/// <summary>
/// Adds edge noise to next to a give tile position
/// </summary>
/// <param name="row">Tile row index</param>
/// <param name="column">Tile column index</param>
/// <param name="rowCount">Number of rows per grid</param>
/// <param name="columnCount">Number of columns per grid</param>
/// <param name="tileIdValue">Edge noise tile id value</param>
/// <param name="tileFlags">Tile flags</param>
/// <param name="percentage">Percentage to add edge noise</param>
/// <param name="allowedDirection">Direction of free tiles</param>
/// <param name="map">A Representation of a grid</param>
private void AddEdgeNoise(int row, int column, int rowCount, int columnCount, ushort tileIdValue, byte tileFlags, float percentage, List <Direction> allowedDirection, Tile[] map)
{
if (allowedDirection.Count > 0)
{
float calculatedPercentage = random.Next(0, 100) / 100f;
while (allowedDirection.Count > 0 && percentage >= calculatedPercentage)
{
//replace allowedDirections
int result = random.Next(0, allowedDirection.Count);
if (allowedDirection[result].Axis == DirectionAxis.Horizontal)
{
column += allowedDirection[result].Value;
}
else
{
row += allowedDirection[result].Value;
}
if (TileMathHelper.IsOutOfRange(row, column, rowCount, columnCount))
{
return;
}
allowedDirection = CheckDirections(row, column, rowCount, columnCount, map);
int id = TileMathHelper.ToIndex(row, column, columnCount);
if (map[id].Id == 0)
{
map[id] = new Tile(tileIdValue, tileFlags);
}
percentage -= 0.01f;
calculatedPercentage = random.Next(0, 100) / 100f;
}
}
}
/// <summary>
/// Checks whenther a tile position is free or out of range
/// </summary>
/// <param name="row">Row index of the tile</param>
/// <param name="column">Column index of the tile</param>
/// <param name="columnCount">Number of column per grid</param>
/// <param name="rowCount">Number of rows per grid</param>
/// <param name="map">A representation of a grid</param>
/// <returns>Retruns 0 if the tile is out of range or has already a flag, otherwise 1</returns>
private int CheckDirection(int row, int column, int columnCount, int rowCount, Tile[] map)
{
if (TileMathHelper.IsOutOfRange(row, column, rowCount, columnCount))
{
return(0);
}
return(map[TileMathHelper.ToIndex(row, column, columnCount)].Id == 0 ? 1 : 0);
}
/// <summary>
/// Returns a grid position of a given tile position
/// </summary>
/// <param name="row">Tile row index</param>
/// <param name="column">Tile column index</param>
/// <param name="gridRow">Returns the grid row index</param>
/// <param name="gridColumn">Returns the grid column index</param>
public void ConvertTileToGridPosition(int row, int column, out int gridRow, out int gridColumn)
{
gridRow = (int)Math.Floor((double)row / (double)TileRowCount);
gridColumn = (int)Math.Floor((double)column / (double)TileColumnCount);
if (TileMathHelper.IsOutOfRange(gridRow, gridColumn, GridRowCount, GridColumnCount))
{
gridRow = TileMathHelper.FixTileIndex(gridRow, GridRowCount);
gridColumn = TileMathHelper.FixTileIndex(gridColumn, GridColumnCount);
}
}
/// <summary>
/// Determine all tiles on screen based on the given viewport
/// </summary>
/// <param name="viewportWidth">Viewport width in pixel</param>
/// <param name="viewportHeight">Viewport height in pixel</param>
/// <returns>Returns a flatten byte array which represants the tiles</returns>
public Tile[] GetTileMapInScreen(int viewportWidth, int viewportHeight)
{
ScreenWidth = viewportWidth;
ScreenHeight = viewportHeight;
int screenColumnCount = (viewportWidth / tileSize);
int screenRowCount = (viewportHeight / tileSize);
Tile[] tilesInScreen = new Tile[screenRowCount * screenColumnCount];
int posRow = tileRow + (screenRowCount / 2);
