public override void _Ready()
{
//grid = GetNode("Grid"); //TODO: autoload grid?
grid = new Grid.Grid();
genTestWorld();
GD.Print(GD.Str(grid));
genMesh(grid.getChangedChunks());
}
static void Main(string[] args)
{
IGrid grid = new Grid.Grid(ROWS, COLUMNS);
IMazeAlgorithm binaryAlgorithm = new Binary();
IDistanceAlgorithm solver = new Rectangular();
MazeGenerator.Generator generator = new MazeGenerator.Generator(grid, binaryAlgorithm, solver);
generator.ApplyAlgorithm();
int maxDistance = generator.SolveMaze(new GridPosition(0, 0));
Bitmap gridPng = new Bitmap(WIDTH_IN_PIXLES, HEITH_IN_PIXLES);
Graphics tool = Graphics.FromImage(gridPng);
Pen blackPen = new Pen(Color.Black, PEN_THICKNESS_IN_PIXLES);
List <Room> rooms = grid.GetRooms();
int cellWidth = WIDTH_IN_PIXLES / COLUMNS;
int cellHeigth = HEITH_IN_PIXLES / ROWS;
foreach (Room room in rooms)
{
int xOfUpperLeft = room.column * cellWidth;
int yOfUpperLeft = room.row * cellHeigth;
int xOfLowerRight = (room.column * cellWidth) + cellWidth;
int yOfLowerRight = (room.row * cellHeigth) + cellHeigth;
if (!room.Neighbors().Contains(Direction.NORTH))
{
tool.DrawLine(blackPen, xOfUpperLeft, yOfUpperLeft, xOfLowerRight, yOfUpperLeft);
}
if (!room.Neighbors().Contains(Direction.WEST))
{
tool.DrawLine(blackPen, xOfUpperLeft, yOfUpperLeft, xOfUpperLeft, yOfLowerRight);
}
if (!room.Neighbors().Contains(Direction.EAST))
{
tool.DrawLine(blackPen, xOfLowerRight, yOfUpperLeft, xOfLowerRight, yOfLowerRight);
}
if (!room.Neighbors().Contains(Direction.SOUTH))
{
tool.DrawLine(blackPen, xOfUpperLeft, yOfLowerRight, xOfLowerRight, yOfLowerRight);
}
double intensity = ((double)maxDistance - (double)room.distance) / ((double)maxDistance);
double dark = Math.Round((255d * intensity));
double bright = 128d + Math.Round(127d * intensity);
Color roomColor = Color.FromArgb((int)dark, (int)bright, (int)dark);
Brush roomColorBrush = new SolidBrush(roomColor);
tool.FillRectangle(roomColorBrush, xOfUpperLeft, yOfUpperLeft, cellWidth, cellHeigth);
}
gridPng.Save("Hello.png");
blackPen.Dispose();
tool.Dispose();
gridPng.Dispose();
}
static void Main(string[] args)
{
// Prompt the user to input the type of algorithm we will be using. 1 for Binary 2 for sidewinder
System.Console.WriteLine("Please tell me what type of algorithm you want to use. (1 - Binary 2 - Sidewinder)");
int algorithmType;
// Create the base grid
IGrid grid = new Grid.Grid(ROWS, COLUMNS);
// Determine and create the type of algorithm that will be used to generate the rooms
IMazeAlgorithm currentAlgorithm = null;
do
{
// Get the type of algorithm that the user wants to use
algorithmType = Convert.ToInt32(System.Console.ReadLine());
switch (algorithmType)
{
case 1:
currentAlgorithm = new Binary();
break;
case 2:
currentAlgorithm = new Sidewinder();
break;
default:
System.Console.WriteLine("Can't find this algorithm. Please choose a valid one. (1 - Binary 2 - Sidewinder)");
break;
}
} while (algorithmType > 2 || algorithmType < 1);
// Create the distance tracker
IDistanceAlgorithm solver = new Rectangular();
// Generate the maze
MazeGenerator.Generator generator = new MazeGenerator.Generator(grid, currentAlgorithm, solver);
// Apply the algorithm to the generated maze
generator.ApplyAlgorithm();
int maxDistance = generator.SolveMaze(new GridPosition(0, 0));
// create the .png with WIDTH_IN_PIXLES width and HEITH_IN_PIXELS height
Bitmap gridPng = new Bitmap(WIDTH_IN_PIXLES, HEITH_IN_PIXLES);
Graphics tool = Graphics.FromImage(gridPng);
Pen blackPen = new Pen(Color.Black, PEN_THICKNESS_IN_PIXLES);
// create a list of rooms from the generated grid
List <Room> rooms = grid.GetRooms();
int cellWidth = WIDTH_IN_PIXLES / COLUMNS;
int cellHeigth = HEITH_IN_PIXLES / ROWS;
// Draw a line if there is no room in any direction. This was generated according to the roomstoconnectwith that was generated.
foreach (Room room in rooms)
{
int xOfUpperLeft = room.column * cellWidth;
int yOfUpperLeft = room.row * cellHeigth;
// adding cellwidth shifts the position to the right
int xOfLowerRight = (room.column * cellWidth) + cellWidth;
int yOfLowerRight = (room.row * cellHeigth) + cellHeigth;
if (!room.Neighbors().Contains(Direction.NORTH))
{
tool.DrawLine(blackPen, xOfUpperLeft, yOfUpperLeft, xOfLowerRight, yOfUpperLeft);
}
if (!room.Neighbors().Contains(Direction.WEST))
{
tool.DrawLine(blackPen, xOfUpperLeft, yOfUpperLeft, xOfUpperLeft, yOfLowerRight);
}
if (!room.Neighbors().Contains(Direction.EAST))
{
tool.DrawLine(blackPen, xOfLowerRight, yOfUpperLeft, xOfLowerRight, yOfLowerRight);
}
if (!room.Neighbors().Contains(Direction.SOUTH))
{
tool.DrawLine(blackPen, xOfUpperLeft, yOfLowerRight, xOfLowerRight, yOfLowerRight);
}
double intensity = ((double)maxDistance - (double)room.distance) / ((double)maxDistance);
double dark = Math.Round((255d * intensity));
double bright = 128d + Math.Round(127d * intensity);
Color roomColor = Color.FromArgb((int)dark, (int)bright, (int)dark);
Brush roomColorBrush = new SolidBrush(roomColor);
tool.FillRectangle(roomColorBrush, xOfUpperLeft, yOfUpperLeft, cellWidth, cellHeigth);
}
gridPng.Save("Hello.png");
blackPen.Dispose();
tool.Dispose();
gridPng.Dispose();
}
