/* decvobsub.c Copyright (c) 2003-2013 HandBrake Team This file is part of the HandBrake source code Homepage: . It may be used under the terms of the GNU General Public License v2. For full terms see the file COPYING file or visit http://www.gnu.org/licenses/gpl-2.0.html */ /* * Decoder for DVD bitmap subtitles, also known as "VOB subtitles" within the HandBrake source code. * * Input format of the subtitle packets is described here: * http://sam.zoy.org/writings/dvd/subtitles/ * * An auxiliary input is the color palette lookup table, in 'subtitle->palette'. * The demuxer implementation must fill out this table appropriately. * - In the case of a true DVD input, the palette is read from the IFO file. * - In the case of an MKV file input, the palette is read from the codec private data of the subtitle track. * * Output format of this decoder is PICTURESUB, which is: * struct PictureSubPacket { * uint8_t lum[pixelCount]; // Y * uint8_t alpha[pixelCount]; // alpha (max = 16) * uint8_t chromaU[pixelCount]; // Cb * uint8_t chromaV[pixelCount]; // Cr * } */ #include "hb.h" struct hb_work_private_s { hb_job_t * job; hb_buffer_t * buf; int size_sub; int size_got; int size_rle; int64_t pts; int64_t pts_start; int64_t pts_stop; int pts_forced; int x; int y; int width; int height; int stream_id; int offsets[2]; uint8_t lum[4]; uint8_t chromaU[4]; uint8_t chromaV[4]; uint8_t alpha[4]; uint8_t palette_set; }; static hb_buffer_t * Decode( hb_work_object_t * ); int decsubInit( hb_work_object_t * w, hb_job_t * job ) { hb_work_private_t * pv; pv = calloc( 1, sizeof( hb_work_private_t ) ); w->private_data = pv; pv->job = job; pv->pts = 0; // Warn if the input color palette is empty pv->palette_set = w->subtitle->palette_set; if ( pv->palette_set ) { // Make sure the entries in the palette are not all 0 pv->palette_set = 0; int i; for (i=0; i<16; i++) { if (w->subtitle->palette[i]) { pv->palette_set = 1; break; } } } if (!pv->palette_set) { hb_log( "decvobsub: input color palette is empty!" ); } return 0; } int decsubWork( hb_work_object_t * w, hb_buffer_t ** buf_in, hb_buffer_t ** buf_out ) { hb_work_private_t * pv = w->private_data; hb_buffer_t * in = *buf_in; int size_sub, size_rle; if ( in->size <= 0 ) { /* EOF on input stream - send it downstream & say that we're done */ *buf_out = in; *buf_in = NULL; return HB_WORK_DONE; } pv->stream_id = in->s.id; size_sub = ( in->data[0] << 8 ) | in->data[1]; size_rle = ( in->data[2] << 8 ) | in->data[3]; if( !pv->size_sub ) { /* We are looking for the start of a new subtitle */ if( size_sub && size_rle && size_sub > size_rle && in->size <= size_sub ) { /* Looks all right so far */ pv->size_sub = size_sub; pv->size_rle = size_rle; pv->buf = hb_buffer_init( 0xFFFF ); memcpy( pv->buf->data, in->data, in->size ); pv->buf->s.id = in->s.id; pv->buf->s.frametype = HB_FRAME_SUBTITLE; pv->buf->sequence = in->sequence; pv->size_got = in->size; if( in->s.start >= 0 ) { pv->pts = in->s.start; } } } else { /* We are waiting for the end of the current subtitle */ if( in->size <= pv->size_sub - pv->size_got ) { memcpy( pv->buf->data + pv->size_got, in->data, in->size ); pv->buf->s.id = in->s.id; pv->buf->sequence = in->sequence; pv->size_got += in->size; if( in->s.start >= 0 ) { pv->pts = in->s.start; } } else { // bad size, must have lost sync // force re-sync if ( pv->buf != NULL ) hb_buffer_close( &pv->buf ); pv->size_sub = 0; } } *buf_out = NULL; if( pv->size_sub && pv->size_sub == pv->size_got ) { pv->buf->size = pv->size_sub; /* We got a complete subtitle, decode it */ *buf_out = Decode( w ); if( buf_out && *buf_out ) { (*buf_out)->s.id = in->s.id; (*buf_out)->sequence = in->sequence; } /* Wait for the next one */ pv->size_sub = 0; pv->size_got = 0; pv->size_rle = 0; if ( pv->pts_stop != -1 ) { // If we don't get a valid next timestamp, use the stop time // of the current sub as the start of the next. // This can happen if reader invalidates timestamps while // waiting for an audio to update the SCR. pv->pts = pv->pts_stop; } } return HB_WORK_OK; } void decsubClose( hb_work_object_t * w ) { hb_work_private_t * pv = w->private_data; if ( pv->buf ) hb_buffer_close( &pv->buf ); free( w->private_data ); } hb_work_object_t hb_decvobsub = { WORK_DECVOBSUB, "VOBSUB decoder", decsubInit, decsubWork, decsubClose }; /*********************************************************************** * ParseControls *********************************************************************** * Get the start and end dates (relative to the PTS from the PES * header), the width and height of the subpicture and the colors and * alphas used in it **********************************************************************/ static void ParseControls( hb_work_object_t * w ) { hb_work_private_t * pv = w->private_data; uint8_t * buf = pv->buf->data; int i; int command; int date, next; pv->pts_start = -1; pv->pts_stop = -1; pv->pts_forced = 0; pv->alpha[3] = 0; pv->alpha[2] = 0; pv->alpha[1] = 0; pv->alpha[0] = 0; for( i = pv->size_rle; ; ) { date = ( buf[i] << 8 ) | buf[i+1]; i += 2; next = ( buf[i] << 8 ) | buf[i+1]; i += 2; for( ;; ) { command = buf[i++]; /* * There are eight commands available for * Sub-Pictures. The first SP_DCSQ should contain, as a * minimum, SET_COLOR, SET_CONTR, SET_DAREA, and * SET_DSPXA */ if( command == 0xFF ) // 0xFF - CMD_END - ends one SP_DCSQ { break; } switch( command ) { case 0x00: // 0x00 - FSTA_DSP - Forced Start Display, no arguments pv->pts_start = pv->pts + date * 1024; pv->pts_forced = 1; w->subtitle->hits++; w->subtitle->forced_hits++; break; case 0x01: // 0x01 - STA_DSP - Start Display, no arguments pv->pts_start = pv->pts + date * 1024; pv->pts_forced = 0; w->subtitle->hits++; break; case 0x02: // 0x02 - STP_DSP - Stop Display, no arguments if(pv->pts_stop == -1) pv->pts_stop = pv->pts + date * 1024; break; case 0x03: // 0x03 - SET_COLOR - Set Colour indices { /* * SET_COLOR - provides four indices into the CLUT * for the current PGC to associate with the four * pixel values */ int colors[4]; int j; colors[0] = (buf[i+0]>>4)&0x0f; colors[1] = (buf[i+0])&0x0f; colors[2] = (buf[i+1]>>4)&0x0f; colors[3] = (buf[i+1])&0x0f; for( j = 0; j < 4; j++ ) { /* * Not sure what is happening here, in theory * the palette is in YCbCr. And we want YUV. * * However it looks more like YCrCb (according * to pgcedit). And the scalers for YCrCb don't * work, but I get the right colours by doing * no conversion. */ uint32_t color = w->subtitle->palette[colors[j]]; uint8_t Cr, Cb, y; y = (color>>16) & 0xff; Cr = (color>>8) & 0xff; Cb = (color) & 0xff; pv->lum[3-j] = y; pv->chromaU[3-j] = Cb; pv->chromaV[3-j] = Cr; /* hb_log("color[%d] y = %d, u = %d, v = %d", 3-j, pv->lum[3-j], pv->chromaU[3-j], pv->chromaV[3-j]); */ } i += 2; break; } case 0x04: // 0x04 - SET_CONTR - Set Contrast { /* * SET_CONTR - directly provides the four contrast * (alpha blend) values to associate with the four * pixel values */ uint8_t