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brickworks/include/bw_sr_reduce.h

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/*
* Brickworks
*
* Copyright (C) 2022, 2023 Orastron Srl unipersonale
*
* Brickworks is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, version 3 of the License.
*
* Brickworks is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Brickworks. If not, see <http://www.gnu.org/licenses/>.
*
* File author: Stefano D'Angelo
*/
/*!
* module_type {{{ dsp }}}
* version {{{ 1.0.0 }}}
* requires {{{ bw_common bw_math }}}
* description {{{
* Sample rate reducer.
*
* This is purely an audio effect, it doesn't actually produce an output
* signal at a lower sample rate. The algorithm is deliberately crude to
* obtain the characteristic aliasing due to lo-fi downsampling.
* }}}
* changelog {{{
* <ul>
* <li>Version <strong>1.0.0</strong>:
* <ul>
* <li>Added <code>bw_sr_reduce_set_sample_rate()</code>,
* <code>bw_sr_reduce_reset_coeffs()</code>,
* <code>bw_sr_reduce_update_coeffs_ctrl()</code>, and
* <code>bw_sr_reduce_update_coeffs_audio()</code>.</li>
* <li>Added initial input value to
* <code>bw_sr_reduce_reset_state()</code>.</li>
* <li>Added <code>bw_sr_reduce_reset_state_multi()</code> and updated C++
* API in this regard.</li>
* <li>Now <code>bw_sr_reduce_reset_state()</code> returns the initial
* output value.</li>
* <li>Added overloaded C++ <code>reset()</code> functions taking
* arrays as arguments.</li>
* <li><code>bw_sr_reduce_process()</code> and
* <code>bw_sr_reduce_process_multi()</code> now use
* <code>size_t</code> to count samples and channels.</li>
* <li>Added more <code>const</code> and <code>BW_RESTRICT</code>
* specifiers to input arguments and implementation.</li>
* <li>Moved C++ code to C header.</li>
* <li>Added overloaded C++ <code>process()</code> function taking
* C-style arrays as arguments.</li>
* <li>Removed usage of reserved identifiers.</li>
* <li>Added debugging code.</li>
* </ul>
* </li>
* <li>Version <strong>0.6.0</strong>:
* <ul>
* <li>Removed dependency on bw_config.</li>
* </ul>
* </li>
* <li>Version <strong>0.5.0</strong>:
* <ul>
* <li>Added <code>bw_sr_reduce_process_multi()</code>.</li>
* <li>Added C++ wrapper.</li>
* </ul>
* </li>
* <li>Version <strong>0.4.0</strong>:
* <ul>
* <li>Fixed unused parameter warnings.</li>
* </ul>
* </li>
* <li>Version <strong>0.3.0</strong>:
* <ul>
* <li>First release.</li>
* </ul>
* </li>
* </ul>
* }}}
*/
#ifndef BW_SR_REDUCE_H
#define BW_SR_REDUCE_H
#include <bw_common.h>
#ifdef __cplusplus
extern "C" {
#endif
/*! api {{{
* #### bw_sr_reduce_coeffs
* ```>>> */
typedef struct bw_sr_reduce_coeffs bw_sr_reduce_coeffs;
/*! <<<```
* Coefficients and related.
*
* #### bw_sr_reduce_state
* ```>>> */
typedef struct bw_sr_reduce_state bw_sr_reduce_state;
/*! <<<```
* Internal state and related.
*
* #### bw_sr_reduce_init()
* ```>>> */
static inline void bw_sr_reduce_init(
bw_sr_reduce_coeffs * BW_RESTRICT coeffs);
/*! <<<```
* Initializes input parameter values in `coeffs`.
*
* #### bw_sr_reduce_set_sample_rate()
* ```>>> */
static inline void bw_sr_reduce_set_sample_rate(
bw_sr_reduce_coeffs * BW_RESTRICT coeffs,
float sample_rate);
/*! <<<```
* Sets the `sample_rate` (Hz) value in `coeffs`.
*
* #### bw_sr_reduce_reset_coeffs()
* ```>>> */
static inline void bw_sr_reduce_reset_coeffs(
bw_sr_reduce_coeffs * BW_RESTRICT coeffs);
/*! <<<```
* Resets coefficients in `coeffs` to assume their target values.
