mirror of
https://github.com/libretro/scummvm.git
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9d13d90d4f
- Reset input stream position in MP3InputStream after calculating total play time svn-id: r32323
782 lines
29 KiB
C++
782 lines
29 KiB
C++
/* ScummVM - Graphic Adventure Engine
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*
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* ScummVM is the legal property of its developers, whose names
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* are too numerous to list here. Please refer to the COPYRIGHT
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* file distributed with this source distribution.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*
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* $URL$
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* $Id$
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*
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*/
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#include "sound/flac.h"
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#ifdef USE_FLAC
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#include "common/file.h"
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#include "common/util.h"
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#include "sound/audiostream.h"
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#include "sound/audiocd.h"
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#define FLAC__NO_DLL // that MS-magic gave me headaches - just link the library you like
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#include <FLAC/export.h>
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// check if we have FLAC >= 1.1.3; LEGACY_FLAC code can be removed once FLAC-1.1.3 propagates everywhere
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#if !defined(FLAC_API_VERSION_CURRENT) || FLAC_API_VERSION_CURRENT < 8
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#define LEGACY_FLAC
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#else
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#undef LEGACY_FLAC
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#endif
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#ifdef LEGACY_FLAC
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// Before FLAC 1.1.3, we needed to use the stream decoder API.
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#include <FLAC/seekable_stream_decoder.h>
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typedef uint FLAC_size_t;
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#else
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// With FLAC 1.1.3, the stream decoder API was merged into the regular
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// stream API. In order to stay compatible with older FLAC versions, we
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// simply add some typedefs and #ifdefs to map between the old and new API.
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// We use the typedefs (instead of only #defines) in order to somewhat
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// improve the readability of the code.
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#include <FLAC/stream_decoder.h>
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typedef size_t FLAC_size_t;
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// Add aliases for the old names
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typedef FLAC__StreamDecoderState FLAC__SeekableStreamDecoderState;
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typedef FLAC__StreamDecoderReadStatus FLAC__SeekableStreamDecoderReadStatus;
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typedef FLAC__StreamDecoderSeekStatus FLAC__SeekableStreamDecoderSeekStatus;
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typedef FLAC__StreamDecoderTellStatus FLAC__SeekableStreamDecoderTellStatus;
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typedef FLAC__StreamDecoderLengthStatus FLAC__SeekableStreamDecoderLengthStatus;
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typedef FLAC__StreamDecoder FLAC__SeekableStreamDecoder;
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#endif
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using Common::File;
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namespace Audio {
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#pragma mark -
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#pragma mark --- Flac stream ---
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#pragma mark -
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static const uint MAX_OUTPUT_CHANNELS = 2;
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class FlacInputStream : public AudioStream {
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protected:
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Common::SeekableReadStream *_inStream;
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bool _disposeAfterUse;
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uint _numLoops;
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::FLAC__SeekableStreamDecoder *_decoder;
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/** Header of the stream */
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FLAC__StreamMetadata_StreamInfo _streaminfo;
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/** index of the first sample to be played */
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FLAC__uint64 _firstSample;
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/** index + 1(!) of the last sample to be played - 0 is end of stream */
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FLAC__uint64 _lastSample;
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/** total play time */
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int32 _totalPlayTime;
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/** true if the last sample was decoded from the FLAC-API - there might still be data in the buffer */
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bool _lastSampleWritten;
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typedef int16 SampleType;
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enum { BUFTYPE_BITS = 16 };
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enum {
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// Maximal buffer size. According to the FLAC format specification, the block size is
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// a 16 bit value (in fact it seems the maximal block size is 32768, but we play it safe).
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BUFFER_SIZE = 65536
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};
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struct {
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SampleType bufData[BUFFER_SIZE];
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SampleType *bufReadPos;
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uint bufFill;
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} _sampleCache;
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SampleType *_outBuffer;
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uint _requestedSamples;
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typedef void (*PFCONVERTBUFFERS)(SampleType*, const FLAC__int32*[], uint, const uint, const uint8);
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PFCONVERTBUFFERS _methodConvertBuffers;
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public:
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FlacInputStream(Common::SeekableReadStream *inStream, bool dispose, uint startTime = 0, uint endTime = 0, uint numLoops = 1);
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virtual ~FlacInputStream();
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int readBuffer(int16 *buffer, const int numSamples);
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bool isStereo() const { return _streaminfo.channels >= 2; }
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int getRate() const { return _streaminfo.sample_rate; }
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bool endOfData() const {
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// End of data is reached if there either is no valid stream data available,
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// or if we reached the last sample and completely emptied the sample cache.
