Blame - media/libmedia/ToneGenerator.cpp - android_frameworks_av

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The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	1	/*
				2	* Copyright (C) 2008 The Android Open Source Project
				3	*
				4	* Licensed under the Apache License, Version 2.0 (the "License");
				5	* you may not use this file except in compliance with the License.
				6	* You may obtain a copy of the License at
				7	*
				8	* http://www.apache.org/licenses/LICENSE-2.0
				9	*
				10	* Unless required by applicable law or agreed to in writing, software
				11	* distributed under the License is distributed on an "AS IS" BASIS,
				12	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
				13	* See the License for the specific language governing permissions and
				14	* limitations under the License.
				15	*/
				16
				17	//#define LOG_NDEBUG 0
				18	#define LOG_TAG "ToneGenerator"
				19	#include <utils/threads.h>
				20
				21	#include <stdio.h>
				22	#include <math.h>
				23	#include <utils/Log.h>
				24	#include <sys/resource.h>
				25	#include <utils/RefBase.h>
				26	#include <utils/Timers.h>
				27	#include "media/ToneGenerator.h"
				28
				29	namespace android {
				30
				31	// Descriptors for all available tones (See ToneGenerator::ToneDescriptor class declaration for details)
				32	const ToneGenerator::ToneDescriptor
				33	ToneGenerator::toneDescriptors[NUM_TONES] = {
				34	// waveFreq[] segments[] repeatCnt
				35	{ { 1336, 941, 0 }, { ToneGenerator::TONEGEN_INF, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_DTMF_0
				36	{ { 1209, 697, 0 }, { ToneGenerator::TONEGEN_INF, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_DTMF_1
				37	{ { 1336, 697, 0 }, { ToneGenerator::TONEGEN_INF, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_DTMF_2
				38	{ { 1477, 697, 0 }, { ToneGenerator::TONEGEN_INF, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_DTMF_3
				39	{ { 1209, 770, 0 }, { ToneGenerator::TONEGEN_INF, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_DTMF_4
				40	{ { 1336, 770, 0 }, { ToneGenerator::TONEGEN_INF, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_DTMF_5
				41	{ { 1477, 770, 0 }, { ToneGenerator::TONEGEN_INF, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_DTMF_6
				42	{ { 1209, 852, 0 }, { ToneGenerator::TONEGEN_INF, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_DTMF_7
				43	{ { 1336, 852, 0 }, { ToneGenerator::TONEGEN_INF, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_DTMF_8
				44	{ { 1477, 852, 0 }, { ToneGenerator::TONEGEN_INF, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_DTMF_9
				45	{ { 1209, 941, 0 }, { ToneGenerator::TONEGEN_INF, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_DTMF_S
				46	{ { 1477, 941, 0 }, { ToneGenerator::TONEGEN_INF, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_DTMF_P
				47	{ { 1633, 697, 0 }, { ToneGenerator::TONEGEN_INF, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_DTMF_A
				48	{ { 1633, 770, 0 }, { ToneGenerator::TONEGEN_INF, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_DTMF_B
				49	{ { 1633, 852, 0 }, { ToneGenerator::TONEGEN_INF, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_DTMF_C
				50	{ { 1633, 941, 0 }, { ToneGenerator::TONEGEN_INF, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_DTMF_D
				51	{ { 425, 0 }, { ToneGenerator::TONEGEN_INF, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_SUP_DIAL
				52	{ { 425, 0 }, { 500, 500, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_SUP_BUSY
				53	{ { 425, 0 }, { 200, 200, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_SUP_CONGESTION
				54	{ { 425, 0 }, { 200, 0 }, 0 }, // TONE_SUP_RADIO_ACK
				55	{ { 425, 0 }, { 200, 200, 0 }, 2 }, // TONE_SUP_RADIO_NOTAVAIL
				56	{ { 950, 1400, 1800, 0 }, { 330, 1000, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_SUP_ERROR
				57	{ { 425, 0 }, { 200, 600, 200, 3000, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_SUP_CALL_WAITING
				58	{ { 425, 0 }, { 1000, 4000, 0 }, ToneGenerator::TONEGEN_INF }, // TONE_SUP_RINGTONE
				59	{ { 400, 1200, 0 }, { 35, 0 }, 0 }, // TONE_PROP_BEEP
				60	{ { 1200, 0 }, { 100, 100, 0 }, 1 }, // TONE_PROP_ACK
				61	{ { 300, 400, 500, 0 }, { 400, 0 }, 0 }, // TONE_PROP_NACK
				62	{ { 400, 1200, 0 }, { 200, 0 }, 0 }, // TONE_PROP_PROMPT
				63	{ { 400, 1200, 0 }, { 35, 200, 35, 0 }, 0 } // TONE_PROP_BEEP2
				64	};
				65
				66	////////////////////////////////////////////////////////////////////////////////
				67	// ToneGenerator class Implementation
				68	////////////////////////////////////////////////////////////////////////////////
				69
				70
				71	//---------------------------------- public methods ----------------------------
				72
				73
				74	////////////////////////////////////////////////////////////////////////////////
				75	//
				76	// Method: ToneGenerator::ToneGenerator()
				77	//
				78	// Description: Constructor. Initializes the tone sequencer, intantiates required sine wave
				79	// generators, instantiates output audio track.
