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update engine

master
Dnomd343 5 years ago
parent
commit
a9f176ec06
  1. 133
      src/engine/HRD_analy.cpp
  2. 9
      src/engine/HRD_analy.h
  3. 32
      src/engine/HRD_cal.cpp
  4. 106
      src/engine/HRD_group.cpp
  5. 62
      src/engine/HRD_statistic.cpp
  6. 1
      src/engine/HRD_statistic.h
  7. 30
      src/engine/main.cpp

133
src/engine/HRD_analy.cpp

@ -66,22 +66,16 @@ void HRD_analy::Output_Graph(unsigned long long Code, unsigned int square_width,
} }
width = temp.size(); width = temp.size();
height = temp[0].size(); height = temp[0].size();
for (x = 0; x < width + square_gap * 2 + 2; x++) { for (x = 0; x < width + square_gap * 2 + 2; x++) {cout << str;}
cout << str;
}
cout << endl; cout << endl;
for (y = 0; y < square_gap; y++) { for (y = 0; y < square_gap; y++) {
cout << str; cout << str;
for (x = 0; x < width + square_gap * 2; x++) { for (x = 0; x < width + square_gap * 2; x++) {cout << " ";}
cout << " ";
}
cout << str << endl; cout << str << endl;
} }
for (y = 0; y < height; y++) { for (y = 0; y < height; y++) {
cout << str; cout << str;
for (x = 0; x < square_gap; x++) { for (x = 0; x < square_gap; x++) {cout << " ";}
cout << " ";
}
for (x = 0; x < width; x++) { for (x = 0; x < width; x++) {
if (temp[x][y]) { if (temp[x][y]) {
cout << str; cout << str;
@ -89,28 +83,21 @@ void HRD_analy::Output_Graph(unsigned long long Code, unsigned int square_width,
cout << " "; cout << " ";
} }
} }
for (x = 0; x < square_gap; x++) { for (x = 0; x < square_gap; x++) {cout << " ";}
cout << " ";
}
cout << str << endl; cout << str << endl;
} }
for (y = 0; y < square_gap; y++) { for (y = 0; y < square_gap; y++) {
cout << str; cout << str;
for (x = 0; x < width + square_gap * 2; x++) { for (x = 0; x < width + square_gap * 2; x++) {cout << " ";}
cout << " ";
}
cout << str << endl; cout << str << endl;
} }
for (x = 0; x < width + square_gap * 2 + 2; x++) { for (x = 0; x < width + square_gap * 2 + 2; x++) {cout << str;}
cout << str;
}
cout << endl; cout << endl;
} }
void HRD_analy::Output_Detail(string File_name) { // 输出分析结果到文件 void HRD_analy::Output_Detail(string File_name) { // 输出分析结果到文件
unsigned int i, j, k; unsigned int i, j, k;
ofstream output; ofstream output;
vector <Case_cal *> case_list;
if (!quiet) { if (!quiet) {
cout << "Output into: " << File_name << "..."; cout << "Output into: " << File_name << "...";
} }
@ -145,18 +132,19 @@ void HRD_analy::Output_Detail(string File_name) { // 输出分析结果到文件
output << "[Layer]" << endl; output << "[Layer]" << endl;
for (i = 0; i < Layer.size(); i++) { for (i = 0; i < Layer.size(); i++) {
for (j = 0; j < Layer[i].size(); j++) { for (j = 0; j < Layer[i].size(); j++) {
output << "(" << i << "," << j << ") -> "; output << "(" << i << "," << j << ") = ";
output << Change_str((*Layer[i][j]).code) << endl; output << Change_str((*Layer[i][j]).code) << endl;
} }
} }
vector <Case_cal *> *case_list;
output << "[Next]" << endl; output << "[Next]" << endl;
for (i = 0; i < Layer.size(); i++) { for (i = 0; i < Layer.size(); i++) {
for (j = 0; j < Layer[i].size(); j++) { for (j = 0; j < Layer[i].size(); j++) {
case_list = (*(*Layer[i][j]).adjacent).next_case; case_list = Layer[i][j]->next_case;
output << "(" << i << "," << j << ") ->"; output << "(" << i << "," << j << ") ->";
for (k = 0; k < case_list.size(); k++) { for (k = 0; k < case_list->size(); k++) {
output << " (" << (*case_list[k]).layer_num; output << " (" << (*case_list->at(k)).layer_num;
output << "," << (*case_list[k]).layer_index << ")"; output << "," << (*case_list->at(k)).layer_index << ")";
} }
output << endl; output << endl;
} }
@ -164,19 +152,17 @@ void HRD_analy::Output_Detail(string File_name) { // 输出分析结果到文件
output << "[Source]" << endl; output << "[Source]" << endl;
for (i = 0; i < Layer.size(); i++) { for (i = 0; i < Layer.size(); i++) {
for (j = 0; j < Layer[i].size(); j++) { for (j = 0; j < Layer[i].size(); j++) {
case_list = (*(*Layer[i][j]).adjacent).source_case; case_list = Layer[i][j]->source_case;
output << "(" << i << "," << j << ") <-"; output << "(" << i << "," << j << ") <-";
for (k = 0; k < case_list.size(); k++) { for (k = 0; k < case_list->size(); k++) {
output << " (" << (*case_list[k]).layer_num; output << " (" << (*case_list->at(k)).layer_num;
output << "," << (*case_list[k]).layer_index << ")"; output << "," << (*case_list->at(k)).layer_index << ")";
} }
output << endl; output << endl;
} }
} }
output.close(); output.close();
if (!quiet) { if (!quiet) {cout << "done" << endl;}
cout << "done" << endl;
}
} }
void HRD_analy::Analyse_Case(unsigned long long code) { // 分析输入编码的各种参数 void HRD_analy::Analyse_Case(unsigned long long code) { // 分析输入编码的各种参数
@ -208,7 +194,7 @@ void HRD_analy::Analyse_Case(unsigned long long code) { // 分析输入编码的
// 获取最少步解 // 获取最少步解
for (i = 0; i < Layer.size(); i++) { for (i = 0; i < Layer.size(); i++) {
for (j = 0; j < Layer[i].size(); j++) { for (j = 0; j < Layer[i].size(); j++) {
if (((*Layer[i][j]).code >> 32) == 0xD) { // 2 * 2块在出口位置 if ((Layer[i][j]->code >> 32) == 0xD) { // 2 * 2块在出口位置
min_solution_step = i; // 找到最少步数 min_solution_step = i; // 找到最少步数
j = Layer[i].size(); // 跳出两层循环 j = Layer[i].size(); // 跳出两层循环
i = Layer.size(); i = Layer.size();
@ -217,7 +203,7 @@ void HRD_analy::Analyse_Case(unsigned long long code) { // 分析输入编码的
} }
if (min_solution_step == -1) {return;} // 无解则退出 if (min_solution_step == -1) {return;} // 无解则退出
for (i = 0; i < Layer[min_solution_step].size(); i++) { // 遍历最少步所在层 for (i = 0; i < Layer[min_solution_step].size(); i++) { // 遍历最少步所在层
if (((*Layer[min_solution_step][i]).code >> 32) == 0xD) { // 判断是否为解 if ((Layer[min_solution_step][i]->code >> 32) == 0xD) { // 判断是否为解
min_solution_case.push_back((*Layer[min_solution_step][i]).code); // 加入最少步解序列中 min_solution_case.push_back((*Layer[min_solution_step][i]).code); // 加入最少步解序列中
solution_flag[min_solution_step][i] = true; // 标识 solution_flag[min_solution_step][i] = true; // 标识
} }
@ -225,7 +211,7 @@ void HRD_analy::Analyse_Case(unsigned long long code) { // 分析输入编码的
min_solution_num = min_solution_case.size(); min_solution_num = min_solution_case.size();
sort(min_solution_case.begin(), min_solution_case.end()); // 得到的结果进行排序 sort(min_solution_case.begin(), min_solution_case.end()); // 得到的结果进行排序
// 获取全部解 // 获取全部解
vector <Case_cal *> case_list; vector <Case_cal *> *case_list;
solution_case = min_solution_case; // 同步最少步解到所有解序列中 solution_case = min_solution_case; // 同步最少步解到所有解序列中
for (i = 0; i < solution_case.size(); i++) { // 初始化已知部分的solution_step for (i = 0; i < solution_case.size(); i++) { // 初始化已知部分的solution_step
solution_step.push_back(min_solution_step); solution_step.push_back(min_solution_step);
@ -233,17 +219,17 @@ void HRD_analy::Analyse_Case(unsigned long long code) { // 分析输入编码的
for (i = 0; i < Layer.size() - 1; i++) { // 遍历除最后一层外的所有层 for (i = 0; i < Layer.size() - 1; i++) { // 遍历除最后一层外的所有层
for (j = 0; j < Layer[i].size(); j++) { // 遍历层内元素 for (j = 0; j < Layer[i].size(); j++) { // 遍历层内元素
if (solution_flag[i][j]) { // 若该元素被标识 if (solution_flag[i][j]) { // 若该元素被标识
case_list = (*(*Layer[i][j]).adjacent).next_case; case_list = Layer[i][j]->next_case;
