/* * header.c * Copyright (C) 2000-2002 Michel Lespinasse * Copyright (C) 1999-2000 Aaron Holtzman * * This file is part of mpeg2dec, a free MPEG-2 video stream decoder. * See http://libmpeg2.sourceforge.net/ for updates. * * mpeg2dec is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * mpeg2dec is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "config.h" #include #include /* defines NULL */ #include /* memcmp */ #include "mpeg2.h" #include "mpeg2_internal.h" #include "convert.h" #include "attributes.h" #define SEQ_EXT 2 #define SEQ_DISPLAY_EXT 4 #define QUANT_MATRIX_EXT 8 #define COPYRIGHT_EXT 0x10 #define PIC_DISPLAY_EXT 0x80 #define PIC_CODING_EXT 0x100 /* default intra quant matrix, in zig-zag order */ static const uint8_t default_intra_quantizer_matrix[64] ATTR_ALIGN(16) = { 8, 16, 16, 19, 16, 19, 22, 22, 22, 22, 22, 22, 26, 24, 26, 27, 27, 27, 26, 26, 26, 26, 27, 27, 27, 29, 29, 29, 34, 34, 34, 29, 29, 29, 27, 27, 29, 29, 32, 32, 34, 34, 37, 38, 37, 35, 35, 34, 35, 38, 38, 40, 40, 40, 48, 48, 46, 46, 56, 56, 58, 69, 69, 83 }; uint8_t mpeg2_scan_norm[64] ATTR_ALIGN(16) = { /* Zig-Zag scan pattern */ 0, 1, 8, 16, 9, 2, 3, 10, 17, 24, 32, 25, 18, 11, 4, 5, 12, 19, 26, 33, 40, 48, 41, 34, 27, 20, 13, 6, 7, 14, 21, 28, 35, 42, 49, 56, 57, 50, 43, 36, 29, 22, 15, 23, 30, 37, 44, 51, 58, 59, 52, 45, 38, 31, 39, 46, 53, 60, 61, 54, 47, 55, 62, 63 }; uint8_t mpeg2_scan_alt[64] ATTR_ALIGN(16) = { /* Alternate scan pattern */ 0, 8, 16, 24, 1, 9, 2, 10, 17, 25, 32, 40, 48, 56, 57, 49, 41, 33, 26, 18, 3, 11, 4, 12, 19, 27, 34, 42, 50, 58, 35, 43, 51, 59, 20, 28, 5, 13, 6, 14, 21, 29, 36, 44, 52, 60, 37, 45, 53, 61, 22, 30, 7, 15, 23, 31, 38, 46, 54, 62, 39, 47, 55, 63 }; void mpeg2_header_state_init (mpeg2dec_t * mpeg2dec) { mpeg2dec->decoder.scan = mpeg2_scan_norm; mpeg2dec->picture = mpeg2dec->pictures; mpeg2dec->fbuf[0] = &mpeg2dec->fbuf_alloc[0].fbuf; mpeg2dec->fbuf[1] = &mpeg2dec->fbuf_alloc[1].fbuf; mpeg2dec->fbuf[2] = &mpeg2dec->fbuf_alloc[2].fbuf; mpeg2dec->first = 1; mpeg2dec->alloc_index = 0; mpeg2dec->alloc_index_user = 0; } static void reset_info (mpeg2_info_t * info) { info->current_picture = info->current_picture_2nd = NULL; info->display_picture = info->display_picture_2nd = NULL; info->current_fbuf = info->display_fbuf = info->discard_fbuf = NULL; info->user_data = NULL; info->user_data_len = 0; } int mpeg2_header_sequence (mpeg2dec_t * mpeg2dec) { uint8_t * buffer = mpeg2dec->chunk_start; sequence_t * sequence = &(mpeg2dec->new_sequence); decoder_t * decoder = &(mpeg2dec->decoder); static unsigned int frame_period[9] = { 0, 1126125, 1125000, 1080000, 900900, 900000, 540000, 450450, 450000 }; int width, height; int i; if ((buffer[6] & 0x20) != 0x20) /* missing marker_bit */ return 1; i = (buffer[0] << 