				80	//
				81	// Input:
				82	// toneType: Type of tone generated (values in enum tone_type)
				83	// streamType: Type of stream used for tone playback (enum AudioTrack::stream_type)
				84	// volume: volume applied to tone (0.0 to 1.0)
				85	//
				86	// Output:
				87	// none
				88	//
				89	////////////////////////////////////////////////////////////////////////////////
				90	ToneGenerator::ToneGenerator(int streamType, float volume) {
The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	91
				92	LOGV("ToneGenerator constructor: streamType=%d, volume=%f\n", streamType, volume);
				93
				94	mState = TONE_IDLE;
The Android Open Source Project	7b5eb02	2008-12-17 18:05:43 -0800	[diff] [blame^]	95
				96	if (AudioSystem::getOutputSamplingRate(&mSamplingRate) != NO_ERROR) {
				97	LOGE("Unable to marshal AudioFlinger");
				98	return;
				99	}
				100	if (AudioSystem::getOutputFrameCount(&mBufferSize) != NO_ERROR) {
				101	LOGE("Unable to marshal AudioFlinger");
				102	return;
				103	}
				104	mStreamType = streamType;
				105	mVolume = volume;
The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	106	mpAudioTrack = 0;
				107	mpToneDesc = 0;
				108	mpNewToneDesc = 0;
				109
The Android Open Source Project	7b5eb02	2008-12-17 18:05:43 -0800	[diff] [blame^]	110	if (initAudioTrack()) {
				111	LOGV("ToneGenerator INIT OK, time: %d\n", (unsigned int)(systemTime()/1000000));
				112	} else {
				113	LOGV("!!!ToneGenerator INIT FAILED!!!\n");
The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	114	}
The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	115	}
				116
The Android Open Source Project	7b5eb02	2008-12-17 18:05:43 -0800	[diff] [blame^]	117
				118
				119
The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	120	////////////////////////////////////////////////////////////////////////////////
				121	//
				122	// Method: ToneGenerator::~ToneGenerator()
				123	//
				124	// Description: Destructor. Stop sound playback and delete audio track if
				125	// needed and delete sine wave generators.
				126	//
				127	// Input:
				128	// none
				129	//
				130	// Output:
				131	// none
				132	//
				133	////////////////////////////////////////////////////////////////////////////////
				134	ToneGenerator::~ToneGenerator() {
				135	LOGV("ToneGenerator destructor\n");
				136
				137	if (mpAudioTrack) {
				138	stopTone();
				139	LOGV("Delete Track: %p\n", mpAudioTrack);
				140	delete mpAudioTrack;
				141	}
				142	}
				143
				144	////////////////////////////////////////////////////////////////////////////////
				145	//
				146	// Method: ToneGenerator::startTone()
				147	//
				148	// Description: Starts tone playback.
