PuzzleSolver/Source/header/solve.h

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using namespace std;
class PuzzlePiece: public Part
{
public:
PuzzlePiece(unsigned int flag = 0)
{
shifts=0;
boxidentifier=-1;
switch(flag)
{
case 0:
setConnections(0b00000000);
break;
case 1:
setConnections(0b11111111);
break;
case 3:
randomCenterPiece();
break;
}
}
void shift(unsigned int moves);
void randomCenterPiece();
void printPiece() { cout << bitset<sizeof(unsigned char)*8> (getConnections()); }
void setBoxIdentifier(int new_boxid) { boxidentifier = new_boxid; }
int getBoxIdentifier() { return boxidentifier; }
void assignIdentifier() { identifier = idcount;idcount++; }
unsigned int getIdentifier() { return identifier;}
private:
unsigned int shifts;
unsigned int boxidentifier;
unsigned int identifier;
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static unsigned int idcount;
};
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class Puzzle
{
friend class randomBox;
public:
//constructor creates matrix with 00 outside and 11 inside
Puzzle(uint m = 7, uint n = 4): col(m), row(n)
{
Matrix = new PuzzlePiece* [n+2];
for(int i = 0;i<n+2;i++)
{
Matrix[i] = new PuzzlePiece[m+2];
for(int j = 0;j<m+2;j++)
{
if(i==0 || j==0 || i==n+1 || j==m+1)
{
Matrix[i][j] = PuzzlePiece(0);
}
else
{
Matrix[i][j] = PuzzlePiece(1);
}
}
}
}
bool setPiece(uint m,uint n,PuzzlePiece newPiece)
{
if(PlaceOfPartGood(m,n,newPiece))
{
Matrix[n+1][m+1] = newPiece;
return 1;
}
return 0;
}
//removes piece and instead puts undefined piece
bool removePiece(uint m,uint n)
{
Matrix[n+1][m+1].setConnections(0b11111111);
return 1;
}
//getter
PuzzlePiece getPiece(uint m,uint n) { return Matrix[n+1][m+1]; }
uint getCols(){ return col; }
uint getRows(){ return row; }
//functtion definitions
void printPuzzle();
bool PlaceOfPartGood(unsigned int m, unsigned int n, PuzzlePiece& myPart);
bool PlaceOfPart2Good(unsigned int m,unsigned int n, PuzzlePiece& myPart);
bool testRotationPiece(unsigned int m, unsigned int n, PuzzlePiece& myPart);
unsigned int tryAllPieces(unsigned int m, unsigned int n, vector<PuzzlePiece>& myBox, unsigned int separator);
unsigned int putBackIntoBox(unsigned int m, unsigned int n, vector<PuzzlePiece>& myBox);
private:
uint row;
uint col;
PuzzlePiece** Matrix;
};
//use this for random puzzle creation
class randomBox: public Puzzle
{
public:
randomBox(unsigned int m, unsigned int n) : Puzzle(m,n) {srand(time(0));} //passed m n to puzzle constructor
void createRandomPuzzle();
vector<PuzzlePiece> shuffle();
void printBox();
private:
vector<PuzzlePiece> Box;
};
class coor
{
public:
int m, n;
coor(int newm=-1,int newn=-1): m(newm), n(newn)
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{}
};
class LogEntry
{
public:
vector<PuzzlePiece*> PieceCollector;
int abstractionLevel;
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coor myCoor;
void advance(){abstractionLevel++;}
void Set(){set=1;}
bool isSet(){return set;}
void advanceRandomed() { randomed++;}
void decreaseRandomed() { randomed--;}
int hasRandomed(){return randomed;}
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LogEntry()
{
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myCoor = coor();
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abstractionLevel=0;
set=0;
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}
private:
bool set;
static int randomed;
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};
int LogEntry::randomed(0);
unsigned int PuzzlePiece::idcount(0);
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void printBox(vector<PuzzlePiece> myBox);
vector<PuzzlePiece> createBox(uint m, uint n);
void numerateBox(vector<PuzzlePiece>& myBox);
bool next(vector<LogEntry>& log, vector<PuzzlePiece*>& p_Box, Puzzle& puzzleMat);
coor calculateFirstCoor(vector<LogEntry>& log, vector<PuzzlePiece*>& p_Box, Puzzle& puzzleMat);
coor calculateNextCoor(vector<LogEntry>& log, vector<PuzzlePiece*>& p_Box, Puzzle& puzzleMat);
void solve(vector<LogEntry>& log, vector<PuzzlePiece*>& p_Box, Puzzle& puzzleMat);
void abstractionlayer0solver(vector<LogEntry>& log, vector<PuzzlePiece*>& p_Box, Puzzle& puzzleMat);
void abstractionlayer1solver(vector<LogEntry>& log, vector<PuzzlePiece*>& p_Box, Puzzle& puzzleMat);
void setsolution(vector<LogEntry>& log, vector<PuzzlePiece*>& p_Box, Puzzle& puzzleMat);
bool backtrack(vector<LogEntry>& log, vector<PuzzlePiece*>& p_Box, Puzzle& puzzleMat);