vital::Decimator Class Reference

A ProcessorRouter that intelligently reduces audio sample rate based on configured stages. More...

#include <decimator.h>

Inheritance diagram for vital::Decimator:

Public Types
enum	{ kAudio , kNumInputs }

Public Member Functions
	Decimator (int max_stages=1)
	Constructs a Decimator with a specified maximum number of halfband stages.
virtual	~Decimator ()
	Destructor. Cleans up decimator stages.
void	init () override
	Initializes the Decimator, hooking up audio connections for each stage.
void	reset (poly_mask reset_mask) override
	Resets all decimator stages for specified voices.
virtual Processor *	clone () const override
	Cloning not implemented for the Decimator.
virtual void	process (int num_samples) override
	Main audio processing routine that checks required decimation stages and processes them.
virtual void	setOversampleAmount (int) override
	No-op for oversample amount setting, handled internally.
Public Member Functions inherited from vital::ProcessorRouter
	ProcessorRouter (int num_inputs=0, int num_outputs=0, bool control_rate=false)
	Constructs a ProcessorRouter with a specified number of inputs and outputs.
	ProcessorRouter (const ProcessorRouter &original)
	Copy constructor. Creates a new ProcessorRouter from an existing one.
virtual	~ProcessorRouter ()
	Destructor.
virtual void	setSampleRate (int sample_rate) override
	Sets the sample rate for all Processors in this router.
virtual void	addProcessor (Processor *processor)
	Adds a Processor to be managed by this router.
virtual void	addProcessorRealTime (Processor *processor)
	Adds a Processor to the router in real-time (no memory allocations).
virtual void	addIdleProcessor (Processor *processor)
	Adds a Processor that should remain idle (not processed) in the router.
virtual void	removeProcessor (Processor *processor)
	Removes a Processor from this router.
void	connect (Processor *destination, const Output *source, int index)
	Connects a source Output to a destination Processor input by index.
void	disconnect (const Processor *destination, const Output *source)
	Disconnects a source Output from a destination Processor.
bool	isDownstream (const Processor *first, const Processor *second) const
	Checks if one Processor is downstream from another, i.e., if there's a path from the second to the first.
bool	areOrdered (const Processor *first, const Processor *second) const
	Checks if the order of two Processors is fixed in the router's processing sequence.
virtual bool	isPolyphonic (const Processor *processor) const
	Determines if a given Processor is polyphonic within this router.
virtual ProcessorRouter *	getMonoRouter ()
	Gets the mono router that corresponds to this ProcessorRouter.
virtual ProcessorRouter *	getPolyRouter ()
	Gets the polyphonic router that corresponds to this ProcessorRouter.
virtual void	resetFeedbacks (poly_mask reset_mask)
	Resets all Feedback nodes within this router using a reset mask.
Public Member Functions inherited from vital::Processor
	Processor (int num_inputs, int num_outputs, bool control_rate=false, int max_oversample=1)
	Constructs a Processor with a given number of inputs/outputs and oversampling.
virtual	~Processor ()
	Virtual destructor.
virtual bool	hasState () const
	Indicates whether this Processor requires per-voice state.
virtual void	processWithInput (const poly_float *audio_in, int num_samples)
	An optional processing function taking explicit input buffer. Fallback is an assertion failure (not supported).
virtual void	hardReset ()
	Called to perform a "hard" reset for all voices.
bool	initialized ()
	Returns whether this Processor has been initialized.
force_inline bool	enabled () const
	Checks if this Processor is enabled.
virtual void	enable (bool enable)
	Enables or disables this Processor.
force_inline int	getSampleRate () const
	Retrieves the current (effective) sample rate.
force_inline int	getOversampleAmount () const
	Retrieves the current oversampling factor.
force_inline bool	isControlRate () const
	Checks if this Processor is running at control rate (buffer_size == 1).
virtual void	setControlRate (bool control_rate)
	Sets whether this Processor runs at control rate.
force_inline poly_mask	getResetMask (int input_index) const
	Retrieves a mask indicating which voices triggered a note-on event. Compares the input's trigger_value to kVoiceOn.
force_inline void	clearOutputBufferForReset (poly_mask reset_mask, int input_index, int output_index) const
	Clears output samples for voices that are about to be reset, based on the trigger offset.
bool	inputMatchesBufferSize (int input=0)
	Checks whether the buffer size of a particular input matches the size needed by this Processor.
bool	checkInputAndOutputSize (int num_samples)
	Checks if all inputs and outputs have buffers big enough for num_samples.
virtual bool	isPolyphonic () const
	Checks if this Processor is polyphonic by querying its ProcessorRouter.
void	plug (const Output *source)
	Connects an external Output to this Processor's first input.
void	plug (const Output *source, unsigned int input_index)
	Connects an external Output to a specified input index.
void	plug (const Processor *source)
	Connects the first output of a Processor to this Processor's first input.
void	plug (const Processor *source, unsigned int input_index)
	Connects the first output of a Processor to a specified input index.
void	plugNext (const Output *source)
	Connects an external Output to the first available (unplugged) input.
void	plugNext (const Processor *source)
	Connects the first output of a Processor to the first available (unplugged) input.
void	useInput (Input *input)
	Uses an existing Input object as this Processor's first input.
void	useInput (Input *input, int index)
	Uses an existing Input object at a specified input index.
void	useOutput (Output *output)
	Uses an existing Output object as this Processor's first output.
void	useOutput (Output *output, int index)
	Uses an existing Output object at a specified output index.
int	connectedInputs ()
	Counts how many inputs are connected to a real source (not null_source_).
virtual void	unplugIndex (unsigned int input_index)
	Removes the connection at a specified input index, if any.
virtual void	unplug (const Output *source)
	Removes a connection to a given Output from all inputs.
virtual void	unplug (const Processor *source)
	Removes connections to all outputs from a given Processor.
virtual void	numInputsChanged ()
	Called when the number of inputs changes (e.g., new connections). Subclasses may override for dynamic behavior.
force_inline void	router (ProcessorRouter *router)
	Sets the ProcessorRouter that owns or manages this Processor.
force_inline ProcessorRouter *	router () const
	Returns the ProcessorRouter that currently owns this Processor.
ProcessorRouter *	getTopLevelRouter () const
	Gets the topmost (root) ProcessorRouter by traversing parent routers.
virtual void	registerInput (Input *input, int index)
	Registers a new input, appending it to the input list.
virtual Output *	registerOutput (Output *output, int index)
	Registers a new Output in the output list at a specified index.
virtual void	registerInput (Input *input)
	Registers a new Input by appending it to the end of the input list.
virtual Output *	registerOutput (Output *output)
	Registers a new Output by appending it to the end of the output list.
force_inline int	numInputs () const
	Returns the total number of Input pointers (owned or otherwise).
force_inline int	numOutputs () const
	Returns the total number of Output pointers (owned or otherwise).
force_inline int	numOwnedInputs () const
	Returns how many Input objects this Processor owns.
force_inline int	numOwnedOutputs () const
	Returns how many Output objects this Processor owns.
force_inline Input *	input (unsigned int index=0) const
	Retrieves the Input pointer at a given index.
force_inline bool	isInputSourcePolyphonic (int index=0)
	Checks if the input source at a given index is polyphonic.
force_inline Input *	ownedInput (unsigned int index=0) const
	Retrieves an owned Input pointer at a given index.
force_inline Output *	output (unsigned int index=0) const
	Retrieves the Output pointer at a given index.
force_inline Output *	ownedOutput (unsigned int index=0) const
	Retrieves an owned Output pointer at a given index.
void	setPluggingStart (int start)
	Sets the position at which plugNext starts searching for an open input.