				149	//
				150	// Input:
				151	// none
				152	//
				153	// Output:
				154	// none
				155	//
				156	////////////////////////////////////////////////////////////////////////////////
				157	bool ToneGenerator::startTone(int toneType) {
				158	bool lResult = false;
				159
The Android Open Source Project	7b5eb02	2008-12-17 18:05:43 -0800	[diff] [blame^]	160	if (toneType >= NUM_TONES)
The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	161	return lResult;
				162
The Android Open Source Project	7b5eb02	2008-12-17 18:05:43 -0800	[diff] [blame^]	163	if (mState == TONE_IDLE) {
				164	LOGV("startTone: try to re-init AudioTrack");
				165	if (!initAudioTrack()) {
				166	return lResult;
				167	}
				168	}
				169
The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	170	LOGV("startTone\n");
				171
				172	mLock.lock();
				173
				174	// Get descriptor for requested tone
				175	mpNewToneDesc = &toneDescriptors[toneType];
				176
				177	if (mState == TONE_INIT) {
				178	if (prepareWave()) {
				179	LOGV("Immediate start, time %d\n", (unsigned int)(systemTime()/1000000));
				180
				181	mState = TONE_STARTING;
				182	mLock.unlock();
				183	mpAudioTrack->start();
				184	mLock.lock();
				185	if (mState == TONE_STARTING) {
The Android Open Source Project	7b5eb02	2008-12-17 18:05:43 -0800	[diff] [blame^]	186	if (mWaitCbkCond.waitRelative(mLock, seconds(1)) != NO_ERROR) {
The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	187	LOGE("--- timed out");
The Android Open Source Project	7b5eb02	2008-12-17 18:05:43 -0800	[diff] [blame^]	188	mState = TONE_IDLE;
				189	}
The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	190	}
				191
				192	if (mState == TONE_PLAYING)
				193	lResult = true;
				194	}
				195	} else {
				196	LOGV("Delayed start\n");
				197
				198	mState = TONE_RESTARTING;
				199	if (mWaitCbkCond.waitRelative(mLock, seconds(1)) == NO_ERROR) {
				200	if (mState != TONE_INIT) {
				201	lResult = true;
				202	}
				203	LOGV("cond received");
				204	} else {
				205	LOGE("--- timed out");
The Android Open Source Project	7b5eb02	2008-12-17 18:05:43 -0800	[diff] [blame^]	206	mState = TONE_IDLE;
The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	207	}
				208	}
				209	mLock.unlock();
				210
				211	LOGV("Tone started, time %d\n", (unsigned int)(systemTime()/1000000));
				212
				213	return lResult;
				214	}
				215
				216	////////////////////////////////////////////////////////////////////////////////
				217	//
				218	// Method: ToneGenerator::stopTone()
				219	//
				220	// Description: Stops tone playback.
				221	//
				222	// Input:
				223	// none
				224	//
				225	// Output:
				226	// none
				227	//
				228	////////////////////////////////////////////////////////////////////////////////
				229	void ToneGenerator::stopTone() {
				230	LOGV("stopTone");
				231
				232	mLock.lock();
				233	if (mState == TONE_PLAYING \|\| mState == TONE_STARTING \|\| mState == TONE_RESTARTING) {
				234	mState = TONE_STOPPING;
				235	LOGV("waiting cond");
				236	status_t lStatus = mWaitCbkCond.waitRelative(mLock, seconds(1));
				237	if (lStatus == NO_ERROR) {
				238	LOGV("track stop complete, time %d", (unsigned int)(systemTime()/1000000));
				239	} else {
				240	LOGE("--- timed out");
The Android Open Source Project	7b5eb02	2008-12-17 18:05:43 -0800	[diff] [blame^]	241	mState = TONE_IDLE;
				242	mpAudioTrack->stop();
The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	243	}
				244	}
				245
				246	clearWaveGens();
				247
				248	mLock.unlock();
				249	}
				250
				251	//---------------------------------- private methods ---------------------------
				252
				253
The Android Open Source Project	7b5eb02	2008-12-17 18:05:43 -0800	[diff] [blame^]	254
				255
				256	////////////////////////////////////////////////////////////////////////////////
				257	//
				258	// Method: ToneGenerator::initAudioTrack()
				259	//
				260	// Description: Allocates and configures AudioTrack used for PCM output.