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return _streaminfo.channels == 0 || (_lastSampleWritten && _sampleCache.bufFill == 0);
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}
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int32 getTotalPlayTime() const { return _totalPlayTime; }
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bool isStreamDecoderReady() const { return getStreamDecoderState() == FLAC__STREAM_DECODER_SEARCH_FOR_FRAME_SYNC ; }
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protected:
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uint getChannels() const { return MIN(_streaminfo.channels, MAX_OUTPUT_CHANNELS); }
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bool allocateBuffer(uint minSamples);
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inline FLAC__StreamDecoderState getStreamDecoderState() const;
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inline bool processSingleBlock();
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inline bool processUntilEndOfMetadata();
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bool seekAbsolute(FLAC__uint64 sample);
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inline ::FLAC__SeekableStreamDecoderReadStatus callbackRead(FLAC__byte buffer[], FLAC_size_t *bytes);
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inline ::FLAC__SeekableStreamDecoderSeekStatus callbackSeek(FLAC__uint64 absoluteByteOffset);
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inline ::FLAC__SeekableStreamDecoderTellStatus callbackTell(FLAC__uint64 *absoluteByteOffset);
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inline ::FLAC__SeekableStreamDecoderLengthStatus callbackLength(FLAC__uint64 *streamLength);
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inline bool callbackEOF();
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inline ::FLAC__StreamDecoderWriteStatus callbackWrite(const ::FLAC__Frame *frame, const FLAC__int32 * const buffer[]);
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inline void callbackMetadata(const ::FLAC__StreamMetadata *metadata);
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inline void callbackError(::FLAC__StreamDecoderErrorStatus status);
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private:
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static ::FLAC__SeekableStreamDecoderReadStatus callWrapRead(const ::FLAC__SeekableStreamDecoder *decoder, FLAC__byte buffer[], FLAC_size_t *bytes, void *clientData);
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static ::FLAC__SeekableStreamDecoderSeekStatus callWrapSeek(const ::FLAC__SeekableStreamDecoder *decoder, FLAC__uint64 absoluteByteOffset, void *clientData);
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static ::FLAC__SeekableStreamDecoderTellStatus callWrapTell(const ::FLAC__SeekableStreamDecoder *decoder, FLAC__uint64 *absoluteByteOffset, void *clientData);
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static ::FLAC__SeekableStreamDecoderLengthStatus callWrapLength(const ::FLAC__SeekableStreamDecoder *decoder, FLAC__uint64 *streamLength, void *clientData);
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static FLAC__bool callWrapEOF(const ::FLAC__SeekableStreamDecoder *decoder, void *clientData);
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static ::FLAC__StreamDecoderWriteStatus callWrapWrite(const ::FLAC__SeekableStreamDecoder *decoder, const ::FLAC__Frame *frame, const FLAC__int32 * const buffer[], void *clientData);
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static void callWrapMetadata(const ::FLAC__SeekableStreamDecoder *decoder, const ::FLAC__StreamMetadata *metadata, void *clientData);
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static void callWrapError(const ::FLAC__SeekableStreamDecoder *decoder, ::FLAC__StreamDecoderErrorStatus status, void *clientData);
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void setBestConvertBufferMethod();
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static void convertBuffersGeneric(SampleType* bufDestination, const FLAC__int32 *inChannels[], uint numSamples, const uint numChannels, const uint8 numBits);
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static void convertBuffersStereoNS(SampleType* bufDestination, const FLAC__int32 *inChannels[], uint numSamples, const uint numChannels, const uint8 numBits);
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static void convertBuffersStereo8Bit(SampleType* bufDestination, const FLAC__int32 *inChannels[], uint numSamples, const uint numChannels, const uint8 numBits);
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static void convertBuffersMonoNS(SampleType* bufDestination, const FLAC__int32 *inChannels[], uint numSamples, const uint numChannels, const uint8 numBits);
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static void convertBuffersMono8Bit(SampleType* bufDestination, const FLAC__int32 *inChannels[], uint numSamples, const uint numChannels, const uint8 numBits);
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};
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FlacInputStream::FlacInputStream(Common::SeekableReadStream *inStream, bool dispose, uint startTime, uint endTime, uint numLoops)
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#ifdef LEGACY_FLAC
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: _decoder(::FLAC__seekable_stream_decoder_new()),
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#else
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: _decoder(::FLAC__stream_decoder_new()),
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#endif
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_inStream(inStream),
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_disposeAfterUse(dispose),
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_numLoops(numLoops),
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_firstSample(0), _lastSample(0),
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_outBuffer(NULL), _requestedSamples(0), _lastSampleWritten(false),
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_methodConvertBuffers(&FlacInputStream::convertBuffersGeneric)
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{
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assert(_inStream);
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memset(&_streaminfo, 0, sizeof(_streaminfo));
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_sampleCache.bufReadPos = NULL;
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_sampleCache.bufFill = 0;
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_methodConvertBuffers = &FlacInputStream::convertBuffersGeneric;
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bool success;
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#ifdef LEGACY_FLAC
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::FLAC__seekable_stream_decoder_set_read_callback(_decoder, &FlacInputStream::callWrapRead);
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::FLAC__seekable_stream_decoder_set_seek_callback(_decoder, &FlacInputStream::callWrapSeek);
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::FLAC__seekable_stream_decoder_set_tell_callback(_decoder, &FlacInputStream::callWrapTell);
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::FLAC__seekable_stream_decoder_set_length_callback(_decoder, &FlacInputStream::callWrapLength);
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::FLAC__seekable_stream_decoder_set_eof_callback(_decoder, &FlacInputStream::callWrapEOF);
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::FLAC__seekable_stream_decoder_set_write_callback(_decoder, &FlacInputStream::callWrapWrite);
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::FLAC__seekable_stream_decoder_set_metadata_callback(_decoder, &FlacInputStream::callWrapMetadata);
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::FLAC__seekable_stream_decoder_set_error_callback(_decoder, &FlacInputStream::callWrapError);
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::FLAC__seekable_stream_decoder_set_client_data(_decoder, (void*)this);
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success = (::FLAC__seekable_stream_decoder_init(_decoder) == FLAC__SEEKABLE_STREAM_DECODER_OK);
