include/media/ToneGenerator.h - platform/frameworks/base - Gitiles

 /*
  * Copyright (C) 2008 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef ANDROID_TONEGENERATOR_H_
 #define ANDROID_TONEGENERATOR_H_

 #include <utils/RefBase.h>
 #include <utils/Vector.h>
 #include <utils/threads.h>
 #include <media/AudioSystem.h>
 #include <media/AudioTrack.h>

 namespace android {

 class ToneGenerator {
 public:

     // List of all available tones
     // This enum must be kept consistant with constants in ToneGenerator JAVA class
     enum tone_type {
         // DTMF tones  ITU-T Recommendation Q.23
         TONE_DTMF_0 = 0,  // 0 key: 1336Hz, 941Hz
         TONE_DTMF_1,  // 1 key: 1209Hz, 697Hz
         TONE_DTMF_2,  // 2 key: 1336Hz, 697Hz
         TONE_DTMF_3,  // 3 key: 1477Hz, 697Hz
         TONE_DTMF_4,  // 4 key: 1209Hz, 770Hz
         TONE_DTMF_5,  // 5 key: 1336Hz, 770Hz
         TONE_DTMF_6,  // 6 key: 1477Hz, 770Hz
         TONE_DTMF_7,  // 7 key: 1209Hz, 852Hz
         TONE_DTMF_8,  // 8 key: 1336Hz, 852Hz
         TONE_DTMF_9,  // 9 key: 1477Hz, 852Hz
         TONE_DTMF_S,  // * key: 1209Hz, 941Hz
         TONE_DTMF_P,  // # key: 1477Hz, 941Hz
         TONE_DTMF_A,  // A key: 1633Hz, 697Hz
         TONE_DTMF_B,  // B key: 1633Hz, 770Hz
         TONE_DTMF_C,  // C key: 1633Hz, 852Hz
         TONE_DTMF_D,  // D key: 1633Hz, 941Hz
         // Call supervisory tones:  3GPP TS 22.001 (CEPT)
         TONE_SUP_DIAL,  // Dial tone: 425Hz, continuous
         TONE_SUP_BUSY,  // Busy tone: 425Hz, 500ms ON, 500ms OFF...
         TONE_SUP_CONGESTION,  // Congestion tone: 425Hz, 200ms ON, 200ms OFF...
         TONE_SUP_RADIO_ACK,  // Radio path acknowlegment: 425Hz, 200ms ON
         TONE_SUP_RADIO_NOTAVAIL,  // Radio path not available: 425Hz, 200ms ON, 200 OFF 3 bursts
         TONE_SUP_ERROR,  // Error/Special info:  950Hz+1400Hz+1800Hz, 330ms ON, 1s OFF...
         TONE_SUP_CALL_WAITING,  // Call Waiting:  425Hz, 200ms ON, 600ms OFF, 200ms ON, 3s OFF...
         TONE_SUP_RINGTONE,  // Ring Tone:  425Hz, 1s ON, 4s OFF...
         // Proprietary tones:  3GPP TS 31.111
         TONE_PROP_BEEP,  // General beep: 400Hz+1200Hz, 35ms ON
         TONE_PROP_ACK,  // Positive Acknowlgement: 1200Hz, 100ms ON, 100ms OFF 2 bursts
         TONE_PROP_NACK,  // Negative Acknowlgement: 300Hz+400Hz+500Hz, 400ms ON
         TONE_PROP_PROMPT,  // Prompt tone: 400Hz+1200Hz, 200ms ON
         TONE_PROP_BEEP2,  // General double beep: 400Hz+1200Hz, 35ms ON, 200ms OFF, 35ms on
         NUM_TONES
     };

     ToneGenerator(int streamType, float volume);
     ~ToneGenerator();

     bool startTone(int toneType);
     void stopTone();

     bool isInited() { return (mState == TONE_IDLE)?false:true;}

 private:

     enum tone_state {
         TONE_IDLE,  // ToneGenerator is being initialized or initialization failed
         TONE_INIT,  // ToneGenerator has been successfully initialized and is not playing
         TONE_STARTING,  // ToneGenerator is starting playing
         TONE_PLAYING,  // ToneGenerator is playing
         TONE_STOPPING,  // ToneGenerator is stoping
         TONE_RESTARTING  //
     };

     static const unsigned int TONEGEN_MAX_WAVES = 3;
     static const unsigned int TONEGEN_MAX_SEGMENTS = 4;  // Maximun number of elenemts in
     static const unsigned int TONEGEN_INF = 0xFFFFFFFF;  // Represents infinite time duration
     static const float TONEGEN_GAIN = 0.9;  // Default gain passed to  WaveGenerator().