Additional Inherited Members
Protected Member Functions inherited from vital::ProcessorRouter
virtual void	addFeedback (Feedback *feedback)
	Adds a Feedback node to handle a feedback loop introduced by a connection.
virtual void	removeFeedback (Feedback *feedback)
	Removes a previously added Feedback node.
void	reorder (Processor *processor)
	Reorders the internal processing sequence to account for a Processor's dependencies.
virtual void	updateAllProcessors ()
	Updates all processors to match the global order. Called when changes occur.
force_inline bool	shouldUpdate ()
	Checks if local changes need to be synchronized with global changes.
virtual void	createAddedProcessors ()
	Creates any processors that were added at the global level but not yet replicated locally.
virtual void	deleteRemovedProcessors ()
	Deletes any processors that were removed at the global level but not yet removed locally.
const Processor *	getContext (const Processor *processor) const
	Gets the processor context within this router for a global Processor reference.
void	getDependencies (const Processor *processor) const
	Populates the internal dependencies structure for a given Processor.
Processor *	getLocalProcessor (const Processor *global_processor)
	Retrieves the local instance of a globally defined Processor.
Protected Member Functions inherited from vital::Processor
Output *	addOutput (int oversample=1)
	Creates and registers a new Output. Handles control rate vs. audio rate.
Input *	addInput ()
	Creates and registers a new Input, initially connected to null_source_.
Protected Attributes inherited from vital::ProcessorRouter
std::shared_ptr< CircularQueue< Processor * > >	global_order_
	Global processing order reference.
std::shared_ptr< CircularQueue< Processor * > >	global_reorder_
	Temporary storage for reorder operations.
CircularQueue< Processor * >	local_order_
	Local ordering of Processors.
std::map< const Processor *, std::pair< int, std::unique_ptr< Processor > > >	processors_
	Map of global to local Processors.
std::map< const Processor *, std::unique_ptr< Processor > >	idle_processors_
	Idle Processors that are not active in the graph.
std::shared_ptr< std::vector< const Feedback * > >	global_feedback_order_
	Global order of Feedback nodes.
std::vector< Feedback * >	local_feedback_order_
	Local copies of Feedback nodes.
std::map< const Processor *, std::pair< int, std::unique_ptr< Feedback > > >	feedback_processors_
	Map of global to local Feedback processors.
std::shared_ptr< int >	global_changes_
	Global change counter.
int	local_changes_
	Local change counter to track synchronization with global changes.
std::shared_ptr< CircularQueue< const Processor * > >	dependencies_
	Queue for dependencies calculations.
std::shared_ptr< CircularQueue< const Processor * > >	dependencies_visited_
	Queue of visited processors for dependencies calc.
std::shared_ptr< CircularQueue< const Processor * > >	dependency_inputs_
	Queue of processors to check inputs for dependencies.
Protected Attributes inherited from vital::Processor
std::shared_ptr< ProcessorState >	state_
	Shared state (sample rate, oversample, etc.)
int	plugging_start_
	The index at which plugNext starts searching for an unplugged input.
std::vector< std::shared_ptr< Input > >	owned_inputs_
	Inputs owned by this Processor.
std::vector< std::shared_ptr< Output > >	owned_outputs_
	Outputs owned by this Processor.
std::shared_ptr< std::vector< Input * > >	inputs_
	All inputs, owned or external.
std::shared_ptr< std::vector< Output * > >	outputs_
	All outputs, owned or external.
ProcessorRouter *	router_
	The ProcessorRouter that manages this Processor.
Static Protected Attributes inherited from vital::Processor
static const Output	null_source_
	A null (dummy) source used for unconnected inputs.

