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https://gitlab.winehq.org/wine/wine-gecko.git
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0704216980
This patch simply moves the MetadataTags typedef to nsMediaDecoder.h to reduce the dependencies on nsHTMLMediaElements.h. The rest of the changes are made to make this compile.
528 lines
18 KiB
C++
528 lines
18 KiB
C++
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim:set ts=2 sw=2 sts=2 et cindent: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#if !defined(nsOggCodecState_h_)
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#define nsOggCodecState_h_
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#include <ogg/ogg.h>
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#include <theora/theoradec.h>
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#ifdef MOZ_TREMOR
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#include <tremor/ivorbiscodec.h>
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#else
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#include <vorbis/codec.h>
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#endif
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#ifdef MOZ_OPUS
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#include <opus/opus.h>
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#include "opus/opus_multistream.h"
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// For MOZ_SAMPLE_TYPE_*
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#include "nsHTMLMediaElement.h"
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#include "nsBuiltinDecoderStateMachine.h"
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#include "nsBuiltinDecoderReader.h"
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#endif
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#include <nsAutoRef.h>
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#include <nsDeque.h>
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#include <nsTArray.h>
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#include <nsClassHashtable.h>
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#include "VideoUtils.h"
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#include "mozilla/StandardInteger.h"
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// Uncomment the following to validate that we're predicting the number
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// of Vorbis samples in each packet correctly.
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#define VALIDATE_VORBIS_SAMPLE_CALCULATION
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#ifdef VALIDATE_VORBIS_SAMPLE_CALCULATION
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#include <map>
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#endif
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// Deallocates a packet, used in nsPacketQueue below.
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class OggPacketDeallocator : public nsDequeFunctor {
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virtual void* operator() (void* aPacket) {
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ogg_packet* p = static_cast<ogg_packet*>(aPacket);
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delete [] p->packet;
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delete p;
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return nullptr;
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}
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};
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// A queue of ogg_packets. When we read a page, we extract the page's packets
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// and buffer them in the owning stream's nsOggCodecState. This is because
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// if we're skipping up to the next keyframe in very large frame sized videos,
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// there may be several megabytes of data between keyframes, and the
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// ogg_stream_state would end up resizing its buffer every time we added a
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// new 4KB page to the bitstream, which kills performance on Windows. This
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// also gives us the option to timestamp packets rather than decoded
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// frames/samples, reducing the amount of frames/samples we must decode to
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// determine start-time at a particular offset, and gives us finer control
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// over memory usage.
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class nsPacketQueue : private nsDeque {
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public:
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nsPacketQueue() : nsDeque(new OggPacketDeallocator()) {}
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~nsPacketQueue() { Erase(); }
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bool IsEmpty() { return nsDeque::GetSize() == 0; }
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void Append(ogg_packet* aPacket);
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ogg_packet* PopFront() { return static_cast<ogg_packet*>(nsDeque::PopFront()); }
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ogg_packet* PeekFront() { return static_cast<ogg_packet*>(nsDeque::PeekFront()); }
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void PushFront(ogg_packet* aPacket) { nsDeque::PushFront(aPacket); }
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void PushBack(ogg_packet* aPacket) { nsDeque::PushFront(aPacket); }
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void Erase() { nsDeque::Erase(); }
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};
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// Encapsulates the data required for decoding an ogg bitstream and for
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// converting granulepos to timestamps.
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class nsOggCodecState {
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public:
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// Ogg types we know about
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enum CodecType {
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TYPE_VORBIS=0,
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TYPE_THEORA=1,
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TYPE_OPUS=2,
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TYPE_SKELETON=3,
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TYPE_UNKNOWN=4
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};
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virtual ~nsOggCodecState();
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// Factory for creating nsCodecStates. Use instead of constructor.
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// aPage should be a beginning-of-stream page.
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static nsOggCodecState* Create(ogg_page* aPage);
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virtual CodecType GetType() { return TYPE_UNKNOWN; }
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// Reads a header packet. Returns true when last header has been read.
