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FFmpeg/libavfilter/vf_super2xsai.c

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  1. /*

  2.  * Copyright (c) 2010 Niel van der Westhuizen <nielkie@gmail.com>

  3.  * Copyright (c) 2002 A'rpi

  4.  * Copyright (c) 1997-2001 ZSNES Team ( zsknight@zsnes.com / _demo_@zsnes.com )

  5.  *

  6.  * This file is part of FFmpeg.

  7.  *

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

  9.  * it under the terms of the GNU General Public License as published by

  10.  * the Free Software Foundation; either version 2 of the License, or

  11.  * (at your option) any later version.

  12.  *

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

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

  15.  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

  16.  * GNU General Public License for more details.

  17.  *

  18.  * You should have received a copy of the GNU General Public License along

  19.  * with FFmpeg; if not, write to the Free Software Foundation, Inc.,

  20.  * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.

  21.  */

  22. 

  23. /**

  24.  * @file

  25.  * Super 2xSaI video filter

  26.  * Ported from MPlayer libmpcodecs/vf_2xsai.c.

  27.  */

  28. 

  29. #include "libavutil/pixdesc.h"

  30. #include "libavutil/intreadwrite.h"

  31. #include "avfilter.h"

  32. #include "formats.h"

  33. #include "internal.h"

  34. #include "video.h"

  35. 

  36. typedef struct Super2xSaIContext {

  37.     /* masks used for two pixels interpolation */

  38.     uint32_t hi_pixel_mask;

  39.     uint32_t lo_pixel_mask;

  40. 

  41.     /* masks used for four pixels interpolation */

  42.     uint32_t q_hi_pixel_mask;

  43.     uint32_t q_lo_pixel_mask;

  44. 

  45.     int bpp; ///< bytes per pixel, pixel stride for each (packed) pixel

  46.     int is_be;

  47. } Super2xSaIContext;

  48. 

  49. #define GET_RESULT(A, B, C, D) ((A != C || A != D) - (B != C || B != D))

  50. 

  51. #define INTERPOLATE(A, B) (((A & hi_pixel_mask) >> 1) + ((B & hi_pixel_mask) >> 1) + (A & B & lo_pixel_mask))

  52. 

  53. #define Q_INTERPOLATE(A, B, C, D) ((A & q_hi_pixel_mask) >> 2) + ((B & q_hi_pixel_mask) >> 2) + ((C & q_hi_pixel_mask) >> 2) + ((D & q_hi_pixel_mask) >> 2) \

  54.     + ((((A & q_lo_pixel_mask) + (B & q_lo_pixel_mask) + (C & q_lo_pixel_mask) + (D & q_lo_pixel_mask)) >> 2) & q_lo_pixel_mask)

  55. 

  56. static void super2xsai(AVFilterContext *ctx,

  57.                        uint8_t *src, int src_linesize,

  58.                        uint8_t *dst, int dst_linesize,

  59.                        int width, int height)

  60. {

  61.     Super2xSaIContext *s = ctx->priv;

  62.     unsigned int x, y;

  63.     uint32_t color[4][4];

  64.     unsigned char *src_line[4];

  65.     const int bpp = s->bpp;

  66.     const uint32_t hi_pixel_mask = s->hi_pixel_mask;

  67.     const uint32_t lo_pixel_mask = s->lo_pixel_mask;

  68.     const uint32_t q_hi_pixel_mask = s->q_hi_pixel_mask;

  69.     const uint32_t q_lo_pixel_mask = s->q_lo_pixel_mask;

  70. 

  71.     /* Point to the first 4 lines, first line is duplicated */

  72.     src_line[0] = src;

  73.     src_line[1] = src;

  74.     src_line[2] = src + src_linesize*FFMIN(1, height-1);

  75.     src_line[3] = src + src_linesize*FFMIN(2, height-1);

  76. 

  77. #define READ_COLOR4(dst, src_line, off) dst = *((const uint32_t *)src_line + off)

  78. #define READ_COLOR3(dst, src_line, off) dst = AV_RL24 (src_line + 3*off)

  79. #define READ_COLOR2(dst, src_line, off) dst = s->is_be ? AV_RB16(src_line + 2 * off) : AV_RL16(src_line + 2 * off)

  80. 

