mirror of
https://git.videolan.org/git/ffmpeg.git
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bb198e198a
interlaced mpeg2 encoding P & B frames rate distored interlaced mb decission alternate scantable support 4mv encoding fixes (thats also why the regression tests change) passing height to most dsp functions interlaced mpeg4 encoding (no direct mode MBs yet) various related cleanups disabled old motion estimaton algorithms (log, full, ...) they will either be fixed or removed Originally committed as revision 2638 to svn://svn.ffmpeg.org/ffmpeg/trunk
344 lines
9.5 KiB
C
344 lines
9.5 KiB
C
/*
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* Alpha optimized DSP utils
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* Copyright (c) 2002 Falk Hueffner <falk@debian.org>
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*/
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#include "asm.h"
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#include "../dsputil.h"
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void get_pixels_mvi(DCTELEM *restrict block,
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const uint8_t *restrict pixels, int line_size)
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{
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int h = 8;
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do {
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uint64_t p;
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p = ldq(pixels);
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stq(unpkbw(p), block);
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stq(unpkbw(p >> 32), block + 4);
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pixels += line_size;
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block += 8;
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} while (--h);
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}
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void diff_pixels_mvi(DCTELEM *block, const uint8_t *s1, const uint8_t *s2,
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int stride) {
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int h = 8;
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uint64_t mask = 0x4040;
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mask |= mask << 16;
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mask |= mask << 32;
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do {
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uint64_t x, y, c, d, a;
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uint64_t signs;
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x = ldq(s1);
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y = ldq(s2);
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c = cmpbge(x, y);
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d = x - y;
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a = zap(mask, c); /* We use 0x4040404040404040 here... */
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d += 4 * a; /* ...so we can use s4addq here. */
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signs = zap(-1, c);
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stq(unpkbw(d) | (unpkbw(signs) << 8), block);
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stq(unpkbw(d >> 32) | (unpkbw(signs >> 32) << 8), block + 4);
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s1 += stride;
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s2 += stride;
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block += 8;
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} while (--h);
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}
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static inline uint64_t avg2(uint64_t a, uint64_t b)
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{
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return (a | b) - (((a ^ b) & BYTE_VEC(0xfe)) >> 1);
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}
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static inline uint64_t avg4(uint64_t l1, uint64_t l2, uint64_t l3, uint64_t l4)
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{
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uint64_t r1 = ((l1 & ~BYTE_VEC(0x03)) >> 2)
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+ ((l2 & ~BYTE_VEC(0x03)) >> 2)
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+ ((l3 & ~BYTE_VEC(0x03)) >> 2)
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+ ((l4 & ~BYTE_VEC(0x03)) >> 2);
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uint64_t r2 = (( (l1 & BYTE_VEC(0x03))
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+ (l2 & BYTE_VEC(0x03))
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+ (l3 & BYTE_VEC(0x03))
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+ (l4 & BYTE_VEC(0x03))
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+ BYTE_VEC(0x02)) >> 2) & BYTE_VEC(0x03);
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return r1 + r2;
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}
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int pix_abs8x8_mvi(void *v, uint8_t *pix1, uint8_t *pix2, int line_size, int h)
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{
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int result = 0;
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if ((size_t) pix2 & 0x7) {
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/* works only when pix2 is actually unaligned */
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do { /* do 8 pixel a time */
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uint64_t p1, p2;
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p1 = ldq(pix1);
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p2 = uldq(pix2);
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result += perr(p1, p2);
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pix1 += line_size;
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pix2 += line_size;
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} while (--h);
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} else {
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do {
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uint64_t p1, p2;
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p1 = ldq(pix1);
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p2 = ldq(pix2);
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result += perr(p1, p2);
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pix1 += line_size;
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pix2 += line_size;
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} while (--h);
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}
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return result;
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}
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#if 0 /* now done in assembly */
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int pix_abs16x16_mvi(uint8_t *pix1, uint8_t *pix2, int line_size)
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{
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int result = 0;
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int h = 16;
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if ((size_t) pix2 & 0x7) {
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/* works only when pix2 is actually unaligned */
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do { /* do 16 pixel a time */
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uint64_t p1_l, p1_r, p2_l, p2_r;
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uint64_t t;
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p1_l = ldq(pix1);
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p1_r = ldq(pix1 + 8);
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t = ldq_u(pix2 + 8);
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p2_l = extql(ldq_u(pix2), pix2) | extqh(t, pix2);
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p2_r = extql(t, pix2) | extqh(ldq_u(pix2 + 16), pix2);
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pix1 += line_size;
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pix2 += line_size;
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result += perr(p1_l, p2_l)
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+ perr(p1_r, p2_r);
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} while (--h);
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} else {
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do {
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uint64_t p1_l, p1_r, p2_l, p2_r;
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p1_l = ldq(pix1);
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p1_r = ldq(pix1 + 8);
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p2_l = ldq(pix2);
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p2_r = ldq(pix2 + 8);
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pix1 += line_size;
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pix2 += line_size;
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result += perr(p1_l, p2_l)
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+ perr(p1_r, p2_r);
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} while (--h);
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}
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return result;
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}
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#endif
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int pix_abs16x16_x2_mvi(void *v, uint8_t *pix1, uint8_t *pix2, int line_size, int h)
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{
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int result = 0;
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uint64_t disalign = (size_t) pix2 & 0x7;
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switch (disalign) {
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case 0:
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do {
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uint64_t p1_l, p1_r, p2_l, p2_r;
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uint64_t l, r;
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p1_l = ldq(pix1);
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p1_r = ldq(pix1 + 8);
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l = ldq(pix2);
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r = ldq(pix2 + 8);
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p2_l = avg2(l, (l >> 8) | ((uint64_t) r << 56));
