portapack-mayhem/firmware/baseband/dsp_decimate.hpp

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/*
* Copyright (C) 2014 Jared Boone, ShareBrained Technology, Inc.
*
* This file is part of PortaPack.
*
* This program 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; either version 2, or (at your option)
* any later version.
*
* This program 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 this program; see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street,
* Boston, MA 02110-1301, USA.
*/
#ifndef __DSP_DECIMATE_H__
#define __DSP_DECIMATE_H__
#include <cstdint>
#include <algorithm>
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#include <array>
#include <memory>
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#include "dsp_types.hpp"
#include "simd.hpp"
#include "utility.hpp"
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namespace dsp {
namespace decimate {
/* "Saturating" scalars used by decimators to scale either
* 8 or 16 bit complex values into 32 bit complex values.
* Some of the decimators accept a scale factor as part of
* configuration, which is then passed to scale_round_and_pack. */
// c8_to_c32_sat_scalar == 2^25. 2^25 * 2^7 (signed C8 Max) == 2^32.
constexpr int32_t c8_to_c32_sat_scalar = 0x2000000;
// c16_to_c32_sat_scalar == 2^17. 2^17 * 2^15 (signed C16 Max) == 2^32.
constexpr int32_t c16_to_c32_sat_scalar = 0x20000;
class Complex8DecimateBy2CIC3 {
public:
buffer_c16_t execute(
const buffer_c8_t& src,
const buffer_c16_t& dst);
private:
uint32_t _i1_i0{0};
uint32_t _q1_q0{0};
};
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class TranslateByFSOver4AndDecimateBy2CIC3 {
public:
buffer_c16_t execute(
const buffer_c8_t& src,
const buffer_c16_t& dst);
private:
uint32_t _q1_i0{0};
uint32_t _q0_i1{0};
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};
class DecimateBy2CIC3 {
public:
buffer_c16_t execute(
const buffer_c16_t& src,
const buffer_c16_t& dst);
private:
uint32_t _iq0{0};
uint32_t _iq1{0};
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};
class FIR64AndDecimateBy2Real {
public:
static constexpr size_t taps_count = 64;
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void configure(
const std::array<int16_t, taps_count>& taps);
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buffer_s16_t execute(
const buffer_s16_t& src,
const buffer_s16_t& dst);
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private:
std::array<int16_t, taps_count + 2> z{};
std::array<int16_t, taps_count> taps{};
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};
class FIRC8xR16x24FS4Decim4 {
public:
static constexpr size_t taps_count = 24;
static constexpr size_t decimation_factor = 4;
using sample_t = complex8_t;
using tap_t = int16_t;
enum class Shift : bool {
Down = true,
Up = false
};
void configure(
const std::array<tap_t, taps_count>& taps,
const int32_t scale = c8_to_c32_sat_scalar,
const Shift shift = Shift::Down);
buffer_c16_t execute(
const buffer_c8_t& src,
const buffer_c16_t& dst);
private:
std::array<vec2_s16, taps_count - decimation_factor> z_{};
std::array<tap_t, taps_count> taps_{};
int32_t output_scale = 0;
};
class FIRC8xR16x24FS4Decim8 {
public:
static constexpr size_t taps_count = 24;
static constexpr size_t decimation_factor = 8;
using sample_t = complex8_t;
using tap_t = int16_t;
enum class Shift : bool {
Down = true,
Up = false
};
void configure(
const std::array<tap_t, taps_count>& taps,
const int32_t scale = c8_to_c32_sat_scalar,
const Shift shift = Shift::Down);
buffer_c16_t execute(
const buffer_c8_t& src,
const buffer_c16_t& dst);
private:
std::array<vec2_s16, taps_count - decimation_factor> z_{};
std::array<tap_t, taps_count> taps_{};
int32_t output_scale = 0;
};
class FIRC16xR16x16Decim2 {
public:
static constexpr size_t taps_count = 16;
static constexpr size_t decimation_factor = 2;
using sample_t = complex16_t;
using tap_t = int16_t;
void configure(
const std::array<tap_t, taps_count>& taps,
const int32_t scale = c16_to_c32_sat_scalar);
buffer_c16_t execute(
const buffer_c16_t& src,
const buffer_c16_t& dst);
private:
std::array<vec2_s16, taps_count - decimation_factor> z_{};
std::array<tap_t, taps_count> taps_{};
int32_t output_scale = 0;
};
class FIRC16xR16x32Decim8 {
public:
static constexpr size_t taps_count = 32;
static constexpr size_t decimation_factor = 8;
using sample_t = complex16_t;
using tap_t = int16_t;
void configure(
const std::array<tap_t, taps_count>& taps,
const int32_t scale = c16_to_c32_sat_scalar);
buffer_c16_t execute(
const buffer_c16_t& src,
const buffer_c16_t& dst);
private:
std::array<vec2_s16, taps_count - decimation_factor> z_{};
std::array<tap_t, taps_count> taps_{};
int32_t output_scale = 0;
};
class FIRAndDecimateComplex {
public:
using sample_t = complex16_t;
using tap_t = complex16_t;
using taps_t = tap_t[];
/* NOTE! Current code makes an assumption that block of samples to be
* processed will be a multiple of the taps_count.
*/
template <typename T>
void configure(
const T& taps,
const size_t decimation_factor) {
configure(taps.data(), taps.size(), decimation_factor);
}
buffer_c16_t execute(
const buffer_c16_t& src,
const buffer_c16_t& dst);
private:
using samples_t = sample_t[];
std::unique_ptr<samples_t> samples_{};
std::unique_ptr<taps_t> taps_reversed_{};
size_t taps_count_{0};
size_t decimation_factor_{1};
template <typename T>
void configure(
const T* const taps,
const size_t taps_count,
const size_t decimation_factor) {
configure_common(taps_count, decimation_factor);
std::reverse_copy(&taps[0], &taps[taps_count], &taps_reversed_[0]);
}
void configure_common(
const size_t taps_count,
const size_t decimation_factor);
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};
class DecimateBy2CIC4Real {
public:
buffer_s16_t execute(
const buffer_s16_t& src,
const buffer_s16_t& dst);
private:
int16_t z[5]{};
int16_t _dummy{}; // TODO: Addresses GCC bug when constructing a class that's not sizeof() % 4 == 0?
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};
} /* namespace decimate */
} /* namespace dsp */
#endif /*__DSP_DECIMATE_H__*/