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feat: klotski basic move

legacy
dnomd343 2 years ago
parent
commit
ffee507577
  1. 18
      include/klotski.h
  2. 235
      src/main.cc

18
include/klotski.h

@ -10,15 +10,15 @@
#define B_1x1 0x3 #define B_1x1 0x3
#define B_2x2 0x4 #define B_2x2 0x4
#define C_1x1 int64_t(0x3) #define C_1x1 uint64_t(0x3)
#define C_1x2 int64_t(0x39) #define C_1x2 uint64_t(0x39)
#define C_2x1 int64_t(0x7002) #define C_2x1 uint64_t(0x7002)
#define C_2x2 int64_t(0x3F03C) #define C_2x2 uint64_t(0x3F03C)
#define F_1x1 int64_t(0x7) #define F_1x1 uint64_t(0x7)
#define F_1x2 int64_t(0x3F) #define F_1x2 uint64_t(0x3F)
#define F_2x1 int64_t(0x7007) #define F_2x1 uint64_t(0x7007)
#define F_2x2 int64_t(0x3F03F) #define F_2x2 uint64_t(0x3F03F)
uint64_t compact_code(uint64_t code); uint64_t compact_code(uint64_t code);
uint64_t extract_code(uint64_t code); uint64_t extract_code(uint64_t code);

