mirror of
https://gitlab.freedesktop.org/gstreamer/gstreamer.git
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536ff4776f
Measured to be about 3.4x faster than C Part-of: <https://gitlab.freedesktop.org/gstreamer/gst-plugins-good/-/merge_requests/621>
410 lines
9.8 KiB
NASM
410 lines
9.8 KiB
NASM
;*****************************************************************************
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;* x86-optimized functions for yadif filter
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;* Copyright (C) 2020 Vivia Nikolaidou <vivia.nikolaidou@ltnglobal.com>
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;*
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;* Based on libav's vf_yadif.asm file
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;* Copyright (C) 2006 Michael Niedermayer <michaelni@gmx.at>
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;* Copyright (c) 2013 Daniel Kang <daniel.d.kang@gmail.com>
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;*
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;* This file is part of FFmpeg.
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;*
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;* FFmpeg 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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;* FFmpeg 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 FFmpeg; 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 "x86inc.asm"
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SECTION_RODATA
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; 16 bytes of value 1
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pb_1: times 16 db 1
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; 8 words of value 1
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pw_1: times 8 dw 1
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SECTION .text
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%macro ABS1 2
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%if cpuflag(ssse3)
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pabsw %1, %1
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%elif cpuflag(mmxext) ; a, tmp
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pxor %2, %2
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psubw %2, %1
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pmaxsw %1, %2
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%else ; a, tmp
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pxor %2, %2
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pcmpgtw %2, %1
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pxor %1, %2
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psubw %1, %2
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%endif
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%endmacro
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%macro CHECK 2
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; %1 = 1+j, %2 = 1-j
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; m2 = t0[x+1+j]
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movu m2, [tzeroq+%1]
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; m3 = b0[x+1-j]
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movu m3, [bzeroq+%2]
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; m4 = t0[x+1+j]
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mova m4, m2
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; m5 = t0[x+1+j]
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mova m5, m2
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; m4 = xor(t0[x+1+j], b0[x+1-j]
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pxor m4, m3
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pavgb m5, m3
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; round down to 0
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pand m4, [pb_1]
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; m5 = rounded down average of the whole thing
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psubusb m5, m4
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; shift by 1 quadword to prepare for spatial_pred
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psrldq m5, 1
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; m7 = 0
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; Interleave low-order bytes with 0
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; so one pixel doesn't spill into the next one
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punpcklbw m5, m7
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; m4 = t0[x+1+j] (reset)
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mova m4, m2
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; m2 = t0[x+1+j] - b0[x+1-j]
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psubusb m2, m3
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; m3 = -m2
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psubusb m3, m4
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; m2 = FFABS(t0[x+1+j] - b0[x+1-j]);
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pmaxub m2, m3
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; m3 = FFABS(t0[x+1+j] - b0[x+1-j]);
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mova m3, m2
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; m4 = FFABS(FFABS(t0[x+1+j] - b0[x+1-j]);
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mova m4, m2
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; m3 = FFABS(t0[x+j] - b0[x-j])
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psrldq m3, 1
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; m4 = FFABS(t0[x-1+j] - b0[x-1-j])
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psrldq m4, 2
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; prevent pixel spilling for all of them
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punpcklbw m2, m7
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punpcklbw m3, m7
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punpcklbw m4, m7
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paddw m2, m3
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; m2 = score
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paddw m2, m4
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%endmacro
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%macro CHECK1 0
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; m0 was spatial_score
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; m1 was spatial_pred
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mova m3, m0
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; compare for greater than
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; each word will be 1111 or 0000
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pcmpgtw m3, m2
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; if (score < spatial_score) spatial_score = score;
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pminsw m0, m2
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; m6 = the mask
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mova m6, m3
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; m5 = becomes 0 if it should change
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pand m5, m3
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; nand: m3 = becomes 0 if it should not change
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pandn m3, m1
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; m3 = put them together in an OR
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por m3, m5
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; and put it in spatial_pred
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mova m1, m3
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%endmacro
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%macro CHECK2 0
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; m6 was the mask from CHECK1 (we don't change it)
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paddw m6, [pw_1]
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; shift words left while shifting in 14 0s (16 - j)
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; essentially to not recalculate the mask!
