private void ParseImageLayerXml(XElement xml)
{
if (xml.Element("image") == null)
{
Logger.WriteWarning("Image Layer '{0}' is being ignored since it has no image.", base.Name);
base.Ignore = IgnoreSettings.True;
}
else
{
Width = 1;
Height = 1;
string imagePath = TmxHelper.GetAttributeAsFullPath(xml.Element("image"), "source");
TmxTile value = base.ParentMap.Tiles.First((KeyValuePair <uint, TmxTile> t) => t.Value.TmxImage.AbsolutePath.ToLower() == imagePath.ToLower()).Value;
Data = new TmxData(this);
TmxChunk tmxChunk = new TmxChunk(Data);
tmxChunk.X = 0;
tmxChunk.Y = 0;
tmxChunk.Width = 1;
tmxChunk.Height = 1;
tmxChunk.TileIds.Add(value.GlobalId);
Data.Chunks.Add(tmxChunk);
PointF offset = base.Offset;
offset.Y -= (float)base.ParentMap.TileHeight;
offset.Y += (float)value.TmxImage.Size.Height;
PointF pointF = TmxMath.TileCornerInScreenCoordinates(base.ParentMap, 0, 0);
offset.X -= pointF.X;
offset.Y -= pointF.Y;
offset.X += TmxHelper.GetAttributeAsFloat(xml, "x", 0f);
offset.Y += TmxHelper.GetAttributeAsFloat(xml, "y", 0f);
base.Offset = offset;
}
}
private RectangleF CalculateBoundary()
{
RectangleF rcMap = new RectangleF(Point.Empty, this.tmxMap.MapSizeInPixels());
// Take boundaries from object groups
var objBounds = from g in this.tmxMap.ObjectGroups
from o in g.Objects
where o.Visible == true
where IsLayerEnabled(g.Name)
select o.GetWorldBounds();
// Take boundaries from objects embedded in tiles
var tileBounds = from layer in tmxMap.Layers
where layer.Visible == true
where IsLayerEnabled(layer.DefaultName)
from y in Enumerable.Range(0, layer.Height)
from x in Enumerable.Range(0, layer.Width)
let tileId = layer.GetTileIdAt(x, y)
where tileId != 0
let tile = this.tmxMap.Tiles[tileId]
from o in tile.ObjectGroup.Objects
let bound = o.GetWorldBounds()
let point = TmxMath.TileCornerInScreenCoordinates(this.tmxMap, x, y)
select new RectangleF(bound.X + point.X, bound.Y + point.Y, bound.Width, bound.Height);
var allBounds = objBounds.Concat(tileBounds);
var union = allBounds.Aggregate(rcMap, RectangleF.Union);
// Inflate a tile size to make room for the grid
union.Inflate(this.tmxMap.TileWidth, this.tmxMap.TileHeight);
union.Inflate(Tiled2UnityViewer.GridSize, Tiled2UnityViewer.GridSize);
return(union);
}
private void DrawTiles(Graphics g)
{
// Load all our tiled images
var images = from layer in this.tmxMap.Layers
where layer.Properties.GetPropertyValueAsBoolean("unity:collisionOnly", false) == false
where layer.Visible == true
where IsLayerEnabled(layer.DefaultName)
from y in Enumerable.Range(0, layer.Height)
from x in Enumerable.Range(0, layer.Width)
let tileId = layer.GetTileIdAt(x, y)
where tileId != 0
let tile = this.tmxMap.Tiles[tileId]
select new
{
Path = tile.TmxImage.Path,
Trans = tile.TmxImage.TransparentColor,
};
images = images.Distinct();
Dictionary <string, Bitmap> tileSetBitmaps = new Dictionary <string, Bitmap>();
foreach (var img in images)
{
Bitmap bmp = (Bitmap)Bitmap.FromFile(img.Path);
if (!String.IsNullOrEmpty(img.Trans))
{
System.Drawing.Color transColor = System.Drawing.ColorTranslator.FromHtml(img.Trans);
bmp.MakeTransparent(transColor);
