#include "bfs.h" #include "core.h" #include "raw_code.h" #define ALLOW_UP (filter != -UP) #define ALLOW_DOWN (filter != -DOWN) #define ALLOW_LEFT (filter != -LEFT) #define ALLOW_RIGHT (filter != -RIGHT) #define NOT_COLUMN_0 ((addr & 3) != 0) #define NOT_COLUMN_2 ((addr & 3) != 2) #define NOT_COLUMN_3 ((addr & 3) != 1) #define MOVE_UP (next_addr = addr + UP) #define MOVE_DOWN (next_addr = addr + DOWN) #define MOVE_LEFT (next_addr = addr + LEFT) #define MOVE_RIGHT (next_addr = addr + RIGHT) #define TOP_LIMIT(ADDR) (addr >= ADDR * 3) #define BOTTOM_LIMIT(ADDR) (addr <= ADDR * 3) #define RELEASE(NEXT_CODE, FILTER) { \ cache_t next_case = { \ .code = NEXT_CODE, \ .mask = F_1x1 << next_addr, \ .filter = FILTER, \ .addr = next_addr \ }; \ cache_insert(next_case); \ } #define release_1x1(FILTER) RELEASE(NEXT_CODE_1x1, FILTER) #define release_1x2(FILTER) RELEASE(NEXT_CODE_1x2, FILTER) #define release_2x1(FILTER) RELEASE(NEXT_CODE_2x1, FILTER) #define release_2x2(FILTER) RELEASE(NEXT_CODE_2x2, FILTER) #define NEXT_CODE_1x1 (code & ~(F_1x1 << addr) | (C_1x1 << next_addr)) #define NEXT_CODE_1x2 (code & ~(F_1x2 << addr) | (C_1x2 << next_addr)) #define NEXT_CODE_2x1 (code & ~(F_2x1 << addr) | (C_2x1 << next_addr)) #define NEXT_CODE_2x2 (code & ~(F_2x2 << addr) | (C_2x2 << next_addr)) inline void Core::cache_insert(Core::cache_t &next_case) { // try to insert into cache auto *p = cache; for (; p < cache + cache_size; ++p) { if (p->code == next_case.code) { return; // already exist -> insert failed } } *p = next_case; ++cache_size; } void Core::move_1x1(uint64_t code, int addr) { // try to move target 1x1 block BFS_INIT while (!BFS_STOP) { // bfs search process BFS_LOAD if (ALLOW_UP && TOP_LIMIT(4) && !(code >> MOVE_UP & F_1x1)) { release_1x1(UP) // 1x1 block move up } if (ALLOW_DOWN && BOTTOM_LIMIT(15) && !(code >> MOVE_DOWN & F_1x1)) { release_1x1(DOWN) // 1x1 block move down } if (ALLOW_LEFT && NOT_COLUMN_0 && !(code >> MOVE_LEFT & F_1x1)) { release_1x1(LEFT) // 1x1 block move left } if (ALLOW_RIGHT && NOT_COLUMN_3 && !(code >> MOVE_RIGHT & F_1x1)) { release_1x1(RIGHT) // 1x1 block move right } } } void Core::move_1x2(uint64_t code, int addr) { // try to move target 1x2 block BFS_INIT while (!BFS_STOP) { // bfs search process BFS_LOAD if (ALLOW_UP && TOP_LIMIT(4) && !(code >> MOVE_UP & F_1x2)) { release_1x2(UP) // 1x2 block move up } if (ALLOW_DOWN && BOTTOM_LIMIT(14) && !(code >> MOVE_DOWN & F_1x2)) { release_1x2(DOWN) // 1x2 block move down } if (ALLOW_LEFT && NOT_COLUMN_0 && !(code >> MOVE_LEFT & F_1x1)) { release_1x2(LEFT) // 1x2 block move left } if (ALLOW_RIGHT && NOT_COLUMN_2 && !(code >> MOVE_RIGHT & F_1x1_R)) { release_1x2(RIGHT) // 1x2 block move right } } } void Core::move_2x1(uint64_t code, int addr) { // try to move target 2x1 block BFS_INIT while (!BFS_STOP) { // bfs search process BFS_LOAD if (ALLOW_UP && TOP_LIMIT(4) && !(code >> MOVE_UP & F_1x1)) { release_2x1(UP) // 2x1 block move up } if (ALLOW_DOWN && BOTTOM_LIMIT(11) && !(code >> MOVE_DOWN & F_1x1_D)) { release_2x1(DOWN) // 2x1 block move down } if (ALLOW_LEFT && NOT_COLUMN_0 && !(code >> MOVE_LEFT & F_2x1)) { release_2x1(LEFT) // 2x1 block move left } if (ALLOW_RIGHT && NOT_COLUMN_3 && !(code >> MOVE_RIGHT & F_2x1)) { release_2x1(RIGHT) // 2x1 block move right } } } void Core::move_2x2(uint64_t code, int addr) { // try to move target 2x2 block BFS_INIT while (!BFS_STOP) { // bfs search process BFS_LOAD if (ALLOW_UP && TOP_LIMIT(4) && !(code >> MOVE_UP & F_1x2)) { release_2x2(UP) // 2x2 block move up } if (ALLOW_DOWN && BOTTOM_LIMIT(10) && !(code >> MOVE_DOWN & F_1x2_D)) { release_2x2(DOWN) // 2x2 block move down } if (ALLOW_LEFT && NOT_COLUMN_0 && !(code >> MOVE_LEFT & F_2x1)) { release_2x2(LEFT) // 2x2 block move left } if (ALLOW_RIGHT && NOT_COLUMN_2 && !(code >> MOVE_RIGHT & F_2x1_R)) { release_2x2(RIGHT) // 2x2 block move right } } } #include void Core::next_step(uint64_t raw_code) { auto temp_code = raw_code; for (int addr = 0; temp_code; addr += 3, temp_code >>= 3) { switch (temp_code & 0b111) { case B_1x1: move_1x1(raw_code, addr); break; case B_1x2: move_1x2(raw_code, addr); break; case B_2x1: move_2x1(raw_code, addr); break; case B_2x2: move_2x2(raw_code, addr); break; default: continue; // B_space or B_fill } if (cache_size != 1) { for (int i = 1; i < cache_size; ++i) { std::cout << RawCode(cache[i].code).dump_case(); printf("MASK -> %016lX\n", cache[i].mask); } // std::cout << "found: " << cache_size - 1 << std::endl; } } }