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/*
* Copyright (c) 2014 RISC OS Open Ltd
* Author: Ben Avison <bavison@riscosopen.org>
*
* This file is part of Libav.
*
* Libav is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* Libav is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with Libav; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "libavutil/arm/asm.S"
.macro loadregoffsh2 group, index, base, offgroup, offindex
.altmacro
loadregoffsh2_ \group, %(\index), \base, \offgroup, %(\offindex)
.noaltmacro
.endm
.macro loadregoffsh2_ group, index, base, offgroup, offindex
ldr \group\index, [\base, \offgroup\offindex, lsl #2]
.endm
.macro eorlslreg check, data, group, index
.altmacro
eorlslreg_ \check, \data, \group, %(\index)
.noaltmacro
.endm
.macro eorlslreg_ check, data, group, index
eor \check, \check, \data, lsl \group\index
.endm
.macro decr_modulo var, by, modulus
.set \var, \var - \by
.if \var == 0
.set \var, \modulus
.endif
.endm
.macro load_group1 size, channels, r0, r1, r2, r3, pointer_dead=0
.if \size == 2
ldrd \r0, \r1, [IN], #(\size + 8 - \channels) * 4
.else // size == 4
.if IDX1 > 4 || \channels==8
ldm IN!, {\r0, \r1, \r2, \r3}
.else
ldm IN, {\r0, \r1, \r2, \r3}
.if !\pointer_dead
add IN, IN, #(4 + 8 - \channels) * 4
.endif
.endif
.endif
decr_modulo IDX1, \size, \channels
.endm
.macro load_group2 size, channels, r0, r1, r2, r3, pointer_dead=0
.if \size == 2
.if IDX1 > 2
ldm IN!, {\r2, \r3}
.else
//A .ifc \r2, ip
//A .if \pointer_dead
//A ldm IN, {\r2, \r3}
//A .else
//A ldr \r2, [IN], #4
//A ldr \r3, [IN], #(\size - 1 + 8 - \channels) * 4
//A .endif
//A .else
ldrd \r2, \r3, [IN], #(\size + 8 - \channels) * 4
//A .endif
.endif
.endif
decr_modulo IDX1, \size, \channels
.endm
.macro implement_pack inorder, channels, shift
.if \inorder
.ifc \shift, mixed
CHECK .req a1
COUNT .req a2
IN .req a3
OUT .req a4
DAT0 .req v1
DAT1 .req v2
DAT2 .req v3
DAT3 .req v4
SHIFT0 .req v5
SHIFT1 .req v6
SHIFT2 .req sl
SHIFT3 .req fp
SHIFT4 .req ip
SHIFT5 .req lr
.macro output4words
.set SIZE_GROUP1, IDX1
.if SIZE_GROUP1 > 4
.set SIZE_GROUP1, 4
.endif
.set SIZE_GROUP2, 4 - SIZE_GROUP1
load_group1 SIZE_GROUP1, \channels, DAT0, DAT1, DAT2, DAT3
load_group2 SIZE_GROUP2, \channels, DAT0, DAT1, DAT2, DAT3
.if \channels == 2
lsl DAT0, SHIFT0
lsl DAT1, SHIFT1
lsl DAT2, SHIFT0
lsl DAT3, SHIFT1
.elseif \channels == 6
.if IDX2 == 6
lsl DAT0, SHIFT0
lsl DAT1, SHIFT1
lsl DAT2, SHIFT2
lsl DAT3, SHIFT3
.elseif IDX2 == 2
lsl DAT0, SHIFT4
lsl DAT1, SHIFT5
lsl DAT2, SHIFT0
lsl DAT3, SHIFT1
.else // IDX2 == 4
lsl DAT0, SHIFT2
lsl DAT1, SHIFT3
