postproc.c 42.3 KB
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/*
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 *  Copyright (c) 2010 The WebM project authors. All Rights Reserved.
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 *
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 *  Use of this source code is governed by a BSD-style license
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 *  that can be found in the LICENSE file in the root of the source
 *  tree. An additional intellectual property rights grant can be found
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 *  in the file PATENTS.  All contributing project authors may
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 *  be found in the AUTHORS file in the root of the source tree.
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 */


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#include "vpx_config.h"
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#include "vpx_scale/yv12config.h"
#include "postproc.h"
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#include "common.h"
#include "recon.h"
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#include "vpx_scale/yv12extend.h"
#include "vpx_scale/vpxscale.h"
#include "systemdependent.h"
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#include "../encoder/variance.h"
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#include <math.h>
#include <stdlib.h>
#include <stdio.h>
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#define RGB_TO_YUV(t)                                                                       \
    ( (0.257*(float)(t>>16)) + (0.504*(float)(t>>8&0xff)) + (0.098*(float)(t&0xff)) + 16),  \
    (-(0.148*(float)(t>>16)) - (0.291*(float)(t>>8&0xff)) + (0.439*(float)(t&0xff)) + 128), \
    ( (0.439*(float)(t>>16)) - (0.368*(float)(t>>8&0xff)) - (0.071*(float)(t&0xff)) + 128)

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/* global constants */
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#define MFQE_PRECISION 4
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#if CONFIG_POSTPROC_VISUALIZER
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static const unsigned char MB_PREDICTION_MODE_colors[MB_MODE_COUNT][3] =
{
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    { RGB_TO_YUV(0x98FB98) },   /* PaleGreen */
    { RGB_TO_YUV(0x00FF00) },   /* Green */
    { RGB_TO_YUV(0xADFF2F) },   /* GreenYellow */
    { RGB_TO_YUV(0x228B22) },   /* ForestGreen */
    { RGB_TO_YUV(0x006400) },   /* DarkGreen */
    { RGB_TO_YUV(0x98F5FF) },   /* Cadet Blue */
    { RGB_TO_YUV(0x6CA6CD) },   /* Sky Blue */
    { RGB_TO_YUV(0x00008B) },   /* Dark blue */
    { RGB_TO_YUV(0x551A8B) },   /* Purple */
    { RGB_TO_YUV(0xFF0000) }    /* Red */
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};

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static const unsigned char B_PREDICTION_MODE_colors[B_MODE_COUNT][3] =
{
    { RGB_TO_YUV(0x6633ff) },   /* Purple */
    { RGB_TO_YUV(0xcc33ff) },   /* Magenta */
    { RGB_TO_YUV(0xff33cc) },   /* Pink */
    { RGB_TO_YUV(0xff3366) },   /* Coral */
    { RGB_TO_YUV(0x3366ff) },   /* Blue */
    { RGB_TO_YUV(0xed00f5) },   /* Dark Blue */
    { RGB_TO_YUV(0x2e00b8) },   /* Dark Purple */
    { RGB_TO_YUV(0xff6633) },   /* Orange */
    { RGB_TO_YUV(0x33ccff) },   /* Light Blue */
    { RGB_TO_YUV(0x8ab800) },   /* Green */
    { RGB_TO_YUV(0xffcc33) },   /* Light Orange */
    { RGB_TO_YUV(0x33ffcc) },   /* Aqua */
    { RGB_TO_YUV(0x66ff33) },   /* Light Green */
    { RGB_TO_YUV(0xccff33) },   /* Yellow */
};

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static const unsigned char MV_REFERENCE_FRAME_colors[MAX_REF_FRAMES][3] =
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{
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    { RGB_TO_YUV(0x00ff00) },   /* Blue */
    { RGB_TO_YUV(0x0000ff) },   /* Green */
    { RGB_TO_YUV(0xffff00) },   /* Yellow */
    { RGB_TO_YUV(0xff0000) },   /* Red */
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};
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#endif
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static const short kernel5[] =
{
    1, 1, 4, 1, 1
};

