/* File: CAVolumeCurve.h Abstract: Part of CoreAudio Utility Classes Version: 1.0.1 Disclaimer: IMPORTANT: This Apple software is supplied to you by Apple Inc. ("Apple") in consideration of your agreement to the following terms, and your use, installation, modification or redistribution of this Apple software constitutes acceptance of these terms. If you do not agree with these terms, please do not use, install, modify or redistribute this Apple software. 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All Rights Reserved. */ #if !defined(__CAVolumeCurve_h__) #define __CAVolumeCurve_h__ //============================================================================= // Includes //============================================================================= #if !defined(__COREAUDIO_USE_FLAT_INCLUDES__) #include #else #include #endif #include //============================================================================= // Types //============================================================================= struct CARawPoint { SInt32 mMinimum; SInt32 mMaximum; CARawPoint() : mMinimum(0), mMaximum(0) {} CARawPoint(const CARawPoint& inPoint) : mMinimum(inPoint.mMinimum), mMaximum(inPoint.mMaximum) {} CARawPoint(SInt32 inMinimum, SInt32 inMaximum) : mMinimum(inMinimum), mMaximum(inMaximum) {} CARawPoint& operator=(const CARawPoint& inPoint) { mMinimum = inPoint.mMinimum; mMaximum = inPoint.mMaximum; return *this; } static bool Overlap(const CARawPoint& x, const CARawPoint& y) { return (x.mMinimum < y.mMaximum) && (x.mMaximum > y.mMinimum); } }; inline bool operator<(const CARawPoint& x, const CARawPoint& y) { return x.mMinimum < y.mMinimum; } inline bool operator==(const CARawPoint& x, const CARawPoint& y) { return (x.mMinimum == y.mMinimum) && (x.mMaximum == y.mMaximum); } inline bool operator!=(const CARawPoint& x, const CARawPoint& y) { return !(x == y); } inline bool operator<=(const CARawPoint& x, const CARawPoint& y) { return (x < y) || (x == y); } inline bool operator>=(const CARawPoint& x, const CARawPoint& y) { return !(x < y); } inline bool operator>(const CARawPoint& x, const CARawPoint& y) { return !((x < y) || (x == y)); } struct CADBPoint { Float32 mMinimum; Float32 mMaximum; CADBPoint() : mMinimum(0), mMaximum(0) {} CADBPoint(const CADBPoint& inPoint) : mMinimum(inPoint.mMinimum), mMaximum(inPoint.mMaximum) {} CADBPoint(Float32 inMinimum, Float32 inMaximum) : mMinimum(inMinimum), mMaximum(inMaximum) {} CADBPoint& operator=(const CADBPoint& inPoint) { mMinimum = inPoint.mMinimum; mMaximum = inPoint.mMaximum; return *this; } static bool Overlap(const CADBPoint& x, const CADBPoint& y) { return (x.mMinimum < y.mMaximum) && (x.mMaximum >= y.mMinimum); } }; inline bool operator<(const CADBPoint& x, const CADBPoint& y) { return x.mMinimum < y.mMinimum; } inline bool operator==(const CADBPoint& x, const CADBPoint& y) { return (x.mMinimum == y.mMinimum) && (x.mMaximum == y.mMaximum); } inline bool operator!=(const CADBPoint& x, const CADBPoint& y) { return !(x == y); } inline bool operator<=(const CADBPoint& x, const CADBPoint& y) { return (x < y) || (x == y); } inline bool operator>=(const CADBPoint& x, const CADBPoint& y) { return !(x < y); } inline bool operator>(const CADBPoint& x, const CADBPoint& y) { return !((x < y) || (x == y)); } //============================================================================= // CAVolumeCurve //============================================================================= class CAVolumeCurve { // Constants public: enum { kLinearCurve = 0, kPow1Over3Curve = 1, kPow1Over2Curve = 2, kPow3Over4Curve = 3, kPow3Over2Curve = 4, kPow2Over1Curve = 5, kPow3Over1Curve = 6, kPow4Over1Curve = 7, kPow5Over1Curve = 8, kPow6Over1Curve = 9, kPow7Over1Curve = 10, kPow8Over1Curve = 11, kPow9Over1Curve = 12, kPow10Over1Curve = 13, kPow11Over1Curve = 14, kPow12Over1Curve = 15 }; // Construction/Destruction public: CAVolumeCurve(); virtual ~CAVolumeCurve(); // Attributes public: UInt32 GetTag() const { return mTag; } void SetTag(UInt32 inTag) { mTag = inTag; } SInt32 GetMinimumRaw() const; SInt32 GetMaximumRaw() const; Float32 GetMinimumDB() const; Float32 GetMaximumDB() const; void SetIsApplyingTransferFunction(bool inIsApplyingTransferFunction) { mIsApplyingTransferFunction = inIsApplyingTransferFunction; } UInt32 GetTransferFunction() const { return mTransferFunction; } void SetTransferFunction(UInt32 inTransferFunction); // Operations public: void AddRange(SInt32 mMinRaw, SInt32 mMaxRaw, Float32 inMinDB, Float32 inMaxDB); void ResetRange(); bool CheckForContinuity() const; SInt32 ConvertDBToRaw(Float32 inDB) const; Float32 ConvertRawToDB(SInt32 inRaw) const; Float32 ConvertRawToScalar(SInt32 inRaw) const; Float32 ConvertDBToScalar(Float32 inDB) const; SInt32 ConvertScalarToRaw(Float32 inScalar) const; Float32 ConvertScalarToDB(Float32 inScalar) const; // Implementation private: typedef std::map CurveMap; UInt32 mTag; CurveMap mCurveMap; bool mIsApplyingTransferFunction; UInt32 mTransferFunction; Float32 mRawToScalarExponentNumerator; Float32 mRawToScalarExponentDenominator; }; #endif