alpha[4]; alpha[3] = ((buf[i+0] >> 4) & 0x0f) << 4; alpha[2] = ((buf[i+0] ) & 0x0f) << 4; alpha[1] = ((buf[i+1] >> 4) & 0x0f) << 4; alpha[0] = ((buf[i+1] ) & 0x0f) << 4; int lastAlpha = pv->alpha[3] + pv->alpha[2] + pv->alpha[1] + pv->alpha[0]; int currAlpha = alpha[3] + alpha[2] + alpha[1] + alpha[0]; // fading-in, save the highest alpha value if( currAlpha > lastAlpha ) { pv->alpha[3] = alpha[3]; pv->alpha[2] = alpha[2]; pv->alpha[1] = alpha[1]; pv->alpha[0] = alpha[0]; } // fading-out if( currAlpha < lastAlpha && pv->pts_stop == -1 ) { pv->pts_stop = pv->pts + date * 1024; } i += 2; break; } case 0x05: // 0x05 - SET_DAREA - defines the display area { pv->x = (buf[i+0]<<4) | ((buf[i+1]>>4)&0x0f); pv->width = (((buf[i+1]&0x0f)<<8)| buf[i+2]) - pv->x + 1; pv->y = (buf[i+3]<<4)| ((buf[i+4]>>4)&0x0f); pv->height = (((buf[i+4]&0x0f)<<8)| buf[i+5]) - pv->y + 1; i += 6; break; } case 0x06: // 0x06 - SET_DSPXA - defines the pixel data addresses { pv->offsets[0] = ( buf[i] << 8 ) | buf[i+1]; i += 2; pv->offsets[1] = ( buf[i] << 8 ) | buf[i+1]; i += 2; break; } } } if( i > next ) { break; } i = next; } // Generate timestamps if they are not set if( pv->pts_start == -1 ) { // Set pts to end of last sub if the start time is unknown. pv->pts_start = pv->pts; } } /*********************************************************************** * CropSubtitle *********************************************************************** * Given a raw decoded subtitle, detects transparent borders and * returns a cropped subtitle in a hb_buffer_t ready to be used by * the renderer, or NULL if the subtitle was completely transparent **********************************************************************/ static int LineIsTransparent( hb_work_object_t * w, uint8_t * p ) { hb_work_private_t * pv = w->private_data; int i; for( i = 0; i < pv->width; i++ ) { if( p[i] ) { return 0; } } return 1; } static int ColumnIsTransparent( hb_work_object_t * w, uint8_t * p ) { hb_work_private_t * pv = w->private_data; int i; for( i = 0; i < pv->height; i++ ) { if( p[i*pv->width] ) { return 0; } } return 1; } // Brain dead resampler. This should really use swscale... // Uses Bresenham algo to pick source samples for averaging static void resample( uint8_t * dst, uint8_t * src, int dst_w, int src_w ) { int dst_x, src_x, err, cnt, sum, val; if( dst_w < src_w ) { // sample down err = 0; sum = 0; val = 0; cnt = 0; err = src_w / 2; dst_x = 0; for( src_x = 0; src_x < src_w; src_x++ ) { sum += src[src_x]; cnt++; err -= dst_w; if( err < 0 ) { val = sum / cnt; dst[dst_x++] = val; sum = cnt = 0; err += src_w; } } for( ; dst_x < dst_w; dst_x++ ) { dst[dst_x] = val; } } else { // sample up err = 0; err = dst_w / 2; src_x = 0; for( dst_x = 0; dst_x < dst_w; dst_x++ ) { dst[dst_x] = src[src_x]; err -= src_w; if( err < 0 ) { src_x++; err += dst_w; } } } } static hb_buffer_t * CropSubtitle( hb_work_object_t * w, uint8_t * raw ) { hb_work_private_t * pv = w->private_data; int i; int crop[4] = { -1,-1,-1,-1 }; uint8_t * alpha; int realwidth, realheight; hb_buffer_t * buf; uint8_t * lum_in, * alpha_in, * u_in, * v_in; alpha = raw + pv->width * pv->height; /* Top */ for( i = 0; i < pv->height; i++ ) { if( !LineIsTransparent( w, &alpha[i*pv->width] ) ) { crop[0] = i; break; } } if( crop[0] < 0 ) { /* Empty subtitle */ return NULL; } /* Bottom */ for( i = pv->height - 1; i >= 0; i-- ) { if( !LineIsTransparent( w, &alpha[i*pv->width] ) ) { crop[1] = i; break; } } /* Left */ for( i = 