}
tileSetBitmaps.Add(img.Path, bmp);
}
foreach (TmxLayer layer in this.tmxMap.Layers)
{
if (layer.Visible == false)
{
continue;
}
if (IsLayerEnabled(layer.DefaultName) == false)
{
continue;
}
if (layer.Properties.GetPropertyValueAsBoolean("unity:collisionOnly", false) == true)
{
continue;
}
// The range of x and y depends on the render order of the tiles
// By default we draw right and down but may reverse the tiles we visit
var range_x = Enumerable.Range(0, layer.Width);
var range_y = Enumerable.Range(0, layer.Height);
if (this.tmxMap.DrawOrderHorizontal == -1)
{
range_x = range_x.Reverse();
}
if (this.tmxMap.DrawOrderVertical == -1)
{
range_y = range_y.Reverse();
}
// Visit the tiles we are going to draw
var tiles = from y in range_y
from x in range_x
let rawTileId = layer.GetRawTileIdAt(x, y)
let tileId = layer.GetTileIdAt(x, y)
where tileId != 0
let tile = this.tmxMap.Tiles[tileId]
// Support for animated tiles. Just show the first frame of the animation.
let frame = (tile.Animation == null) ? tile : this.tmxMap.Tiles[tile.Animation.Frames[0].GlobalTileId]
select new
{
Tile = frame,
Position = TmxMath.TileCornerInScreenCoordinates(this.tmxMap, x, y),
Bitmap = tileSetBitmaps[frame.TmxImage.Path],
IsFlippedDiagnoally = TmxMath.IsTileFlippedDiagonally(rawTileId),
IsFlippedHorizontally = TmxMath.IsTileFlippedHorizontally(rawTileId),
IsFlippedVertically = TmxMath.IsTileFlippedVertically(rawTileId),
};
PointF[] destPoints = new PointF[4];
PointF[] destPoints3 = new PointF[3];
foreach (var t in tiles)
{
PointF location = t.Position;
// Individual tiles may be larger than the given tile size of the overall map
location.Y = (t.Position.Y - t.Tile.TileSize.Height) + this.tmxMap.TileHeight;
// Make up the 'quad' of texture points and transform them
PointF center = new PointF(t.Tile.TileSize.Width * 0.5f, t.Tile.TileSize.Height * 0.5f);
destPoints[0] = new Point(0, 0);
destPoints[1] = new Point(t.Tile.TileSize.Width, 0);
destPoints[2] = new Point(t.Tile.TileSize.Width, t.Tile.TileSize.Height);
destPoints[3] = new Point(0, t.Tile.TileSize.Height);
// Transform the points based on our flipped flags
TmxMath.TransformPoints(destPoints, center, t.IsFlippedDiagnoally, t.IsFlippedHorizontally, t.IsFlippedVertically);
// Put the destination points back into world space
TmxMath.TranslatePoints(destPoints, location);
// Stupid DrawImage function only takes 3 destination points otherwise it throws an exception
destPoints3[0] = destPoints[0];
destPoints3[1] = destPoints[1];
destPoints3[2] = destPoints[3];
// Draw the tile
Rectangle source = new Rectangle(t.Tile.LocationOnSource, t.Tile.TileSize);
g.DrawImage(t.Bitmap, destPoints3, source, GraphicsUnit.Pixel);
}
}
tileSetBitmaps.Clear();
}
private void DrawGridHex(Graphics g)
{
// Our collection of points to render
HashSet <Point> points = new HashSet <Point>();
// Note: borrowed heavily from Tiled source (HexagonalRenderer::drawGrid)
int tileWidth = this.tmxMap.TileWidth & ~1;
int tileHeight = this.tmxMap.TileHeight & ~1;
int sideLengthX = tmxMap.StaggerAxis == TmxMap.MapStaggerAxis.X ? tmxMap.HexSideLength : 0;
