#include "data_handler.hpp" std::array parsePriceData(std::uint32_t price, char currencySymbol) { std::array ret; std::string priceString; if (std::to_string(price).length() >= NUM_SCREENS) { priceString = formatNumberWithSuffix(price); } else { priceString = currencySymbol + std::to_string(price); } std::uint32_t firstIndex = 0; if (priceString.length() < (NUM_SCREENS)) { priceString.insert(priceString.begin(), NUM_SCREENS - priceString.length(), ' '); if (currencySymbol == '[') { ret[0] = "BTC/EUR"; } else { ret[0] = "BTC/USD"; } firstIndex = 1; } for (std::uint32_t i = firstIndex; i < NUM_SCREENS; i++) { ret[i] = priceString[i]; } return ret; } std::array parseSatsPerCurrency(std::uint32_t price, char currencySymbol) { std::array ret; std::string priceString = std::to_string(int(round(1 / float(price) * 10e7))); std::uint32_t firstIndex = 0; if (priceString.length() < (NUM_SCREENS)) { priceString.insert(priceString.begin(), NUM_SCREENS - priceString.length(), ' '); if (currencySymbol == '[') { ret[0] = "SATS/EUR"; } else { ret[0] = "MSCW/TIME"; } firstIndex = 1; for (std::uint32_t i = firstIndex; i < NUM_SCREENS; i++) { ret[i] = priceString[i]; } } return ret; } std::array parseBlockHeight(std::uint32_t blockHeight) { std::array ret; std::string blockNrString = std::to_string(blockHeight); std::uint32_t firstIndex = 0; if (blockNrString.length() < NUM_SCREENS) { blockNrString.insert(blockNrString.begin(), NUM_SCREENS - blockNrString.length(), ' '); ret[0] = "BLOCK/HEIGHT"; firstIndex = 1; } for (std::uint32_t i = firstIndex; i < NUM_SCREENS; i++) { ret[i] = blockNrString[i]; } return ret; } std::array parseHalvingCountdown(std::uint32_t blockHeight) { std::array ret; const std::uint32_t nextHalvingBlock = 210000 - (blockHeight % 210000); const std::uint32_t minutesToHalving = nextHalvingBlock * 10; const int years = floor(minutesToHalving / 525600); const int days = floor((minutesToHalving - (years * 525600)) / (24 * 60)); const int hours = floor((minutesToHalving - (years * 525600) - (days * (24 * 60))) / 60); const int mins = floor(minutesToHalving - (years * 525600) - (days * (24 * 60)) - (hours * 60)); ret[0] = "BIT/COIN"; ret[1] = "HALV/ING"; ret[(NUM_SCREENS - 5)] = std::to_string(years) + "/YRS"; ret[(NUM_SCREENS - 4)] = std::to_string(days) + "/DAYS"; ret[(NUM_SCREENS - 3)] = std::to_string(hours) + "/HRS"; ret[(NUM_SCREENS - 2)] = std::to_string(mins) + "/MINS"; ret[(NUM_SCREENS - 1)] = "TO/GO"; return ret; } std::array parseMarketCap(std::uint32_t blockHeight, std::uint32_t price, char currencySymbol, bool bigChars) { std::array ret; std::uint32_t firstIndex = 0; double supply = getSupplyAtBlock(blockHeight); int64_t marketCap = static_cast(supply * double(price)); if (currencySymbol == '[') { ret[0] = "EUR/MCAP"; } else { ret[0] = "USD/MCAP"; } if (bigChars) { firstIndex = 1; std::string priceString = currencySymbol + formatNumberWithSuffix(marketCap); priceString.insert(priceString.begin(), NUM_SCREENS - priceString.length(), ' '); for (std::uint32_t i = firstIndex; i < NUM_SCREENS; i++) { ret[i] = priceString[i]; } } else { std::string stringValue = std::to_string(marketCap); size_t mcLength = stringValue.length(); size_t leadingSpaces = (3 - mcLength % 3) % 3; stringValue = std::string(leadingSpaces, ' ') + stringValue; std::uint32_t groups = (mcLength + leadingSpaces) / 3; if (groups < NUM_SCREENS) { firstIndex = 1; } for (int i = firstIndex; i < NUM_SCREENS - groups - 1; i++) { ret[i] = ""; } ret[NUM_SCREENS - groups - 1] = " $ "; for (std::uint32_t i = 0; i < groups; i++) { ret[(NUM_SCREENS - groups + i)] = stringValue.substr(i * 3, 3).c_str(); } } return ret; }