mirror of
https://github.com/eried/portapack-mayhem.git
synced 2024-10-01 01:26:06 -04:00
460 lines
13 KiB
C++
460 lines
13 KiB
C++
/*
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* Copyright (C) 2014 Jared Boone, ShareBrained Technology, Inc.
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*
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* This file is part of PortaPack.
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2, or (at your option)
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* any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; see the file COPYING. If not, write to
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* the Free Software Foundation, Inc., 51 Franklin Street,
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* Boston, MA 02110-1301, USA.
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*/
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#include "string_format.hpp"
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using namespace std::literals;
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/* This takes a pointer to the end of a buffer
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* and fills it backwards towards the front.
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* The return value 'q' is a pointer to the start.
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* TODO: use std::array for all this. */
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template <typename Int>
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static char* to_string_dec_uint_internal(
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char* p,
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Int n) {
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*p = 0;
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auto q = p;
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do {
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*(--q) = n % 10 + '0';
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n /= 10;
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} while (n != 0);
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return q;
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}
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static char* to_string_dec_uint_pad_internal(
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char* const term,
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const uint32_t n,
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const int32_t l,
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const char fill) {
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auto q = to_string_dec_uint_internal(term, n);
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// Fill with padding if needed.
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// TODO: use std::array instead. There's no
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// bounds checks on any of this!
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if (fill) {
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while ((term - q) < l) {
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*(--q) = fill;
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}
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}
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return q;
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}
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static char* to_string_dec_uint_internal(uint64_t n, StringFormatBuffer& buffer, size_t& length) {
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auto end = &buffer.back();
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auto start = to_string_dec_uint_internal(end, n);
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length = end - start;
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return start;
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}
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char* to_string_dec_uint(uint64_t n, StringFormatBuffer& buffer, size_t& length) {
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return to_string_dec_uint_internal(n, buffer, length);
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}
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char* to_string_dec_int(int64_t n, StringFormatBuffer& buffer, size_t& length) {
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bool negative = n < 0;
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auto start = to_string_dec_uint(negative ? -n : n, buffer, length);
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if (negative) {
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*(--start) = '-';
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++length;
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}
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return start;
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}
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std::string to_string_dec_int(int64_t n) {
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StringFormatBuffer b{};
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size_t len{};
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char* str = to_string_dec_int(n, b, len);
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return std::string(str, len);
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}
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std::string to_string_dec_uint(uint64_t n) {
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StringFormatBuffer b{};
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size_t len{};
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char* str = to_string_dec_uint(n, b, len);
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return std::string(str, len);
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}
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std::string to_string_bin(
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const uint32_t n,
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const uint8_t l) {
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char p[33];
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for (uint8_t c = 0; c < l; c++) {
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if (n & (1 << (l - 1 - c)))
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p[c] = '1';
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else
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p[c] = '0';
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}
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p[l] = 0;
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return p;
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}
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std::string to_string_dec_uint(
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const uint32_t n,
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const int32_t l,
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const char fill) {
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char p[16];
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auto term = p + sizeof(p) - 1;
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auto q = to_string_dec_uint_pad_internal(term, n, l, fill);
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// Right justify.
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// (This code is redundant and won't do anything if a fill character was specified)
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while ((term - q) < l) {
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*(--q) = ' ';
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}
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return q;
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}
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std::string to_string_dec_int(
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const int32_t n,
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const int32_t l,
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const char fill) {
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const size_t negative = (n < 0) ? 1 : 0;
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uint32_t n_abs = negative ? -n : n;
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char p[16];
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auto term = p + sizeof(p) - 1;
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auto q = to_string_dec_uint_pad_internal(term, n_abs, l - negative, fill);
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// Add sign.
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if (negative) {
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*(--q) = '-';
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}
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// Right justify.