     // ToneDescriptor class contains all parameters needed to generate a tone:
     //    - The array waveFreq[] contains the frequencies of all individual waves making the multi-tone.
     //        The number of sine waves varies from 1 to TONEGEN_MAX_WAVES.
     //        The first null value indicates that no more waves are needed.
     //    - The array segments[] is used to generate the tone pulses. A segment is a period of time
     //        during which the tone is ON or OFF.    Segments with even index (starting from 0)
     //        correspond to tone ON state and segments with odd index to OFF state.
     //        The data stored in segments[] is the duration of the corresponding period in ms.
     //        The first segment encountered with a 0 duration    indicates that no more segment follows.
     //    - repeatCnt indicates the number of times the sequence described by segments[] array must be repeated.
     //        When the tone generator    encounters the first 0 duration segment, it will compare repeatCnt to mCurCount.
     //        If mCurCount > repeatCnt, the tone is stopped automatically.

     class ToneDescriptor {
     public:
         unsigned short waveFreq[TONEGEN_MAX_WAVES+1];
         unsigned long segments[TONEGEN_MAX_SEGMENTS+1];
         unsigned long repeatCnt;
     };

     static const ToneDescriptor toneDescriptors[NUM_TONES];

     unsigned int mTotalSmp;  // Total number of audio samples played (gives current time)
     unsigned int mNextSegSmp;  // Position of next segment transition expressed in samples
     // NOTE: because mTotalSmp, mNextSegSmp are stored on 32 bit, current design will operate properly
     // only if tone duration is less than about 27 Hours(@44100Hz sampling rate). If this time is exceeded,
     // no crash will occur but tone sequence will show a glitch.

     unsigned short mCurSegment;  // Current segment index in ToneDescriptor segments[]
     unsigned short mCurCount;  // Current sequence repeat count
     volatile unsigned short mState;  // ToneGenerator state (tone_state)
     const ToneDescriptor *mpToneDesc;  // pointer to active tone descriptor
     const ToneDescriptor *mpNewToneDesc;  // pointer to next active tone descriptor

     int mSamplingRate;  // AudioFlinger Sampling rate
     AudioTrack *mpAudioTrack;  // Pointer to audio track used for playback
     Mutex mLock;  // Mutex to control concurent access to ToneGenerator object from audio callback and application API
     Mutex mCbkCondLock; // Mutex associated to mWaitCbkCond
     Condition mWaitCbkCond; // condition enabling interface to wait for audio callback completion after a change is requested
     float mVolume;  // Volume applied to audio track
     int mStreamType; // Audio stream used for output
     unsigned int mProcessSize;  // Size of audio blocks generated at a time by audioCallback() (in PCM frames).

     bool initAudioTrack();
     static void audioCallback(int event, void* user, void *info);
     bool prepareWave();
     unsigned int numWaves();
     void clearWaveGens();

     // WaveGenerator generates a single sine wave
     class WaveGenerator {
     public:
         enum gen_command {
             WAVEGEN_START,  // Start/restart wave from phase 0
             WAVEGEN_CONT,  // Continue wave from current phase
             WAVEGEN_STOP  // Stop wave on zero crossing
         };

         WaveGenerator(unsigned short samplingRate, unsigned short frequency,
                 float volume);
         ~WaveGenerator();

         void getSamples(short *outBuffer, unsigned int count,
                 unsigned int command);

     private:
         static const short GEN_AMP = 32000;  // amplitude of generator
         static const short S_Q14 = 14;  // shift for Q14
         static const short S_Q15 = 15;  // shift for Q15

         short mA1_Q14;  // Q14 coefficient
         // delay line of full amplitude generator
         short mS1, mS2;  // delay line S2 oldest
         short mS2_0;  // saved value for reinitialisation
         short mAmplitude_Q15;  // Q15 amplitude
     };

