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teensy-audio/biquad.h

biquad.h 6.3KB
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async spdif input added
vor 4 Jahren
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  1. /* Audio Library for Teensy 3.X

  2.  * Copyright (c) 2019, Paul Stoffregen, paul@pjrc.com

  3.  *

  4.  * Development of this audio library was funded by PJRC.COM, LLC by sales of

  5.  * Teensy and Audio Adaptor boards.  Please support PJRC's efforts to develop

  6.  * open source software by purchasing Teensy or other PJRC products.

  7.  *

  8.  * Permission is hereby granted, free of charge, to any person obtaining a copy

  9.  * of this software and associated documentation files (the "Software"), to deal

  10.  * in the Software without restriction, including without limitation the rights

  11.  * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell

  12.  * copies of the Software, and to permit persons to whom the Software is

  13.  * furnished to do so, subject to the following conditions:

  14.  *

  15.  * The above copyright notice, development funding notice, and this permission

  16.  * notice shall be included in all copies or substantial portions of the Software.

  17.  *

  18.  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR

  19.  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,

  20.  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE

  21.  * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER

  22.  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,

  23.  * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN

  24.  * THE SOFTWARE.

  25.  */

  26. /*

  27.  by Alexander Walch

  28.  */

  29. #ifndef biquad_coeffs_h_

  30. #define biquad_coeffs_h_

  31. 

  32. #include "Arduino.h"

  33. #include <arm_math.h>

  34. 

  35. enum class BiquadType {

  36. 	LOW_PASS, HIGH_PASS, BAND_PASS, NOTCH, ALL_PASS, PEAKING, LOW_SHELF, HIGH_SHELF

  37. };

  38. 

  39. template <typename T>

  40. void getCoefficients(T* coeffs, BiquadType type, double dbGain, double freq, double srate, double bandwidthOrQOrS, bool isBandwidthOrS=false){

  41. 	const double A =(type == BiquadType::PEAKING || type == BiquadType::LOW_SHELF || type == BiquadType::HIGH_SHELF) ? pow(10., dbGain / 40.) : pow(10, dbGain / 20);

  42. 	

  43. 	const double omega = 2 * M_PI * freq / srate;

  44. 	const double sn = sin(omega);

  45. 	const double cs = cos(omega);

  46. 	double alpha;

  47. 

  48. 	if (!isBandwidthOrS) // Q

  49. 		alpha = sn / (2 * bandwidthOrQOrS);

  50. 	else if (type == BiquadType::LOW_SHELF || type == BiquadType::HIGH_SHELF) // S

  51. 		alpha = sn / 2 * sqrt((A + 1 / A) * (1 / bandwidthOrQOrS - 1) + 2);

  52. 	else // BW

  53. 		alpha = sn * sinh(_M_LN2 / 2 * bandwidthOrQOrS * omega / sn);

  54. 

  55. 	const double beta = 2 * sqrt(A) * alpha;

  56. 

  57. 	double b0, b1, b2, a0Inv, a1, a2;

  58. 

  59. 	switch (type)

  60. 	{

  61. 	case BiquadType::LOW_PASS:

  62. 		b0 = (1 - cs) / 2;

  63. 		b1 = 1 - cs;

  64. 		b2 = (1 - cs) / 2;

  65. 		a0Inv = 1/(1 + alpha);

  66. 		a1 = -2 * cs;

  67. 		a2 = 1 - alpha;

  68. 		break;

  69. 	case BiquadType::HIGH_PASS:

  70. 		b0 = (1 + cs) / 2;

  71. 		b1 = -(1 + cs);

  72. 		b2 = (1 + cs) / 2;

  73. 		a0Inv = 1/(1 + alpha);

  74. 		a1 = -2 * cs;

  75. 		a2 = 1 - alpha;

  76. 		break;

  77. 	case BiquadType::BAND_PASS:

  78. 		b0 = alpha;

  79. 		b1 = 0;

  80. 		b2 = -alpha;

  81. 		a0Inv = 1/(1 + alpha);

  82. 		a1 = -2 * cs;

  83. 		a2 = 1 - alpha;

  84. 		break;

  85. 	case BiquadType::NOTCH:

  86. 		b0 = 1;

  87. 		b1 = -2 * cs;

  88. 		b2 = 1;

  89. 		a0Inv = 1/(1 + alpha);

  90. 		a1 = -2 * cs;

  91. 		a2 = 1 - alpha;

  92. 		break;

  93. 	case BiquadType::ALL_PASS:

  94. 		b0 = 1 - alpha;

  95. 		b1 = -2 * cs;

  96. 		b2 = 1 + alpha;

  97. 		a0Inv = 1/(1 + alpha);

  98. 		a1 = -2 * cs;

  99. 		a2 = 1 - alpha;

  100. 		break;

  101. 	case BiquadType::PEAKING:

  102. 		b0 = 1 + (alpha * A);

  103. 		b1 = -2 * cs;

  104. 		b2 = 1 - (alpha * A);

  105. 		a0Inv = 1/(1 + (alpha / A));

  106. 		a1 = -2 * cs;

  107. 		a2 = 1 - (alpha / A);