				261	//
				262	// Input:
				263	// none
				264	//
				265	// Output:
				266	// none
				267	//
				268	////////////////////////////////////////////////////////////////////////////////
				269	bool ToneGenerator::initAudioTrack() {
				270
				271	if (mpAudioTrack) {
				272	delete mpAudioTrack;
				273	mpAudioTrack = 0;
				274	}
				275
				276	// Open audio track in mono, PCM 16bit, default sampling rate, 2 buffers of
				277	mpAudioTrack
				278	= new AudioTrack(mStreamType, 0, AudioSystem::PCM_16_BIT, 1, NUM_PCM_BUFFERS*mBufferSize, 0, audioCallback, this, mBufferSize);
				279
				280	if (mpAudioTrack == 0) {
				281	LOGE("AudioTrack allocation failed");
				282	goto initAudioTrack_exit;
				283	}
				284	LOGV("Create Track: %p\n", mpAudioTrack);
				285
				286	if (mpAudioTrack->initCheck() != NO_ERROR) {
				287	LOGE("AudioTrack->initCheck failed");
				288	goto initAudioTrack_exit;
				289	}
				290
				291	mpAudioTrack->setVolume(mVolume, mVolume);
				292
				293	mState = TONE_INIT;
				294
				295	return true;
				296
				297	initAudioTrack_exit:
				298
				299	// Cleanup
				300	if (mpAudioTrack) {
				301	LOGV("Delete Track I: %p\n", mpAudioTrack);
				302	delete mpAudioTrack;
				303	mpAudioTrack = 0;
				304	}
				305
				306	return false;
				307	}
				308
				309
The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	310	////////////////////////////////////////////////////////////////////////////////
				311	//
				312	// Method: ToneGenerator::audioCallback()
				313	//
				314	// Description: AudioTrack callback implementation. Generates a block of
				315	// PCM samples
				316	// and manages tone generator sequencer: tones pulses, tone duration...
				317	//
				318	// Input:
				319	// user reference (pointer to our ToneGenerator)
				320	// info audio buffer descriptor
				321	//
				322	// Output:
				323	// returned value: always true.
				324	//
				325	////////////////////////////////////////////////////////////////////////////////
The Android Open Source Project	7b5eb02	2008-12-17 18:05:43 -0800	[diff] [blame^]	326	void ToneGenerator::audioCallback(int event, void* user, void *info) {
				327
				328	if (event != AudioTrack::EVENT_MORE_DATA) return;
				329
				330	const AudioTrack::Buffer buffer = static_cast<const AudioTrack::Buffer >(info);
The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	331	ToneGenerator lpToneGen = static_cast<ToneGenerator >(user);
The Android Open Source Project	7b5eb02	2008-12-17 18:05:43 -0800	[diff] [blame^]	332	short *lpOut = buffer->i16;
				333	unsigned int lReqSmp = buffer->size/sizeof(short);
The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	334	unsigned int lGenSmp;
				335	unsigned int lWaveCmd = WaveGenerator::WAVEGEN_CONT;
				336	bool lSignal = false;
				337
The Android Open Source Project	7b5eb02	2008-12-17 18:05:43 -0800	[diff] [blame^]	338	if (buffer->size == 0) return;
The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	339
				340	lpToneGen->mLock.lock();
				341
				342	// Clear output buffer: WaveGenerator accumulates into lpOut buffer
The Android Open Source Project	7b5eb02	2008-12-17 18:05:43 -0800	[diff] [blame^]	343	memset(lpOut, 0, buffer->size);
The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	344
				345	// Update pcm frame count and end time (current time at the end of this process)
				346	lpToneGen->mTotalSmp += lReqSmp;
				347
				348	// Update tone gen state machine and select wave gen command
				349	switch (lpToneGen->mState) {
				350	case TONE_PLAYING:
				351	lWaveCmd = WaveGenerator::WAVEGEN_CONT;
				352	break;
				353	case TONE_STARTING:
				354	LOGV("Starting Cbk");
				355
				356	lWaveCmd = WaveGenerator::WAVEGEN_START;
				357	break;
				358	case TONE_STOPPING:
				359	case TONE_RESTARTING:
				360	LOGV("Stop/restart Cbk");
				361
				362	lWaveCmd = WaveGenerator::WAVEGEN_STOP;
				363	lpToneGen->mNextSegSmp = TONEGEN_INF; // forced to skip state machine management below
				364	break;
				365	default:
				366	LOGV("Extra Cbk");
				367	goto audioCallback_Exit;
				368	}
				369
The Android Open Source Project	7b5eb02	2008-12-17 18:05:43 -0800	[diff] [blame^]	370	// Exit if tone sequence is over
The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	371	if (lpToneGen->mpToneDesc->segments[lpToneGen->mCurSegment] == 0) {