for (k = 0; k < case_list.size(); k++) { // 遍历其下一步 for (k = 0; k < case_list->size(); k++) { // 遍历其下一步
solution_flag[i + 1][(*case_list[k]).layer_index] = true; // 标识 solution_flag[i + 1][(*case_list->at(k)).layer_index] = true; // 标识
} }
} }
} }
temp.clear(); temp.clear();
for (j = 0; j < Layer[i + 1].size(); j++) { // 遍历下一层内元素 for (j = 0; j < Layer[i + 1].size(); j++) { // 遍历下一层内元素
if (!solution_flag[i + 1][j]) { // 得到未被标识的元素 if (!solution_flag[i + 1][j]) { // 得到未被标识的元素
if (((*Layer[i + 1][j]).code >> 32) == 0xD) { // 若为解的布局 if ((Layer[i + 1][j]->code >> 32) == 0xD) { // 若为解的布局
temp.push_back((*Layer[i + 1][j]).code); // 先加入到temp中方便排序 temp.push_back(Layer[i + 1][j]->code); // 先加入到temp中方便排序
solution_step.push_back(i + 1); solution_step.push_back(i + 1);
solution_flag[i + 1][j] = true; // 标识 solution_flag[i + 1][j] = true; // 标识
} }
@ -255,6 +241,7 @@ void HRD_analy::Analyse_Case(unsigned long long code) { // 分析输入编码的
} }
} }
solution_num = solution_case.size(); solution_num = solution_case.size();
if (quiet) {return;} // 若quiet为true则不输出 if (quiet) {return;} // 若quiet为true则不输出
cout << "---------------------------" << endl; cout << "---------------------------" << endl;
cout << "farthest_step = " << farthest_step << endl; cout << "farthest_step = " << farthest_step << endl;
@ -283,7 +270,8 @@ void HRD_analy::Free_Data() { // 释放上一次的计算结果
unsigned int i, j; unsigned int i, j;
for (i = 0; i < Layer.size(); i++) { // 释放Layer中指向的全部节点 for (i = 0; i < Layer.size(); i++) { // 释放Layer中指向的全部节点
for (j = 0; j < Layer[i].size(); j++) { for (j = 0; j < Layer[i].size(); j++) {
delete (*Layer[i][j]).adjacent; delete Layer[i][j]->source_case;
delete Layer[i][j]->next_case;
delete Layer[i][j]; delete Layer[i][j];
} }
} }
@ -294,18 +282,20 @@ void HRD_analy::Free_Data() { // 释放上一次的计算结果
} }
void HRD_analy::Calculate(unsigned long long code) { void HRD_analy::Calculate(unsigned long long code) {
Free_Data(); // 初始化数据结构 Free_Data(); // 初始化
Case_cal *start = new Case_cal; Case_cal *start = new Case_cal;
(*start).adjacent = new Case_near; start->source_case = new vector <Case_cal *>;
start->next_case = new vector <Case_cal *>;
if (!Parse_Code(*start, code)) { // 若输入编码错误 退出 if (!Parse_Code(*start, code)) { // 若输入编码错误 退出
delete (*start).adjacent; delete start->source_case;
delete start->next_case;
delete start; delete start;
return; return;
} }
Layer.resize(1); // 创建第0层 Layer.resize(1); // 创建第0层
Layer[0].push_back(start); // 加入根节点 Layer[0].push_back(start); // 加入根节点
(*start).layer_num = (*start).layer_index = 0; // 初始化根节点编号 start->layer_num = start->layer_index = 0; // 初始化根节点编号
Layer_hash[0xffff & ((*start).code >> 16)].push_back(start); // 根节点加入哈希表 Layer_hash[0xffff & (start->code >> 16)].push_back(start); // 根节点加入哈希表
now_move_num = now_move_index = 0; // 从根节点开始运算 now_move_num = now_move_index = 0; // 从根节点开始运算
while (1 == 1) { // 创建死循环 while (1 == 1) { // 创建死循环
if (now_move_index == 0) { // 若在计算层的第一个元素 if (now_move_index == 0) { // 若在计算层的第一个元素
@ -332,17 +322,17 @@ void HRD_analy::Calculate(unsigned long long code) {
void HRD_analy::Add_Case(Case_cal *dat) { // 将计算得到的节点加入层级中 void HRD_analy::Add_Case(Case_cal *dat) { // 将计算得到的节点加入层级中
unsigned int i, x, y; unsigned int i, x, y;
Case_cal *repeat_case; Case_cal *repeat_case;
int hash_index = 0xffff & ((*dat).code >> 16); // 取得哈希索引 int hash_index = 0xffff & (dat->code >> 16); // 取得哈希索引
for (i = 0; i < Layer_hash[hash_index].size(); i++) { // 遍历索引内容 for (i = 0; i < Layer_hash[hash_index].size(); i++) { // 遍历索引内容
repeat_case = Layer_hash[hash_index][i]; repeat_case = Layer_hash[hash_index][i];
if ((*repeat_case).code == (*dat).code) { // 发现重复 if (repeat_case->code == dat->code) { // 发现重复
if ((*repeat_case).layer_num == now_move_num + 1) { // 若发现的目标比现在多一层 if (repeat_case->layer_num == now_move_num + 1) { // 若发现的目标比现在多一层
(*(*repeat_case).adjacent).source_case.push_back(now_move_case); // 记录父节点信息 (*repeat_case->source_case).push_back(now_move_case); // 记录父节点信息
(*(*now_move_case).adjacent).next_case.push_back(repeat_case); // 记录子节点信息 (*now_move_case->next_case).push_back(repeat_case); // 记录子节点信息
for (x = 0; x < 4; x++) { // 遍历freeze表 for (x = 0; x < 4; x++) { // 遍历freeze表
for (y = 0; y < 5; y++) { for (y = 0; y < 5; y++) {
if ((*dat).freeze[x][y]) { // 将输入表合并到原先的表上 if (dat->freeze[x][y]) { // 将输入表合并到原先的表上
(*repeat_case).freeze[x][y] = true; repeat_case->freeze[x][y] = true;
} }
} }
} }
@ -351,11 +341,12 @@ void HRD_analy::Add_Case(Case_cal *dat) { // 将计算得到的节点加入层
return; // 退出 return; // 退出
} }
} }
(*dat).adjacent = new Case_near; // 初始化节点的相邻布局结构 dat->source_case = new vector <Case_cal *>;
(*(*dat).adjacent).source_case.push_back(now_move_case); // 记录父节点信息 dat->next_case = new vector <Case_cal *>;
(*(*now_move_case).adjacent).next_case.push_back(dat); // 记录子节点信息 (*dat->source_case).push_back(now_move_case); // 记录父节点信息
(*dat).layer_num = now_move_num + 1; // 记录节点的层编号 (*now_move_case->next_case).push_back(dat); // 记录子节点信息
(*dat).layer_index = Layer[now_move_num + 1].size(); // 记录节点在层中的编号 dat->layer_num = now_move_num + 1; // 记录节点的层编号
dat->layer_index = Layer[now_move_num + 1].size(); // 记录节点在层中的编号
Layer[now_move_num + 1].push_back(dat); // 加入层级结构中 Layer[now_move_num + 1].push_back(dat); // 加入层级结构中
Layer_hash[hash_index].push_back(dat); // 加入哈希索引 Layer_hash[hash_index].push_back(dat); // 加入哈希索引
} }
@ -522,25 +513,41 @@ void HRD_analy::Build_Case(Case_cal &dat, int &num, int x, int y, bool addr[4][5
*dat_mod = dat; *dat_mod = dat;
switch ((*dat_mod).type[num]) { // 注入移动后的信息 switch ((*dat_mod).type[num]) { // 注入移动后的信息
case 0: // 2 * 2 case 0: // 2 * 2
(*dat_mod).status[x][y] = (*dat_mod).status[x][y + 1] dat_mod->status[x][y] = dat_mod->status[x][y + 1]
= (*dat_mod).status[x + 1][y] = (*dat_mod).status[x + 1][y + 1] = num; = dat_mod->status[x + 1][y] = dat_mod->status[x + 1][y + 1] = num;
break; break;
case 1: // 2 * 1 case 1: // 2 * 1
(*dat_mod).status[x][y] = (*dat_mod).status[x + 1][y] = num; dat_mod->status[x][y] = dat_mod->status[x + 1][y] = num;
break; break;
case 2: // 1 * 2 case 2: // 1 * 2
(*dat_mod).status[x][y] = (*dat_mod).status[x][y + 1] = num; dat_mod->status[x][y] = dat_mod->status[x][y + 1] = num;
break; break;
case 3: // 1 * 1 case 3: // 1 * 1
(*dat_mod).status[x][y] = num; dat_mod->status[x][y] = num;
break; break;
} }
Get_Code(*dat_mod); // 更新移动后的编码 Get_Code(*dat_mod); // 更新移动后的编码
Add_Case(dat_mod); // 发送给Add_Case Add_Case(dat_mod); // 发送给Add_Case
Find_Sub_Case(dat, num, x, y, addr); // 递归搜索 Find_Sub_Case(dat, num, x, y, addr); // 递归搜索
} }
bool HRD_analy::Is_Mirror(unsigned long long code) {
Case_cal dat;
Parse_Code(dat, code);
for (int j = 0; j < 5; j++) {
for (int i = 0; i < 2; i++) {
if (dat.status[i][j] == 0xFF) { // undefined
return false; // 编码有误
} else if (dat.status[i][j] == 0xFE) { // space
if (dat.status[3 - i][j] != 0xFE) {return false;} // 不对称
} else {
if (dat.type[dat.status[i][j]] != dat.type[dat.status[3 - i][j]]) {return false;} // 不对称
}
}
}
return true;
}
bool HRD_analy::Check_Code(unsigned long long code) { bool HRD_analy::Check_Code(unsigned long long code) { // 判断布局是否左右对称
Case_cal dat; Case_cal dat;
return Parse_Code(dat, code); return Parse_Code(dat, code);
} }