const short vp8_rv[] =
{
    8, 5, 2, 2, 8, 12, 4, 9, 8, 3,
    0, 3, 9, 0, 0, 0, 8, 3, 14, 4,
    10, 1, 11, 14, 1, 14, 9, 6, 12, 11,
    8, 6, 10, 0, 0, 8, 9, 0, 3, 14,
    8, 11, 13, 4, 2, 9, 0, 3, 9, 6,
    1, 2, 3, 14, 13, 1, 8, 2, 9, 7,
    3, 3, 1, 13, 13, 6, 6, 5, 2, 7,
    11, 9, 11, 8, 7, 3, 2, 0, 13, 13,
    14, 4, 12, 5, 12, 10, 8, 10, 13, 10,
    4, 14, 4, 10, 0, 8, 11, 1, 13, 7,
    7, 14, 6, 14, 13, 2, 13, 5, 4, 4,
    0, 10, 0, 5, 13, 2, 12, 7, 11, 13,
    8, 0, 4, 10, 7, 2, 7, 2, 2, 5,
    3, 4, 7, 3, 3, 14, 14, 5, 9, 13,
    3, 14, 3, 6, 3, 0, 11, 8, 13, 1,
    13, 1, 12, 0, 10, 9, 7, 6, 2, 8,
    5, 2, 13, 7, 1, 13, 14, 7, 6, 7,
    9, 6, 10, 11, 7, 8, 7, 5, 14, 8,
    4, 4, 0, 8, 7, 10, 0, 8, 14, 11,
    3, 12, 5, 7, 14, 3, 14, 5, 2, 6,
    11, 12, 12, 8, 0, 11, 13, 1, 2, 0,
    5, 10, 14, 7, 8, 0, 4, 11, 0, 8,
    0, 3, 10, 5, 8, 0, 11, 6, 7, 8,
    10, 7, 13, 9, 2, 5, 1, 5, 10, 2,
    4, 3, 5, 6, 10, 8, 9, 4, 11, 14,
    0, 10, 0, 5, 13, 2, 12, 7, 11, 13,
    8, 0, 4, 10, 7, 2, 7, 2, 2, 5,
    3, 4, 7, 3, 3, 14, 14, 5, 9, 13,
    3, 14, 3, 6, 3, 0, 11, 8, 13, 1,
    13, 1, 12, 0, 10, 9, 7, 6, 2, 8,
    5, 2, 13, 7, 1, 13, 14, 7, 6, 7,
    9, 6, 10, 11, 7, 8, 7, 5, 14, 8,
    4, 4, 0, 8, 7, 10, 0, 8, 14, 11,
    3, 12, 5, 7, 14, 3, 14, 5, 2, 6,
    11, 12, 12, 8, 0, 11, 13, 1, 2, 0,
    5, 10, 14, 7, 8, 0, 4, 11, 0, 8,
    0, 3, 10, 5, 8, 0, 11, 6, 7, 8,
    10, 7, 13, 9, 2, 5, 1, 5, 10, 2,
    4, 3, 5, 6, 10, 8, 9, 4, 11, 14,
    3, 8, 3, 7, 8, 5, 11, 4, 12, 3,
    11, 9, 14, 8, 14, 13, 4, 3, 1, 2,
    14, 6, 5, 4, 4, 11, 4, 6, 2, 1,
    5, 8, 8, 12, 13, 5, 14, 10, 12, 13,
    0, 9, 5, 5, 11, 10, 13, 9, 10, 13,
};

extern void vp8_blit_text(const char *msg, unsigned char *address, const int pitch);
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extern void vp8_blit_line(int x0, int x1, int y0, int y1, unsigned char *image, const int pitch);
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/***********************************************************************************************************
 */
void vp8_post_proc_down_and_across_c
(
    unsigned char *src_ptr,
    unsigned char *dst_ptr,
    int src_pixels_per_line,
    int dst_pixels_per_line,
    int rows,
    int cols,
    int flimit
)
{
    unsigned char *p_src, *p_dst;
    int row;
    int col;
    int i;
    int v;
    int pitch = src_pixels_per_line;
    unsigned char d[8];
    (void)dst_pixels_per_line;

    for (row = 0; row < rows; row++)
    {
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        /* post_proc_down for one row */
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        p_src = src_ptr;
        p_dst = dst_ptr;

        for (col = 0; col < cols; col++)
        {

            int kernel = 4;
            int v = p_src[col];

            for (i = -2; i <= 2; i++)
            {
                if (abs(v - p_src[col+i*pitch]) > flimit)
                    goto down_skip_convolve;

                kernel += kernel5[2+i] * p_src[col+i*pitch];
            }

            v = (kernel >> 3);
        down_skip_convolve:
            p_dst[col] = v;
        }