int sideLengthY = tmxMap.StaggerAxis == TmxMap.MapStaggerAxis.Y ? tmxMap.HexSideLength : 0;
int sideOffsetX = (tmxMap.TileWidth - sideLengthX) / 2;
int sideOffsetY = (tmxMap.TileHeight - sideLengthY) / 2;
int columnWidth = sideOffsetX + sideLengthX;
int rowHeight = sideOffsetY + sideLengthY;
bool staggerX = this.tmxMap.StaggerAxis == TmxMap.MapStaggerAxis.X;
// Determine the tile and pixel coordinates to start at
Point startTile = new Point(0, 0);
Point startPos = TmxMath.TileCornerInScreenCoordinates(this.tmxMap, startTile.X, startTile.Y);
Point[] oct = new Point[8]
{
new Point(0, tileHeight - sideOffsetY),
new Point(0, sideOffsetY),
new Point(sideOffsetX, 0),
new Point(tileWidth - sideOffsetX, 0),
new Point(tileWidth, sideOffsetY),
new Point(tileWidth, tileHeight - sideOffsetY),
new Point(tileWidth - sideOffsetX, tileHeight),
new Point(sideOffsetX, tileHeight)
};
if (staggerX)
{
// Odd row shifting is applied in the rendering loop, so un-apply it here
if (TmxMath.DoStaggerX(this.tmxMap, startTile.X))
{
startPos.Y -= rowHeight;
}
for (; startTile.X < this.tmxMap.Width; startTile.X++)
{
Point rowTile = startTile;
Point rowPos = startPos;
if (TmxMath.DoStaggerX(this.tmxMap, startTile.X))
{
rowPos.Y += rowHeight;
}
for (; rowTile.Y < this.tmxMap.Height; rowTile.Y++)
{
points.Add(TmxMath.AddPoints(rowPos, oct[1]));
points.Add(TmxMath.AddPoints(rowPos, oct[2]));
points.Add(TmxMath.AddPoints(rowPos, oct[3]));
points.Add(TmxMath.AddPoints(rowPos, oct[4]));
bool isStaggered = TmxMath.DoStaggerX(tmxMap, startTile.X);
bool lastRow = rowTile.Y == tmxMap.Height - 1;
bool lastColumn = rowTile.X == tmxMap.Width - 1;
bool bottomLeft = rowTile.X == 0 || (lastRow && isStaggered);
bool bottomRight = lastColumn || (lastRow && isStaggered);
if (bottomRight)
{
points.Add(TmxMath.AddPoints(rowPos, oct[5]));
points.Add(TmxMath.AddPoints(rowPos, oct[6]));
}
if (lastRow)
{
points.Add(TmxMath.AddPoints(rowPos, oct[6]));
points.Add(TmxMath.AddPoints(rowPos, oct[7]));
}
if (bottomLeft)
{
points.Add(TmxMath.AddPoints(rowPos, oct[7]));
points.Add(TmxMath.AddPoints(rowPos, oct[0]));
}
rowPos.Y += tileHeight + sideLengthY;
}
startPos.X += columnWidth;
}
}
else
{
// Odd row shifting is applied in the rendering loop, so un-apply it here
if (TmxMath.DoStaggerY(this.tmxMap, startTile.Y))
{
startPos.X -= columnWidth;
}
for (; startTile.Y < tmxMap.Height; startTile.Y++)
{
Point rowTile = startTile;
Point rowPos = startPos;
if (TmxMath.DoStaggerY(this.tmxMap, startTile.Y))
{
rowPos.X += columnWidth;
}
for (; rowTile.X < this.tmxMap.Width; rowTile.X++)
{
points.Add(TmxMath.AddPoints(rowPos, oct[0]));
points.Add(TmxMath.AddPoints(rowPos, oct[1]));
points.Add(TmxMath.AddPoints(rowPos, oct[2]));
points.Add(TmxMath.AddPoints(rowPos, oct[3]));
points.Add(TmxMath.AddPoints(rowPos, oct[4]));
bool isStaggered = TmxMath.DoStaggerY(this.tmxMap, startTile.Y);
bool lastRow = rowTile.Y == this.tmxMap.Height - 1;
bool lastColumn = rowTile.Y == this.tmxMap.Width - 1;
bool bottomLeft = lastRow || (rowTile.X == 0 && !isStaggered);
bool bottomRight = lastRow || (lastColumn && isStaggered);
if (lastColumn)
{