16) | (buffer[1] << 8) | buffer[2]; sequence->display_width = sequence->picture_width = width = i >> 12; sequence->display_height = sequence->picture_height = height = i & 0xfff; decoder->width = sequence->width = width = (width + 15) & ~15; decoder->height = sequence->height = height = (height + 15) & ~15; decoder->vertical_position_extension = (height > 2800); sequence->chroma_width = width >> 1; sequence->chroma_height = height >> 1; sequence->flags = SEQ_FLAG_PROGRESSIVE_SEQUENCE; sequence->pixel_width = buffer[3] >> 4; /* aspect ratio */ sequence->frame_period = 0; if ((buffer[3] & 15) < 9) sequence->frame_period = frame_period[buffer[3] & 15]; sequence->byte_rate = (buffer[4]<<10) | (buffer[5]<<2) | (buffer[6]>>6); sequence->vbv_buffer_size = ((buffer[6]<<16)|(buffer[7]<<8))&0x1ff800; if (buffer[7] & 4) sequence->flags |= SEQ_FLAG_CONSTRAINED_PARAMETERS; if (buffer[7] & 2) { for (i = 0; i < 64; i++) decoder->intra_quantizer_matrix[mpeg2_scan_norm[i]] = (buffer[i+7] << 7) | (buffer[i+8] >> 1); buffer += 64; } else for (i = 0; i < 64; i++) decoder->intra_quantizer_matrix[mpeg2_scan_norm[i]] = default_intra_quantizer_matrix [i]; if (buffer[7] & 1) for (i = 0; i < 64; i++) decoder->non_intra_quantizer_matrix[mpeg2_scan_norm[i]] = buffer[i+8]; else for (i = 0; i < 64; i++) decoder->non_intra_quantizer_matrix[i] = 16; sequence->profile_level_id = 0x80; sequence->colour_primaries = 1; sequence->transfer_characteristics = 1; sequence->matrix_coefficients = 1; decoder->mpeg1 = 1; decoder->intra_dc_precision = 0; decoder->frame_pred_frame_dct = 1; decoder->q_scale_type = 0; decoder->concealment_motion_vectors = 0; decoder->scan = mpeg2_scan_norm; decoder->picture_structure = FRAME_PICTURE; mpeg2dec->ext_state = SEQ_EXT; mpeg2dec->state = STATE_SEQUENCE; mpeg2dec->display_offset_x = mpeg2dec->display_offset_y = 0; reset_info (&(mpeg2dec->info)); return 0; } static int sequence_ext (mpeg2dec_t * mpeg2dec) { uint8_t * buffer = mpeg2dec->chunk_start; sequence_t * sequence = &(mpeg2dec->new_sequence); decoder_t * decoder = &(mpeg2dec->decoder); int width, height; uint32_t flags; if (!(buffer[3] & 1)) return 1; sequence->profile_level_id = (buffer[0] << 4) | (buffer[1] >> 4); width = sequence->display_width = sequence->picture_width += ((buffer[1] << 13) | (buffer[2] << 5)) & 0x3000; height = sequence->display_height = sequence->picture_height += (buffer[2] << 7) & 0x3000; decoder->vertical_position_extension = (height > 2800); flags = sequence->flags | SEQ_FLAG_MPEG2; if (!