235
src/main.cc

@ -4,6 +4,20 @@
#include <cstdint> #include <cstdint>
#include <vector> #include <vector>
#define UP (-12)
#define LEFT (-3)
#define DOWN 12
#define DOWN_2 24
#define RIGHT 3
#define RIGHT_2 6
struct cache {
uint64_t code;
uint64_t filter;
};
struct cache move_cache[16];
int move_cache_num;
void graph_output(uint64_t code) { void graph_output(uint64_t code) {
for (int i = 0; i < 20; ++i) { for (int i = 0; i < 20; ++i) {
switch (code & 0x7) { switch (code & 0x7) {
@ -35,6 +49,139 @@ void graph_output(uint64_t code) {
} }
} }
inline bool move_block_release(uint64_t code, uint64_t filter) {
struct cache *p = move_cache;
for (; p < move_cache + move_cache_num; ++p) {
if (p->code == code) {
return false;
}
}
p->code = code;
p->filter = filter;
++move_cache_num;
return true;
}
void move_block_1x1(uint64_t code, int addr, int filter) {
int target_addr;
uint64_t ret_code;
if (filter != UP && addr >= 4 * 3 && !(code >> (target_addr = addr + UP) & F_1x1)) {
ret_code = code & ~(F_1x1 << addr) | C_1x1 << target_addr;
if (move_block_release(ret_code, uint64_t(0x7) << target_addr)) {
move_block_1x1(ret_code, target_addr, DOWN);
}
}
if (filter != DOWN && addr <= 15 * 3 && !(code >> (target_addr = addr + DOWN) & F_1x1)) {
ret_code = code & ~(F_1x1 << addr) | C_1x1 << target_addr;
if (move_block_release(ret_code, uint64_t(0x7) << target_addr)) {
move_block_1x1(ret_code, target_addr, UP);
}
}
if (filter != LEFT && (addr & 0x3) != 0 && !(code >> (target_addr = addr + LEFT) & F_1x1)) {
ret_code = code & ~(F_1x1 << addr) | C_1x1 << target_addr;
if (move_block_release(ret_code, uint64_t(0x7) << target_addr)) {
move_block_1x1(ret_code, target_addr, RIGHT);
}
}
if (filter != RIGHT && (addr & 0x3) != 1 && !(code >> (target_addr = addr + RIGHT) & F_1x1)) {
ret_code = code & ~(F_1x1 << addr) | C_1x1 << target_addr;
if (move_block_release(ret_code, uint64_t(0x7) << target_addr)) {
move_block_1x1(ret_code, target_addr, LEFT);
}
}
}
void move_block_1x2(uint64_t code, int addr, int filter) {
int target_addr;
uint64_t ret_code;
if (filter != UP && addr >= 4 * 3 && !(code >> (target_addr = addr + UP) & F_1x2)) {
ret_code = code & ~(F_1x2 << addr) | C_1x2 << target_addr;
if (move_block_release(ret_code, uint64_t(0x7) << target_addr)) {
move_block_1x2(ret_code, target_addr, DOWN);
}
}
if (filter != DOWN && addr <= 14 * 3 && !(code >> (target_addr = addr + DOWN) & F_1x2)) {
ret_code = code & ~(F_1x2 << addr) | C_1x2 << target_addr;
if (move_block_release(ret_code, uint64_t(0x7) << target_addr)) {
move_block_1x2(ret_code, target_addr, UP);
}
}
if (filter != LEFT && (addr & 0x3) != 0 && !(code >> (target_addr = addr + LEFT) & F_1x1)) {
ret_code = code & ~(F_1x2 << addr) | C_1x2 << target_addr;
if (move_block_release(ret_code, uint64_t(0x7) << target_addr)) {
move_block_1x2(ret_code, target_addr, RIGHT);
}
}
if (filter != RIGHT && (addr & 0x3) != 2 && !(code >> (addr + RIGHT_2) & F_1x1)) {
ret_code = code & ~(F_1x2 << addr) | C_1x2 << (target_addr = addr + RIGHT);
if (move_block_release(ret_code, uint64_t(0x7) << target_addr)) {
move_block_1x2(ret_code, target_addr, LEFT);
}
}
}
void move_block_2x1(uint64_t code, int addr, int filter) {
int target_addr;
uint64_t ret_code;
if (filter != UP && addr >= 4 * 3 && !(code >> (target_addr = addr + UP) & F_1x1)) {
ret_code = code & ~(F_2x1 << addr) | C_2x1 << target_addr;
if (move_block_release(ret_code, uint64_t(0x7) << target_addr)) {
move_block_2x1(ret_code, target_addr, DOWN);
}
}
if (filter != DOWN && addr <= 11 * 3 && !(code >> (addr + DOWN_2) & F_1x1)) {
ret_code = code & ~(F_2x1 << addr) | C_2x1 << (target_addr = addr + DOWN);
if (move_block_release(ret_code, uint64_t(0x7) << target_addr)) {
move_block_2x1(ret_code, target_addr, UP);
}
}
if (filter != LEFT && (addr & 0x3) != 0 && !(code >> (target_addr = addr + LEFT) & F_2x1)) {
ret_code = code & ~(F_2x1 << addr) | C_2x1 << target_addr;
if (move_block_release(ret_code, uint64_t(0x7) << target_addr)) {
move_block_2x1(ret_code, target_addr, RIGHT);
}
}
if (filter != RIGHT && (addr & 0x3) != 1 && !(code >> (target_addr = addr + RIGHT) & F_2x1)) {
ret_code = code & ~(F_2x1 << addr) | C_2x1 << target_addr;
if (move_block_release(ret_code, uint64_t(0x7) << target_addr)) {
move_block_2x1(ret_code, target_addr, LEFT);
}
}
}
void move_block_2x2(uint64_t code, int addr, int filter) {
int target_addr;
uint64_t ret_code;
if (filter != UP && addr >= 4 * 3 && !(code >> (target_addr = addr + UP) & F_1x2)) {
ret_code = code & ~(F_2x2 << addr) | C_2x2 << target_addr;