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        /* now post_proc_across */
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        p_src = dst_ptr;
        p_dst = dst_ptr;

        for (i = 0; i < 8; i++)
            d[i] = p_src[i];

        for (col = 0; col < cols; col++)
        {
            int kernel = 4;
            v = p_src[col];

            d[col&7] = v;

            for (i = -2; i <= 2; i++)
            {
                if (abs(v - p_src[col+i]) > flimit)
                    goto across_skip_convolve;

                kernel += kernel5[2+i] * p_src[col+i];
            }

            d[col&7] = (kernel >> 3);
        across_skip_convolve:

            if (col >= 2)
                p_dst[col-2] = d[(col-2)&7];
        }

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        /* handle the last two pixels */
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        p_dst[col-2] = d[(col-2)&7];
        p_dst[col-1] = d[(col-1)&7];


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        /* next row */
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        src_ptr += pitch;
        dst_ptr += pitch;
    }
}

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static int q2mbl(int x)
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{
    if (x < 20) x = 20;

    x = 50 + (x - 50) * 10 / 8;
    return x * x / 3;
}
void vp8_mbpost_proc_across_ip_c(unsigned char *src, int pitch, int rows, int cols, int flimit)
{
    int r, c, i;

    unsigned char *s = src;
    unsigned char d[16];


    for (r = 0; r < rows; r++)
    {
        int sumsq = 0;
        int sum   = 0;

        for (i = -8; i <= 6; i++)
        {
            sumsq += s[i] * s[i];
            sum   += s[i];
            d[i+8] = 0;
        }

        for (c = 0; c < cols + 8; c++)
        {
            int x = s[c+7] - s[c-8];
            int y = s[c+7] + s[c-8];

            sum  += x;
            sumsq += x * y;

            d[c&15] = s[c];

            if (sumsq * 15 - sum * sum < flimit)
            {
                d[c&15] = (8 + sum + s[c]) >> 4;
            }

            s[c-8] = d[(c-8)&15];
        }

        s += pitch;
    }
}





void vp8_mbpost_proc_down_c(unsigned char *dst, int pitch, int rows, int cols, int flimit)
{
    int r, c, i;
    const short *rv3 = &vp8_rv[63&rand()];

    for (c = 0; c < cols; c++)
    {
        unsigned char *s = &dst[c];
        int sumsq = 0;
        int sum   = 0;
        unsigned char d[16];
        const short *rv2 = rv3 + ((c * 17) & 127);

        for (i = -8; i <= 6; i++)
        {
            sumsq += s[i*pitch] * s[i*pitch];
            sum   += s[i*pitch];
        }

        for (r = 0; r < rows + 8; r++)
        {
            sumsq += s[7*pitch] * s[ 7*pitch] - s[-8*pitch] * s[-8*pitch];
            sum  += s[7*pitch] - s[-8*pitch];
            d[r&15] = s[0];

            if (sumsq * 15 - sum * sum < flimit)
            {
                d[r&15] = (rv2[r&127] + sum + s[0]) >> 4;
            }

            s[-8*pitch] = d[(r-8)&15];
            s += pitch;
        }
    }
}


static void vp8_deblock_and_de_macro_block(YV12_BUFFER_CONFIG         *source,
        YV12_BUFFER_CONFIG         *post,
        int                         q,
        int                         low_var_thresh,
        int                         flag,
        vp8_postproc_rtcd_vtable_t *rtcd)
{
    double level = 6.0e-05 * q * q * q - .0067 * q * q + .306 * q + .0065;
    int ppl = (int)(level + .5);
    (void) low_var_thresh;
    (void) flag;

    POSTPROC_INVOKE(rtcd, downacross)(source->y_buffer, post->y_buffer, source->y_stride,  post->y_stride, source->y_height, source->y_width,  ppl);
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    POSTPROC_INVOKE(rtcd, across)(post->y_buffer, post->y_stride, post->y_height, post->y_width, q2mbl(q));
    POSTPROC_INVOKE(rtcd, down)(post->y_buffer, post->y_stride, post->y_height, post->y_width, q2mbl(q));
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    POSTPROC_INVOKE(rtcd, downacross)(source->u_buffer, post->u_buffer, source->uv_stride, post->uv_stride, source->uv_height, source->uv_width, ppl);
    POSTPROC_INVOKE(rtcd, downacross)(source->v_buffer, post->v_buffer, source->uv_stride, post->uv_stride, source->uv_height, source->uv_width, ppl);

}

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void vp8_deblock(YV12_BUFFER_CONFIG         *source,
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                 YV12_BUFFER_CONFIG         *post,
                 int                         q,
                 int                         low_var_thresh,
                 int                         flag,
                 vp8_postproc_rtcd_vtable_t *rtcd)
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{
    double level = 6.0e-05 * q * q * q - .0067 * q * q + .306 * q + .0065;
    int ppl = (int)(level + .5);
    (void) low_var_thresh;
    (void) flag;