9
src/engine/HRD_analy.h

@ -7,7 +7,6 @@ using namespace std;
class HRD_analy { class HRD_analy {
public: public:
struct Case_near;
struct Case_cal { struct Case_cal {
bool freeze[4][5]; // true -> no move ; false -> can move bool freeze[4][5]; // true -> no move ; false -> can move
unsigned char status[4][5]; // 0xFF -> undefined ; 0xFE -> space unsigned char status[4][5]; // 0xFF -> undefined ; 0xFE -> space
@ -15,11 +14,8 @@ class HRD_analy {
unsigned long long code; unsigned long long code;
unsigned int layer_num; unsigned int layer_num;
unsigned int layer_index; unsigned int layer_index;
Case_near *adjacent; vector <Case_cal *> *source_case;
}; vector <Case_cal *> *next_case;
struct Case_near {
vector <Case_cal *> source_case;
vector <Case_cal *> next_case;
}; };
vector <vector <Case_cal *> > Layer; // 储存全部层数据的节点 vector <vector <Case_cal *> > Layer; // 储存全部层数据的节点
Case_cal Parse_dat; Case_cal Parse_dat;
@ -39,6 +35,7 @@ class HRD_analy {
string Change_str(unsigned long long dat); string Change_str(unsigned long long dat);
bool Check_Code(unsigned long long code); bool Check_Code(unsigned long long code);
bool Parse_Code(unsigned long long Code); bool Parse_Code(unsigned long long Code);
bool Is_Mirror(unsigned long long code);
void Analyse_Case(unsigned long long code); void Analyse_Case(unsigned long long code);
void Output_Detail(string File_name); void Output_Detail(string File_name);
void Free_Data(); void Free_Data();