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

  82.         uint8_t *dst_line[2];

  83. 

  84.         dst_line[0] = dst + dst_linesize*2*y;

  85.         dst_line[1] = dst + dst_linesize*(2*y+1);

  86. 

  87.         switch (bpp) {

  88.         case 4:

  89.             READ_COLOR4(color[0][0], src_line[0], 0); color[0][1] = color[0][0]; READ_COLOR4(color[0][2], src_line[0], 1); READ_COLOR4(color[0][3], src_line[0], 2);

  90.             READ_COLOR4(color[1][0], src_line[1], 0); color[1][1] = color[1][0]; READ_COLOR4(color[1][2], src_line[1], 1); READ_COLOR4(color[1][3], src_line[1], 2);

  91.             READ_COLOR4(color[2][0], src_line[2], 0); color[2][1] = color[2][0]; READ_COLOR4(color[2][2], src_line[2], 1); READ_COLOR4(color[2][3], src_line[2], 2);

  92.             READ_COLOR4(color[3][0], src_line[3], 0); color[3][1] = color[3][0]; READ_COLOR4(color[3][2], src_line[3], 1); READ_COLOR4(color[3][3], src_line[3], 2);

  93.             break;

  94.         case 3:

  95.             READ_COLOR3(color[0][0], src_line[0], 0); color[0][1] = color[0][0]; READ_COLOR3(color[0][2], src_line[0], 1); READ_COLOR3(color[0][3], src_line[0], 2);

  96.             READ_COLOR3(color[1][0], src_line[1], 0); color[1][1] = color[1][0]; READ_COLOR3(color[1][2], src_line[1], 1); READ_COLOR3(color[1][3], src_line[1], 2);

  97.             READ_COLOR3(color[2][0], src_line[2], 0); color[2][1] = color[2][0]; READ_COLOR3(color[2][2], src_line[2], 1); READ_COLOR3(color[2][3], src_line[2], 2);

  98.             READ_COLOR3(color[3][0], src_line[3], 0); color[3][1] = color[3][0]; READ_COLOR3(color[3][2], src_line[3], 1); READ_COLOR3(color[3][3], src_line[3], 2);

  99.             break;

  100.         default:

  101.             READ_COLOR2(color[0][0], src_line[0], 0); color[0][1] = color[0][0]; READ_COLOR2(color[0][2], src_line[0], 1); READ_COLOR2(color[0][3], src_line[0], 2);

  102.             READ_COLOR2(color[1][0], src_line[1], 0); color[1][1] = color[1][0]; READ_COLOR2(color[1][2], src_line[1], 1); READ_COLOR2(color[1][3], src_line[1], 2);

  103.             READ_COLOR2(color[2][0], src_line[2], 0); color[2][1] = color[2][0]; READ_COLOR2(color[2][2], src_line[2], 1); READ_COLOR2(color[2][3], src_line[2], 2);

  104.             READ_COLOR2(color[3][0], src_line[3], 0); color[3][1] = color[3][0]; READ_COLOR2(color[3][2], src_line[3], 1); READ_COLOR2(color[3][3], src_line[3], 2);

  105.         }

  106. 

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

  108.             uint32_t product1a, product1b, product2a, product2b;

  109. 

  110. //---------------------------------------  B0 B1 B2 B3    0  1  2  3

  111. //                                         4  5* 6  S2 -> 4  5* 6  7

  112. //                                         1  2  3  S1    8  9 10 11

  113. //                                         A0 A1 A2 A3   12 13 14 15

  114. //--------------------------------------

  115.             if (color[2][1] == color[1][2] && color[1][1] != color[2][2]) {

  116.                 product2b = color[2][1];

  117.                 product1b = product2b;

  118.             } else if (color[1][1] == color[2][2] && color[2][1] != color[1][2]) {

  119.                 product2b = color[1][1];

  120.                 product1b = product2b;

  121.             } else if (color[1][1] == color[2][2] && color[2][1] == color[1][2]) {

  122.                 int r = 0;

  123. 

