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livetrax/libs/appleutility/CoreAudio/AudioFile/AFPublic/AudioFileObject.h

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/*
File: AudioFileObject.h
Abstract: Part of CoreAudio Utility Classes
Version: 1.1
Disclaimer: IMPORTANT: This Apple software is supplied to you by Apple
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terms, and your use, installation, modification or redistribution of
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In consideration of your agreement to abide by the following terms, and
subject to these terms, Apple grants you a personal, non-exclusive
license, under Apple's copyrights in this original Apple software (the
"Apple Software"), to use, reproduce, modify and redistribute the Apple
Software, with or without modifications, in source and/or binary forms;
provided that if you redistribute the Apple Software in its entirety and
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Neither the name, trademarks, service marks or logos of Apple Inc. may
be used to endorse or promote products derived from the Apple Software
without specific prior written permission from Apple. Except as
expressly stated in this notice, no other rights or licenses, express or
implied, are granted by Apple herein, including but not limited to any
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The Apple Software is provided by Apple on an "AS IS" basis. APPLE
MAKES NO WARRANTIES, EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION
THE IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS
FOR A PARTICULAR PURPOSE, REGARDING THE APPLE SOFTWARE OR ITS USE AND
OPERATION ALONE OR IN COMBINATION WITH YOUR PRODUCTS.
IN NO EVENT SHALL APPLE BE LIABLE FOR ANY SPECIAL, INDIRECT, INCIDENTAL
OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
INTERRUPTION) ARISING IN ANY WAY OUT OF THE USE, REPRODUCTION,
MODIFICATION AND/OR DISTRIBUTION OF THE APPLE SOFTWARE, HOWEVER CAUSED
AND WHETHER UNDER THEORY OF CONTRACT, TORT (INCLUDING NEGLIGENCE),
STRICT LIABILITY OR OTHERWISE, EVEN IF APPLE HAS BEEN ADVISED OF THE
POSSIBILITY OF SUCH DAMAGE.
Copyright (C) 2014 Apple Inc. All Rights Reserved.
*/
#ifndef _AudioFileObject_H_
#define _AudioFileObject_H_
#include <TargetConditionals.h>
#if !defined(__COREAUDIO_USE_FLAT_INCLUDES__)
#include <CoreAudio/CoreAudioTypes.h>
#include <AudioToolbox/AudioFile.h>
#include <AudioToolbox/AudioFormat.h>
#else
#include "CoreAudioTypes.h"
#include "AudioFile.h"
#include "AudioFormat.h"
#endif
#include "CompressedPacketTable.h"
#include "CACFDictionary.h"
#include "DataSource.h"
#include <vector>
#include <fcntl.h>
#if TARGET_OS_WIN32
#include <io.h>
#endif
/*
These are structs defined in 10.5. They are included here for compatibility with sources
*/
#if COREAUDIOTYPES_VERSION < 1050
struct AudioFormatListItem
{
AudioStreamBasicDescription mASBD;
AudioChannelLayoutTag mChannelLayoutTag;
};
typedef struct AudioFormatListItem AudioFormatListItem;
struct AudioFormatInfo
{
AudioStreamBasicDescription mASBD;
const void* mMagicCookie;
UInt32 mMagicCookieSize;
};
typedef struct AudioFormatInfo AudioFormatInfo;
enum {
kAudioFormatProperty_FormatList = 'flst',
// Returns a list of AudioFormatListItem structs describing the audio formats contained within the compressed bit stream
// as described by the magic cookie.
// The specifier is an AudioFormatInfo struct. At a minimum formatID member of the ASBD struct must filled in. Other fields
// may be filled in.
kAudioFormatProperty_OutputFormatList = 'ofls',
// Returns a list of AudioFormatListItem structs describing the audio formats which may be obtained by decoding the format
// described by the specifier.
// The specifier is an AudioFormatInfo struct. At a minimum formatID member of the ASBD struct must filled in. Other fields
// may be filled in. If there is no magic cookie, then the number of channels and sample rate should be filled in.