32
src/engine/HRD_cal.cpp

@ -13,7 +13,7 @@ vector <unsigned long long> HRD_cal::Calculate_All(unsigned long long Code) { //
} }
cal(Code); // 进行广搜 cal(Code); // 进行广搜
for (i = 0; i < List.size(); i++) { for (i = 0; i < List.size(); i++) {
data.push_back((*List[i]).code); // 储存计算结果 data.push_back(List[i]->code); // 储存计算结果
} }
init_data(); // 防止内存泄漏 init_data(); // 防止内存泄漏
return data; return data;
@ -63,12 +63,12 @@ vector <unsigned long long> HRD_cal::Calculate(unsigned long long Code) { // 寻
vector <unsigned long long> HRD_cal::Get_Path(unsigned int result_num) { // 找到开始到目标的最短路径 vector <unsigned long long> HRD_cal::Get_Path(unsigned int result_num) { // 找到开始到目标的最短路径
vector <unsigned long long> Path; vector <unsigned long long> Path;
Path.clear(); Path.clear();
Path.push_back((*List[result_num]).code); // 加入目标布局 Path.push_back(List[result_num]->code); // 加入目标布局
while (List_source[result_num] != 0) { // 找到路径主体 while (List_source[result_num] != 0) { // 找到路径主体
result_num = List_source[result_num]; result_num = List_source[result_num];
Path.push_back((*List[result_num]).code); // 加入记录 Path.push_back(List[result_num]->code); // 加入记录
} }
Path.push_back((*List[0]).code); // 加入开始布局 Path.push_back(List[0]->code); // 加入开始布局
reverse(Path.begin(), Path.end()); // 路径倒置 reverse(Path.begin(), Path.end()); // 路径倒置
init_data(); init_data();
return Path; return Path;
@ -102,7 +102,7 @@ void HRD_cal::cal(unsigned long long Code) { // 广搜寻找目标
} }
List.push_back(start); // 加入根节点 List.push_back(start); // 加入根节点
List_source.push_back(0); List_source.push_back(0);
List_hash[0xffff & ((*start).code >> 16)].push_back(start); List_hash[0xffff & (start->code >> 16)].push_back(start);
while (now_move != List.size()) { // 找到所有元素后退出 while (now_move != List.size()) { // 找到所有元素后退出
Find_Next_Case(*List[now_move]); Find_Next_Case(*List[now_move]);
if (flag) {break;} // 若找到则退出 if (flag) {break;} // 若找到则退出
@ -112,14 +112,14 @@ void HRD_cal::cal(unsigned long long Code) { // 广搜寻找目标
void HRD_cal::Add_Case(Case_cal *dat) { // 将找到的布局加入队列中 void HRD_cal::Add_Case(Case_cal *dat) { // 将找到的布局加入队列中
unsigned int i, x, y; unsigned int i, x, y;
int hash_index = 0xffff & ((*dat).code >> 16); // 取得哈希索引 int hash_index = 0xffff & (dat->code >> 16); // 取得哈希索引
for (i = 0; i < List_hash[hash_index].size(); i++) { // 遍历索引内容 for (i = 0; i < List_hash[hash_index].size(); i++) { // 遍历索引内容
if ((*List_hash[hash_index][i]).code == (*dat).code) { // 发现重复 if (List_hash[hash_index][i]->code == dat->code) { // 发现重复
// 通过freeze表合并来屏蔽不必要的移动 // 通过freeze表合并来屏蔽不必要的移动
for (x = 0; x < 4; x++) { // 遍历freeze表 for (x = 0; x < 4; x++) { // 遍历freeze表
for (y = 0; y < 5; y++) { for (y = 0; y < 5; y++) {
if ((*dat).freeze[x][y]) { // 将输入表合并到原先的表上 if (dat->freeze[x][y]) { // 将输入表合并到原先的表上
(*List_hash[hash_index][i]).freeze[x][y] = true; List_hash[hash_index][i]->freeze[x][y] = true;
} }
} }
} }
@ -131,12 +131,12 @@ void HRD_cal::Add_Case(Case_cal *dat) { // 将找到的布局加入队列中
List_source.push_back(now_move); // 记录溯源信息 List_source.push_back(now_move); // 记录溯源信息
List_hash[hash_index].push_back(dat); // 加入哈希索引 List_hash[hash_index].push_back(dat); // 加入哈希索引
if (mode == 1) { // 寻解模式 if (mode == 1) { // 寻解模式
if ((0xF & ((*dat).code >> 32)) == 0xD) { // 2 * 2块在出口位置 if ((0xF & (dat->code >> 32)) == 0xD) { // 2 * 2块在出口位置
flag = true; // 标志已找到目标 flag = true; // 标志已找到目标
result = List.size() - 1; // 记录找到的目标位置 result = List.size() - 1; // 记录找到的目标位置
} }
} else if (mode == 2) { // 查找目标模式 } else if (mode == 2) { // 查找目标模式
if ((*dat).code == target_code) { // 搜索到目标 if (dat->code == target_code) { // 搜索到目标
flag = true; // 标志已找到目标 flag = true; // 标志已找到目标
result = List.size() - 1; // 记录找到的目标位置 result = List.size() - 1; // 记录找到的目标位置
} }
@ -306,17 +306,17 @@ void HRD_cal::Build_Case(Case_cal &dat, int &num, int x, int y, bool addr[4][5])
*dat_mod = dat; *dat_mod = dat;
switch ((*dat_mod).type[num]) { // 注入移动后的信息 switch ((*dat_mod).type[num]) { // 注入移动后的信息
case 0: // 2 * 2 case 0: // 2 * 2
(*dat_mod).status[x][y] = (*dat_mod).status[x][y + 1] dat_mod->status[x][y] = dat_mod->status[x][y + 1]
= (*dat_mod).status[x + 1][y] = (*dat_mod).status[x + 1][y + 1] = num; = dat_mod->status[x + 1][y] = dat_mod->status[x + 1][y + 1] = num;
break; break;
case 1: // 2 * 1 case 1: // 2 * 1
(*dat_mod).status[x][y] = (*dat_mod).status[x + 1][y] = num; dat_mod->status[x][y] = dat_mod->status[x + 1][y] = num;
break; break;
case 2: // 1 * 2 case 2: // 1 * 2
(*dat_mod).status[x][y] = (*dat_mod).status[x][y + 1] = num; dat_mod->status[x][y] = dat_mod->status[x][y + 1] = num;
break; break;
case 3: // 1 * 1 case 3: // 1 * 1
(*dat_mod).status[x][y] = num; dat_mod->status[x][y] = num;
break; break;
} }
Get_Code(*dat_mod); // 更新移动后的编码 Get_Code(*dat_mod); // 更新移动后的编码

