Browse Source

remove: legacy fast_cal demo

legacy
Dnomd343 2 years ago
parent
commit
c6bedb9594
  1. 178
      src/fast_cal.cc

178
src/fast_cal.cc

@ -1,178 +0,0 @@
#include <iostream>
#include <unordered_map>
#include <functional>
#include <queue>
#include "core.h"
#include "fast_cal.h"
#include "raw_code.h"
#include "common.h"
struct fast_cal_t {
uint64_t code;
uint64_t mask;
// uint32_t step;
fast_cal_t *last;
};
std::queue<fast_cal_t*> cache;
std::unordered_map<uint64_t, fast_cal_t> cases;
class FastCal;
class GlobalCal;
//template<typename T>
class CoreDemo {
public:
// typedef void (T::*release_t)(uint64_t);
std::function<void(uint64_t)> release;
// void next(uint64_t code, T *f, release_t release_func) {
void next(uint64_t code) {
std::cout << "Core get code = " << code << std::endl;
std::cout << "Core callback first time" << std::endl;
// (f->*release_func)(++code);
release(++code);
std::cout << "Core callback second time" << std::endl;
// (f->*release_func)(++code);
release(++code);
std::cout << "Core function exit" << std::endl;
}
};
class FastCal {
public:
uint64_t data;
explicit FastCal(uint64_t dat) : data(dat) {}
void callback(uint64_t code) {
std::cout << "FastCal get callback " << code << std::endl;
data = code;
std::cout << "FastCal set data " << data << std::endl;
}
void run() {
// auto cd = CoreDemo<FastCal>();
auto cd = CoreDemo();
cd.release = std::bind(&FastCal::callback, this, std::placeholders::_1);
std::cout << "FastCal data = " << data << std::endl;
// cd.next(data, this, &FastCal::callback);
cd.next(data);
}
};
class GlobalCal {
public:
uint64_t data;
explicit GlobalCal(uint64_t dat) : data(dat) {}
void callback(uint64_t code) {
std::cout << "GlobalCal get callback " << code << std::endl;
data = code;
std::cout << "GlobalCal set data " << data << std::endl;
}
void run() {
// auto cd = CoreDemo<GlobalCal>();
auto cd = CoreDemo();
cd.release = std::bind(&GlobalCal::callback, this, std::placeholders::_1);
std::cout << "GlobalCal data = " << data << std::endl;
// cd.next(data, this, &GlobalCal::callback);
cd.next(data);
}
};
void add_new_case(uint64_t code, uint64_t mask) {
auto exist_case = cases.find(code);
if (exist_case != cases.end()) { // find existed case
exist_case->second.mask |= mask; // mask update
return;
}
cases[code] = fast_cal_t {
.code = code,
.mask = mask,
.last = cache.front(),
};;
cache.emplace(&cases[code]);
// TODO: try to check head address = 0xD at here
// if (((code >> (3 * 0xD)) & 0b111) == B_2x2) {
// std::cout << "Resolved" << std::endl;
// std::cout << RawCode(cache.front()->code).dump_case() << std::endl;
// stop_flag = true;
// }
}
uint32_t fast_cal(uint64_t code) {
auto f1 = FastCal(1000);
auto f2 = FastCal(2000);
auto g = GlobalCal(3000);
f2.run();
f1.run();
f1.run();
g.run();
// auto g = GlobalCal();
// g.run();
return 0;
auto core = Core(add_new_case);
cases.empty();
cache.empty();
cases[code] = fast_cal_t {
.code = code,
.mask = 0,
.last = nullptr,
};
cache.emplace(&cases[code]);
while (!cache.empty()) {
// break check point
if (((cache.front()->code >> (3 * 0xD)) & 0b111) == B_2x2) {
std::cout << "Resolved" << std::endl;
// std::cout << RawCode(cache.front()->code).dump_case() << std::endl;
break;
}
// core.next_step(cache.front()->code, cache.front()->mask);
cache.pop();
}
auto solution = cache.front();
while (solution != nullptr) {
std::cout << RawCode(solution->code).dump_case() << std::endl;
solution = solution->last;
}
return cases.size();
}
Loading…
Cancel
Save