The Android Open Source Project	7b5eb02	2008-12-17 18:05:43 -0800	[diff] [blame^]	372	if (lpToneGen->mState == TONE_PLAYING) {
				373	lpToneGen->mState = TONE_STOPPING;
				374	}
The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	375	goto audioCallback_Exit;
				376	}
				377
				378	if (lpToneGen->mTotalSmp > lpToneGen->mNextSegSmp) {
				379	// Time to go to next sequence segment
				380
				381	LOGV("End Segment, time: %d\n", (unsigned int)(systemTime()/1000000));
				382
The Android Open Source Project	7b5eb02	2008-12-17 18:05:43 -0800	[diff] [blame^]	383	lGenSmp = lReqSmp;
The Android Open Source Project	2729ea9	2008-10-21 07:00:00 -0700	[diff] [blame]	384
				385	if (lpToneGen->mCurSegment & 0x0001) {
				386	// If odd segment, OFF -> ON transition : reset wave generator
				387	lWaveCmd = WaveGenerator::WAVEGEN_START;
				388
				389	LOGV("OFF->ON, lGenSmp: %d, lReqSmp: %d\n", lGenSmp, lReqSmp);
				390	} else {
				391	// If even segment, ON -> OFF transition : ramp volume down
				392	lWaveCmd = WaveGenerator::WAVEGEN_STOP;
				393
				394	LOGV("ON->OFF, lGenSmp: %d, lReqSmp: %d\n", lGenSmp, lReqSmp);
				395	}
				396
				397	// Pre increment segment index and handle loop if last segment reached
				398	if (lpToneGen->mpToneDesc->segments[++lpToneGen->mCurSegment] == 0) {
				399	LOGV("Last Seg: %d\n", lpToneGen->mCurSegment);
				400
				401	// Pre increment loop count and restart if total count not reached. Stop sequence otherwise
				402	if (++lpToneGen->mCurCount <= lpToneGen->mpToneDesc->repeatCnt) {
				403	LOGV("Repeating Count: %d\n", lpToneGen->mCurCount);
				404
				405	lpToneGen->mCurSegment = 0;
				406
				407	LOGV("New segment %d, Next Time: %d\n", lpToneGen->mCurSegment,
				408	(lpToneGen->mNextSegSmp*1000)/lpToneGen->mSamplingRate);
				409
				410	} else {
				411	LOGV("End repeat, time: %d\n", (unsigned int)(systemTime()/1000000));
				412
				413	// Cancel OFF->ON transition in case previous segment tone state was OFF
				414	if (!(lpToneGen->mCurSegment & 0x0001)) {
				415	lGenSmp = 0;
				416	}
				417	}
				418	} else {
				419	LOGV("New segment %d, Next Time: %d\n", lpToneGen->mCurSegment,
				420	(lpToneGen->mNextSegSmp*1000)/lpToneGen->mSamplingRate);
				421	}
				422
				423	// Update next segment transition position. No harm to do it also for last segment as lpToneGen->mNextSegSmp won't be used any more
				424	lpToneGen->mNextSegSmp
				425	+= (lpToneGen->mpToneDesc->segments[lpToneGen->mCurSegment] * lpToneGen->mSamplingRate) / 1000;
				426
				427	} else {
				428	// Inside a segment keep tone ON or OFF
				429	if (lpToneGen->mCurSegment & 0x0001) {
				430	lGenSmp = 0; // If odd segment, tone is currently OFF
				431	} else {
				432	lGenSmp = lReqSmp; // If event segment, tone is currently ON
				433	}
				434	}
				435
				436	if (lGenSmp) {
				437	// If samples must be generated, call all active wave generators and acumulate waves in lpOut
				438	unsigned int lWaveIdx;
				439
				440	for (lWaveIdx = 0; lWaveIdx < (unsigned int)lpToneGen->mWaveGens.size(); lWaveIdx++) {
				441	WaveGenerator *lpWaveGen = lpToneGen->mWaveGens[lWaveIdx];
				442	lpWaveGen->getSamples(lpOut, lGenSmp, lWaveCmd);
				443	}
				444	}
				445
				446	audioCallback_Exit:
				447
				448	switch (lpToneGen->mState) {
				449	case TONE_RESTARTING:
				450	LOGV("Cbk restarting track\n");
				451	if (lpToneGen->prepareWave()) {
				452	lpToneGen->mState = TONE_STARTING;
				453	} else {
				454	lpToneGen->mState = TONE_INIT;
				455	lpToneGen->mpAudioTrack->stop();
				456	}
				457	lSignal = true;
				458	break;
				459	case TONE_STOPPING:
				460	lpToneGen->mState = TONE_INIT;
				461	LOGV("Cbk Stopping track\n");
				462	lSignal = true;
				463	lpToneGen->mpAudioTrack->stop();
				464	break;
				465	case TONE_STARTING:
				466	LOGV("Cbk starting track\n");
				467	lpToneGen->mState = TONE_PLAYING;
				468	lSignal = true;
				469	break;
				470	default:
				471	break;
				472	}
				473
				474	if (lSignal)
				475	lpToneGen->mWaitCbkCond.signal();
				476	lpToneGen->mLock.unlock();
				477	}
				478
				479
				480	////////////////////////////////////////////////////////////////////////////////
				481	//
				482	// Method: ToneGenerator::prepareWave()
				483	//
				484	// Description: Prepare wave generators and reset tone sequencer state machine.
