modules/audio_coding/neteq/dtmf_tone_generator.cc - src - Git at Google

 /*
  *  Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 // This class provides a generator for DTMF tones. The tone generation is based
 // on a sinusoid recursion. Each sinusoid is generated using a recursion
 // formula; x[n] = a * x[n-1] - x[n-2], where the coefficient
 // a = 2*cos(2*pi*f/fs). The recursion is started with x[-1] = 0 and
 // x[-2] = sin(2*pi*f/fs). (Note that with this initialization, the resulting
 // sinusoid gets a "negative" rotation; x[n] = sin(-2*pi*f/fs * n + phi), but
 // kept this way due to historical reasons.)
 // TODO(hlundin): Change to positive rotation?
 //
 // Each key on the telephone keypad corresponds to an "event", 0-15. Each event
 // is mapped to a tone pair, with a low and a high frequency. There are four
 // low and four high frequencies, each corresponding to a row and column,
 // respectively, on the keypad as illustrated below.
 //
 //          1209 Hz  1336 Hz  1477 Hz  1633 Hz
 // 697 Hz      1        2        3       12
 // 770 Hz      4        5        6       13
 // 852 Hz      7        8        9       14
 // 941 Hz     10        0       11       15

 #include "modules/audio_coding/neteq/dtmf_tone_generator.h"

 #include "modules/audio_coding/neteq/audio_vector.h"
 #include "rtc_base/arraysize.h"
 #include "rtc_base/checks.h"

 namespace webrtc {

 // The filter coefficient a = 2*cos(2*pi*f/fs) for the low frequency tone, for
 // sample rates fs = {8000, 16000, 32000, 48000} Hz, and events 0 through 15.
 // Values are in Q14.
 const int DtmfToneGenerator::kCoeff1[4][16] = {
     {24219, 27980, 27980, 27980, 26956, 26956, 26956, 25701, 25701, 25701,
      24219, 24219, 27980, 26956, 25701, 24219},
     {30556, 31548, 31548, 31548, 31281, 31281, 31281, 30951, 30951, 30951,
      30556, 30556, 31548, 31281, 30951, 30556},
     {32210, 32462, 32462, 32462, 32394, 32394, 32394, 32311, 32311, 32311,
      32210, 32210, 32462, 32394, 32311, 32210},
     {32520, 32632, 32632, 32632, 32602, 32602, 32602, 32564, 32564, 32564,
      32520, 32520, 32632, 32602, 32564, 32520}};

 // The filter coefficient a = 2*cos(2*pi*f/fs) for the high frequency tone, for
 // sample rates fs = {8000, 16000, 32000, 48000} Hz, and events 0 through 15.
 // Values are in Q14.
 const int DtmfToneGenerator::kCoeff2[4][16] = {
     {16325, 19073, 16325, 13085, 19073, 16325, 13085, 19073, 16325, 13085,
      19073, 13085, 9315, 9315, 9315, 9315},
     {28361, 29144, 28361, 27409, 29144, 28361, 27409, 29144, 28361, 27409,
      29144, 27409, 26258, 26258, 26258, 26258},
     {31647, 31849, 31647, 31400, 31849, 31647, 31400, 31849, 31647, 31400,
      31849, 31400, 31098, 31098, 31098, 31098},
     {32268, 32359, 32268, 32157, 32359, 32268, 32157, 32359, 32268, 32157,
      32359, 32157, 32022, 32022, 32022, 32022}};

 // The initialization value x[-2] = sin(2*pi*f/fs) for the low frequency tone,
 // for sample rates fs = {8000, 16000, 32000, 48000} Hz, and events 0-15.
 // Values are in Q14.
 const int DtmfToneGenerator::kInitValue1[4][16] = {
     {11036, 8528, 8528, 8528, 9315, 9315, 9315, 10163, 10163, 10163, 11036,
      11036, 8528, 9315, 10163, 11036},
     {5918, 4429, 4429, 4429, 4879, 4879, 4879, 5380, 5380, 5380, 5918, 5918,
      4429, 4879, 5380, 5918},
     {3010, 2235, 2235, 2235, 2468, 2468, 2468, 2728, 2728, 2728, 3010, 3010,
      2235, 2468, 2728, 3010},
     {2013, 1493, 1493, 1493, 1649, 1649, 1649, 1823, 1823, 1823, 2013, 2013,
      1493, 1649, 1823, 2013}};