};
enum {
kAudioFilePropertyPacketSizeUpperBound = 'pkub',
kAudioFilePropertyFormatList = 'flst',
kAudioFilePropertyEstimatedDuration = 'edur',
kAudioFilePropertyBitRate = 'brat'
};
enum {
kAudioFileCreateURLSelect = 0x0019,
kAudioFileOpenURLSelect = 0x001A,
kAudioFileFileDataIsThisFormatSelect = 0x001B
};
#endif
enum {
kTEMPAudioFilePropertySoundCheckDictionary = 'scdc',
kTEMPAudioFilePropertyLoudnessInfo = 'loud',
kTEMPAudioFilePropertyGenerateLoudnessInfo = 'glou'
};
const UInt32 kCopySoundDataBufferSize = 1024 * 1024;
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// some files encode these as upper case
enum {
kUpperCase_IMACompression = 'IMA4', /*IMA 4:1*/
kUpperCase_ULawCompression = 'ULAW', /*<2A>Law 2:1*/
kUpperCase_ALawCompression = 'ALAW', /*aLaw 2:1*/
kUpperCase_Float32 = 'FL32',
kUpperCase_Float64 = 'FL64'
};
enum
{
// in what header is this defined? what is it?
kGSM = 'agsm',
kUpperCase_GSM = 'GSM '
};
#define kPackedBESInt (kLinearPCMFormatFlagIsSignedInteger | kLinearPCMFormatFlagIsBigEndian | kLinearPCMFormatFlagIsPacked)
#define kPackedLESInt (kLinearPCMFormatFlagIsSignedInteger | kLinearPCMFormatFlagIsPacked)
#define kPackedBEFloat (kLinearPCMFormatFlagIsFloat | kLinearPCMFormatFlagIsBigEndian | kLinearPCMFormatFlagIsPacked)
#define kPackedLEFloat (kLinearPCMFormatFlagIsFloat | kLinearPCMFormatFlagIsPacked)
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
inline int TransformPerm_FS_O (SInt8 inPerm)
{
switch (inPerm) {
case kAudioFileReadPermission: return O_RDONLY;
case kAudioFileWritePermission: return O_WRONLY;
case kAudioFileReadWritePermission: return O_RDWR;
}
return O_RDONLY;
}
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
#pragma mark "File Error Handling"
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
#include <errno.h>
#include <CoreAudio/CoreAudioTypes.h>
inline OSErr AudioFileTranslateErrno(int err)
{
switch (err) {
#if !TARGET_OS_WIN32
case ENFILE:
#endif
case EMFILE:
return -42 /* kAudio_TooManyFilesOpenError */;
#if !TARGET_OS_WIN32
case EPERM:
case EROFS:
#endif
case EACCES:
case EEXIST:
return -54 /* kAudio_FilePermissionError */;
#if !TARGET_OS_WIN32
case EMLINK:
return (OSErr)'!pth' /* kAudio_BadFilePathError */;
case ENOTDIR:
case ELOOP:
#endif
case ENOENT:
default:
return (OSErr)kAudioFileUnspecifiedError;
}
}
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
class AudioFileObject
{
protected:
private:
SInt64 mNumBytes; // total bytes of audio data in the audio file
SInt64 mNumPackets; // total frames of audio data in the audio file
AudioStreamBasicDescription mDataFormat; // format of the audio data
SInt64 mDataOffset; // position if the file where audio data begins
UInt32 mIsOptimized; // 1 if there is nothing in the file following the audio data, 0 if there is
UInt32 mFileType; // file type of the audio file (i.e. AIFF, WAVE, etc.)
CFURLRef mFileRef; // URL of the file passed to AudioFileOpen or AudioFileCreate
int mFileD; // Ref num of the file after opening within Audio File
SInt8 mPermissions; // file permissions indicated by the caller, passed by AudioFileOpen or set with SetProperty function
Boolean mIsInitialized; // has the AudioFileObject for this file been intialized?
DataSource *mDataSource;
UInt32 mMaximumPacketSize;
CompressedPacketTable *mPacketTable;
UInt32 mDeferSizeUpdates;
Boolean mNeedsSizeUpdate;
Boolean mFirstSetFormat;
Boolean mAlignDataWithFillerChunks;
public:
AudioFileObject (UInt32 inFileType)
: mNumBytes(0),
mNumPackets(0),
mDataOffset(0),
mIsOptimized(1),
mFileType(inFileType),
mFileRef(NULL),
mFileD(-1),
mPermissions(0),
mIsInitialized (false),
mDataSource(0),
mMaximumPacketSize(0),
mPacketTable(NULL),
mDeferSizeUpdates(1),
mNeedsSizeUpdate(false),
mFirstSetFormat(true),
mAlignDataWithFillerChunks(true)
{
memset(&mDataFormat, 0, sizeof(mDataFormat));
}
virtual ~AudioFileObject();
/* Public API Function Implementation */
// The DoSomething() versions of these functions are wrappers that perform a standard prologue.
