CLAM Namespace Reference

Namespaces
namespace	AudioCodecs
	This namespace includes classes to support different audio file formats.
namespace	Hidden
Classes
class	AudioFile
class	AudioFileSource
class	AudioFileTarget
class	EAudioFileCodec
class	EAudioFileFormat
class	EAudioFileEncoding
class	EAudioFileEndianess
class	AudioFileHeader
class	AudioInFilename
class	AudioOutFilename
class	AudioTextDescriptors
class	AudioFileMemoryLoader
class	MonoAudioFileReader
class	MonoAudioFileReaderConfig
	Configuration class for the CLAM::MonoAudioFileReader processing object. More...
class	MonoAudioFileWriter
class	MonoAudioFileWriterConfig
	Configuration class for the CLAM::MonoAudioFileWriter processing object. More...
class	MultiChannelAudioFileReader
class	MultiChannelAudioFileReaderConfig
class	MultiChannelAudioFileWriter
class	MultiChannelAudioFileWriterConfig
	Configuration class for the CLAM::MultiChannelAudioFileWriter processing object. More...
class	Component
	Abstract class for objects that can have subitems to be stored on a storage. More...
class	DynamicType
	This class implements a type that is dynamic. More...
class	ErrFactory
	Error type thrown by Factory classes (Factory, FactoryRegistry). More...
class	Factory
	Factory usage example. More...
class	FactoryRegistrator
	This class provides a convenient way to add items (creators) into a factory. More...
class	Polymorphic
	This class is an utility class to hold polymorphic pointers as attributes on DynamicTypes and simplify the problem of the XML Loading of abstract XML Schema types. More...
class	ProcessingFactory
class	ProcessingData
	Interface classe for every concrete processing data (data that flows through the processing objs. More...
class	ProcessingDataConfig
	Base class of ProcessingData settings, all the configurations of ProcessingData objects will be derived of this. More...
class	ProcessingDataPlugin
class	Audio
	Audio class with the Data Buffer, information about it (SampleRate, BeginTime), and methods to insert and get Audio chunks. More...
class	EnvelopeConfig
	Configuration class for Envelope data objects. More...
class	Envelope
	Envelope class. More...
class	Frame
	Processing Data class to encapsulate a frame and all its related information. More...
class	Fundamental
	Class Fundamental, used to manage the bins candidates to be fundamental frequencies, and their errors. More...
class	LPModel
class	MelCepstrum
class	MelSpectrum
class	Segment
	Processing Data class to encapsulate a CLAM segment. More...
class	SpectralPeak
	Class SpectralPeak is a basic spectral domain Processing Data class. More...
class	SpectralPeakArray
	This processing data class offers an interface for storing an array of spectral peaks while maintaining efficient data access. More...
class	Spectrum
	Spectrum is a ProcessingData class that allows the following representations: Mag/Phase, Complex, Polar and Break Point Function (BPF). More...
class	SpectrumConfig
	The Spectrum configuration object. More...
struct	SpecTypeFlags
	This class tells which formats are instantiated in a Spectrum. More...
class	AudioDescriptors
class	DescriptorTmpl
	Abstract class for all descriptors. More...
class	EnvelopeDescriptors
class	FrameDescriptors
class	MediaTime
	Media Time type definition * This type propose a flexible way of defining * the temporal location of an audio segment * Types: {begin, end}, {begin, duration} * This type is thought to be used to define * some kind of probability when defining segment* boundaries *. More...
class	Melody
	class Melody, used to store the melodic description of an AudioSegment @see SegmentDescriptors @see FFHDescriptors @see DistributionDescriptors @see Key More...
class	MIDIMelody
	class Melody, used to store the melodic description of a MIDI stream/file @see SegmentDescriptors More...
class	MIDINote
	Used to store note information coming from a MIDI stream/file. More...
class	MIDIEvent
class	MIDITrack
class	MIDISong
class	Note
	Used to store note information. More...
class	EPitch
class	PitchNote
	Pitch note type definition = pitch + octave. More...
class	MorphologicalFrameDescriptors
class	MorphologicalSegmentDescriptors
class	PeriodogramPeak
class	AttributePool
	A container for the values for a single attribute along the scope. More...
class	AbstractAttribute
	Defines the interface for an Attribute definition in a DescriptionScheme. More...
class	Attribute
	This class is the concrete implementation for AbstractAttribute for a given type of attributes. More...
class	DescriptionScheme
	The description scheme defines the set of attributes (Attribute) to be used for feature extraction systems. More...
class	SchemaError
	A description scope defines a set of attributes which have the same ocurrences. More...
class	DescriptionScope
class	Hook
class	ReadHook
class	ReadRangedHook
class	WriteHook
class	DescriptionDataPool
	Contains the extracted data for a given description process. More...
class	ScopePool
	A container for the attributes values along the differents contexts of a single scope. More...
class	SegmentDescriptors
class	SpectralDescriptors
class	SpectralPeakDescriptors
class	ContiguousSegmentation
class	DiscontinuousSegmentation
class	Segmentation
class	UnsizedSegmentation
class	ErrAssertionFailed
	The exception thrown when an assertion fails. More...
class	DefaultTypeInfo
class	BasicCTypeInfo
	C native types TypeInfo base class. More...
class	ContainerTypeInfo
class	TypeInfo
class	Err
	Base class for the exception handling classes. More...
class	ErrDynamicType
	Derived class of the Err base class Handles DynamicType errors. More...
class	ErrFormat
	Derived class of the Err base class Handles format errors. More...
class	ErrOpenFile
	Derived class of the Err base class Handles errors in files openings. More...
class	ErrOutOfMemory
	Derived class of the Err base class Handles memories errors. More...
class	ErrProcessingObj
	Derived class of the Err base class Handles errors in Processing Object Routines. More...
class	ErrSoundFileIO
class	UnavailableSoundFile
class	UnsupportedSoundFileSampleEncoding
class	UnsupportedSoundFileFormat
class	LockError
class	ThreadResourceError
class	BinaryControlOpConfig
class	BinaryControlOp
class	ControlArray
	This class wrapps a vector (array) of Controls and gives its Controls automatic names at construction. More...
class	ControlConfig
class	InControl
	An InControl receives values of the template type in an asyncronous pace. More...
class	InControlBase
	Base class for an inwards control connector. More...
class	InControlPublisher
class	Mapping
class	MappingFactory
class	ValueToRatioMapping
class	ValueToRatioMappingFactory
class	NoteToFreqMapping
class	NoteToFreqMappingFactory
class	LinearMapping
class	LinearMappingFactory
class	OutControl
	Processing typed out control template class. More...
class	OutControlBase
	Base class for an outwards control connector. More...
class	OutControlPublisher
class	TypedInControl
	Transition class, use InControl instead. More...
class	TypedOutControl
class	JACKNetworkPlayer
class	MonoOfflineNetworkPlayer
class	OfflineNetworkPlayer
class	PANetworkPlayer
class	BasicFlowControl
class	ConnectionDefinitionAdapter
class	FlowControl
class	InformationTextAdapter
class	NaiveFlowControl
class	InformationText
class	Network
class	NetworkPlayer
	A NetworkPlayer is an object that controls the playback of a Network providing a high level transport like interface. More...
class	ProcessingDefinitionAdapter
class	PushFlowControl
class	AudioInPort
class	AudioInPortPublisher
class	AudioOutPort
class	AudioOutPortPublisher
class	InPortBase
class	InPort
class	InPortPublisher
class	OutPortBase
class	OutPort
class	OutPortPublisher
class	PhantomBuffer
class	ReadingRegion
class	Region
class	StdList
	This declaration is necessary for VC7 compatibility. More...
class	StdVector
class	StreamImpl
class	StreamImpl< Token, PhantomBuffer >
class	WritingRegion
struct	StaticCycleBranch
class	StaticFlowControl
class	AudioWindowing
	Processing class for performing a STFT. More...
class	AudioWindowingConfig
class	CepstralTransformConfig
class	CepstralTransform
	This class performs the cepstral transform on a set of filterbank coefficients in order to obtain the corresponding Mel Frequency Cepstral Coefficients (MFCC). More...
class	CircularShift
	This Processing class takes an input audio buffer and shifts it to get zero-phase conditions in the STFT. More...
class	CircularShiftConfig
struct	STrajectory
class	CleanTracks
class	CleanTracksConfig
	Config class for the CleanTracks Processing. More...
class	DescriptorComputation
	This Processing class only calls the Compute operation of Descriptor passed to the Do. More...
class	DescriptorComputationConfig
class	ERB_SpaceGen
class	ERB_SpaceGenConfig
class	FFT
class	FFT_base
	Abstract base class for FFT classes. More...
class	FFT_fftw3
	Implementation of the FFT using the Fastest Fourier Transform of the West version 3. More...
class	FFT_numrec
	Implementation of the FFT using the algorithm in Numerical Recipies in C. More...
class	FFT_ooura
	Implementation of the FFT using the algorithm from Takuya OOURA in C. More...
class	FFTConfig
	Configuration class for FFT classes. More...
class	FundFreqDetect
	This class estimates a fundamental frequency value in the spectral domain for one single spectral Frame. More...
class	FundFreqDetectConfig
	Config class for FundFreqDetect Processing. More...
class	LPCConfig
class	LPC_AutoCorrelation
class	MelFilterBankConfig
class	MelFilterBank
	This class performs filterbank analysis for Mel Frequency Cepstrum Coefficients (MFCC) computation. More...
class	Segmentator
struct	TDescriptorsParams
class	SegmentatorConfig
	Config class for the Segmentator Processing. More...
struct	SGuide
	Config class for the SinTracking Processing. More...
class	SinTracking
	Processing which does sinusoidal peak tracking (or continuation). More...
class	SinTrackingConfig
	Config class for the SinTracking Processing. More...
class	SMSAnalysis
	Class that encapsulates all the building blocks of the SegmentAnalysis example. More...
class	SMSAnalysisConfig
class	SMSAnalysisCore
	Class that encapsulates all the building blocks of the SegmentAnalysis example. More...
class	SpectralAnalysis
	Processing class for performing a STFT. More...
class	SpectralAnalysisConfig
	Configuration class for Spectral Analysis class It includes specific parameters: HopSize, ZeroPadding, Sampling Rate and FFTSize. More...
class	SpectralEnvelopeExtract
	Configuration class for SpectralEnvelopeExtract objects. More...
class	SpectralEnvelopeExtractConfig
	Config class for the SpectralEnvelopeExtract Processing. More...
class	SpectralPeakDetect
	This class is dedicated to find magnitude SpectralPeaks in a given spectral frame. More...
class	SpectralPeakDetectConfig
	Configuration class for SpectralPeakDetect objects. More...
class	TonalAnalysisConfig
class	TonalAnalysis
class	WindowGenerator
	This class can be used for generating Windows and for zeropadding the windowed data. More...
class	EWindowNormalize
class	WindowGeneratorConfig
class	ZeroPadderConfig
class	ZeroPadder
class	AudioAmplifierConfig
	AudioAmplifier configuration object. More...
class	AudioAmplifier
	Time-domain audio gain. More...
class	AudioBufferAmplifier
	Time-domain audio gain. More...
class	AudioBufferMixer
class	AudioMixerConfig
class	AudioMixer
class	BinaryAudioOpConfig
class	BinaryAudioOp
class	FrameAdderConfig
class	FrameAdder
	This class performs the interpolation of two Frame processing data objects. More...
class	FrameInterpConfig
class	FrameInterpolator
	This class performs the interpolation of two Frame processing data objects. More...
class	PeaksAdConfig
class	SpectralPeakArrayAdder
	This class performs the interpolation of two SpectralPeakArray processing data objects. More...
class	PeaksInterpConfig
class	SpectralPeakArrayInterpolator
	This class performs the interpolation of two SpectralPeakArray processing data objects. More...
class	SpecAdderConfig
class	SpectrumAdder
	This class performs the sum of N Spectrum processing data objects. More...
class	SpecAdder2Config
class	SpectrumAdder2
	This calss performs the sum of two Spectrum processing data objects. More...
class	SpecInterpConfig
class	SpectrumInterpolator
	This calss performs the interpolation of two Spectrum processing data objects. More...
class	SpectrumProduct
	This class performs the product of two Spectrum processing data objects. More...
class	SpecSubstracter2Config
class	SpectrumSubstracter2
	This calss performs the substraction of two Spectrum processing data objects. More...
class	AudioBufferSink
class	AudioBufferSource
class	AudioIn
	This class is the interface to an input of an AudioDevice. More...
class	AudioIOConfig
	Configuration of the AudioIn and AudioOut classes. More...
class	AudioOut
	This class is the interface to an output of an AudioDevice. More...
class	AudioSink
class	AudioSource
class	ConfigurationVisitor
class	ConfigurationGetter
	A DynamicType attribute visitor that builds a widget for each attribute using a user interface builder. More...
class	ConfigurationSetter
	A DynamicType attribute visitor that takes the attribute values from an a 'Builder' which implements the RetrieveValue. More...
class	InControlRegistry
class	InPortRegistry
class	NullProcessingConfig
class	OutControlRegistry
class	OutPortRegistry
class	Processing