     Vector<WaveGenerator *> mWaveGens;  // list of active wave generators.
 };

 }
 ;  // namespace android

 #endif /*ANDROID_TONEGENERATOR_H_*/
	/*
	* Copyright (C) 2008 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef ANDROID_TONEGENERATOR_H_
	#define ANDROID_TONEGENERATOR_H_

	#include <utils/RefBase.h>
	#include <utils/Vector.h>
	#include <utils/threads.h>
	#include <media/AudioSystem.h>
	#include <media/AudioTrack.h>

	namespace android {

	class ToneGenerator {
	public:

	// List of all available tones
	// This enum must be kept consistant with constants in ToneGenerator JAVA class
	enum tone_type {
	// DTMF tones ITU-T Recommendation Q.23
	TONE_DTMF_0 = 0, // 0 key: 1336Hz, 941Hz
	TONE_DTMF_1, // 1 key: 1209Hz, 697Hz
	TONE_DTMF_2, // 2 key: 1336Hz, 697Hz
	TONE_DTMF_3, // 3 key: 1477Hz, 697Hz
	TONE_DTMF_4, // 4 key: 1209Hz, 770Hz
	TONE_DTMF_5, // 5 key: 1336Hz, 770Hz
	TONE_DTMF_6, // 6 key: 1477Hz, 770Hz
	TONE_DTMF_7, // 7 key: 1209Hz, 852Hz
	TONE_DTMF_8, // 8 key: 1336Hz, 852Hz
	TONE_DTMF_9, // 9 key: 1477Hz, 852Hz
	TONE_DTMF_S, // * key: 1209Hz, 941Hz
	TONE_DTMF_P, // # key: 1477Hz, 941Hz
	TONE_DTMF_A, // A key: 1633Hz, 697Hz
	TONE_DTMF_B, // B key: 1633Hz, 770Hz
	TONE_DTMF_C, // C key: 1633Hz, 852Hz
	TONE_DTMF_D, // D key: 1633Hz, 941Hz
	// Call supervisory tones: 3GPP TS 22.001 (CEPT)
	TONE_SUP_DIAL, // Dial tone: 425Hz, continuous
	TONE_SUP_BUSY, // Busy tone: 425Hz, 500ms ON, 500ms OFF...
	TONE_SUP_CONGESTION, // Congestion tone: 425Hz, 200ms ON, 200ms OFF...
	TONE_SUP_RADIO_ACK, // Radio path acknowlegment: 425Hz, 200ms ON
	TONE_SUP_RADIO_NOTAVAIL, // Radio path not available: 425Hz, 200ms ON, 200 OFF 3 bursts
	TONE_SUP_ERROR, // Error/Special info: 950Hz+1400Hz+1800Hz, 330ms ON, 1s OFF...
	TONE_SUP_CALL_WAITING, // Call Waiting: 425Hz, 200ms ON, 600ms OFF, 200ms ON, 3s OFF...
	TONE_SUP_RINGTONE, // Ring Tone: 425Hz, 1s ON, 4s OFF...
	// Proprietary tones: 3GPP TS 31.111
	TONE_PROP_BEEP, // General beep: 400Hz+1200Hz, 35ms ON
	TONE_PROP_ACK, // Positive Acknowlgement: 1200Hz, 100ms ON, 100ms OFF 2 bursts
	TONE_PROP_NACK, // Negative Acknowlgement: 300Hz+400Hz+500Hz, 400ms ON
	TONE_PROP_PROMPT, // Prompt tone: 400Hz+1200Hz, 200ms ON
	TONE_PROP_BEEP2, // General double beep: 400Hz+1200Hz, 35ms ON, 200ms OFF, 35ms on
	NUM_TONES
	};

	ToneGenerator(int streamType, float volume);
	~ToneGenerator();

	bool startTone(int toneType);
	void stopTone();

	bool isInited() { return (mState == TONE_IDLE)?false:true;}

	private:

	enum tone_state {
	TONE_IDLE, // ToneGenerator is being initialized or initialization failed
	TONE_INIT, // ToneGenerator has been successfully initialized and is not playing
	TONE_STARTING, // ToneGenerator is starting playing
	TONE_PLAYING, // ToneGenerator is playing
	TONE_STOPPING, // ToneGenerator is stoping
	TONE_RESTARTING //
	};

	static const unsigned int TONEGEN_MAX_WAVES = 3;
	static const unsigned int TONEGEN_MAX_SEGMENTS = 4; // Maximun number of elenemts in
	static const unsigned int TONEGEN_INF = 0xFFFFFFFF; // Represents infinite time duration
	static const float TONEGEN_GAIN = 0.9; // Default gain passed to WaveGenerator().