// The Something() methods are those which should be overridden in the subclasses.
OSStatus DoCreate( CFURLRef inFileRef,
const AudioStreamBasicDescription *inFormat,
UInt32 inFlags);
virtual OSStatus Create( CFURLRef inFileRef,
const AudioStreamBasicDescription *inFormat);
OSStatus DoOpen( CFURLRef inFileRef,
SInt8 inPermissions,
int inFD);
virtual OSStatus Open( CFURLRef inFileRef,
SInt8 inPermissions,
int inFD);
OSStatus DoOpenWithCallbacks(
void * inRefCon,
AudioFile_ReadProc inReadFunc,
AudioFile_WriteProc inWriteFunc,
AudioFile_GetSizeProc inGetSizeFunc,
AudioFile_SetSizeProc inSetSizeFunc);
OSStatus DoInitialize( CFURLRef inFileRef,
const AudioStreamBasicDescription *inFormat,
UInt32 inFlags);
virtual OSStatus Initialize( CFURLRef inFileRef,
const AudioStreamBasicDescription *inFormat,
UInt32 inFlags);
OSStatus DoInitializeWithCallbacks(
void * inRefCon,
AudioFile_ReadProc inReadFunc,
AudioFile_WriteProc inWriteFunc,
AudioFile_GetSizeProc inGetSizeFunc,
AudioFile_SetSizeProc inSetSizeFunc,
UInt32 inFileType,
const AudioStreamBasicDescription *inFormat,
UInt32 inFlags);
virtual OSStatus OpenFromDataSource(void);
virtual OSStatus InitializeDataSource(const AudioStreamBasicDescription *inFormat, UInt32 inFlags);
OSStatus DoClose();
virtual OSStatus Close();
OSStatus DoOptimize();
virtual OSStatus Optimize();
virtual OSStatus ReadBytes( Boolean inUseCache,
SInt64 inStartingByte,
UInt32 *ioNumBytes,
void *outBuffer);
virtual OSStatus WriteBytes( Boolean inUseCache,
SInt64 inStartingByte,
UInt32 *ioNumBytes,
const void *inBuffer);
virtual OSStatus ReadPackets( Boolean inUseCache,
UInt32 *outNumBytes,
AudioStreamPacketDescription *outPacketDescriptions,
SInt64 inStartingPacket,
UInt32 *ioNumPackets,
void *outBuffer);
virtual OSStatus ReadPacketData(
Boolean inUseCache,
UInt32 *ioNumBytes,
AudioStreamPacketDescription *outPacketDescriptions,
SInt64 inStartingPacket,
UInt32 *ioNumPackets,
void *outBuffer);
virtual OSStatus ReadPacketDataVBR(
Boolean inUseCache,
UInt32 *ioNumBytes,
AudioStreamPacketDescription *outPacketDescriptions,
SInt64 inStartingPacket,
UInt32 *ioNumPackets,
void *outBuffer);
virtual OSStatus HowManyPacketsCanBeReadIntoBuffer(UInt32* ioNumBytes, SInt64 inStartingPacket, UInt32 *ioNumPackets);
virtual OSStatus ReadPacketDataVBR_InTable(
Boolean inUseCache,
UInt32 *ioNumBytes,
AudioStreamPacketDescription *outPacketDescriptions,
SInt64 inStartingPacket,
UInt32 *ioNumPackets,
void *outBuffer);
virtual OSStatus WritePackets( Boolean inUseCache,
UInt32 inNumBytes,
const AudioStreamPacketDescription *inPacketDescriptions,
SInt64 inStartingPacket,
UInt32 *ioNumPackets,
const void *inBuffer);
/* Property Support */
virtual OSStatus GetPropertyInfo (
AudioFilePropertyID inPropertyID,
UInt32 *outDataSize,
UInt32 *isWritable);
virtual OSStatus GetProperty ( AudioFilePropertyID inPropertyID,
UInt32 *ioDataSize,
void *ioPropertyData);
virtual OSStatus SetProperty ( AudioFilePropertyID inPropertyID,
UInt32 inDataSize,
const void *inPropertyData);
UInt32 GetFileType() const { return mFileType; }
void SetFileType(UInt32 inFileType) { mFileType = inFileType; }
// this will set the format in memory only.
