# Solving RushHour Recursively, getting segfault within recursive function

I am trying to figure this code out for a class project, but cannot figure out the algorithm for solving this recursively. There is a lot of info online about solving Rush Hour with a Breadth First Search, but unfortunately, that is not recursive, and the point of this project is to do it recursively. So if anyone could help, it would be greatly appreciated.

Here is the assignment.

There is a commercially available puzzled called "Rush Hour" in which your goal is to unstick the complicated traffic jam. The puzzle is played on a 6x6 grid of squares. Vehicles ( cars and trucks) are scattered over the grid at integer locations, as shown below. Both types of vehicles are 1 square wide. Cars are 2 squares long, and trucks are 3 squares long. Vehicles may be oriented either horizontally or vertically relative to the grid.

The input is like this, entered through the keyboard.

``````1
2 H 2 1
9
2 H 1 3
2 H 0 0
2 H 1 0
2 H 2 0
2 H 3 0
2 H 4 0
2 H 4 0
2 V 2 2
3 V 0 5
9
2 H 2 3
2 H 0 0
2 H 1 0
2 V 3 3
2 H 3 4
2 H 4 0
2 H 5 2
2 V 2 2
3 V 0 5
9
2 H 2 3
2 H 0 0
2 H 1 0
2 V 3 3
2 H 3 4
2 V 4 1
2 H 5 2
2 V 2 2
3 V 0 5
0
``````

This is multiple scenarios, each beginning with an integer indicated how many vehicles are in that scenario. The first number on the next like is the length of that car. The letter is how it is oriented (H for horizontal, V for Vertical). The next number is the row it is in, and the next number is the column it is in.

The goal is to get the first car in each scenario to the right most part of the board.

We are to output the number of moves it takes ( a move being a car moving 1 space ) to solve the puzzle (if there are multiple solutions, the one with the least moves must be output. We do not have to output the moves themselves, just the number of them.

