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klotski/src/all_cases/basic_ranges.cc

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#include <algorithm>
#include "common.h"
#include "basic_ranges.h"
std::mutex BasicRanges::building;
bool BasicRanges::available = false;
std::vector<uint32_t> BasicRanges::data;
inline uint32_t binary_count(uint32_t bin) { // get number of non-zero bits
bin -= (bin >> 1) & 0x55555555;
bin = (bin & 0x33333333) + ((bin >> 2) & 0x33333333);
bin = ((bin >> 4) + bin) & 0x0F0F0F0F;
bin += bin >> 8;
bin += bin >> 16;
return bin & 0b111111;
}
BasicRanges::Status BasicRanges::status() { // get basic ranges status
if (BasicRanges::available) {
return AVAILABLE; // basic ranges already built
}
if (!BasicRanges::building.try_lock()) { // fail to lock mutex
return BUILDING; // another thread working
}
BasicRanges::building.unlock(); // release mutex
return NO_INIT;
}
const std::vector<uint32_t>* BasicRanges::fetch() { // get basic ranges content
if (status() != AVAILABLE) {
BasicRanges::build(); // basic ranges initialize
}
return &BasicRanges::data; // return const ptr
}
void BasicRanges::build() { // ensure that basic ranges available
if (!BasicRanges::available) {
if (BasicRanges::building.try_lock()) { // mutex lock success
build_data(); // start build process
BasicRanges::available = true; // set available flag
} else {
BasicRanges::building.lock(); // blocking waiting
}
BasicRanges::building.unlock(); // release mutex
}
}
void BasicRanges::build_data() { // build basic ranges
BasicRanges::data.reserve(BASIC_RANGES_SIZE); // memory pre-allocated
for (int n = 0; n <= 7; ++n) { // number of 1x2 and 2x1 block -> 0 ~ 7
for (int n_2x1 = 0; n_2x1 <= n; ++n_2x1) { // number of 2x1 block -> 0 ~ n
for (int n_1x1 = 0; n_1x1 <= (14 - n * 2); ++n_1x1) { // number of 1x1 block -> 0 ~ (14 - 2n)
int n_1x2 = n - n_2x1;
int n_space = 16 - n * 2 - n_1x1;
generate(n_space, n_1x2, n_2x1, n_1x1); // generate target ranges
/// 0x0 -> 00 | 1x2 -> 01 | 2x1 -> 10 | 1x1 -> 11
}
}
}
std::sort(BasicRanges::data.begin(), BasicRanges::data.end()); // sort basic ranges
// for (auto &range : BasicRanges::data) {
// range = Common::range_reverse(range); // basic ranges reverse
// }
}
void BasicRanges::generate(int n1, int n2, int n3, int n4) { // generate specific basic ranges
int len, limit;
constexpr uint32_t MASK_01 = 0b01 << 30;
constexpr uint32_t MASK_10 = 0b10 << 30;
constexpr uint32_t MASK_11 = 0b11 << 30;
std::vector<uint32_t> cache_1, cache_2;
len = n1 + n2;
limit = 0b1 << len;
for (uint32_t bin = 0; bin < limit; ++bin) {
if (binary_count(bin) != n2) { // skip binary without `n2` non-zero bits
continue;
}
uint32_t range = 0;
for (int i = 0; i < len; ++i) { // generate range base on binary value
range >>= 2;
if ((bin >> i) & 0b1) { // non-zero bit
range |= MASK_01;
}
}
cache_1.emplace_back(range); // insert into first layer
}
len += n3;
limit <<= n3;
for (uint32_t bin = 0; bin < limit; ++bin) {
if (binary_count(bin) != n3) { // skip binary without `n3` non-zero bits
continue;
}
for (uint32_t base : cache_1) { // traverse first layer
uint32_t range = 0;
for (int i = 0; i < len; ++i) { // generate range base on binary value
if ((bin >> i) & 0b1) { // non-zero bit
(range >>= 2) |= MASK_10;
continue;
}
(range >>= 2) |= base & MASK_11;
base <<= 2;
}
cache_2.emplace_back(range); // insert into second layer
}
}
len += n4;
limit <<= n4;
for (uint32_t bin = 0; bin < limit; ++bin) {
if (binary_count(bin) != n4) { // skip binary without `n4` non-zero bits
continue;
}
for (uint32_t base : cache_2) { // traverse second layer
uint32_t range = 0;
for (int i = 0; i < len; ++i) { // generate range base on binary value
if ((bin >> i) & 0b1) { // non-zero bit
(range >>= 2) |= MASK_11;
continue;
}
(range >>= 2) |= base & MASK_11;
base <<= 2;
}
BasicRanges::data.emplace_back(range); // insert into release data
}
}
}