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snapclient/components/esp-dsp/modules/iir/include/dsps_biquad_gen.h
Carlos 15b4baba28 - merge with original master from jorgen 
- minimize RAM usage of all components
- use both IRAM and DRAM in player component so we can buffer up to 1s on modules without SPI RAM
- support fragemented pcm chunks so we can use all available RAM if there isn't a big enough block available but still enough HEAP
- reinclude all components from jorgen's master branch
- add custom i2s driver to get a precise timing of initial sync
- change wrong usage of esp_timer for latency measurement of snapcast protocol
- add player component
2021-08-19 21:57:16 +02:00

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// Copyright 2018-2019 Espressif Systems (Shanghai) PTE LTD
//
// 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 _dsps_biquad_gen_H_
#define _dsps_biquad_gen_H_
#include "dsp_err.h"
#ifdef __cplusplus
extern "C"
{
#endif
// Common rules for all generated coefficients.
// The coefficients placed to the array as follows:
// coeffs[0] = b0;
// coeffs[1] = b1;
// coeffs[2] = b2;
// coeffs[3] = a1;
// coeffs[4] = a2;
// a0 - are not placed and expected always as == 1
/**
* @brief LPF IIR filter coefficients
* Coefficients for low pass 2nd order IIR filter (bi-quad)
* The implementation use ANSI C and could be compiled and run on any platform
*
* @param coeffs: result coefficients. b0,b1,b2,a1,a2, a0 are not placed to the array and expected by IIR as 1
* @param f: filter cut off frequency in range of 0..0.5 (normalized to sample frequency)
* @param qFactor: Q factor of filter
*
* @return
* - ESP_OK on success
* - One of the error codes from DSP library
*/
esp_err_t dsps_biquad_gen_lpf_f32(float *coeffs, float f, float qFactor);
/**
* @brief HPF IIR filter coefficients
*
* Coefficients for high pass 2nd order IIR filter (bi-quad)
* The implementation use ANSI C and could be compiled and run on any platform
*
* @param coeffs: result coefficients. b0,b1,b2,a1,a2, a0 are not placed to the array and expected by IIR as 1
* @param f: filter cut off frequency in range of 0..0.5 (normalized to sample frequency)
* @param qFactor: Q factor of filter
*
* @return
* - ESP_OK on success
* - One of the error codes from DSP library
*/
esp_err_t dsps_biquad_gen_hpf_f32(float *coeffs, float f, float qFactor);
/**
* @brief BPF IIR filter coefficients
*
* Coefficients for band pass 2nd order IIR filter (bi-quad)
* The implementation use ANSI C and could be compiled and run on any platform
*
* @param coeffs: result coefficients. b0,b1,b2,a1,a2, a0 are not placed to the array and expected by IIR as 1
* @param f: filter center frequency in range of 0..0.5 (normalized to sample frequency)
* @param qFactor: Q factor of filter
*
* @return
* - ESP_OK on success
* - One of the error codes from DSP library
*/
esp_err_t dsps_biquad_gen_bpf_f32(float *coeffs, float f, float qFactor);
/**
* @brief 0 dB BPF IIR filter coefficients
*
* Coefficients for band pass 2nd order IIR filter (bi-quad) with 0 dB gain in passband
* The implementation use ANSI C and could be compiled and run on any platform
*
* @param coeffs: result coefficients. b0,b1,b2,a1,a2, a0 are not placed to the array and expected by IIR as 1
* @param f: filter center frequency in range of 0..0.5 (normalized to sample frequency)
* @param qFactor: Q factor of filter
*
* @return
* - ESP_OK on success
* - One of the error codes from DSP library
*/
esp_err_t dsps_biquad_gen_bpf0db_f32(float *coeffs, float f, float qFactor);
/**
* @brief Notch IIR filter coefficients
*
* Coefficients for notch 2nd order IIR filter (bi-quad)