106
src/engine/HRD_group.cpp

@ -61,24 +61,24 @@ void HRD_group::Analyse_Group(vector <unsigned long long> dat) { // 传入整个
vector <Case *> List_hash[0x10000]; // 哈希索引 vector <Case *> List_hash[0x10000]; // 哈希索引
for (i = 0; i < dat.size(); i++) { // 将数据注入到List中 for (i = 0; i < dat.size(); i++) { // 将数据注入到List中
Case *temp = new Case; Case *temp = new Case;
(*temp).Code = dat[i]; temp->Code = dat[i];
List.push_back(temp); List.push_back(temp);
} }
for (i = 0; i < List.size(); i++) { // 构建哈希索引表 for (i = 0; i < List.size(); i++) { // 构建哈希索引表
hash_index = 0xffff & ((*List[i]).Code >> 16); hash_index = 0xffff & (List[i]->Code >> 16);
List_hash[hash_index].push_back(List[i]); List_hash[hash_index].push_back(List[i]);
} }
for (i = 0; i < List.size(); i++) { // 计算全部2 * 2块的位置 for (i = 0; i < List.size(); i++) { // 计算全部2 * 2块的位置
(*List[i]).addr_2x2 = (*List[i]).Code >> 32; List[i]->addr_2x2 = List[i]->Code >> 32;
} }
vector <unsigned long long> next_code; vector <unsigned long long> next_code;
for (i = 0; i < List.size(); i++) { // 构建关系网 for (i = 0; i < List.size(); i++) { // 构建关系网
next_code = Find_Next_Case((*List[i]).Code); // 找到全部子布局 next_code = Find_Next_Case(List[i]->Code); // 找到全部子布局
for (j = 0; j < next_code.size(); j++) { // 遍历子布局 for (j = 0; j < next_code.size(); j++) { // 遍历子布局
hash_index = 0xffff & (next_code[j] >> 16); // 取得哈希索引 hash_index = 0xffff & (next_code[j] >> 16); // 取得哈希索引
for (k = 0; List_hash[hash_index].size(); k++) { // 搜索该索引 for (k = 0; List_hash[hash_index].size(); k++) { // 搜索该索引
if ((*List_hash[hash_index][k]).Code == next_code[j]) { // 找到目标 if (List_hash[hash_index][k]->Code == next_code[j]) { // 找到目标
(*List[i]).Next.push_back(List_hash[hash_index][k]); // 链接目标位置 List[i]->Next.push_back(List_hash[hash_index][k]); // 链接目标位置
break; // 退出循环 break; // 退出循环
} }
} }
@ -87,8 +87,8 @@ void HRD_group::Analyse_Group(vector <unsigned long long> dat) { // 传入整个
Case_detail *result; Case_detail *result;
for(i = 0; i < List.size(); i++) { // 遍历整个队列 for(i = 0; i < List.size(); i++) { // 遍历整个队列
for (k = 0; k < List.size(); k++) { // 初始化 for (k = 0; k < List.size(); k++) { // 初始化
(*List[k]).Layer_num = -1; List[k]->Layer_num = -1;
(*List[k]).Flag = false; List[k]->Flag = false;
} }
result = Analyse_Case(List[i]); // 计算对应布局数据并储存到result中 result = Analyse_Case(List[i]); // 计算对应布局数据并储存到result中
Output_detail(result); Output_detail(result);
@ -105,36 +105,36 @@ void HRD_group::Analyse_Group(vector <unsigned long long> dat) { // 传入整个
void HRD_group::Output_detail(Case_detail *dat) { void HRD_group::Output_detail(Case_detail *dat) {
unsigned int i; unsigned int i;
// farthest // farthest
output_farthest << Change_str((*dat).code) << ","; output_farthest << Change_str(dat->code) << ",";
output_farthest << (*dat).farthest_step << ","; output_farthest << dat->farthest_step << ",";
output_farthest << (*dat).farthest_num << ","; output_farthest << dat->farthest_num << ",";
for (i = 0; i < (*dat).farthest_case.size(); i++) { for (i = 0; i < dat->farthest_case.size(); i++) {
output_farthest << Change_str((*dat).farthest_case[i]); output_farthest << Change_str(dat->farthest_case[i]);
if (i + 1 != (*dat).farthest_case.size()) { if (i + 1 != dat->farthest_case.size()) {
output_farthest << "-"; output_farthest << "-";
} }
} }
output_farthest << endl; output_farthest << endl;
// solution // solution
output_solution << Change_str((*dat).code) << ","; output_solution << Change_str(dat->code) << ",";
output_solution << (*dat).min_solution_step << ","; output_solution << dat->min_solution_step << ",";
output_solution << (*dat).min_solution_num << ","; output_solution << dat->min_solution_num << ",";
for (i = 0; i < (*dat).min_solution_case.size(); i++) { for (i = 0; i < dat->min_solution_case.size(); i++) {
output_solution << Change_str((*dat).min_solution_case[i]); output_solution << Change_str(dat->min_solution_case[i]);
if (i + 1 != (*dat).min_solution_case.size()) { if (i + 1 != dat->min_solution_case.size()) {
output_solution << "-"; output_solution << "-";
} }
} }
output_solution << "," << (*dat).solution_num; output_solution << "," << dat->solution_num;
if (!Output_solution_case) { if (!Output_solution_case) {
output_solution << endl; output_solution << endl;
return; return;
} }
output_solution << ","; output_solution << ",";
for (i = 0; i < (*dat).solution_case.size(); i++) { for (i = 0; i < dat->solution_case.size(); i++) {
output_solution << Change_str((*dat).solution_case[i]); output_solution << Change_str(dat->solution_case[i]);
output_solution << "(" << (*dat).solution_step[i] << ")"; output_solution << "(" << dat->solution_step[i] << ")";
if (i + 1 != (*dat).solution_case.size()) { if (i + 1 != dat->solution_case.size()) {