  124.                 r += GET_RESULT(color[1][2], color[1][1], color[1][0], color[3][1]);

  125.                 r += GET_RESULT(color[1][2], color[1][1], color[2][0], color[0][1]);

  126.                 r += GET_RESULT(color[1][2], color[1][1], color[3][2], color[2][3]);

  127.                 r += GET_RESULT(color[1][2], color[1][1], color[0][2], color[1][3]);

  128. 

  129.                 if (r > 0)

  130.                     product1b = color[1][2];

  131.                 else if (r < 0)

  132.                     product1b = color[1][1];

  133.                 else

  134.                     product1b = INTERPOLATE(color[1][1], color[1][2]);

  135. 

  136.                 product2b = product1b;

  137.             } else {

  138.                 if (color[1][2] == color[2][2] && color[2][2] == color[3][1] && color[2][1] != color[3][2] && color[2][2] != color[3][0])

  139.                     product2b = Q_INTERPOLATE(color[2][2], color[2][2], color[2][2], color[2][1]);

  140.                 else if (color[1][1] == color[2][1] && color[2][1] == color[3][2] && color[3][1] != color[2][2] && color[2][1] != color[3][3])

  141.                     product2b = Q_INTERPOLATE(color[2][1], color[2][1], color[2][1], color[2][2]);

  142.                 else

  143.                     product2b = INTERPOLATE(color[2][1], color[2][2]);

  144. 

  145.                 if (color[1][2] == color[2][2] && color[1][2] == color[0][1] && color[1][1] != color[0][2] && color[1][2] != color[0][0])

  146.                     product1b = Q_INTERPOLATE(color[1][2], color[1][2], color[1][2], color[1][1]);

  147.                 else if (color[1][1] == color[2][1] && color[1][1] == color[0][2] && color[0][1] != color[1][2] && color[1][1] != color[0][3])

  148.                     product1b = Q_INTERPOLATE(color[1][2], color[1][1], color[1][1], color[1][1]);

  149.                 else

  150.                     product1b = INTERPOLATE(color[1][1], color[1][2]);

  151.             }

  152. 

  153.             if (color[1][1] == color[2][2] && color[2][1] != color[1][2] && color[1][0] == color[1][1] && color[1][1] != color[3][2])

  154.                 product2a = INTERPOLATE(color[2][1], color[1][1]);

  155.             else if (color[1][1] == color[2][0] && color[1][2] == color[1][1] && color[1][0] != color[2][1] && color[1][1] != color[3][0])

  156.                 product2a = INTERPOLATE(color[2][1], color[1][1]);

  157.             else

  158.                 product2a = color[2][1];

  159. 

  160.             if (color[2][1] == color[1][2] && color[1][1] != color[2][2] && color[2][0] == color[2][1] && color[2][1] != color[0][2])

  161.                 product1a = INTERPOLATE(color[2][1], color[1][1]);

  162.             else if (color[1][0] == color[2][1] && color[2][2] == color[2][1] && color[2][0] != color[1][1] && color[2][1] != color[0][0])

  163.                 product1a = INTERPOLATE(color[2][1], color[1][1]);

  164.             else

  165.                 product1a = color[1][1];

  166. 

  167.             /* Set the calculated pixels */

  168.             switch (bpp) {

  169.             case 4:

  170.                 AV_WN32A(dst_line[0] + x * 8,     product1a);

  171.                 AV_WN32A(dst_line[0] + x * 8 + 4, product1b);

  172.                 AV_WN32A(dst_line[1] + x * 8,     product2a);

  173.                 AV_WN32A(dst_line[1] + x * 8 + 4, product2b);

  174.                 break;

  175.             case 3:

  176.                 AV_WL24(dst_line[0] + x * 6,     product1a);

  177.                 AV_WL24(dst_line[0] + x * 6 + 3, product1b);

  178.                 AV_WL24(dst_line[1] + x * 6,     product2a);

  179.                 AV_WL24(dst_line[1] + x * 6 + 3, product2b);

  180.                 break;

  181.             default: // bpp = 2

  182.                 if (s->is_be) {

  183.                     AV_WB32(dst_line[0] + x * 4, product1a | (product1b << 16));

  184.                     AV_WB32(dst_line[1] + x * 4, product2a | (product2b << 16));

  185.                 } else {

  186.                     AV_WL32(dst_line[0] + x * 4, product1a | (product1b << 16));

  187.                     AV_WL32(dst_line[1] + x * 4, product2a | (product2b << 16));

  188.                 }

  189.             }

  190. 

