private XElement CreateCollisionElementForLayer(TmxLayer layer)
{
// Collision elements look like this
// (Can also have EdgeCollider2Ds)
// <GameOject name="Collision">
// <PolygonCollider2D>
// <Path>list of points</Path>
// <Path>another list of points</Path>
// </PolygonCollider2D>
// </GameOject>
LayerClipper.TransformPointFunc xfFunc =
delegate(float x, float y)
{
// Transform point to Unity space
PointF pointUnity3d = PointFToUnityVector_NoScale(new PointF(x, y));
ClipperLib.IntPoint point = new ClipperLib.IntPoint(pointUnity3d.X, pointUnity3d.Y);
return(point);
};
LayerClipper.ProgressFunc progFunc =
delegate(string prog)
{
Program.WriteLine(prog);
};
ClipperLib.PolyTree solution = LayerClipper.ExecuteClipper(this.tmxMap, layer, xfFunc, progFunc);
// Add our polygon and edge colliders
List <XElement> polyColliderElements = new List <XElement>();
if (layer.IsExportingConvexPolygons())
{
AddPolygonCollider2DElements_Convex(solution, polyColliderElements);
}
else
{
AddPolygonCollider2DElements_Complex(solution, polyColliderElements);
}
AddEdgeCollider2DElements(ClipperLib.Clipper.OpenPathsFromPolyTree(solution), polyColliderElements);
if (polyColliderElements.Count() == 0)
{
// No collisions on this layer
return(null);
}
XElement gameObjectCollision =
new XElement("GameObject",
new XAttribute("name", "Collision"),
polyColliderElements);
return(gameObjectCollision);
}
private static void DrawCollisionLayer(SKCanvas canvas, TmxLayer tmxLayer, SKColor polyColor, SKColor lineColor)
{
LayerClipper.TransformPointFunc xfFunc = (x, y) => new ClipperLib.IntPoint(x, y);
LayerClipper.ProgressFunc progFunc = (prog) => { }; // do nothing
ClipperLib.PolyTree solution = LayerClipper.ExecuteClipper(tmxLayer.TmxMap, tmxLayer, xfFunc, progFunc);
using (SKPaint paint = new SKPaint())
{
// Draw all closed polygons
// First, add them to the path
// (But are we using convex polygons are complex polygons?
using (SKPath path = new SKPath())
{
var polygons = tmxLayer.IsExportingConvexPolygons() ? LayerClipper.SolutionPolygons_Simple(solution) : LayerClipper.SolutionPolygons_Complex(solution);
foreach (var pointfArray in polygons)
{
var pts = pointfArray.ToSkPointArray();
path.AddPoly(pts, true);
}
// Then, fill and draw the path full of polygons
if (path.PointCount > 0)
{
paint.Style = SKPaintStyle.Fill;
paint.Color = polyColor;
canvas.DrawPath(path, paint);
paint.Style = SKPaintStyle.Stroke;
paint.StrokeWidth = StrokeWidthThick;
paint.Color = lineColor;
canvas.DrawPath(path, paint);
}
}
// Draw all lines (open polygons)
using (SKPath path = new SKPath())
{
foreach (var points in ClipperLib.Clipper.OpenPathsFromPolyTree(solution))
{
var pts = points.Select(pt => new SKPoint(pt.X, pt.Y)).ToArray();
path.AddPoly(pts, false);
}
if (path.PointCount > 0)
{
paint.Style = SKPaintStyle.Stroke;
paint.StrokeWidth = StrokeWidthThick;
paint.Color = lineColor;
canvas.DrawPath(path, paint);
}
}
}
}
private void DrawLayerColliders(Graphics g, TmxLayer layer, Color polyColor, Color lineColor)
{
LayerClipper.TransformPointFunc xfFunc = (x, y) => new ClipperLib.IntPoint(x, y);
LayerClipper.ProgressFunc progFunc = (prog) => { }; // do nothing
ClipperLib.PolyTree solution = LayerClipper.ExecuteClipper(this.tmxMap, layer, xfFunc, progFunc);
float inverseScale = 1.0f / this.scale;
if (inverseScale > 1)
{
inverseScale = 1;
}
using (GraphicsPath path = new GraphicsPath())
using (Pen pen = new Pen(lineColor, 2.0f * inverseScale))
using (Brush brush = new HatchBrush(HatchStyle.Percent60, polyColor, Color.Transparent))
{
pen.Alignment = PenAlignment.Inset;
// Draw all closed polygons
// First, add them to the path
// (But are we using convex polygons are complex polygons?
