ref: 9e7e4c1abd383bd519551222d3e553c32729b035
dir: /common/mp4av/audio_hinters.cpp/
/* * The contents of this file are subject to the Mozilla Public * License Version 1.1 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS * IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or * implied. See the License for the specific language governing * rights and limitations under the License. * * The Original Code is MPEG4IP. * * The Initial Developer of the Original Code is Cisco Systems Inc. * Portions created by Cisco Systems Inc. are * Copyright (C) Cisco Systems Inc. 2000-2002. All Rights Reserved. * * Contributor(s): * Dave Mackie dmackie@cisco.com */ /* * Notes: * - file formatted with tabstops == 4 spaces */ #include <mp4av_common.h> bool MP4AV_AudioConsecutiveHinter( MP4FileHandle mp4File, MP4TrackId mediaTrackId, MP4TrackId hintTrackId, MP4Duration sampleDuration, u_int8_t perPacketHeaderSize, u_int8_t perSampleHeaderSize, u_int8_t maxSamplesPerPacket, u_int16_t maxPayloadSize, MP4AV_AudioSampleSizer pSizer, MP4AV_AudioConcatenator pConcatenator, MP4AV_AudioFragmenter pFragmenter) { bool rc; u_int32_t numSamples = MP4GetTrackNumberOfSamples(mp4File, mediaTrackId); u_int16_t bytesThisHint = perPacketHeaderSize; u_int16_t samplesThisHint = 0; MP4SampleId* pSampleIds = new MP4SampleId[maxSamplesPerPacket]; for (MP4SampleId sampleId = 1; sampleId <= numSamples; sampleId++) { u_int32_t sampleSize = (*pSizer)(mp4File, mediaTrackId, sampleId); // sample won't fit in this packet // or we've reached the limit on samples per packet if ((int16_t)(sampleSize + perSampleHeaderSize) > maxPayloadSize - bytesThisHint || samplesThisHint == maxSamplesPerPacket) { if (samplesThisHint > 0) { rc = (*pConcatenator)(mp4File, mediaTrackId, hintTrackId, samplesThisHint, pSampleIds, samplesThisHint * sampleDuration, maxPayloadSize); if (!rc) { return false; } } // start a new hint samplesThisHint = 0; bytesThisHint = perPacketHeaderSize; // fall thru } // sample is less than remaining payload size if ((int16_t)(sampleSize + perSampleHeaderSize) <= maxPayloadSize - bytesThisHint) { // add it to this hint bytesThisHint += (sampleSize + perSampleHeaderSize); pSampleIds[samplesThisHint++] = sampleId; } else { // jumbo frame, need to fragment it rc = (*pFragmenter)(mp4File, mediaTrackId, hintTrackId, sampleId, sampleSize, sampleDuration, maxPayloadSize); if (!rc) { return false; } // start a new hint samplesThisHint = 0; bytesThisHint = perPacketHeaderSize; } } if (samplesThisHint > 0) { rc = (*pConcatenator)(mp4File, mediaTrackId, hintTrackId, samplesThisHint, pSampleIds, samplesThisHint * sampleDuration, maxPayloadSize); if (!rc) { return false; } } delete [] pSampleIds; return true; } bool MP4AV_AudioInterleaveHinter( MP4FileHandle mp4File, MP4TrackId mediaTrackId, MP4TrackId hintTrackId, MP4Duration sampleDuration, u_int8_t stride, u_int8_t bundle, u_int16_t maxPayloadSize, MP4AV_AudioConcatenator pConcatenator) { bool rc; u_int32_t numSamples = MP4GetTrackNumberOfSamples(mp4File, mediaTrackId); MP4SampleId* pSampleIds = new MP4SampleId[bundle]; uint32_t sampleIds = 0; for (u_int32_t i = 1; i <= numSamples; i += stride * bundle) { for (u_int32_t j = 0; j < stride; j++) { u_int32_t k; for (k = 0; k < bundle; k++) { MP4SampleId sampleId = i + j + (k * stride); // out of samples for this bundle if (sampleId > numSamples) { break; } // add sample to this hint pSampleIds[k] = sampleId; sampleIds++; } if (k == 0) { break; } // compute hint duration // note this is used to control the RTP timestamps // that are emitted for the packet, // it isn't the actual duration of the samples in the packet MP4Duration hintDuration; if (j + 1 == stride) { // at the end of the track if (i + (stride * bundle) > numSamples) { hintDuration = ((numSamples - i) - j) * sampleDuration; if (hintDuration == 0) { hintDuration = sampleDuration; } } else { hintDuration = ((stride * bundle) - j) * sampleDuration; } } else { hintDuration = sampleDuration; } // write hint rc = (*pConcatenator)(mp4File, mediaTrackId, hintTrackId, k, pSampleIds, hintDuration, maxPayloadSize); sampleIds = 0; if (!rc) { return false; } } } delete [] pSampleIds; return true; } MP4Duration MP4AV_GetAudioSampleDuration( MP4FileHandle mp4File, MP4TrackId mediaTrackId) { MP4SampleId sampleId = 1; MP4SampleId numSamples = MP4GetTrackNumberOfSamples(mp4File, mediaTrackId); // find first non-zero size sample // we need to search in case an empty audio sample has been added // at the beginning of the track to achieve sync with video for (; sampleId <= numSamples; sampleId++) { if (MP4GetSampleSize(mp4File, mediaTrackId, sampleId) > 0) { break; } } if (sampleId >= numSamples) { return MP4_INVALID_DURATION; } // get sample duration return MP4GetSampleDuration(mp4File, mediaTrackId, sampleId); // OPTION may want to scan all non-zero sized samples // and check that sample durations are +/-1 the same value }