  108. 		break;

  109. 	case BiquadType::LOW_SHELF:

  110. 		b0 = A * ((A + 1) - (A - 1) * cs + beta);

  111. 		b1 = 2 * A * ((A - 1) - (A + 1) * cs);

  112. 		b2 = A * ((A + 1) - (A - 1) * cs - beta);

  113. 		a0Inv = (A + 1) + (A - 1) * cs + beta;

  114. 		a1 = -2 * ((A - 1) + (A + 1) * cs);

  115. 		a2 = (A + 1) + (A - 1) * cs - beta;

  116. 		break;

  117. 	case BiquadType::HIGH_SHELF:

  118. 		b0 = A * ((A + 1) + (A - 1) * cs + beta);

  119. 		b1 = -2 * A * ((A - 1) + (A + 1) * cs);

  120. 		b2 = A * ((A + 1) + (A - 1) * cs - beta);

  121. 		a0Inv = 1/((A + 1) - (A - 1) * cs + beta);

  122. 		a1 = 2 * ((A - 1) - (A + 1) * cs);

  123. 		a2 = (A + 1) - (A - 1) * cs - beta;

  124. 		break;

  125. 	}

  126. 

  127. 	*coeffs++=(T)(b0 * a0Inv);

  128. 	*coeffs++=(T)(b1 * a0Inv);

  129. 	*coeffs++=(T)(b2 * a0Inv);

  130. 	*coeffs++=(T)(-a1 * a0Inv);

  131. 	*coeffs=(T)(-a2 * a0Inv);

  132. }

  133. 

  134. 	template <typename T, typename BIQUAD, typename BTYPE>

  135. 	void biquad_cascade_df2T(const BIQUAD* S, T* pSrc, T* pDst, uint32_t blockSize) {

  136.         BTYPE* b0 =S->pCoeffs;

  137.         BTYPE* b1=S->pCoeffs+1;

  138.         BTYPE* b2=S->pCoeffs+2;

  139.         BTYPE* a1Neg=S->pCoeffs+3;

  140.         BTYPE* a2Neg=S->pCoeffs+4;

  141. 

  142.         BTYPE* state=S->pState;

  143.         if(S->numStages==1){

  144.             BTYPE yn;

  145.             for (uint32_t j=0; j<blockSize; j++ ){

  146.                 yn = *b0 * *pSrc + *state;

  147.                 *state = *b1 * *pSrc + *a1Neg * yn + *(state+1);

  148.                 *(state+1) = *b2 * *pSrc++ + *a2Neg * yn;

  149.                 *pDst++=(T)yn;

  150.             }

  151.         }

  152.         else {

  153. 

  154.             BTYPE pDstD[blockSize];

  155.             BTYPE* pDstDP=pDstD;

  156.             for (uint32_t j=0; j<blockSize; j++ ){

  157.                 *pDstDP = *b0 * *pSrc + *state;

  158.                 *state = *b1 * *pSrc + *a1Neg * *pDstDP + *(state+1);

  159.                 *(state+1) = *b2 * *pSrc++ + *a2Neg * *pDstDP++;

  160.             }

  161.             b0+=5;

  162.             b1+=5;

  163.             b2+=5;

  164.             a1Neg+=5;

  165.             a2Neg+=5;

  166.             state+=2;

  167.             for (uint8_t i =0; i< S->numStages - 2;i++){

  168.                 pDstDP=pDstD;

  169.                 BTYPE xn;

  170.                 for (uint32_t j=0; j<blockSize; j++ ){

  171.                     xn=*pDstDP;

  172.                     *pDstDP = *b0 * xn + *state;

  173.                     *state = *b1 * xn + *a1Neg * *pDstDP + *(state+1);

  174.                     *(state+1) = *b2 * xn + *a2Neg * *pDstDP++;

  175.                 }

  176.                 b0+=5;

  177.                 b1+=5;

  178.                 b2+=5;

  179.                 a1Neg+=5;

  180.                 a2Neg+=5;

  181.                 state+=2;

  182.             }

  183.             BTYPE yn;

  184.             pDstDP=pDstD;

  185.             for (uint32_t j=0; j<blockSize; j++ ){

  186.                 yn = *b0 * *pDstDP + *state;

  187.                 *state = *b1 * *pDstDP + *a1Neg * yn + *(state+1);

  188.                 *(state+1) = *b2 * *pDstDP++ + *a2Neg * yn;

  189.                 *pDst++=(T)yn;

  190.             }

  191.         }

  192.     }	

  193. 

  194. 	template <typename B>

  195. 	void preload(const B*  S, double val=0.){

  196.         // double* b1=B->pCoeffs+1;

  197.         // double* b2=B->pCoeffs+2;

  198.         // double* a1Neg=B->pCoeffs+3;

  199.         // double* a2Neg=B->pCoeffs+4;

  200.         *(S->pState+1) = (*(S->pCoeffs+2) + *(S->pCoeffs+4)) * val;

  201. 		*(S->pState) = (*(S->pCoeffs+1)  + *(S->pCoeffs+3)) * val + *(S->pState+1);

  202. 	}

  203. 

  204. #endif