	The base class for all the CLAM processing object classes. More...
class	ProcessingComposite
	Abstract class for processing object agregates. More...
class	ProcessingConfig
	This is an abstract class which serves as interface for configuration classes used as processing object construction arguments, which must derive from it. More...
class	TopLevelProcessingConfig
class	TopLevelProcessing
	Top level processing object composite. More...
class	AutoPannerConfig
class	AutoPanner
class	Control2DataConfig
	Configuration for the Control2Data PO. More...
class	Control2Data
	This processing object is mainly an aggregate of input control data It works by asynchronously receiving messages, keeping them enqueued and synchronously converting them to a Processing Data, at Do() time. More...
class	ControlComparisonConfig
class	ControlComparison
class	ControlFadeConfig
class	ControlFade
class	ControlIntervalMapperConfig
class	ControlIntervalMapper
class	ControllerConfig
	Configuration for the Controller PO. More...
class	Controller
	This processing object is mainly an aggregate of out controls, that can be connected with other POs in controls, as usual. More...
class	ControlMapperConfig
class	ControlMapper
class	ControlPiano
class	ControlPrinterConfig
class	ControlPrinter
class	EnumTypedTypes
class	ControlPrinterTypedConfig
class	ControlPrinterTyped
class	ControlScalerConfig
class	ControlScaler
class	ControlSelectorConfig
class	ControlSelector
class	ControlSumConfig
class	ControlSum
class	ControlTraceEvent
class	ControlTraceData
class	ControlTraceInFilename
class	ControlTraceReaderConfig
class	ControlTraceReader
class	ControlTraceOutFilename
class	ControlTraceWriterConfig
class	ControlTraceWriter
class	FlagControlConfig
class	FlagControl
class	Fundamental2ControlConfig
class	Fundamental2Control
class	OutControlSenderConfig
class	OutControlSender
class	ControlSinkConfig
class	ControlSink
class	ControlSourceConfig
class	ControlSource
class	ADSRConfig
class	ADSR
class	DispatcherConfig
class	Dispatcher
class	Instrument
class	OscillatorConfig
class	Oscillator
class	EOscillatorControls
class	SimpleOscillatorConfig
class	SimpleOscillator
class	EWaveType
class	WaveFunctor
class	WaveGeneratorConfig
class	WaveGenerator
class	Fund2MIDI
	Converts fundamental to a MIDI note value. More...
class	MIDI2Melody
	This processing is a particular control-to-data converter that takes in MIDI control events and converts them into a MIDIMelody processing data. More...
class	MIDIClockerConfig
	Configuration of the MIDIClocker class. More...
class	MIDIClocker
	This class is the interface to an input of an MIDIDevice. More...
class	MIDIDispatcherConfig
class	MIDIDispatcher
class	MIDIFileIOConfig
class	MIDIFileReader
class	MIDIFileWriter
class	MIDIIn
	This class is the interface to an input of an MIDIDevice. More...
class	MIDIInControl
class	MIDIIOConfig
	Configuration of the MIDIIn and MIDIOut classes. More...
class	MIDIKeyboardConfig
class	MIDIKeyboard
class	MIDIOut
	This class is the interface to an input of an MIDIDevice. More...
class	MIDIOutControl
class	PortMonitor
	A processing that allows other (GUI) thread to monitor a port in a thread safe way. More...
class	PeaksPortMonitor
class	SinTracksPortMonitor
class	SpectrumPortMonitor
class	SpecgramPortMonitor
class	FundamentalPortMonitor
class	FundTrackPortMonitor
class	AudioPortMonitor
class	AudioBuffPortMonitor
class	LadspaLibrary
	A LadspaLibrary represents a pool of ladspa plugins descriptors. More...
class	LadspaNetworkExporter
class	LadspaProcessingExporter
class	LadspaWrapper
class	LadspaWrapperBuffer
class	LadspaWrapperCreator
class	LadspaWrapperBufferCreator
class	BufferedSDIFFileReader
	BufferedSDIFFileReader is an SDIFFileReader that preloads some SDIF frames into an internal buffer so that real-time audio applications won't stall while waiting for disk reading operations. More...
class	DataUtil
	This class simply holds a few miscellaneous utility methods that are used by multiple classes, but don't fit very well in any class. More...
class	ELoopPointUnits
	PhaseGeneration Enumeration to use for specifying the type of phase generation used. More...
class	LoopingSDIFFileReader
	This class extends the length of an SDIFFile indefinitely by looping between its frames. More...
class	SampleMetadata
	This class should be used to hold meta information about a sound sample. More...
class	SDIFFileReader
class	SDIFIn
class	InSDIFFilename
class	SDIFInConfig
class	SDIFInStreaming
class	SDIFOutConfig
class	SDIFOut
class	SimpleLoopMetadata
	This object represents the start and end points of a loop. More...
class	EPhaseGeneration
	PhaseGeneration Enumeration to use for specifying the type of phase generation used. More...
class	IFFT
class	IFFT_base
	Abstract base class for IFFT classes. More...
class	IFFT_fftw3
	Implementation of the IFFT using the Fastest Fourier in the West version 3. More...
class	IFFT_ooura
	Implementation of the IFFT using the algorithm from Takuya OOURA in C. More...
class	IFFTConfig
	Config class for the IFFT Processing. More...
class	OverlapAdd
	Configuration class for Overlapp Add Processing. More...
class	OverlapAddConfig
	Config class for the OverlapAdd Processing. More...
class	PhaseManagement
	The PhaseManagement Class takes care about either. More...
class	PhaseManagementConfig
	Config class for the PhaseManagement Processing. More...
class	SinusoidalSynthesis
	This is a processing object class that performs a sinusoidal resynthesis given a set of spectral peaks. More...
class	SMSSynthesis
	This is the processing object class we are using to group several other processing objects. More...
class	SMSSynthesisConfig
class	SpectralSynthesis
	This is the processing object class we are using to group several other processing objects. More...
class	SpectralSynthesisConfig
	Config class for the SpectralSynthesis Processing. More...
class	SynthSineSpectrum
	Configuration class for the SynthSineSpectrum Processing. More...
class	SynthSineSpectrumConfig
	Config class for the SynthSineSpectrum Processing. More...
class	IntervalAmplitudeAverages
	Internal class. More...
class	EnvExtractorConfig
class	EnvelopeExtractor
class	EnvelopeGeneratorConfig
class	EnvelopeGenerator
class	EnvModulatorConfig
class	EnvelopeModulator
class	FDCombFilter
	Basic Frequency domain Comb Filter. More...
class	EFDFilterGenControls
class	EFDFilterType
	Simple filter types, more to be added. More...
class	FDFilterGenConfig
	Configuration class for SpectralFilterGen class. More...
class	FDFilterGen
	Frequency Domain Filter Generator. More...
class	NormalizationConfig
	Normalization is a CLAM implementation of 3 normalization's algorithms. More...
class	Normalization
class	FrameTransformation
class	FrameTransformationTmpl
class	FrameTransformationConfig
class	SegmentSMSHarmonizer
class	SegmentSMSMorph
class	SegmentSMSMorphConfig
class	SegmentSMSTimeStretch
class	SegmentSMSTimeStretchConfig
class	SegmentTransformation
class	SegmentTransformationConfig
	Configuration class for all SegmentTransformations. More...
class	SMSDeesser
class	SMSFreqShift
class	SMSGenderChange
class	SMSHarmonizer
	Many voices harmonizer using the SMS model. More...
class	SMSHarmonizerConfig
	The Harmonizer configuration object. More...
class	SMSMorph
	Morph using the SMS model. More...
class	SMSMorphConfig
class	SMSOddEvenHarmonicRatio
class	SMSPitchDiscretization
class	SMSPitchShift
	Pitch shift with timbre preservation using the SMS model. More...
class	SMSResidualGain
class	SMSSineFilter
class	SMSSinusoidalGain
class	SMSSpectralShapeShift
	Pitch shift with timbre preservation using the SMS model. More...
class	SMSTimeStretch
	Time Stretch using the SMS model. More...
class	SMSTimeStretchConfig
class	SMSTransformationChain
	Using Segment as the type for * input and output ports. More...
class	SMSTransformationChaineeConfig
	Special Processing config that can be used inside a SMSTransformationChainConfig. More...
class	SMSTransformationChainConfig
	Configuration for a SMSTransformationChain. More...
class	SMSTransformationChainIO
	Pitch shift with timbre preservation using the SMS model. More...
class	SMSTranspose
class	ThreeBandCompressor
	Limits the spectrum magnitude to different threshold for each of three bands. More...
class	ThreeBandFilter
	Amplifies the spectrum magnitude to different gain for each of three bands. More...
class	ThreeBandGate
class	ThreeBandAM
class	Deesser
class	FreqShift
class	HumRemover
class	NoSpectralTransformation
class	OscillatingSpectralNotch
class	Partializer
class	Peakalizer
class	RandomPhase
class	Robotization
class	SampleAndHold
class	SpectralAmplitudeModulation
class	SpectralAverage
class	SpectralCombDelta
class	SpectralCombTriang
class	SpectralDelay
class	SpectralExciter
class	SpectralFocus
	Pitch shift with timbre preservation using the SMS model. More...
class	SpectralGate
class	SpectralLimiter
class	SpectralNotch
class	SpectralPhaseModulation
class	SpectralReject
class	SpectralReverse
class	SpectralRingModulation
class	SpectralShapeShift
	Pitch shift with timbre preservation using the SMS model. More...
class	SpectralSpread
	Pitch shift with timbre preservation using the SMS model. More...
class	Vocoder
class	SpectralEnvelopeApplyConfig
	Configuration class for SpectralEnvelopeApply objects. More...
class	SpectralEnvelopeApply
	Applies an existing spectral envelope to incoming spectral peaks or spectrum. More...
class	TokenDelayConfig
	Configuration of the TokenDelay processing object. More...
class	TokenDelay
	A Processing Object that delays a certain number of ProcessingDataObjects wherever the specific object it is. More...
class	Array
struct	Pow
struct	Pow< 1 >
struct	Pow< 0 >
class	Power
	Binary Operator for use with std::accumulate, for computing Sum(x(i)^n). More...
class	NoPowerTmpl
	Binary Operator for use with std::accumulate, for computing Sum(x(i)^1). More...
class	SquareTmpl
	Binary Operator for use with std::accumulate, for computing Sum(x(i)^2). More...
class	CubeTmpl
	Binary Operator for use with std::accumulate, for computing Sum(x(i)^3). More...
class	WeightedPower
	Binary Operator for use with std::accumulate, for computing Sum(i*x(i)^n). More...
class	PoweredProduct
	Binary Operator for use with std::inner_product. More...
class	WeightedNoPowerTmpl
	Binary Operator for use with std::accumulate, for computing Sum(i*x(i)^1). More...
class	WeightedSquareTmpl
	Binary Operator for use with std::accumulate, for computing Sum(i*x(i)^2). More...
class	WeightedCubeTmpl
	Binary Operator for use with std::accumulate, for computing Sum(i*x(i)^3). More...
class	BiasedPower
	Binary Operator for use with std::accumulate, for computing Sum((x(i)-k)^n). More...
class	ProductTmpl
	Binary Operator for use with std::accumulate, for computing Product(x(i)). More...
class	BaseMemOp
	Class used as base for all operators with memory, useful to define array of operators. More...
class	PoweredSum
	Class Function that computes Sum(x(i)^n) using std::accumulate and Power<T,s> BinaryOp It also has associated memory so operation is not performed more than necessary. More...
class	SumTmpl
	Class Function that computes Sum(x(i)) using std::accumulate and NoPower<T> BinaryOp. More...
class	SquaredSumTmpl
	Class Function that computes Sum(x(i)^2) using std::accumulate and Square<T> BinaryOp. More...
class	CubedSumTmpl
	Class Function that computes Sum(x(i)^3) using std::accumulate and Cube<T> BinaryOp. More...
class	LogPlusTmpl
	Binary Operator for use with std::accumulate, for computing Product(x(i)). More...
class	LogSumTmpl
	Class Function for computing logarithmic sum of all data in vector using. More...
class	InnerProductTmpl
	Class Function for computing product of all data in vector. More...
class	WeightedPoweredSum
	Class Function that computes Sum(i*x(i)^n) using std::accumulate and WeightedPower<T,s> BinaryOp It also has associated memory so operation is not performed more than necessary. More...
class	CrossWeightedPoweredSum
	Class Function that computes Sum(x(i)^n * y(i)) using std::accumulate and WeightedPower<T,s> BinaryOp It also has associated memory so operation is not performed more than necessary. More...
class	WeightedSumTmpl
	Class Function that computes Sum(i*x(i)) using std::accumulate and WeightedNoPower<T> BinaryOp. More...
class	WeightedSquaredSumTmpl
	Class Function that computes Sum(i*x(i)^2)using std::accumulate and WeightedSquare<T> BinaryOp. More...
class	WeightedCubedSumTmpl
	Class Function that computes Sum(i*x(i)^3) using std::accumulate and WeightedCube<T> BinaryOp. More...
class	Moment
	Class Function that computes 'oth' order Moment using PoweredSum Class Function. More...
class	CenterOfGravity
	Class Function that computes 'oth' order Center of Gravity using WeightedPoweredSum Class Function. More...
class	CrossCenterOfGravity
	Special CenterOfGravity using 2ond sequence as indexing sequence. More...
class	CentroidTmpl
	Centroid is 1st order center of gravity. More...
class	MeanTmpl
	Mean is 1st order Moment. More...
class	EnergyTmpl
	Energy is just the squared sum. More...
class	RMSTmpl
	RMS is the square root of the Energy. More...
class	GeometricMeanTmpl
	Class Function that computes Geometric Mean using InnerProduct class function. More...
class	BiasedPoweredSum
	Class Function that computes Sum((x(i)-mean)^n) using std::accumulate and BiasedPower<T,s> BinaryOp It also has associated memory so operation is not performed more than necessary. More...
