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FFmpeg/libavfilter/transform.c

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  1. /*

  2.  * Copyright (C) 2010 Georg Martius <georg.martius@web.de>

  3.  * Copyright (C) 2010 Daniel G. Taylor <dan@programmer-art.org>

  4.  *

  5.  * This file is part of FFmpeg.

  6.  *

  7.  * FFmpeg is free software; you can redistribute it and/or

  8.  * modify it under the terms of the GNU Lesser General Public

  9.  * License as published by the Free Software Foundation; either

  10.  * version 2.1 of the License, or (at your option) any later version.

  11.  *

  12.  * FFmpeg is distributed in the hope that it will be useful,

  13.  * but WITHOUT ANY WARRANTY; without even the implied warranty of

  14.  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU

  15.  * Lesser General Public License for more details.

  16.  *

  17.  * You should have received a copy of the GNU Lesser General Public

  18.  * License along with FFmpeg; if not, write to the Free Software

  19.  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA

  20.  */

  21. 

  22. /**

  23.  * @file

  24.  * transform input video

  25.  */

  26. 

  27. #include "libavutil/common.h"

  28. #include "libavutil/avassert.h"

  29. 

  30. #include "transform.h"

  31. 

  32. #define INTERPOLATE_METHOD(name) \

  33.     static uint8_t name(float x, float y, const uint8_t *src, \

  34.                         int width, int height, int stride, uint8_t def)

  35. 

  36. #define PIXEL(img, x, y, w, h, stride, def) \

  37.     ((x) < 0 || (y) < 0) ? (def) : \

  38.     (((x) >= (w) || (y) >= (h)) ? (def) : \

  39.     img[(x) + (y) * (stride)])

  40. 

  41. /**

  42.  * Nearest neighbor interpolation

  43.  */

  44. INTERPOLATE_METHOD(interpolate_nearest)

  45. {

  46.     return PIXEL(src, (int)(x + 0.5), (int)(y + 0.5), width, height, stride, def);

  47. }

  48. 

  49. /**

  50.  * Bilinear interpolation

  51.  */

  52. INTERPOLATE_METHOD(interpolate_bilinear)

  53. {

  54.     int x_c, x_f, y_c, y_f;

  55.     int v1, v2, v3, v4;

  56. 

  57.     if (x < -1 || x > width || y < -1 || y > height) {

  58.         return def;

  59.     } else {

  60.         x_f = (int)x;

  61.         x_c = x_f + 1;

  62. 

  63.         y_f = (int)y;

  64.         y_c = y_f + 1;

  65. 

  66.         v1 = PIXEL(src, x_c, y_c, width, height, stride, def);

  67.         v2 = PIXEL(src, x_c, y_f, width, height, stride, def);

  68.         v3 = PIXEL(src, x_f, y_c, width, height, stride, def);

  69.         v4 = PIXEL(src, x_f, y_f, width, height, stride, def);

  70. 

  71.         return (v1*(x - x_f)*(y - y_f) + v2*((x - x_f)*(y_c - y)) +

  72.                 v3*(x_c - x)*(y - y_f) + v4*((x_c - x)*(y_c - y)));

  73.     }

  74. }

  75. 

  76. /**

  77.  * Biquadratic interpolation

  78.  */

  79. INTERPOLATE_METHOD(interpolate_biquadratic)

  80. {

  81.     int     x_c, x_f, y_c, y_f;

  82.     uint8_t v1,  v2,  v3,  v4;

  83.     float   f1,  f2,  f3,  f4;

  84. 

  85.     if (x < - 1 || x > width || y < -1 || y > height)

  86.         return def;

  87.     else {

  88.         x_f = (int)x;

  89.         x_c = x_f + 1;

  90.         y_f = (int)y;

  91.         y_c = y_f + 1;

  92. 

  93.         v1 = PIXEL(src, x_c, y_c, width, height, stride, def);

  94.         v2 = PIXEL(src, x_c, y_f, width, height, stride, def);

  95.         v3 = PIXEL(src, x_f, y_c, width, height, stride, def);

  96.         v4 = PIXEL(src, x_f, y_f, width, height, stride, def);

  97. 