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// This function takes ownership of the packet and is responsible for
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// releasing it or queuing it for later processing.
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virtual bool DecodeHeader(ogg_packet* aPacket) {
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return (mDoneReadingHeaders = true);
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}
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// Build a hash table with tag metadata parsed from the stream.
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virtual MetadataTags* GetTags() {
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return nullptr;
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}
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// Returns the end time that a granulepos represents.
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virtual int64_t Time(int64_t granulepos) { return -1; }
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// Returns the start time that a granulepos represents.
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virtual int64_t StartTime(int64_t granulepos) { return -1; }
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// Initializes the codec state.
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virtual bool Init();
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// Returns true when this bitstream has finished reading all its
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// header packets.
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bool DoneReadingHeaders() { return mDoneReadingHeaders; }
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// Deactivates the bitstream. Only the primary video and audio bitstreams
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// should be active.
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void Deactivate() {
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mActive = false;
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mDoneReadingHeaders = true;
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Reset();
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}
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// Resets decoding state.
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virtual nsresult Reset();
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// Returns true if the nsOggCodecState thinks this packet is a header
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// packet. Note this does not verify the validity of the header packet,
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// it just guarantees that the packet is marked as a header packet (i.e.
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// it is definintely not a data packet). Do not use this to identify
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// streams, use it to filter header packets from data packets while
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// decoding.
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virtual bool IsHeader(ogg_packet* aPacket) { return false; }
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// Returns the next packet in the stream, or nullptr if there are no more
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// packets buffered in the packet queue. More packets can be buffered by
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// inserting one or more pages into the stream by calling PageIn(). The
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// caller is responsible for deleting returned packet's using
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// nsOggCodecState::ReleasePacket(). The packet will have a valid granulepos.
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ogg_packet* PacketOut();
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// Releases the memory used by a cloned packet. Every packet returned by
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// PacketOut() must be free'd using this function.
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static void ReleasePacket(ogg_packet* aPacket);
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// Extracts all packets from the page, and inserts them into the packet
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// queue. They can be extracted by calling PacketOut(). Packets from an
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// inactive stream are not buffered, i.e. this call has no effect for
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// inactive streams. Multiple pages may need to be inserted before
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// PacketOut() starts to return packets, as granulepos may need to be
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// captured.
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virtual nsresult PageIn(ogg_page* aPage);
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// Number of packets read.
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uint64_t mPacketCount;
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// Serial number of the bitstream.
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uint32_t mSerial;
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// Ogg specific state.
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ogg_stream_state mState;
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// Queue of as yet undecoded packets. Packets are guaranteed to have
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// a valid granulepos.
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nsPacketQueue mPackets;
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// Is the bitstream active; whether we're decoding and playing this bitstream.
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bool mActive;
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// True when all headers packets have been read.
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bool mDoneReadingHeaders;
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protected:
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// Constructs a new nsOggCodecState. aActive denotes whether the stream is
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// active. For streams of unsupported or unknown types, aActive should be
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// false.
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nsOggCodecState(ogg_page* aBosPage, bool aActive);
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// Deallocates all packets stored in mUnstamped, and clears the array.
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void ClearUnstamped();
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// Extracts packets out of mState until a data packet with a non -1
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// granulepos is encountered, or no more packets are readable. Header
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// packets are pushed into the packet queue immediately, and data packets
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// are buffered in mUnstamped. Once a non -1 granulepos packet is read
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// the granulepos of the packets in mUnstamped can be inferred, and they
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// can be pushed over to mPackets. Used by PageIn() implementations in
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// subclasses.
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nsresult PacketOutUntilGranulepos(bool& aFoundGranulepos);
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// Temporary buffer in which to store packets while we're reading packets
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// in order to capture granulepos.
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nsTArray<ogg_packet*> mUnstamped;
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// Validation utility for vorbis-style tag names.
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static bool IsValidVorbisTagName(nsCString& aName);
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// Utility method to parse and add a vorbis-style comment
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// to a metadata hash table. Most Ogg-encapsulated codecs
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// use the vorbis comment format for metadata.