int negRow = tileRow - (screenRowCount / 2);
int posColumn = tileColumn + (screenColumnCount / 2);
int negColumn = tileColumn - (screenColumnCount / 2);
int rowIndex = 0;
for (int r = negRow; r < posRow; r++)
{
int columnIndex = 0;
for (int c = negColumn; c < posColumn; c++)
{
int newMapIndex = CurrentMapIndex;
int realRow = r;
int realColumn = c;
if (TileMathHelper.IsOutOfRange(r, c, TileRowCount, TileColumnCount))
{
newMapIndex = TileMathHelper.GetMapIndex(r, c, TileRowCount, TileColumnCount, newMapIndex);
realRow = TileMathHelper.FixTileIndex(r, TileRowCount);
realColumn = TileMathHelper.FixTileIndex(c, TileColumnCount);
}
//GetValues and merge
if (newMapIndex < 0)
{
tilesInScreen[TileMathHelper.ToIndex(rowIndex, columnIndex++, screenColumnCount)] = new Tile(ushort.MaxValue, 255);
int newGridRow = (int)Math.Floor((double)r / (double)TileRowCount);
int newGridColumn = (int)Math.Floor((double)c / (double)TileColumnCount);
GridGenerationIsSlow?.Invoke(this, new GridEventArgs(newGridRow, newGridColumn, GridRow, GridColumn, false));
}
else
{
tilesInScreen[TileMathHelper.ToIndex(rowIndex, columnIndex++, screenColumnCount)] = maps[newMapIndex].MapSurface[TileMathHelper.ToIndex(realRow, realColumn, TileColumnCount)];
}
}
rowIndex++;
}
return(tilesInScreen);
}
/// <summary>
/// Create a circular area to a given map
/// </summary>
/// <param name="map">The map where the area should be placed on</param>
/// <param name="rowIndex">Tile row index</param>
/// <param name="columnIndex">Tile column index</param>
/// <param name="rowCount">Number of rows per grid</param>
/// <param name="columnCount">Number of columns per grid</param>
/// <param name="radius">Radius of the circle</param>
/// <param name="tileSize">Size of a tile in pixel</param>
/// <param name="metersPerTile">Size of a tile in meter</param>
/// <param name="tileIdValue">Tile id value for the circular area</param>
/// <param name="tileFlag">Tile flag</param>
/// <param name="allowEdgeManipulation">Allows areas to overlap tiles from other maps</param>
/// <returns>Returns the number of changed tiles</returns>
private int CreateCircleArea(Tile[] map, int rowIndex, int columnIndex, int rowCount, int columnCount, int radius, int tileSize, float metersPerTile, ushort tileIdValue, byte tileFlag, bool allowEdgeManipulation)
{
int modified = 0;
int minRadiusTile = (int)Math.Ceiling(radius / metersPerTile);
int minRadiusPx = minRadiusTile * tileSize;
int x = columnIndex * tileSize;
int y = rowIndex * tileSize;
for (int r = rowIndex - minRadiusTile; r < rowIndex + minRadiusTile; r++)
{
for (int c = columnIndex - minRadiusTile; c < columnIndex + minRadiusTile; c++)
{
int realRow = r;
int realColumn = c;
if (TileMathHelper.IsOutOfRange(r, c, rowCount, columnCount))
{
if (allowEdgeManipulation)
{
realRow = TileMathHelper.FixTileIndex(r, rowCount);
realColumn = TileMathHelper.FixTileIndex(c, columnCount);
}
else
{
continue;
}
}
int distance = TileMathHelper.GetDistance(x, y, c * tileSize, r * tileSize);
if (distance <= minRadiusPx)
{
int id = TileMathHelper.ToIndex(realRow, realColumn, columnCount);
if (map[id].Id == 0)
{
map[id] = new Tile(tileIdValue, tileFlag);
modified++;
}
}
}
}
return(modified);
}
/// <summary>
/// Tries to connects close areas with the same flag
/// </summary>
/// <param name="row">Tile row index</param>
/// <param name="column">Tile column index</param>
/// <param name="rowCount">Grid row count</param>
/// <param name="columnCount">Grid column count</param>
/// <param name="map">Current map as flatten array</param>
/// <param name="tileIdValue">Tile id value</param>
/// <param name="tileFlags">Tile flags</param>
/// <param name="distance">Maximum tile distance between areas</param>