(buffer[1] & 8)) { flags &= ~SEQ_FLAG_PROGRESSIVE_SEQUENCE; height = (height + 31) & ~31; } if (buffer[5] & 0x80) flags |= SEQ_FLAG_LOW_DELAY; sequence->flags = flags; decoder->width = sequence->width = width = (width + 15) & ~15; decoder->height = sequence->height = height = (height + 15) & ~15; switch (buffer[1] & 6) { case 0: /* invalid */ return 1; case 2: /* 4:2:0 */ height >>= 1; case 4: /* 4:2:2 */ width >>= 1; } sequence->chroma_width = width; sequence->chroma_height = height; sequence->byte_rate += ((buffer[2]<<25) | (buffer[3]<<17)) & 0x3ffc0000; sequence->vbv_buffer_size |= buffer[4] << 21; sequence->frame_period = sequence->frame_period * ((buffer[5]&31)+1) / (((buffer[5]>>2)&3)+1); decoder->mpeg1 = 0; mpeg2dec->ext_state = SEQ_DISPLAY_EXT; return 0; } static int sequence_display_ext (mpeg2dec_t * mpeg2dec) { uint8_t * buffer = mpeg2dec->chunk_start; sequence_t * sequence = &(mpeg2dec->new_sequence); uint32_t flags; flags = ((sequence->flags & ~SEQ_MASK_VIDEO_FORMAT) | ((buffer[0]<<4) & SEQ_MASK_VIDEO_FORMAT)); if (buffer[0] & 1) { flags |= SEQ_FLAG_COLOUR_DESCRIPTION; sequence->colour_primaries = buffer[1]; sequence->transfer_characteristics = buffer[2]; sequence->matrix_coefficients = buffer[3]; buffer += 3; } if (!(buffer[2] & 2)) /* missing marker_bit */ return 1; sequence->display_width = (buffer[1] << 6) | (buffer[2] >> 2); sequence->display_height = ((buffer[2]& 1 ) << 13) | (buffer[3] << 5) | (buffer[4] >> 3); return 0; } static inline void finalize_sequence (sequence_t * sequence) { int width; int height; sequence->byte_rate *= 50; if (sequence->flags & SEQ_FLAG_MPEG2) { switch (sequence->pixel_width) { case 1: /* square pixels */ sequence->pixel_width = sequence->pixel_height = 1; return; case 2: /* 4:3 aspect ratio */ width = 4; height = 3; break; case 3: /* 16:9 aspect ratio */ width = 16; height = 9; break; case 4: /* 2.21:1 aspect ratio */ width = 221; height = 100; break; default: /* illegal */ sequence->pixel_width = sequence->pixel_height = 0; return; } width *= sequence->display_height; height *= sequence->display_width; } else { if (sequence->byte_rate == 50 * 0x3ffff) sequence->byte_rate = 0; /* mpeg-1 VBR */ switch (sequence->pixel_width) { case 0: case 15: /* illegal */ sequence->pixel_width = sequence->pixel_height = 0; return; case 1: /* square pixels */ sequence->pixel_width = sequence->pixel_height = 1; return; case 3: /* 720x576 16:9 */ sequence->pixel_width = 64; sequence->pixel_height = 45; return; case 6: /* 720x480 16:9 */ sequence->pixel_width = 32; sequence->pixel_height = 27; return; case 12: /* 720*480 4:3 */ sequence->pixel_width = 8; sequence->pixel_height = 9; return; default: height = 88 * sequence->pixel_width + 1171; width = 2000; } } sequence->pixel_width = width; sequence->pixel_height = height; while (width) { /* find greatest common divisor */ int tmp = width; width = height % tmp; height = tmp; } sequence->pixel_width /= height; sequence->pixel_height /= height; } void mpeg2_header_sequence_finalize (mpeg2dec_t * mpeg2dec) { sequence_t * sequence = &(mpeg2dec->new_sequence); finalize_sequence (sequence); /* * according to 6.1.1.6, repeat sequence headers should be * identical to the original. However some DVDs dont respect that * and have different bitrates in the repeat sequence headers. So * we'll ignore that in the comparison and still consider these as * repeat sequence headers. */ mpeg2dec->sequence.byte_rate = sequence->byte_rate; if (!memcmp (&(mpeg2dec->sequence), sequence, sizeof (sequence_t))) mpeg2dec->state = STATE_SEQUENCE_REPEATED; mpeg2dec->sequence = *sequence; mpeg2dec->info.sequence = &(mpeg2dec->sequence); } int mpeg2_header_gop (mpeg2dec_t * mpeg2dec) { mpeg2dec->state = STATE_GOP; reset_info (&(mpeg2dec->info)); return 0; } void mpeg2_set_fbuf (mpeg2dec_t * mpeg2dec, int coding_type) { int i; for (i = 0; i < 3; i++) if (mpeg2dec->fbuf[1] != &mpeg2dec->fbuf_alloc[i].fbuf && mpeg2dec->fbuf[2] != &mpeg2dec->fbuf_alloc[i].fbuf) { mpeg2dec->fbuf[0] = &mpeg2dec->fbuf_alloc[i].fbuf; mpeg2dec->info.current_fbuf = mpeg2dec->fbuf[0]; if ((coding_type == B_TYPE) || (mpeg2dec->sequence.flags & SEQ_FLAG_LOW_DELAY)) { if ((coding_type == B_TYPE) || (mpeg2dec->convert_start)) mpeg2dec->info.discard_fbuf = mpeg2dec->fbuf[0]; mpeg2dec->info.display_fbuf = mpeg2dec->fbuf[0]; } break; } } int mpeg2_header_picture_start (mpeg2dec_t * mpeg2dec) { decoder_t * decoder = &(mpeg2dec->decoder); picture_t * picture; if (mpeg2dec->state != STATE_SLICE_1ST) { mpeg2dec->state = STATE_PICTURE; picture = mpeg2dec->pictures; if ((decoder->coding_type != PIC_FLAG_CODING_TYPE_B) ^ (mpeg2dec->picture >= mpeg2dec->pictures + 2)) picture += 2; } else { mpeg2dec->state = STATE_PICTURE_2ND; picture = mpeg2dec->picture + 1; /* second field picture */ } mpeg2dec->picture = picture; picture->flags = 0; if (mpeg2dec->num_pts) { if (mpeg2dec->bytes_since_pts >= 4) { mpeg2dec->num_pts = 0; picture->pts = mpeg2dec->pts_current; picture->flags = PIC_FLAG_PTS; } else if (mpeg2dec->num_pts > 1) { mpeg2dec->num_pts = 1; picture->pts = mpeg2dec->pts_previous; picture->flags = PIC_FLAG_PTS; } } picture->display_offset[0].x = picture->display_offset[1].x = picture->display_offset[2].x = mpeg2dec->display_offset_x; picture->display_offset[0].y = picture->display_offset[1].y = picture->display_offset[2].y = mpeg2dec->display_offset_y; return mpeg2_parse_header (mpeg2dec); } int mpeg2_header_picture (mpeg2dec_t * mpeg2dec) { uint8_t * buffer = mpeg2dec->chunk_start; picture_t * picture = mpeg2dec->picture; decoder_t * decoder = &(mpeg2dec->decoder); int type; int low_delay; type = (buffer [1] >> 3) & 7; low_delay = mpeg2dec->sequence.flags & SEQ_FLAG_LOW_DELAY; if (mpeg2dec->state == STATE_PICTURE) { picture_t * other; decoder->second_field = 0; other = mpeg2dec->pictures; if (other == picture) other += 2; if (decoder->coding_type != PIC_FLAG_CODING_TYPE_B) { mpeg2dec->fbuf[2] = mpeg2dec->fbuf[1]; mpeg2dec->fbuf[1] = mpeg2dec->fbuf[0]; } mpeg2dec->fbuf[0] = NULL; reset_info (&(mpeg2dec->info)); mpeg2dec->info.current_picture = picture; mpeg2dec->info.display_picture = picture; if (type != PIC_FLAG_CODING_TYPE_B) { if (!low_delay) { if (mpeg2dec->first) { mpeg2dec->info.display_picture = NULL; mpeg2dec->first = 0; } else { mpeg2dec->info.display_picture = other; if (other->nb_fields == 1) mpeg2dec->info.display_picture_2nd = other + 1; mpeg2dec->info.display_fbuf = mpeg2dec->fbuf[1]; } } if (!low_delay + !mpeg2dec->convert_start) mpeg2dec->info.discard_fbuf = mpeg2dec->fbuf[!low_delay + !mpeg2dec->convert_start]; } if (!mpeg2dec->custom_fbuf) { while (mpeg2dec->alloc_index < 3) { fbuf_t * fbuf; fbuf = &(mpeg2dec->fbuf_alloc[mpeg2dec->alloc_index++].fbuf); fbuf->id = NULL; if (mpeg2dec->convert_start) { fbuf->buf[0] = (uint8_t *) mpeg2_malloc (mpeg2dec->convert_size[0], ALLOC_CONVERTED); fbuf->buf[1] = fbuf->buf[0] + mpeg2dec->convert_size[1]; fbuf->buf[2] = fbuf->buf[0] + mpeg2dec->convert_size[2]; } else { int size; size = mpeg2dec->decoder.width * mpeg2dec->decoder.height; fbuf->buf[0] = (uint8_t *) mpeg2_malloc (6 * size >> 2, ALLOC_YUV); fbuf->buf[1] = fbuf->buf[0] + size; fbuf->buf[2] = fbuf->buf[1] + (size >> 2); } } mpeg2_set_fbuf (mpeg2dec, type); } } else { decoder->second_field = 1; mpeg2dec->info.current_picture_2nd = picture; mpeg2dec->info.user_data = NULL; mpeg2dec->info.user_data_len = 0; if (low_delay || type == PIC_FLAG_CODING_TYPE_B) mpeg2dec->info.display_picture_2nd = picture; } mpeg2dec->ext_state = PIC_CODING_EXT; picture->temporal_reference = (buffer[0] << 2) | (buffer[1] >> 6); decoder->coding_type = type; picture->flags |= type; if (type == PIC_FLAG_CODING_TYPE_P || type == PIC_FLAG_CODING_TYPE_B) { /* forward_f_code and backward_f_code - used in mpeg1 only */ decoder->f_motion.f_code[1] = (buffer[3] >> 2) & 1; decoder->f_motion.f_code[0] = (((buffer[3] << 1) | (buffer[4] >> 7)) & 7) - 1; decoder->b_motion.f_code[1] = (buffer[4] >> 6) & 1; decoder->b_motion.f_code[0] = ((buffer[4] >> 3) & 7) - 1; } /* XXXXXX decode extra_information_picture as well */ picture->nb_fields = 2; return 0; } static int picture_coding_ext (mpeg2dec_t * mpeg2dec) { uint8_t * buffer = mpeg2dec->chunk_start; picture_t * picture = mpeg2dec->picture; decoder_t * decoder = &(mpeg2dec->decoder); uint32_t flags; /* pre subtract 1 for use later in compute_motion_vector */ decoder->f_motion.f_code[0] = (buffer[0] & 15) - 1; decoder->f_motion.f_code[1] = (buffer[1] >> 4) - 1; decoder->b_motion.f_code[0] = (buffer[1] & 15) - 1; decoder->b_motion.f_code[1] = (buffer[2] >> 4) - 1; flags = picture->flags; decoder->intra_dc_precision = (buffer[2] >> 2) & 3; decoder->picture_structure = buffer[2] & 3; switch (decoder->picture_structure) { case TOP_FIELD: flags |= PIC_FLAG_TOP_FIELD_FIRST; case BOTTOM_FIELD: picture->nb_fields = 1; break; case FRAME_PICTURE: if (!