Here is my code...

``````#include <iostream>
using namespace std;

int maxMoves = 10;

class car
{
public:
void setLength(int);
void setRow(int);
void setCol(int);
void setOri(char);
int getLength()
{
return length;
}
int getRow()
{
return row;
}
int getCol()
{
return col;
}
char getOri()
{
return ori;
}

private:
int length;
int row;
int col;
char ori;
};

void printBoard ( char arr[][6]);
int readInCars ( char arr[][6], car carArr[]);
void solve (  char arr[][6], car carArr[], int numCars, car &carGiven, int numCounter, int index);
bool isSolved ( car myCar );
bool moveRight ( car &carGiven, char arr[][6] );
bool moveLeft ( car &carGiven, char arr[][6] );
bool moveDown ( car &carGiven, char arr[][6] );
bool moveUp ( car &carGiven, char arr[][6] );

int main ()
{
char arr[6][6];
int moves;
int bound = 20;
int numberOfCars;
car carArr[50];
car searchQueue;

numberOfCars = readInCars ( arr, carArr );
printBoard ( arr );

cout << "Number of Cars - " << numberOfCars << endl;
solve ( arr, carArr, numberOfCars, carArr[0], 0, 0  );

cout << "maxMoves- " << maxMoves << endl;
return 0;
}

int readInCars( char arr[][6], car carArr[])
{
int  length, row, col, numberOfCars;
char vehicleOrientation;

// Fills entire array with -'s
for ( int rowIndex = 0; rowIndex < 6; rowIndex++ )
{
for ( int colIndex = 0; colIndex < 8; colIndex++ )
{

arr[rowIndex][colIndex] = '-';
}
}

cin >> numberOfCars;
// Fills array with cars
cin >> length >> vehicleOrientation >> row >> col;
arr[row][col] = 'm';
arr[row][col+1] = 'm';

car temp;

temp.setRow(row);
temp.setCol(col);
temp.setLength(length);
temp.setOri(vehicleOrientation);

carArr[0] = temp;

for ( int i = 1; i < numberOfCars; i++ )
{

cin >> length >> vehicleOrientation >> row >> col;
car temp;

temp.setRow(row);
temp.setCol(col);
temp.setLength(length);
temp.setOri(vehicleOrientation);

carArr[i] = temp;

for (int j = 0; j < length; j++ )
{
if ( vehicleOrientation == 'H' )
{
arr[row][col+j] = 'c';
}
else if ( vehicleOrientation == 'V' )
{
arr[row+j][col] = 'c';
}
}

}
return numberOfCars;

}

void printBoard ( char arr [][6] )
{
cout << endl;
for ( int rowIndex = 0; rowIndex < 6; rowIndex++ )
{
for ( int colIndex = 0; colIndex < 6; colIndex++ )
{
cout << arr[rowIndex][colIndex];
}
cout << endl;
}

}

void solve ( char arr[][6], car carArr[], int numCars, car &carGiven, int counter, int index)
{
bool worked;
if ( counter == maxMoves )
{
return;
}
else if ( isSolved( carArr[0] ) )
{
cout << "Max Moves set to " << counter << endl;
maxMoves = counter;
return;
}

for ( int i = index; i < numCars; i++ )
{
if ( carGiven.getOri() == 'H' )
{
worked = moveRight ( carGiven, arr );
if ( worked == true )
{
counter++;
for ( int j = 0; j < numCars; j++ )
{
solve ( arr, carArr, numCars, carArr[j], counter, i );
moveLeft(carGiven, arr);
counter--;
cout << counter << endl;
}

}
worked = moveLeft ( carGiven, arr );
if ( worked == true )
{
counter++;
for ( int j=i; j < numCars; j++ )
{
solve ( arr, carArr, numCars, carArr[j], counter, i );
moveRight(carGiven, arr);
counter--;
cout << counter << endl;
}
}

}
else
{
worked = moveDown ( carGiven, arr );
if ( worked == true )
{
counter++;
for ( int j = 0; j < numCars; j++ )
{
solve ( arr, carArr, numCars, carArr[j], counter, i );
moveUp(carGiven, arr);
counter--;
}

}
worked = moveUp ( carGiven, arr );
if ( worked == true )
{
counter++;
for ( int j=0; j < numCars; j++ )
{
solve ( arr, carArr, numCars, carArr[j], counter, i );
moveDown(carGiven, arr);
counter--;
}
}

}

}

}

void car::setLength(int given)
{
length = given;
}
void car::setRow(int given)
{
row = given;
}
void car::setCol(int given)
{
col = given;
}
void car::setOri(char given)
{
ori = given;
}

bool isSolved ( car myCar )
{
int col = myCar.getCol();
if ( col+1 == 5 )
{
return true;
}
return false;

}

bool moveRight ( car &carGiven, char arr[][6] )
{
int length = carGiven.getLength();
int row = carGiven.getRow();
int col = carGiven.getCol();

if ( length == 2 )
{
if ( col+2 != 6 and arr[row][col+2] == '-' )
{
arr[row][col+2] = arr[row][col+1];
arr[row][col] = '-';
carGiven.setCol(col+1);
return true;
}
}
else
{
if ( col + 3 != 6 and arr[row][col+3] == '-' )
{
arr[row][col+3] = arr[row][col+2];
arr[row][col] = '-';
carGiven.setCol(col+1);
true;
}
}
return false;

}

bool moveLeft ( car &carGiven, char arr[][6] )
{
int length = carGiven.getLength();
int row = carGiven.getRow();
int col = carGiven.getCol();

if ( length == 2 )
{
if ( col-1 >= 0 and arr[row][col-1] == '-' )
{
arr[row][col-1] = arr[row][col];
arr[row][col+1] = '-';
carGiven.setCol(col-1);
return true;
}
}
else
{
if ( col - 1 >= 0 and arr[row][col-1] == '-' )
{
arr[row][col-1] = arr[row][col];
arr[row][col+2] = '-';
carGiven.setCol(col-1);
return true;
}
}
return false;

}

bool moveDown ( car &carGiven, char arr[][6] )
{
int length = carGiven.getLength();
int row = carGiven.getRow();
int col = carGiven.getCol();

if ( length == 2 )
{
if ( row+2 != 6 and arr[row+2][col] == '-' )
{
arr[row+2][col] = arr[row+2][col];
arr[row][col] = '-';
carGiven.setRow(row+1);
return true;
}
}
else
{
if ( row + 3 != 6 and arr[row+3][col] == '-' )
{
arr[row+3][col] = arr[row+2][col];
arr[row][col] = '-';
carGiven.setRow(row+1);
return true;
}
}
return false;

}

bool moveUp ( car &carGiven, char arr[][6] )
{
int length = carGiven.getLength();
int row = carGiven.getRow();
int col = carGiven.getCol();

if ( length == 2 )
{
if ( row-1 >= 0 and arr[row-1][col] == '-' )
{
arr[row-1][col] = arr[row][col];
arr[row+1][col-1] = '-';
carGiven.setRow(row-1);
return true;
}
}
else
{
if ( row - 1 >= 0 and arr[row-1][col] == '-' )
{
arr[row-1][col] = arr[row][col];
arr[row+2][col] = '-';
carGiven.setRow(row-1);
return true;
}
}
return false;

}
``````

My move functions are working as intended as I have tested them thoroughly. I am trying to do the simple test...

2

2 H 2 1

3 V 1 3

0

To start, but am getting a segfault within the solve function, but I cannot figure out how to fix it. Thanks for any help, you guys are awesome.

-
A general remark, the convenient thing about doing a breadth-first search is that the first solution you find in the tree of possible moves is the shortest one (the least deeply nested node of the tree). However, a depth-first search doesn't need to traverse the entire tree of moves either: you can remember the length of the shortest move you found so far and return early while traversing the rest of the tree if you can see that the move sequence you're currently computing would already be longer than the shortest one you found. –  Frerich Raabe Oct 9 '13 at 10:18
Not necessarily related to your segfaul, but you are reading one less car than the user requested. Your loop does `for ( int i = 1; i < numberOfCars; i++ )`, i.e. if `numberOfCars` is one the loop doesn't even run at all. Try using `i <= numberOfCars` (or start counting at zero). –  Frerich Raabe Oct 9 '13 at 10:21