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#else
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success = (::FLAC__stream_decoder_init_stream(
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_decoder,
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&FlacInputStream::callWrapRead,
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&FlacInputStream::callWrapSeek,
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&FlacInputStream::callWrapTell,
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&FlacInputStream::callWrapLength,
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&FlacInputStream::callWrapEOF,
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&FlacInputStream::callWrapWrite,
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&FlacInputStream::callWrapMetadata,
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&FlacInputStream::callWrapError,
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(void*)this
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) == FLAC__STREAM_DECODER_INIT_STATUS_OK);
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#endif
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if (success) {
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if (processUntilEndOfMetadata() && _streaminfo.channels > 0) {
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// Compute the start/end sample (we use floating point arithmetics here to
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// avoid overflows).
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_firstSample = (FLAC__uint64)(startTime * (_streaminfo.sample_rate / 1000.0));
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_lastSample = (FLAC__uint64)(endTime * (_streaminfo.sample_rate / 1000.0));
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if (_firstSample == 0 || seekAbsolute(_firstSample)) {
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int32 samples = kUnknownPlayTime;
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if (!_lastSample) {
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if (_streaminfo.total_samples)
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samples = _streaminfo.total_samples - _firstSample;
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} else {
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samples = _lastSample - _firstSample - 1;
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}
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if (samples != kUnknownPlayTime && samples >= 0 && numLoops) {
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const int32 rate = _streaminfo.sample_rate;
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int32 seconds = samples / rate;
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int32 milliseconds = (1000 * (samples % rate)) / rate;
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_totalPlayTime = (seconds * 1000 + milliseconds) * numLoops;
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} else {
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_totalPlayTime = kUnknownPlayTime;
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}
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return; // no error occured
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}
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}
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}
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warning("FlacInputStream: could not create audio stream");
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}
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FlacInputStream::~FlacInputStream() {
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if (_decoder != NULL) {
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#ifdef LEGACY_FLAC
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(void) ::FLAC__seekable_stream_decoder_finish(_decoder);
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::FLAC__seekable_stream_decoder_delete(_decoder);
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#else
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(void) ::FLAC__stream_decoder_finish(_decoder);
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::FLAC__stream_decoder_delete(_decoder);
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#endif
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}
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if (_disposeAfterUse)
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delete _inStream;
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}
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inline FLAC__StreamDecoderState FlacInputStream::getStreamDecoderState() const {
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assert(_decoder != NULL);
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#ifdef LEGACY_FLAC
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return ::FLAC__seekable_stream_decoder_get_stream_decoder_state(_decoder);
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#else
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return ::FLAC__stream_decoder_get_state(_decoder);
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#endif
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}
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inline bool FlacInputStream::processSingleBlock() {
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assert(_decoder != NULL);
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#ifdef LEGACY_FLAC
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return 0 != ::FLAC__seekable_stream_decoder_process_single(_decoder);
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#else
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return 0 != ::FLAC__stream_decoder_process_single(_decoder);
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#endif
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}
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inline bool FlacInputStream::processUntilEndOfMetadata() {
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assert(_decoder != NULL);
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#ifdef LEGACY_FLAC
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return 0 != ::FLAC__seekable_stream_decoder_process_until_end_of_metadata(_decoder);
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#else
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return 0 != ::FLAC__stream_decoder_process_until_end_of_metadata(_decoder);
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#endif
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}
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bool FlacInputStream::seekAbsolute(FLAC__uint64 sample) {
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assert(_decoder != NULL);
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#ifdef LEGACY_FLAC
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const bool result = (0 != ::FLAC__seekable_stream_decoder_seek_absolute(_decoder, sample));
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#else
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const bool result = (0 != ::FLAC__stream_decoder_seek_absolute(_decoder, sample));
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#endif
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if (result) {
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_lastSampleWritten = (_lastSample != 0 && sample >= _lastSample); // only set if we are SURE
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}
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return result;
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}
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int FlacInputStream::readBuffer(int16 *buffer, const int numSamples) {
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const uint numChannels = getChannels();
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if (numChannels == 0) {
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warning("FlacInputStream: Stream not sucessfully initialised, cant playback");
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return -1; // streaminfo wasnt read!