output_solution << "-"; output_solution << "-";
} }
} }
@ -146,63 +146,63 @@ HRD_group::Case_detail* HRD_group::Analyse_Case(Case *start) { // 根据关系
vector <Case *> case_list; vector <Case *> case_list;
Case_detail *dat = new Case_detail; // dat储存分析结果 Case_detail *dat = new Case_detail; // dat储存分析结果
Case_detail_init(*dat); // 初始化 Case_detail_init(*dat); // 初始化
(*dat).code = (*start).Code; dat->code = start->Code;
(*start).Layer_num = 0; //令入口节点的层级为0 start->Layer_num = 0; //令入口节点的层级为0
case_list.push_back(start); // 加入队列中 case_list.push_back(start); // 加入队列中
i = 0; i = 0;
while (i != case_list.size()) { // 找到所有元素后退出 while (i != case_list.size()) { // 找到所有元素后退出
if ((*case_list[i]).addr_2x2 == 0xD) { // 2 * 2块在出口位置 if ((*case_list[i]).addr_2x2 == 0xD) { // 2 * 2块在出口位置
if (!(*case_list[i]).Flag) { // 未被标识 if (!case_list[i]->Flag) { // 未被标识
(*dat).solution_case.push_back((*case_list[i]).Code); // 判定为解 dat->solution_case.push_back(case_list[i]->Code); // 判定为解
(*dat).solution_step.push_back((*case_list[i]).Layer_num); dat->solution_step.push_back(case_list[i]->Layer_num);
(*case_list[i]).Flag = true; // 进行标识 case_list[i]->Flag = true; // 进行标识
} }
} }
for (k = 0; k < (*case_list[i]).Next.size(); k++) { // 检测目标布局的全部子布局 for (k = 0; k < case_list[i]->Next.size(); k++) { // 检测目标布局的全部子布局
if ((*(*case_list[i]).Next[k]).Layer_num == -1) { // 若之前还未被搜索到 if ((*case_list[i]->Next[k]).Layer_num == -1) { // 若之前还未被搜索到
(*(*case_list[i]).Next[k]).Layer_num = (*case_list[i]).Layer_num + 1; // 记录层级信息 (*case_list[i]->Next[k]).Layer_num = case_list[i]->Layer_num + 1; // 记录层级信息
case_list.push_back((*case_list[i]).Next[k]); // 加入搜索队列 case_list.push_back(case_list[i]->Next[k]); // 加入搜索队列
} }
if ((*case_list[i]).Flag) { // 若已经标识 则感染下一层的子布局 if (case_list[i]->Flag) { // 若已经标识 则感染下一层的子布局
if ((*(*case_list[i]).Next[k]).Layer_num == (*case_list[i]).Layer_num + 1) { // 若为下一层 if ((*case_list[i]->Next[k]).Layer_num == case_list[i]->Layer_num + 1) { // 若为下一层
(*(*case_list[i]).Next[k]).Flag = true; // 标识 (*case_list[i]->Next[k]).Flag = true; // 标识
} }
} }
} }
i++; // 搜索下一个布局 i++; // 搜索下一个布局
} }
// 计算最远布局 // 计算最远布局
(*dat).farthest_step = (*case_list[case_list.size() - 1]).Layer_num; // 得到最远步数 dat->farthest_step = case_list[case_list.size() - 1]->Layer_num; // 得到最远步数
for (int i = case_list.size() - 1; i >= 0; i--) { // 逆向搜索 for (int i = case_list.size() - 1; i >= 0; i--) { // 逆向搜索
if ((*case_list[i]).Layer_num == (*dat).farthest_step) { // 如果是最远布局 if (case_list[i]->Layer_num == dat->farthest_step) { // 如果是最远布局
(*dat).farthest_case.push_back((*case_list[i]).Code); // 加入记录 dat->farthest_case.push_back(case_list[i]->Code); // 加入记录
} else { } else {
break; // 退出搜索 break; // 退出搜索
} }
} }
(*dat).farthest_num = (*dat).farthest_case.size(); // 得到最远布局的个数 dat->farthest_num = dat->farthest_case.size(); // 得到最远布局的个数
sort((*dat).farthest_case.begin(), (*dat).farthest_case.end()); sort(dat->farthest_case.begin(), dat->farthest_case.end());
// 计算解的情况 // 计算解的情况
(*dat).solution_num = (*dat).solution_case.size(); // 得到解的个数 dat->solution_num = dat->solution_case.size(); // 得到解的个数
int step = -1; int step = -1;
vector < vector <unsigned long long> > temp; // 暂存不同步数解的信息 vector < vector <unsigned long long> > temp; // 暂存不同步数解的信息
for (i = 0; i < (*dat).solution_step.size(); i++) { // 遍历全部解 for (i = 0; i < dat->solution_step.size(); i++) { // 遍历全部解
if (step != int((*dat).solution_step[i])) { // 发现步数不同 if (step != int(dat->solution_step[i])) { // 发现步数不同
temp.resize(temp.size() + 1); // temp扩容 temp.resize(temp.size() + 1); // temp扩容
step = (*dat).solution_step[i]; // 重置步数 step = dat->solution_step[i]; // 重置步数
} }
temp[temp.size() - 1].push_back((*dat).solution_case[i]); // 数据加入到temp中 temp[temp.size() - 1].push_back(dat->solution_case[i]); // 数据加入到temp中
} }
(*dat).solution_case.clear(); // 清空原数据 dat->solution_case.clear(); // 清空原数据
for (i = 0; i < temp.size(); i++) { // 将排序后的数据重新写入 for (i = 0; i < temp.size(); i++) { // 将排序后的数据重新写入
sort(temp[i].begin(), temp[i].end()); // 排序同一步数的不同解 sort(temp[i].begin(), temp[i].end()); // 排序同一步数的不同解
if (i == 0) { // 若为最少步数 if (i == 0) { // 若为最少步数
(*dat).min_solution_case = temp[0]; // 记录最少步解的布局 dat->min_solution_case = temp[0]; // 记录最少步解的布局
(*dat).min_solution_num = temp[0].size(); // 记录最少步解的个数 dat->min_solution_num = temp[0].size(); // 记录最少步解的个数
(*dat).min_solution_step = (*dat).solution_step[0]; // 记录最少步数 dat->min_solution_step = (*dat).solution_step[0]; // 记录最少步数
} }
for (k = 0; k < temp[i].size(); k++) { for (k = 0; k < temp[i].size(); k++) {
(*dat).solution_case.push_back(temp[i][k]); // 写入数据 dat->solution_case.push_back(temp[i][k]); // 写入数据
} }
} }
return dat; return dat;

