseif \channels == 6 |
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.if IDX2 == 6 |
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lsl DAT0, SHIFT0 |
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lsl DAT1, SHIFT1 |
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lsl DAT2, SHIFT2 |
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lsl DAT3, SHIFT3 |
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.elseif IDX2 == 2 |
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lsl DAT0, SHIFT4 |
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lsl DAT1, SHIFT5 |
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lsl DAT2, SHIFT0 |
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lsl DAT3, SHIFT1 |
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.else // IDX2 == 4 |
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lsl DAT0, SHIFT2 |
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lsl DAT1, SHIFT3 |
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lsl DAT2, SHIFT4 |
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lsl DAT3, SHIFT5 |
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.endif |
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.elseif \channels == 8 |
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.if IDX2 == 8 |
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uxtb SHIFT0, SHIFT4, ror #0 |
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uxtb SHIFT1, SHIFT4, ror #8 |
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uxtb SHIFT2, SHIFT4, ror #16 |
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uxtb SHIFT3, SHIFT4, ror #24 |
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.else |
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uxtb SHIFT0, SHIFT5, ror #0 |
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uxtb SHIFT1, SHIFT5, ror #8 |
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uxtb SHIFT2, SHIFT5, ror #16 |
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uxtb SHIFT3, SHIFT5, ror #24 |
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.endif |
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lsl DAT0, SHIFT0 |
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lsl DAT1, SHIFT1 |
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lsl DAT2, SHIFT2 |
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lsl DAT3, SHIFT3 |
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.endif |
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eor CHECK, CHECK, DAT0, lsr #8 - (\channels - IDX2) |
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eor CHECK, CHECK, DAT1, lsr #7 - (\channels - IDX2) |
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decr_modulo IDX2, 2, \channels |
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eor CHECK, CHECK, DAT2, lsr #8 - (\channels - IDX2) |
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eor CHECK, CHECK, DAT3, lsr #7 - (\channels - IDX2) |
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decr_modulo IDX2, 2, \channels |
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stm OUT!, {DAT0 - DAT3} |
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.endm |
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.set WORDS_PER_LOOP, \channels // calculate LCM (channels, 4) |
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.if (WORDS_PER_LOOP % 2) == 0 |
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.set WORDS_PER_LOOP, WORDS_PER_LOOP / 2 |
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.endif |
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.if (WORDS_PER_LOOP % 2) == 0 |
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.set WORDS_PER_LOOP, WORDS_PER_LOOP / 2 |
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.endif |
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.set WORDS_PER_LOOP, WORDS_PER_LOOP * 4 |
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.set SAMPLES_PER_LOOP, WORDS_PER_LOOP / \channels |
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function ff_mlp_pack_output_inorder_\channels\()ch_mixedshift_armv6, export=1 |
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.if SAMPLES_PER_LOOP > 1 |
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tst COUNT, #SAMPLES_PER_LOOP - 1 // always seems to be in practice |
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it ne |
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bne X(ff_mlp_pack_output) // but just in case, branch to C implementation if not |
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.endif |
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teq COUNT, #0 |
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it eq |
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bxeq lr |
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push {v1-v6,sl,fp,lr} |
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ldr SHIFT0, [sp, #(9+1)*4] // get output_shift from stack |
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ldr SHIFT1, =0x08080808 |
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ldr SHIFT4, [SHIFT0] |
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.if \channels == 2 |
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uadd8 SHIFT4, SHIFT4, SHIFT1 // increase all shifts by 8 |
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uxtb SHIFT0, SHIFT4, ror #0 |
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uxtb SHIFT1, SHIFT4, ror #8 |
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.else |
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ldr SHIFT5, [SHIFT0, #4] |
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uadd8 SHIFT4, SHIFT4, SHIFT1 // increase all shifts by 8 |
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uadd8 SHIFT5, SHIFT5, SHIFT1 |
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.if \channels == 6 |
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uxtb SHIFT0, SHIFT4, ror #0 |
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uxtb SHIFT1, SHIFT4, ror #8 |
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uxtb SHIFT2, SHIFT4, ror #16 |
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uxtb SHIFT3, SHIFT4, ror #24 |
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uxtb SHIFT4, SHIFT5, ror #0 |
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uxtb SHIFT5, SHIFT5, ror #8 |
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.endif |
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.endif |
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.set IDX1, \channels |
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.set IDX2, \channels |
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0: |
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.rept WORDS_PER_LOOP / 4 |
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output4words |
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.endr |
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subs COUNT, COUNT, #SAMPLES_PER_LOOP |