    POSTPROC_INVOKE(rtcd, downacross)(source->y_buffer, post->y_buffer, source->y_stride,  post->y_stride, source->y_height, source->y_width,   ppl);
    POSTPROC_INVOKE(rtcd, downacross)(source->u_buffer, post->u_buffer, source->uv_stride, post->uv_stride,  source->uv_height, source->uv_width, ppl);
    POSTPROC_INVOKE(rtcd, downacross)(source->v_buffer, post->v_buffer, source->uv_stride, post->uv_stride, source->uv_height, source->uv_width, ppl);
}

void vp8_de_noise(YV12_BUFFER_CONFIG         *source,
                  YV12_BUFFER_CONFIG         *post,
                  int                         q,
                  int                         low_var_thresh,
                  int                         flag,
                  vp8_postproc_rtcd_vtable_t *rtcd)
{
    double level = 6.0e-05 * q * q * q - .0067 * q * q + .306 * q + .0065;
    int ppl = (int)(level + .5);
    (void) post;
    (void) low_var_thresh;
    (void) flag;

    POSTPROC_INVOKE(rtcd, downacross)(
        source->y_buffer + 2 * source->y_stride + 2,
        source->y_buffer + 2 * source->y_stride + 2,
        source->y_stride,
        source->y_stride,
        source->y_height - 4,
        source->y_width - 4,
        ppl);
    POSTPROC_INVOKE(rtcd, downacross)(
        source->u_buffer + 2 * source->uv_stride + 2,
        source->u_buffer + 2 * source->uv_stride + 2,
        source->uv_stride,
        source->uv_stride,
        source->uv_height - 4,
        source->uv_width - 4, ppl);
    POSTPROC_INVOKE(rtcd, downacross)(
        source->v_buffer + 2 * source->uv_stride + 2,
        source->v_buffer + 2 * source->uv_stride + 2,
        source->uv_stride,
        source->uv_stride,
        source->uv_height - 4,
        source->uv_width - 4, ppl);

}

double vp8_gaussian(double sigma, double mu, double x)
{
    return 1 / (sigma * sqrt(2.0 * 3.14159265)) *
           (exp(-(x - mu) * (x - mu) / (2 * sigma * sigma)));
}

extern void (*vp8_clear_system_state)(void);


static void fillrd(struct postproc_state *state, int q, int a)
{
    char char_dist[300];

    double sigma;
    int ai = a, qi = q, i;

    vp8_clear_system_state();


    sigma = ai + .5 + .6 * (63 - qi) / 63.0;

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    /* set up a lookup table of 256 entries that matches
     * a gaussian distribution with sigma determined by q.
     */
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    {
        double i;
        int next, j;

        next = 0;

        for (i = -32; i < 32; i++)
        {
            int a = (int)(.5 + 256 * vp8_gaussian(sigma, 0, i));

            if (a)
            {
                for (j = 0; j < a; j++)
                {
                    char_dist[next+j] = (char) i;
                }

                next = next + j;
            }

        }

        for (next = next; next < 256; next++)
            char_dist[next] = 0;

    }

    for (i = 0; i < 3072; i++)
    {
        state->noise[i] = char_dist[rand() & 0xff];
    }

    for (i = 0; i < 16; i++)
    {
        state->blackclamp[i] = -char_dist[0];
        state->whiteclamp[i] = -char_dist[0];
        state->bothclamp[i] = -2 * char_dist[0];
    }

    state->last_q = q;
    state->last_noise = a;
}

/****************************************************************************
 *
 *  ROUTINE       : plane_add_noise_c
 *
 *  INPUTS        : unsigned char *Start    starting address of buffer to add gaussian
 *                                  noise to
 *                  unsigned int Width    width of plane
 *                  unsigned int Height   height of plane
 *                  int  Pitch    distance between subsequent lines of frame
 *                  int  q        quantizer used to determine amount of noise
 *                                  to add
 *
 *  OUTPUTS       : None.
 *
 *  RETURNS       : void.
 *
 *  FUNCTION      : adds gaussian noise to a plane of pixels
 *
 *  SPECIAL NOTES : None.
 *
 ****************************************************************************/
void vp8_plane_add_noise_c(unsigned char *Start, char *noise,
                           char blackclamp[16],
                           char whiteclamp[16],
                           char bothclamp[16],
                           unsigned int Width, unsigned int Height, int Pitch)
{
    unsigned int i, j;

    for (i = 0; i < Height; i++)
    {
        unsigned char *Pos = Start + i * Pitch;
        char  *Ref = (char *)(noise + (rand() & 0xff));

        for (j = 0; j < Width; j++)
        {
            if (Pos[j] < blackclamp[0])
                Pos[j] = blackclamp[0];

            if (Pos[j] > 255 + whiteclamp[0])
                Pos[j] = 255 + whiteclamp[0];

