portapack-mayhem/firmware/application/tone_key.cpp
2024-02-10 16:56:50 +01:00

188 lines
5.9 KiB
C++

/*
* Copyright (C) 2015 Jared Boone, ShareBrained Technology, Inc.
* Copyright (C) 2017 Furrtek
* Copyright (C) 2023 Mark Thompson
*
* 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.
*/
#include "string_format.hpp"
#include "tone_key.hpp"
namespace tonekey {
// Keep list in ascending order by tone frequency
const tone_key_t tone_keys = {
{"None", F2Ix100(0.0)},
{"1 XZ", F2Ix100(67.0)},
{"39 WZ", F2Ix100(69.3)},
{"2 XA", F2Ix100(71.9)},
{"3 WA", F2Ix100(74.4)},
{"4 XB", F2Ix100(77.0)},
{"5 WB", F2Ix100(79.7)},
{"6 YZ", F2Ix100(82.5)},
{"7 YA", F2Ix100(85.4)},
{"8 YB", F2Ix100(88.5)},
{"9 ZZ", F2Ix100(91.5)},
{"10 ZA", F2Ix100(94.8)},
{"11 ZB", F2Ix100(97.4)},
{"12 1Z", F2Ix100(100.0)},
{"13 1A", F2Ix100(103.5)},
{"14 1B", F2Ix100(107.2)},
{"15 2Z", F2Ix100(110.9)},
{"16 2A", F2Ix100(114.8)},
{"17 2B", F2Ix100(118.8)},
{"18 3Z", F2Ix100(123.0)},
{"19 3A", F2Ix100(127.3)},
{"20 3B", F2Ix100(131.8)},
{"21 4Z", F2Ix100(136.5)},
{"22 4A", F2Ix100(141.3)},
{"23 4B", F2Ix100(146.2)},
{"24 5Z", F2Ix100(151.4)},
{"25 5A", F2Ix100(156.7)},
{"40 --", F2Ix100(159.8)},
{"26 5B", F2Ix100(162.2)},
{"41 --", F2Ix100(165.5)},
{"27 6Z", F2Ix100(167.9)},
{"42 --", F2Ix100(171.3)},
{"28 6A", F2Ix100(173.8)},
{"43 --", F2Ix100(177.3)},
{"29 6B", F2Ix100(179.9)},
{"44 --", F2Ix100(183.5)},
{"30 7Z", F2Ix100(186.2)},
{"45 --", F2Ix100(189.9)},
{"31 7A", F2Ix100(192.8)},
{"46 --", F2Ix100(196.6)},
{"47 --", F2Ix100(199.5)},
{"32 M1", F2Ix100(203.5)},
{"48 8Z", F2Ix100(206.5)},
{"33 M2", F2Ix100(210.7)},
{"34 M3", F2Ix100(218.1)},
{"35 M4", F2Ix100(225.7)},
{"49 9Z", F2Ix100(229.1)},
{"36 M5", F2Ix100(233.6)},
{"37 M6", F2Ix100(241.8)},
{"38 M7", F2Ix100(250.3)},
{"50 0Z", F2Ix100(254.1)},
{"Shure 19kHz", F2Ix100(19000.0)},
{"Axient 28kHz", F2Ix100(28000.0)},
{"Senn. 32.000k", F2Ix100(32000.0)},
{"Sony 32.382k", F2Ix100(32382.0)},
{"Senn. 32.768k", F2Ix100(32768.0)}};
std::string fx100_string(uint32_t f) {
return to_string_dec_uint((f + 5) / 100) + "." + to_string_dec_uint(((f + 5) / 10) % 10);
}
float tone_key_frequency(tone_index index) {
return float(tone_keys[index].second) / 100.0;
}
std::string tone_key_string(tone_index index) {
if (index < 0 || (unsigned)index >= tone_keys.size())
return std::string("");
return tone_keys[index].first;
}
// Return string showing frequency only from specific table index
std::string tone_key_value_string(tone_index index) {
if (index < 0 || (unsigned)index >= tone_keys.size())
return std::string("");
return fx100_string(tone_keys[index].second);
}
// Return variable-length string showing CTCSS tone from tone frequency
// Value is in 0.01 Hz units
std::string tone_key_string_by_value(uint32_t value, size_t max_length) {
static uint8_t tone_display_toggle{0};
static uint32_t last_value;
tone_index idx;
std::string freq_str;
// If >10Hz difference between consecutive samples, it's probably noise, so ignore
if (abs(value - last_value) > 10 * 100) {
last_value = value;
tone_display_toggle = 0;
return " ";
}
last_value = value;
// Only display 1/10 Hz accuracy if <1000 Hz; max 5 characters
if (value < 1000 * 100)
freq_str = "T:" + fx100_string(value);
else
freq_str = "T:" + to_string_dec_uint(value / 100);
// Check field length is enough for character counts in the string below
if (max_length >= 7 + 2 + 5) {
idx = tone_key_index_by_value(value);
if (idx != -1)
return freq_str + " #" + tone_key_string(idx);
} else {
// Not enough space; toggle between display of tone received and tone code #
if (tone_display_toggle++ >= TONE_DISPLAY_TOGGLE_COUNTER) {
if (tone_display_toggle >= TONE_DISPLAY_TOGGLE_COUNTER * 2) tone_display_toggle = 0;
// Look for a match in the table (otherwise just display frequency)
idx = tone_key_index_by_value(value);
if (idx != -1)
return "T:" + tone_key_string(idx);
}
}
return freq_str;
}
// Search tone_key table for tone frequency value
// Value is in 0.01 Hz units
tone_index tone_key_index_by_value(uint32_t value) {
uint32_t diff;
uint32_t min_diff{UINT32_MAX};
tone_index min_idx{-1};
tone_index idx;
// Find nearest match
for (idx = 0; idx < (tone_index)tone_keys.size(); idx++) {
diff = abs(value - tone_keys[idx].second);
if (diff < min_diff) {
min_idx = idx;
min_diff = diff;
} else {
// list is sorted in frequency order; if diff is getting larger than we've passed it
break;
}
}
// Arbitrary confidence threshold
if (min_diff < TONE_FREQ_TOLERANCE_CENTIHZ)
return min_idx;
else
return -1;
}
tone_index tone_key_index_by_string(char* str) {
if (!str)
return -1;
for (tone_index index = 0; (unsigned)index < tone_keys.size(); index++) {
if (tone_keys[index].first.compare(str) >= 0) // TODO: why >=?
return index;
}
return -1;
}
} // namespace tonekey