#include #include #include #include "cryptonote_core/cryptonote_core.h" namespace cryptonote { namespace rpc { namespace { output_distribution_data process_distribution(bool cumulative, std::uint64_t start_height, std::vector distribution, std::uint64_t base) { if (!cumulative && !distribution.empty()) { for (std::size_t n = distribution.size() - 1; 0 < n; --n) distribution[n] -= distribution[n - 1]; distribution[0] -= base; } return {std::move(distribution), start_height, base}; } } boost::optional RpcHandler::get_output_distribution(core& src, std::uint64_t amount, std::uint64_t from_height, std::uint64_t to_height, bool cumulative) { static struct D { boost::mutex mutex; std::vector cached_distribution; std::uint64_t cached_from, cached_to, cached_start_height, cached_base; bool cached; D(): cached_from(0), cached_to(0), cached_start_height(0), cached_base(0), cached(false) {} } d; const boost::unique_lock lock(d.mutex); if (d.cached && amount == 0 && d.cached_from == from_height && d.cached_to == to_height) return process_distribution(cumulative, d.cached_start_height, d.cached_distribution, d.cached_base); std::vector distribution; std::uint64_t start_height, base; if (!src.get_output_distribution(amount, from_height, to_height, start_height, distribution, base)) return boost::none; if (to_height > 0 && to_height >= from_height) { const std::uint64_t offset = std::max(from_height, start_height); if (offset <= to_height && to_height - offset + 1 < distribution.size()) distribution.resize(to_height - offset + 1); } if (amount == 0) { d.cached_from = from_height; d.cached_to = to_height; d.cached_distribution = distribution; d.cached_start_height = start_height; d.cached_base = base; d.cached = true; } return process_distribution(cumulative, start_height, std::move(distribution), base); } } // rpc } // cryptonote