(mpeg2dec->sequence.flags & SEQ_FLAG_PROGRESSIVE_SEQUENCE)) { picture->nb_fields = (buffer[3] & 2) ? 3 : 2; flags |= (buffer[3] & 128) ? PIC_FLAG_TOP_FIELD_FIRST : 0; flags |= (buffer[3] & 2) ? PIC_FLAG_REPEAT_FIRST_FIELD : 0; } else picture->nb_fields = (buffer[3]&2) ? ((buffer[3]&128) ? 6 : 4) : 2; break; default: return 1; } decoder->top_field_first = buffer[3] >> 7; decoder->frame_pred_frame_dct = (buffer[3] >> 6) & 1; decoder->concealment_motion_vectors = (buffer[3] >> 5) & 1; decoder->q_scale_type = (buffer[3] >> 4) & 1; decoder->intra_vlc_format = (buffer[3] >> 3) & 1; decoder->scan = (buffer[3] & 4) ? mpeg2_scan_alt : mpeg2_scan_norm; flags |= (buffer[4] & 0x80) ? PIC_FLAG_PROGRESSIVE_FRAME : 0; if (buffer[4] & 0x40) flags |= (((buffer[4]<<26) | (buffer[5]<<18) | (buffer[6]<<10)) & PIC_MASK_COMPOSITE_DISPLAY) | PIC_FLAG_COMPOSITE_DISPLAY; picture->flags = flags; mpeg2dec->ext_state = PIC_DISPLAY_EXT | COPYRIGHT_EXT | QUANT_MATRIX_EXT; return 0; } static int picture_display_ext (mpeg2dec_t * mpeg2dec) { uint8_t * buffer = mpeg2dec->chunk_start; picture_t * picture = mpeg2dec->picture; int i, nb_pos; nb_pos = picture->nb_fields; if (mpeg2dec->sequence.flags & SEQ_FLAG_PROGRESSIVE_SEQUENCE) nb_pos >>= 1; for (i = 0; i < nb_pos; i++) { int x, y; x = ((buffer[4*i] << 24) | (buffer[4*i+1] << 16) | (buffer[4*i+2] << 8) | buffer[4*i+3]) >> (11-2*i); y = ((buffer[4*i+2] << 24) | (buffer[4*i+3] << 16) | (buffer[4*i+4] << 8) | buffer[4*i+5]) >> (10-2*i); if (! (x & y & 1)) return 1; picture->display_offset[i].x = mpeg2dec->display_offset_x = x >> 1; picture->display_offset[i].y = mpeg2dec->display_offset_y = y >> 1; } for (; i < 3; i++) { picture->display_offset[i].x = mpeg2dec->display_offset_x; picture->display_offset[i].y = mpeg2dec->display_offset_y; } return 0; } static int copyright_ext (mpeg2dec_t * mpeg2dec) { return 0; } static int quant_matrix_ext (mpeg2dec_t * mpeg2dec) { uint8_t * buffer = mpeg2dec->chunk_start; decoder_t * decoder = &(mpeg2dec->decoder); int i; if (buffer[0] & 8) { for (i = 0; i < 64; i++) decoder->intra_quantizer_matrix[mpeg2_scan_norm[i]] = (buffer[i] << 5) | (buffer[i+1] >> 3); buffer += 64; } if (buffer[0] & 4) for (i = 0; i < 64; i++) decoder->non_intra_quantizer_matrix[mpeg2_scan_norm[i]] = (buffer[i] << 6) | (buffer[i+1] >> 2); return 0; } int mpeg2_header_extension (mpeg2dec_t * mpeg2dec) { static int (* parser[]) (mpeg2dec_t *) = { 0, sequence_ext, sequence_display_ext, quant_matrix_ext, copyright_ext, 0, 0, picture_display_ext, picture_coding_ext }; int ext, ext_bit; ext = mpeg2dec->chunk_start[0] >> 4; ext_bit = 1 << ext; if (!