/// <param name="axis">Direction of connection</param>
private void TryConnect(int row, int column, int rowCount, int columnCount, Tile[] map, ushort tileIdValue, byte tileFlags, int distance, DirectionAxis axis)
{
bool connectPos = false;
bool connectNeg = false;
int realRow = row;
int realColumn = column;
for (int i = distance; i > 0; i--)
{
if (axis == DirectionAxis.Horizontal)
{
realColumn = column + i;
}
else
{
realRow = row + i;
}
if (!TileMathHelper.IsOutOfRange(realRow, realColumn, rowCount, columnCount))
{
int id = TileMathHelper.ToIndex(realRow, realColumn, columnCount);
if (!connectPos)
{
if (map[id].Id == tileIdValue)
{
connectPos = true;
}
}
else
{
if (map[id].Id == 0)
{
map[id] = new Tile(tileIdValue, tileFlags);
}
}
}
if (axis == DirectionAxis.Horizontal)
{
realColumn = column - i;
}
else
{
realRow = row - i;
}
if (!TileMathHelper.IsOutOfRange(realRow, realColumn, rowCount, columnCount))
{
int id = TileMathHelper.ToIndex(realRow, realColumn, columnCount);
if (!connectNeg)
{
if (map[id].Id == tileIdValue)
{
connectNeg = true;
}
}
else
{
if (map[id].Id == 0)
{
map[id] = new Tile(tileIdValue, tileFlags);
}
}
}
}
}
/// <summary>
/// Create a circular area to a given map
/// </summary>
/// <param name="mapIndex">Index of the map</param>
/// <param name="maps">Current grids</param>
/// <param name="edgeOverrides">Current edge override maps</param>
/// <param name="rowIndex">Tile row index</param>
/// <param name="columnIndex">Tile column index</param>
/// <param name="rowCount">Number of rows per grid</param>
/// <param name="columnCount">Number of columns per grid</param>
/// <param name="radius">Radius of the circle</param>
/// <param name="tileSize">Size of a tile in pixel</param>
/// <param name="metersPerTile">Size of a tile in meter</param>
/// <param name="tileIdValue">Tile id value for the circular area</param>
/// <param name="tileFlags">Tile flags</param>
/// <param name="allowEdgeOverflow">Allows areas to overlap tiles from other maps</param>
/// <param name="useEdgeNoise">Adds edge noise to the generated area</param>
/// <returns>Returns the number of changed tiles</returns>
private int CreateCircleArea(int mapIndex, Tile[][] maps, Tile[][] edgeOverrides, int rowIndex, int columnIndex, int rowCount, int columnCount, int radius, int tileSize, float metersPerTile, ushort tileIdValue, byte tileFlags, bool allowEdgeOverflow, bool useEdgeNoise)
{
int modified = 0;
int minRadiusTile = (int)Math.Ceiling(radius / metersPerTile);
int minRadiusPx = minRadiusTile * tileSize;
int x = columnIndex * tileSize;
int y = rowIndex * tileSize;
for (int r = rowIndex - minRadiusTile; r < rowIndex + minRadiusTile; r++)
{
for (int c = columnIndex - minRadiusTile; c < columnIndex + minRadiusTile; c++)
{
int currentMapIndex = mapIndex;
int realRow = r;
int realColumn = c;
if (TileMathHelper.IsOutOfRange(r, c, rowCount, columnCount))
{
if (allowEdgeOverflow)
{
currentMapIndex = TileMathHelper.GetMapIndex(r, c, rowCount, columnCount, currentMapIndex);
if (currentMapIndex >= 0)
{
realRow = TileMathHelper.FixTileIndex(r, rowCount);
realColumn = TileMathHelper.FixTileIndex(c, columnCount);
}
else
{
continue;
}
}
else
{
continue;
}
}
int distance = TileMathHelper.GetDistance(x, y, c * tileSize, r * tileSize);
if (distance <= minRadiusPx)
{
int id = TileMathHelper.ToIndex(realRow, realColumn, columnCount);
if (mapIndex == currentMapIndex)
{
if (maps[currentMapIndex][id].Id == 0)
{
maps[currentMapIndex][id] = new Tile(tileIdValue, tileFlags);
modified++;
}
}
else
{
if (edgeOverrides[currentMapIndex][id].Id == 0)
{
edgeOverrides[currentMapIndex][id] = new Tile(tileIdValue, tileFlags);
}
}
}
}
}
return(modified);
}