            Pos[j] += Ref[j];
        }
    }
}

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/* Blend the macro block with a solid colored square.  Leave the
 * edges unblended to give distinction to macro blocks in areas
 * filled with the same color block.
 */
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void vp8_blend_mb_inner_c (unsigned char *y, unsigned char *u, unsigned char *v,
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                        int y1, int u1, int v1, int alpha, int stride)
{
    int i, j;
    int y1_const = y1*((1<<16)-alpha);
    int u1_const = u1*((1<<16)-alpha);
    int v1_const = v1*((1<<16)-alpha);

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    y += 2*stride + 2;
    for (i = 0; i < 12; i++)
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    {
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        for (j = 0; j < 12; j++)
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        {
            y[j] = (y[j]*alpha + y1_const)>>16;
        }
        y += stride;
    }

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    stride >>= 1;

    u += stride + 1;
    v += stride + 1;

    for (i = 0; i < 6; i++)
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    {
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        for (j = 0; j < 6; j++)
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        {
            u[j] = (u[j]*alpha + u1_const)>>16;
            v[j] = (v[j]*alpha + v1_const)>>16;
        }
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        u += stride;
        v += stride;
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    }
}
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/* Blend only the edge of the macro block.  Leave center
 * unblended to allow for other visualizations to be layered.
 */
void vp8_blend_mb_outer_c (unsigned char *y, unsigned char *u, unsigned char *v,
                        int y1, int u1, int v1, int alpha, int stride)
{
    int i, j;
    int y1_const = y1*((1<<16)-alpha);
    int u1_const = u1*((1<<16)-alpha);
    int v1_const = v1*((1<<16)-alpha);

    for (i = 0; i < 2; i++)
    {
        for (j = 0; j < 16; j++)
        {
            y[j] = (y[j]*alpha + y1_const)>>16;
        }
        y += stride;
    }

    for (i = 0; i < 12; i++)
    {
        y[0]  = (y[0]*alpha  + y1_const)>>16;
        y[1]  = (y[1]*alpha  + y1_const)>>16;
        y[14] = (y[14]*alpha + y1_const)>>16;
        y[15] = (y[15]*alpha + y1_const)>>16;
        y += stride;
    }

    for (i = 0; i < 2; i++)
    {
        for (j = 0; j < 16; j++)
        {
            y[j] = (y[j]*alpha + y1_const)>>16;
        }
        y += stride;
    }

    stride >>= 1;

    for (j = 0; j < 8; j++)
    {
        u[j] = (u[j]*alpha + u1_const)>>16;
        v[j] = (v[j]*alpha + v1_const)>>16;
    }
    u += stride;
    v += stride;

    for (i = 0; i < 6; i++)
    {
        u[0] = (u[0]*alpha + u1_const)>>16;
        v[0] = (v[0]*alpha + v1_const)>>16;

        u[7] = (u[7]*alpha + u1_const)>>16;
        v[7] = (v[7]*alpha + v1_const)>>16;

        u += stride;
        v += stride;
    }

    for (j = 0; j < 8; j++)
    {
        u[j] = (u[j]*alpha + u1_const)>>16;
        v[j] = (v[j]*alpha + v1_const)>>16;
    }
}

void vp8_blend_b_c (unsigned char *y, unsigned char *u, unsigned char *v,
                        int y1, int u1, int v1, int alpha, int stride)
{
    int i, j;
    int y1_const = y1*((1<<16)-alpha);
    int u1_const = u1*((1<<16)-alpha);
    int v1_const = v1*((1<<16)-alpha);

    for (i = 0; i < 4; i++)
    {
        for (j = 0; j < 4; j++)
        {
            y[j] = (y[j]*alpha + y1_const)>>16;
        }
        y += stride;
    }

    stride >>= 1;

    for (i = 0; i < 2; i++)
    {
        for (j = 0; j < 2; j++)
        {
            u[j] = (u[j]*alpha + u1_const)>>16;
            v[j] = (v[j]*alpha + v1_const)>>16;
        }
        u += stride;
        v += stride;
    }
}

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static void constrain_line (int x0, int *x1, int y0, int *y1, int width, int height)
{
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    int dx;
    int dy;
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    if (*x1 > width)
    {
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        dx = *x1 - x0;
        dy = *y1 - y0;

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        *x1 = width;
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        if (dx)
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            *y1 = ((width-x0)*dy)/dx + y0;
    }
    if (*x1 < 0)
    {
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        dx = *x1 - x0;
        dy = *y1 - y0;