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static bool AddVorbisComment(MetadataTags* aTags,
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const char* aComment,
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uint32_t aLength);
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};
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class nsVorbisState : public nsOggCodecState {
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public:
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nsVorbisState(ogg_page* aBosPage);
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virtual ~nsVorbisState();
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CodecType GetType() { return TYPE_VORBIS; }
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bool DecodeHeader(ogg_packet* aPacket);
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int64_t Time(int64_t granulepos);
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bool Init();
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nsresult Reset();
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bool IsHeader(ogg_packet* aPacket);
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nsresult PageIn(ogg_page* aPage);
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// Return a hash table with tag metadata.
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MetadataTags* GetTags();
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// Returns the end time that a granulepos represents.
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static int64_t Time(vorbis_info* aInfo, int64_t aGranulePos);
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vorbis_info mInfo;
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vorbis_comment mComment;
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vorbis_dsp_state mDsp;
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vorbis_block mBlock;
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private:
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// Reconstructs the granulepos of Vorbis packets stored in the mUnstamped
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// array.
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nsresult ReconstructVorbisGranulepos();
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// The "block size" of the previously decoded Vorbis packet, or 0 if we've
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// not yet decoded anything. This is used to calculate the number of samples
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// in a Vorbis packet, since each Vorbis packet depends on the previous
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// packet while being decoded.
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long mPrevVorbisBlockSize;
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// Granulepos (end sample) of the last decoded Vorbis packet. This is used
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// to calculate the Vorbis granulepos when we don't find a granulepos to
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// back-propagate from.
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int64_t mGranulepos;
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#ifdef VALIDATE_VORBIS_SAMPLE_CALCULATION
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// When validating that we've correctly predicted Vorbis packets' number
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// of samples, we store each packet's predicted number of samples in this
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// map, and verify we decode the predicted number of samples.
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std::map<ogg_packet*, long> mVorbisPacketSamples;
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#endif
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// Records that aPacket is predicted to have aSamples samples.
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// This function has no effect if VALIDATE_VORBIS_SAMPLE_CALCULATION
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// is not defined.
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void RecordVorbisPacketSamples(ogg_packet* aPacket, long aSamples);
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// Verifies that aPacket has had its number of samples predicted.
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// This function has no effect if VALIDATE_VORBIS_SAMPLE_CALCULATION
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// is not defined.
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void AssertHasRecordedPacketSamples(ogg_packet* aPacket);
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public:
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// Asserts that the number of samples predicted for aPacket is aSamples.
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// This function has no effect if VALIDATE_VORBIS_SAMPLE_CALCULATION
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// is not defined.
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void ValidateVorbisPacketSamples(ogg_packet* aPacket, long aSamples);
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};
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// Returns 1 if the Theora info struct is decoding a media of Theora
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// version (maj,min,sub) or later, otherwise returns 0.
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int TheoraVersion(th_info* info,
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unsigned char maj,
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unsigned char min,
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unsigned char sub);
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class nsTheoraState : public nsOggCodecState {
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public:
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nsTheoraState(ogg_page* aBosPage);
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virtual ~nsTheoraState();
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CodecType GetType() { return TYPE_THEORA; }
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bool DecodeHeader(ogg_packet* aPacket);
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int64_t Time(int64_t granulepos);
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int64_t StartTime(int64_t granulepos);
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bool Init();
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bool IsHeader(ogg_packet* aPacket);
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nsresult PageIn(ogg_page* aPage);
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// Returns the maximum number of microseconds which a keyframe can be offset
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// from any given interframe.
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int64_t MaxKeyframeOffset();
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// Returns the end time that a granulepos represents.
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static int64_t Time(th_info* aInfo, int64_t aGranulePos);
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th_info mInfo;
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th_comment mComment;
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th_setup_info *mSetup;
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th_dec_ctx* mCtx;
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float mPixelAspectRatio;
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private:
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// Reconstructs the granulepos of Theora packets stored in the
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// mUnstamped array. mUnstamped must be filled with consecutive packets from
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// the stream, with the last packet having a known granulepos. Using this
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// known granulepos, and the known frame numbers, we recover the granulepos
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// of all frames in the array. This enables us to determine their timestamps.