class	CentralMoment
	Class Function that computes 'oth' order CentralMoment using BiasedPoweredSum Class Function. More...
class	StandardDeviationTmpl
	Class Function to compute StandardDeviation. More...
class	SkewTmpl
	Class Function that computes Skewness using Standard Deviation and 3rd order central moment. More...
class	KurtosisTmpl
	Class Function that computes Kurtosis Excess using Variance and 4th order central moment. More...
class	ComplexMin
	Binary Operator for use with std::accumulate, for computing Min(x(i)). More...
class	ComplexMinElement
	Class Function that computes Min(x(i)) using std::accumulate and ComplexMin<T> BinaryOp It also has associated memory so operation is not performed more than necessary. More...
class	ComplexMax
	Binary Operator for use with std::accumulate, for computing Max(x(i)). More...
class	ComplexMaxElement
	Class Function that computes Max(x(i)) using std::accumulate and ComplexMax<T> BinaryOp It also has associated memory so operation is not performed more than necessary. More...
class	BPFTmpl
class	Multiply
class	Add
class	Complex
class	ComplexToPolarCnv
class	DirectoryName
	This class is a base class for configuration fields representing file names. More...
class	IllegalValue
class	Enum
	Instances of this class represents objects that can adquire a symbolic value from a limited set of symbolic values. More...
class	Filename
	This class is a base class for configuration fields representing file names. More...
class	InFilename
	Input file name configuration field. More...
class	OutFilename
	Output file name configuration field. More...
class	FlagsBase
	Abstract class from which any Flag<N> instantiation is derived. More...
class	Flags
	Instances of this class represents objects containing a set of booleans values (flags) that can be accessed by their symbolic name. More...
class	EInterpolation
	Interpolation Enumeration to use for specifying the type of interpolation used. More...
class	EScale
	Interpolation Enumeration to use for specifying the type of scale used (linear or log). More...
class	EWindowType
class	IndexArray
class	List
class	MatrixTmpl
struct	O
	Auxiliary class to define the order of a moment at compile time. More...
class	PointTmpl
class	Polar
class	RangeView
class	RulerTicks
class	Search
class	SearchArray
class	GreaterThan
class	StatMemory
	An StatMemory may hold a T value and remembers whether it has been set or is not initialized. More...
class	StatsTmpl
	Class to hold basic statistics related to an array of arbitrary data. More...
class	TabFunct
	Precalculated (tabulated) functor, for dealing with efficient version of expensive functions (with its associated cost in space and precision). More...
class	Text
	This class represents an string that can contain any kind of separators. More...
class	Storable
	Interface for objects to be stored on a Storage. More...
class	ErrNotFound
class	Storage
	The abstract class for storages. More...
class	BasicXMLable
	Abstract class that defines some common implementation issues for many XMLables that contains as member variables the XML name and whether is an XML element or not. More...
class	DomDocumentHandler
	This class subclasses from the proper DomDocumentHandler depending on the build time configuration 'xmlbackend' option. More...
class	LibXmlDomDocumentHandler
	XML implementation backend for the libxml++ library. More...
class	LibXmlDomReader
	Controls the libxml++ DOM parser. More...
class	LibXmlDomReadingContext
	Keeps the booking when loading one LibXml DOM single element into CLAM data. More...
class	LibXmlDomWriter
	Controls the libxml++ DOM serializer. More...
class	LibXmlDomWritingContext
	Keeps the booking when mapping CLAM data into a single libxml++ DOM element. More...
class	NullDomDocumentHandler
	Dummy implementation of a DomDocumentHandler when XML is disabled. More...
class	NullDomReadingContext
	Dummy implementation of a DomDocumentReadingContext when XML is disabled. More...
class	NullDomWritingContext
	Dummy implementation of a DomDocumentWritingContext when XML is disabled. More...
class	XercesDomDocumentHandler
	XML implementation backend for the Xerces-C library. More...
class	XercesDomReader
	Controls the Xerces-C DOM parser. More...
class	XercesDomReadingContext
	Keeps the booking when loading a single Xerces-C DOM element into CLAM data. More...
class	XercesDomWriter
	Controls the Xerces-C DOM serializer. More...
class	XercesDomWritingContext
	Keeps the booking when mapping CLAM data into a single Xerces-C DOM element. More...
class	XercesLocal2Unicode
	Converts local encoding char* into Xerces Unicode String. More...
class	XercesUnicode2Local
	Converts Xerces Unicode String into local encoding char*. More...
class	XercesInitializer
	Ensures that Xerces-C library initialization and termination occurs once and only when needed. More...
class	XMLable
	Interface for objects to be stored on a XMLStorage. More...
class	XMLAdapter
	This class adapts to the XMLable interface any basic object. More...
class	XMLArrayAdapter
	This class adapts to the XMLable interface any array of basic objects. More...
class	XMLComponentAdapter
	This class adapts to the XMLable interface any object that is a CLAM::Component. More...
class	XMLIterableAdapter
	This class adapts to the XMLable interface any STL like container of basic objects or CLAM::Component's. More...
class	XmlFragment
	This is the first scoped object you should create for a XML fragment. More...
class	XmlContent
	An scoped XML writer object inserting plain content to the current XML level. More...
class	XmlElement
	An scoped XML writer object that opens a new element on construction and closes it on destruction. More...
class	XmlAttribute
	An scoped XML writer object that inserts on construction an XML atribute to the last open XML element. More...
class	XmlStorage
	Provides XML format storage for CLAM Component's. More...
class	XmlStorageErr
class	XmlWriteContext
	This class provides primitives to write an XML document to a target stream and to keep track of the writting state. More...
class	Application
class	AudioApplication
class	BaseAudioApplication
class	ProcessingKernel
class	Win32ConsoleApp
class	FileSystem
class	Condition
class	Mutex
	From the www.boost.org docs: A mutex (short for mutual-exclusion) object is used to serializes access to a resource shared between multiple threads. More...
class	TryMutex
class	TimedMutex
class	PooledThread
class	RecursiveMutex
class	RecursiveTryMutex
class	RecursiveTimedMutex
class	Thread
class	ThreadPool
	This is a simple variety of thread pool. More...
struct	xtime
class	AudioDevice
	This is the abstract base class for an audio device. More...
class	AudioDeviceList
	This abstract class allows you to retrieve a list of all available devices (strings) for a certain architecture. More...
class	AudioManager
	This class takes care of all the creation of the registration of AudioIn and AudioOut objects, and the creation of AudioDevice objects required. More...
class	AudioPlayer
class	RtAAudioDevice
class	RtAAudioDeviceList
class	MIDIDevice
	This is the abstract base class for an midi device. More...
class	MIDIDeviceList
	This abstract class allows you to retrieve a list of all available devices (strings) for a certain architecture. More...
class	MIDI
class	MIDIManager
	This class takes care of all the creation of the registration of MIDIIn and MIDIOut objects, and the creation of MIDIDevice objects required. More...
Typedefs
typedef Search< List< Frame > , Frame >	FrameSearch
typedef DescriptorTmpl< false >	Descriptor
typedef DescriptorTmpl< true >	DescriptorAbs
typedef void(*	AssertFailedHandlerType )(const char *message, const char *filename, int lineNumber)
	The type of the asserts handlers.
typedef void(*	WarningHandlerType )(const char *message, const char *filename, int lineNumber)
	The type of the warning handlers.
typedef int	TIndex
typedef int	TSize
typedef short	TInt16
typedef unsigned short	TUInt16
typedef int	TInt32
typedef unsigned int	TUInt32
typedef long long	TInt64
typedef unsigned long long	TUInt64
typedef float	TFloat32
typedef double	TFloat64
typedef unsigned char	TByte
typedef TByte	TMIDIByte
typedef TInt32	TMIDITime
typedef double	TTime
typedef float	TData
typedef BinaryControlOp < Multiply< TControlData > >	ControlMultiplier
typedef InControl< float >	FloatInControl
	Alias provided by convenience to ease the transitions to typed controls.
typedef ControlArray < FloatInControl >	InControlArray
typedef float	TControlData
	Control events type.
typedef OutControl< float >	FloatOutControl
typedef ControlArray < FloatOutControl >	OutControlArray
typedef std::pair< double, Processing * >	ProcessingAndGeometry
typedef std::list < StaticCycleBranch >	StaticCycle
typedef struct CLAM::STrajectory	TTrajectory
typedef struct CLAM::SGuide	TGuide
	Config class for the SinTracking Processing.
typedef BinaryAudioOp< Add < TData > >	AudioAdder
typedef BinaryAudioOpConfig	AudioAdderConfig
typedef BinaryAudioOp < Multiply< TData > >	AudioMultiplier
typedef BinaryAudioOpConfig	AudioMultiplierConfig
typedef Array< TData >	DataArray
typedef NoPowerTmpl	NoPower
	Typedefs.
typedef SquareTmpl	Square
typedef CubeTmpl	Cube
typedef WeightedNoPowerTmpl	WeightedNoPower
	typedefs
typedef WeightedSquareTmpl	WeightedSquare
typedef WeightedCubeTmpl	WeightedCube
typedef ProductTmpl	Product
typedef SumTmpl	Sum
typedef SquaredSumTmpl	SquaredSum
typedef CubedSumTmpl	CubedSum
typedef LogPlusTmpl	LogSum
typedef InnerProductTmpl	InnerProduct
typedef WeightedSumTmpl	WeightedSum
typedef WeightedSquaredSumTmpl	WeightedSquaredSum
typedef WeightedCubedSumTmpl	WeightedCubedSum
typedef CentroidTmpl	Centroid
typedef MeanTmpl	Mean
typedef EnergyTmpl	Energy
typedef RMSTmpl	RMS
typedef GeometricMeanTmpl	GeometricMean
typedef StandardDeviationTmpl	StandardDeviation
typedef SkewTmpl	Skew
typedef KurtosisTmpl	Kurtosis
typedef BPFTmpl< TData, TData >	BPF
typedef MatrixTmpl< TData >	Matrix
typedef PointTmpl< TData >	Point
typedef StatsTmpl	Stats
typedef XmlStorage	XMLStorage
	For maintaining compatibility with deprecated class name.
typedef void *(*	startfn )(void *)
typedef void(*	cleanfn )(void *)
typedef void *(*	pthread_start_pfunc )(void *)
typedef signed short	MY_TYPE
Enumerations
enum	{   SpectralDescBase = 150, SpectralMeanId = SpectralDescBase, SpectralGeometricMeanId = SpectralDescBase+1, SpectralEnergyId = SpectralDescBase+2,   SpectralCentroidId = SpectralDescBase+3, SpectralMoment2Id = SpectralDescBase+4, SpectralMoment3Id = SpectralDescBase+5, SpectralMoment4Id = SpectralDescBase+6,   SpectralMoment5Id = SpectralDescBase+7, SpectralMoment6Id = SpectralDescBase+8, SpectralFlatnessId = SpectralDescBase+9, SpectralKurtosisId = SpectralDescBase+10,   FrameDescBase = 175, FundamentalId = FrameDescBase, SegmentatorBase = 200, MinSegmentLenghtId = SegmentatorBase,   AudioDescriptorBase = 250, AudioMeanId = AudioDescriptorBase, AudioEnergyId = AudioDescriptorBase + 1, AudioVarianceId = AudioDescriptorBase + 2,   AudioCentroidId = AudioDescriptorBase + 3, AudioZeroCrossingRateId = AudioDescriptorBase + 4 }
enum	{   TIME_UTC = 1, TIME_TAI, TIME_MONOTONIC, TIME_PROCESS,   TIME_THREAD, TIME_LOCAL, TIME_SYNC, TIME_RESOLUTION }
Functions
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, AudioInFilename)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, AudioOutFilename)
SpectralPeak	Lin (SpectralPeak &inPeak, int scalingFactor)
	Function for changing the scale of a peak to linear, conserving data consistency.
SpectralPeak	Lin (SpectralPeak &inPeak)
SpectralPeak	DB (SpectralPeak &inPeak, int scalingFactor=20)
	Function for changing the scale of a peak to log, conserving data consistency.
void	AssertProperSize (TSize size, DataArray &buffer)
void	Polar2MagPhase (const Array< Polar > &polarBuffer, DataArray &magBuffer, DataArray &phaseBuffer)
void	Complex2MagPhase (const Array< Complex > &complBuffer, DataArray &magBuffer, DataArray &phaseBuffer)
void	BPF2MagPhase (const BPF &magBpf, const BPF &phaseBpf, DataArray &magBuffer, DataArray &phaseBuffer, TSize nBins, TData specRange)
void	Log2LinearMagnitude (const DataArray &logBuffer, DataArray &linBuffer)
void	Log2LinearMagnitude (DataArray &dataBuffer)
void	Complex2LogMagPhase (const Array< Complex > &src, DataArray &destMag, DataArray &destPhase)
void	Linear2LogMagnitude (const DataArray &linearBuffer, DataArray &logData)
void	Linear2LogMagnitude (DataArray &dataBuffer)
void	Complex2Polar (const Array< Complex > &, Array< Polar > &)
void	Polar2Complex (const Array< Polar > &, Array< Complex > &)
void	MagPhase2Polar (const DataArray &, const DataArray &, Array< Polar > &)
void	MagPhase2Complex (const DataArray &, const DataArray &, Array< Complex > &)
AudioDescriptors	operator* (const AudioDescriptors &a, TData mult)
AudioDescriptors	operator* (TData mult, const AudioDescriptors &a)
AudioDescriptors	operator* (const AudioDescriptors &a, const AudioDescriptors &b)
AudioDescriptors	operator+ (const AudioDescriptors &a, const AudioDescriptors &b)
AudioDescriptors	operator- (const AudioDescriptors &a, const AudioDescriptors &b)
AudioDescriptors	operator/ (const AudioDescriptors &a, TData div)
template<>
AudioDescriptors	CLAM_min (const AudioDescriptors &a, const AudioDescriptors &b)
template<>
AudioDescriptors	CLAM_max (const AudioDescriptors &a, const AudioDescriptors &b)