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psllw m6, 14
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; add it to score
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paddsw m2, m6
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; same as CHECK1
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mova m3, m0
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pcmpgtw m3, m2
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pminsw m0, m2
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pand m5, m3
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pandn m3, m1
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por m3, m5
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mova m1, m3
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%endmacro
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%macro LOAD 2
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movh %1, %2
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punpcklbw %1, m7
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%endmacro
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%macro FILTER_HEAD 0
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; m7 = 0
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pxor m7, m7
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; m0 = c
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LOAD m0, [tzeroq]
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; m1 = e
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LOAD m1, [bzeroq]
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; m3 = mp
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LOAD m3, [mpq]
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; m2 = m1
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LOAD m2, [moneq]
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; m4 = mp
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mova m4, m3
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; m3 = m1 + mp
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paddw m3, m2
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; m3 = d
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psraw m3, 1
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; rsp + 0 = d
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mova [rsp+ 0], m3
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; m2 = m1 - mp
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psubw m2, m4
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; m2 = temporal_diff0 (m4 is temporary)
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ABS1 m2, m4
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; m3 = t2
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LOAD m3, [ttwoq]
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; m4 = b2
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LOAD m4, [btwoq]
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; m3 = t2 - c
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psubw m3, m0
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; m4 = b2 - e
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psubw m4, m1
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; m3 = ABS(t2 - c)
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ABS1 m3, m5
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; m4 = ABS(b2 - e)
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ABS1 m4, m5
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paddw m3, m4
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psrlw m2, 1
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; m3 = temporal_diff1
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psrlw m3, 1
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; m2 = left part of diff
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pmaxsw m2, m3
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; m3 = tp2
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LOAD m3, [tptwoq]
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; m4 = bp2
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LOAD m4, [bptwoq]
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psubw m3, m0
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psubw m4, m1
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ABS1 m3, m5
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ABS1 m4, m5
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paddw m3, m4
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; m3 = temporal_diff2
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psrlw m3, 1
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; m2 = diff (for real)
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pmaxsw m2, m3
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; rsp + 16 = diff
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mova [rsp+16], m2
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; m1 = e + c
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paddw m1, m0
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; m0 = 2c
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paddw m0, m0
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; m0 = c - e
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psubw m0, m1
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; m1 = spatial_pred
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psrlw m1, 1
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; m0 = FFABS(c-e)
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ABS1 m0, m2
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; m2 = t0[x-1]
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; if it's unpacked it should contain 4 bytes
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movu m2, [tzeroq-1]
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; m3 = b0[x-1]
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movu m3, [bzeroq-1]
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; m4 = t0[x-1]
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mova m4, m2
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; m2 = t0[x-1]-b0[x-1] unsigned packed
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psubusb m2, m3
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; m3 = m3 - m4 = b0[x-1]-t0[x-1] = -m2 unsigned packed
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psubusb m3, m4
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; m2 = max(m2, -m2) = abs(t0[x-1]-b0[x-1])
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pmaxub m2, m3
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%if mmsize == 16
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; m3 = m2 >> 2quadwords
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; pixel jump: go from x-1 to x+1
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mova m3, m2
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psrldq m3, 2
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%else
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pshufw m3, m2, q0021
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%endif
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; m7 = 0
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; unpack and interleave low-order bytes
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; to prevent pixel spilling when adding
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punpcklbw m2, m7
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punpcklbw m3, m7
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paddw m0, m2
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paddw m0, m3
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; m0 = spatial_score
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psubw m0, [pw_1]
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CHECK -2, 0
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CHECK1
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CHECK -3, 1
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CHECK2
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CHECK 0, -2
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CHECK1
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CHECK 1, -3
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CHECK2
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; now m0 = spatial_score, m1 = spatial_pred
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; m6 = diff
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mova m6, [rsp+16]
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%endmacro
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%macro FILTER_TAIL 0
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; m2 = d
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mova m2, [rsp]
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; m3 = d
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mova m3, m2
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; m2 = d - diff
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psubw m2, m6
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; m3 = d + diff
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paddw m3, m6
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; m1 = max(spatial_pred, d-diff)
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pmaxsw m1, m2
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; m1 = min(d + diff, max(spatial_pred, d-diff))