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}
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assert(numSamples % numChannels == 0); // must be multiple of channels!
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assert(buffer != NULL);
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assert(_outBuffer == NULL);
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assert(_requestedSamples == 0);
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_outBuffer = buffer;
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_requestedSamples = numSamples;
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// If there is still data in our buffer from the last time around,
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// copy that first.
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if (_sampleCache.bufFill > 0) {
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assert(_sampleCache.bufReadPos >= _sampleCache.bufData);
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assert(_sampleCache.bufFill % numChannels == 0);
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const uint copySamples = MIN((uint)numSamples, _sampleCache.bufFill);
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memcpy(buffer, _sampleCache.bufReadPos, copySamples*sizeof(buffer[0]));
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_outBuffer = buffer + copySamples;
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_requestedSamples = numSamples - copySamples;
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_sampleCache.bufReadPos += copySamples;
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_sampleCache.bufFill -= copySamples;
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}
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bool decoderOk = true;
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FLAC__StreamDecoderState state = getStreamDecoderState();
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// Keep poking FLAC to process more samples until we completely satisfied the request
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// respectively until we run out of data.
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while (!_lastSampleWritten && _requestedSamples > 0 && state == FLAC__STREAM_DECODER_SEARCH_FOR_FRAME_SYNC) {
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assert(_sampleCache.bufFill == 0);
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assert(_requestedSamples % numChannels == 0);
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processSingleBlock();
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state = getStreamDecoderState();
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if (state == FLAC__STREAM_DECODER_END_OF_STREAM) {
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_lastSampleWritten = true;
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}
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// If we reached the end of the stream, and looping is enabled: Try to rewind
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if (_lastSampleWritten && _numLoops != 1) {
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if (_numLoops != 0)
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_numLoops--;
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seekAbsolute(_firstSample);
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state = getStreamDecoderState();
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}
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}
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// Error handling
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switch (state) {
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case FLAC__STREAM_DECODER_END_OF_STREAM:
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_lastSampleWritten = true;
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break;
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case FLAC__STREAM_DECODER_SEARCH_FOR_FRAME_SYNC:
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break;
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default:
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decoderOk = false;
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warning("FlacInputStream: An error occured while decoding. DecoderState is: %s",
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FLAC__StreamDecoderStateString[getStreamDecoderState()]);
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}
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// Compute how many samples we actually produced
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const int samples = (int)(_outBuffer - buffer);
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assert(samples % numChannels == 0);
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_outBuffer = NULL; // basically unnecessary, only for the purpose of the asserts
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_requestedSamples = 0; // basically unnecessary, only for the purpose of the asserts
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return decoderOk ? samples : -1;
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}