62
src/engine/HRD_statistic.cpp

@ -33,7 +33,7 @@ void HRD_statistic::Get_seed() {
cout << int(jiang_num) << "-" << int(bing_num) << "-" << int(style_num) << " -> "; cout << int(jiang_num) << "-" << int(bing_num) << "-" << int(style_num) << " -> ";
case_index.clear(); case_index.clear();
for (i = 0; i < All_Case.size(); i++) { // 在全部布局中找到符合当前要求的布局 for (i = 0; i < All_Case.size(); i++) { // 在全部布局中找到符合当前要求的布局
if ((*All_Case[i]).jiang_num == jiang_num && (*All_Case[i]).bing_num == bing_num && (*All_Case[i]).style_num == style_num && (*All_Case[i]).group_index == 0) { if (All_Case[i]->jiang_num == jiang_num && All_Case[i]->bing_num == bing_num && All_Case[i]->style_num == style_num && All_Case[i]->group_index == 0) {
case_index.push_back(i); case_index.push_back(i);
} }
} }
@ -41,7 +41,7 @@ void HRD_statistic::Get_seed() {
if (case_index.size() == 0) {continue;} if (case_index.size() == 0) {continue;}
for (i = 0; i < case_index.size() - 1; i++) { for (i = 0; i < case_index.size() - 1; i++) {
for (j = 0; j < case_index.size() - i - 1; j++) { for (j = 0; j < case_index.size() - i - 1; j++) {
if ((*All_Case[case_index[j]]).group_num > (*All_Case[case_index[j + 1]]).group_num) { if (All_Case[case_index[j]]->group_num > All_Case[case_index[j + 1]]->group_num) {
swap(case_index[j], case_index[j + 1]); swap(case_index[j], case_index[j + 1]);
} }
} }
@ -49,7 +49,7 @@ void HRD_statistic::Get_seed() {
File_name = to_string(jiang_num) + "-" + to_string(bing_num) + "-" + to_string(style_num) + ".txt"; File_name = to_string(jiang_num) + "-" + to_string(bing_num) + "-" + to_string(style_num) + ".txt";
output_seed.open(File_name); output_seed.open(File_name);
for (i = 0; i < case_index.size(); i++) { // 录入找到布局的编码 for (i = 0; i < case_index.size(); i++) { // 录入找到布局的编码
output_seed << cal.Change_str((*All_Case[case_index[i]]).code); output_seed << cal.Change_str(All_Case[case_index[i]]->code);
if (i != case_index.size() - 1) { // 如果不是最后一组就输出回车 if (i != case_index.size() - 1) { // 如果不是最后一组就输出回车
output_seed << endl; output_seed << endl;
} }
@ -65,7 +65,8 @@ void HRD_statistic::Sort_All_Case() { // 整理所有布局
unsigned int i, num; unsigned int i, num;
unsigned char jiang_num, bing_num, style_num; unsigned char jiang_num, bing_num, style_num;
for (i = 0; i < All_Case.size(); i++) { // 遍历全部布局 for (i = 0; i < All_Case.size(); i++) { // 遍历全部布局
analy.Parse_Code((*All_Case[i]).code); // 解析布局 All_Case[i]->is_mirror = analy.Is_Mirror(All_Case[i]->code);
analy.Parse_Code(All_Case[i]->code); // 解析布局
jiang_num = bing_num = style_num = 0; jiang_num = bing_num = style_num = 0;
for (num = 1; num < 15; num++) { // 遍历所有棋子 for (num = 1; num < 15; num++) { // 遍历所有棋子
switch (analy.Parse_dat.type[num]) { switch (analy.Parse_dat.type[num]) {
@ -83,9 +84,9 @@ void HRD_statistic::Sort_All_Case() { // 整理所有布局
continue; continue;
} }
} }
(*All_Case[i]).jiang_num = jiang_num; All_Case[i]->jiang_num = jiang_num;
(*All_Case[i]).bing_num = bing_num; All_Case[i]->bing_num = bing_num;
(*All_Case[i]).style_num = style_num; All_Case[i]->style_num = style_num;
if (i % 1000000 == 0) { // 显示计算进度 if (i % 1000000 == 0) { // 显示计算进度
cout << i << "/" << All_Case.size() << endl; cout << i << "/" << All_Case.size() << endl;
} }
@ -100,18 +101,18 @@ void HRD_statistic::Sort_All_Case() { // 整理所有布局
case_index.clear(); case_index.clear();
case_code.clear(); case_code.clear();
for (i = 0; i < All_Case.size(); i++) { // 在全部布局中找到符合当前要求的布局 for (i = 0; i < All_Case.size(); i++) { // 在全部布局中找到符合当前要求的布局
if ((*All_Case[i]).jiang_num == jiang_num && (*All_Case[i]).bing_num == bing_num && (*All_Case[i]).style_num == style_num) { if (All_Case[i]->jiang_num == jiang_num && All_Case[i]->bing_num == bing_num && All_Case[i]->style_num == style_num) {
case_index.push_back(i); // 记录找到布局的索引 case_index.push_back(i); // 记录找到布局的索引
} }
} }
for (i = 0; i < case_index.size(); i++) { // 录入找到布局的编码 for (i = 0; i < case_index.size(); i++) { // 录入找到布局的编码
case_code.push_back((*All_Case[case_index[i]]).code); case_code.push_back(All_Case[case_index[i]]->code);
} }
cout << " (" << case_code.size() << ") ..."; cout << " (" << case_code.size() << ") ...";
case_res = Split_Group(case_code); // 进行群组分割 case_res = Split_Group(case_code); // 进行群组分割
for (i = 0; i < case_res.size(); i++) { // 遍历分割结果 for (i = 0; i < case_res.size(); i++) { // 遍历分割结果
(*All_Case[case_index[i]]).group_num = (*case_res[i]).group_num; // 记录群组分类结果 All_Case[case_index[i]]->group_num = case_res[i]->group_num; // 记录群组分类结果
(*All_Case[case_index[i]]).group_index = (*case_res[i]).group_index; All_Case[case_index[i]]->group_index = case_res[i]->group_index;
delete case_res[i]; // 释放内存 delete case_res[i]; // 释放内存
} }
cout << "OK" << endl; cout << "OK" << endl;
@ -130,18 +131,18 @@ vector <HRD_statistic::Case_group *> HRD_statistic::Split_Group(vector <unsigned
vector < vector <Case_group *> > groups; // 记录群组数组 vector < vector <Case_group *> > groups; // 记录群组数组
for (i = 0; i < input_dat.size(); i++) { // 记录输入的编码 for (i = 0; i < input_dat.size(); i++) { // 记录输入的编码
Case_group *temp = new Case_group; Case_group *temp = new Case_group;
(*temp).id = i; temp->id = i;
(*temp).code = input_dat[i]; temp->code = input_dat[i];
case_list.push_back(temp); case_list.push_back(temp);
} }
while (case_list.size() != 0) { // 循环分割群组 while (case_list.size() != 0) { // 循环分割群组
it = case_list.begin(); // 定位当前序列起始点 it = case_list.begin(); // 定位当前序列起始点
dat = cal.Calculate_All((*(*it)).code); // 计算起始点编码所在的整个群 dat = cal.Calculate_All((*it)->code); // 计算起始点编码所在的整个群
sort(dat.begin(), dat.end()); // 整理顺序 sort(dat.begin(), dat.end()); // 整理顺序
groups.resize(groups.size() + 1); // groups增加一组 groups.resize(groups.size() + 1); // groups增加一组
for (i = 0; i < dat.size(); i++) { // 遍历搜索到的整个群 for (i = 0; i < dat.size(); i++) { // 遍历搜索到的整个群
while (it != case_list.end()) { // 直到序列的结尾 while (it != case_list.end()) { // 直到序列的结尾
if (dat[i] == (*(*it)).code) { // 在序列中找到 if (dat[i] == (*it)->code) { // 在序列中找到
groups[groups.size() - 1].push_back(*it); // 记录找到的编码 groups[groups.size() - 1].push_back(*it); // 记录找到的编码
case_list.erase(it++); // 删除序列中当前的编码 并指向序列中下一个编码 case_list.erase(it++); // 删除序列中当前的编码 并指向序列中下一个编码
break; // 退出循环 break; // 退出循环
@ -161,9 +162,9 @@ vector <HRD_statistic::Case_group *> HRD_statistic::Split_Group(vector <unsigned
output_dat.resize(input_dat.size()); // 声明返回数组的长度 output_dat.resize(input_dat.size()); // 声明返回数组的长度
for (i = 0; i < groups.size(); i++) { // 遍历所有群 for (i = 0; i < groups.size(); i++) { // 遍历所有群
for (j = 0; j < groups[i].size(); j++) { // 遍历群中的所有元素 for (j = 0; j < groups[i].size(); j++) { // 遍历群中的所有元素
(*groups[i][j]).group_num = i; groups[i][j]->group_num = i;
(*groups[i][j]).group_index = j; groups[i][j]->group_index = j;
output_dat[(*groups[i][j]).id] = groups[i][j]; // 记录元素到返回数组 output_dat[groups[i][j]->id] = groups[i][j]; // 记录元素到返回数组
} }
} }
return output_dat; return output_dat;
@ -175,7 +176,7 @@ void HRD_statistic::Output_All_Case(string File_name) { // 输出全部编码
ofstream output; ofstream output;
output.open(File_name); output.open(File_name);
for (i = 0; i < All_Case.size(); i++) { // 遍历全部布局 for (i = 0; i < All_Case.size(); i++) { // 遍历全部布局
output << cal.Change_str((*All_Case[i]).code); output << cal.Change_str(All_Case[i]->code);
if (i != All_Case.size() - 1) { // 如果不是最后一组就输出回车 if (i != All_Case.size() - 1) { // 如果不是最后一组就输出回车
output << endl; output << endl;
} }
@ -192,13 +193,18 @@ void HRD_statistic::Output_main_table(string File_name) { // 输出全部编码
ofstream output; ofstream output;
output.open(File_name); output.open(File_name);
for (i = 0; i < All_Case.size(); i++) { // 遍历全部布局 for (i = 0; i < All_Case.size(); i++) { // 遍历全部布局
output << (*All_Case[i]).id << ","; output << All_Case[i]->id << ",";
output << cal.Change_str((*All_Case[i]).code) << ","; output << cal.Change_str(All_Case[i]->code) << ",";
output << int((*All_Case[i]).jiang_num) << ","; if (All_Case[i]->is_mirror) {
output << int((*All_Case[i]).bing_num) << ","; output << "Y,";
output << int((*All_Case[i]).style_num) << ","; } else {
output << (*All_Case[i]).group_num << ","; output << "N,";
output << (*All_Case[i]).group_index; }
output << int(All_Case[i]->jiang_num) << ",";
output << int(All_Case[i]->bing_num) << ",";
output << int(All_Case[i]->style_num) << ",";
output << All_Case[i]->group_num << ",";
output << All_Case[i]->group_index;
if (i != All_Case.size() - 1) { // 如果不是最后一组就输出回车 if (i != All_Case.size() - 1) { // 如果不是最后一组就输出回车
output << endl; output << endl;
} }
@ -219,8 +225,8 @@ void HRD_statistic::Find_All_Case() { // 找到所有编码
Code = (n << 32) | i; // 生成Code Code = (n << 32) | i; // 生成Code
if (cal.Check_Code(Code)) { // 检查编码是否正确 if (cal.Check_Code(Code)) { // 检查编码是否正确
Case *temp = new Case; Case *temp = new Case;
(*temp).code = Code; temp->code = Code;
(*temp).id = num; temp->id = num;
All_Case.push_back(temp); // 记录搜到的编码 All_Case.push_back(temp); // 记录搜到的编码
num++; num++;
} }

1
src/engine/HRD_statistic.h

@ -13,6 +13,7 @@ class HRD_statistic {
private: private:
struct Case { struct Case {
unsigned int id; unsigned int id;
bool is_mirror;
unsigned long long code; unsigned long long code;
unsigned char jiang_num; unsigned char jiang_num;
unsigned char bing_num; unsigned char bing_num;

