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/*****************************************************************************
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 * pixel.c: pixel metrics
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 *****************************************************************************
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 * Copyright (C) 2004-2016 x264 project
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 *
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 * Authors: Loren Merritt <[email protected]>
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 *          Fiona Glaser <[email protected]>
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            Henrik Gramner <[email protected]>
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 *
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 * This program is free software; you can redistribute it and/or modify
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 * it under the terms of the GNU General Public License as published by
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 * the Free Software Foundation; either version 2 of the License, or
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 * (at your option) any later version.
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 *
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 * This program 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
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 * GNU General Public License for more details.
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 *
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 * You should have received a copy of the GNU General Public License
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 * along with this program; if not, write to the Free Software
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 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02111, USA.
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 *
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 * This program is also available under a commercial proprietary license.
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 * For more information, contact us at [email protected].
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 *****************************************************************************/
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#ifndef X264_PIXEL_H
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#define X264_PIXEL_H
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// SSD assumes all args aligned
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// other cmp functions assume first arg aligned
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typedef int  (*x264_pixel_cmp_t) ( pixel *, intptr_t, pixel *, intptr_t );
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typedef void (*x264_pixel_cmp_x3_t) ( pixel *, pixel *, pixel *, pixel *, intptr_t, int[3] );
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typedef void (*x264_pixel_cmp_x4_t) ( pixel *, pixel *, pixel *, pixel *, pixel *, intptr_t, int[4] );
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enum
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{
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    PIXEL_16x16 = 0,
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    PIXEL_16x8  = 1,
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    PIXEL_8x16  = 2,
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    PIXEL_8x8   = 3,
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    PIXEL_8x4   = 4,
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    PIXEL_4x8   = 5,
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    PIXEL_4x4   = 6,
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    /* Subsampled chroma only */
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    PIXEL_4x16  = 7,  /* 4:2:2 */
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    PIXEL_4x2   = 8,
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    PIXEL_2x8   = 9,  /* 4:2:2 */
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    PIXEL_2x4   = 10,
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    PIXEL_2x2   = 11,
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};
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static const struct { uint8_t w, h; } x264_pixel_size[12] =
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{
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    { 16, 16 }, { 16, 8 }, { 8, 16 }, { 8, 8 }, { 8, 4 }, { 4, 8 }, { 4, 4 },
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    {  4, 16 }, {  4, 2 }, { 2,  8 }, { 2, 4 }, { 2, 2 },
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};
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static const uint8_t x264_size2pixel[5][5] =
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{
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    { 0, },
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    { 0, PIXEL_4x4, PIXEL_8x4, 0, 0 },
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    { 0, PIXEL_4x8, PIXEL_8x8, 0, PIXEL_16x8 },
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    { 0, },
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    { 0, 0,        PIXEL_8x16, 0, PIXEL_16x16 }
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};
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static const uint8_t x264_luma2chroma_pixel[4][7] =
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{
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    { 0 },
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    { PIXEL_8x8,   PIXEL_8x4,  PIXEL_4x8,  PIXEL_4x4, PIXEL_4x2, PIXEL_2x4, PIXEL_2x2 }, /* 4:2:0 */
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    { PIXEL_8x16,  PIXEL_8x8,  PIXEL_4x16, PIXEL_4x8, PIXEL_4x4, PIXEL_2x8, PIXEL_2x4 }, /* 4:2:2 */
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    { PIXEL_16x16, PIXEL_16x8, PIXEL_8x16, PIXEL_8x8, PIXEL_8x4, PIXEL_4x8, PIXEL_4x4 }, /* 4:4:4 */
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};
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typedef struct
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{
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    x264_pixel_cmp_t  sad[8];
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    x264_pixel_cmp_t  ssd[8];
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    x264_pixel_cmp_t satd[8];
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    x264_pixel_cmp_t ssim[7];
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    x264_pixel_cmp_t sa8d[4];
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    x264_pixel_cmp_t mbcmp[8]; /* either satd or sad for subpel refine and mode decision */
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    x264_pixel_cmp_t mbcmp_unaligned[8]; /* unaligned mbcmp for subpel */
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    x264_pixel_cmp_t fpelcmp[8]; /* either satd or sad for fullpel motion search */
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    x264_pixel_cmp_x3_t fpelcmp_x3[7];
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    x264_pixel_cmp_x4_t fpelcmp_x4[7];
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    x264_pixel_cmp_t sad_aligned[8]; /* Aligned SAD for mbcmp */
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    int (*vsad)( pixel *, intptr_t, int );
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    int (*asd8)( pixel *pix1, intptr_t stride1, pixel *pix2, intptr_t stride2, int height );
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    uint64_t (*sa8d_satd[1])( pixel *pix1, intptr_t stride1, pixel *pix2, intptr_t stride2 );
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    uint64_t (*var[4])( pixel *pix, intptr_t stride );
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    int (*var2[4])( pixel *pix1, intptr_t stride1,
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                    pixel *pix2, intptr_t stride2, int *ssd );
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    uint64_t (*hadamard_ac[4])( pixel *pix, intptr_t stride );
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    void (*ssd_nv12_core)( pixel *pixuv1, intptr_t stride1,
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                           pixel *pixuv2, intptr_t stride2, int width, int height,
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                           uint64_t *ssd_u, uint64_t *ssd_v );
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    void (*ssim_4x4x2_core)( const pixel *pix1, intptr_t stride1,
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                             const pixel *pix2, intptr_t stride2, int sums[2][4] );
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    float (*ssim_end4)( int sum0[5][4], int sum1[5][4], int width );
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    /* multiple parallel calls to cmp. */
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    x264_pixel_cmp_x3_t sad_x3[7];
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    x264_pixel_cmp_x4_t sad_x4[7];
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    x264_pixel_cmp_x3_t satd_x3[7];
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    x264_pixel_cmp_x4_t satd_x4[7];
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    /* abs-diff-sum for successive elimination.