lsl DAT2, SHIFT4
lsl DAT3, SHIFT5
.endif
.elseif \channels == 8
.if IDX2 == 8
uxtb SHIFT0, SHIFT4, ror #0
uxtb SHIFT1, SHIFT4, ror #8
uxtb SHIFT2, SHIFT4, ror #16
uxtb SHIFT3, SHIFT4, ror #24
.else
uxtb SHIFT0, SHIFT5, ror #0
uxtb SHIFT1, SHIFT5, ror #8
uxtb SHIFT2, SHIFT5, ror #16
uxtb SHIFT3, SHIFT5, ror #24
.endif
lsl DAT0, SHIFT0
lsl DAT1, SHIFT1
lsl DAT2, SHIFT2
lsl DAT3, SHIFT3
.endif
eor CHECK, CHECK, DAT0, lsr #8 - (\channels - IDX2)
eor CHECK, CHECK, DAT1, lsr #7 - (\channels - IDX2)
decr_modulo IDX2, 2, \channels
eor CHECK, CHECK, DAT2, lsr #8 - (\channels - IDX2)
eor CHECK, CHECK, DAT3, lsr #7 - (\channels - IDX2)
decr_modulo IDX2, 2, \channels
stm OUT!, {DAT0 - DAT3}
.endm
.set WORDS_PER_LOOP, \channels // calculate LCM (channels, 4)
.if (WORDS_PER_LOOP % 2) == 0
.set WORDS_PER_LOOP, WORDS_PER_LOOP / 2
.endif
.if (WORDS_PER_LOOP % 2) == 0
.set WORDS_PER_LOOP, WORDS_PER_LOOP / 2
.endif
.set WORDS_PER_LOOP, WORDS_PER_LOOP * 4
.set SAMPLES_PER_LOOP, WORDS_PER_LOOP / \channels
function ff_mlp_pack_output_inorder_\channels\()ch_mixedshift_armv6, export=1
.if SAMPLES_PER_LOOP > 1
tst COUNT, #SAMPLES_PER_LOOP - 1 // always seems to be in practice
it ne
bne X(ff_mlp_pack_output) // but just in case, branch to C implementation if not
.endif
teq COUNT, #0
it eq
bxeq lr
push {v1-v6,sl,fp,lr}
ldr SHIFT0, [sp, #(9+1)*4] // get output_shift from stack
ldr SHIFT1, =0x08080808
ldr SHIFT4, [SHIFT0]
.if \channels == 2
uadd8 SHIFT4, SHIFT4, SHIFT1 // increase all shifts by 8
uxtb SHIFT0, SHIFT4, ror #0
uxtb SHIFT1, SHIFT4, ror #8
.else
ldr SHIFT5, [SHIFT0, #4]
uadd8 SHIFT4, SHIFT4, SHIFT1 // increase all shifts by 8
uadd8 SHIFT5, SHIFT5, SHIFT1
.if \channels == 6
uxtb SHIFT0, SHIFT4, ror #0
uxtb SHIFT1, SHIFT4, ror #8
uxtb SHIFT2, SHIFT4, ror #16
uxtb SHIFT3, SHIFT4, ror #24
uxtb SHIFT4, SHIFT5, ror #0
uxtb SHIFT5, SHIFT5, 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 SHIFT0
.unreq SHIFT1
.unreq SHIFT2
.unreq SHIFT3
.unreq SHIFT4
.unreq SHIFT5
.else // not mixed
CHECK .req a1
COUNT .req a2
IN .req a3
OUT .req a4
DAT0 .req v1
DAT1 .req v2
DAT2 .req v3
DAT3 .req v4
DAT4 .req v5
DAT5 .req v6
DAT6 .req sl // use these rather than the otherwise unused
DAT7 .req fp // ip and lr so that we can load them usinf LDRD
.macro output4words tail, head, r0, r1, r2, r3, r4, r5, r6, r7, pointer_dead=0
.if \head
.set SIZE_GROUP1, IDX1
.if SIZE_GROUP1 > 4
.set SIZE_GROUP1, 4
.endif
.set SIZE_GROUP2, 4 - SIZE_GROUP1
load_group1 SIZE_GROUP1, \channels, \r0, \r1, \r2, \r3, \pointer_dead
.endif
.if \tail
eor CHECK, CHECK, \r4, lsr #8 - (\channels - IDX2)