	// ToneDescriptor class contains all parameters needed to generate a tone:
	// - The array waveFreq[] contains the frequencies of all individual waves making the multi-tone.
	// The number of sine waves varies from 1 to TONEGEN_MAX_WAVES.
	// The first null value indicates that no more waves are needed.
	// - The array segments[] is used to generate the tone pulses. A segment is a period of time
	// during which the tone is ON or OFF. Segments with even index (starting from 0)
	// correspond to tone ON state and segments with odd index to OFF state.
	// The data stored in segments[] is the duration of the corresponding period in ms.
	// The first segment encountered with a 0 duration indicates that no more segment follows.
	// - repeatCnt indicates the number of times the sequence described by segments[] array must be repeated.
	// When the tone generator encounters the first 0 duration segment, it will compare repeatCnt to mCurCount.
	// If mCurCount > repeatCnt, the tone is stopped automatically.

	class ToneDescriptor {
	public:
	unsigned short waveFreq[TONEGEN_MAX_WAVES+1];
	unsigned long segments[TONEGEN_MAX_SEGMENTS+1];
	unsigned long repeatCnt;
	};

	static const ToneDescriptor toneDescriptors[NUM_TONES];

	unsigned int mTotalSmp; // Total number of audio samples played (gives current time)
	unsigned int mNextSegSmp; // Position of next segment transition expressed in samples
	// NOTE: because mTotalSmp, mNextSegSmp are stored on 32 bit, current design will operate properly
	// only if tone duration is less than about 27 Hours(@44100Hz sampling rate). If this time is exceeded,
	// no crash will occur but tone sequence will show a glitch.

	unsigned short mCurSegment; // Current segment index in ToneDescriptor segments[]
	unsigned short mCurCount; // Current sequence repeat count
	volatile unsigned short mState; // ToneGenerator state (tone_state)
	const ToneDescriptor *mpToneDesc; // pointer to active tone descriptor
	const ToneDescriptor *mpNewToneDesc; // pointer to next active tone descriptor

	int mSamplingRate; // AudioFlinger Sampling rate
	AudioTrack *mpAudioTrack; // Pointer to audio track used for playback
	Mutex mLock; // Mutex to control concurent access to ToneGenerator object from audio callback and application API
	Mutex mCbkCondLock; // Mutex associated to mWaitCbkCond
	Condition mWaitCbkCond; // condition enabling interface to wait for audio callback completion after a change is requested
	float mVolume; // Volume applied to audio track
	int mStreamType; // Audio stream used for output
	unsigned int mProcessSize; // Size of audio blocks generated at a time by audioCallback() (in PCM frames).

	bool initAudioTrack();
	static void audioCallback(int event, void* user, void *info);
	bool prepareWave();
	unsigned int numWaves();
	void clearWaveGens();

	// WaveGenerator generates a single sine wave
	class WaveGenerator {
	public:
	enum gen_command {
	WAVEGEN_START, // Start/restart wave from phase 0
	WAVEGEN_CONT, // Continue wave from current phase
	WAVEGEN_STOP // Stop wave on zero crossing
	};

	WaveGenerator(unsigned short samplingRate, unsigned short frequency,
	float volume);
	~WaveGenerator();

	void getSamples(short *outBuffer, unsigned int count,
	unsigned int command);

	private:
	static const short GEN_AMP = 32000; // amplitude of generator
	static const short S_Q14 = 14; // shift for Q14
	static const short S_Q15 = 15; // shift for Q15

	short mA1_Q14; // Q14 coefficient
	// delay line of full amplitude generator
	short mS1, mS2; // delay line S2 oldest
	short mS2_0; // saved value for reinitialisation
	short mAmplitude_Q15; // Q15 amplitude
	};

	Vector<WaveGenerator *> mWaveGens; // list of active wave generators.
	};

	}
	; // namespace android

	#endif /ANDROID_TONEGENERATOR_H_/