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inline ::FLAC__SeekableStreamDecoderReadStatus FlacInputStream::callbackRead(FLAC__byte buffer[], FLAC_size_t *bytes) {
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if (*bytes == 0)
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#ifdef LEGACY_FLAC
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return FLAC__SEEKABLE_STREAM_DECODER_READ_STATUS_ERROR; /* abort to avoid a deadlock */
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#else
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return FLAC__STREAM_DECODER_READ_STATUS_ABORT; /* abort to avoid a deadlock */
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#endif
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const uint32 bytesRead = _inStream->read(buffer, *bytes);
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if (bytesRead == 0 && _inStream->ioFailed())
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#ifdef LEGACY_FLAC
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return FLAC__SEEKABLE_STREAM_DECODER_READ_STATUS_ERROR;
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#else
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return FLAC__STREAM_DECODER_READ_STATUS_ABORT;
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#endif
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*bytes = static_cast<uint>(bytesRead);
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#ifdef LEGACY_FLAC
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return FLAC__SEEKABLE_STREAM_DECODER_READ_STATUS_OK;
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#else
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return FLAC__STREAM_DECODER_READ_STATUS_CONTINUE;
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#endif
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}
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void FlacInputStream::setBestConvertBufferMethod() {
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PFCONVERTBUFFERS tempMethod = &FlacInputStream::convertBuffersGeneric;
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const uint numChannels = getChannels();
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const uint8 numBits = (uint8)_streaminfo.bits_per_sample;
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assert(numChannels >= 1);
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assert(numBits >= 4 && numBits <=32);
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if (numChannels == 1) {
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if (numBits == 8)
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tempMethod = &FlacInputStream::convertBuffersMono8Bit;
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if (numBits == BUFTYPE_BITS)
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tempMethod = &FlacInputStream::convertBuffersMonoNS;
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} else if (numChannels == 2) {
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if (numBits == 8)
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tempMethod = &FlacInputStream::convertBuffersStereo8Bit;
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if (numBits == BUFTYPE_BITS)
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tempMethod = &FlacInputStream::convertBuffersStereoNS;
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} /* else ... */
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_methodConvertBuffers = tempMethod;
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}
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// 1 channel, no scaling
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void FlacInputStream::convertBuffersMonoNS(SampleType* bufDestination, const FLAC__int32 *inChannels[], uint numSamples, const uint numChannels, const uint8 numBits) {
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assert(numChannels == 1);
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assert(numBits == BUFTYPE_BITS);
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FLAC__int32 const* inChannel1 = inChannels[0];
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while (numSamples >= 4) {
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bufDestination[0] = static_cast<SampleType>(inChannel1[0]);
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bufDestination[1] = static_cast<SampleType>(inChannel1[1]);
|
|
bufDestination[2] = static_cast<SampleType>(inChannel1[2]);
|
|
bufDestination[3] = static_cast<SampleType>(inChannel1[3]);
|
|
bufDestination += 4;
|
|
inChannel1 += 4;
|
|
numSamples -= 4;
|
|
}
|
|
|
|
for (; numSamples > 0; --numSamples) {
|
|
*bufDestination++ = static_cast<SampleType>(*inChannel1++);
|
|
}
|
|
|
|
inChannels[0] = inChannel1;
|
|
assert(numSamples == 0); // dint copy too many samples
|
|
}
|
|
|
|
// 1 channel, scaling from 8Bit
|
|
void FlacInputStream::convertBuffersMono8Bit(SampleType* bufDestination, const FLAC__int32 *inChannels[], uint numSamples, const uint numChannels, const uint8 numBits) {
|
|
assert(numChannels == 1);
|
|
assert(numBits == 8);
|
|
assert(8 < BUFTYPE_BITS);
|
|
|
|
FLAC__int32 const* inChannel1 = inChannels[0];
|
|
|
|
while (numSamples >= 4) {
|
|
bufDestination[0] = static_cast<SampleType>(inChannel1[0]) << (BUFTYPE_BITS - 8);
|
|