0; i < pv->width; i++ ) { if( !ColumnIsTransparent( w, &alpha[i] ) ) { crop[2] = i; break; } } /* Right */ for( i = pv->width - 1; i >= 0; i-- ) { if( !ColumnIsTransparent( w, &alpha[i] ) ) { crop[3] = i; break; } } realwidth = crop[3] - crop[2] + 1; realheight = crop[1] - crop[0] + 1; buf = hb_frame_buffer_init( AV_PIX_FMT_YUVA420P, realwidth, realheight ); buf->s.frametype = HB_FRAME_SUBTITLE; buf->s.start = pv->pts_start; buf->s.stop = pv->pts_stop; buf->s.type = SUBTITLE_BUF; buf->f.x = pv->x + crop[2]; buf->f.y = pv->y + crop[0]; lum_in = raw + crop[0] * pv->width + crop[2]; alpha_in = lum_in + pv->width * pv->height; u_in = alpha_in + pv->width * pv->height; v_in = u_in + pv->width * pv->height; uint8_t *dst; for( i = 0; i < realheight; i++ ) { // Luma dst = buf->plane[0].data + buf->plane[0].stride * i; memcpy( dst, lum_in, realwidth ); if( ( i & 1 ) == 0 ) { // chroma U (resample to YUV420) dst = buf->plane[1].data + buf->plane[1].stride * ( i >> 1 ); resample( dst, u_in, buf->plane[1].width, realwidth ); // chroma V (resample to YUV420) dst = buf->plane[2].data + buf->plane[2].stride * ( i >> 1 ); resample( dst, v_in, buf->plane[2].width, realwidth ); } // Alpha dst = buf->plane[3].data + buf->plane[3].stride * i; memcpy( dst, alpha_in, realwidth ); lum_in += pv->width; alpha_in += pv->width; u_in += pv->width; v_in += pv->width; } return buf; } static hb_buffer_t * Decode( hb_work_object_t * w ) { hb_work_private_t * pv = w->private_data; int code, line, col; int offsets[2]; int * offset; hb_buffer_t * buf; uint8_t * buf_raw = NULL; hb_job_t * job = pv->job; /* Get infos about the subtitle */ ParseControls( w ); if( job->indepth_scan || ( w->subtitle->config.force && pv->pts_forced == 0 ) ) { /* * Don't encode subtitles when doing a scan. * * When forcing subtitles, ignore all those that don't * have the forced flag set. */ hb_buffer_close( &pv->buf ); return NULL; } if (w->subtitle->config.dest == PASSTHRUSUB) { pv->buf->s.start = pv->pts_start; pv->buf->s.stop = pv->pts_stop; buf = pv->buf; pv->buf = NULL; return buf; } /* Do the actual decoding now */ buf_raw = malloc( ( pv->width * pv->height ) * 4 ); #define GET_NEXT_NIBBLE code = ( code << 4 ) | ( ( ( *offset & 1 ) ? \ ( pv->buf->data[((*offset)>>1)] & 0xF ) : ( pv->buf->data[((*offset)>>1)] >> 4 ) ) ); \ (*offset)++ offsets[0] = pv->offsets[0] * 2; offsets[1] = pv->offsets[1] * 2; for( line = 0; line < pv->height; line++ ) { /* Select even or odd field */ offset = ( line & 1 ) ? &offsets[1] : &offsets[0]; for( col = 0; col < pv->width; col += code >> 2 ) { uint8_t * lum, * alpha, * chromaU, * chromaV; code = 0; GET_NEXT_NIBBLE; if( code < 0x4 ) { GET_NEXT_NIBBLE; if( code < 0x10 ) { GET_NEXT_NIBBLE; if( code < 0x40 ) { GET_NEXT_NIBBLE; if( code < 0x100 ) { /* End of line */ code |= ( pv->width - col ) << 2; } } } } lum = buf_raw; alpha = lum + pv->width * pv->height; chromaU = alpha + pv->width * pv->height; chromaV = chromaU + pv->width * pv->height; memset( lum + line * pv->width + col, pv->lum[code & 3], code >> 2 ); memset( alpha + line * pv->width + col, pv->alpha[code & 3], code >> 2 ); memset( chromaU + line * pv->width + col, pv->chromaU[code & 3], code >> 2 ); memset( chromaV + line * pv->width + col, pv->chromaV[code & 3], code >> 2 ); } /* Byte-align */ if( *offset & 1 ) { (*offset)++; } } hb_buffer_close( &pv->buf ); /* Crop subtitle (remove transparent borders) */ buf = CropSubtitle( w, buf_raw ); free( buf_raw ); return buf; }