points.Add(TmxMath.AddPoints(rowPos, oct[4]));
points.Add(TmxMath.AddPoints(rowPos, oct[5]));
}
if (bottomRight)
{
points.Add(TmxMath.AddPoints(rowPos, oct[5]));
points.Add(TmxMath.AddPoints(rowPos, oct[6]));
}
if (bottomLeft)
{
points.Add(TmxMath.AddPoints(rowPos, oct[7]));
points.Add(TmxMath.AddPoints(rowPos, oct[0]));
}
rowPos.X += tileWidth + sideLengthX;
}
startPos.Y += rowHeight;
}
}
foreach (var p in points)
{
RectangleF rc = new RectangleF(p.X, p.Y, Tiled2UnityViewer.GridSize, Tiled2UnityViewer.GridSize);
rc.Offset(-Tiled2UnityViewer.GridSize * 0.5f, -Tiled2UnityViewer.GridSize * 0.5f);
g.FillRectangle(Brushes.White, rc);
g.DrawRectangle(Pens.Black, rc.X, rc.Y, rc.Width, rc.Height);
}
}
public static TmxLayer FromXml(XElement elem, TmxLayerNode parent, TmxMap tmxMap)
{
TmxLayer tmxLayer = new TmxLayer(parent, tmxMap);
tmxLayer.FromXmlInternal(elem);
// We can build a layer from a "tile layer" (default) or an "image layer"
if (elem.Name == "layer")
{
tmxLayer.Width = TmxHelper.GetAttributeAsInt(elem, "width");
tmxLayer.Height = TmxHelper.GetAttributeAsInt(elem, "height");
tmxLayer.ParseData(elem.Element("data"));
}
else if (elem.Name == "imagelayer")
{
XElement xmlImage = elem.Element("image");
if (xmlImage == null)
{
Logger.WriteWarning("Image Layer '{0}' is being ignored since it has no image.", tmxLayer.Name);
tmxLayer.Ignore = IgnoreSettings.True;
return(tmxLayer);
}
// An image layer is sort of like an tile layer but with just one tile
tmxLayer.Width = 1;
tmxLayer.Height = 1;
// Find the "tile" that matches our image
string imagePath = TmxHelper.GetAttributeAsFullPath(elem.Element("image"), "source");
TmxTile tile = tmxMap.Tiles.First(t => t.Value.TmxImage.AbsolutePath == imagePath).Value;
tmxLayer.TileIds = new uint[1] {
tile.GlobalId
};
// The image layer needs to be tranlated in an interesting way when expressed as a tile layer
PointF translated = tmxLayer.Offset;
// Make up for height of a regular tile in the map
translated.Y -= (float)tmxMap.TileHeight;
// Make up for the height of this image
translated.Y += (float)tile.TmxImage.Size.Height;
// Correct for any orientation effects on the map (like isometric)
// (We essentially undo the translation via orientation here)
PointF orientation = TmxMath.TileCornerInScreenCoordinates(tmxMap, 0, 0);
translated.X -= orientation.X;
translated.Y -= orientation.Y;
// Translate by the x and y coordiantes
translated.X += TmxHelper.GetAttributeAsFloat(elem, "x", 0);
translated.Y += TmxHelper.GetAttributeAsFloat(elem, "y", 0);
tmxLayer.Offset = translated;
}
// Sometimes TMX files have "dead" tiles in them (tiles that were removed but are still referenced)
// Remove these tiles from the layer by replacing them with zero
for (int t = 0; t < tmxLayer.TileIds.Length; ++t)
{
uint tileId = tmxLayer.TileIds[t];
tileId = TmxMath.GetTileIdWithoutFlags(tileId);
if (!tmxMap.Tiles.ContainsKey(tileId))
{
tmxLayer.TileIds[t] = 0;
}
}
// Each layer will be broken down into "meshes" which are collections of tiles matching the same texture or animation
tmxLayer.Meshes = TmxMesh.ListFromTmxLayer(tmxLayer);