bufDestination[1] = static_cast<SampleType>(inChannel1[1]) << (BUFTYPE_BITS - 8);
|
|
bufDestination[2] = static_cast<SampleType>(inChannel1[2]) << (BUFTYPE_BITS - 8);
|
|
bufDestination[3] = static_cast<SampleType>(inChannel1[3]) << (BUFTYPE_BITS - 8);
|
|
bufDestination += 4;
|
|
inChannel1 += 4;
|
|
numSamples -= 4;
|
|
}
|
|
|
|
for (; numSamples > 0; --numSamples) {
|
|
*bufDestination++ = static_cast<SampleType>(*inChannel1++) << (BUFTYPE_BITS - 8);
|
|
}
|
|
|
|
inChannels[0] = inChannel1;
|
|
assert(numSamples == 0); // dint copy too many samples
|
|
}
|
|
|
|
// 2 channels, no scaling
|
|
void FlacInputStream::convertBuffersStereoNS(SampleType* bufDestination, const FLAC__int32 *inChannels[], uint numSamples, const uint numChannels, const uint8 numBits) {
|
|
assert(numChannels == 2);
|
|
assert(numBits == BUFTYPE_BITS);
|
|
assert(numSamples % 2 == 0); // must be integral multiply of channels
|
|
|
|
|
|
FLAC__int32 const* inChannel1 = inChannels[0]; // Left Channel
|
|
FLAC__int32 const* inChannel2 = inChannels[1]; // Right Channel
|
|
|
|
while (numSamples >= 2*2) {
|
|
bufDestination[0] = static_cast<SampleType>(inChannel1[0]);
|
|
bufDestination[1] = static_cast<SampleType>(inChannel2[0]);
|
|
bufDestination[2] = static_cast<SampleType>(inChannel1[1]);
|
|
bufDestination[3] = static_cast<SampleType>(inChannel2[1]);
|
|
bufDestination += 2 * 2;
|
|
inChannel1 += 2;
|
|
inChannel2 += 2;
|
|
numSamples -= 2 * 2;
|
|
}
|
|
|
|
while (numSamples > 0) {
|
|
bufDestination[0] = static_cast<SampleType>(*inChannel1++);
|
|
bufDestination[1] = static_cast<SampleType>(*inChannel2++);
|
|
bufDestination += 2;
|
|
numSamples -= 2;
|
|
}
|
|
|
|
inChannels[0] = inChannel1;
|
|
inChannels[1] = inChannel2;
|
|
assert(numSamples == 0); // dint copy too many samples
|
|
}
|
|
|
|
// 2 channels, scaling from 8Bit
|
|
void FlacInputStream::convertBuffersStereo8Bit(SampleType* bufDestination, const FLAC__int32 *inChannels[], uint numSamples, const uint numChannels, const uint8 numBits) {
|
|
assert(numChannels == 2);
|
|
assert(numBits == 8);
|
|
assert(numSamples % 2 == 0); // must be integral multiply of channels
|
|
assert(8 < BUFTYPE_BITS);
|
|
|
|
FLAC__int32 const* inChannel1 = inChannels[0]; // Left Channel
|
|
FLAC__int32 const* inChannel2 = inChannels[1]; // Right Channel
|
|
|
|
while (numSamples >= 2*2) {
|
|
bufDestination[0] = static_cast<SampleType>(inChannel1[0]) << (BUFTYPE_BITS - 8);
|
|
bufDestination[1] = static_cast<SampleType>(inChannel2[0]) << (BUFTYPE_BITS - 8);
|
|
bufDestination[2] = static_cast<SampleType>(inChannel1[1]) << (BUFTYPE_BITS - 8);
|
|
bufDestination[3] = static_cast<SampleType>(inChannel2[1]) << (BUFTYPE_BITS - 8);
|
|
bufDestination += 2 * 2;
|
|
inChannel1 += 2;
|
|
inChannel2 += 2;
|
|
numSamples -= 2 * 2;
|
|
}
|
|
|
|
while (numSamples > 0) {
|
|
bufDestination[0] = static_cast<SampleType>(*inChannel1++) << (BUFTYPE_BITS - 8);
|
|
bufDestination[1] = static_cast<SampleType>(*inChannel2++) << (BUFTYPE_BITS - 8);
|
|
bufDestination += 2;
|
|
numSamples -= 2;
|
|
}
|
|
|
|
inChannels[0] = inChannel1;
|
|
inChannels[1] = inChannel2;
|
|
assert(numSamples == 0); // dint copy too many samples
|
|
}
|
|
|
|
// all Purpose-conversion - slowest of em all
|
|
void FlacInputStream::convertBuffersGeneric(SampleType* bufDestination, const FLAC__int32 *inChannels[], uint numSamples, const uint numChannels, const uint8 numBits) {
|
|
assert(numSamples % numChannels == 0); // must be integral multiply of channels
|
|
|
|
if (numBits < BUFTYPE_BITS) {
|
|
const uint8 kPower = (uint8)(BUFTYPE_BITS - numBits);
|
|
|
|
for (; numSamples > 0; numSamples -= numChannels) {
|
|
for (uint i = 0; i < numChannels; ++i)
|
|
*bufDestination++ = static_cast<SampleType>(*(inChannels[i]++)) << kPower;
|
|
}
|
|
} else if (numBits > BUFTYPE_BITS) {
|
|
const uint8 kPower = (uint8)(numBits - BUFTYPE_BITS);
|
|
|
|
for (; numSamples > 0; numSamples -= numChannels) {
|
|
for (uint i = 0; i < numChannels; ++i)
|
|
*bufDestination++ = static_cast<SampleType>(*(inChannels[i]++) >> kPower) ;
|
|
}
|
|
} else {
|
|
for (; numSamples > 0; numSamples -= numChannels) {
|
|
for (uint i = 0; i < numChannels; ++i)
|
|
*bufDestination++ = static_cast<SampleType>(*(inChannels[i]++));
|
|
}
|
|
}
|
|
|
|
assert(numSamples == 0); // dint copy too many samples
|
|
}
|
|
|
|
inline ::FLAC__StreamDecoderWriteStatus FlacInputStream::callbackWrite(const ::FLAC__Frame *frame, const FLAC__int32 * const buffer[]) {
|
|
assert(frame->header.channels == _streaminfo.channels);
|
|
assert(frame->header.sample_rate == _streaminfo.sample_rate);
|
|
assert(frame->header.bits_per_sample == _streaminfo.bits_per_sample);
|
|
assert(frame->header.number_type == FLAC__FRAME_NUMBER_TYPE_SAMPLE_NUMBER || _streaminfo.min_blocksize == _streaminfo.max_blocksize);
|
|
|
|
// We require that either the sample cache is empty, or that no samples were requested
|
|
assert(_sampleCache.bufFill == 0 || _requestedSamples == 0);
|
|
|
|
uint numSamples = frame->header.blocksize;
|
|
const uint numChannels = getChannels();
|
|
const uint8 numBits = (uint8)_streaminfo.bits_per_sample;
|
|
|
|
assert(_requestedSamples % numChannels == 0); // must be integral multiply of channels
|
|
|
|
const FLAC__uint64 firstSampleNumber = (frame->header.number_type == FLAC__FRAME_NUMBER_TYPE_SAMPLE_NUMBER) ?