*
* #### bw_sr_reduce_reset_state()
* ```>>> */
static inline float bw_sr_reduce_reset_state(
const bw_sr_reduce_coeffs * BW_RESTRICT coeffs,
bw_sr_reduce_state * BW_RESTRICT state,
float x_0);
/*! <<<```
* Resets the given `state` to its initial values using the given `coeffs`
* and the initial input value `x_0`.
*
* Returns the corresponding initial output value.
*
* #### bw_sr_reduce_reset_state_multi()
* ```>>> */
static inline void bw_sr_reduce_reset_state_multi(
const bw_sr_reduce_coeffs * BW_RESTRICT coeffs,
bw_sr_reduce_state * BW_RESTRICT const * BW_RESTRICT state,
const float * x_0,
float * y_0,
size_t n_channels);
/*! <<<```
* Resets each of the `n_channels` `state`s to its initial values using the
* given `coeffs` and the corresponding initial input value in the `x_0`
* array.
*
* The corresponding initial output values are written into the `y_0` array,
* if not `NULL`.
*
* #### bw_sr_reduce_update_coeffs_ctrl()
* ```>>> */
static inline void bw_sr_reduce_update_coeffs_ctrl(
bw_sr_reduce_coeffs * BW_RESTRICT coeffs);
/*! <<<```
* Triggers control-rate update of coefficients in `coeffs`.
*
* #### bw_sr_reduce_update_coeffs_audio()
* ```>>> */
static inline void bw_sr_reduce_update_coeffs_audio(
bw_sr_reduce_coeffs * BW_RESTRICT coeffs);
/*! <<<```
* Triggers audio-rate update of coefficients in `coeffs`.
*
* #### bw_sr_reduce_process1()
* ```>>> */
static inline float bw_sr_reduce_process1(
const bw_sr_reduce_coeffs * BW_RESTRICT coeffs,
bw_sr_reduce_state * BW_RESTRICT state,
float x);
/*! <<<```
* Processes one input sample `x` using `coeffs`, while using and updating
* `state`. Returns the corresponding output sample.
*
* #### bw_sr_reduce_process()
* ```>>> */
static inline void bw_sr_reduce_process(
bw_sr_reduce_coeffs * BW_RESTRICT coeffs,
bw_sr_reduce_state * BW_RESTRICT state,
const float * x,
float * y,
size_t n_samples);
/*! <<<```
* Processes the first `n_samples` of the input buffer `x` and fills the
* first `n_samples` of the output buffer `y`, while using `coeffs` and
* both using and updating `state` (control and audio rate).
*
* #### bw_sr_reduce_process_multi()
* ```>>> */
static inline void bw_sr_reduce_process_multi(
bw_sr_reduce_coeffs * BW_RESTRICT coeffs,
bw_sr_reduce_state * BW_RESTRICT const * BW_RESTRICT state,
const float * const * x,
float * const * y,
size_t n_channels,
size_t n_samples);
/*! <<<```
* Processes the first `n_samples` of the `n_channels` input buffers `x` and
* fills the first `n_samples` of the `n_channels` output buffers `y`, while
* using the common `coeffs` and both using and updating each of the
* `n_channels` `state`s.
*
* #### bw_sr_reduce_set_ratio()
* ```>>> */
static inline void bw_sr_reduce_set_ratio(
bw_sr_reduce_coeffs * BW_RESTRICT coeffs,
float value);
/*! <<<```
* Sets the output to input sample rate ratio in `coeffs`.
*
* Valid input range: [`0.f`, `1.f`].
*
* Default value: `1.f`.
*
* #### bw_sr_reduce_coeffs_is_valid()
* ```>>> */
static inline char bw_sr_reduce_coeffs_is_valid(
const bw_sr_reduce_coeffs * BW_RESTRICT coeffs);
/*! <<<```
* Tries to determine whether `coeffs` is valid and returns non-`0` if it
* seems to be the case and `0` if it is certainly not. False positives are
* possible, false negatives are not.
*
* `coeffs` must at least point to a readable memory block of size greater
* than or equal to that of `bw_sr_reduce_coeffs`.