  98.         f1 = 1 - sqrt((x_c - x) * (y_c - y));

  99.         f2 = 1 - sqrt((x_c - x) * (y - y_f));

  100.         f3 = 1 - sqrt((x - x_f) * (y_c - y));

  101.         f4 = 1 - sqrt((x - x_f) * (y - y_f));

  102.         return (v1 * f1 + v2 * f2 + v3 * f3 + v4 * f4) / (f1 + f2 + f3 + f4);

  103.     }

  104. }

  105. 

  106. void avfilter_get_matrix(float x_shift, float y_shift, float angle, float zoom, float *matrix) {

  107.     matrix[0] = zoom * cos(angle);

  108.     matrix[1] = -sin(angle);

  109.     matrix[2] = x_shift;

  110.     matrix[3] = -matrix[1];

  111.     matrix[4] = matrix[0];

  112.     matrix[5] = y_shift;

  113.     matrix[6] = 0;

  114.     matrix[7] = 0;

  115.     matrix[8] = 1;

  116. }

  117. 

  118. void avfilter_add_matrix(const float *m1, const float *m2, float *result)

  119. {

  120.     int i;

  121.     for (i = 0; i < 9; i++)

  122.         result[i] = m1[i] + m2[i];

  123. }

  124. 

  125. void avfilter_sub_matrix(const float *m1, const float *m2, float *result)

  126. {

  127.     int i;

  128.     for (i = 0; i < 9; i++)

  129.         result[i] = m1[i] - m2[i];

  130. }

  131. 

  132. void avfilter_mul_matrix(const float *m1, float scalar, float *result)

  133. {

  134.     int i;

  135.     for (i = 0; i < 9; i++)

  136.         result[i] = m1[i] * scalar;

  137. }

  138. 

  139. static inline int mirror(int v, int m)

  140. {

  141.     while ((unsigned)v > (unsigned)m) {

  142.         v = -v;

  143.         if (v < 0)

  144.             v += 2 * m;

  145.     }

  146.     return v;

  147. }

  148. 

  149. void avfilter_transform(const uint8_t *src, uint8_t *dst,

  150.                         int src_stride, int dst_stride,

  151.                         int width, int height, const float *matrix,

  152.                         enum InterpolateMethod interpolate,

  153.                         enum FillMethod fill)

  154. {

  155.     int x, y;

  156.     float x_s, y_s;

  157.     uint8_t def = 0;

  158.     uint8_t (*func)(float, float, const uint8_t *, int, int, int, uint8_t) = NULL;

  159. 

  160.     switch(interpolate) {

  161.         case INTERPOLATE_NEAREST:

  162.             func = interpolate_nearest;

  163.             break;

  164.         case INTERPOLATE_BILINEAR:

  165.             func = interpolate_bilinear;

  166.             break;

  167.         case INTERPOLATE_BIQUADRATIC:

  168.             func = interpolate_biquadratic;

  169.             break;

  170.     }

  171. 

  172.     for (y = 0; y < height; y++) {

  173.         for(x = 0; x < width; x++) {

  174.             x_s = x * matrix[0] + y * matrix[1] + matrix[2];

  175.             y_s = x * matrix[3] + y * matrix[4] + matrix[5];

  176. 

  177.             switch(fill) {

  178.                 case FILL_ORIGINAL:

  179.                     def = src[y * src_stride + x];

  180.                     break;

  181.                 case FILL_CLAMP:

  182.                     y_s = av_clipf(y_s, 0, height - 1);

  183.                     x_s = av_clipf(x_s, 0, width - 1);

  184.                     def = src[(int)y_s * src_stride + (int)x_s];

  185.                     break;

  186.                 case FILL_MIRROR:

  187.                     x_s = mirror(x_s,  width-1);

  188.                     y_s = mirror(y_s, height-1);

  189. 

  190.                     av_assert2(x_s >= 0 && y_s >= 0);

  191.                     av_assert2(x_s < width && y_s < height);

  192.                     def = src[(int)y_s * src_stride + (int)x_s];

  193.             }

  194. 

  195.             dst[y * dst_stride + x] = func(x_s, y_s, src, width, height, src_stride, def);

  196.         }

  197.     }

  198. }