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     * may round width up to a multiple of 16. */
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    int (*ads[7])( int enc_dc[4], uint16_t *sums, int delta,
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                   uint16_t *cost_mvx, int16_t *mvs, int width, int thresh );
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    /* calculate satd or sad of V, H, and DC modes. */
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    void (*intra_mbcmp_x3_16x16)( pixel *fenc, pixel *fdec, int res[3] );
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    void (*intra_satd_x3_16x16) ( pixel *fenc, pixel *fdec, int res[3] );
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    void (*intra_sad_x3_16x16)  ( pixel *fenc, pixel *fdec, int res[3] );
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    void (*intra_mbcmp_x3_4x4)  ( pixel *fenc, pixel *fdec, int res[3] );
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    void (*intra_satd_x3_4x4)   ( pixel *fenc, pixel *fdec, int res[3] );
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    void (*intra_sad_x3_4x4)    ( pixel *fenc, pixel *fdec, int res[3] );
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    void (*intra_mbcmp_x3_chroma)( pixel *fenc, pixel *fdec, int res[3] );
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    void (*intra_satd_x3_chroma) ( pixel *fenc, pixel *fdec, int res[3] );
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    void (*intra_sad_x3_chroma)  ( pixel *fenc, pixel *fdec, int res[3] );
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    void (*intra_mbcmp_x3_8x16c) ( pixel *fenc, pixel *fdec, int res[3] );
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    void (*intra_satd_x3_8x16c)  ( pixel *fenc, pixel *fdec, int res[3] );
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    void (*intra_sad_x3_8x16c)   ( pixel *fenc, pixel *fdec, int res[3] );
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    void (*intra_mbcmp_x3_8x8c)  ( pixel *fenc, pixel *fdec, int res[3] );
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    void (*intra_satd_x3_8x8c)   ( pixel *fenc, pixel *fdec, int res[3] );
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    void (*intra_sad_x3_8x8c)    ( pixel *fenc, pixel *fdec, int res[3] );
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    void (*intra_mbcmp_x3_8x8)  ( pixel *fenc, pixel edge[36], int res[3] );
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    void (*intra_sa8d_x3_8x8)   ( pixel *fenc, pixel edge[36], int res[3] );
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    void (*intra_sad_x3_8x8)    ( pixel *fenc, pixel edge[36], int res[3] );
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    /* find minimum satd or sad of all modes, and set fdec.
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     * may be NULL, in which case just use pred+satd instead. */
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    int (*intra_mbcmp_x9_4x4)( pixel *fenc, pixel *fdec, uint16_t *bitcosts );
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    int (*intra_satd_x9_4x4) ( pixel *fenc, pixel *fdec, uint16_t *bitcosts );
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    int (*intra_sad_x9_4x4)  ( pixel *fenc, pixel *fdec, uint16_t *bitcosts );
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    int (*intra_mbcmp_x9_8x8)( pixel *fenc, pixel *fdec, pixel edge[36], uint16_t *bitcosts, uint16_t *satds );
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    int (*intra_sa8d_x9_8x8) ( pixel *fenc, pixel *fdec, pixel edge[36], uint16_t *bitcosts, uint16_t *satds );
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    int (*intra_sad_x9_8x8)  ( pixel *fenc, pixel *fdec, pixel edge[36], uint16_t *bitcosts, uint16_t *satds );
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} x264_pixel_function_t;
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void x264_pixel_init( int cpu, x264_pixel_function_t *pixf );
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void x264_pixel_ssd_nv12   ( x264_pixel_function_t *pf, pixel *pix1, intptr_t i_pix1, pixel *pix2, intptr_t i_pix2,
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                             int i_width, int i_height, uint64_t *ssd_u, uint64_t *ssd_v );
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uint64_t x264_pixel_ssd_wxh( x264_pixel_function_t *pf, pixel *pix1, intptr_t i_pix1, pixel *pix2, intptr_t i_pix2,
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                             int i_width, int i_height );
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float x264_pixel_ssim_wxh  ( x264_pixel_function_t *pf, pixel *pix1, intptr_t i_pix1, pixel *pix2, intptr_t i_pix2,
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                             int i_width, int i_height, void *buf, int *cnt );
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int x264_field_vsad( x264_t *h, int mb_x, int mb_y );
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#endif
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