*
* #### bw_sr_reduce_state_is_valid()
* ```>>> */
static inline char bw_sr_reduce_state_is_valid(
const bw_sr_reduce_coeffs * BW_RESTRICT coeffs,
const bw_sr_reduce_state * BW_RESTRICT state);
/*! <<<```
* Tries to determine whether `state` is valid and returns non-`0` if it
* seems to be the case and `0` if it is certainly not. False positives are
* possible, false negatives are not.
*
* If `coeffs` is not `NULL` extra cross-checks might be performed (`state`
* is supposed to be associated to `coeffs`).
*
* `state` must at least point to a readable memory block of size greater
* than or equal to that of `bw_sr_reduce_state`.
* }}} */
#ifdef __cplusplus
}
#endif
/*** Implementation ***/
/* WARNING: This part of the file is not part of the public API. Its content may
* change at any time in future versions. Please, do not use it directly. */
#include <bw_math.h>
#ifdef __cplusplus
extern "C" {
#endif
#ifdef BW_DEBUG_DEEP
enum bw_sr_reduce_coeffs_state {
bw_sr_reduce_coeffs_state_invalid,
bw_sr_reduce_coeffs_state_init,
bw_sr_reduce_coeffs_state_set_sample_rate,
bw_sr_reduce_coeffs_state_reset_coeffs
};
#endif
struct bw_sr_reduce_coeffs {
#ifdef BW_DEBUG_DEEP
uint32_t hash;
enum bw_sr_reduce_coeffs_state state;
uint32_t reset_id;
#endif
// Parameters
float ratio;
};
struct bw_sr_reduce_state {
#ifdef BW_DEBUG_DEEP
uint32_t hash;
uint32_t coeffs_reset_id;
#endif
// States
float phase;
float y_z1;
};
static inline void bw_sr_reduce_init(
bw_sr_reduce_coeffs * BW_RESTRICT coeffs) {
BW_ASSERT(coeffs != NULL);
coeffs->ratio = 1.f;
#ifdef BW_DEBUG_DEEP
coeffs->hash = bw_hash_sdbm("bw_sr_reduce_coeffs");
coeffs->state = bw_sr_reduce_coeffs_state_init;
coeffs->reset_id = coeffs->hash + 1;
#endif
BW_ASSERT_DEEP(bw_sr_reduce_coeffs_is_valid(coeffs));
BW_ASSERT_DEEP(coeffs->state == bw_sr_reduce_coeffs_state_init);
}
static inline void bw_sr_reduce_set_sample_rate(
bw_sr_reduce_coeffs * BW_RESTRICT coeffs,
float sample_rate) {
BW_ASSERT(coeffs != NULL);
BW_ASSERT_DEEP(bw_sr_reduce_coeffs_is_valid(coeffs));
BW_ASSERT_DEEP(coeffs->state >= bw_sr_reduce_coeffs_state_init);
BW_ASSERT(bw_is_finite(sample_rate) && sample_rate > 0.f);
(void)coeffs;
(void)sample_rate;
#ifdef BW_DEBUG_DEEP
coeffs->state = bw_sr_reduce_coeffs_state_set_sample_rate;
#endif
BW_ASSERT_DEEP(bw_sr_reduce_coeffs_is_valid(coeffs));
BW_ASSERT_DEEP(coeffs->state == bw_sr_reduce_coeffs_state_set_sample_rate);
}
static inline void bw_sr_reduce_reset_coeffs(
bw_sr_reduce_coeffs * BW_RESTRICT coeffs) {
BW_ASSERT(coeffs != NULL);
BW_ASSERT_DEEP(bw_sr_reduce_coeffs_is_valid(coeffs));
BW_ASSERT_DEEP(coeffs->state >= bw_sr_reduce_coeffs_state_set_sample_rate);
(void)coeffs;
#ifdef BW_DEBUG_DEEP
coeffs->state = bw_sr_reduce_coeffs_state_reset_coeffs;
coeffs->reset_id++;
#endif
BW_ASSERT_DEEP(bw_sr_reduce_coeffs_is_valid(coeffs));
BW_ASSERT_DEEP(coeffs->state == bw_sr_reduce_coeffs_state_reset_coeffs);
}
static inline float bw_sr_reduce_reset_state(
const bw_sr_reduce_coeffs * BW_RESTRICT coeffs,
bw_sr_reduce_state * BW_RESTRICT state,
float x_0) {
BW_ASSERT(coeffs != NULL);
BW_ASSERT_DEEP(bw_sr_reduce_coeffs_is_valid(coeffs));