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void ReconstructTheoraGranulepos();
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};
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class nsOpusState : public nsOggCodecState {
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#ifdef MOZ_OPUS
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public:
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nsOpusState(ogg_page* aBosPage);
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virtual ~nsOpusState();
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CodecType GetType() { return TYPE_OPUS; }
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bool DecodeHeader(ogg_packet* aPacket);
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int64_t Time(int64_t aGranulepos);
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bool Init();
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nsresult Reset();
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nsresult Reset(bool aStart);
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bool IsHeader(ogg_packet* aPacket);
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nsresult PageIn(ogg_page* aPage);
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// Returns the end time that a granulepos represents.
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static int64_t Time(int aPreSkip, int64_t aGranulepos);
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// Various fields from the Ogg Opus header.
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int mRate; // Sample rate the decoder uses (always 48 kHz).
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uint32_t mNominalRate; // Original sample rate of the data (informational).
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int mChannels; // Number of channels the stream encodes.
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uint16_t mPreSkip; // Number of samples to strip after decoder reset.
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#ifdef MOZ_SAMPLE_TYPE_FLOAT32
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float mGain; // Gain to apply to decoder output.
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#else
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int32_t mGain_Q16; // Gain to apply to the decoder output.
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#endif
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int mChannelMapping; // Channel mapping family.
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int mStreams; // Number of packed streams in each packet.
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int mCoupledStreams; // Number of packed coupled streams in each packet.
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unsigned char mMappingTable[255]; // Channel mapping table.
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OpusMSDecoder *mDecoder;
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int mSkip; // Number of samples left to trim before playback.
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// Granule position (end sample) of the last decoded Opus packet. This is
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// used to calculate the amount we should trim from the last packet.
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int64_t mPrevPacketGranulepos;
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// Construct and return a table of tags from the metadata header.
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MetadataTags* GetTags();
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private:
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nsCString mVendorString; // Encoder vendor string from the header.
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nsTArray<nsCString> mTags; // Unparsed comment strings from the header.
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// Reconstructs the granulepos of Opus packets stored in the
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// mUnstamped array. mUnstamped must be filled with consecutive packets from
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// the stream, with the last packet having a known granulepos. Using this
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// known granulepos, and the known frame numbers, we recover the granulepos
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// of all frames in the array. This enables us to determine their timestamps.
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bool ReconstructOpusGranulepos();
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// Granule position (end sample) of the last decoded Opus page. This is
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// used to calculate the Opus per-packet granule positions on the last page,
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// where we may need to trim some samples from the end.
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int64_t mPrevPageGranulepos;
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#endif /* MOZ_OPUS */
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};
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// Constructs a 32bit version number out of two 16 bit major,minor
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// version numbers.
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#define SKELETON_VERSION(major, minor) (((major)<<16)|(minor))
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class nsSkeletonState : public nsOggCodecState {
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public:
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nsSkeletonState(ogg_page* aBosPage);
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~nsSkeletonState();
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CodecType GetType() { return TYPE_SKELETON; }
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bool DecodeHeader(ogg_packet* aPacket);
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int64_t Time(int64_t granulepos) { return -1; }
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bool Init() { return true; }
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bool IsHeader(ogg_packet* aPacket) { return true; }
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// Return true if the given time (in milliseconds) is within
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// the presentation time defined in the skeleton track.
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bool IsPresentable(int64_t aTime) { return aTime >= mPresentationTime; }
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// Stores the offset of the page on which a keyframe starts,
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// and its presentation time.
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class nsKeyPoint {
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public:
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nsKeyPoint()
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: mOffset(INT64_MAX),
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mTime(INT64_MAX) {}
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nsKeyPoint(int64_t aOffset, int64_t aTime)
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: mOffset(aOffset),
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mTime(aTime) {}
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// Offset from start of segment/link-in-the-chain in bytes.