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        *x1 = 0;
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        if (dx)
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            *y1 = ((0-x0)*dy)/dx + y0;
    }
    if (*y1 > height)
    {
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        dx = *x1 - x0;
        dy = *y1 - y0;

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        *y1 = height;
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        if (dy)
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            *x1 = ((height-y0)*dx)/dy + x0;
    }
    if (*y1 < 0)
    {
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        dx = *x1 - x0;
        dy = *y1 - y0;

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        *y1 = 0;
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        if (dy)
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            *x1 = ((0-y0)*dx)/dy + x0;
    }
}

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int vp8_references_buffer( VP8_COMMON *oci, int ref_frame )
{
    const MODE_INFO *mi = oci->mi;
    int mb_row, mb_col;

    for (mb_row = 0; mb_row < oci->mb_rows; mb_row++)
    {
        for (mb_col = 0; mb_col < oci->mb_cols; mb_col++,mi++)
        {
            if( mi->mbmi.ref_frame == ref_frame)
              return 1;
        }
        mi++;
    }
    return 0;

}

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static void multiframe_quality_enhance_block
(
    int blksize, /* Currently only values supported are 16, 8, 4 */
    int qcurr,
    int qprev,
    unsigned char *y,
    unsigned char *u,
    unsigned char *v,
    int y_stride,
    int uv_stride,
    unsigned char *yd,
    unsigned char *ud,
    unsigned char *vd,
    int yd_stride,
    int uvd_stride
)
{
    static const unsigned char VP8_ZEROS[16]=
    {
         0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0
    };
    int blksizeby2 = blksize >> 1;
    int blksizesq = blksize * blksize;

    int i, j;
    unsigned char *yp;
    unsigned char *ydp;
    unsigned char *up;
    unsigned char *udp;
    unsigned char *vp;
    unsigned char *vdp;

    unsigned int act, sse, sad, thr;
    if (blksize == 16)
    {
        act = vp8_variance_var16x16(y, y_stride, VP8_ZEROS, 0, &sse);
        sad = vp8_variance_sad16x16(y, y_stride, yd, yd_stride, 0);
    }
    else if (blksize == 8)
    {
        act = vp8_variance_var8x8(y, y_stride, VP8_ZEROS, 0, &sse);
        sad = vp8_variance_sad8x8(y, y_stride, yd, yd_stride, 0);
    }
    else
    {
        act = vp8_variance_var4x4(y, y_stride, VP8_ZEROS, 0, &sse);
        sad = vp8_variance_sad4x4(y, y_stride, yd, yd_stride, 0);
    }

    thr = 6 * blksizesq + (act >> 3);
    if (thr > 12 * blksizesq) thr = 12 * blksizesq;
    // These thresholds should be adapted later based on qcurr and qprev
    if (sad < thr)
    {
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        static const int roundoff = (1 << (MFQE_PRECISION - 1));
        int ifactor = (sad << MFQE_PRECISION) / thr;
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        // TODO: SIMD optimize this section
        if (ifactor)
        {
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            int icfactor = (1 << MFQE_PRECISION) - ifactor;
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            for (yp = y, ydp = yd, i = 0; i < blksize; ++i, yp += y_stride, ydp += yd_stride)
            {
                for (j = 0; j < blksize; ++j)
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                    ydp[j] = (int)((yp[j] * ifactor + ydp[j] * icfactor + roundoff) >> MFQE_PRECISION);
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            }
            for (up = u, udp = ud, i = 0; i < blksizeby2; ++i, up += uv_stride, udp += uvd_stride)
            {
                for (j = 0; j < blksizeby2; ++j)
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                    udp[j] = (int)((up[j] * ifactor + udp[j] * icfactor + roundoff) >> MFQE_PRECISION);
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            }
            for (vp = v, vdp = vd, i = 0; i < blksizeby2; ++i, vp += uv_stride, vdp += uvd_stride)
            {
                for (j = 0; j < blksizeby2; ++j)
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                    vdp[j] = (int)((vp[j] * ifactor + vdp[j] * icfactor + roundoff) >> MFQE_PRECISION);
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            }
        }
    }
    else
    {
        if (blksize == 16)
        {
            vp8_recon_copy16x16(y, y_stride, yd, yd_stride);
            vp8_recon_copy8x8(u, uv_stride, ud, uvd_stride);
            vp8_recon_copy8x8(v, uv_stride, vd, uvd_stride);
        }
        else if (blksize == 8)
        {
            vp8_recon_copy8x8(y, y_stride, yd, yd_stride);
            for (up = u, udp = ud, i = 0; i < blksizeby2; ++i, up += uv_stride, udp += uvd_stride)
                vpx_memcpy(udp, up, blksizeby2);
            for (vp = v, vdp = vd, i = 0; i < blksizeby2; ++i, vp += uv_stride, vdp += uvd_stride)
                vpx_memcpy(vdp, vp, blksizeby2);
        }
        else
        {
            for (yp = y, ydp = yd, i = 0; i < blksize; ++i, yp += y_stride, ydp += yd_stride)
                vpx_memcpy(ydp, yp, blksize);
            for (up = u, udp = ud, i = 0; i < blksizeby2; ++i, up += uv_stride, udp += uvd_stride)
                vpx_memcpy(udp, up, blksizeby2);
            for (vp = v, vdp = vd, i = 0; i < blksizeby2; ++i, vp += uv_stride, vdp += uvd_stride)
                vpx_memcpy(vdp, vp, blksizeby2);
        }
    }
}

