Source/WebCore/Modules/webaudio/AudioNode.h - WebKit - Git at Google

 /*
  * Copyright (C) 2010, Google Inc. All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1.  Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2.  Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  *
  * THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS'' AND ANY
  * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
  * DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS BE LIABLE FOR ANY
  * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
  * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
  * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
  * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */

 #pragma once

 #include "AudioBus.h"
 #include "EventTarget.h"
 #include "ExceptionOr.h"
 #include <wtf/Forward.h>
 #include <wtf/LoggerHelper.h>

 #define DEBUG_AUDIONODE_REFERENCES 0

 namespace WebCore {

 class AudioContext;
 class AudioNodeInput;
 class AudioNodeOutput;
 class AudioParam;

 // An AudioNode is the basic building block for handling audio within an AudioContext.
 // It may be an audio source, an intermediate processing module, or an audio destination.
 // Each AudioNode can have inputs and/or outputs. An AudioSourceNode has no inputs and a single output.
 // An AudioDestinationNode has one input and no outputs and represents the final destination to the audio hardware.
 // Most processing nodes such as filters will have one input and one output, although multiple inputs and outputs are possible.

 class AudioNode
     : public EventTargetWithInlineData
 #if !RELEASE_LOG_DISABLED
     , private LoggerHelper
 #endif
 {
     WTF_MAKE_NONCOPYABLE(AudioNode);
     WTF_MAKE_ISO_ALLOCATED(AudioNode);
 public:
     enum { ProcessingSizeInFrames = 128 };

     AudioNode(AudioContext&, float sampleRate);
     virtual ~AudioNode();

     AudioContext& context() { return m_context.get(); }
     const AudioContext& context() const { return m_context.get(); }

     enum NodeType {
         NodeTypeUnknown,
         NodeTypeDestination,
         NodeTypeOscillator,
         NodeTypeAudioBufferSource,
         NodeTypeMediaElementAudioSource,
         NodeTypeMediaStreamAudioDestination,
         NodeTypeMediaStreamAudioSource,
         NodeTypeJavaScript,
         NodeTypeBiquadFilter,
         NodeTypePanner,
         NodeTypeConvolver,
         NodeTypeDelay,
         NodeTypeGain,
         NodeTypeChannelSplitter,
         NodeTypeChannelMerger,
         NodeTypeAnalyser,
         NodeTypeDynamicsCompressor,
         NodeTypeWaveShaper,
         NodeTypeBasicInspector,
         NodeTypeEnd
     };

     enum ChannelCountMode {
         Max,
         ClampedMax,
         Explicit
     };

     NodeType nodeType() const { return m_nodeType; }
     void setNodeType(NodeType);

     // We handle our own ref-counting because of the threading issues and subtle nature of
     // how AudioNodes can continue processing (playing one-shot sound) after there are no more
     // JavaScript references to the object.
     enum RefType { RefTypeNormal, RefTypeConnection };

     // Can be called from main thread or context's audio thread.
     void ref(RefType refType = RefTypeNormal);
     void deref(RefType refType = RefTypeNormal);

     // Can be called from main thread or context's audio thread.  It must be called while the context's graph lock is held.
     void finishDeref(RefType refType);
     virtual void didBecomeMarkedForDeletion() { }

     // The AudioNodeInput(s) (if any) will already have their input data available when process() is called.
     // Subclasses will take this input data and put the results in the AudioBus(s) of its AudioNodeOutput(s) (if any).
     // Called from context's audio thread.
     virtual void process(size_t framesToProcess) = 0;

     // Resets DSP processing state (clears delay lines, filter memory, etc.)
     // Called from context's audio thread.
     virtual void reset() = 0;

     // No significant resources should be allocated until initialize() is called.
     // Processing may not occur until a node is initialized.
     virtual void initialize();
     virtual void uninitialize();

     bool isInitialized() const { return m_isInitialized; }
     void lazyInitialize();

     unsigned numberOfInputs() const { return m_inputs.size(); }
     unsigned numberOfOutputs() const { return m_outputs.size(); }

     AudioNodeInput* input(unsigned);
     AudioNodeOutput* output(unsigned);

     // Called from main thread by corresponding JavaScript methods.
     virtual ExceptionOr<void> connect(AudioNode&, unsigned outputIndex, unsigned inputIndex);
     ExceptionOr<void> connect(AudioParam&, unsigned outputIndex);
     virtual ExceptionOr<void> disconnect(unsigned outputIndex);

     virtual float sampleRate() const { return m_sampleRate; }

     // processIfNecessary() is called by our output(s) when the rendering graph needs this AudioNode to process.
     // This method ensures that the AudioNode will only process once per rendering time quantum even if it's called repeatedly.
     // This handles the case of "fanout" where an output is connected to multiple AudioNode inputs.
     // Called from context's audio thread.
     void processIfNecessary(size_t framesToProcess);