Detailed Description

A ProcessorRouter that intelligently reduces audio sample rate based on configured stages.

The Decimator manages multiple IirHalfbandDecimator stages, enabling them dynamically depending on the input sample rate relative to the output sample rate. Each stage halves the sample rate if needed.

Member Enumeration Documentation

anonymous enum

anonymous enum

Enumerator
kAudio	The main audio input to be decimated.
kNumInputs

Constructor & Destructor Documentation

Decimator()

vital::Decimator::Decimator

(

int

max_stages = 1

)

Constructs a Decimator with a specified maximum number of halfband stages.

Constructs a Decimator with up to max_stages halfband decimator stages.

Parameters

max_stages

The maximum number of stages for sample rate halving.

Each stage is created and added as a Processor but is initially disabled until needed.

Parameters

max_stages

The maximum number of halfband stages.

~Decimator()

vital::Decimator::~Decimator ( )

virtual

Destructor. Cleans up decimator stages.

Destructor. Automatically cleans up halfband decimator stages.

Member Function Documentation

clone()

virtual Processor * vital::Decimator::clone ( ) const

inlineoverridevirtual

Cloning not implemented for the Decimator.

Returns

Always returns nullptr.

Reimplemented from vital::ProcessorRouter.

init()

void vital::Decimator::init ( )

overridevirtual

Initializes the Decimator, hooking up audio connections for each stage.

Initializes the Decimator by connecting stages in sequence.

The first stage reads from the kAudio input, each subsequent stage plugs the previous stage, and all eventually output to the Decimator’s main output.

Reimplemented from vital::ProcessorRouter.

process()

void vital::Decimator::process ( int num_samples )

overridevirtual

Main audio processing routine that checks required decimation stages and processes them.

Processes audio by determining how many stages are needed and enabling them.

Parameters

num_samples

The block size to be processed.

Calculates the ratio of input sample rate to output sample rate, enabling as many halfband decimator stages as needed to reach the final sample rate. Disables any unused stages.

Parameters

num_samples

The block size to process.

Reimplemented from vital::ProcessorRouter.

reset()

void vital::Decimator::reset ( poly_mask reset_mask )

overridevirtual

Resets all decimator stages for specified voices.

Resets all decimator stages for the specified voices.

Parameters

reset_mask

A poly_mask specifying which voices should be reset.

Reimplemented from vital::Processor.

setOversampleAmount()

virtual void vital::Decimator::setOversampleAmount ( int )

inlineoverridevirtual

No-op for oversample amount setting, handled internally.

Parameters

oversample

The new oversampling factor (unused here).

Reimplemented from vital::ProcessorRouter.

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The documentation for this class was generated from the following files:

• /Users/davidvogel/repos/VitalHelp/src/synthesis/filters/decimator.h
• /Users/davidvogel/repos/VitalHelp/src/synthesis/filters/decimator.cpp