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// (This code is redundant and won't do anything if a fill character was specified)
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while ((term - q) < l) {
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*(--q) = ' ';
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}
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return q;
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}
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std::string to_string_decimal(float decimal, int8_t precision) {
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double integer_part;
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double fractional_part;
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std::string result;
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fractional_part = modf(decimal, &integer_part) * pow(10, precision);
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if (fractional_part < 0) {
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fractional_part = -fractional_part;
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}
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result = to_string_dec_int(integer_part) + "." + to_string_dec_uint(fractional_part, precision, '0');
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return result;
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}
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// right-justified frequency in Hz, always 10 characters
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std::string to_string_freq(const uint64_t f) {
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std::string final_str{""};
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if (f < 1000000)
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final_str = to_string_dec_int(f, 10, ' ');
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else
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final_str = to_string_dec_int(f / 1000000, 4) + to_string_dec_int(f % 1000000, 6, '0');
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return final_str;
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}
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// right-justified frequency in MHz, rounded to 4 decimal places, always 9 characters
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std::string to_string_short_freq(const uint64_t f) {
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auto final_str = to_string_dec_int((f + 50) / 1000000, 4) + "." + to_string_dec_int(((f + 50) / 100) % 10000, 4, '0');
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return final_str;
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}
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// non-justified non-padded frequency in MHz, rounded to specified number of decimal places
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std::string to_string_rounded_freq(const uint64_t f, int8_t precision) {
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std::string final_str{""};
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static constexpr uint32_t pow10[7] = {
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1,
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10,
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100,
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1000,
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10000,
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100000,
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1000000,
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};
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if (precision < 1) {
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final_str = to_string_dec_uint(f / 1000000);
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} else {
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if (precision > 6)
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precision = 6;
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uint32_t divisor = pow10[6 - precision];
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final_str = to_string_dec_uint((f + (divisor / 2)) / 1000000) + "." + to_string_dec_int(((f + (divisor / 2)) / divisor) % pow10[precision], precision, '0');
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}
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return final_str;
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}
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std::string to_string_time_ms(const uint32_t ms) {
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std::string final_str{""};
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if (ms < 1000) {
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final_str = to_string_dec_uint(ms) + "ms";
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} else {
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auto seconds = ms / 1000;
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if (seconds >= 60)
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final_str = to_string_dec_uint(seconds / 60) + "m";
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return final_str + to_string_dec_uint(seconds % 60) + "s";
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}
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return final_str;
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}
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static char* to_string_hex_internal(char* ptr, uint64_t value, uint8_t length) {
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if (length == 0)
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return ptr;
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*(--ptr) = uint_to_char(value & 0xF, 16);
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return to_string_hex_internal(ptr, value >> 4, length - 1);
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}
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std::string to_string_hex(uint64_t value, int32_t length) {
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constexpr uint8_t buffer_length = 33;
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char buffer[buffer_length];
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char* ptr = &buffer[buffer_length - 1];
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*ptr = '\0';
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length = std::min<uint8_t>(buffer_length - 1, length);
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return to_string_hex_internal(ptr, value, length);
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}
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std::string to_string_hex_array(uint8_t* array, int32_t length) {
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std::string str_return;
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str_return.reserve(length * 2);
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for (uint8_t i = 0; i < length; i++)
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str_return += to_string_hex(array[i], 2);
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return str_return;
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}
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std::string to_string_datetime(const rtc::RTC& value, const TimeFormat format) {
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std::string string{""};
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if (format == YMDHMS) {
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string += to_string_dec_uint(value.year(), 4) + "-" +
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to_string_dec_uint(value.month(), 2, '0') + "-" +
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to_string_dec_uint(value.day(), 2, '0') + " ";
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}
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string += to_string_dec_uint(value.hour(), 2, '0') + ":" +
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to_string_dec_uint(value.minute(), 2, '0');
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if ((format == YMDHMS) || (format == HMS))
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string += ":" + to_string_dec_uint(value.second(), 2, '0');
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return string;
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}
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std::string to_string_timestamp(const rtc::RTC& value) {
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return to_string_dec_uint(value.year(), 4, '0') +
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to_string_dec_uint(value.month(), 2, '0') +
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to_string_dec_uint(value.day(), 2, '0') +
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to_string_dec_uint(value.hour(), 2, '0') +
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to_string_dec_uint(value.minute(), 2, '0') +
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to_string_dec_uint(value.second(), 2, '0');
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}
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std::string to_string_FAT_timestamp(const FATTimestamp& timestamp) {
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return to_string_dec_uint((timestamp.FAT_date >> 9) + 1980) + "-" +
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to_string_dec_uint((timestamp.FAT_date >> 5) & 0xF, 2, '0') + "-" +
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to_string_dec_uint((timestamp.FAT_date & 0x1F), 2, '0') + " " +
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to_string_dec_uint((timestamp.FAT_time >> 11), 2, '0') + ":" +
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to_string_dec_uint((timestamp.FAT_time >> 5) & 0x3F, 2, '0');
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}
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std::string to_string_file_size(uint32_t file_size) {
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static const std::string suffix[5] = {"B", "kB", "MB", "GB", "??"};
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size_t suffix_index = 0;