  191.             /* Move color matrix forward */

  192.             color[0][0] = color[0][1]; color[0][1] = color[0][2]; color[0][2] = color[0][3];

  193.             color[1][0] = color[1][1]; color[1][1] = color[1][2]; color[1][2] = color[1][3];

  194.             color[2][0] = color[2][1]; color[2][1] = color[2][2]; color[2][2] = color[2][3];

  195.             color[3][0] = color[3][1]; color[3][1] = color[3][2]; color[3][2] = color[3][3];

  196. 

  197.             if (x < width - 3) {

  198.                 x += 3;

  199.                 switch (bpp) {

  200.                 case 4:

  201.                     READ_COLOR4(color[0][3], src_line[0], x);

  202.                     READ_COLOR4(color[1][3], src_line[1], x);

  203.                     READ_COLOR4(color[2][3], src_line[2], x);

  204.                     READ_COLOR4(color[3][3], src_line[3], x);

  205.                     break;

  206.                 case 3:

  207.                     READ_COLOR3(color[0][3], src_line[0], x);

  208.                     READ_COLOR3(color[1][3], src_line[1], x);

  209.                     READ_COLOR3(color[2][3], src_line[2], x);

  210.                     READ_COLOR3(color[3][3], src_line[3], x);

  211.                     break;

  212.                 default:        /* case 2 */

  213.                     READ_COLOR2(color[0][3], src_line[0], x);

  214.                     READ_COLOR2(color[1][3], src_line[1], x);

  215.                     READ_COLOR2(color[2][3], src_line[2], x);

  216.                     READ_COLOR2(color[3][3], src_line[3], x);

  217.                 }

  218.                 x -= 3;

  219.             }

  220.         }

  221. 

  222.         /* We're done with one line, so we shift the source lines up */

  223.         src_line[0] = src_line[1];

  224.         src_line[1] = src_line[2];

  225.         src_line[2] = src_line[3];

  226. 

  227.         /* Read next line */

  228.         src_line[3] = src_line[2];

  229.         if (y < height - 3)

  230.             src_line[3] += src_linesize;

  231.     } // y loop

  232. }

  233. 

  234. static int query_formats(AVFilterContext *ctx)

  235. {

  236.     static const enum AVPixelFormat pix_fmts[] = {

  237.         AV_PIX_FMT_RGBA, AV_PIX_FMT_BGRA, AV_PIX_FMT_ARGB, AV_PIX_FMT_ABGR,

  238.         AV_PIX_FMT_RGB24, AV_PIX_FMT_BGR24,

  239.         AV_PIX_FMT_RGB565BE, AV_PIX_FMT_BGR565BE, AV_PIX_FMT_RGB555BE, AV_PIX_FMT_BGR555BE,

  240.         AV_PIX_FMT_RGB565LE, AV_PIX_FMT_BGR565LE, AV_PIX_FMT_RGB555LE, AV_PIX_FMT_BGR555LE,

  241.         AV_PIX_FMT_NONE

  242.     };

  243. 

  244.     AVFilterFormats *fmts_list = ff_make_format_list(pix_fmts);

  245.     if (!fmts_list)

  246.         return AVERROR(ENOMEM);

  247.     return ff_set_common_formats(ctx, fmts_list);

  248. }

  249. 

  250. static int config_input(AVFilterLink *inlink)

  251. {

  252.     Super2xSaIContext *s = inlink->dst->priv;

  253. 

  254.     s->hi_pixel_mask   = 0xFEFEFEFE;

  255.     s->lo_pixel_mask   = 0x01010101;

  256.     s->q_hi_pixel_mask = 0xFCFCFCFC;

  257.     s->q_lo_pixel_mask = 0x03030303;

  258.     s->bpp  = 4;

  259. 