eor CHECK, CHECK, \r5, lsr #7 - (\channels - IDX2)
decr_modulo IDX2, 2, \channels
.endif
.if \head
load_group2 SIZE_GROUP2, \channels, \r0, \r1, \r2, \r3, \pointer_dead
.endif
.if \tail
eor CHECK, CHECK, \r6, lsr #8 - (\channels - IDX2)
eor CHECK, CHECK, \r7, lsr #7 - (\channels - IDX2)
decr_modulo IDX2, 2, \channels
stm OUT!, {\r4, \r5, \r6, \r7}
.endif
.if \head
lsl \r0, #8 + \shift
lsl \r1, #8 + \shift
lsl \r2, #8 + \shift
lsl \r3, #8 + \shift
.endif
.endm
.set WORDS_PER_LOOP, \channels // calculate LCM (channels, 8)
.if (WORDS_PER_LOOP % 2) == 0
.set WORDS_PER_LOOP, WORDS_PER_LOOP / 2
.endif
.if (WORDS_PER_LOOP % 2) == 0
.set WORDS_PER_LOOP, WORDS_PER_LOOP / 2
.endif
.if (WORDS_PER_LOOP % 2) == 0
.set WORDS_PER_LOOP, WORDS_PER_LOOP / 2
.endif
.set WORDS_PER_LOOP, WORDS_PER_LOOP * 8
.set SAMPLES_PER_LOOP, WORDS_PER_LOOP / \channels
function ff_mlp_pack_output_inorder_\channels\()ch_\shift\()shift_armv6, export=1
.if SAMPLES_PER_LOOP > 1
tst COUNT, #SAMPLES_PER_LOOP - 1 // always seems to be in practice
it ne
bne X(ff_mlp_pack_output) // but just in case, branch to C implementation if not
.endif
subs COUNT, COUNT, #SAMPLES_PER_LOOP
it lo
bxlo lr
push {v1-v6,sl,fp,lr}
.set IDX1, \channels
.set IDX2, \channels
output4words 0, 1, DAT0, DAT1, DAT2, DAT3, DAT4, DAT5, DAT6, DAT7
0: beq 1f
.rept WORDS_PER_LOOP / 8
output4words 1, 1, DAT4, DAT5, DAT6, DAT7, DAT0, DAT1, DAT2, DAT3
output4words 1, 1, DAT0, DAT1, DAT2, DAT3, DAT4, DAT5, DAT6, DAT7
.endr
subs COUNT, COUNT, #SAMPLES_PER_LOOP
bne 0b
1:
.rept WORDS_PER_LOOP / 8 - 1
output4words 1, 1, DAT4, DAT5, DAT6, DAT7, DAT0, DAT1, DAT2, DAT3
output4words 1, 1, DAT0, DAT1, DAT2, DAT3, DAT4, DAT5, DAT6, DAT7
.endr
output4words 1, 1, DAT4, DAT5, DAT6, DAT7, DAT0, DAT1, DAT2, DAT3, pointer_dead=1
output4words 1, 0, DAT0, DAT1, DAT2, DAT3, DAT4, DAT5, DAT6, DAT7
pop {v1-v6,sl,fp,pc}
endfunc
.purgem output4words
.unreq CHECK
.unreq COUNT
.unreq IN
.unreq OUT
.unreq DAT0
.unreq DAT1
.unreq DAT2
.unreq DAT3
.unreq DAT4
.unreq DAT5
.unreq DAT6
.unreq DAT7
.endif // mixed
.else // not inorder
.ifc \shift, mixed
// This case not currently handled
.else // not mixed
#if !CONFIG_THUMB
CHECK .req a1
COUNT .req a2
IN .req a3
OUT .req a4
DAT0 .req v1
DAT1 .req v2
DAT2 .req v3
DAT3 .req v4
CHAN0 .req v5
CHAN1 .req v6
CHAN2 .req sl
CHAN3 .req fp
CHAN4 .req ip
CHAN5 .req lr
.macro output4words
.if \channels == 8
.if IDX1 == 8
uxtb CHAN0, CHAN4, ror #0
uxtb CHAN1, CHAN4, ror #8
uxtb CHAN2, CHAN4, ror #16
uxtb CHAN3, CHAN4, ror #24
.else
uxtb CHAN0, CHAN5, ror #0
uxtb CHAN1, CHAN5, ror #8
uxtb CHAN2, CHAN5, ror #16