(mpeg2dec->ext_state & ext_bit)) return 0; /* ignore illegal extensions */ mpeg2dec->ext_state &= ~ext_bit; return parser[ext] (mpeg2dec); } int mpeg2_header_user_data (mpeg2dec_t * mpeg2dec) { if (!mpeg2dec->info.user_data_len) mpeg2dec->info.user_data = mpeg2dec->chunk_start; else mpeg2dec->info.user_data_len += 3; mpeg2dec->info.user_data_len += (mpeg2dec->chunk_ptr - 4 - mpeg2dec->chunk_start); mpeg2dec->chunk_start = mpeg2dec->chunk_ptr - 1; return 0; } int mpeg2_header_slice_start (mpeg2dec_t * mpeg2dec) { mpeg2dec->state = ((mpeg2dec->picture->nb_fields > 1 || mpeg2dec->state == STATE_PICTURE_2ND) ? STATE_SLICE : STATE_SLICE_1ST); if (!(mpeg2dec->nb_decode_slices)) mpeg2dec->picture->flags |= PIC_FLAG_SKIP; else if (mpeg2dec->convert_start) { int flags; switch (mpeg2dec->decoder.picture_structure) { case TOP_FIELD: flags = CONVERT_TOP_FIELD; break; case BOTTOM_FIELD: flags = CONVERT_BOTTOM_FIELD; break; default: flags = ((mpeg2dec->sequence.flags & SEQ_FLAG_PROGRESSIVE_SEQUENCE) ? CONVERT_FRAME : CONVERT_BOTH_FIELDS); } mpeg2dec->convert_start (mpeg2dec->convert_id, mpeg2dec->fbuf[0]->buf, flags); mpeg2dec->decoder.convert = mpeg2dec->convert_copy; mpeg2dec->decoder.fbuf_id = mpeg2dec->convert_id; if (mpeg2dec->decoder.coding_type == B_TYPE) mpeg2_init_fbuf (&(mpeg2dec->decoder), mpeg2dec->yuv_buf[2], mpeg2dec->yuv_buf[mpeg2dec->yuv_index ^ 1], mpeg2dec->yuv_buf[mpeg2dec->yuv_index]); else { mpeg2_init_fbuf (&(mpeg2dec->decoder), mpeg2dec->yuv_buf[mpeg2dec->yuv_index ^ 1], mpeg2dec->yuv_buf[mpeg2dec->yuv_index], mpeg2dec->yuv_buf[mpeg2dec->yuv_index]); if (mpeg2dec->state == STATE_SLICE) mpeg2dec->yuv_index ^= 1; } } else { int b_type; //mpeg2dec->decoder.convert = NULL; b_type = (mpeg2dec->decoder.coding_type == B_TYPE); mpeg2_init_fbuf (&(mpeg2dec->decoder), mpeg2dec->fbuf[0]->buf, mpeg2dec->fbuf[b_type + 1]->buf, mpeg2dec->fbuf[b_type]->buf); } mpeg2dec->action = NULL; return 0; } int mpeg2_header_end (mpeg2dec_t * mpeg2dec) { picture_t * picture; int b_type; picture = mpeg2dec->pictures; if (mpeg2dec->picture < picture + 2) picture = mpeg2dec->pictures + 2; mpeg2dec->state = STATE_INVALID; reset_info (&(mpeg2dec->info)); b_type = (mpeg2dec->decoder.coding_type == B_TYPE); if (!(mpeg2dec->sequence.flags & SEQ_FLAG_LOW_DELAY)) { mpeg2dec->info.display_picture = picture; if (picture->nb_fields == 1) mpeg2dec->info.display_picture_2nd = picture + 1; mpeg2dec->info.display_fbuf = mpeg2dec->fbuf[b_type]; if (!mpeg2dec->convert_start) mpeg2dec->info.discard_fbuf = mpeg2dec->fbuf[b_type + 1]; } else if (!mpeg2dec->convert_start) mpeg2dec->info.discard_fbuf = mpeg2dec->fbuf[b_type]; mpeg2dec->action = mpeg2_seek_sequence; return STATE_END; }