				485	// mpNewToneDesc must have been initialized befoire calling this function.
				486	// Input:
				487	// none
				488	//
				489	// Output:
				490	// returned value: true if wave generators have been created, false otherwise
				491	//
				492	////////////////////////////////////////////////////////////////////////////////
				493	bool ToneGenerator::prepareWave() {
				494	unsigned int lCnt = 0;
				495	unsigned int lNumWaves;
				496
				497	if (!mpNewToneDesc) {
				498	return false;
				499	}
				500	// Remove existing wave generators if any
				501	clearWaveGens();
				502
				503	mpToneDesc = mpNewToneDesc;
				504
				505	// Get total number of sine waves: needed to adapt sine wave gain.
				506	lNumWaves = numWaves();
				507
				508	// Instantiate as many wave generators as listed in descriptor
				509	while (lCnt < lNumWaves) {
				510	ToneGenerator::WaveGenerator *lpWaveGen =
				511	new ToneGenerator::WaveGenerator((unsigned short)mSamplingRate,
				512	mpToneDesc->waveFreq[lCnt],
				513	TONEGEN_GAIN/lNumWaves);
				514	if (lpWaveGen == 0) {
				515	goto prepareWave_exit;
				516	}
				517
				518	mWaveGens.push(lpWaveGen);
				519	LOGV("Create sine: %d\n", mpToneDesc->waveFreq[lCnt]);
				520	lCnt++;
				521	}
				522
				523	// Initialize tone sequencer
				524	mTotalSmp = 0;
				525	mCurSegment = 0;
				526	mCurCount = 0;
				527	mNextSegSmp = (mpToneDesc->segments[0] * mSamplingRate) / 1000;
				528
				529	return true;
				530
				531	prepareWave_exit:
				532
				533	clearWaveGens();
				534
				535	return false;
				536	}
				537
				538
				539	////////////////////////////////////////////////////////////////////////////////
				540	//
				541	// Method: ToneGenerator::numWaves()
				542	//
				543	// Description: Count number of sine waves needed to generate tone (e.g 2 for DTMF).
				544	//
				545	// Input:
				546	// none
				547	//
				548	// Output:
				549	// returned value: nummber of sine waves
				550	//
				551	////////////////////////////////////////////////////////////////////////////////
				552	unsigned int ToneGenerator::numWaves() {
				553	unsigned int lCnt = 0;
				554
				555	while (mpToneDesc->waveFreq[lCnt]) {
				556	lCnt++;
				557	}
				558
				559	return lCnt;
				560	}
				561
				562
				563	////////////////////////////////////////////////////////////////////////////////
				564	//
				565	// Method: ToneGenerator::clearWaveGens()
				566	//
				567	// Description: Removes all wave generators.
				568	//
				569	// Input:
				570	// none
				571	//
				572	// Output:
				573	// none
				574	//
				575	////////////////////////////////////////////////////////////////////////////////
				576	void ToneGenerator::clearWaveGens() {
				577	LOGV("Clearing mWaveGens:");
				578
				579	while (!mWaveGens.isEmpty()) {
				580	delete mWaveGens.top();
				581	mWaveGens.pop();
				582	}
				583	}
				584
				585
				586	////////////////////////////////////////////////////////////////////////////////
				587	// WaveGenerator::WaveGenerator class Implementation
				588	////////////////////////////////////////////////////////////////////////////////
				589
				590	//---------------------------------- public methods ----------------------------
				591
				592	////////////////////////////////////////////////////////////////////////////////
				593	//
				594	// Method: WaveGenerator::WaveGenerator()
				595	//
				596	// Description: Constructor.