virtual OSStatus SetDataFormat(const AudioStreamBasicDescription* inStreamFormat);
// this will update the format info on disk and in memory.
virtual OSStatus UpdateDataFormat(const AudioStreamBasicDescription* inStreamFormat);
const UInt32 GetBytesPerPacket() const { return mDataFormat.mBytesPerPacket; }
const AudioStreamBasicDescription &GetDataFormat() const { return mDataFormat; }
virtual OSStatus GetFormatListInfo( UInt32 &outDataSize,
UInt32 &outWritable);
virtual OSStatus GetFormatList( UInt32 &ioDataSize,
AudioFormatListItem *ioPropertyData);
virtual OSStatus SetFormatList( UInt32 inDataSize,
const AudioFormatListItem *inPropertyData);
virtual OSStatus UpdateSize() { return noErr; }
UInt32 DeferSizeUpdates() { return mDeferSizeUpdates; }
void SetDeferSizeUpdates(UInt32 inFlag) { mDeferSizeUpdates = inFlag; }
OSStatus UpdateSizeIfNeeded();
OSStatus SizeChanged();
Boolean IsOptimized() const { return mIsOptimized != 0; }
void SetIsOptimized(Boolean inIsOptimized) { mIsOptimized = inIsOptimized ? 1 : 0; }
Boolean AlignDataWithFillerChunks() const { return mAlignDataWithFillerChunks; }
virtual SInt64 GetNumBytes() { return mNumBytes; }
virtual void SetNumBytes(SInt64 inNumBytes) { mNumBytes = inNumBytes; }
// this will update the header size info on disk
OSStatus UpdateNumBytes(SInt64 inNumBytes);
virtual SInt64 GetNumPackets(){ return mNumPackets; }
virtual void SetNumPackets(SInt64 inNumPackets) { mNumPackets = inNumPackets; }
// this will update the header size info on disk
OSStatus UpdateNumPackets(SInt64 inNumPackets);
virtual OSStatus PacketToFrame(SInt64 inPacket, SInt64& outFirstFrameInPacket);
virtual OSStatus FrameToPacket(SInt64 inFrame, SInt64& outPacket, UInt32& outFrameOffsetInPacket);
virtual OSStatus PacketToByte(AudioBytePacketTranslation* abpt);
virtual OSStatus ByteToPacket(AudioBytePacketTranslation* abpt);
virtual OSStatus GetBitRate( UInt32 *outBitRate);
virtual OSStatus GetMagicCookieDataSize( UInt32 *outDataSize,
UInt32 *isWritable);
virtual OSStatus GetMagicCookieData( UInt32 *ioDataSize,
void *ioPropertyData);
virtual OSStatus SetMagicCookieData( UInt32 inDataSize,
const void *inPropertyData);
virtual OSStatus GetMarkerListSize( UInt32 *outDataSize,
UInt32 *isWritable);
virtual OSStatus GetMarkerList( UInt32 *ioDataSize,
AudioFileMarkerList *ioMarkerList);
virtual OSStatus SetMarkerList( UInt32 inDataSize,
const AudioFileMarkerList *inMarkerList);
virtual OSStatus GetRegionListSize( UInt32 *outDataSize,
UInt32 *isWritable);
virtual OSStatus GetRegionList( UInt32 *ioDataSize,
AudioFileRegionList *ioRegionList);
virtual OSStatus SetRegionList( UInt32 inDataSize,
const AudioFileRegionList *inRegionList);
virtual OSStatus GetChannelLayoutSize( UInt32 *outDataSize,
UInt32 *isWritable);
virtual OSStatus GetChannelLayout( UInt32 *ioDataSize,
AudioChannelLayout *ioChannelLayout);
virtual OSStatus SetChannelLayout( UInt32 inDataSize,
const AudioChannelLayout *inChannelLayout);
virtual OSStatus GetInfoDictionarySize( UInt32 *outDataSize,
UInt32 *isWritable);
virtual OSStatus GetInfoDictionary( CACFDictionary *infoDict);
virtual OSStatus SetInfoDictionary( CACFDictionary *infoDict);
virtual OSStatus GetSoundCheckDictionarySize( UInt32 *outDataSize,
UInt32 *isWritable) { return kAudioFileUnsupportedPropertyError; }
virtual OSStatus GetSoundCheckDictionary( CACFDictionary *infoDict) { return kAudioFileUnsupportedPropertyError; }
virtual OSStatus SetSoundCheckDictionary( CACFDictionary *infoDict) { return kAudioFileUnsupportedPropertyError; }