     // Called when a new connection has been made to one of our inputs or the connection number of channels has changed.
     // This potentially gives us enough information to perform a lazy initialization or, if necessary, a re-initialization.
     // Called from main thread.
     virtual void checkNumberOfChannelsForInput(AudioNodeInput*);

 #if DEBUG_AUDIONODE_REFERENCES
     static void printNodeCounts();
 #endif

     bool isMarkedForDeletion() const { return m_isMarkedForDeletion; }

     // tailTime() is the length of time (not counting latency time) where non-zero output may occur after continuous silent input.
     virtual double tailTime() const = 0;
     // latencyTime() is the length of time it takes for non-zero output to appear after non-zero input is provided. This only applies to
     // processing delay which is an artifact of the processing algorithm chosen and is *not* part of the intrinsic desired effect. For
     // example, a "delay" effect is expected to delay the signal, and thus would not be considered latency.
     virtual double latencyTime() const = 0;

     // propagatesSilence() should return true if the node will generate silent output when given silent input. By default, AudioNode
     // will take tailTime() and latencyTime() into account when determining whether the node will propagate silence.
     virtual bool propagatesSilence() const;
     bool inputsAreSilent();
     void silenceOutputs();

     void enableOutputsIfNecessary();
     void disableOutputsIfNecessary();

     unsigned channelCount();
     virtual ExceptionOr<void> setChannelCount(unsigned);

     String channelCountMode();
     ExceptionOr<void> setChannelCountMode(const String&);

     String channelInterpretation();
     ExceptionOr<void> setChannelInterpretation(const String&);

     ChannelCountMode internalChannelCountMode() const { return m_channelCountMode; }
     AudioBus::ChannelInterpretation internalChannelInterpretation() const { return m_channelInterpretation; }

 protected:
     // Inputs and outputs must be created before the AudioNode is initialized.
     void addInput(std::unique_ptr<AudioNodeInput>);
     void addOutput(std::unique_ptr<AudioNodeOutput>);

     // Called by processIfNecessary() to cause all parts of the rendering graph connected to us to process.
     // Each rendering quantum, the audio data for each of the AudioNode's inputs will be available after this method is called.
     // Called from context's audio thread.
     virtual void pullInputs(size_t framesToProcess);

     // Force all inputs to take any channel interpretation changes into account.
     void updateChannelsForInputs();

 #if !RELEASE_LOG_DISABLED
     const Logger& logger() const final { return m_logger.get(); }
     const void* logIdentifier() const final { return m_logIdentifier; }
     const char* logClassName() const final { return "AudioNode"; }
     WTFLogChannel& logChannel() const final;
 #endif

 private:
     // EventTarget
     EventTargetInterface eventTargetInterface() const override;
     ScriptExecutionContext* scriptExecutionContext() const final;

     volatile bool m_isInitialized;
     NodeType m_nodeType;
     Ref<AudioContext> m_context;
     float m_sampleRate;
     Vector<std::unique_ptr<AudioNodeInput>> m_inputs;
     Vector<std::unique_ptr<AudioNodeOutput>> m_outputs;

     double m_lastProcessingTime;
     double m_lastNonSilentTime;

     // Ref-counting
     std::atomic<int> m_normalRefCount;
     std::atomic<int> m_connectionRefCount;

     bool m_isMarkedForDeletion;
     bool m_isDisabled;

 #if DEBUG_AUDIONODE_REFERENCES
     static bool s_isNodeCountInitialized;
     static int s_nodeCount[NodeTypeEnd];
 #endif

     void refEventTarget() override { ref(); }
     void derefEventTarget() override { deref(); }

 #if !RELEASE_LOG_DISABLED
     mutable Ref<const Logger> m_logger;
     const void* m_logIdentifier;
 #endif

 protected:
     unsigned m_channelCount;
     ChannelCountMode m_channelCountMode;
     AudioBus::ChannelInterpretation m_channelInterpretation;
 };

 String convertEnumerationToString(AudioNode::NodeType);

 } // namespace WebCore

 namespace WTF {

 template<> struct LogArgument<WebCore::AudioNode::NodeType> {
     static String toString(WebCore::AudioNode::NodeType type) { return convertEnumerationToString(type); }
 };