* The implementation use ANSI C and could be compiled and run on any platform
*
* @param coeffs: result coefficients. b0,b1,b2,a1,a2, a0 are not placed to the array and expected by IIR as 1
* @param f: filter notch frequency in range of 0..0.5 (normalized to sample frequency)
* @param gain: gain in stopband in dB
* @param qFactor: Q factor of filter
*
* @return
* - ESP_OK on success
* - One of the error codes from DSP library
*/
esp_err_t dsps_biquad_gen_notch_f32(float *coeffs, float f, float gain, float qFactor);
/**
* @brief Allpass 360 degree IIR filter coefficients
*
* Coefficients for all pass 2nd order IIR filter (bi-quad) with 360 degree phase shift
* The implementation use ANSI C and could be compiled and run on any platform
*
* @param coeffs: result coefficients. b0,b1,b2,a1,a2, a0 are not placed to the array and expected by IIR as 1
* @param f: filter notch frequency in range of 0..0.5 (normalized to sample frequency)
* @param qFactor: Q factor of filter
*
* @return
* - ESP_OK on success
* - One of the error codes from DSP library
*/
esp_err_t dsps_biquad_gen_allpass360_f32(float *coeffs, float f, float qFactor);
/**
* @brief Allpass 180 degree IIR filter coefficients
*
* Coefficients for all pass 2nd order IIR filter (bi-quad) with 180 degree phase shift
* The implementation use ANSI C and could be compiled and run on any platform
*
* @param coeffs: result coefficients. b0,b1,b2,a1,a2, a0 are not placed to the array and expected by IIR as 1
* @param f: filter notch frequency in range of 0..0.5 (normalized to sample frequency)
* @param qFactor: Q factor of filter
*
* @return
* - ESP_OK on success
* - One of the error codes from DSP library
*/
esp_err_t dsps_biquad_gen_allpass180_f32(float *coeffs, float f, float qFactor);
/**
* @brief peak IIR filter coefficients
*
* Coefficients for peak 2nd order IIR filter (bi-quad)
* The implementation use ANSI C and could be compiled and run on any platform
*
* @param coeffs: result coefficients. b0,b1,b2,a1,a2, a0 are not placed to the array and expected by IIR as 1
* @param f: filter notch frequency in range of 0..0.5 (normalized to sample frequency)
* @param qFactor: Q factor of filter
*
* @return
* - ESP_OK on success
* - One of the error codes from DSP library
*/
esp_err_t dsps_biquad_gen_peakingEQ_f32(float *coeffs, float f, float qFactor);
/**
* @brief low shelf IIR filter coefficients
*
* Coefficients for low pass Shelf 2nd order IIR filter (bi-quad)
* The implementation use ANSI C and could be compiled and run on any platform
*
* @param coeffs: result coefficients. b0,b1,b2,a1,a2, a0 are not placed to the array and expected by IIR as 1
* @param f: filter notch frequency in range of 0..0.5 (normalized to sample frequency)
* @param gain: gain in stopband in dB
* @param qFactor: Q factor of filter
*
* @return
* - ESP_OK on success
* - One of the error codes from DSP library
*/
esp_err_t dsps_biquad_gen_lowShelf_f32(float *coeffs, float f, float gain, float qFactor);
/**
* @brief high shelf IIR filter coefficients
*
* Coefficients for high pass Shelf 2nd order IIR filter (bi-quad)
* The implementation use ANSI C and could be compiled and run on any platform
*
* @param coeffs: result coefficients. b0,b1,b2,a1,a2, a0 are not placed to the array and expected by IIR as 1
* @param f: filter notch frequency in range of 0..0.5 (normalized to sample frequency)
* @param gain: gain in stopband in dB
* @param qFactor: Q factor of filter
*
* @return
* - ESP_OK on success
* - One of the error codes from DSP library
*/
esp_err_t dsps_biquad_gen_highShelf_f32(float *coeffs, float f, float gain, float qFactor);
#ifdef __cplusplus
}
#endif
#endif // _dsps_biquad_gen_H_
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