// Each layer may contain different collision types which are themselves put into "Collison Layers" to be processed later
tmxLayer.BuildCollisionLayers();
return(tmxLayer);
}
public Point GetMapPositionAt(int x, int y)
{
return(TmxMath.TileCornerInScreenCoordinates(this, x, y));
}
public static TmxLayer FromXml(XElement elem, TmxMap tmxMap)
{
Program.WriteVerbose(elem.ToString());
TmxLayer tmxLayer = new TmxLayer(tmxMap);
// Order within Xml file is import for layer types
tmxLayer.XmlElementIndex = elem.NodesBeforeSelf().Count();
// Have to decorate layer names in order to force them into being unique
// Also, can't have whitespace in the name because Unity will add underscores
tmxLayer.Name = TmxHelper.GetAttributeAsString(elem, "name");
tmxLayer.Visible = TmxHelper.GetAttributeAsInt(elem, "visible", 1) == 1;
tmxLayer.Opacity = TmxHelper.GetAttributeAsFloat(elem, "opacity", 1);
PointF offset = new PointF(0, 0);
offset.X = TmxHelper.GetAttributeAsFloat(elem, "offsetx", 0);
offset.Y = TmxHelper.GetAttributeAsFloat(elem, "offsety", 0);
tmxLayer.Offset = offset;
// Set our properties
tmxLayer.Properties = TmxProperties.FromXml(elem);
// Set the "ignore" setting on this layer
tmxLayer.Ignore = tmxLayer.Properties.GetPropertyValueAsEnum <IgnoreSettings>("unity:ignore", IgnoreSettings.False);
// We can build a layer from a "tile layer" (default) or an "image layer"
if (elem.Name == "layer")
{
tmxLayer.Width = TmxHelper.GetAttributeAsInt(elem, "width");
tmxLayer.Height = TmxHelper.GetAttributeAsInt(elem, "height");
tmxLayer.ParseData(elem.Element("data"));
}
else if (elem.Name == "imagelayer")
{
XElement xmlImage = elem.Element("image");
if (xmlImage == null)
{
Program.WriteWarning("Image Layer '{0}' is being ignored since it has no image.", tmxLayer.Name);
tmxLayer.Ignore = IgnoreSettings.True;
return(tmxLayer);
}
// An image layer is sort of like an tile layer but with just one tile
tmxLayer.Width = 1;
tmxLayer.Height = 1;
// Find the "tile" that matches our image
string imagePath = TmxHelper.GetAttributeAsFullPath(elem.Element("image"), "source");
TmxTile tile = tmxMap.Tiles.First(t => t.Value.TmxImage.AbsolutePath == imagePath).Value;
tmxLayer.TileIds = new uint[1] {
tile.GlobalId
};
// The image layer needs to be tranlated in an interesting way when expressed as a tile layer
PointF translated = tmxLayer.Offset;
// Make up for height of a regular tile in the map
translated.Y -= (float)tmxMap.TileHeight;
// Make up for the height of this image
translated.Y += (float)tile.TmxImage.Size.Height;
// Correct for any orientation effects on the map (like isometric)
// (We essentially undo the translation via orientation here)
PointF orientation = TmxMath.TileCornerInScreenCoordinates(tmxMap, 0, 0);
translated.X -= orientation.X;
translated.Y -= orientation.Y;
// Translate by the x and y coordiantes
translated.X += TmxHelper.GetAttributeAsFloat(elem, "x", 0);
translated.Y += TmxHelper.GetAttributeAsFloat(elem, "y", 0);
tmxLayer.Offset = translated;
}
// Each layer will be broken down into "meshes" which are collections of tiles matching the same texture or animation
tmxLayer.Meshes = TmxMesh.ListFromTmxLayer(tmxLayer);
