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All Rights Reserved. */ #ifndef __CAStreamBasicDescription_h__ #define __CAStreamBasicDescription_h__ #if !defined(__COREAUDIO_USE_FLAT_INCLUDES__) #include #include #else #include "CoreAudioTypes.h" #include "CoreFoundation.h" #endif #include "CADebugMacros.h" #include // for memset, memcpy #include // for FILE * #pragma mark This file needs to compile on more earlier versions of the OS, so please keep that in mind when editing it extern char *CAStringForOSType (OSType t, char *writeLocation, size_t bufsize); // define Leopard specific symbols for backward compatibility if applicable #if COREAUDIOTYPES_VERSION < 1050 typedef Float32 AudioSampleType; enum { kAudioFormatFlagsCanonical = kAudioFormatFlagIsFloat | kAudioFormatFlagsNativeEndian | kAudioFormatFlagIsPacked }; #endif #if COREAUDIOTYPES_VERSION < 1051 typedef Float32 AudioUnitSampleType; enum { kLinearPCMFormatFlagsSampleFractionShift = 7, kLinearPCMFormatFlagsSampleFractionMask = (0x3F << kLinearPCMFormatFlagsSampleFractionShift), }; #endif // define the IsMixable format flag for all versions of the system #if (MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_3) enum { kIsNonMixableFlag = kAudioFormatFlagIsNonMixable }; #else enum { kIsNonMixableFlag = (1L << 6) }; #endif //============================================================================= // CAStreamBasicDescription // // This is a wrapper class for the AudioStreamBasicDescription struct. // It adds a number of convenience routines, but otherwise adds nothing // to the footprint of the original struct. //============================================================================= class CAStreamBasicDescription : public AudioStreamBasicDescription { // Constants public: static const AudioStreamBasicDescription sEmpty; enum CommonPCMFormat { kPCMFormatOther = 0, kPCMFormatFloat32 = 1, kPCMFormatInt16 = 2, kPCMFormatFixed824 = 3, kPCMFormatFloat64 = 4 }; // Construction/Destruction public: CAStreamBasicDescription(); CAStreamBasicDescription(const AudioStreamBasicDescription &desc); CAStreamBasicDescription( double inSampleRate, UInt32 inFormatID, UInt32 inBytesPerPacket, UInt32 inFramesPerPacket, UInt32 inBytesPerFrame, UInt32 inChannelsPerFrame, UInt32 inBitsPerChannel, UInt32 inFormatFlags); CAStreamBasicDescription( double inSampleRate, UInt32 inNumChannels, CommonPCMFormat pcmf, bool inIsInterleaved) { unsigned wordsize; mSampleRate = inSampleRate; mFormatID = kAudioFormatLinearPCM; mFormatFlags = kAudioFormatFlagsNativeEndian | kAudioFormatFlagIsPacked; mFramesPerPacket = 1; mChannelsPerFrame = inNumChannels; mBytesPerFrame = mBytesPerPacket = 0; mReserved = 0; switch (pcmf) { default: return; case kPCMFormatFloat32: wordsize = 4; mFormatFlags |= kAudioFormatFlagIsFloat; break; case kPCMFormatFloat64: wordsize = 8; mFormatFlags |= kAudioFormatFlagIsFloat; break; case kPCMFormatInt16: wordsize = 2; mFormatFlags |= kAudioFormatFlagIsSignedInteger; break; case kPCMFormatFixed824: wordsize = 4; mFormatFlags |= kAudioFormatFlagIsSignedInteger | (24 << kLinearPCMFormatFlagsSampleFractionShift); break; } mBitsPerChannel = wordsize * 8; if (inIsInterleaved) mBytesPerFrame = mBytesPerPacket = wordsize * inNumChannels; else { mFormatFlags |= kAudioFormatFlagIsNonInterleaved; mBytesPerFrame = mBytesPerPacket = wordsize; } } // Assignment CAStreamBasicDescription& operator=(const AudioStreamBasicDescription& v) { SetFrom(v); return *this; } void SetFrom(const AudioStreamBasicDescription &desc) { memcpy(this, &desc, sizeof(AudioStreamBasicDescription)); } bool FromText(const char *inTextDesc) { return FromText(inTextDesc, *this); } static bool FromText(const char *inTextDesc, AudioStreamBasicDescription &outDesc); // return true if parsing was successful static const char *sTextParsingUsageString; // _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ // // interrogation bool IsPCM() const { return mFormatID == kAudioFormatLinearPCM; } bool PackednessIsSignificant() const { Assert(IsPCM(), "PackednessIsSignificant only applies for PCM"); return (SampleWordSize() << 3) != mBitsPerChannel; } bool AlignmentIsSignificant() const { return PackednessIsSignificant() || (mBitsPerChannel & 7) != 0; } bool IsInterleaved() const { return !(mFormatFlags & kAudioFormatFlagIsNonInterleaved); } bool IsSignedInteger() const { return IsPCM() && (mFormatFlags & kAudioFormatFlagIsSignedInteger); } bool IsFloat() const { return IsPCM() && (mFormatFlags & kAudioFormatFlagIsFloat); } bool IsNativeEndian() const { return (mFormatFlags & kAudioFormatFlagIsBigEndian) == kAudioFormatFlagsNativeEndian; } // for sanity with interleaved/deinterleaved possibilities, never access mChannelsPerFrame, use these: UInt32 NumberInterleavedChannels() const { return IsInterleaved() ? mChannelsPerFrame : 1; } UInt32 NumberChannelStreams() const { return IsInterleaved() ? 1 : mChannelsPerFrame; } UInt32 NumberChannels() const { return mChannelsPerFrame; } UInt32 SampleWordSize() const { return (mBytesPerFrame > 0 && NumberInterleavedChannels()) ? mBytesPerFrame / NumberInterleavedChannels() : 0; } UInt32 FramesToBytes(UInt32 nframes) const { return nframes * mBytesPerFrame; } UInt32 BytesToFrames(UInt32 nbytes) const { Assert(mBytesPerFrame > 0, "bytesPerFrame must be > 0 in BytesToFrames"); return nbytes / mBytesPerFrame; } bool SameChannelsAndInterleaving(const CAStreamBasicDescription &a) const { return this->NumberChannels() == a.NumberChannels() && this->IsInterleaved() == a.IsInterleaved(); } bool IdentifyCommonPCMFormat(CommonPCMFormat &outFormat, bool *outIsInterleaved=NULL) const { // return true if it's a valid PCM format. outFormat = kPCMFormatOther; // trap out patently invalid formats. if (mFormatID != kAudioFormatLinearPCM || mFramesPerPacket != 1 || mBytesPerFrame != mBytesPerPacket || mBitsPerChannel/8 > mBytesPerFrame || mChannelsPerFrame == 0) return false; bool interleaved = (mFormatFlags & kAudioFormatFlagIsNonInterleaved) == 0; if (outIsInterleaved != NULL) *outIsInterleaved = interleaved; unsigned wordsize = mBytesPerFrame; if (interleaved) { if (wordsize % mChannelsPerFrame != 0) return false; wordsize /= mChannelsPerFrame; } if ((mFormatFlags & kAudioFormatFlagIsBigEndian) == kAudioFormatFlagsNativeEndian && wordsize * 8 == mBitsPerChannel) { // packed and native endian, good if (mFormatFlags & kLinearPCMFormatFlagIsFloat) { // float: reject nonsense bits if (mFormatFlags & (kLinearPCMFormatFlagIsSignedInteger | kLinearPCMFormatFlagsSampleFractionMask)) return false; if (wordsize == 4) outFormat = kPCMFormatFloat32; if (wordsize == 8) outFormat = kPCMFormatFloat64; } else if (mFormatFlags & kLinearPCMFormatFlagIsSignedInteger) { // signed int unsigned fracbits = (mFormatFlags & kLinearPCMFormatFlagsSampleFractionMask) >> kLinearPCMFormatFlagsSampleFractionShift; if (wordsize == 4 && fracbits == 24) outFormat = kPCMFormatFixed824; else if (wordsize == 2 && fracbits == 0) outFormat = kPCMFormatInt16; } } return true; } bool IsCommonFloat32(bool *outIsInterleaved=NULL) const { CommonPCMFormat fmt; return IdentifyCommonPCMFormat(fmt, outIsInterleaved) && fmt == kPCMFormatFloat32; } bool IsCommonFloat64(bool *outIsInterleaved=NULL) const { CommonPCMFormat fmt; return IdentifyCommonPCMFormat(fmt, outIsInterleaved) && fmt == kPCMFormatFloat64; } bool IsCommonFixed824(bool *outIsInterleaved=NULL) const { CommonPCMFormat fmt; return IdentifyCommonPCMFormat(fmt, outIsInterleaved) && fmt == kPCMFormatFixed824; } bool IsCommonInt16(bool *outIsInterleaved=NULL) const { CommonPCMFormat fmt; return IdentifyCommonPCMFormat(fmt, outIsInterleaved) && fmt == kPCMFormatInt16; } // _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ // // manipulation void SetCanonical(UInt32 nChannels, bool interleaved) // note: leaves sample rate untouched { mFormatID = kAudioFormatLinearPCM; UInt32 sampleSize = SizeOf32(AudioSampleType); mFormatFlags = kAudioFormatFlagsCanonical; mBitsPerChannel = 8 * sampleSize; mChannelsPerFrame = nChannels; mFramesPerPacket = 1; if (interleaved) mBytesPerPacket = mBytesPerFrame = nChannels * sampleSize; else { mBytesPerPacket = mBytesPerFrame = sampleSize; mFormatFlags |= kAudioFormatFlagIsNonInterleaved; } } bool IsCanonical() const { if (mFormatID != kAudioFormatLinearPCM) return false; UInt32 reqFormatFlags; UInt32 flagsMask = (kLinearPCMFormatFlagIsFloat | kLinearPCMFormatFlagIsBigEndian | kLinearPCMFormatFlagIsSignedInteger | kLinearPCMFormatFlagIsPacked | kLinearPCMFormatFlagsSampleFractionMask); bool interleaved = (mFormatFlags & kAudioFormatFlagIsNonInterleaved) == 0; unsigned sampleSize = SizeOf32(AudioSampleType); reqFormatFlags = kAudioFormatFlagsCanonical; UInt32 reqFrameSize = interleaved ? (mChannelsPerFrame * sampleSize) : sampleSize; return ((mFormatFlags & flagsMask) == reqFormatFlags && mBitsPerChannel == 8 * sampleSize && mFramesPerPacket == 1 && mBytesPerFrame == reqFrameSize && mBytesPerPacket == reqFrameSize); } void SetAUCanonical(UInt32 nChannels, bool interleaved) { mFormatID = kAudioFormatLinearPCM; #if CA_PREFER_FIXED_POINT mFormatFlags = kAudioFormatFlagsCanonical | (kAudioUnitSampleFractionBits << kLinearPCMFormatFlagsSampleFractionShift); #else mFormatFlags = kAudioFormatFlagsCanonical; #endif mChannelsPerFrame = nChannels; mFramesPerPacket = 1; mBitsPerChannel = 8 * SizeOf32(AudioUnitSampleType); if (interleaved) mBytesPerPacket = mBytesPerFrame = nChannels * SizeOf32(AudioUnitSampleType); else { mBytesPerPacket = mBytesPerFrame = SizeOf32(AudioUnitSampleType); mFormatFlags |= kAudioFormatFlagIsNonInterleaved; } } void ChangeNumberChannels(UInt32 nChannels, bool interleaved) // alter an existing format { Assert(IsPCM(), "ChangeNumberChannels only works for PCM formats"); UInt32 wordSize = SampleWordSize(); // get this before changing ANYTHING if (wordSize == 0) wordSize = (mBitsPerChannel + 7) / 8; mChannelsPerFrame = nChannels; mFramesPerPacket = 1; if (interleaved) { mBytesPerPacket = mBytesPerFrame = nChannels * wordSize; mFormatFlags &= ~static_cast(kAudioFormatFlagIsNonInterleaved); } else { mBytesPerPacket = mBytesPerFrame = wordSize; mFormatFlags |= kAudioFormatFlagIsNonInterleaved; } } // _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ // // other bool IsEqual(const AudioStreamBasicDescription &other, bool interpretingWildcards=true) const; static bool FlagIndependentEquivalence(const AudioStreamBasicDescription &x, const AudioStreamBasicDescription &y); static bool IsFunctionallyEquivalent(const AudioStreamBasicDescription &x, const AudioStreamBasicDescription &y); void Print() const { Print (stdout); } void Print(FILE* file) const { PrintFormat (file, "", "AudioStreamBasicDescription:"); } void PrintFormat(FILE *f, const char *indent, const char *name) const { char buf[256]; fprintf(f, "%s%s %s\n", indent, name, AsString(buf, sizeof(buf))); } void PrintFormat2(FILE *f, const char *indent, const char *name) const { // no trailing newline char buf[256]; fprintf(f, "%s%s %s", indent, name, AsString(buf, sizeof(buf))); } char * AsString(char *buf, size_t bufsize, bool brief=false) const; static void Print (const AudioStreamBasicDescription &inDesc) { CAStreamBasicDescription desc(inDesc); desc.Print (); } OSStatus Save(CFPropertyListRef *outData) const; OSStatus Restore(CFPropertyListRef &inData); // Operations static bool IsMixable(const AudioStreamBasicDescription& inDescription) { return (inDescription.mFormatID == kAudioFormatLinearPCM) && ((inDescription.mFormatFlags & kIsNonMixableFlag) == 0); } static void NormalizeLinearPCMFormat(AudioStreamBasicDescription& ioDescription); static void NormalizeLinearPCMFormat(bool inNativeEndian, AudioStreamBasicDescription& ioDescription); static void ResetFormat(AudioStreamBasicDescription& ioDescription); static void FillOutFormat(AudioStreamBasicDescription& ioDescription, const AudioStreamBasicDescription& inTemplateDescription); static void GetSimpleName(const AudioStreamBasicDescription& inDescription, char* outName, UInt32 inMaxNameLength, bool inAbbreviate, bool inIncludeSampleRate = false); static void ModifyFormatFlagsForMatching(const AudioStreamBasicDescription& x, const AudioStreamBasicDescription& y, UInt32& xFlags, UInt32& yFlags, bool converterOnly); #if CoreAudio_Debug static void PrintToLog(const AudioStreamBasicDescription& inDesc); #endif }; bool operator<(const AudioStreamBasicDescription& x, const AudioStreamBasicDescription& y); bool operator==(const AudioStreamBasicDescription& x, const AudioStreamBasicDescription& y); #if TARGET_OS_MAC || (TARGET_OS_WIN32 && (_MSC_VER > 600)) inline bool operator!=(const AudioStreamBasicDescription& x, const AudioStreamBasicDescription& y) { return !(x == y); } inline bool operator<=(const AudioStreamBasicDescription& x, const AudioStreamBasicDescription& y) { return (x < y) || (x == y); } inline bool operator>=(const AudioStreamBasicDescription& x, const AudioStreamBasicDescription& y) { return !(x < y); } inline bool operator>(const AudioStreamBasicDescription& x, const AudioStreamBasicDescription& y) { return !((x < y) || (x == y)); } #endif bool SanityCheck(const AudioStreamBasicDescription& x); #endif // __CAStreamBasicDescription_h__