|
|
frame->header.number.sample_number : (static_cast<FLAC__uint64>(frame->header.number.frame_number)) * _streaminfo.max_blocksize;
|
|
|
|
// Check whether we are about to reach beyond the last sample we are supposed to play.
|
|
if (_lastSample != 0 && firstSampleNumber + numSamples >= _lastSample) {
|
|
numSamples = (uint)(firstSampleNumber >= _lastSample ? 0 : _lastSample - firstSampleNumber);
|
|
_lastSampleWritten = true;
|
|
}
|
|
|
|
// The value in _requestedSamples counts raw samples, so if there are more than one
|
|
// channel, we have to multiply the number of available sample "pairs" by numChannels
|
|
numSamples *= numChannels;
|
|
|
|
const FLAC__int32 *inChannels[MAX_OUTPUT_CHANNELS];
|
|
for (uint i = 0; i < numChannels; ++i)
|
|
inChannels[i] = buffer[i];
|
|
|
|
// write the incoming samples directly into the buffer provided to us by the mixer
|
|
if (_requestedSamples > 0) {
|
|
assert(_requestedSamples % numChannels == 0);
|
|
assert(_outBuffer != NULL);
|
|
|
|
// Copy & convert the available samples (limited both by how many we have available, and
|
|
// by how many are actually needed).
|
|
const uint copySamples = MIN(_requestedSamples, numSamples);
|
|
(*_methodConvertBuffers)(_outBuffer, inChannels, copySamples, numChannels, numBits);
|
|
|
|
_requestedSamples -= copySamples;
|
|
numSamples -= copySamples;
|
|
_outBuffer += copySamples;
|
|
}
|
|
|
|
// Write all remaining samples (i.e. those which didn't fit into the mixer buffer)
|
|
// into the sample cache.
|
|
if (_sampleCache.bufFill == 0)
|
|
_sampleCache.bufReadPos = _sampleCache.bufData;
|
|
const uint cacheSpace = (_sampleCache.bufData + BUFFER_SIZE) - (_sampleCache.bufReadPos + _sampleCache.bufFill);
|
|
assert(numSamples <= cacheSpace);
|
|
(*_methodConvertBuffers)(_sampleCache.bufReadPos + _sampleCache.bufFill, inChannels, numSamples, numChannels, numBits);
|
|
|
|
_sampleCache.bufFill += numSamples;
|
|
|
|
return FLAC__STREAM_DECODER_WRITE_STATUS_CONTINUE;
|
|
}
|
|
|
|
inline ::FLAC__SeekableStreamDecoderSeekStatus FlacInputStream::callbackSeek(FLAC__uint64 absoluteByteOffset) {
|
|
_inStream->seek(absoluteByteOffset, SEEK_SET);
|
|
const bool result = (absoluteByteOffset == _inStream->pos());
|
|
|
|
#ifdef LEGACY_FLAC
|
|
return result ? FLAC__SEEKABLE_STREAM_DECODER_SEEK_STATUS_OK : FLAC__SEEKABLE_STREAM_DECODER_SEEK_STATUS_ERROR;
|
|
#else
|
|
return result ? FLAC__STREAM_DECODER_SEEK_STATUS_OK : FLAC__STREAM_DECODER_SEEK_STATUS_ERROR;
|
|
#endif
|
|
}
|
|
|
|
inline ::FLAC__SeekableStreamDecoderTellStatus FlacInputStream::callbackTell(FLAC__uint64 *absoluteByteOffset) {
|
|
*absoluteByteOffset = static_cast<FLAC__uint64>(_inStream->pos());
|
|
#ifdef LEGACY_FLAC
|
|
return FLAC__SEEKABLE_STREAM_DECODER_TELL_STATUS_OK;
|
|
#else
|
|
return FLAC__STREAM_DECODER_TELL_STATUS_OK;
|
|
#endif
|
|
}
|
|
|
|
inline ::FLAC__SeekableStreamDecoderLengthStatus FlacInputStream::callbackLength(FLAC__uint64 *streamLength) {
|
|
*streamLength = static_cast<FLAC__uint64>(_inStream->size());
|
|
#ifdef LEGACY_FLAC
|
|
return FLAC__SEEKABLE_STREAM_DECODER_LENGTH_STATUS_OK;
|
|
#else
|
|
return FLAC__STREAM_DECODER_LENGTH_STATUS_OK;
|
|
#endif
|
|
}
|
|
|
|
inline bool FlacInputStream::callbackEOF() {
|
|
return _inStream->eos();
|
|
}
|
|
|
|
|
|
inline void FlacInputStream::callbackMetadata(const ::FLAC__StreamMetadata *metadata) {
|
|
assert(_decoder != NULL);
|
|
assert(metadata->type == FLAC__METADATA_TYPE_STREAMINFO); // others arent really interesting
|
|
|
|
_streaminfo = metadata->data.stream_info;