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bne 0b |
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pop {v1-v6,sl,fp,pc} |
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.ltorg |
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endfunc |
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.purgem output4words
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.unreq CHECK
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.unreq COUNT
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.unreq IN
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.unreq OUT
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.unreq DAT0
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.unreq DAT1
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.unreq DAT2
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.unreq DAT3
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.unreq SHIFT0
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.unreq SHIFT1
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.unreq SHIFT2
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.unreq SHIFT3
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.unreq SHIFT4
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.unreq SHIFT5
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.else // not mixed |
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CHECK .req a1 |
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COUNT .req a2 |
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IN .req a3 |
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OUT .req a4 |
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DAT0 .req v1 |
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DAT1 .req v2 |
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DAT2 .req v3 |
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DAT3 .req v4 |
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DAT4 .req v5 |
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DAT5 .req v6 |
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DAT6 .req sl // use these rather than the otherwise unused |
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DAT7 .req fp // ip and lr so that we can load them usinf LDRD |
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.macro output4words tail, head, r0, r1, r2, r3, r4, r5, r6, r7, pointer_dead=0 |
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.if \head |
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.set SIZE_GROUP1, IDX1 |
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.if SIZE_GROUP1 > 4 |
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.set SIZE_GROUP1, 4 |
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.endif |
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.set SIZE_GROUP2, 4 - SIZE_GROUP1 |
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load_group1 SIZE_GROUP1, \channels, \r0, \r1, \r2, \r3, \pointer_dead |
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.endif |
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.if \tail |
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eor CHECK, CHECK, \r4, lsr #8 - (\channels - IDX2) |
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eor CHECK, CHECK, \r5, lsr #7 - (\channels - IDX2) |
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decr_modulo IDX2, 2, \channels |
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.endif |
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.if \head |
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load_group2 SIZE_GROUP2, \channels, \r0, \r1, \r2, \r3, \pointer_dead |
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.endif |
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.if \tail |
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eor CHECK, CHECK, \r6, lsr #8 - (\channels - IDX2) |
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eor CHECK, CHECK, \r7, lsr #7 - (\channels - IDX2) |
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decr_modulo IDX2, 2, \channels |
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stm OUT!, {\r4, \r5, \r6, \r7} |
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.endif |
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.if \head |
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lsl \r0, #8 + \shift |
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lsl \r1, #8 + \shift |
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lsl \r2, #8 + \shift |
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lsl \r3, #8 + \shift |
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.endif |
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.endm |
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.set WORDS_PER_LOOP, \channels // calculate LCM (channels, 8) |
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.if (WORDS_PER_LOOP % 2) == 0 |
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.set WORDS_PER_LOOP, WORDS_PER_LOOP / 2 |
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.endif |
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.if (WORDS_PER_LOOP % 2) == 0 |
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.set WORDS_PER_LOOP, WORDS_PER_LOOP / 2 |
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.endif |
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.if (WORDS_PER_LOOP % 2) == 0 |
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.set WORDS_PER_LOOP, WORDS_PER_LOOP / 2 |
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.endif |
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.set WORDS_PER_LOOP, WORDS_PER_LOOP * 8 |
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.set SAMPLES_PER_LOOP, WORDS_PER_LOOP / \channels |
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function ff_mlp_pack_output_inorder_\channels\()ch_\shift\()shift_armv6, export=1 |
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.if SAMPLES_PER_LOOP > 1 |
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tst COUNT, #SAMPLES_PER_LOOP - 1 // always seems to be in practice |
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it ne |
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bne X(ff_mlp_pack_output) // but just in case, branch to C implementation if not |
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.endif |
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subs COUNT, COUNT, #SAMPLES_PER_LOOP |
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it lo |
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bxlo lr |
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push {v1-v6,sl,fp,lr} |
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.set IDX1, \channels |
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.set IDX2, \channels |
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output4words 0, 1, DAT0, DAT1, DAT2, DAT3, DAT4, DAT5, DAT6, DAT7 |
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0: beq 1f |
