forked from btclock/btclock_v3
245 lines
6.6 KiB
C++
245 lines
6.6 KiB
C++
#include "utils.hpp"
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int modulo(int x, int N)
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{
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return (x % N + N) % N;
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}
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double getSupplyAtBlock(std::uint32_t blockNr)
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{
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if (blockNr >= 33 * 210000)
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{
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return 20999999.9769;
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}
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const int initialBlockReward = 50; // Initial block reward
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const int halvingInterval = 210000; // Number of blocks before halving
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int halvingCount = blockNr / halvingInterval;
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double totalBitcoinInCirculation = 0;
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for (int i = 0; i < halvingCount; ++i)
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{
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totalBitcoinInCirculation += halvingInterval * initialBlockReward * std::pow(0.5, i);
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}
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totalBitcoinInCirculation += (blockNr % halvingInterval) * initialBlockReward * std::pow(0.5, halvingCount);
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return totalBitcoinInCirculation;
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}
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std::string formatNumberWithSuffix(std::uint64_t num, int numCharacters)
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{
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return formatNumberWithSuffix(num, numCharacters, false);
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}
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std::string formatNumberWithSuffix(std::uint64_t num, int numCharacters, bool mowMode)
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{
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static char result[20]; // Adjust size as needed
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const long long quadrillion = 1000000000000000LL;
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const long long trillion = 1000000000000LL;
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const long long billion = 1000000000;
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const long long million = 1000000;
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const long long thousand = 1000;
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double numDouble = (double)num;
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int numDigits = (int)log10(num) + 1;
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char suffix;
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if (num >= quadrillion || numDigits > 15)
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{
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numDouble /= quadrillion;
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suffix = 'Q';
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}
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else if (num >= trillion || numDigits > 12)
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{
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numDouble /= trillion;
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suffix = 'T';
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}
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else if (num >= billion || numDigits > 9)
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{
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numDouble /= billion;
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suffix = 'B';
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}
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else if (num >= million || numDigits > 6 || (mowMode && num >= thousand))
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{
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numDouble /= million;
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suffix = 'M';
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}
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else if (!mowMode && (num >= thousand || numDigits > 3))
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{
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numDouble /= thousand;
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suffix = 'K';
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}
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else if (!mowMode)
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{
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snprintf(result, sizeof(result), "%llu", (unsigned long long)num);
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return result;
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}
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else // mowMode is true and num < 1000
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{
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numDouble /= million;
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suffix = 'M';
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}
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// Add suffix
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int len;
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// Mow Mode always uses string truncation to avoid rounding
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std::string mowAsString = std::to_string(numDouble);
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if (mowMode) {
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// Default to one decimal place
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len = snprintf(result, sizeof(result), "%s%c", mowAsString.substr(0, mowAsString.find(".") + 2).c_str(), suffix);
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}
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else
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{
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len = snprintf(result, sizeof(result), "%.0f%c", numDouble, suffix);
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}
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// If there's room, add more decimal places
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if (len < numCharacters)
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{
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int restLen = mowMode ? numCharacters - len : numCharacters - len - 1;
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if (mowMode) {
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snprintf(result, sizeof(result), "%s%c", mowAsString.substr(0, mowAsString.find(".") + 2 + restLen).c_str(), suffix);
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}
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else
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{
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snprintf(result, sizeof(result), "%.*f%c", restLen, numDouble, suffix);
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}
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}
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return result;
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}
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/**
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* Get sat amount from a bolt11 invoice
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*
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* Based on https://github.com/lnbits/nostr-zap-lamp/blob/main/nostrZapLamp/nostrZapLamp.ino
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*/
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int64_t getAmountInSatoshis(std::string bolt11) {
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int64_t number = -1;
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char multiplier = ' ';
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for (unsigned int i = 0; i < bolt11.length(); ++i) {
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if (isdigit(bolt11[i])) {
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number = 0;
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while (isdigit(bolt11[i])) {
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number = number * 10 + (bolt11[i] - '0');
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++i;
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}
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for (unsigned int j = i; j < bolt11.length(); ++j) {
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if (isalpha(bolt11[j])) {
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multiplier = bolt11[j];
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break;
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}
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}
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break;
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}
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}
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if (number == -1 || multiplier == ' ') {
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return -1;
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}
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int64_t satoshis = number;
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switch (multiplier) {
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case 'm':
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satoshis *= 100000; // 0.001 * 100,000,000
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break;
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case 'u':
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satoshis *= 100; // 0.000001 * 100,000,000
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break;
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case 'n':
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satoshis /= 10; // 0.000000001 * 100,000,000
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break;
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case 'p':
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satoshis /= 10000; // 0.000000000001 * 100,000,000
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break;
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default:
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return -1;
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}
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return satoshis;
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}
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void parseHashrateString(const std::string& hashrate, std::string& label, std::string& output, unsigned int maxCharacters) {
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// Handle empty string or "0" cases
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if (hashrate.empty() || hashrate == "0") {
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label = "H/S";
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output = "0";
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return;
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}
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size_t suffixLength = 0;
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if (hashrate.length() > 21) {
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label = "ZH/S";
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suffixLength = 21;
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} else if (hashrate.length() > 18) {
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label = "EH/S";
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suffixLength = 18;
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} else if (hashrate.length() > 15) {
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label = "PH/S";
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suffixLength = 15;
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} else if (hashrate.length() > 12) {
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label = "TH/S";
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suffixLength = 12;
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} else if (hashrate.length() > 9) {
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label = "GH/S";
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suffixLength = 9;
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} else if (hashrate.length() > 6) {
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label = "MH/S";
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suffixLength = 6;
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} else if (hashrate.length() > 3) {
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label = "KH/S";
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suffixLength = 3;
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} else {
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label = "H/S";
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suffixLength = 0;
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}
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double value = std::stod(hashrate) / std::pow(10, suffixLength);
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// Calculate integer part length
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int integerPartLength = std::to_string(static_cast<int>(value)).length();
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// Calculate remaining space for decimals
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int remainingSpace = maxCharacters - integerPartLength;
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char buffer[32];
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if (remainingSpace <= 0)
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{
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// No space for decimals, just round to integer
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snprintf(buffer, sizeof(buffer), "%.0f", value);
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}
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else
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{
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// Space for decimal point and some decimals
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snprintf(buffer, sizeof(buffer), "%.*f", remainingSpace - 1, value);
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}
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// Remove trailing zeros and decimal point if necessary
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output = buffer;
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if (output.find('.') != std::string::npos)
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{
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output = output.substr(0, output.find_last_not_of('0') + 1);
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if (output.back() == '.')
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{
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output.pop_back();
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}
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}
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}
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int getHashrateMultiplier(char unit) {
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if (unit == '0')
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return 0;
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static const std::unordered_map<char, int> multipliers = {
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{'Z', 21}, {'E', 18}, {'P', 15}, {'T', 12},
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{'G', 9}, {'M', 6}, {'K', 3}
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};
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return multipliers.at(unit);
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}
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