virtual OSStatus GetLoudnessInfo( CACFDictionary *infoDict) { return kAudioFileUnsupportedPropertyError; }
virtual OSStatus GetSoundCheckDictionaryFromLoudnessInfo(CACFDictionary* outInfoDict) { return kAudioFileUnsupportedPropertyError; }
virtual OSStatus GetLoudnessInfoFromSoundCheckDictionary(CACFDictionary* outInfoDict) { return kAudioFileUnsupportedPropertyError; }
virtual OSStatus SetLoudnessInfo( CACFDictionary *infoDict) { return kAudioFileUnsupportedPropertyError; }
virtual OSStatus GetLoudnessInfoSize( UInt32 *outDataSize,
UInt32 *isWritable) { return kAudioFileUnsupportedPropertyError; }
virtual OSStatus GenerateLoudnessInfo( CACFDictionary *infoDict) { return kAudioFileUnsupportedPropertyError; }
virtual OSStatus GetEstimatedDuration( Float64* duration);
virtual OSStatus CountUserData( UInt32 inUserDataID,
UInt32 *outNumberItems);
virtual OSStatus GetUserDataSize( UInt32 inUserDataID,
UInt32 inIndex,
UInt32 *outDataSize);
virtual OSStatus GetUserData( UInt32 inUserDataID,
UInt32 inIndex,
UInt32 *ioDataSize,
void *ioUserData);
virtual OSStatus SetUserData( UInt32 inUserDataID,
UInt32 inIndex,
UInt32 inDataSize,
const void *inUserData);
virtual OSStatus RemoveUserData( UInt32 inUserDataID,
UInt32 inIndex);
virtual OSStatus GetLyrics(CFStringRef *outLyrics) { return kAudioFileUnsupportedPropertyError; }
Boolean CanRead() const { return mPermissions & kAudioFileReadPermission; }
Boolean CanWrite() const { return mPermissions & kAudioFileWritePermission; }
void SetPermissions(SInt8 inPermissions) { mPermissions = inPermissions; }
/* Other Helper Methods: (some may not be necessary depending on how things are refactored) */
OSStatus OpenFile(SInt8 inPermissions, int inFD);
OSStatus CreateDataFile (CFURLRef inFileRef, int &outFileD);
OSStatus AddDurationToInfoDictionary(CACFDictionary *infoDict, Float64 &inDuration);
virtual Boolean IsDataFormatSupported(const AudioStreamBasicDescription *inFormat) = 0;
virtual Boolean IsDataFormatValid(const AudioStreamBasicDescription *inFormat);
virtual OSStatus IsValidFilePosition(SInt64 /*position*/) { return noErr; }
OSStatus MoveData(SInt64 fromPos, SInt64 toPos, SInt64 size);
/* Accessors: */
Boolean IsInitialized() const { return mIsInitialized; }
void SetInitialized(Boolean inFlag) { mIsInitialized = inFlag; }
DataSource* GetDataSource() const { return mDataSource; }
void SetDataSource(DataSource *inDataSource);
void SetURL (CFURLRef inURL);
virtual UInt32 GetMaximumPacketSize() { return mMaximumPacketSize; }
virtual UInt32 FindMaximumPacketSize() { return mMaximumPacketSize; }
virtual void SetMaximumPacketSize(const UInt32 inPacketSize) { mMaximumPacketSize = inPacketSize; }
virtual UInt32 GetPacketSizeUpperBound() { return GetMaximumPacketSize (); }
SInt64 GetDataOffset() const { return mDataOffset; }
void SetDataOffset(SInt64 inOffset) { mDataOffset = inOffset; }
// I like this idiom better than DoesPacketTableExist+NewPacketTable:
CompressedPacketTable* GetPacketTable(Boolean inCreateIt = false)
{
if (!mPacketTable && inCreateIt)
mPacketTable = new CompressedPacketTable(mDataFormat.mFramesPerPacket);
return mPacketTable;
}
void ClearPacketTable()
{
DeletePacketTable();
GetPacketTable(true);
}
virtual OSStatus ScanForPackets(SInt64 inToPacketCount, DataSource* inDataSrc = NULL, bool fullyParsedIfEndOfDataReached = true)
{
// In formats that read packets lazily, this will be overridden to scan for packets up to the index.