FrameDescriptors	operator* (const FrameDescriptors &a, const FrameDescriptors &b)
FrameDescriptors	operator+ (const FrameDescriptors &a, const FrameDescriptors &b)
FrameDescriptors	operator* (const FrameDescriptors &a, TData mult)
FrameDescriptors	operator* (TData mult, const FrameDescriptors &a)
FrameDescriptors	operator- (const FrameDescriptors &a, const FrameDescriptors &b)
FrameDescriptors	operator/ (const FrameDescriptors &a, TData div)
template<>
FrameDescriptors	CLAM_max (const FrameDescriptors &a, const FrameDescriptors &b)
template<>
FrameDescriptors	CLAM_min (const FrameDescriptors &a, const FrameDescriptors &b)
DataArray	Add (DataArray &a, DataArray &b)
DataArray	Multiply (TData &factor, DataArray &a)
DataArray	Multiply (DataArray &a, DataArray &b)
SpectralDescriptors	operator* (const SpectralDescriptors &a, TData mult)
SpectralDescriptors	operator* (const SpectralDescriptors &a, const SpectralDescriptors &b)
SpectralDescriptors	operator/ (const SpectralDescriptors &a, TData div)
SpectralDescriptors	operator+ (const SpectralDescriptors &a, const SpectralDescriptors &b)
SpectralDescriptors	operator* (TData mult, const SpectralDescriptors &a)
template<>
SpectralDescriptors	CLAM_max (const SpectralDescriptors &a, const SpectralDescriptors &b)
template<>
SpectralDescriptors	CLAM_min (const SpectralDescriptors &a, const SpectralDescriptors &b)
SpectralPeakDescriptors	operator* (const SpectralPeakDescriptors &a, TData mult)
SpectralPeakDescriptors	operator* (const SpectralPeakDescriptors &a, const SpectralPeakDescriptors &b)
SpectralPeakDescriptors	operator+ (const SpectralPeakDescriptors &a, const SpectralPeakDescriptors &b)
SpectralPeakDescriptors	operator/ (const SpectralPeakDescriptors &a, TData div)
SpectralPeakDescriptors	operator* (TData mult, const SpectralPeakDescriptors &a)
template<>
SpectralPeakDescriptors	CLAM_max (const SpectralPeakDescriptors &a, const SpectralPeakDescriptors &b)
template<>
SpectralPeakDescriptors	CLAM_min (const SpectralPeakDescriptors &a, const SpectralPeakDescriptors &b)
std::string	demangleSymbol (const std::string &mangledName)
void	DumpBacktrace (std::ostream &os)
static void	DefaultAssertHandler (const char *message, const char *filename, int lineNumber)
AssertFailedHandlerType	SetAssertFailedHandler (AssertFailedHandlerType handler)
	Change the handler function called when an assertion fails.
void	ExecuteAssertFailedHandler (const char *message, const char *filename, int linenumber)
	(Don't use directly, use the CLAM_ASSERT macro instead) Execute the assert failed handler.
static void	DefaultWarningHandler (const char *message, const char *filename, int lineNumber)
WarningHandlerType	SetWarningHandler (WarningHandlerType handler)
	Change the handler function called when a warning is given.
void	ExecuteWarningHandler (const char *message, const char *filename, int linenumber)
	(Don't use directly, use the CLAM_WARNING macro instead) Execute the assert failed handler.
template<class T >
T	Abs (T value)
double	DB (double linData, int scaling=20)
double	Lin (double logData, int scaling=20)
template<class T >
T	CLAM_max (const T &x, const T &y)
	Definition of CLAM_min and CLAM_max.
template<class T >
T	CLAM_min (const T &x, const T &y)
bool	SameType (const std::type_info &type1, const std::type_info &type2)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, char)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, unsigned char)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, signed char)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, char *)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, unsigned char *)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, signed char *)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, const char *)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, const unsigned char *)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, const signed char *)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, void *)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, short int)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, short unsigned int)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, int)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, long)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, bool)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, double)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, float)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, std::string)
int	JackProcessingCallback (jack_nframes_t nframes, void *arg)
void	JackShutdownCallback (void *arg)
static CLAM::TData	dot_product (const CLAM::TData *in1, const CLAM::TData *in2, const CLAM::TData *endIn)
	in1 and in2 must be pointers to vectors of same lenght
bool	operator< (const TDescriptorsParams &param1, const TDescriptorsParams &param2)
bool	operator>= (const TDescriptorsParams &param1, const TDescriptorsParams &param2)
bool	operator== (const TDescriptorsParams &param1, const TDescriptorsParams &param2)
bool	operator== (const TDescriptorsParams &param1, TIndex id)
std::ostream &	operator<< (std::ostream &myStream, const TDescriptorsParams &a)
std::istream &	operator>> (std::istream &myStream, const TDescriptorsParams &a)
void	ConnectPorts (Processing &sender, const std::string &outPortName, Processing &receiver, const std::string &inPortName)
	Connects two ports of two processings selecting them by the port name.
void	ConnectControls (Processing &sender, const std::string &outControlName, Processing &receiver, const std::string &inControlName)
	Connects two controls of two processings selecting them by the control name.
void	ConnectPorts (Processing &sender, unsigned outPortNumber, Processing &receiver, unsigned inPortNumber)
	Connects two ports of two processings selecting them by the port number.
void	ConnectControls (Processing &sender, unsigned outControlNumber, Processing &receiver, unsigned inControlNumber)
	Free function that connects two controls.
void	ConnectPorts (Processing &sender, unsigned outPortNumber, InPortBase &receiver)
	Connects a processing port, selected by number, to a free in port.
void	ConnectPorts (OutPortBase &sender, Processing &receiver, unsigned inPortNumber)
	Connects a free port to one belonging to a processing selecting it by the port number.
void	ConnectPorts (Processing &sender, std::string outPortName, InPortBase &in)
void	ConnectPorts (OutPortBase &out, Processing &receiver, std::string inPortName)
void	SendFloatToInControl (Processing &receiver, const std::string &inControlName, float value)
	Tries to send a float to an inaccessible InControl, this is kept for compatibility This function uses the InControl's name to identify it.
void	SendFloatToInControl (Processing &receiver, int inControlIndex, float value)
	Tries to send a float to an inaccessible InControl, this is kept for compatibility This function uses the InControl's registry index to identify it.
void	SendFloatToOutControl (Processing &sender, const std::string &inControlName, float value)
	Tries to send a float to an inaccessible OutControl, this is kept for compatibility This function uses the OutControl's registry index to identify it.
void	SendFloatToOutControl (Processing &sender, int inControlIndex, float value)
	Tries to send a float to an inaccessible OutControl, this is kept for compatibility This function uses the OutControl's registry index to identify it.
float	GetFloatFromInControl (Processing &proc, const std::string &inControlName)
	Gets a float from an inaccesible InControl, this is kept for compatibility This function uses the InControl's name to identify it.
float	GetFloatFromInControl (Processing &proc, int inControlIndex)
	Gets a float from an inaccesible InControl, this is kept for compatibility This function uses the InControl's name to identify it.
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, ControlTraceInFilename)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, ControlTraceOutFilename)
template<typename WaveType >
void	FillBuffer (Array< TData > &buffer, WaveGenerator &generator, WaveType *dummy=0)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, InSDIFFilename)
template<class T >
Array< T >	operator+ (const Array< T > &a, const Array< T > &b)
template<class T >
bool	operator== (const Array< T > &a, const Array< T > &b)
template<class TX , class TY >
void	ConvertToBPF (BPFTmpl< TX, TY > &newBPF, const Array< TY > &originalArray)
template<class TX , class TY >
void	ConvertToBPF (BPFTmpl< TX, TY > &newBPF, TX X0, TX deltaX, const Array< TY > &originalArray)
template<class TX , class TY >
void	ConvertToBPF (BPFTmpl< TX, TY > &newBPF, const Array< TX > &originalXArray, const Array< TY > &originalYArray)
template<class TX , class TY >
void	ConvertToArray (const BPFTmpl< TX, TY > &originalBPF, Array< TX > &newXArray, Array< TY > &newYArray)
template<class TX , class TY >
void	ConvertToArray (const BPFTmpl< TX, TY > &originalBPF, Array< TY > &newArray)
std::istream &	operator>> (std::istream &is, Complex &a)
std::ostream &	operator<< (std::ostream &os, const Complex &a)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, Complex)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, DirectoryName)
std::ostream &	operator<< (std::ostream &os, const Enum &e) throw (IllegalValue)
	Stores the symbolic value of an Enum to the output stream.
std::istream &	operator>> (std::istream &os, Enum &e) throw (IllegalValue)
	Loads a symbolic value from the input stream onto an Enum.
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, Filename)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, InFilename)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, OutFilename)
std::istream &	operator>> (std::istream &is, FlagsBase &f)
std::ostream &	operator<< (std::ostream &os, const FlagsBase &f)
template<class T2 >
void	StoreMemberOn (T2 &item, Storage &storage)
template std::istream &	operator>> (std::istream &stream, MatrixTmpl< TData > &a)
template std::ostream &	operator<< (std::ostream &stream, const MatrixTmpl< TData > &a)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, Matrix)
template<class T >
std::istream &	operator>> (std::istream &stream, MatrixTmpl< T > &a)
template<class T >
std::ostream &	operator<< (std::ostream &stream, const MatrixTmpl< T > &a)
template std::istream &	operator>> (std::istream &stream, PointTmpl< TData > &a)
template std::ostream &	operator<< (std::ostream &stream, const PointTmpl< TData > &a)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, Point)
template<class TX , class TY >
std::istream &	operator>> (std::istream &is, PointTmpl< TX, TY > &a)
template<class TX , class TY >
std::ostream &	operator<< (std::ostream &stream, const PointTmpl< TX, TY > &a)
std::istream &	operator>> (std::istream &is, Polar &a)
std::ostream &	operator<< (std::ostream &myStream, const Polar &a)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, Polar)
std::istream &	operator>> (std::istream &stream, Text &text)
	CLAM_TYPEINFOGROUP (BasicCTypeInfo, Text)
static std::string	join (const std::list< std::string > &strings)
template<typename DXDeviceType >
void	DXHook (void *wndhndler, DXDeviceType *homemade_tmpl_func_overload=0)
static HWND	GetConsoleHandle ()
void	EnableConsoleAudio ()
int	xtime_get (xtime *xtp, int clock_type)
void	to_time (int milliseconds, xtime &xt)
void	to_timespec (const xtime &xt, timespec &ts)
void	to_time (int milliseconds, timespec &ts)
void	to_timespec_duration (const xtime &xt, timespec &ts)
std::ostream &	operator<< (std::ostream &out_str, const PmDeviceInfo *dev_info)
Variables
bool	disabledCLAMAssertBreakpoint = false
static AssertFailedHandlerType	CurrentAssertFailedHandler = DefaultAssertHandler
static WarningHandlerType	CurrentWarningHandler = DefaultWarningHandler
static const char	clamControlTraceFileTypeFamily [] = "CLAM Control Trace"
static const Filename::Filter	clamControlTraceFileFilters []
static const char *	metadataPeaks []
static FactoryRegistrator < ProcessingFactory, PeaksPortMonitor >	regPeaks = metadataPeaks
static const char *	metadataSpectrum []
static FactoryRegistrator < ProcessingFactory, SpectrumPortMonitor >	regSpectrum = metadataSpectrum
static const char *	metadataAudio []
static FactoryRegistrator < ProcessingFactory, AudioPortMonitor >	regAudio = metadataAudio
static const char *	metadataFundamental []
static FactoryRegistrator < ProcessingFactory, FundamentalPortMonitor >	regFundamental = metadataFundamental
static const char *	metadataAudioBuff []
static FactoryRegistrator < ProcessingFactory, AudioBuffPortMonitor >	regAudioBuff = metadataAudioBuff
static const char *	metadataSpecgram []
static FactoryRegistrator < ProcessingFactory, SpecgramPortMonitor >	regSpecgram = metadataSpecgram
static const char *	metadataFundTrack []
static FactoryRegistrator < ProcessingFactory, FundTrackPortMonitor >	regFundTrack = metadataFundTrack
static const char *	metadataSinTracks []
static FactoryRegistrator < ProcessingFactory, SinTracksPortMonitor >	regSinTracks = metadataSinTracks
O< 1 > *	FirstOrder
O< 2 > *	SecondOrder
O< 3 > *	ThirdOrder
O< 4 > *	FourthOrder
O< 5 > *	FifthOrder
const int	MILLISECONDS_PER_SECOND = 1000
const int	NANOSECONDS_PER_SECOND = 1000000000
const int	NANOSECONDS_PER_MILLISECOND = 1000000
const int	MICROSECONDS_PER_SECOND = 1000000
const int	NANOSECONDS_PER_MICROSECOND = 1000