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#if CONFIG_RUNTIME_CPU_DETECT
#define RTCD_VTABLE(oci) (&(oci)->rtcd.postproc)
#else
#define RTCD_VTABLE(oci) NULL
#endif

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void vp8_multiframe_quality_enhance
(
    VP8_COMMON *cm
)
{
    YV12_BUFFER_CONFIG *show = cm->frame_to_show;
    YV12_BUFFER_CONFIG *dest = &cm->post_proc_buffer;

    FRAME_TYPE frame_type = cm->frame_type;
    /* Point at base of Mb MODE_INFO list has motion vectors etc */
    const MODE_INFO *mode_info_context = cm->mi;
    int mb_row;
    int mb_col;
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    int qcurr = cm->base_qindex;
    int qprev = cm->postproc_state.last_base_qindex;
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    unsigned char *y_ptr, *u_ptr, *v_ptr;
    unsigned char *yd_ptr, *ud_ptr, *vd_ptr;

    /* Set up the buffer pointers */
    y_ptr = show->y_buffer;
    u_ptr = show->u_buffer;
    v_ptr = show->v_buffer;
    yd_ptr = dest->y_buffer;
    ud_ptr = dest->u_buffer;
    vd_ptr = dest->v_buffer;

    /* postprocess each macro block */
    for (mb_row = 0; mb_row < cm->mb_rows; mb_row++)
    {
        for (mb_col = 0; mb_col < cm->mb_cols; mb_col++)
        {
            /* if motion is high there will likely be no benefit */
            if (((frame_type == INTER_FRAME &&
                  abs(mode_info_context->mbmi.mv.as_mv.row) <= 10 &&
                  abs(mode_info_context->mbmi.mv.as_mv.col) <= 10) ||
                 (frame_type == KEY_FRAME)) &&
                mode_info_context->mbmi.mode != B_PRED)
            {
                multiframe_quality_enhance_block(16,
                                                 qcurr,
                                                 qprev,
                                                 y_ptr,
                                                 u_ptr,
                                                 v_ptr,
                                                 show->y_stride,
                                                 show->uv_stride,
                                                 yd_ptr,
                                                 ud_ptr,
                                                 vd_ptr,
                                                 dest->y_stride,
                                                 dest->uv_stride);
            }
            else if (mode_info_context->mbmi.mode == B_PRED)
            {
                int i, j;
                for (i=0; i<2; ++i)
                    for (j=0; j<2; ++j)
                        multiframe_quality_enhance_block(8,
                                                         qcurr,
                                                         qprev,
                                                         y_ptr + 8*(i*show->y_stride+j),
                                                         u_ptr + 4*(i*show->uv_stride+j),
                                                         v_ptr + 4*(i*show->uv_stride+j),
                                                         show->y_stride,
                                                         show->uv_stride,
                                                         yd_ptr + 8*(i*dest->y_stride+j),
                                                         ud_ptr + 4*(i*dest->uv_stride+j),
                                                         vd_ptr + 4*(i*dest->uv_stride+j),
                                                         dest->y_stride,
                                                         dest->uv_stride);
            }
            else
            {
                vp8_recon_copy16x16(y_ptr, show->y_stride, yd_ptr, dest->y_stride);
                vp8_recon_copy8x8(u_ptr, show->uv_stride, ud_ptr, dest->uv_stride);
                vp8_recon_copy8x8(v_ptr, show->uv_stride, vd_ptr, dest->uv_stride);
            }
            y_ptr += 16;
            u_ptr += 8;
            v_ptr += 8;
            yd_ptr += 16;
            ud_ptr += 8;
            vd_ptr += 8;
            mode_info_context++;     /* step to next MB */
        }