 // The initialization value x[-2] = sin(2*pi*f/fs) for the high frequency tone,
 // for sample rates fs = {8000, 16000, 32000, 48000} Hz, and events 0-15.
 // Values are in Q14.
 const int DtmfToneGenerator::kInitValue2[4][16] = {
     {14206, 13323, 14206, 15021, 13323, 14206, 15021, 13323, 14206, 15021,
      13323, 15021, 15708, 15708, 15708, 15708},
     {8207, 7490, 8207, 8979, 7490, 8207, 8979, 7490, 8207, 8979, 7490, 8979,
      9801, 9801, 9801, 9801},
     {4249, 3853, 4249, 4685, 3853, 4249, 4685, 3853, 4249, 4685, 3853, 4685,
      5164, 5164, 5164, 5164},
     {2851, 2582, 2851, 3148, 2582, 2851, 3148, 2582, 2851, 3148, 2582, 3148,
      3476, 3476, 3476, 3476}};

 // Amplitude multipliers for volume values 0 through 63, corresponding to
 // 0 dBm0 through -63 dBm0. Values are in Q14.
 // for a in range(0, 64):
 //   print round(16141.0 * 10**(-float(a)/20))
 const int DtmfToneGenerator::kAmplitude[64] = {
     16141, 14386, 12821, 11427, 10184, 9077, 8090, 7210, 6426, 5727, 5104,
     4549,  4054,  3614,  3221,  2870,  2558, 2280, 2032, 1811, 1614, 1439,
     1282,  1143,  1018,  908,   809,   721,  643,  573,  510,  455,  405,
     361,   322,   287,   256,   228,   203,  181,  161,  144,  128,  114,
     102,   91,    81,    72,    64,    57,   51,   45,   41,   36,   32,
     29,    26,    23,    20,    18,    16,   14,   13,   11};

 // Constructor.
 DtmfToneGenerator::DtmfToneGenerator()
     : initialized_(false), coeff1_(0), coeff2_(0), amplitude_(0) {}

 // Initialize the DTMF generator with sample rate fs Hz (8000, 16000, 32000,
 // 48000), event (0-15) and attenuation (0-36 dB).
 // Returns 0 on success, otherwise an error code.
 int DtmfToneGenerator::Init(int fs, int event, int attenuation) {
   initialized_ = false;
   size_t fs_index;
   if (fs == 8000) {
     fs_index = 0;
   } else if (fs == 16000) {
     fs_index = 1;
   } else if (fs == 32000) {
     fs_index = 2;
   } else if (fs == 48000) {
     fs_index = 3;
   } else {
     RTC_NOTREACHED();
     fs_index = 1;  // Default to 8000 Hz.
   }

   if (event < 0 || event > 15) {
     return kParameterError;  // Invalid event number.
   }

   if (attenuation < 0 || attenuation > 63) {
     return kParameterError;  // Invalid attenuation.
   }

   // Look up oscillator coefficient for low and high frequencies.
   RTC_DCHECK_LE(0, fs_index);
   RTC_DCHECK_GT(arraysize(kCoeff1), fs_index);
   RTC_DCHECK_GT(arraysize(kCoeff2), fs_index);
   RTC_DCHECK_LE(0, event);
   RTC_DCHECK_GT(arraysize(kCoeff1[fs_index]), event);
   RTC_DCHECK_GT(arraysize(kCoeff2[fs_index]), event);
   coeff1_ = kCoeff1[fs_index][event];
   coeff2_ = kCoeff2[fs_index][event];

   // Look up amplitude multiplier.
   RTC_DCHECK_LE(0, attenuation);
   RTC_DCHECK_GT(arraysize(kAmplitude), attenuation);
   amplitude_ = kAmplitude[attenuation];