---

Typedef Documentation

typedef void(* CLAM::AssertFailedHandlerType)(const char *message, const char *filename, int lineNumber)

The type of the asserts handlers.

Parameters:

	message	A char pointer containing a description of the assertion
	fileName	A char pointer containing the source file where the assertion is placed
	lineNumber	The line of the source file where the assertion is placed

Definition at line 233 of file Assert.hxx.

typedef BinaryAudioOp< Add<TData> > CLAM::AudioAdder

Definition at line 30 of file AudioAdder.hxx.

typedef BinaryAudioOpConfig CLAM::AudioAdderConfig

Definition at line 31 of file AudioAdder.hxx.

typedef BinaryAudioOp< Multiply<TData> > CLAM::AudioMultiplier

Definition at line 30 of file AudioMultiplier.hxx.

typedef BinaryAudioOpConfig CLAM::AudioMultiplierConfig

Definition at line 31 of file AudioMultiplier.hxx.

typedef BPFTmpl<TData,TData> CLAM::BPF

Definition at line 33 of file BPF.hxx.

typedef CentroidTmpl CLAM::Centroid

Definition at line 493 of file BasicOps.hxx.

typedef void(* CLAM::cleanfn)(void *)

Definition at line 38 of file BaseAudioApplication.cxx.

typedef BinaryControlOp< Multiply<TControlData> > CLAM::ControlMultiplier

Definition at line 37 of file ControlMultiplier.hxx.

typedef CubeTmpl CLAM::Cube

Definition at line 114 of file BasicOps.hxx.

typedef CubedSumTmpl CLAM::CubedSum

Definition at line 249 of file BasicOps.hxx.

typedef Array<TData> CLAM::DataArray

Definition at line 560 of file Array.hxx.

typedef DescriptorTmpl<false> CLAM::Descriptor

Definition at line 83 of file Descriptor.hxx.

typedef DescriptorTmpl<true> CLAM::DescriptorAbs

Definition at line 84 of file Descriptor.hxx.

typedef EnergyTmpl CLAM::Energy

Definition at line 495 of file BasicOps.hxx.

typedef InControl<float> CLAM::FloatInControl

Alias provided by convenience to ease the transitions to typed controls.

Definition at line 244 of file InControl.hxx.

typedef OutControl<float> CLAM::FloatOutControl

Definition at line 83 of file OutControl.hxx.

typedef Search< List < Frame >, Frame> CLAM::FrameSearch

Definition at line 35 of file Segment.hxx.

typedef GeometricMeanTmpl CLAM::GeometricMean

Definition at line 566 of file BasicOps.hxx.

typedef ControlArray<FloatInControl> CLAM::InControlArray

Definition at line 30 of file InControlArray.hxx.

typedef InnerProductTmpl CLAM::InnerProduct

Definition at line 310 of file BasicOps.hxx.

typedef KurtosisTmpl CLAM::Kurtosis

Definition at line 796 of file BasicOps.hxx.

typedef LogPlusTmpl CLAM::LogSum

Definition at line 262 of file BasicOps.hxx.

typedef MatrixTmpl<TData> CLAM::Matrix

Definition at line 32 of file Matrix.hxx.

typedef MeanTmpl CLAM::Mean

Definition at line 494 of file BasicOps.hxx.

typedef signed short CLAM::MY_TYPE

Definition at line 27 of file RtAAudioDevice.hxx.

typedef NoPowerTmpl CLAM::NoPower

Typedefs.

Definition at line 112 of file BasicOps.hxx.

typedef ControlArray<FloatOutControl> CLAM::OutControlArray

Definition at line 29 of file OutControlArray.hxx.

typedef PointTmpl<TData> CLAM::Point

Definition at line 32 of file Point.hxx.

typedef std::pair<double, Processing *> CLAM::ProcessingAndGeometry

Definition at line 29 of file Network.cxx.

typedef ProductTmpl CLAM::Product

Definition at line 203 of file BasicOps.hxx.

typedef void*(* CLAM::pthread_start_pfunc)(void *)

Definition at line 3 of file PooledThread.cxx.

typedef RMSTmpl CLAM::RMS

Definition at line 534 of file BasicOps.hxx.

typedef SkewTmpl CLAM::Skew

Definition at line 760 of file BasicOps.hxx.

typedef SquareTmpl CLAM::Square

Definition at line 113 of file BasicOps.hxx.

typedef SquaredSumTmpl CLAM::SquaredSum

Definition at line 248 of file BasicOps.hxx.

typedef StandardDeviationTmpl CLAM::StandardDeviation

Definition at line 721 of file BasicOps.hxx.

typedef void*(* CLAM::startfn)(void *)

Definition at line 37 of file BaseAudioApplication.cxx.

typedef std::list<StaticCycleBranch> CLAM::StaticCycle

Definition at line 40 of file StaticFlowControl.hxx.

typedef StatsTmpl CLAM::Stats

Definition at line 806 of file Stats.hxx.

typedef SumTmpl CLAM::Sum

Definition at line 247 of file BasicOps.hxx.

typedef unsigned char CLAM::TByte

Definition at line 42 of file DataTypes.hxx.

typedef float CLAM::TControlData

Control events type.

Definition at line 10 of file InControlBase.hxx.

typedef float CLAM::TData

Definition at line 50 of file DataTypes.hxx.

typedef float CLAM::TFloat32

Definition at line 40 of file DataTypes.hxx.

typedef double CLAM::TFloat64

Definition at line 41 of file DataTypes.hxx.

typedef struct CLAM::SGuide CLAM::TGuide

Config class for the SinTracking Processing.

typedef int CLAM::TIndex

Definition at line 27 of file DataTypes.hxx.

typedef short CLAM::TInt16

Definition at line 29 of file DataTypes.hxx.

typedef int CLAM::TInt32

Definition at line 31 of file DataTypes.hxx.

typedef long long CLAM::TInt64

Definition at line 37 of file DataTypes.hxx.

typedef TByte CLAM::TMIDIByte

Definition at line 43 of file DataTypes.hxx.

typedef TInt32 CLAM::TMIDITime

Definition at line 44 of file DataTypes.hxx.

typedef int CLAM::TSize

Definition at line 28 of file DataTypes.hxx.

typedef double CLAM::TTime

Definition at line 45 of file DataTypes.hxx.

typedef struct CLAM::STrajectory CLAM::TTrajectory

typedef unsigned short CLAM::TUInt16

Definition at line 30 of file DataTypes.hxx.

typedef unsigned int CLAM::TUInt32

Definition at line 32 of file DataTypes.hxx.

typedef unsigned long long CLAM::TUInt64

Definition at line 38 of file DataTypes.hxx.

typedef void(* CLAM::WarningHandlerType)(const char *message, const char *filename, int lineNumber)

The type of the warning handlers.