return(tmxLayer);
}
private void DrawTiles(Graphics g)
{
foreach (TmxLayer layer in this.tmxMap.Layers)
{
if (layer.Visible == false)
{
continue;
}
if (layer.Ignore == TmxLayer.IgnoreSettings.Visual)
{
continue;
}
// Set the opacity for the layer
ColorMatrix colorMatrix = new ColorMatrix();
colorMatrix.Matrix33 = layer.Opacity;
ImageAttributes imageAttributes = new ImageAttributes();
imageAttributes.SetColorMatrix(colorMatrix, ColorMatrixFlag.Default, ColorAdjustType.Bitmap);
// Translate by the offset
GraphicsState state = g.Save();
g.TranslateTransform(layer.Offset.X, layer.Offset.Y);
// The range of x and y depends on the render order of the tiles
// By default we draw right and down but may reverse the tiles we visit
var range_x = Enumerable.Range(0, GetMaxTilesWide(layer));
var range_y = Enumerable.Range(0, GetMaxTilesHigh(layer));
if (this.tmxMap.DrawOrderHorizontal == -1)
{
range_x = range_x.Reverse();
}
if (this.tmxMap.DrawOrderVertical == -1)
{
range_y = range_y.Reverse();
}
// Visit the tiles we are going to draw
var tiles = from y in range_y
from x in range_x
let rawTileId = layer.GetRawTileIdAt(x, y)
let tileId = layer.GetTileIdAt(x, y)
where tileId != 0
let tile = this.tmxMap.Tiles[tileId]
// Support for animated tiles. Just show the first frame of the animation.
let frame = this.tmxMap.Tiles[tile.Animation.Frames[0].GlobalTileId]
select new
{
Tile = frame,
Position = TmxMath.TileCornerInScreenCoordinates(this.tmxMap, x, y),
Bitmap = frame.TmxImage.ImageBitmap,
IsFlippedDiagnoally = TmxMath.IsTileFlippedDiagonally(rawTileId),
IsFlippedHorizontally = TmxMath.IsTileFlippedHorizontally(rawTileId),
IsFlippedVertically = TmxMath.IsTileFlippedVertically(rawTileId),
};
PointF[] destPoints = new PointF[4];
PointF[] destPoints3 = new PointF[3];
foreach (var t in tiles)
{
PointF location = t.Position;
// Individual tiles may be larger than the given tile size of the overall map
location.Y = (t.Position.Y - t.Tile.TileSize.Height) + this.tmxMap.TileHeight;
// Take tile offset into account
location.X += t.Tile.Offset.X;
location.Y += t.Tile.Offset.Y;
// Make up the 'quad' of texture points and transform them
PointF center = new PointF(t.Tile.TileSize.Width * 0.5f, t.Tile.TileSize.Height * 0.5f);
destPoints[0] = new Point(0, 0);
destPoints[1] = new Point(t.Tile.TileSize.Width, 0);
destPoints[2] = new Point(t.Tile.TileSize.Width, t.Tile.TileSize.Height);
destPoints[3] = new Point(0, t.Tile.TileSize.Height);
// Transform the points based on our flipped flags
TmxMath.TransformPoints(destPoints, center, t.IsFlippedDiagnoally, t.IsFlippedHorizontally, t.IsFlippedVertically);
// Put the destination points back into world space
TmxMath.TranslatePoints(destPoints, location);
// Stupid DrawImage function only takes 3 destination points otherwise it throws an exception
destPoints3[0] = destPoints[0];
destPoints3[1] = destPoints[1];
destPoints3[2] = destPoints[3];
// Draw the tile
Rectangle source = new Rectangle(t.Tile.LocationOnSource, t.Tile.TileSize);
g.DrawImage(t.Bitmap, destPoints3, source, GraphicsUnit.Pixel, imageAttributes);
}
g.Restore(state);
}
}