BW_ASSERT_DEEP(coeffs->state >= bw_sr_reduce_coeffs_state_reset_coeffs);
BW_ASSERT(state != NULL);
BW_ASSERT(bw_is_finite(x_0));
(void)coeffs;
state->y_z1 = x_0;
state->phase = 1.f;
const float y = x_0;
#ifdef BW_DEBUG_DEEP
state->hash = bw_hash_sdbm("bw_sr_reduce_state");
state->coeffs_reset_id = coeffs->reset_id;
#endif
BW_ASSERT_DEEP(bw_sr_reduce_coeffs_is_valid(coeffs));
BW_ASSERT_DEEP(coeffs->state >= bw_sr_reduce_coeffs_state_reset_coeffs);
BW_ASSERT_DEEP(bw_sr_reduce_state_is_valid(coeffs, state));
BW_ASSERT(bw_is_finite(y));
return y;
}
static inline void bw_sr_reduce_reset_state_multi(
const bw_sr_reduce_coeffs * BW_RESTRICT coeffs,
bw_sr_reduce_state * BW_RESTRICT const * BW_RESTRICT state,
const float * x_0,
float * y_0,
size_t n_channels) {
BW_ASSERT(coeffs != NULL);
BW_ASSERT_DEEP(bw_sr_reduce_coeffs_is_valid(coeffs));
BW_ASSERT_DEEP(coeffs->state >= bw_sr_reduce_coeffs_state_reset_coeffs);
BW_ASSERT(state != NULL);
BW_ASSERT(x_0 != NULL);
if (y_0 != NULL)
for (size_t i = 0; i < n_channels; i++)
y_0[i] = bw_sr_reduce_reset_state(coeffs, state[i], x_0[i]);
else
for (size_t i = 0; i < n_channels; i++)
bw_sr_reduce_reset_state(coeffs, state[i], x_0[i]);
BW_ASSERT_DEEP(bw_sr_reduce_coeffs_is_valid(coeffs));
BW_ASSERT_DEEP(coeffs->state >= bw_sr_reduce_coeffs_state_reset_coeffs);
BW_ASSERT_DEEP(y_0 != NULL ? bw_has_only_finite(y_0, n_channels) : 1);
}
static inline void bw_sr_reduce_update_coeffs_ctrl(
bw_sr_reduce_coeffs * BW_RESTRICT coeffs) {
BW_ASSERT(coeffs != NULL);
BW_ASSERT_DEEP(bw_sr_reduce_coeffs_is_valid(coeffs));
BW_ASSERT_DEEP(coeffs->state >= bw_sr_reduce_coeffs_state_reset_coeffs);
(void)coeffs;
}
static inline void bw_sr_reduce_update_coeffs_audio(
bw_sr_reduce_coeffs * BW_RESTRICT coeffs) {
BW_ASSERT(coeffs != NULL);
BW_ASSERT_DEEP(bw_sr_reduce_coeffs_is_valid(coeffs));
BW_ASSERT_DEEP(coeffs->state >= bw_sr_reduce_coeffs_state_reset_coeffs);
(void)coeffs;
}
static inline float bw_sr_reduce_process1(
const bw_sr_reduce_coeffs * BW_RESTRICT coeffs,
bw_sr_reduce_state * BW_RESTRICT state,
float x) {
BW_ASSERT(coeffs != NULL);
BW_ASSERT_DEEP(bw_sr_reduce_coeffs_is_valid(coeffs));
BW_ASSERT_DEEP(coeffs->state >= bw_sr_reduce_coeffs_state_reset_coeffs);
BW_ASSERT(state != NULL);
BW_ASSERT_DEEP(bw_sr_reduce_state_is_valid(coeffs, state));
BW_ASSERT(bw_is_finite(x));
state->phase += coeffs->ratio;
if (state->phase >= 1.f) {
state->y_z1 = x;
state->phase -= bw_floorf(state->phase);
}
const float y = state->y_z1;
BW_ASSERT_DEEP(bw_sr_reduce_coeffs_is_valid(coeffs));
BW_ASSERT_DEEP(coeffs->state >= bw_sr_reduce_coeffs_state_reset_coeffs);
BW_ASSERT_DEEP(bw_sr_reduce_state_is_valid(coeffs, state));
BW_ASSERT(bw_is_finite(y));
return y;
}
static inline void bw_sr_reduce_process(
bw_sr_reduce_coeffs * BW_RESTRICT coeffs,
bw_sr_reduce_state * BW_RESTRICT state,
const float * x,
float * y,
size_t n_samples) {
BW_ASSERT(coeffs != NULL);
BW_ASSERT_DEEP(bw_sr_reduce_coeffs_is_valid(coeffs));
BW_ASSERT_DEEP(coeffs->state >= bw_sr_reduce_coeffs_state_reset_coeffs);
BW_ASSERT(state != NULL);
BW_ASSERT_DEEP(bw_sr_reduce_state_is_valid(coeffs, state));
BW_ASSERT(x != NULL);
BW_ASSERT_DEEP(bw_has_only_finite(x, n_samples));