Parameters:

	message	A char pointer containing a description of the warning
	fileName	A char pointer containing the source file where the warning is placed
	lineNumber	The line of the source file where the warning is placed

Definition at line 256 of file Assert.hxx.

typedef WeightedCubeTmpl CLAM::WeightedCube

Definition at line 167 of file BasicOps.hxx.

typedef WeightedCubedSumTmpl CLAM::WeightedCubedSum

Definition at line 370 of file BasicOps.hxx.

typedef WeightedNoPowerTmpl CLAM::WeightedNoPower

typedefs

Definition at line 165 of file BasicOps.hxx.

typedef WeightedSquareTmpl CLAM::WeightedSquare

Definition at line 166 of file BasicOps.hxx.

typedef WeightedSquaredSumTmpl CLAM::WeightedSquaredSum

Definition at line 369 of file BasicOps.hxx.

typedef WeightedSumTmpl CLAM::WeightedSum

Definition at line 368 of file BasicOps.hxx.

typedef XmlStorage CLAM::XMLStorage

For maintaining compatibility with deprecated class name.

Definition at line 179 of file XMLStorage.hxx.

---

Enumeration Type Documentation

anonymous enum

Enumerator:

TIME_UTC
TIME_TAI
TIME_MONOTONIC
TIME_PROCESS
TIME_THREAD
TIME_LOCAL
TIME_SYNC
TIME_RESOLUTION

Definition at line 36 of file xtime.hxx.

anonymous enum

Enumerator:

SpectralDescBase
SpectralMeanId
SpectralGeometricMeanId
SpectralEnergyId
SpectralCentroidId
SpectralMoment2Id
SpectralMoment3Id
SpectralMoment4Id
SpectralMoment5Id
SpectralMoment6Id
SpectralFlatnessId
SpectralKurtosisId
FrameDescBase
FundamentalId
SegmentatorBase
MinSegmentLenghtId
AudioDescriptorBase
AudioMeanId
AudioEnergyId
AudioVarianceId
AudioCentroidId
AudioZeroCrossingRateId

Definition at line 42 of file Segmentator.hxx.

---

Function Documentation

template<class T >

T CLAM::Abs

(

T

value

)

[inline]

Definition at line 442 of file CLAM_Math.hxx.

Referenced by CLAM::BPFTmpl< TX, TY >::BPFPolInt(), CLAM::Complex::Mag(), CLAM::ComplexMax< abs, FrameDescriptors >::operator()(), CLAM::ComplexMin< abs, FrameDescriptors >::operator()(), CLAM::LogPlusTmpl< T >::operator()(), CLAM::BiasedPower< s, abs, T, U >::operator()(), CLAM::WeightedPower< 1, abs, T >::operator()(), CLAM::Power< 1, abs, T >::operator()(), and CLAM::SpectralPeak::operator|().

DataArray CLAM::Add	(	DataArray &	a,
		DataArray &	b
	)

void CLAM::AssertProperSize	(	TSize	size,
		DataArray &	buffer
	)			[inline]

Definition at line 28 of file SpectrumConversions.cxx.

References CLAM::Array< T >::Resize(), CLAM::Array< T >::SetSize(), and CLAM::Array< T >::Size().

void CLAM::BPF2MagPhase	(	const BPF &	magBpf,
		const BPF &	phaseBpf,
		DataArray &	magBuffer,
		DataArray &	phaseBuffer,
		TSize	nBins,
		TData	specRange
	)

template<class T >

T CLAM::CLAM_max	(	const T &	x,
		const T &	y
	)			[inline]

Definition of CLAM_min and CLAM_max.

Note1: we are not returning a const reference because in some specializations this is not possible. Note2: we are not using std::max and std::min by default because in Windows these functions are implemented with different names

Definition at line 467 of file CLAM_Math.hxx.

template<>

SpectralPeakDescriptors CLAM::CLAM_max	(	const SpectralPeakDescriptors &	a,
		const SpectralPeakDescriptors &	b
	)			[inline]

Definition at line 161 of file SpectralPeakDescriptors.hxx.

template<>

SpectralDescriptors CLAM::CLAM_max	(	const SpectralDescriptors &	a,
		const SpectralDescriptors &	b
	)			[inline]

Definition at line 169 of file SpectralDescriptors.hxx.

template<>

FrameDescriptors CLAM::CLAM_max	(	const FrameDescriptors &	a,
		const FrameDescriptors &	b
	)			[inline]

Definition at line 102 of file FrameDescriptors.hxx.

References CLAM_max().

template<>

AudioDescriptors CLAM::CLAM_max	(	const AudioDescriptors &	a,
		const AudioDescriptors &	b
	)			[inline]

Definition at line 187 of file AudioDescriptors.hxx.

Referenced by CLAM_max(), CLAM::FundFreqDetect::Do(), CLAM::SkewTmpl< abs, TData, TData >::MemorylessCompute(), and CLAM::ComplexMax< abs, FrameDescriptors >::operator()().

template<class T >

T CLAM::CLAM_min	(	const T &	x,
		const T &	y
	)			[inline]

Definition at line 471 of file CLAM_Math.hxx.

template<>

SpectralPeakDescriptors CLAM::CLAM_min	(	const SpectralPeakDescriptors &	a,
		const SpectralPeakDescriptors &	b
	)			[inline]

Definition at line 215 of file SpectralPeakDescriptors.hxx.

template<>

SpectralDescriptors CLAM::CLAM_min	(	const SpectralDescriptors &	a,
		const SpectralDescriptors &	b
	)			[inline]

Definition at line 280 of file SpectralDescriptors.hxx.

template<>

FrameDescriptors CLAM::CLAM_min	(	const FrameDescriptors &	a,
		const FrameDescriptors &	b
	)			[inline]

Definition at line 141 of file FrameDescriptors.hxx.

References CLAM_min().

template<>

AudioDescriptors CLAM::CLAM_min	(	const AudioDescriptors &	a,
		const AudioDescriptors &	b
	)			[inline]

Definition at line 137 of file AudioDescriptors.hxx.

Referenced by CLAM_min(), CLAM::FundFreqDetect::Do(), and CLAM::ComplexMin< abs, FrameDescriptors >::operator()().

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		Text
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		Polar
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		Point
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		Matrix
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		OutFilename
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		InFilename
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		Filename
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		DirectoryName
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		Complex
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		InSDIFFilename
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		ControlTraceOutFilename
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		ControlTraceInFilename
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		std::string
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		float
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		double
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		bool
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		long
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		int
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		short unsigned	int
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		short	int
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		void *
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		const signed char *
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		const unsigned char *
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		const char *
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		signed char *
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		unsigned char *
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		char *
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		signed	char
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		unsigned	char
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		char
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		AudioOutFilename
	)

CLAM::CLAM_TYPEINFOGROUP	(	BasicCTypeInfo	,
		AudioInFilename
	)

void CLAM::Complex2LogMagPhase	(	const Array< Complex > &	src,
		DataArray &	destMag,
		DataArray &	destPhase
	)

void CLAM::Complex2MagPhase	(	const Array< Complex > &	complBuffer,
		DataArray &	magBuffer,
		DataArray &	phaseBuffer
	)

See also:

ComplexTmpl::Mag for details

ComplexTmpl::Ang for details

void CLAM::Complex2Polar	(	const Array< Complex > &	,
		Array< Polar > &
	)

void CLAM::ConnectControls	(	Processing &	sender,
		unsigned	outControlNumber,
		Processing &	receiver,
		unsigned	inControlNumber
	)

Free function that connects two controls.

Short hand for sender.GetOutControl(outControlNumber).AddLink( receiver.GetOutControl(inControlNumber))

void CLAM::ConnectControls	(	Processing &	sender,
		const std::string &	outControlName,
		Processing &	receiver,
		const std::string &	inControlName
	)

Connects two controls of two processings selecting them by the control name.

Short hand for sender.GetOutControl(outControlName).AddLink( receiver.GetOutControl(inControlName))

void CLAM::ConnectPorts	(	OutPortBase &	out,
		Processing &	receiver,
		std::string	inPortName
	)

Definition at line 87 of file Processing.cxx.

void CLAM::ConnectPorts	(	Processing &	sender,
		std::string	outPortName,
		InPortBase &	in
	)

Definition at line 79 of file Processing.cxx.

void CLAM::ConnectPorts	(	OutPortBase &	sender,
		Processing &	receiver,
		unsigned	inPortNumber
	)

Connects a free port to one belonging to a processing selecting it by the port number.

Short hand for sender.ConnectToIn(receiver.GetOutPort(inPortName))

void CLAM::ConnectPorts	(	Processing &	sender,
		unsigned	outPortNumber,
		InPortBase &	receiver
	)

Connects a processing port, selected by number, to a free in port.

Short hand for sender.GetOutPort(outPortName).ConnectToIn(receiver)

void CLAM::ConnectPorts	(	Processing &	sender,
		unsigned	outPortNumber,
		Processing &	receiver,
		unsigned	inPortNumber
	)

Connects two ports of two processings selecting them by the port number.

Short hand for sender.GetOutPort(outPortNumber).ConnectToIn(receiver.GetOutPort(inPortNumber))

void CLAM::ConnectPorts	(	Processing &	sender,
		const std::string &	outPortName,
		Processing &	receiver,
		const std::string &	inPortName
	)

Connects two ports of two processings selecting them by the port name.

Short hand for sender.GetOutPort(outPortName).ConnectToIn(receiver.GetOutPort(inPortName))

template<class TX , class TY >

void CLAM::ConvertToArray	(	const BPFTmpl< TX, TY > &	originalBPF,
		Array< TY > &	newArray
	)			[inline]

Definition at line 95 of file ArrayToBPFCnv.hxx.

References CLAM::Array< T >::AddElem(), CLAM::BPFTmpl< TX, TY >::GetValueFromIndex(), and CLAM::BPFTmpl< TX, TY >::Size().

template<class TX , class TY >

void CLAM::ConvertToArray	(	const BPFTmpl< TX, TY > &	originalBPF,
		Array< TX > &	newXArray,
		Array< TY > &	newYArray
	)			[inline]

Definition at line 82 of file ArrayToBPFCnv.hxx.

References CLAM::Array< T >::AddElem(), CLAM::BPFTmpl< TX, TY >::GetValueFromIndex(), CLAM::BPFTmpl< TX, TY >::GetXValue(), and CLAM::BPFTmpl< TX, TY >::Size().

template<class TX , class TY >

void CLAM::ConvertToBPF	(	BPFTmpl< TX, TY > &	newBPF,
		const Array< TX > &	originalXArray,
		const Array< TY > &	originalYArray
	)			[inline]

Definition at line 65 of file ArrayToBPFCnv.hxx.

References CLAM_ASSERT, CLAM::BPFTmpl< TX, TY >::SetValue(), CLAM::BPFTmpl< TX, TY >::SetXValue(), CLAM::BPFTmpl< TX, TY >::Size(), and CLAM::Array< T >::Size().

template<class TX , class TY >

void CLAM::ConvertToBPF	(	BPFTmpl< TX, TY > &	newBPF,
		TX	X0,
		TX	deltaX,
		const Array< TY > &	originalArray
	)			[inline]

Definition at line 45 of file ArrayToBPFCnv.hxx.