				597	//
				598	// Input:
				599	// samplingRate: Output sampling rate in Hz
				600	// frequency: Frequency of the sine wave to generate in Hz
				601	// volume: volume (0.0 to 1.0)
				602	//
				603	// Output:
				604	// none
				605	//
				606	////////////////////////////////////////////////////////////////////////////////
				607	ToneGenerator::WaveGenerator::WaveGenerator(unsigned short samplingRate,
				608	unsigned short frequency, float volume) {
				609	double d0;
				610	double F_div_Fs; // frequency / samplingRate
				611
				612	F_div_Fs = frequency / (double)samplingRate;
				613	d0 = - (float)GEN_AMP * sin(2 * M_PI * F_div_Fs);
				614	mS2_0 = (short)d0;
				615	mS1 = 0;
				616	mS2 = mS2_0;
				617
				618	mAmplitude_Q15 = (short)(32767. * 32767. * volume / GEN_AMP);
				619	// take some margin for amplitude fluctuation
				620	if (mAmplitude_Q15 > 32500)
				621	mAmplitude_Q15 = 32500;
				622
				623	d0 = 32768.0 * cos(2 * M_PI * F_div_Fs); // Q142cos()
				624	if (d0 > 32767)
				625	d0 = 32767;
				626	mA1_Q14 = (short) d0;
				627
				628	LOGV("WaveGenerator init, mA1_Q14: %d, mS2_0: %d, mAmplitude_Q15: %d\n",
				629	mA1_Q14, mS2_0, mAmplitude_Q15);
				630	}
				631
				632	////////////////////////////////////////////////////////////////////////////////
				633	//
				634	// Method: WaveGenerator::~WaveGenerator()
				635	//
				636	// Description: Destructor.
				637	//
				638	// Input:
				639	// none
				640	//
				641	// Output:
				642	// none
				643	//
				644	////////////////////////////////////////////////////////////////////////////////
				645	ToneGenerator::WaveGenerator::~WaveGenerator() {
				646	}
				647
				648	////////////////////////////////////////////////////////////////////////////////
				649	//
				650	// Method: WaveGenerator::getSamples()
				651	//
				652	// Description: Generates count samples of a sine wave and accumulates
				653	// result in outBuffer.
				654	//
				655	// Input:
				656	// outBuffer: Output buffer where to accumulate samples.
				657	// count: number of samples to produce.
				658	// command: special action requested (see enum gen_command).
				659	//
				660	// Output:
				661	// none
				662	//
				663	////////////////////////////////////////////////////////////////////////////////
				664	void ToneGenerator::WaveGenerator::getSamples(short *outBuffer,
				665	unsigned int count, unsigned int command) {
				666	long lS1, lS2;
				667	long lA1, lAmplitude;
				668	long Sample; // current sample
				669
				670	// init local
				671	if (command == WAVEGEN_START) {
				672	lS1 = (long)0;
				673	lS2 = (long)mS2_0;
				674	} else {
				675	lS1 = (long)mS1;
				676	lS2 = (long)mS2;
				677	}
				678	lA1 = (long)mA1_Q14;
				679	lAmplitude = (long)mAmplitude_Q15;
				680
				681	if (command == WAVEGEN_STOP) {
				682	lAmplitude <<= 16;
				683	if (count == 0) {
				684	return;
				685	}
				686	long dec = lAmplitude/count;
				687	// loop generation
				688	while (count--) {
				689	Sample = ((lA1 * lS1) >> S_Q14) - lS2;
				690	// shift delay
				691	lS2 = lS1;
				692	lS1 = Sample;
				693	Sample = ((lAmplitude>>16) * Sample) >> S_Q15;
				694	*(outBuffer++) += (short)Sample; // put result in buffer
				695	lAmplitude -= dec;
				696	}
				697	} else {
				698	// loop generation
				699	while (count--) {
				700	Sample = ((lA1 * lS1) >> S_Q14) - lS2;
				701	// shift delay
				702	lS2 = lS1;
				703	lS1 = Sample;
				704	Sample = (lAmplitude * Sample) >> S_Q15;
				705	*(outBuffer++) += (short)Sample; // put result in buffer
				706	}
				707	}
				708
				709	// save status
				710	mS1 = (short)lS1;
				711	mS2 = (short)lS2;
				712	}
				713
				714	} // end namespace android
				715