BW_ASSERT(y != NULL);
for (size_t i = 0; i < n_samples; i++)
y[i] = bw_sr_reduce_process1(coeffs, state, x[i]);
BW_ASSERT_DEEP(bw_sr_reduce_coeffs_is_valid(coeffs));
BW_ASSERT_DEEP(coeffs->state >= bw_sr_reduce_coeffs_state_reset_coeffs);
BW_ASSERT_DEEP(bw_sr_reduce_state_is_valid(coeffs, state));
BW_ASSERT_DEEP(bw_has_only_finite(y, n_samples));
}
static inline void bw_sr_reduce_process_multi(
bw_sr_reduce_coeffs * BW_RESTRICT coeffs,
bw_sr_reduce_state * BW_RESTRICT const * BW_RESTRICT state,
const float * const * x,
float * const * y,
size_t n_channels,
size_t n_samples) {
BW_ASSERT(coeffs != NULL);
BW_ASSERT_DEEP(bw_sr_reduce_coeffs_is_valid(coeffs));
BW_ASSERT_DEEP(coeffs->state >= bw_sr_reduce_coeffs_state_reset_coeffs);
BW_ASSERT(state != NULL);
BW_ASSERT(x != NULL);
BW_ASSERT(y != NULL);
for (size_t i = 0; i < n_channels; i++)
bw_sr_reduce_process(coeffs, state[i], x[i], y[i], n_samples);
BW_ASSERT_DEEP(bw_sr_reduce_coeffs_is_valid(coeffs));
BW_ASSERT_DEEP(coeffs->state >= bw_sr_reduce_coeffs_state_reset_coeffs);
}
static inline void bw_sr_reduce_set_ratio(
bw_sr_reduce_coeffs * BW_RESTRICT coeffs,
float value) {
BW_ASSERT(coeffs != NULL);
BW_ASSERT_DEEP(bw_sr_reduce_coeffs_is_valid(coeffs));
BW_ASSERT_DEEP(coeffs->state >= bw_sr_reduce_coeffs_state_init);
BW_ASSERT(bw_is_finite(value));
BW_ASSERT(value >= 0.f && value <= 1.f);
coeffs->ratio = value;
BW_ASSERT_DEEP(bw_sr_reduce_coeffs_is_valid(coeffs));
BW_ASSERT_DEEP(coeffs->state >= bw_sr_reduce_coeffs_state_init);
}
static inline char bw_sr_reduce_coeffs_is_valid(
const bw_sr_reduce_coeffs * BW_RESTRICT coeffs) {
BW_ASSERT(coeffs != NULL);
#ifdef BW_DEBUG_DEEP
if (coeffs->hash != bw_hash_sdbm("bw_sr_reduce_coeffs"))
return 0;
if (coeffs->state < bw_sr_reduce_coeffs_state_init || coeffs->state > bw_sr_reduce_coeffs_state_reset_coeffs)
return 0;
#endif
return bw_is_finite(coeffs->ratio) && coeffs->ratio >= 0.f && coeffs->ratio <= 1.f;
}
static inline char bw_sr_reduce_state_is_valid(
const bw_sr_reduce_coeffs * BW_RESTRICT coeffs,
const bw_sr_reduce_state * BW_RESTRICT state) {
BW_ASSERT(state != NULL);
#ifdef BW_DEBUG_DEEP
if (state->hash != bw_hash_sdbm("bw_sr_reduce_state"))
return 0;
if (coeffs != NULL && coeffs->reset_id != state->coeffs_reset_id)
return 0;
#endif
(void)coeffs;
return bw_is_finite(state->phase) && state->phase >= 0.f && bw_is_finite(state->y_z1);
}
#ifdef __cplusplus
}
#include <array>
namespace Brickworks {
/*** Public C++ API ***/
/*! api_cpp {{{
* ##### Brickworks::SRReduce
* ```>>> */
template<size_t N_CHANNELS>
class SRReduce {
public:
SRReduce();
void setSampleRate(
float sampleRate);
void reset(
float x0 = 0.f,
float * BW_RESTRICT y0 = nullptr);
void reset(
float x0,
std::array<float, N_CHANNELS> * BW_RESTRICT y0);
void reset(
const float * x0,
float * y0 = nullptr);
void reset(
std::array<float, N_CHANNELS> x0,
std::array<float, N_CHANNELS> * BW_RESTRICT y0 = nullptr);
void process(
const float * const * x,
float * const * y,
size_t nSamples);
void process(
std::array<const float *, N_CHANNELS> x,
std::array<float *, N_CHANNELS> y,
size_t nSamples);
void setRatio(
float value);
/*! <<<...