   // Initialize sample history.
   RTC_DCHECK_LE(0, fs_index);
   RTC_DCHECK_GT(arraysize(kInitValue1), fs_index);
   RTC_DCHECK_GT(arraysize(kInitValue2), fs_index);
   RTC_DCHECK_LE(0, event);
   RTC_DCHECK_GT(arraysize(kInitValue1[fs_index]), event);
   RTC_DCHECK_GT(arraysize(kInitValue2[fs_index]), event);
   sample_history1_[0] = kInitValue1[fs_index][event];
   sample_history1_[1] = 0;
   sample_history2_[0] = kInitValue2[fs_index][event];
   sample_history2_[1] = 0;

   initialized_ = true;
   return 0;
 }

 // Reset tone generator to uninitialized state.
 void DtmfToneGenerator::Reset() {
   initialized_ = false;
 }

 // Generate num_samples of DTMF signal and write to |output|.
 int DtmfToneGenerator::Generate(size_t num_samples, AudioMultiVector* output) {
   if (!initialized_) {
     return kNotInitialized;
   }

   if (!output) {
     return kParameterError;
   }

   output->AssertSize(num_samples);
   for (size_t i = 0; i < num_samples; ++i) {
     // Use recursion formula y[n] = a * y[n - 1] - y[n - 2].
     int16_t temp_val_low =
         ((coeff1_ * sample_history1_[1] + 8192) >> 14) - sample_history1_[0];
     int16_t temp_val_high =
         ((coeff2_ * sample_history2_[1] + 8192) >> 14) - sample_history2_[0];

     // Update recursion memory.
     sample_history1_[0] = sample_history1_[1];
     sample_history1_[1] = temp_val_low;
     sample_history2_[0] = sample_history2_[1];
     sample_history2_[1] = temp_val_high;

     // Attenuate the low frequency tone 3 dB.
     int32_t temp_val =
         kAmpMultiplier * temp_val_low + temp_val_high * (1 << 15);
     // Normalize the signal to Q14 with proper rounding.
     temp_val = (temp_val + 16384) >> 15;
     // Scale the signal to correct volume.
     (*output)[0][i] =
         static_cast<int16_t>((temp_val * amplitude_ + 8192) >> 14);
   }
   // Copy first channel to all other channels.
   for (size_t channel = 1; channel < output->Channels(); ++channel) {
     output->CopyChannel(0, channel);
   }

   return static_cast<int>(num_samples);
 }

 bool DtmfToneGenerator::initialized() const {
   return initialized_;
 }

 }  // namespace webrtc
	/*
	* Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	// This class provides a generator for DTMF tones. The tone generation is based
	// on a sinusoid recursion. Each sinusoid is generated using a recursion
	// formula; x[n] = a * x[n-1] - x[n-2], where the coefficient
	// a = 2cos(2pi*f/fs). The recursion is started with x[-1] = 0 and
	// x[-2] = sin(2pif/fs). (Note that with this initialization, the resulting
	// sinusoid gets a "negative" rotation; x[n] = sin(-2pif/fs * n + phi), but
	// kept this way due to historical reasons.)
	// TODO(hlundin): Change to positive rotation?
	//
	// Each key on the telephone keypad corresponds to an "event", 0-15. Each event
	// is mapped to a tone pair, with a low and a high frequency. There are four
	// low and four high frequencies, each corresponding to a row and column,
	// respectively, on the keypad as illustrated below.
	//
	// 1209 Hz 1336 Hz 1477 Hz 1633 Hz
	// 697 Hz 1 2 3 12
	// 770 Hz 4 5 6 13
	// 852 Hz 7 8 9 14
	// 941 Hz 10 0 11 15

	#include "modules/audio_coding/neteq/dtmf_tone_generator.h"

	#include "modules/audio_coding/neteq/audio_vector.h"
	#include "rtc_base/arraysize.h"
	#include "rtc_base/checks.h"

	namespace webrtc {

	// The filter coefficient a = 2cos(2pi*f/fs) for the low frequency tone, for
	// sample rates fs = {8000, 16000, 32000, 48000} Hz, and events 0 through 15.
	// Values are in Q14.
	const int DtmfToneGenerator::kCoeff1[4][16] = {
	{24219, 27980, 27980, 27980, 26956, 26956, 26956, 25701, 25701, 25701,
	24219, 24219, 27980, 26956, 25701, 24219},
	{30556, 31548, 31548, 31548, 31281, 31281, 31281, 30951, 30951, 30951,
	30556, 30556, 31548, 31281, 30951, 30556},
	{32210, 32462, 32462, 32462, 32394, 32394, 32394, 32311, 32311, 32311,
	32210, 32210, 32462, 32394, 32311, 32210},
	{32520, 32632, 32632, 32632, 32602, 32602, 32602, 32564, 32564, 32564,
	32520, 32520, 32632, 32602, 32564, 32520}};