uxtb CHAN3, CHAN5, ror #24
.endif
ldr DAT0, [IN, CHAN0, lsl #2]
ldr DAT1, [IN, CHAN1, lsl #2]
ldr DAT2, [IN, CHAN2, lsl #2]
ldr DAT3, [IN, CHAN3, lsl #2]
.if IDX1 == 4
add IN, IN, #8*4
.endif
decr_modulo IDX1, 4, \channels
.else
.set SIZE_GROUP1, IDX1
.if SIZE_GROUP1 > 4
.set SIZE_GROUP1, 4
.endif
.set SIZE_GROUP2, 4 - SIZE_GROUP1
.if SIZE_GROUP1 == 2
loadregoffsh2 DAT, 0, IN, CHAN, 0 + (\channels - IDX1)
loadregoffsh2 DAT, 1, IN, CHAN, 1 + (\channels - IDX1)
add IN, IN, #8*4
.else // SIZE_GROUP1 == 4
loadregoffsh2 DAT, 0, IN, CHAN, 0 + (\channels - IDX1)
loadregoffsh2 DAT, 1, IN, CHAN, 1 + (\channels - IDX1)
loadregoffsh2 DAT, 2, IN, CHAN, 2 + (\channels - IDX1)
loadregoffsh2 DAT, 3, IN, CHAN, 3 + (\channels - IDX1)
.if IDX1 == 4
add IN, IN, #8*4
.endif
.endif
decr_modulo IDX1, SIZE_GROUP1, \channels
.if SIZE_GROUP2 == 2
loadregoffsh2 DAT, 2, IN, CHAN, 0 + (\channels - IDX1)
loadregoffsh2 DAT, 3, IN, CHAN, 1 + (\channels - IDX1)
.if IDX1 == 2
add IN, IN, #8*4
.endif
.endif
decr_modulo IDX1, SIZE_GROUP2, \channels
.endif
.if \channels == 8 // in this case we can corrupt CHAN0-3
rsb CHAN0, CHAN0, #8
rsb CHAN1, CHAN1, #8
rsb CHAN2, CHAN2, #8
rsb CHAN3, CHAN3, #8
lsl DAT0, #8 + \shift
lsl DAT1, #8 + \shift
lsl DAT2, #8 + \shift
lsl DAT3, #8 + \shift
eor CHECK, CHECK, DAT0, lsr CHAN0
eor CHECK, CHECK, DAT1, lsr CHAN1
eor CHECK, CHECK, DAT2, lsr CHAN2
eor CHECK, CHECK, DAT3, lsr CHAN3
.else
.if \shift != 0
lsl DAT0, #\shift
lsl DAT1, #\shift
lsl DAT2, #\shift
lsl DAT3, #\shift
.endif
bic DAT0, DAT0, #0xff000000
bic DAT1, DAT1, #0xff000000
bic DAT2, DAT2, #0xff000000
bic DAT3, DAT3, #0xff000000
eorlslreg CHECK, DAT0, CHAN, 0 + (\channels - IDX2)
eorlslreg CHECK, DAT1, CHAN, 1 + (\channels - IDX2)
decr_modulo IDX2, 2, \channels
eorlslreg CHECK, DAT2, CHAN, 0 + (\channels - IDX2)
eorlslreg CHECK, DAT3, CHAN, 1 + (\channels - IDX2)
decr_modulo IDX2, 2, \channels
lsl DAT0, #8
lsl DAT1, #8
lsl DAT2, #8
lsl DAT3, #8
.endif
stm OUT!, {DAT0 - DAT3}
.endm
.set WORDS_PER_LOOP, \channels // calculate LCM (channels, 4)
.if (WORDS_PER_LOOP % 2) == 0
.set WORDS_PER_LOOP, WORDS_PER_LOOP / 2
.endif
.if (WORDS_PER_LOOP % 2) == 0
.set WORDS_PER_LOOP, WORDS_PER_LOOP / 2
.endif
.set WORDS_PER_LOOP, WORDS_PER_LOOP * 4
.set SAMPLES_PER_LOOP, WORDS_PER_LOOP / \channels
function ff_mlp_pack_output_outoforder_\channels\()ch_\shift\()shift_armv6, export=1
.if SAMPLES_PER_LOOP > 1
tst COUNT, #SAMPLES_PER_LOOP - 1 // always seems to be in practice
it ne
bne X(ff_mlp_pack_output) // but just in case, branch to C implementation if not
.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