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.rept WORDS_PER_LOOP / 8 |
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output4words 1, 1, DAT4, DAT5, DAT6, DAT7, DAT0, DAT1, DAT2, DAT3 |
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output4words 1, 1, DAT0, DAT1, DAT2, DAT3, DAT4, DAT5, DAT6, DAT7 |
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.endr |
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subs COUNT, COUNT, #SAMPLES_PER_LOOP |
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bne 0b |
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1: |
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.rept WORDS_PER_LOOP / 8 - 1 |
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output4words 1, 1, DAT4, DAT5, DAT6, DAT7, DAT0, DAT1, DAT2, DAT3 |
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output4words 1, 1, DAT0, DAT1, DAT2, DAT3, DAT4, DAT5, DAT6, DAT7 |
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.endr |
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output4words 1, 1, DAT4, DAT5, DAT6, DAT7, DAT0, DAT1, DAT2, DAT3, pointer_dead=1 |
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output4words 1, 0, DAT0, DAT1, DAT2, DAT3, DAT4, DAT5, DAT6, DAT7 |
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pop {v1-v6,sl,fp,pc} |
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endfunc |
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.purgem output4words
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.unreq CHECK
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.unreq COUNT
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.unreq IN
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.unreq OUT
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.unreq DAT0
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.unreq DAT1
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.unreq DAT2
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.unreq DAT3
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.unreq DAT4
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.unreq DAT5
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.unreq DAT6
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.unreq DAT7
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.endif // mixed |
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.else // not inorder |
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.ifc \shift, mixed |
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// This case not currently handled |
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.else // not mixed |
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#if !CONFIG_THUMB |
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CHECK .req a1 |
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COUNT .req a2 |
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IN .req a3 |
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OUT .req a4 |
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DAT0 .req v1 |
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DAT1 .req v2 |
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DAT2 .req v3 |
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DAT3 .req v4 |
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CHAN0 .req v5 |
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CHAN1 .req v6 |
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CHAN2 .req sl |
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CHAN3 .req fp |
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CHAN4 .req ip |
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CHAN5 .req lr |
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.macro output4words
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.if \channels == 8 |
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.if IDX1 == 8 |
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uxtb CHAN0, CHAN4, ror #0 |
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uxtb CHAN1, CHAN4, ror #8 |
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uxtb CHAN2, CHAN4, ror #16 |
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uxtb CHAN3, CHAN4, ror #24 |
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.else |
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uxtb CHAN0, CHAN5, ror #0 |
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uxtb CHAN1, CHAN5, ror #8 |
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uxtb CHAN2, CHAN5, ror #16 |
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uxtb CHAN3, CHAN5, ror #24 |
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.endif |
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ldr DAT0, [IN, CHAN0, lsl #2] |
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ldr DAT1, [IN, CHAN1, lsl #2] |
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ldr DAT2, [IN, CHAN2, lsl #2] |
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ldr DAT3, [IN, CHAN3, lsl #2] |
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.if IDX1 == 4 |
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add IN, IN, #8*4 |
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.endif |
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decr_modulo IDX1, 4, \channels |
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.else |
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.set SIZE_GROUP1, IDX1 |
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.if SIZE_GROUP1 > 4 |
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.set SIZE_GROUP1, 4 |
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.endif |
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.set SIZE_GROUP2, 4 - SIZE_GROUP1 |
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.if SIZE_GROUP1 == 2 |
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loadregoffsh2 DAT, 0, IN, CHAN, 0 + (\channels - IDX1) |
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loadregoffsh2 DAT, 1, IN, CHAN, 1 + (\channels - IDX1) |
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add IN, IN, #8*4 |
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.else // SIZE_GROUP1 == 4 |
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loadregoffsh2 DAT, 0, IN, CHAN, 0 + (\channels - IDX1) |
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loadregoffsh2 DAT, 1, IN, CHAN, 1 + (\channels - IDX1) |
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loadregoffsh2 DAT, 2, IN, CHAN, 2 + (\channels - IDX1) |
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loadregoffsh2 DAT, 3, IN, CHAN, 3 + (\channels - IDX1) |
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.if IDX1 == 4 |
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add IN, IN, #8*4 |
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.endif |
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.endif |
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decr_modulo IDX1, SIZE_GROUP1, \channels |