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p2_r = avg2(r, (r >> 8) | ((uint64_t) pix2[16] << 56));
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pix1 += line_size;
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pix2 += line_size;
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result += perr(p1_l, p2_l)
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+ perr(p1_r, p2_r);
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} while (--h);
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break;
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case 7:
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/* |.......l|lllllllr|rrrrrrr*|
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This case is special because disalign1 would be 8, which
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gets treated as 0 by extqh. At least it is a bit faster
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that way :) */
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do {
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uint64_t p1_l, p1_r, p2_l, p2_r;
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uint64_t l, m, r;
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p1_l = ldq(pix1);
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p1_r = ldq(pix1 + 8);
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l = ldq_u(pix2);
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m = ldq_u(pix2 + 8);
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r = ldq_u(pix2 + 16);
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p2_l = avg2(extql(l, disalign) | extqh(m, disalign), m);
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p2_r = avg2(extql(m, disalign) | extqh(r, disalign), r);
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pix1 += line_size;
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pix2 += line_size;
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result += perr(p1_l, p2_l)
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+ perr(p1_r, p2_r);
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} while (--h);
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break;
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default:
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do {
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uint64_t disalign1 = disalign + 1;
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uint64_t p1_l, p1_r, p2_l, p2_r;
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uint64_t l, m, r;
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p1_l = ldq(pix1);
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p1_r = ldq(pix1 + 8);
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l = ldq_u(pix2);
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m = ldq_u(pix2 + 8);
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r = ldq_u(pix2 + 16);
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p2_l = avg2(extql(l, disalign) | extqh(m, disalign),
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extql(l, disalign1) | extqh(m, disalign1));
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p2_r = avg2(extql(m, disalign) | extqh(r, disalign),
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extql(m, disalign1) | extqh(r, disalign1));
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pix1 += line_size;
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pix2 += line_size;
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result += perr(p1_l, p2_l)
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+ perr(p1_r, p2_r);
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} while (--h);
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break;
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}
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return result;
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}
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int pix_abs16x16_y2_mvi(void *v, uint8_t *pix1, uint8_t *pix2, int line_size, int h)
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{
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int result = 0;
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if ((size_t) pix2 & 0x7) {
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uint64_t t, p2_l, p2_r;
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t = ldq_u(pix2 + 8);
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p2_l = extql(ldq_u(pix2), pix2) | extqh(t, pix2);
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p2_r = extql(t, pix2) | extqh(ldq_u(pix2 + 16), pix2);
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do {
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uint64_t p1_l, p1_r, np2_l, np2_r;
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uint64_t t;
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p1_l = ldq(pix1);
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p1_r = ldq(pix1 + 8);
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pix2 += line_size;
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t = ldq_u(pix2 + 8);
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np2_l = extql(ldq_u(pix2), pix2) | extqh(t, pix2);
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np2_r = extql(t, pix2) | extqh(ldq_u(pix2 + 16), pix2);
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result += perr(p1_l, avg2(p2_l, np2_l))
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+ perr(p1_r, avg2(p2_r, np2_r));
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pix1 += line_size;
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p2_l = np2_l;
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p2_r = np2_r;
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} while (--h);
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} else {
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uint64_t p2_l, p2_r;
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p2_l = ldq(pix2);
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p2_r = ldq(pix2 + 8);
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do {
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uint64_t p1_l, p1_r, np2_l, np2_r;
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p1_l = ldq(pix1);
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p1_r = ldq(pix1 + 8);
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pix2 += line_size;
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np2_l = ldq(pix2);
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np2_r = ldq(pix2 + 8);
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result += perr(p1_l, avg2(p2_l, np2_l))
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+ perr(p1_r, avg2(p2_r, np2_r));
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pix1 += line_size;
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p2_l = np2_l;
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p2_r = np2_r;
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} while (--h);
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}
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return result;
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}
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int pix_abs16x16_xy2_mvi(void *v, uint8_t *pix1, uint8_t *pix2, int line_size, int h)
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{
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int result = 0;
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uint64_t p1_l, p1_r;
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uint64_t p2_l, p2_r, p2_x;
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p1_l = ldq(pix1);
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p1_r = ldq(pix1 + 8);
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if ((size_t) pix2 & 0x7) { /* could be optimized a lot */
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p2_l = uldq(pix2);
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p2_r = uldq(pix2 + 8);
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p2_x = (uint64_t) pix2[16] << 56;
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} else {
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p2_l = ldq(pix2);
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p2_r = ldq(pix2 + 8);
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p2_x = ldq(pix2 + 16) << 56;
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}
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do {
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uint64_t np1_l, np1_r;
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uint64_t np2_l, np2_r, np2_x;
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pix1 += line_size;
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pix2 += line_size;
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np1_l = ldq(pix1);
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np1_r = ldq(pix1 + 8);
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if ((size_t) pix2 & 0x7) { /* could be optimized a lot */
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np2_l = uldq(pix2);
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np2_r = uldq(pix2 + 8);
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np2_x = (uint64_t) pix2[16] << 56;
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} else {
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np2_l = ldq(pix2);
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np2_r = ldq(pix2 + 8);
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np2_x = ldq(pix2 + 16) << 56;
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}
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result += perr(p1_l,
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avg4( p2_l, ( p2_l >> 8) | ((uint64_t) p2_r << 56),
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np2_l, (np2_l >> 8) | ((uint64_t) np2_r << 56)))
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+ perr(p1_r,
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avg4( p2_r, ( p2_r >> 8) | ((uint64_t) p2_x),
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np2_r, (np2_r >> 8) | ((uint64_t) np2_x)));
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p1_l = np1_l;
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p1_r = np1_r;
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p2_l = np2_l;
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p2_r = np2_r;
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p2_x = np2_x;
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} while (--h);
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return result;
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}
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