if (inToPacketCount > GetNumPackets())
return kAudioFileEndOfFileError;
return noErr;
}
void AppendPacket(const AudioStreamPacketDescription &inPacket)
{
CompressedPacketTable* packetTable = GetPacketTable(true);
UInt32 numFramesInPacket = mDataFormat.mFramesPerPacket ? mDataFormat.mFramesPerPacket : inPacket.mVariableFramesInPacket;
AudioStreamPacketDescriptionExtended pext;
memset(&pext, 0, sizeof(pext));
pext.mStartOffset = inPacket.mStartOffset;
pext.mDataByteSize = inPacket.mDataByteSize;
pext.mVariableFramesInPacket = inPacket.mVariableFramesInPacket;
pext.mFrameOffset = numFramesInPacket + (packetTable->size() ? packetTable->back().mFrameOffset : 0);
packetTable->push_back(pext);
if (inPacket.mDataByteSize > mMaximumPacketSize)
mMaximumPacketSize = inPacket.mDataByteSize;
}
void DeletePacketTable() { delete mPacketTable; mPacketTable = NULL;}
SInt64 GetPacketTableSize() { return mPacketTable ? mPacketTable->size() : 0; }
OSStatus GetPacketDescriptions(UInt32 inStartingPacket, UInt32 *ioDataSize, AudioStreamPacketDescription *outPacketDescriptions)
{
if (outPacketDescriptions == NULL) return kAudioFileUnspecifiedError;
if (mPacketTable)
{
// only get as many packet descriptions as can fit in outPacketDescriptions
UInt32 count = *ioDataSize / sizeof(AudioStreamPacketDescription);
if (count + inStartingPacket > GetPacketTableSize())
count = (UInt32)(GetPacketTableSize() - inStartingPacket);
*ioDataSize = 0;
for (UInt32 i = inStartingPacket; i < (count + inStartingPacket); i++)
{
AudioStreamPacketDescription curPacket = (*mPacketTable)[i];
outPacketDescriptions[i].mStartOffset = curPacket.mStartOffset - GetDataOffset();
outPacketDescriptions[i].mVariableFramesInPacket = curPacket.mVariableFramesInPacket;
outPacketDescriptions[i].mDataByteSize = curPacket.mDataByteSize;
*ioDataSize += sizeof(AudioStreamPacketDescription);
}
}
else
*ioDataSize = 0;
return noErr;
}
#if DEBUG
void DumpPacketTable()
{
if (mPacketTable) {
SInt64 size = mPacketTable->size();
printf("PacketTable size %d\n", (int)size);
for (SInt64 i = 0; i < size; i++) {
AudioStreamPacketDescription curPacket = (*mPacketTable)[i];
printf("dpkt %5qd %8qd %5d %5d\n", i, curPacket.mStartOffset, (int)curPacket.mDataByteSize, (int)curPacket.mVariableFramesInPacket);
}
}
}
#endif
Boolean GetNeedsSizeUpdate() const { return mNeedsSizeUpdate; }
void SetNeedsSizeUpdate(Boolean inNeedsSizeUpdate) { mNeedsSizeUpdate = inNeedsSizeUpdate; }
CFURLRef GetURL () const { return mFileRef; }
virtual OSStatus GetSourceBitDepth(SInt32& outValue) { outValue = 0; return kAudioFileUnsupportedPropertyError; }
virtual OSStatus SetSourceBitDepth(SInt32 inValue) { return kAudioFileUnsupportedPropertyError; }
virtual OSStatus GetAlbumArtwork(CFDataRef& outValue) { outValue = NULL; return kAudioFileUnsupportedPropertyError; }
virtual OSStatus SetAlbumArtwork(CFDataRef inValue){ return kAudioFileUnsupportedPropertyError; }
private:
void SetAlignDataWithFillerChunks(Boolean inFlag) { mAlignDataWithFillerChunks = inFlag; }
OSStatus ValidateFormatAndData();
/* debug */
// virtual void PrintFile (FILE* inFile, const char *indent) = 0;
};
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
inline Boolean cfstrcmpi(CFStringRef a, CFStringRef b)
{
// case insensitive CFString compare
return CFStringCompare(a, b, kCFCompareCaseInsensitive) == kCFCompareEqualTo;
}
CFBundleRef GetAudioToolboxBundle();
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
#endif