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while (file_size >= 1024) {
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file_size /= 1024;
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suffix_index++;
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}
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if (suffix_index > 4)
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suffix_index = 4;
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return to_string_dec_uint(file_size) + suffix[suffix_index];
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}
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std::string to_string_mac_address(const uint8_t* macAddress, uint8_t length, bool noColon) {
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std::string string;
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string += to_string_hex(macAddress[0], 2);
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for (int i = 1; i < length; i++) {
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string += noColon ? to_string_hex(macAddress[i], 2) : ":" + to_string_hex(macAddress[i], 2);
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}
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return string;
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}
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std::string to_string_formatted_mac_address(const char* macAddress) {
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std::string formattedAddress;
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for (int i = 0; i < 12; i += 2) {
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if (i > 0) {
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formattedAddress += ':';
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}
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formattedAddress += macAddress[i];
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formattedAddress += macAddress[i + 1];
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}
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return formattedAddress;
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}
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void generateRandomMacAddress(char* macAddress) {
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const char hexDigits[] = "0123456789ABCDEF";
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// Generate 12 random hexadecimal characters
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for (int i = 0; i < 12; i++) {
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int randomIndex = rand() % 16;
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macAddress[i] = hexDigits[randomIndex];
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}
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macAddress[12] = '\0'; // Null-terminate the string
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}
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uint64_t readUntil(File& file, char* result, std::size_t maxBufferSize, char delimiter) {
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std::size_t bytesRead = 0;
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while (true) {
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char ch;
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File::Result<File::Size> readResult = file.read(&ch, 1);
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if (readResult.is_ok() && readResult.value() > 0) {
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if (ch == delimiter) {
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// Found a space character, stop reading
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break;
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} else if (bytesRead < maxBufferSize) {
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// Append the character to the result if there's space
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result[bytesRead++] = ch;
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} else {
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// Buffer is full, break to prevent overflow
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break;
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}
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} else {
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break; // End of file or error
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}
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}
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// Null-terminate the result string
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result[bytesRead] = '\0';
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return bytesRead;
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}
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std::string unit_auto_scale(double n, const uint32_t base_unit, uint32_t precision) {
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const uint32_t powers_of_ten[5] = {1, 10, 100, 1000, 10000};
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std::string string{""};
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uint32_t prefix_index = base_unit;
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double integer_part;
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double fractional_part;
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precision = std::min((uint32_t)4, precision);
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while (n > 1000) {
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n /= 1000.0;
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prefix_index++;
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}
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fractional_part = modf(n, &integer_part) * powers_of_ten[precision];
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if (fractional_part < 0)
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fractional_part = -fractional_part;
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string = to_string_dec_int(integer_part);
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if (precision)
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string += '.' + to_string_dec_uint(fractional_part, precision, '0');
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if (prefix_index != 3)
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string += unit_prefix[prefix_index];
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return string;
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}
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double get_decimals(double num, int16_t mult, bool round) {
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num -= int(num); // keep decimals only
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num *= mult; // Shift decimals into integers
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if (!round) return num;
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int16_t intnum = int(num); // Round it up if necessary
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num -= intnum; // Get decimal part
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if (num > .5) intnum++; // Round up
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return intnum;
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}
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static const char* whitespace_str = " \t\r\n";
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std::string trim(std::string_view str) {
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auto first = str.find_first_not_of(whitespace_str);
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if (first == std::string::npos)
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return {};
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auto last = str.find_last_not_of(whitespace_str);
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return std::string{str.substr(first, last - first + 1)};
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}
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std::string trimr(std::string_view str) {
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size_t last = str.find_last_not_of(whitespace_str);
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return std::string{last != std::string::npos ? str.substr(0, last + 1) : ""};
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}
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std::string truncate(std::string_view str, size_t length) {
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return std::string{str.length() <= length ? str : str.substr(0, length)};
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}
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uint8_t char_to_uint(char c, uint8_t radix) {
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uint8_t v = 0;
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if (c >= '0' && c <= '9')
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v = c - '0';
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else if (c >= 'A' && c <= 'F')
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v = c - 'A' + 10; // A is dec: 10
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else if (c >= 'a' && c <= 'f')
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v = c - 'a' + 10; // A is dec: 10
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return v < radix ? v : 0;
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}
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char uint_to_char(uint8_t val, uint8_t radix) {
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if (val >= radix)
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return 0;
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if (val < 10)
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return '0' + val;
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else
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return 'A' + val - 10; // A is dec: 10
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}
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