if (move_block_release(ret_code, uint64_t(0x7) << target_addr)) {
move_block_2x2(ret_code, target_addr, DOWN);
}
}
if (filter != DOWN && addr <= 10 * 3 && !(code >> (addr + DOWN_2) & F_1x2)) {
ret_code = code & ~(F_2x2 << addr) | C_2x2 << (target_addr = addr + DOWN);
if (move_block_release(ret_code, uint64_t(0x7) << target_addr)) {
move_block_2x2(ret_code, target_addr, UP);
}
}
if (filter != LEFT && (addr & 0x3) != 0 && !(code >> (target_addr = addr + LEFT) & F_2x1)) {
ret_code = code & ~(F_2x2 << addr) | C_2x2 << target_addr;
if (move_block_release(ret_code, uint64_t(0x7) << target_addr)) {
move_block_2x2(ret_code, target_addr, RIGHT);
}
}
if (filter != RIGHT && (addr & 0x3) != 2 && !(code >> (addr + RIGHT_2) & F_2x1)) {
ret_code = code & ~(F_2x2 << addr) | C_2x2 << (target_addr = addr + RIGHT);
if (move_block_release(ret_code, uint64_t(0x7) << target_addr)) {
move_block_2x2(ret_code, target_addr, LEFT);
}
}
}
int main() { int main() {
printf("Klotski engine\n"); printf("Klotski engine\n");
@ -46,17 +193,15 @@ int main() {
// graph_output(extract_code(0x1A9BF0C00)); // graph_output(extract_code(0x1A9BF0C00));
// printf("\n"); // printf("\n");
std::vector<uint64_t> all_case; // std::vector<uint64_t> all_case;
find_all_case(&all_case); // find_all_case(&all_case);
printf("count -> %lu\n", all_case.size()); // printf("count -> %lu\n", all_case.size());
//
for (auto code : all_case) { // for (auto code : all_case) {
if (code != compact_code(extract_code(code))) { // if (code != compact_code(extract_code(code))) {
printf("error -> %lx\n", code); // printf("error -> %lx\n", code);
} // }
} // }
return 0;
// 0x4FEA13400 // 0x4FEA13400
// # # # @ | 011 011 011 010 => 0100 1101 1011 -> 4DB // # # # @ | 011 011 011 010 => 0100 1101 1011 -> 4DB
@ -66,8 +211,8 @@ int main() {
// . # ~ ~ | 000 011 001 111 => 1110 0101 1000 -> E58 // . # ~ ~ | 000 011 001 111 => 1110 0101 1000 -> E58
// 0x0E58FC85FFEBC4DB // 0x0E58FC85FFEBC4DB
graph_output(0x0E58FC85FFEBC4DB); // graph_output(0x0E58FC85FFEBC4DB);
printf("\n"); // printf("\n");
// 0x1A9BF0C00 // 0x1A9BF0C00
// @ * * @ | 010 100 111 010 => 0101 1110 0010 -> 5E2 // @ * * @ | 010 100 111 010 => 0101 1110 0010 -> 5E2
@ -77,8 +222,70 @@ int main() {
// # . . # | 011 000 000 011 => 0110 0000 0011 -> 603 // # . . # | 011 000 000 011 => 0110 0000 0011 -> 603
// 0x0603EDF5CAFFF5E2 // 0x0603EDF5CAFFF5E2
graph_output(0x0603EDF5CAFFF5E2); // graph_output(0x0603EDF5CAFFF5E2);
// printf("\n");
// 0x...
// . . . . 000 000 000 000 0000 0000 0000 000
// . # . . 000 011 000 000 0000 0001 1000 018
// . * * . 000 100 111 000 0001 1110 0000 1E0
// . * * . 000 111 111 000 0001 1111 1000 1F8
// . . . . 000 000 000 000 0000 0000 0000 000
// 0x00001F81E0018000
// 0x...
// . . . . 000 000 000 000 0000 0000 0000 000
// . ~ ~ . 000 001 111 000 0001 1100 1000 1C8
// . * * . 000 100 111 000 0001 1110 0000 1E0
// . * * . 000 111 111 000 0001 1111 1000 1F8
// . . . . 000 000 000 000 0000 0000 0000 000
// 0x00001F81E01C8000
// 0x...
// . . . . 000 000 000 000 0000 0000 0000 000
// . ~ ~ . 000 001 111 000 0001 1100 1000 1C8
// . . . . 000 000 000 000 0000 0000 0000 000
// * * . . 100 111 000 000 0000 0011 1100 03C
// * * . . 111 111 000 000 0000 0011 1111 03F
// 0x003F03C0001C8000
// 0x...
// . @ . . 000 010 000 000 0000 0001 0000 010
// . @ . . 000 111 000 000 0000 0011 1000 038
// . * * . 000 100 111 000 0001 1110 0000 1E0
// . * * . 000 111 111 000 0001 1111 1000 1F8
// . . . . 000 000 000 000 0000 0000 0000 000
// 0x00001F81E0038010
// 0x...
// . . . . 000 000 000 000 0000 0000 0000 000
// . . . . 000 000 000 000 0000 0000 0000 000
// . * * . 000 100 111 000 0001 1110 0000 1E0
// . * * . 000 111 111 000 0001 1111 1000 1F8
// . . . . 000 000 000 000 0000 0000 0000 000
// 0x00001F81E0000000
// uint64_t code = 0x0E58FC85FFEBC4DB; // 17
// uint64_t code = 0x00001F81E0018000; // 5
// uint64_t code = 0x00001F81E01C8000; // 5
// uint64_t code = 0x003F03C0001C8000; // 5
// uint64_t code = 0x00001F81E0038010; // 1
uint64_t code = 0x00001F81E0000000; // 9
int move_target = 9;
move_cache_num = 1;
*move_cache = {code,0};
// move_block_1x1(code, move_target * 3, 0);
// move_block_1x2(code, move_target * 3, 0);
// move_block_2x1(code, move_target * 3, 0);
move_block_2x2(code, move_target * 3, 0);
for (int i = 0; i < move_cache_num; ++i) {
graph_output(move_cache[i].code);
printf("\n"); printf("\n");
}
return 0; return 0;
} }

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