* }
* ```
* }}} */
/*** Implementation ***/
/* WARNING: This part of the file is not part of the public API. Its content may
* change at any time in future versions. Please, do not use it directly. */
private:
bw_sr_reduce_coeffs coeffs;
bw_sr_reduce_state states[N_CHANNELS];
bw_sr_reduce_state * BW_RESTRICT statesP[N_CHANNELS];
};
template<size_t N_CHANNELS>
inline SRReduce<N_CHANNELS>::SRReduce() {
bw_sr_reduce_init(&coeffs);
for (size_t i = 0; i < N_CHANNELS; i++)
statesP[i] = states + i;
}
template<size_t N_CHANNELS>
inline void SRReduce<N_CHANNELS>::setSampleRate(
float sampleRate) {
bw_sr_reduce_set_sample_rate(&coeffs, sampleRate);
}
template<size_t N_CHANNELS>
inline void SRReduce<N_CHANNELS>::reset(
float x0,
float * BW_RESTRICT y0) {
bw_sr_reduce_reset_coeffs(&coeffs);
if (y0 != nullptr)
for (size_t i = 0; i < N_CHANNELS; i++)
y0[i] = bw_sr_reduce_reset_state(&coeffs, states + i, x0);
else
for (size_t i = 0; i < N_CHANNELS; i++)
bw_sr_reduce_reset_state(&coeffs, states + i, x0);
}
template<size_t N_CHANNELS>
inline void SRReduce<N_CHANNELS>::reset(
float x0,
std::array<float, N_CHANNELS> * BW_RESTRICT y0) {
reset(x0, y0 != nullptr ? y0->data() : nullptr);
}
template<size_t N_CHANNELS>
inline void SRReduce<N_CHANNELS>::reset(
const float * x0,
float * y0) {
bw_sr_reduce_reset_coeffs(&coeffs);
bw_sr_reduce_reset_state_multi(&coeffs, statesP, x0, y0, N_CHANNELS);
}
template<size_t N_CHANNELS>
inline void SRReduce<N_CHANNELS>::reset(
std::array<float, N_CHANNELS> x0,
std::array<float, N_CHANNELS> * BW_RESTRICT y0) {
reset(x0.data(), y0 != nullptr ? y0->data() : nullptr);
}
template<size_t N_CHANNELS>
inline void SRReduce<N_CHANNELS>::process(
const float * const * x,
float * const * y,
size_t nSamples) {
bw_sr_reduce_process_multi(&coeffs, statesP, x, y, N_CHANNELS, nSamples);
}
template<size_t N_CHANNELS>
inline void SRReduce<N_CHANNELS>::process(
std::array<const float *, N_CHANNELS> x,
std::array<float *, N_CHANNELS> y,
size_t nSamples) {
process(x.data(), y.data(), nSamples);
}
template<size_t N_CHANNELS>
inline void SRReduce<N_CHANNELS>::setRatio(float value) {
bw_sr_reduce_set_ratio(&coeffs, value);
}
}
#endif
#endif
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