/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this file, * You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef MOZILLA_STREAMBUFFER_H_ #define MOZILLA_STREAMBUFFER_H_ #include "MediaSegment.h" #include "nsAutoPtr.h" namespace mozilla { /** * Media time relative to the start of a StreamBuffer. */ typedef MediaTime StreamTime; const StreamTime STREAM_TIME_MAX = MEDIA_TIME_MAX; /** * Track rate in Hz. Maximum 1 << MEDIA_TIME_FRAC_BITS Hz. This ensures * calculations below don't overflow. */ typedef int32_t TrackRate; const TrackRate TRACK_RATE_MAX = 1 << MEDIA_TIME_FRAC_BITS; /** * Unique ID for track within a StreamBuffer. Tracks from different * StreamBuffers may have the same ID; this matters when appending StreamBuffers, * since tracks with the same ID are matched. Only IDs greater than 0 are allowed. */ typedef int32_t TrackID; const TrackID TRACK_NONE = 0; inline TrackTicks TimeToTicksRoundUp(TrackRate aRate, StreamTime aTime) { NS_ASSERTION(0 < aRate && aRate <= TRACK_RATE_MAX, "Bad rate"); NS_ASSERTION(0 <= aTime && aTime <= STREAM_TIME_MAX, "Bad time"); return (aTime*aRate + (1 << MEDIA_TIME_FRAC_BITS) - 1) >> MEDIA_TIME_FRAC_BITS; } inline TrackTicks TimeToTicksRoundDown(TrackRate aRate, StreamTime aTime) { NS_ASSERTION(0 < aRate && aRate <= TRACK_RATE_MAX, "Bad rate"); NS_ASSERTION(0 <= aTime && aTime <= STREAM_TIME_MAX, "Bad time"); return (aTime*aRate) >> MEDIA_TIME_FRAC_BITS; } inline StreamTime TicksToTimeRoundUp(TrackRate aRate, TrackTicks aTicks) { NS_ASSERTION(0 < aRate && aRate <= TRACK_RATE_MAX, "Bad rate"); NS_ASSERTION(0 <= aTicks && aTicks <= TRACK_TICKS_MAX, "Bad samples"); return ((aTicks << MEDIA_TIME_FRAC_BITS) + aRate - 1)/aRate; } inline StreamTime TicksToTimeRound(TrackRate aRate, TrackTicks aTicks) { NS_ASSERTION(0 < aRate && aRate <= TRACK_RATE_MAX, "Bad rate"); NS_ASSERTION(0 <= aTicks && aTicks <= TRACK_TICKS_MAX, "Bad samples"); return ((aTicks << MEDIA_TIME_FRAC_BITS) + aRate/2)/aRate; } inline StreamTime TicksToTimeRoundDown(TrackRate aRate, TrackTicks aTicks) { NS_ASSERTION(0 < aRate && aRate <= TRACK_RATE_MAX, "Bad rate"); NS_WARN_IF_FALSE(0 <= aTicks && aTicks <= TRACK_TICKS_MAX, "Bad samples"); return (aTicks << MEDIA_TIME_FRAC_BITS)/aRate; } /** * This object contains the decoded data for a stream's tracks. * A StreamBuffer can be appended to. Logically a StreamBuffer only gets longer, * but we also have the ability to "forget" data before a certain time that * we know won't be used again. (We prune a whole number of seconds internally.) * * StreamBuffers should only be used from one thread at a time. * * A StreamBuffer has a set of tracks that can be of arbitrary types --- * the data for each track is a MediaSegment. The set of tracks can vary * over the timeline of the StreamBuffer. */ class StreamBuffer { public: /** * Every track has a start time --- when it started in the StreamBuffer. * It has an end flag; when false, no end point is known; when true, * the track ends when the data we have for the track runs out. * Tracks have a unique ID assigned at creation. This allows us to identify * the same track across StreamBuffers. A StreamBuffer should never have * two tracks with the same ID (even if they don't overlap in time). * TODO Tracks can also be enabled and disabled over time. * TODO Add TimeVarying mEnabled. * Takes ownership of aSegment. */ class Track { public: Track(TrackID aID, TrackRate aRate, TrackTicks aStart, MediaSegment* aSegment) : mStart(aStart), mSegment(aSegment), mRate(aRate), mID(aID), mEnded(false) { MOZ_COUNT_CTOR(Track); NS_ASSERTION(aID > TRACK_NONE, "Bad track ID"); NS_ASSERTION(0 < aRate && aRate <= TRACK_RATE_MAX, "Invalid rate"); NS_ASSERTION(0 <= aStart && aStart <= aSegment->GetDuration(), "Bad start position"); } ~Track() { MOZ_COUNT_DTOR(Track); } template T* Get() const { if (mSegment->GetType() == T::StaticType()) { return static_cast(mSegment.get()); } return nullptr; } MediaSegment* GetSegment() const { return mSegment; } TrackRate GetRate() const { return mRate; } TrackID GetID() const { return mID; } bool IsEnded() const { return mEnded; } TrackTicks GetStart() const { return mStart; } TrackTicks GetEnd() const { return mSegment->GetDuration(); } StreamTime GetEndTimeRoundDown() const { return mozilla::TicksToTimeRoundDown(mRate, mSegment->GetDuration()); } StreamTime GetStartTimeRoundDown() const { return mozilla::TicksToTimeRoundDown(mRate, mStart); } TrackTicks TimeToTicksRoundDown(StreamTime aTime) const { return mozilla::TimeToTicksRoundDown(mRate, aTime); } StreamTime TicksToTimeRoundDown(TrackTicks aTicks) const { return