#include "common.h" #include "all_cases.h" std::mutex AllCases::building; bool AllCases::available = false; std::vector AllCases::data[]; const std::vector (&AllCases::fetch())[16] { // get all cases content if (status() != AVAILABLE) { AllCases::build(); // all cases initialize } return AllCases::data; // return const ref } AllCases::Status AllCases::status() { // get all cases status if (AllCases::available) { return AVAILABLE; // all cases already built } if (!AllCases::building.try_lock()) { // fail to lock mutex return BUILDING; // another thread working } AllCases::building.unlock(); // release mutex return NO_INIT; } void AllCases::build() { // ensure that all cases available if (!AllCases::available) { if (AllCases::building.try_lock()) { // mutex lock success build_data(); // start build process AllCases::available = true; // set available flag } else { AllCases::building.lock(); // blocking waiting } AllCases::building.unlock(); } } void AllCases::build_data() { // find all cases const auto &basic_ranges = BasicRanges::fetch(); for (uint32_t head = 0; head < 15; ++head) { // address of 2x2 block if ((head & 0b11) == 0b11) { ++head; // skip invalid address } /// head -> 0/1/2 / 4/5/6 / 8/9/10 / 12/13/14 data[head].reserve(ALL_CASES_SIZE[head]); // memory pre-allocated /// head(4-bits) + basic ranges(32-bits) ==check==> release valid cases for (uint32_t index = 0; index < basic_ranges.size(); ++index) { auto broken_offset = Common::check_range(head, basic_ranges[index]); if (broken_offset) { // case invalid auto delta = (uint32_t)1 << (32 - broken_offset * 2); // delta to next possible range /// !! -> broken /// ( xx xx xx ) xx xx xx ... (reversed range) /// +1 00 00 00 ... (delta) auto next_min = (Common::range_reverse(basic_ranges[index]) & ~(delta - 1)) + delta; while (Common::range_reverse(basic_ranges[++index]) < next_min); // located next range --index; } else { AllCases::data[head].emplace_back( Common::range_reverse(basic_ranges[index]) // release valid cases ); } } } }