        y_ptr += show->y_stride  * 16 - 16 * cm->mb_cols;
        u_ptr += show->uv_stride *  8 - 8 * cm->mb_cols;
        v_ptr += show->uv_stride *  8 - 8 * cm->mb_cols;
        yd_ptr += dest->y_stride  * 16 - 16 * cm->mb_cols;
        ud_ptr += dest->uv_stride *  8 - 8 * cm->mb_cols;
        vd_ptr += dest->uv_stride *  8 - 8 * cm->mb_cols;

        mode_info_context++;         /* Skip border mb */
    }
}
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int vp8_post_proc_frame(VP8_COMMON *oci, YV12_BUFFER_CONFIG *dest, vp8_ppflags_t *ppflags)
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{
    int q = oci->filter_level * 10 / 6;
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    int flags = ppflags->post_proc_flag;
    int deblock_level = ppflags->deblocking_level;
    int noise_level = ppflags->noise_level;
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    if (!oci->frame_to_show)
        return -1;

    if (q > 63)
        q = 63;

    if (!flags)
    {
        *dest = *oci->frame_to_show;

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        /* handle problem with extending borders */
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        dest->y_width = oci->Width;
        dest->y_height = oci->Height;
        dest->uv_height = dest->y_height / 2;
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        oci->postproc_state.last_base_qindex = oci->base_qindex;
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        return 0;
    }

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    /* Allocate post_proc_buffer_int if needed */
    if ((flags & VP8D_MFQE) && !oci->post_proc_buffer_int_used)
    {
        if ((flags & VP8D_DEBLOCK) || (flags & VP8D_DEMACROBLOCK))
        {
            if (vp8_yv12_alloc_frame_buffer(&oci->post_proc_buffer_int, oci->Width, oci->Height, VP8BORDERINPIXELS) >= 0)
            {
                oci->post_proc_buffer_int_used = 1;
            }
        }
    }

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#if ARCH_X86||ARCH_X86_64
    vpx_reset_mmx_state();
#endif

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    if ((flags & VP8D_MFQE) &&
         oci->current_video_frame >= 2 &&
         oci->base_qindex - oci->postproc_state.last_base_qindex >= 10)
    {
        vp8_multiframe_quality_enhance(oci);
        if (((flags & VP8D_DEBLOCK) || (flags & VP8D_DEMACROBLOCK)) &&
            oci->post_proc_buffer_int_used)
        {
            vp8_yv12_copy_frame_ptr(&oci->post_proc_buffer, &oci->post_proc_buffer_int);
            if (flags & VP8D_DEMACROBLOCK)
            {
                vp8_deblock_and_de_macro_block(&oci->post_proc_buffer_int, &oci->post_proc_buffer,
                                               q + (deblock_level - 5) * 10, 1, 0, RTCD_VTABLE(oci));
            }
            else if (flags & VP8D_DEBLOCK)
            {
                vp8_deblock(&oci->post_proc_buffer_int, &oci->post_proc_buffer,
                            q, 1, 0, RTCD_VTABLE(oci));
            }
        }
    }
    else if (flags & VP8D_DEMACROBLOCK)
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    {
        vp8_deblock_and_de_macro_block(oci->frame_to_show, &oci->post_proc_buffer,
                                       q + (deblock_level - 5) * 10, 1, 0, RTCD_VTABLE(oci));
    }
    else if (flags & VP8D_DEBLOCK)
    {
        vp8_deblock(oci->frame_to_show, &oci->post_proc_buffer,
                    q, 1, 0, RTCD_VTABLE(oci));
    }
    else
    {
        vp8_yv12_copy_frame_ptr(oci->frame_to_show, &oci->post_proc_buffer);
    }

    if (flags & VP8D_ADDNOISE)
    {
        if (oci->postproc_state.last_q != q
            || oci->postproc_state.last_noise != noise_level)
        {
            fillrd(&oci->postproc_state, 63 - q, noise_level);
        }

        POSTPROC_INVOKE(RTCD_VTABLE(oci), addnoise)
        (oci->post_proc_buffer.y_buffer,
         oci->postproc_state.noise,
         oci->postproc_state.blackclamp,
         oci->postproc_state.whiteclamp,
         oci->postproc_state.bothclamp,
         oci->post_proc_buffer.y_width, oci->post_proc_buffer.y_height,
         oci->post_proc_buffer.y_stride);
    }

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#if CONFIG_POSTPROC_VISUALIZER
    if (flags & VP8D_DEBUG_TXT_FRAME_INFO)
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