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int64_t mOffset;
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// Presentation time in usecs.
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int64_t mTime;
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bool IsNull() {
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return mOffset == INT64_MAX &&
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mTime == INT64_MAX;
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}
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};
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// Stores a keyframe's byte-offset, presentation time and the serialno
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// of the stream it belongs to.
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class nsSeekTarget {
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public:
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nsSeekTarget() : mSerial(0) {}
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nsKeyPoint mKeyPoint;
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uint32_t mSerial;
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bool IsNull() {
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return mKeyPoint.IsNull() &&
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mSerial == 0;
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}
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};
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// Determines from the seek index the keyframe which you must seek back to
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// in order to get all keyframes required to render all streams with
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// serialnos in aTracks, at time aTarget.
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nsresult IndexedSeekTarget(int64_t aTarget,
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nsTArray<uint32_t>& aTracks,
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nsSeekTarget& aResult);
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bool HasIndex() const {
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return mIndex.IsInitialized() && mIndex.Count() > 0;
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}
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// Returns the duration of the active tracks in the media, if we have
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// an index. aTracks must be filled with the serialnos of the active tracks.
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// The duration is calculated as the greatest end time of all active tracks,
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// minus the smalled start time of all the active tracks.
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nsresult GetDuration(const nsTArray<uint32_t>& aTracks, int64_t& aDuration);
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private:
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// Decodes an index packet. Returns false on failure.
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bool DecodeIndex(ogg_packet* aPacket);
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// Gets the keypoint you must seek to in order to get the keyframe required
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// to render the stream at time aTarget on stream with serial aSerialno.
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nsresult IndexedSeekTargetForTrack(uint32_t aSerialno,
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int64_t aTarget,
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nsKeyPoint& aResult);
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// Version of the decoded skeleton track, as per the SKELETON_VERSION macro.
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uint32_t mVersion;
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// Presentation time of the resource in milliseconds
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int64_t mPresentationTime;
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// Length of the resource in bytes.
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int64_t mLength;
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// Stores the keyframe index and duration information for a particular
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// stream.
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class nsKeyFrameIndex {
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public:
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nsKeyFrameIndex(int64_t aStartTime, int64_t aEndTime)
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: mStartTime(aStartTime),
|
|
mEndTime(aEndTime)
|
|
{
|
|
MOZ_COUNT_CTOR(nsKeyFrameIndex);
|
|
}
|
|
|
|
~nsKeyFrameIndex() {
|
|
MOZ_COUNT_DTOR(nsKeyFrameIndex);
|
|
}
|
|
|
|
void Add(int64_t aOffset, int64_t aTimeMs) {
|
|
mKeyPoints.AppendElement(nsKeyPoint(aOffset, aTimeMs));
|
|
}
|
|
|
|
const nsKeyPoint& Get(uint32_t aIndex) const {
|
|
return mKeyPoints[aIndex];
|
|
}
|
|
|
|
uint32_t Length() const {
|
|
return mKeyPoints.Length();
|
|
}
|
|
|
|
// Presentation time of the first sample in this stream in usecs.
|
|
const int64_t mStartTime;
|
|
|
|
// End time of the last sample in this stream in usecs.
|
|
const int64_t mEndTime;
|
|
|
|
private:
|
|
nsTArray<nsKeyPoint> mKeyPoints;
|
|
};
|
|
|
|
// Maps Ogg serialnos to the index-keypoint list.
|
|
nsClassHashtable<nsUint32HashKey, nsKeyFrameIndex> mIndex;
|
|
};
|
|
|
|
// This allows the use of nsAutoRefs for an ogg_packet that properly free the
|
|
// contents of the packet.
|
|
template <>
|
|
class nsAutoRefTraits<ogg_packet> : public nsPointerRefTraits<ogg_packet>
|
|
{
|
|
public:
|
|
static void Release(ogg_packet* aPacket) {
|
|
nsOggCodecState::ReleasePacket(aPacket);
|
|
}
|
|
};
|
|
|
|
#endif
|