/* mkvmerge -- utility for splicing together matroska files from component media subtypes p_pcm.cpp Written by Moritz Bunkus Distributed under the GPL see the file COPYING for details or visit http://www.gnu.org/copyleft/gpl.html */ /*! \file \version \$Id: p_pcm.cpp,v 1.19 2003/05/04 10:05:41 mosu Exp $ \brief PCM output module \author Moritz Bunkus */ #include #include #include #include #include "mkvmerge.h" #include "common.h" #include "pr_generic.h" #include "p_pcm.h" #include "matroska.h" using namespace LIBMATROSKA_NAMESPACE; pcm_packetizer_c::pcm_packetizer_c(unsigned long nsamples_per_sec, int nchannels, int nbits_per_sample, track_info_t *nti) throw (error_c): generic_packetizer_c(nti) { packetno = 0; bps = nchannels * nbits_per_sample * nsamples_per_sec / 8; tempbuf = (unsigned char *)malloc(bps + 128); if (tempbuf == NULL) die("malloc"); tempbuf_size = bps; samples_per_sec = nsamples_per_sec; channels = nchannels; bits_per_sample = nbits_per_sample; bytes_output = 0; remaining_sync = 0; } pcm_packetizer_c::~pcm_packetizer_c() { if (tempbuf != NULL) free(tempbuf); } void pcm_packetizer_c::set_headers() { set_serial(-1); set_track_type(track_audio); set_codec_id(MKV_A_PCM); set_audio_sampling_freq((float)samples_per_sec); set_audio_channels(channels); set_audio_bit_depth(bits_per_sample); if (ti->default_track) set_as_default_track('a'); generic_packetizer_c::set_headers(); } int pcm_packetizer_c::process(unsigned char *buf, int size, int64_t, int64_t, int64_t, int64_t) { int i, bytes_per_packet, remaining_bytes, complete_packets; unsigned char *new_buf; if (size > tempbuf_size) { tempbuf = (unsigned char *)realloc(tempbuf, size + 128); if (tempbuf == NULL) die("realloc"); tempbuf_size = size; } new_buf = buf; if (ti->async.displacement != 0) { if (ti->async.displacement > 0) { // Add silence. int pad_size; pad_size = bps * ti->async.displacement / 1000; new_buf = (unsigned char *)malloc(size + pad_size); if (new_buf == NULL) die("malloc"); memset(new_buf, 0, pad_size); memcpy(&new_buf[pad_size], buf, size); size += pad_size; } else // Skip bytes. remaining_sync = -1 * bps * ti->async.displacement / 1000; ti->async.displacement = 0; } if (remaining_sync > 0) { if (remaining_sync > size) { remaining_sync -= size; return EMOREDATA; } memmove(buf, &buf[remaining_sync], size - remaining_sync); size -= remaining_sync; remaining_sync = 0; } bytes_per_packet = bps / pcm_interleave; complete_packets = size / bytes_per_packet; remaining_bytes = size % bytes_per_packet; for (i = 0; i < complete_packets; i++) { add_packet(new_buf + i * bytes_per_packet, bytes_per_packet, (int64_t)((bytes_output * 1000 / bps) * ti->async.linear)); bytes_output += bytes_per_packet; packetno++; } if (remaining_bytes != 0) { add_packet(new_buf + complete_packets * bytes_per_packet, remaining_bytes, (int64_t)((bytes_output * 1000 / bps) * ti->async.linear)); bytes_output += remaining_bytes; packetno++; } if (new_buf != buf) free(new_buf); return EMOREDATA; }