	// The filter coefficient a = 2cos(2pi*f/fs) for the high frequency tone, for
	// sample rates fs = {8000, 16000, 32000, 48000} Hz, and events 0 through 15.
	// Values are in Q14.
	const int DtmfToneGenerator::kCoeff2[4][16] = {
	{16325, 19073, 16325, 13085, 19073, 16325, 13085, 19073, 16325, 13085,
	19073, 13085, 9315, 9315, 9315, 9315},
	{28361, 29144, 28361, 27409, 29144, 28361, 27409, 29144, 28361, 27409,
	29144, 27409, 26258, 26258, 26258, 26258},
	{31647, 31849, 31647, 31400, 31849, 31647, 31400, 31849, 31647, 31400,
	31849, 31400, 31098, 31098, 31098, 31098},
	{32268, 32359, 32268, 32157, 32359, 32268, 32157, 32359, 32268, 32157,
	32359, 32157, 32022, 32022, 32022, 32022}};

	// The initialization value x[-2] = sin(2pif/fs) for the low frequency tone,
	// for sample rates fs = {8000, 16000, 32000, 48000} Hz, and events 0-15.
	// Values are in Q14.
	const int DtmfToneGenerator::kInitValue1[4][16] = {
	{11036, 8528, 8528, 8528, 9315, 9315, 9315, 10163, 10163, 10163, 11036,
	11036, 8528, 9315, 10163, 11036},
	{5918, 4429, 4429, 4429, 4879, 4879, 4879, 5380, 5380, 5380, 5918, 5918,
	4429, 4879, 5380, 5918},
	{3010, 2235, 2235, 2235, 2468, 2468, 2468, 2728, 2728, 2728, 3010, 3010,
	2235, 2468, 2728, 3010},
	{2013, 1493, 1493, 1493, 1649, 1649, 1649, 1823, 1823, 1823, 2013, 2013,
	1493, 1649, 1823, 2013}};

	// The initialization value x[-2] = sin(2pif/fs) for the high frequency tone,
	// for sample rates fs = {8000, 16000, 32000, 48000} Hz, and events 0-15.
	// Values are in Q14.
	const int DtmfToneGenerator::kInitValue2[4][16] = {
	{14206, 13323, 14206, 15021, 13323, 14206, 15021, 13323, 14206, 15021,
	13323, 15021, 15708, 15708, 15708, 15708},
	{8207, 7490, 8207, 8979, 7490, 8207, 8979, 7490, 8207, 8979, 7490, 8979,
	9801, 9801, 9801, 9801},
	{4249, 3853, 4249, 4685, 3853, 4249, 4685, 3853, 4249, 4685, 3853, 4685,
	5164, 5164, 5164, 5164},
	{2851, 2582, 2851, 3148, 2582, 2851, 3148, 2582, 2851, 3148, 2582, 3148,
	3476, 3476, 3476, 3476}};

	// Amplitude multipliers for volume values 0 through 63, corresponding to
	// 0 dBm0 through -63 dBm0. Values are in Q14.
	// for a in range(0, 64):
	// print round(16141.0 * 10**(-float(a)/20))
	const int DtmfToneGenerator::kAmplitude[64] = {
	16141, 14386, 12821, 11427, 10184, 9077, 8090, 7210, 6426, 5727, 5104,
	4549, 4054, 3614, 3221, 2870, 2558, 2280, 2032, 1811, 1614, 1439,
	1282, 1143, 1018, 908, 809, 721, 643, 573, 510, 455, 405,
	361, 322, 287, 256, 228, 203, 181, 161, 144, 128, 114,
	102, 91, 81, 72, 64, 57, 51, 45, 41, 36, 32,
	29, 26, 23, 20, 18, 16, 14, 13, 11};

	// Constructor.
	DtmfToneGenerator::DtmfToneGenerator()
	: initialized_(false), coeff1_(0), coeff2_(0), amplitude_(0) {}