 } // namespace WTF
	/*
	* Copyright (C) 2010, Google Inc. All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	*
	* THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS'' AND ANY
	* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
	* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
	* DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS BE LIABLE FOR ANY
	* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
	* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
	* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
	* ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
	* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/

	#pragma once

	#include "AudioBus.h"
	#include "EventTarget.h"
	#include "ExceptionOr.h"
	#include <wtf/Forward.h>
	#include <wtf/LoggerHelper.h>

	#define DEBUG_AUDIONODE_REFERENCES 0

	namespace WebCore {

	class AudioContext;
	class AudioNodeInput;
	class AudioNodeOutput;
	class AudioParam;

	// An AudioNode is the basic building block for handling audio within an AudioContext.
	// It may be an audio source, an intermediate processing module, or an audio destination.
	// Each AudioNode can have inputs and/or outputs. An AudioSourceNode has no inputs and a single output.
	// An AudioDestinationNode has one input and no outputs and represents the final destination to the audio hardware.
	// Most processing nodes such as filters will have one input and one output, although multiple inputs and outputs are possible.

	class AudioNode
	: public EventTargetWithInlineData
	#if !RELEASE_LOG_DISABLED
	, private LoggerHelper
	#endif
	{
	WTF_MAKE_NONCOPYABLE(AudioNode);
	WTF_MAKE_ISO_ALLOCATED(AudioNode);
	public:
	enum { ProcessingSizeInFrames = 128 };

	AudioNode(AudioContext&, float sampleRate);
	virtual ~AudioNode();

	AudioContext& context() { return m_context.get(); }
	const AudioContext& context() const { return m_context.get(); }

	enum NodeType {
	NodeTypeUnknown,
	NodeTypeDestination,
	NodeTypeOscillator,
	NodeTypeAudioBufferSource,
	NodeTypeMediaElementAudioSource,
	NodeTypeMediaStreamAudioDestination,
	NodeTypeMediaStreamAudioSource,
	NodeTypeJavaScript,
	NodeTypeBiquadFilter,
	NodeTypePanner,
	NodeTypeConvolver,
	NodeTypeDelay,
	NodeTypeGain,
	NodeTypeChannelSplitter,
	NodeTypeChannelMerger,
	NodeTypeAnalyser,
	NodeTypeDynamicsCompressor,
	NodeTypeWaveShaper,
	NodeTypeBasicInspector,
	NodeTypeEnd
	};

	enum ChannelCountMode {
	Max,
	ClampedMax,
	Explicit
	};

	NodeType nodeType() const { return m_nodeType; }
	void setNodeType(NodeType);

	// We handle our own ref-counting because of the threading issues and subtle nature of
	// how AudioNodes can continue processing (playing one-shot sound) after there are no more
	// JavaScript references to the object.
	enum RefType { RefTypeNormal, RefTypeConnection };

	// Can be called from main thread or context's audio thread.
	void ref(RefType refType = RefTypeNormal);
	void deref(RefType refType = RefTypeNormal);

	// Can be called from main thread or context's audio thread. It must be called while the context's graph lock is held.
	void finishDeref(RefType refType);
	virtual void didBecomeMarkedForDeletion() { }

	// The AudioNodeInput(s) (if any) will already have their input data available when process() is called.
	// Subclasses will take this input data and put the results in the AudioBus(s) of its AudioNodeOutput(s) (if any).
	// Called from context's audio thread.
	virtual void process(size_t framesToProcess) = 0;

	// Resets DSP processing state (clears delay lines, filter memory, etc.)
	// Called from context's audio thread.
	virtual void reset() = 0;

	// No significant resources should be allocated until initialize() is called.
	// Processing may not occur until a node is initialized.
	virtual void initialize();
	virtual void uninitialize();

	bool isInitialized() const { return m_isInitialized; }
	void lazyInitialize();

	unsigned numberOfInputs() const { return m_inputs.size(); }
	unsigned numberOfOutputs() const { return m_outputs.size(); }

	AudioNodeInput* input(unsigned);
	AudioNodeOutput* output(unsigned);

	// Called from main thread by corresponding JavaScript methods.
	virtual ExceptionOr<void> connect(AudioNode&, unsigned outputIndex, unsigned inputIndex);
	ExceptionOr<void> connect(AudioParam&, unsigned outputIndex);
	virtual ExceptionOr<void> disconnect(unsigned outputIndex);

	virtual float sampleRate() const { return m_sampleRate; }

	// processIfNecessary() is called by our output(s) when the rendering graph needs this AudioNode to process.
	// This method ensures that the AudioNode will only process once per rendering time quantum even if it's called repeatedly.
	// This handles the case of "fanout" where an output is connected to multiple AudioNode inputs.
	// Called from context's audio thread.
	void processIfNecessary(size_t framesToProcess);