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; m1 = spatial_pred
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pminsw m1, m3
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; Converts 8 signed word integers into 16 unsigned byte integers with saturation
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packuswb m1, m1
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; dst = spatial_pred
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movh [dstq], m1
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; half the register size
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add dstq, mmsize/2
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add tzeroq, mmsize/2
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add bzeroq, mmsize/2
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add moneq, mmsize/2
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add mpq, mmsize/2
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add ttwoq, mmsize/2
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add btwoq, mmsize/2
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add tptwoq, mmsize/2
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add bptwoq, mmsize/2
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add ttoneq, mmsize/2
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add ttpq, mmsize/2
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add bboneq, mmsize/2
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add bbpq, mmsize/2
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%endmacro
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%macro FILTER_MODE0 0
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.loop0:
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FILTER_HEAD
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; m2 = tt1
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LOAD m2, [ttoneq]
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; m4 = ttp
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LOAD m4, [ttpq]
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; m3 = bb1
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LOAD m3, [bboneq]
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; m5 = bbp
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LOAD m5, [bbpq]
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paddw m2, m4
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paddw m3, m5
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; m2 = b
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psrlw m2, 1
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; m3 = f
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psrlw m3, 1
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; m4 = c
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LOAD m4, [tzeroq]
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; m5 = d
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mova m5, [rsp]
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; m7 = e
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LOAD m7, [bzeroq]
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; m2 = b - c
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psubw m2, m4
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; m3 = f - e
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psubw m3, m7
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; m0 = d
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mova m0, m5
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; m5 = d - c
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psubw m5, m4
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; m0 = d - e
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psubw m0, m7
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; m4 = b - c
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mova m4, m2
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; m2 = FFMIN(b-c, f-e)
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pminsw m2, m3
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; m3 = FFMAX(f-e, b-c)
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pmaxsw m3, m4
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; m2 = FFMAX(d-c, FFMIN(b-c, f-e))
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pmaxsw m2, m5
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; m3 = FFMIN(d-c, FFMAX(f-e, b-c))
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pminsw m3, m5
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; m2 = max
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pmaxsw m2, m0
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; m3 = min
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pminsw m3, m0
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; m4 = 0
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pxor m4, m4
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; m6 = MAX(diff, min)
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pmaxsw m6, m3
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; m4 = -max
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psubw m4, m2
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; m6 = diff
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pmaxsw m6, m4
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FILTER_TAIL
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; r13m = w
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sub DWORD r13m, mmsize/2
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jg .loop0
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%endmacro
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%macro FILTER_MODE2 0
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.loop2:
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FILTER_HEAD
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FILTER_TAIL
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; r13m = w
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sub DWORD r13m, mmsize/2
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jg .loop2
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%endmacro
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%macro YADIF_ADD3 0
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; start 3 pixels later
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add dstq, 3
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add tzeroq, 3
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add bzeroq, 3
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add moneq, 3
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add mpq, 3
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add ttwoq, 3
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add btwoq, 3
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add tptwoq, 3
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add bptwoq, 3
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add ttoneq, 3
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add ttpq, 3
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add bboneq, 3
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add bbpq, 3
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%endmacro
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; cglobal foo, 2,3,7,0x40, dst, src, tmp
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; declares a function (foo) that automatically loads two arguments (dst and
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; src) into registers, uses one additional register (tmp) plus 7 vector
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; registers (m0-m6) and allocates 0x40 bytes of stack space.
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%macro YADIF_MODE0 0
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cglobal yadif_filter_line_mode0, 13, 14, 8, 80, dst, tzero, bzero, mone, mp, \
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ttwo, btwo, tptwo, bptwo, ttone, \
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ttp, bbone, bbp, w
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YADIF_ADD3
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FILTER_MODE0
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RET
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%endmacro
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%macro YADIF_MODE2 0
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cglobal yadif_filter_line_mode2, 13, 14, 8, 80, dst, tzero, bzero, mone, mp, \
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ttwo, btwo, tptwo, bptwo, ttone, \
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ttp, bbone, bbp, w
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YADIF_ADD3
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FILTER_MODE2
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RET
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%endmacro
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; declares two functions for ssse3, and two for sse2
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INIT_XMM ssse3
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YADIF_MODE0
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YADIF_MODE2
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INIT_XMM sse2
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YADIF_MODE0
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YADIF_MODE2
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