	// Initialize the DTMF generator with sample rate fs Hz (8000, 16000, 32000,
	// 48000), event (0-15) and attenuation (0-36 dB).
	// Returns 0 on success, otherwise an error code.
	int DtmfToneGenerator::Init(int fs, int event, int attenuation) {
	initialized_ = false;
	size_t fs_index;
	if (fs == 8000) {
	fs_index = 0;
	} else if (fs == 16000) {
	fs_index = 1;
	} else if (fs == 32000) {
	fs_index = 2;
	} else if (fs == 48000) {
	fs_index = 3;
	} else {
	RTC_NOTREACHED();
	fs_index = 1; // Default to 8000 Hz.
	}

	if (event < 0 \|\| event > 15) {
	return kParameterError; // Invalid event number.
	}

	if (attenuation < 0 \|\| attenuation > 63) {
	return kParameterError; // Invalid attenuation.
	}

	// Look up oscillator coefficient for low and high frequencies.
	RTC_DCHECK_LE(0, fs_index);
	RTC_DCHECK_GT(arraysize(kCoeff1), fs_index);
	RTC_DCHECK_GT(arraysize(kCoeff2), fs_index);
	RTC_DCHECK_LE(0, event);
	RTC_DCHECK_GT(arraysize(kCoeff1[fs_index]), event);
	RTC_DCHECK_GT(arraysize(kCoeff2[fs_index]), event);
	coeff1_ = kCoeff1[fs_index][event];
	coeff2_ = kCoeff2[fs_index][event];

	// Look up amplitude multiplier.
	RTC_DCHECK_LE(0, attenuation);
	RTC_DCHECK_GT(arraysize(kAmplitude), attenuation);
	amplitude_ = kAmplitude[attenuation];

	// Initialize sample history.
	RTC_DCHECK_LE(0, fs_index);
	RTC_DCHECK_GT(arraysize(kInitValue1), fs_index);
	RTC_DCHECK_GT(arraysize(kInitValue2), fs_index);
	RTC_DCHECK_LE(0, event);
	RTC_DCHECK_GT(arraysize(kInitValue1[fs_index]), event);
	RTC_DCHECK_GT(arraysize(kInitValue2[fs_index]), event);
	sample_history1_[0] = kInitValue1[fs_index][event];
	sample_history1_[1] = 0;
	sample_history2_[0] = kInitValue2[fs_index][event];
	sample_history2_[1] = 0;

	initialized_ = true;
	return 0;
	}

	// Reset tone generator to uninitialized state.
	void DtmfToneGenerator::Reset() {
	initialized_ = false;
	}

	// Generate num_samples of DTMF signal and write to \|output\|.
	int DtmfToneGenerator::Generate(size_t num_samples, AudioMultiVector* output) {
	if (!initialized_) {
	return kNotInitialized;
	}

	if (!output) {
	return kParameterError;
	}

	output->AssertSize(num_samples);
	for (size_t i = 0; i < num_samples; ++i) {
	// Use recursion formula y[n] = a * y[n - 1] - y[n - 2].
	int16_t temp_val_low =
	((coeff1_ * sample_history1_[1] + 8192) >> 14) - sample_history1_[0];
	int16_t temp_val_high =
	((coeff2_ * sample_history2_[1] + 8192) >> 14) - sample_history2_[0];

	// Update recursion memory.
	sample_history1_[0] = sample_history1_[1];
	sample_history1_[1] = temp_val_low;
	sample_history2_[0] = sample_history2_[1];
	sample_history2_[1] = temp_val_high;

	// Attenuate the low frequency tone 3 dB.
	int32_t temp_val =
	kAmpMultiplier * temp_val_low + temp_val_high * (1 << 15);
	// Normalize the signal to Q14 with proper rounding.
	temp_val = (temp_val + 16384) >> 15;
	// Scale the signal to correct volume.
	(*output)[0][i] =
	static_cast<int16_t>((temp_val * amplitude_ + 8192) >> 14);
	}
	// Copy first channel to all other channels.
	for (size_t channel = 1; channel < output->Channels(); ++channel) {
	output->CopyChannel(0, channel);
	}

	return static_cast<int>(num_samples);
	}

	bool DtmfToneGenerator::initialized() const {
	return initialized_;
	}

	} // namespace webrtc