  260.     switch (inlink->format) {

  261.     case AV_PIX_FMT_RGB24:

  262.     case AV_PIX_FMT_BGR24:

  263.         s->bpp = 3;

  264.         break;

  265. 

  266.     case AV_PIX_FMT_RGB565BE:

  267.     case AV_PIX_FMT_BGR565BE:

  268.         s->is_be = 1;

  269.     case AV_PIX_FMT_RGB565LE:

  270.     case AV_PIX_FMT_BGR565LE:

  271.         s->hi_pixel_mask   = 0xF7DEF7DE;

  272.         s->lo_pixel_mask   = 0x08210821;

  273.         s->q_hi_pixel_mask = 0xE79CE79C;

  274.         s->q_lo_pixel_mask = 0x18631863;

  275.         s->bpp = 2;

  276.         break;

  277. 

  278.     case AV_PIX_FMT_BGR555BE:

  279.     case AV_PIX_FMT_RGB555BE:

  280.         s->is_be = 1;

  281.     case AV_PIX_FMT_BGR555LE:

  282.     case AV_PIX_FMT_RGB555LE:

  283.         s->hi_pixel_mask   = 0x7BDE7BDE;

  284.         s->lo_pixel_mask   = 0x04210421;

  285.         s->q_hi_pixel_mask = 0x739C739C;

  286.         s->q_lo_pixel_mask = 0x0C630C63;

  287.         s->bpp = 2;

  288.         break;

  289.     }

  290. 

  291.     return 0;

  292. }

  293. 

  294. static int config_output(AVFilterLink *outlink)

  295. {

  296.     AVFilterLink *inlink = outlink->src->inputs[0];

  297. 

  298.     outlink->w = inlink->w*2;

  299.     outlink->h = inlink->h*2;

  300. 

  301.     av_log(inlink->dst, AV_LOG_VERBOSE, "fmt:%s size:%dx%d -> size:%dx%d\n",

  302.            av_get_pix_fmt_name(inlink->format),

  303.            inlink->w, inlink->h, outlink->w, outlink->h);

  304. 

  305.     return 0;

  306. }

  307. 

  308. static int filter_frame(AVFilterLink *inlink, AVFrame *inpicref)

  309. {

  310.     AVFilterLink *outlink = inlink->dst->outputs[0];

  311.     AVFrame *outpicref = ff_get_video_buffer(outlink, outlink->w, outlink->h);

  312.     if (!outpicref) {

  313.         av_frame_free(&inpicref);

  314.         return AVERROR(ENOMEM);

  315.     }

  316.     av_frame_copy_props(outpicref, inpicref);

  317.     outpicref->width  = outlink->w;

  318.     outpicref->height = outlink->h;

  319. 

  320.     super2xsai(inlink->dst, inpicref->data[0], inpicref->linesize[0],

  321.                outpicref->data[0], outpicref->linesize[0],

  322.                inlink->w, inlink->h);

  323. 

  324.     av_frame_free(&inpicref);

  325.     return ff_filter_frame(outlink, outpicref);

  326. }

  327. 

  328. static const AVFilterPad super2xsai_inputs[] = {

  329.     {

  330.         .name         = "default",

  331.         .type         = AVMEDIA_TYPE_VIDEO,

  332.         .config_props = config_input,

  333.         .filter_frame = filter_frame,

  334.     },

  335.     { NULL }

  336. };

  337. 

  338. static const AVFilterPad super2xsai_outputs[] = {

  339.     {

  340.         .name         = "default",

  341.         .type         = AVMEDIA_TYPE_VIDEO,

  342.         .config_props = config_output,

  343.     },

  344.     { NULL }

  345. };

  346. 

  347. AVFilter ff_vf_super2xsai = {

  348.     .name          = "super2xsai",

  349.     .description   = NULL_IF_CONFIG_SMALL("Scale the input by 2x using the Super2xSaI pixel art algorithm."),

  350.     .priv_size     = sizeof(Super2xSaIContext),

  351.     .query_formats = query_formats,

  352.     .inputs        = super2xsai_inputs,

  353.     .outputs       = super2xsai_outputs,

  354. };