|
|
setBestConvertBufferMethod(); // should be set after getting stream-information. FLAC always parses the info first
|
|
}
|
|
inline void FlacInputStream::callbackError(::FLAC__StreamDecoderErrorStatus status) {
|
|
// some of these are non-critical-Errors
|
|
debug(1, "FlacInputStream: An error occured while decoding. DecoderState is: %s",
|
|
FLAC__StreamDecoderErrorStatusString[status]);
|
|
}
|
|
|
|
/* Static Callback Wrappers */
|
|
::FLAC__SeekableStreamDecoderReadStatus FlacInputStream::callWrapRead(const ::FLAC__SeekableStreamDecoder *decoder, FLAC__byte buffer[], FLAC_size_t *bytes, void *clientData) {
|
|
FlacInputStream *instance = (FlacInputStream *)clientData;
|
|
assert(0 != instance);
|
|
return instance->callbackRead(buffer, bytes);
|
|
}
|
|
|
|
::FLAC__SeekableStreamDecoderSeekStatus FlacInputStream::callWrapSeek(const ::FLAC__SeekableStreamDecoder *decoder, FLAC__uint64 absoluteByteOffset, void *clientData) {
|
|
FlacInputStream *instance = (FlacInputStream *)clientData;
|
|
assert(0 != instance);
|
|
return instance->callbackSeek(absoluteByteOffset);
|
|
}
|
|
|
|
::FLAC__SeekableStreamDecoderTellStatus FlacInputStream::callWrapTell(const ::FLAC__SeekableStreamDecoder *decoder, FLAC__uint64 *absoluteByteOffset, void *clientData) {
|
|
FlacInputStream *instance = (FlacInputStream *)clientData;
|
|
assert(0 != instance);
|
|
return instance->callbackTell(absoluteByteOffset);
|
|
}
|
|
|
|
::FLAC__SeekableStreamDecoderLengthStatus FlacInputStream::callWrapLength(const ::FLAC__SeekableStreamDecoder *decoder, FLAC__uint64 *streamLength, void *clientData) {
|
|
FlacInputStream *instance = (FlacInputStream *)clientData;
|
|
assert(0 != instance);
|
|
return instance->callbackLength(streamLength);
|
|
}
|
|
|
|
FLAC__bool FlacInputStream::callWrapEOF(const ::FLAC__SeekableStreamDecoder *decoder, void *clientData) {
|
|
FlacInputStream *instance = (FlacInputStream *)clientData;
|
|
assert(0 != instance);
|
|
return instance->callbackEOF();
|
|
}
|
|
|
|
::FLAC__StreamDecoderWriteStatus FlacInputStream::callWrapWrite(const ::FLAC__SeekableStreamDecoder *decoder, const ::FLAC__Frame *frame, const FLAC__int32 * const buffer[], void *clientData) {
|
|
FlacInputStream *instance = (FlacInputStream *)clientData;
|
|
assert(0 != instance);
|
|
return instance->callbackWrite(frame, buffer);
|
|
}
|
|
|
|
void FlacInputStream::callWrapMetadata(const ::FLAC__SeekableStreamDecoder *decoder, const ::FLAC__StreamMetadata *metadata, void *clientData) {
|
|
FlacInputStream *instance = (FlacInputStream *)clientData;
|
|
assert(0 != instance);
|
|
instance->callbackMetadata(metadata);
|
|
}
|
|
|
|
void FlacInputStream::callWrapError(const ::FLAC__SeekableStreamDecoder *decoder, ::FLAC__StreamDecoderErrorStatus status, void *clientData) {
|
|
FlacInputStream *instance = (FlacInputStream *)clientData;
|
|
assert(0 != instance);
|
|
instance->callbackError(status);
|
|
}
|
|
|
|
|
|
#pragma mark -
|
|
#pragma mark --- Flac factory functions ---
|
|
#pragma mark -
|
|
|
|
|
|
AudioStream *makeFlacStream(
|
|
Common::SeekableReadStream *stream,
|
|
bool disposeAfterUse,
|
|
uint32 startTime,
|
|
uint32 duration,
|
|
uint numLoops) {
|
|
|
|
uint32 endTime = duration ? (startTime + duration) : 0;
|
|
|
|
FlacInputStream *input = new FlacInputStream(stream, disposeAfterUse, startTime, endTime, numLoops);
|
|
if (!input->isStreamDecoderReady()) {
|
|
delete input;
|
|
return 0;
|
|
}
|
|
return input;
|
|
}
|
|
|
|
} // End of namespace Audio
|
|
|
|
#endif // #ifdef USE_FLAC
|