30
src/engine/main.cpp

@ -15,8 +15,10 @@ unsigned long long checked_code;
bool code_check(string str) { bool code_check(string str) {
HRD_cal cal; HRD_cal cal;
char code_str[10]; char code_str[10];
if (str.length() != 9) { if (str.length() > 9) { // 超过九位 错误
return false; return false;
} else {
str.resize(9, '0'); // 剩余的补0
} }
for (unsigned int i = 0; i < str.length(); i++) { for (unsigned int i = 0; i < str.length(); i++) {
code_str[i] = str[i]; code_str[i] = str[i];
@ -324,65 +326,65 @@ void show_help() {
cout << endl; cout << endl;
cout << " --show <code> [square_width]" << endl; cout << " --show <code> [square_width]" << endl;
cout << " Purpose: Visualize the <code>" << endl; cout << " Purpose: Visualize the <code>" << endl;
cout << " exp: ./engine --show 1A9BF0C00" << endl; cout << " eg: ./engine --show 1A9BF0C00" << endl;
cout << " ./engine --show 1A9BF0C00 4" << endl; cout << " ./engine --show 1A9BF0C00 4" << endl;
cout << endl; cout << endl;
cout << " --cal <code> [file_name]" << endl; cout << " --cal <code> [file_name]" << endl;
cout << " Purpose: Find the minimum step solution of <code>" << endl; cout << " Purpose: Find the minimum step solution of <code>" << endl;
cout << " exp: ./engine --cal 1A9BF0C00" << endl; cout << " eg: ./engine --cal 1A9BF0C00" << endl;
cout << " ./engine --cal 1A9BF0C00 demo.txt" << endl; cout << " ./engine --cal 1A9BF0C00 demo.txt" << endl;
cout << endl; cout << endl;
cout << " --cal-target <code> <target> [file_name]" << endl; cout << " --cal-target <code> <target> [file_name]" << endl;
cout << " Purpose: Find the shortest path from <code> to <target>" << endl; cout << " Purpose: Find the shortest path from <code> to <target>" << endl;
cout << " exp: ./engine --cal-target 4FEA13400 43EA73400" << endl; cout << " eg: ./engine --cal-target 4FEA13400 43EA73400" << endl;
cout << " ./engine --cal-target 4FEA13400 43EA73400 demo.txt" << endl; cout << " ./engine --cal-target 4FEA13400 43EA73400 demo.txt" << endl;
cout << endl; cout << endl;
cout << " --group <code> [file_name]" << endl; cout << " --group <code> [file_name]" << endl;
cout << " Purpose: Find all elements of the group where <code> located" << endl; cout << " Purpose: Find all elements of the group where <code> located" << endl;
cout << " exp: ./engine --group 4FEA13400" << endl; cout << " eg: ./engine --group 4FEA13400" << endl;
cout << " ./engine --group 4FEA13400 demo.txt" << endl; cout << " ./engine --group 4FEA13400 demo.txt" << endl;
cout << endl; cout << endl;
cout << " --analy <code> [file_name]" << endl; cout << " --analy <code> [file_name]" << endl;
cout << " Purpose: Detailed analysis of the <code> " << endl; cout << " Purpose: Detailed analysis of the <code> " << endl;
cout << " exp: ./engine --analy 1A9BF0C00" << endl; cout << " eg: ./engine --analy 1A9BF0C00" << endl;
cout << " ./engine --analy 1A9BF0C00 demo.txt" << endl; cout << " ./engine --analy 1A9BF0C00 demo.txt" << endl;
cout << endl; cout << endl;
cout << " --analy-quiet <code> <file_name>" << endl; cout << " --analy-quiet <code> <file_name>" << endl;
cout << " Purpose: The same function as --analy, but doesn't show the specific process" << endl; cout << " Purpose: The same function as --analy, but doesn't show the specific process" << endl;
cout << " exp: ./engine --analy-quiet 1A9BF0C00 demo.txt" << endl; cout << " eg: ./engine --analy-quiet 1A9BF0C00 demo.txt" << endl;
cout << endl; cout << endl;
cout << " --analy-group <code> <file_name_farthest> <file_name_solution>" << endl; cout << " --analy-group <code> <file_name_farthest> <file_name_solution>" << endl;
cout << " <file_name_farthest>: As the output file of \"farthest\"" << endl; cout << " <file_name_farthest>: As the output file of \"farthest\"" << endl;
cout << " <file_name_solution>: As the output file of \"solution\"" << endl; cout << " <file_name_solution>: As the output file of \"solution\"" << endl;
cout << " Purpose: Analyze the whole group where <code> located" << endl; cout << " Purpose: Analyze the whole group where <code> located" << endl;
cout << " exp: ./engine --analy-group 1A9BF0C00 farthest.csv solution.csv" << endl; cout << " eg: ./engine --analy-group 1A9BF0C00 farthest.csv solution.csv" << endl;
cout << endl; cout << endl;
cout << " --analy-group-integral <code> <file_name_farthest> <file_name_farthest>" << endl; cout << " --analy-group-integral <code> <file_name_farthest> <file_name_farthest>" << endl;
cout << " Purpose: The same function as --analy-group, but all solution case will be output" << endl; cout << " Purpose: The same function as --analy-group, but all solution case will be output" << endl;
cout << " exp: ./engine --analy-group-integral 1A9BF0C00 farthest.csv solution.csv" << endl; cout << " eg: ./engine --analy-group-integral 1A9BF0C00 farthest.csv solution.csv" << endl;
cout << endl; cout << endl;
cout << " --analy-multi-group <input_file_name> <file_name_farthest> <file_name_farthest>" << endl; cout << " --analy-multi-group <input_file_name> <file_name_farthest> <file_name_farthest>" << endl;
cout << " <input_file_name>: As the input file of seeds" << endl; cout << " <input_file_name>: As the input file of seeds" << endl;
cout << " <file_name_farthest>: As the output file of \"farthest\"" << endl; cout << " <file_name_farthest>: As the output file of \"farthest\"" << endl;
cout << " <file_name_farthest>: As the output file of \"solution\"" << endl; cout << " <file_name_farthest>: As the output file of \"solution\"" << endl;
cout << " Purpose: Analyze the whole group where each seed located" << endl; cout << " Purpose: Analyze the whole group where each seed located" << endl;
cout << " exp: ./engine --analy-multi-group 5-4-0.txt farthest.csv solution.csv" << endl; cout << " eg: ./engine --analy-multi-group 5-4-0.txt farthest.csv solution.csv" << endl;
cout << endl; cout << endl;
cout << " --analy-multi-group-integral <input_file_name> <file_name_farthest> <file_name_farthest>" << endl; cout << " --analy-multi-group-integral <input_file_name> <file_name_farthest> <file_name_farthest>" << endl;
cout << " Purpose: The same function as --analy-multi-group, but all solution case will be output" << endl; cout << " Purpose: The same function as --analy-multi-group, but all solution case will be output" << endl;
cout << " exp: ./engine --analy-multi-group-integral 5-4-0.txt farthest.csv solution.csv" << endl; cout << " eg: ./engine --analy-multi-group-integral 5-4-0.txt farthest.csv solution.csv" << endl;
cout << endl; cout << endl;
cout << " --all" << endl; cout << " --all" << endl;
cout << " Purpose: Find all the cases of klotski with detail" << endl; cout << " Purpose: Find all the cases of klotski with detail" << endl;
cout << " exp: ./engine --all" << endl; cout << " eg: ./engine --all" << endl;
cout << endl; cout << endl;
cout << " --all-code <file_name>" << endl; cout << " --all-code <file_name>" << endl;
cout << " Purpose: Find all the code of klotski" << endl; cout << " Purpose: Find all the code of klotski" << endl;
cout << " exp: ./engine --all-code All_Case.txt" << endl; cout << " eg: ./engine --all-code All_Case.txt" << endl;
cout << endl; cout << endl;
cout << " --help" << endl; cout << " --help" << endl;
cout << " Purpose: Display instructions for use" << endl; cout << " Purpose: Display instructions for use" << endl;
cout << " exp: ./engine --help" << endl; cout << " eg: ./engine --help" << endl;
cout << endl; cout << endl;
cout << "More details: https://github.com/dnomd343/HRD_Database" << endl; cout << "More details: https://github.com/dnomd343/HRD_Database" << endl;
cout << endl; cout << endl;

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