References CLAM_ASSERT, CLAM::BPFTmpl< TX, TY >::SetValue(), CLAM::BPFTmpl< TX, TY >::SetXValue(), CLAM::BPFTmpl< TX, TY >::Size(), and CLAM::Array< T >::Size().

template<class TX , class TY >

void CLAM::ConvertToBPF	(	BPFTmpl< TX, TY > &	newBPF,
		const Array< TY > &	originalArray
	)			[inline]

Definition at line 32 of file ArrayToBPFCnv.hxx.

References CLAM_ASSERT, CLAM::BPFTmpl< TX, TY >::SetValue(), CLAM::BPFTmpl< TX, TY >::SetXValue(), CLAM::BPFTmpl< TX, TY >::Size(), and CLAM::Array< T >::Size().

double CLAM::DB	(	double	linData,
		int	scaling = 20
	)			[inline]

Definition at line 452 of file CLAM_Math.hxx.

References CLAM_log10().

SpectralPeak CLAM::DB	(	SpectralPeak &	inPeak,
		int	scalingFactor = 20
	)			[inline]

Function for changing the scale of a peak to log, conserving data consistency.

Parameters:

	inPeak	incoming peak
	scalingFactor	factor to apply in the logarithmic conversion (default 20)

Definition at line 144 of file SpectralPeak.hxx.

References CLAM_log10(), and CLAM::EScale::eLog.

static void CLAM::DefaultAssertHandler	(	const char *	message,
		const char *	filename,
		int	lineNumber
	)			[static]

Definition at line 82 of file Assert.cxx.

static void CLAM::DefaultWarningHandler	(	const char *	message,
		const char *	filename,
		int	lineNumber
	)			[static]

Definition at line 117 of file Assert.cxx.

std::string CLAM::demangleSymbol

(

const std::string &

mangledName

)

Definition at line 26 of file Assert.cxx.

static CLAM::TData CLAM::dot_product	(	const CLAM::TData *	in1,
		const CLAM::TData *	in2,
		const CLAM::TData *	endIn
	)			[inline, static]

in1 and in2 must be pointers to vectors of same lenght

Definition at line 166 of file LPC_AutoCorrelation.cxx.

void CLAM::DumpBacktrace

(

std::ostream &

os

)

Definition at line 46 of file Assert.cxx.

template<typename DXDeviceType >

void CLAM::DXHook	(	void *	wndhndler,
		DXDeviceType *	homemade_tmpl_func_overload = 0
	)			[inline]

Definition at line 26 of file Win32Utils.cxx.

void CLAM::EnableConsoleAudio

(

)

void CLAM::ExecuteAssertFailedHandler	(	const char *	message,
		const char *	filename,
		int	lineNumber
	)

(Don't use directly, use the CLAM_ASSERT macro instead) Execute the assert failed handler.

void CLAM::ExecuteWarningHandler	(	const char *	message,
		const char *	filename,
		int	lineNumber
	)

(Don't use directly, use the CLAM_WARNING macro instead) Execute the assert failed handler.

template<typename WaveType >

void CLAM::FillBuffer	(	Array< TData > &	buffer,
		WaveGenerator &	generator,
		WaveType *	dummy = 0
	)			[inline]

Definition at line 161 of file WaveGenerator.hxx.

References CLAM::WaveGenerator::GetAmplitude(), CLAM::WaveGenerator::GetXDelta(), CLAM::WaveGenerator::GetXPos(), CLAM::WaveGenerator::SetXPos(), and CLAM::Array< T >::Size().

static HWND CLAM::GetConsoleHandle

(

)

[static]

Definition at line 31 of file Win32Utils.cxx.

float CLAM::GetFloatFromInControl	(	Processing &	proc,
		int	inControlIndex
	)

Gets a float from an inaccesible InControl, this is kept for compatibility This function uses the InControl's name to identify it.

Precondition:

The type of the control is Float

float CLAM::GetFloatFromInControl	(	Processing &	proc,
		const std::string &	inControlName
	)

Gets a float from an inaccesible InControl, this is kept for compatibility This function uses the InControl's name to identify it.

Precondition:

The type of the control is Float

int CLAM::JackProcessingCallback	(	jack_nframes_t	nframes,
		void *	arg
	)			[inline]

Definition at line 6 of file JACKNetworkPlayer.cxx.

void CLAM::JackShutdownCallback

(

void *

arg

)

[inline]

Definition at line 13 of file JACKNetworkPlayer.cxx.

References CLAM::JACKNetworkPlayer::Do().

static std::string CLAM::join

(

const std::list< std::string > &

strings

)

[static]

Definition at line 35 of file XMLStorage.cxx.

double CLAM::Lin	(	double	logData,
		int	scaling = 20
	)			[inline]

Definition at line 457 of file CLAM_Math.hxx.

References CLAM_pow().

SpectralPeak CLAM::Lin

(

SpectralPeak &

inPeak

)

[inline]

Definition at line 128 of file SpectralPeak.hxx.

References CLAM::EScale::eLinear, and log2lin().

SpectralPeak CLAM::Lin	(	SpectralPeak &	inPeak,
		int	scalingFactor
	)			[inline]

Function for changing the scale of a peak to linear, conserving data consistency.

Parameters:

	inPeak	incoming peak
	scalingFactor	factor to apply in the logarithmic conversion (default 20)

Definition at line 118 of file SpectralPeak.hxx.

References CLAM_pow(), and CLAM::EScale::eLinear.

void CLAM::Linear2LogMagnitude

(

DataArray &

dataBuffer

)

void CLAM::Linear2LogMagnitude	(	const DataArray &	linearBuffer,
		DataArray &	logData
	)

void CLAM::Log2LinearMagnitude

(

DataArray &

dataBuffer

)

void CLAM::Log2LinearMagnitude	(	const DataArray &	logBuffer,
		DataArray &	linBuffer
	)

void CLAM::MagPhase2Complex	(	const DataArray &	,
		const DataArray &	,
		Array< Complex > &
	)

void CLAM::MagPhase2Polar	(	const DataArray &	,
		const DataArray &	,
		Array< Polar > &
	)

DataArray CLAM::Multiply	(	DataArray &	a,
		DataArray &	b
	)

DataArray CLAM::Multiply	(	TData &	factor,
		DataArray &	a
	)

SpectralPeakDescriptors CLAM::operator*	(	TData	mult,
		const SpectralPeakDescriptors &	a
	)

Definition at line 405 of file SpectralPeakDescriptors.cxx.

SpectralPeakDescriptors CLAM::operator*	(	const SpectralPeakDescriptors &	a,
		const SpectralPeakDescriptors &	b
	)

SpectralPeakDescriptors CLAM::operator*	(	const SpectralPeakDescriptors &	a,
		TData	mult
	)

SpectralDescriptors CLAM::operator*	(	TData	mult,
		const SpectralDescriptors &	a
	)

SpectralDescriptors CLAM::operator*	(	const SpectralDescriptors &	a,
		const SpectralDescriptors &	b
	)

b.GetBandDescriptors()

b.GetMFCC()

SpectralDescriptors CLAM::operator*	(	const SpectralDescriptors &	a,
		TData	mult
	)

FrameDescriptors CLAM::operator*	(	TData	mult,
		const FrameDescriptors &	a
	)

FrameDescriptors CLAM::operator*	(	const FrameDescriptors &	a,
		TData	mult
	)

FrameDescriptors CLAM::operator*	(	const FrameDescriptors &	a,
		const FrameDescriptors &	b
	)

AudioDescriptors CLAM::operator*	(	const AudioDescriptors &	a,
		const AudioDescriptors &	b
	)

AudioDescriptors CLAM::operator*	(	TData	mult,
		const AudioDescriptors &	a
	)

AudioDescriptors CLAM::operator*	(	const AudioDescriptors &	a,
		TData	mult
	)

template<class T >

Array<T> CLAM::operator+	(	const Array< T > &	a,
		const Array< T > &	b
	)			[inline]

Definition at line 539 of file Array.hxx.

SpectralPeakDescriptors CLAM::operator+	(	const SpectralPeakDescriptors &	a,
		const SpectralPeakDescriptors &	b
	)

SpectralDescriptors CLAM::operator+	(	const SpectralDescriptors &	a,
		const SpectralDescriptors &	b
	)

FrameDescriptors CLAM::operator+	(	const FrameDescriptors &	a,
		const FrameDescriptors &	b
	)

AudioDescriptors CLAM::operator+	(	const AudioDescriptors &	a,
		const AudioDescriptors &	b
	)

FrameDescriptors CLAM::operator-	(	const FrameDescriptors &	a,
		const FrameDescriptors &	b
	)

AudioDescriptors CLAM::operator-	(	const AudioDescriptors &	a,
		const AudioDescriptors &	b
	)

SpectralPeakDescriptors CLAM::operator/	(	const SpectralPeakDescriptors &	a,
		TData	div
	)

SpectralDescriptors CLAM::operator/	(	const SpectralDescriptors &	a,
		TData	div
	)

FrameDescriptors CLAM::operator/	(	const FrameDescriptors &	a,
		TData	div
	)

AudioDescriptors CLAM::operator/	(	const AudioDescriptors &	a,
		TData	div
	)

bool CLAM::operator<	(	const TDescriptorsParams &	param1,
		const TDescriptorsParams &	param2
	)			[inline]

Definition at line 39 of file SegmentatorConfig.hxx.

References CLAM::TDescriptorsParams::id.

std::ostream& CLAM::operator<<	(	std::ostream &	out_str,
		const PmDeviceInfo *	dev_info
	)

Definition at line 31 of file PortMIDIDevice.cxx.

std::ostream & CLAM::operator<<	(	std::ostream &	myStream,
		const Polar &	a
	)

template<class TX , class TY >

std::ostream & CLAM::operator<<	(	std::ostream &	stream,
		const PointTmpl< TX, TY > &	a
	)			[inline]

Definition at line 74 of file PointTmplDef.hxx.

template std::ostream& CLAM::operator<<	(	std::ostream &	stream,
		const PointTmpl< TData > &	a
	)

template<class T >

std::ostream & CLAM::operator<<	(	std::ostream &	stream,
		const MatrixTmpl< T > &	a
	)			[inline]

Definition at line 90 of file MatrixTmplDef.hxx.

template std::ostream& CLAM::operator<<	(	std::ostream &	stream,
		const MatrixTmpl< TData > &	a
	)

std::ostream & CLAM::operator<<	(	std::ostream &	os,
		const FlagsBase &	f
	)

Definition at line 141 of file Flags.cxx.

References CLAM::FlagsBase::GetFlagString(), CLAM::FlagsBase::GetNFlags(), and CLAM::FlagsBase::IsSetFlag().

std::ostream & CLAM::operator<<	(	std::ostream &	os,
		const Enum &	e
	)			throw (IllegalValue)

Stores the symbolic value of an Enum to the output stream.

Parameters:

	os	The output stream
	e	The Enum

Returns:

The output stream

std::ostream & CLAM::operator<<	(	std::ostream &	os,
		const Complex &	a
	)

std::ostream& CLAM::operator<<	(	std::ostream &	myStream,
		const TDescriptorsParams &	a
	)

Definition at line 47 of file Segmentator.cxx.

References FundamentalId, CLAM::TDescriptorsParams::id, CLAM::TDescriptorsParams::percentil, SpectralCentroidId, SpectralEnergyId, SpectralFlatnessId, SpectralGeometricMeanId, SpectralKurtosisId, SpectralMeanId, SpectralMoment2Id, SpectralMoment3Id, SpectralMoment4Id, SpectralMoment5Id, SpectralMoment6Id, and CLAM::TDescriptorsParams::threshold.

template<class T >

bool CLAM::operator==	(	const Array< T > &	a,
		const Array< T > &	b
	)			[inline]

Definition at line 547 of file Array.hxx.

References CLAM::Array< T >::Size().

bool CLAM::operator==	(	const TDescriptorsParams &	param1,
		TIndex	id
	)			[inline]

Definition at line 57 of file SegmentatorConfig.hxx.