	// Called when a new connection has been made to one of our inputs or the connection number of channels has changed.
	// This potentially gives us enough information to perform a lazy initialization or, if necessary, a re-initialization.
	// Called from main thread.
	virtual void checkNumberOfChannelsForInput(AudioNodeInput*);

	#if DEBUG_AUDIONODE_REFERENCES
	static void printNodeCounts();
	#endif

	bool isMarkedForDeletion() const { return m_isMarkedForDeletion; }

	// tailTime() is the length of time (not counting latency time) where non-zero output may occur after continuous silent input.
	virtual double tailTime() const = 0;
	// latencyTime() is the length of time it takes for non-zero output to appear after non-zero input is provided. This only applies to
	// processing delay which is an artifact of the processing algorithm chosen and is not part of the intrinsic desired effect. For
	// example, a "delay" effect is expected to delay the signal, and thus would not be considered latency.
	virtual double latencyTime() const = 0;

	// propagatesSilence() should return true if the node will generate silent output when given silent input. By default, AudioNode
	// will take tailTime() and latencyTime() into account when determining whether the node will propagate silence.
	virtual bool propagatesSilence() const;
	bool inputsAreSilent();
	void silenceOutputs();

	void enableOutputsIfNecessary();
	void disableOutputsIfNecessary();

	unsigned channelCount();
	virtual ExceptionOr<void> setChannelCount(unsigned);

	String channelCountMode();
	ExceptionOr<void> setChannelCountMode(const String&);

	String channelInterpretation();
	ExceptionOr<void> setChannelInterpretation(const String&);

	ChannelCountMode internalChannelCountMode() const { return m_channelCountMode; }
	AudioBus::ChannelInterpretation internalChannelInterpretation() const { return m_channelInterpretation; }

	protected:
	// Inputs and outputs must be created before the AudioNode is initialized.
	void addInput(std::unique_ptr<AudioNodeInput>);
	void addOutput(std::unique_ptr<AudioNodeOutput>);

	// Called by processIfNecessary() to cause all parts of the rendering graph connected to us to process.
	// Each rendering quantum, the audio data for each of the AudioNode's inputs will be available after this method is called.
	// Called from context's audio thread.
	virtual void pullInputs(size_t framesToProcess);

	// Force all inputs to take any channel interpretation changes into account.
	void updateChannelsForInputs();

	#if !RELEASE_LOG_DISABLED
	const Logger& logger() const final { return m_logger.get(); }
	const void* logIdentifier() const final { return m_logIdentifier; }
	const char* logClassName() const final { return "AudioNode"; }
	WTFLogChannel& logChannel() const final;
	#endif

	private:
	// EventTarget
	EventTargetInterface eventTargetInterface() const override;
	ScriptExecutionContext* scriptExecutionContext() const final;

	volatile bool m_isInitialized;
	NodeType m_nodeType;
	Ref<AudioContext> m_context;
	float m_sampleRate;
	Vector<std::unique_ptr<AudioNodeInput>> m_inputs;
	Vector<std::unique_ptr<AudioNodeOutput>> m_outputs;

	double m_lastProcessingTime;
	double m_lastNonSilentTime;

	// Ref-counting
	std::atomic<int> m_normalRefCount;
	std::atomic<int> m_connectionRefCount;

	bool m_isMarkedForDeletion;
	bool m_isDisabled;

	#if DEBUG_AUDIONODE_REFERENCES
	static bool s_isNodeCountInitialized;
	static int s_nodeCount[NodeTypeEnd];
	#endif

	void refEventTarget() override { ref(); }
	void derefEventTarget() override { deref(); }

	#if !RELEASE_LOG_DISABLED
	mutable Ref<const Logger> m_logger;
	const void* m_logIdentifier;
	#endif

	protected:
	unsigned m_channelCount;
	ChannelCountMode m_channelCountMode;
	AudioBus::ChannelInterpretation m_channelInterpretation;
	};

	String convertEnumerationToString(AudioNode::NodeType);

	} // namespace WebCore

	namespace WTF {

	template<> struct LogArgument<WebCore::AudioNode::NodeType> {
	static String toString(WebCore::AudioNode::NodeType type) { return convertEnumerationToString(type); }
	};

	} // namespace WTF