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.if SIZE_GROUP2 == 2 |
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loadregoffsh2 DAT, 2, IN, CHAN, 0 + (\channels - IDX1) |
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loadregoffsh2 DAT, 3, IN, CHAN, 1 + (\channels - IDX1) |
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.if IDX1 == 2 |
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add IN, IN, #8*4 |
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.endif |
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.endif |
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decr_modulo IDX1, SIZE_GROUP2, \channels |
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.endif |
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.if \channels == 8 // in this case we can corrupt CHAN0-3 |
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rsb CHAN0, CHAN0, #8 |
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rsb CHAN1, CHAN1, #8 |
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rsb CHAN2, CHAN2, #8 |
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rsb CHAN3, CHAN3, #8 |
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lsl DAT0, #8 + \shift |
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lsl DAT1, #8 + \shift |
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lsl DAT2, #8 + \shift |
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lsl DAT3, #8 + \shift |
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eor CHECK, CHECK, DAT0, lsr CHAN0 |
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eor CHECK, CHECK, DAT1, lsr CHAN1 |
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eor CHECK, CHECK, DAT2, lsr CHAN2 |
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eor CHECK, CHECK, DAT3, lsr CHAN3 |
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.else |
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.if \shift != 0 |
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lsl DAT0, #\shift |
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lsl DAT1, #\shift |
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lsl DAT2, #\shift |
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lsl DAT3, #\shift |
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.endif |
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bic DAT0, DAT0, #0xff000000 |
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bic DAT1, DAT1, #0xff000000 |
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bic DAT2, DAT2, #0xff000000 |
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bic DAT3, DAT3, #0xff000000 |
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eorlslreg CHECK, DAT0, CHAN, 0 + (\channels - IDX2) |
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eorlslreg CHECK, DAT1, CHAN, 1 + (\channels - IDX2) |
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decr_modulo IDX2, 2, \channels |
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eorlslreg CHECK, DAT2, CHAN, 0 + (\channels - IDX2) |
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eorlslreg CHECK, DAT3, CHAN, 1 + (\channels - IDX2) |
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decr_modulo IDX2, 2, \channels |
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lsl DAT0, #8 |
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lsl DAT1, #8 |
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lsl DAT2, #8 |
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lsl DAT3, #8 |
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.endif |
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stm OUT!, {DAT0 - DAT3} |
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.endm |
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.set WORDS_PER_LOOP, \channels // calculate LCM (channels, 4) |
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.if (WORDS_PER_LOOP % 2) == 0 |
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.set WORDS_PER_LOOP, WORDS_PER_LOOP / 2 |
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.endif |
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.if (WORDS_PER_LOOP % 2) == 0 |
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.set WORDS_PER_LOOP, WORDS_PER_LOOP / 2 |
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.endif |
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.set WORDS_PER_LOOP, WORDS_PER_LOOP * 4 |
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.set SAMPLES_PER_LOOP, WORDS_PER_LOOP / \channels |
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|
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function ff_mlp_pack_output_outoforder_\channels\()ch_\shift\()shift_armv6, export=1 |
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.if SAMPLES_PER_LOOP > 1 |
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tst COUNT, #SAMPLES_PER_LOOP - 1 // always seems to be in practice |
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it ne |
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bne X(ff_mlp_pack_output) // but just in case, branch to C implementation if not |
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.endif |
||||
teq COUNT, #0 |
||||
it eq |
||||
bxeq lr |
||||
push {v1-v6,sl,fp,lr} |
||||
ldr CHAN0, [sp, #(9+0)*4] // get ch_assign from stack |
||||
ldr CHAN4, [CHAN0] |
||||
.if \channels == 2 |
||||
uxtb CHAN0, CHAN4, ror #0 |
||||
uxtb CHAN1, CHAN4, ror #8 |
||||
.else |
||||
ldr CHAN5, [CHAN0, #4] |
||||
.if \channels == 6 |
||||
uxtb CHAN0, CHAN4, ror #0 |
||||
uxtb CHAN1, CHAN4, ror #8 |
||||
uxtb CHAN2, CHAN4, ror #16 |
||||
uxtb CHAN3, CHAN4, ror #24 |
||||
uxtb CHAN4, CHAN5, ror #0 |
||||
uxtb CHAN5, CHAN5, ror #8 |
||||
.endif |
||||
.endif |
||||
.set IDX1, \channels |
||||
.set IDX2, \channels |
||||
0: |
||||
.rept WORDS_PER_LOOP / 4 |
||||
output4words |
||||
.endr |
||||
subs COUNT, COUNT, #SAMPLES_PER_LOOP |
||||
bne 0b |
||||
pop {v1-v6,sl,fp,pc} |
||||
.ltorg |
||||
endfunc |
||||
.purgem output4words
|
||||
|
||||
.unreq CHECK
|
||||
.unreq COUNT
|
||||
.unreq IN
|
||||
.unreq OUT
|
||||
.unreq DAT0
|
||||
.unreq DAT1
|
||||
.unreq DAT2
|
||||
.unreq DAT3
|
||||
.unreq CHAN0
|
||||
.unreq CHAN1
|
||||
.unreq CHAN2
|
||||
.unreq CHAN3
|
||||
.unreq CHAN4
|
||||
.unreq CHAN5
|
||||
|
||||
#endif // !CONFIG_THUMB |
||||
|
||||
.endif // mixed |
||||
.endif // inorder |
||||
.endm // implement_pack |
||||
|
||||
.macro pack_channels inorder, channels |
||||
implement_pack \inorder, \channels, 0 |
||||
implement_pack \inorder, \channels, 1 |
||||
implement_pack \inorder, \channels, 2 |
||||
implement_pack \inorder, \channels, 3 |
||||
implement_pack \inorder, \channels, 4 |
||||
implement_pack \inorder, \channels, 5 |
||||
implement_pack \inorder, \channels, mixed |
||||
.endm |
||||
|
||||
.macro pack_order inorder |
||||
pack_channels \inorder, 2 |
||||
pack_channels \inorder, 6 |
||||
pack_channels \inorder, 8 |
||||
.endm |
||||
|
||||
pack_order 0 |
||||
pack_order 1 |
Loading…
Reference in new issue