mozilla::TicksToTimeRoundDown(mRate, aTicks); } MediaSegment::Type GetType() const { return mSegment->GetType(); } void SetEnded() { mEnded = true; } void AppendFrom(Track* aTrack) { NS_ASSERTION(!mEnded, "Can't append to ended track"); NS_ASSERTION(aTrack->mID == mID, "IDs must match"); NS_ASSERTION(aTrack->mStart == 0, "Source track must start at zero"); NS_ASSERTION(aTrack->mSegment->GetType() == GetType(), "Track types must match"); NS_ASSERTION(aTrack->mRate == mRate, "Track rates must match"); mSegment->AppendFrom(aTrack->mSegment); mEnded = aTrack->mEnded; } MediaSegment* RemoveSegment() { return mSegment.forget(); } void ForgetUpTo(TrackTicks aTime) { mSegment->ForgetUpTo(aTime); } size_t SizeOfIncludingThis(MallocSizeOf aMallocSizeOf) const { size_t amount = aMallocSizeOf(this); if (mSegment) { amount += mSegment->SizeOfIncludingThis(aMallocSizeOf); } return amount; } protected: friend class StreamBuffer; // Start offset is in ticks at rate mRate TrackTicks mStart; // The segment data starts at the start of the owning StreamBuffer, i.e., // there's mStart silence/no video at the beginning. nsAutoPtr mSegment; TrackRate mRate; // rate in ticks per second // Unique ID TrackID mID; // True when the track ends with the data in mSegment bool mEnded; }; class CompareTracksByID { public: bool Equals(Track* aA, Track* aB) const { return aA->GetID() == aB->GetID(); } bool LessThan(Track* aA, Track* aB) const { return aA->GetID() < aB->GetID(); } }; StreamBuffer() : mTracksKnownTime(0), mForgottenTime(0) { MOZ_COUNT_CTOR(StreamBuffer); } ~StreamBuffer() { MOZ_COUNT_DTOR(StreamBuffer); } size_t SizeOfExcludingThis(MallocSizeOf aMallocSizeOf) const { size_t amount = 0; amount += mTracks.SizeOfExcludingThis(aMallocSizeOf); for (size_t i = 0; i < mTracks.Length(); i++) { amount += mTracks[i]->SizeOfIncludingThis(aMallocSizeOf); } return amount; } /** * Takes ownership of aSegment. Don't do this while iterating, or while * holding a Track reference. * aSegment must have aStart worth of null data. */ Track& AddTrack(TrackID aID, TrackRate aRate, TrackTicks aStart, MediaSegment* aSegment) { NS_ASSERTION(TimeToTicksRoundDown(aRate, mTracksKnownTime) <= aStart, "Start time too early"); NS_ASSERTION(!FindTrack(aID), "Track with this ID already exists"); return **mTracks.InsertElementSorted(new Track(aID, aRate, aStart, aSegment), CompareTracksByID()); } void AdvanceKnownTracksTime(StreamTime aKnownTime) { NS_ASSERTION(aKnownTime >= mTracksKnownTime, "Can't move tracks-known time earlier"); mTracksKnownTime = aKnownTime; } /** * The end time for the StreamBuffer is the latest time for which we have * data for all tracks that haven't ended by that time. */ StreamTime GetEnd() const; /** * Returns the earliest time >= 0 at which all tracks have ended * and all their data has been played out and no new tracks can be added, * or STREAM_TIME_MAX if there is no such time. */ StreamTime GetAllTracksEnd() const; #ifdef DEBUG void DumpTrackInfo() const; #endif Track* FindTrack(TrackID aID); class TrackIter { public: /** * Iterate through the tracks of aBuffer in order of ID. */ TrackIter(const StreamBuffer& aBuffer) : mBuffer(&aBuffer.mTracks), mIndex(0), mMatchType(false) {} /** * Iterate through the tracks of aBuffer with type aType, in order of ID. */ TrackIter(const StreamBuffer& aBuffer, MediaSegment::Type aType) : mBuffer(&aBuffer.mTracks), mIndex(0), mType(aType), mMatchType(true) { FindMatch(); } bool IsEnded() { return mIndex >= mBuffer->Length(); } void Next() { ++mIndex; FindMatch(); } Track* get() { return mBuffer->ElementAt(mIndex); } Track& operator*() { return *mBuffer->ElementAt(mIndex); } Track* operator->() { return mBuffer->ElementAt(mIndex); } private: void FindMatch() { if (!mMatchType) return; while (mIndex < mBuffer->Length() && mBuffer->ElementAt(mIndex)->GetType() != mType) { ++mIndex; } } const nsTArray >* mBuffer; uint32_t mIndex; MediaSegment::Type mType; bool mMatchType; }; friend class TrackIter; /** * Forget stream data before aTime; they will no longer be needed. * Also can forget entire tracks that have ended at or before aTime. * Can't be used to forget beyond GetEnd(). */ void ForgetUpTo(StreamTime aTime); /** * Returns the latest time passed to ForgetUpTo. */ StreamTime GetForgottenDuration() { return mForgottenTime; } protected: // Any new tracks added will start at or after this time. In other words, the track // list is complete and correct for all times less than this time. StreamTime mTracksKnownTime; StreamTime mForgottenTime; // All known tracks for this StreamBuffer nsTArray > mTracks; }; } #endif /* MOZILLA_STREAMBUFFER_H_ */