References CLAM::TDescriptorsParams::id.

bool CLAM::operator==	(	const TDescriptorsParams &	param1,
		const TDescriptorsParams &	param2
	)			[inline]

Definition at line 51 of file SegmentatorConfig.hxx.

References CLAM::TDescriptorsParams::id.

bool CLAM::operator>=	(	const TDescriptorsParams &	param1,
		const TDescriptorsParams &	param2
	)			[inline]

Definition at line 45 of file SegmentatorConfig.hxx.

References CLAM::TDescriptorsParams::id.

std::istream & CLAM::operator>>	(	std::istream &	stream,
		Text &	text
	)

std::istream & CLAM::operator>>	(	std::istream &	is,
		Polar &	a
	)

template<class TX , class TY >

std::istream & CLAM::operator>>	(	std::istream &	is,
		PointTmpl< TX, TY > &	a
	)			[inline]

Todo:

Not yet implemented

Error conditions management

Definition at line 38 of file PointTmplDef.hxx.

References CLAM::PointTmpl< TX, TY >::SetX(), and CLAM::PointTmpl< TX, TY >::SetY().

template std::istream& CLAM::operator>>	(	std::istream &	stream,
		PointTmpl< TData > &	a
	)

template<class T >

std::istream & CLAM::operator>>	(	std::istream &	stream,
		MatrixTmpl< T > &	a
	)			[inline]

Definition at line 83 of file MatrixTmplDef.hxx.

template std::istream& CLAM::operator>>	(	std::istream &	stream,
		MatrixTmpl< TData > &	a
	)

std::istream & CLAM::operator>>	(	std::istream &	is,
		FlagsBase &	f
	)

Definition at line 100 of file Flags.cxx.

References CLAM::FlagsBase::GetFlagPosition(), CLAM::FlagsBase::GetNFlags(), and CLAM::FlagsBase::SetFlag().

std::istream & CLAM::operator>>	(	std::istream &	os,
		Enum &	e
	)			throw (IllegalValue)

Loads a symbolic value from the input stream onto an Enum.

Parameters:

	os	The input stream
	e	The Enum

Returns:

The input stream

std::istream & CLAM::operator>>	(	std::istream &	is,
		Complex &	a
	)

std::istream& CLAM::operator>>	(	std::istream &	myStream,
		const TDescriptorsParams &	a
	)

Definition at line 125 of file Segmentator.cxx.

References CLAM_ASSERT.

void CLAM::Polar2Complex	(	const Array< Polar > &	,
		Array< Complex > &
	)

void CLAM::Polar2MagPhase	(	const Array< Polar > &	polarBuffer,
		DataArray &	magBuffer,
		DataArray &	phaseBuffer
	)

bool CLAM::SameType	(	const std::type_info &	type1,
		const std::type_info &	type2
	)

Referenced by CLAM::OutPort< Token >::IsConnectableTo(), CLAM::InPortPublisher< TData >::PublishInPort(), and CLAM::OutPortPublisher< Spectrum >::PublishOutPort().

void CLAM::SendFloatToInControl	(	Processing &	receiver,
		int	inControlIndex,
		float	value
	)

Tries to send a float to an inaccessible InControl, this is kept for compatibility This function uses the InControl's registry index to identify it.

Precondition:

The type of the control is Float

void CLAM::SendFloatToInControl	(	Processing &	receiver,
		const std::string &	inControlName,
		float	value
	)

Tries to send a float to an inaccessible InControl, this is kept for compatibility This function uses the InControl's name to identify it.

Precondition:

The type of the control is Float

Referenced by CLAM::SpectralPhaseModulation::Do(), and CLAM::SpectralDelay::Do().

void CLAM::SendFloatToOutControl	(	Processing &	sender,
		int	inControlIndex,
		float	value
	)

Tries to send a float to an inaccessible OutControl, this is kept for compatibility This function uses the OutControl's registry index to identify it.

Precondition:

The type of the control is Float

void CLAM::SendFloatToOutControl	(	Processing &	sender,
		const std::string &	inControlName,
		float	value
	)

Tries to send a float to an inaccessible OutControl, this is kept for compatibility This function uses the OutControl's registry index to identify it.

Precondition:

The type of the control is Float

AssertFailedHandlerType CLAM::SetAssertFailedHandler

(

AssertFailedHandlerType

handler

)

Change the handler function called when an assertion fails.

The function must have a prototype like that:

 void MyHandler (const char* message, const char* filename, int lineNumber);
 

Parameters:

handler

The new handler

Returns:

The old handler, for restoring purposes.

WarningHandlerType CLAM::SetWarningHandler

(

WarningHandlerType

handler

)

Change the handler function called when a warning is given.

The function must have a prototype like that:

 void MyHandler (const char* message, const char* filename, int lineNumber);
 

Parameters:

handler

The new handler

Returns:

The old handler, for restoring purposes.

template<class T2 >

void CLAM::StoreMemberOn	(	T2 &	item,
		Storage &	storage
	)			[inline]

Referenced by CLAM::List< Frame >::StoreOn().

void CLAM::to_time	(	int	milliseconds,
		timespec &	ts
	)			[inline]

Definition at line 115 of file xtime.hxx.

References to_time(), and to_timespec().

void CLAM::to_time	(	int	milliseconds,
		xtime &	xt
	)			[inline]

Definition at line 85 of file xtime.hxx.

References MILLISECONDS_PER_SECOND, NANOSECONDS_PER_MILLISECOND, NANOSECONDS_PER_SECOND, CLAM::xtime::nsec, CLAM::xtime::sec, TIME_UTC, and xtime_get().

Referenced by to_time().

void CLAM::to_timespec	(	const xtime &	xt,
		timespec &	ts
	)			[inline]

Definition at line 104 of file xtime.hxx.

References NANOSECONDS_PER_SECOND, CLAM::xtime::nsec, and CLAM::xtime::sec.

Referenced by to_time().

void CLAM::to_timespec_duration	(	const xtime &	xt,
		timespec &	ts
	)			[inline]

Definition at line 125 of file xtime.hxx.

References NANOSECONDS_PER_SECOND, CLAM::xtime::nsec, CLAM::xtime::sec, TIME_UTC, and xtime_get().

int CLAM::xtime_get	(	xtime *	xtp,
		int	clock_type
	)			[inline]

Definition at line 54 of file xtime.hxx.

References CLAM::xtime::nsec, CLAM::xtime::sec, and TIME_UTC.

Referenced by to_time(), and to_timespec_duration().

---

Variable Documentation

const Filename::Filter CLAM::clamControlTraceFileFilters[] [static]

Initial value:

 {
                { "CLAM Control Traces (v1)", "*.clamtrace" },
        }

Definition at line 157 of file ControlTrace.cxx.

Referenced by CLAM::ControlTraceOutFilename::Filters().

const char CLAM::clamControlTraceFileTypeFamily[] = "CLAM Control Trace" [static]

Definition at line 156 of file ControlTrace.cxx.

Referenced by CLAM::ControlTraceOutFilename::TypeFamily().

AssertFailedHandlerType CLAM::CurrentAssertFailedHandler = DefaultAssertHandler [static]

Definition at line 92 of file Assert.cxx.

Referenced by CLAM::ErrAssertionFailed::ErrAssertionFailed().

WarningHandlerType CLAM::CurrentWarningHandler = DefaultWarningHandler [static]

Definition at line 123 of file Assert.cxx.

bool CLAM::disabledCLAMAssertBreakpoint = false

Definition at line 78 of file Assert.cxx.

O< 5 > * CLAM::FifthOrder

Definition at line 31 of file Order.cxx.

Referenced by CLAM::SpectralDescriptors::ConcreteCompute().

O< 1 > * CLAM::FirstOrder

Definition at line 27 of file Order.cxx.

O< 4 > * CLAM::FourthOrder

Definition at line 30 of file Order.cxx.

Referenced by CLAM::SpectralDescriptors::ConcreteCompute().

const char* CLAM::metadataAudio[] [static]

Initial value:

 {
                "key", "AudioPortMonitor",
        
        
                0
        }

Definition at line 44 of file PortMonitor.cxx.

const char* CLAM::metadataAudioBuff[] [static]

Initial value:

 {
                "key", "AudioBuffPortMonitor",
        
        
                0
        }

Definition at line 60 of file PortMonitor.cxx.

const char* CLAM::metadataFundamental[] [static]

Initial value:

 {
                "key", "FundamentalPortMonitor",
        
        
                0
        }

Definition at line 52 of file PortMonitor.cxx.

const char* CLAM::metadataFundTrack[] [static]

Initial value:

 {
                "key", "FundTrackPortMonitor",
        
        
                0
        }

Definition at line 76 of file PortMonitor.cxx.

const char* CLAM::metadataPeaks[] [static]

Initial value:

 {
                "key", "PeaksPortMonitor",
        
        
                0
        }

Definition at line 28 of file PortMonitor.cxx.

const char* CLAM::metadataSinTracks[] [static]

Initial value:

 {
                "key", "SinTracksPortMonitor",
        
        
                0
        }

Definition at line 84 of file PortMonitor.cxx.

const char* CLAM::metadataSpecgram[] [static]

Initial value:

 {
                "key", "SpecgramPortMonitor",
        
        
                0
        }

Definition at line 68 of file PortMonitor.cxx.

const char* CLAM::metadataSpectrum[] [static]

Initial value:

 {
                "key", "SpectrumPortMonitor",
        
        
                0
        }

Definition at line 36 of file PortMonitor.cxx.

const int CLAM::MICROSECONDS_PER_SECOND = 1000000

Definition at line 82 of file xtime.hxx.

const int CLAM::MILLISECONDS_PER_SECOND = 1000

Definition at line 78 of file xtime.hxx.

Referenced by to_time().

const int CLAM::NANOSECONDS_PER_MICROSECOND = 1000

Definition at line 83 of file xtime.hxx.

const int CLAM::NANOSECONDS_PER_MILLISECOND = 1000000

Definition at line 80 of file xtime.hxx.

Referenced by to_time().

const int CLAM::NANOSECONDS_PER_SECOND = 1000000000

Definition at line 79 of file xtime.hxx.

Referenced by to_time(), to_timespec(), and to_timespec_duration().

FactoryRegistrator<ProcessingFactory, AudioPortMonitor> CLAM::regAudio = metadataAudio [static]

Definition at line 50 of file PortMonitor.cxx.

FactoryRegistrator<ProcessingFactory, AudioBuffPortMonitor> CLAM::regAudioBuff = metadataAudioBuff [static]

Definition at line 66 of file PortMonitor.cxx.

FactoryRegistrator<ProcessingFactory, FundamentalPortMonitor> CLAM::regFundamental = metadataFundamental [static]

Definition at line 58 of file PortMonitor.cxx.

FactoryRegistrator<ProcessingFactory, FundTrackPortMonitor> CLAM::regFundTrack = metadataFundTrack [static]

Definition at line 82 of file PortMonitor.cxx.

FactoryRegistrator<ProcessingFactory, PeaksPortMonitor> CLAM::regPeaks = metadataPeaks [static]

Definition at line 34 of file PortMonitor.cxx.

FactoryRegistrator<ProcessingFactory, SinTracksPortMonitor> CLAM::regSinTracks = metadataSinTracks [static]

Definition at line 90 of file PortMonitor.cxx.

FactoryRegistrator<ProcessingFactory, SpecgramPortMonitor> CLAM::regSpecgram = metadataSpecgram [static]

Definition at line 74 of file PortMonitor.cxx.

FactoryRegistrator<ProcessingFactory, SpectrumPortMonitor> CLAM::regSpectrum = metadataSpectrum [static]

Definition at line 42 of file PortMonitor.cxx.

O< 2 > * CLAM::SecondOrder

Definition at line 28 of file Order.cxx.

Referenced by CLAM::SpectralDescriptors::ConcreteCompute().

O< 3 > * CLAM::ThirdOrder

Definition at line 29 of file Order.cxx.

Referenced by CLAM::SpectralDescriptors::ConcreteCompute().