var polygons = layer.IsExportingConvexPolygons() ? LayerClipper.SolutionPolygons_Simple(solution) : LayerClipper.SolutionPolygons_Complex(solution);
foreach (var pointfArray in polygons)
{
path.AddPolygon(pointfArray);
}
// Then, fill and draw the path full of polygons
if (path.PointCount > 0)
{
g.FillPath(brush, path);
g.DrawPath(pen, path);
}
// Draw all lines (open polygons)
path.Reset();
foreach (var points in ClipperLib.Clipper.OpenPathsFromPolyTree(solution))
{
var pointfs = points.Select(pt => new PointF(pt.X, pt.Y));
path.StartFigure();
path.AddLines(pointfs.ToArray());
}
if (path.PointCount > 0)
{
g.DrawPath(pen, path);
}
}
}
private void DrawLayerColliders(Graphics g, TmxLayer layer, Color polyColor, Color lineColor)
{
LayerClipper.TransformPointFunc xfFunc = (x, y) => new ClipperLib.IntPoint(x, y);
LayerClipper.ProgressFunc progFunc = (prog) => { }; // do nothing
ClipperLib.PolyTree solution = LayerClipper.ExecuteClipper(this.tmxMap, layer, xfFunc, progFunc);
using (GraphicsPath path = new GraphicsPath())
using (Pen pen = new Pen(lineColor, 1.0f))
using (Brush brush = new HatchBrush(HatchStyle.ForwardDiagonal, lineColor, polyColor))
{
pen.Alignment = PenAlignment.Inset;
// Draw all closed polygons
foreach (var points in ClipperLib.Clipper.ClosedPathsFromPolyTree(solution))
{
var pointfs = points.Select(pt => new PointF(pt.X, pt.Y));
path.AddPolygon(pointfs.ToArray());
}
if (path.PointCount > 0)
{
g.FillPath(brush, path);
g.DrawPath(pen, path);
}
// Draw all lines (open polygons)
path.Reset();
foreach (var points in ClipperLib.Clipper.OpenPathsFromPolyTree(solution))
{
var pointfs = points.Select(pt => new PointF(pt.X, pt.Y));
path.StartFigure();
path.AddLines(pointfs.ToArray());
}
if (path.PointCount > 0)
{
g.DrawPath(pen, path);
}
}
}
private XElement CreateCollisionElementForLayer(TmxLayer layer)
{
// Collision elements look like this
// (Can also have EdgeCollider2Ds)
// <GameOject name="Collision">
// <PolygonCollider2D>
// <Path>list of points</Path>
// <Path>another list of points</Path>
// </PolygonCollider2D>
// </GameOject>
LayerClipper.TransformPointFunc xfFunc =
delegate(float x, float y)
{
// Transform point to Unity space
PointF pointUnity3d = PointFToUnityVector_NoScale(new PointF(x, y));
ClipperLib.IntPoint point = new ClipperLib.IntPoint(pointUnity3d.X, pointUnity3d.Y);
return(point);
};
LayerClipper.ProgressFunc progFunc =
delegate(string prog)
{
Logger.WriteLine(prog);
};
ClipperLib.PolyTree solution = LayerClipper.ExecuteClipper(this.tmxMap, layer, xfFunc, progFunc);
var paths = ClipperLib.Clipper.ClosedPathsFromPolyTree(solution);
if (paths.Count >= MaxNumberOfSafePaths)
{
StringBuilder warning = new StringBuilder();
warning.AppendFormat("Layer '{0}' has a large number of polygon paths ({1}).", layer.Name, paths.Count);
warning.AppendLine(" Importing this layer may be slow in Unity. (Can take an hour or more for +1000 paths.)");
warning.AppendLine(" Check polygon/rectangle objects in Tile Collision Editor in Tiled and use 'Snap to Grid' or 'Snap to Fine Grid'.");
warning.AppendLine(" You want colliders to be set up so they can be merged with colliders on neighboring tiles, reducing path count considerably.");
warning.AppendLine(" In some cases the size of the map may need to be reduced.");
Logger.WriteWarning(warning.ToString());
}
// Add our polygon and edge colliders
List <XElement> polyColliderElements = new List <XElement>();
if (layer.IsExportingConvexPolygons())
{
AddPolygonCollider2DElements_Convex(solution, polyColliderElements);
}
else
{
AddPolygonCollider2DElements_Complex(solution, polyColliderElements);
}
AddEdgeCollider2DElements(ClipperLib.Clipper.OpenPathsFromPolyTree(solution), polyColliderElements);
if (polyColliderElements.Count() == 0)
{
// No collisions on this layer
return(null);
}
XElement gameObjectCollision =
new XElement("GameObject",
new XAttribute("name", "Collision"),
polyColliderElements);
// Collision layer may have a name and "unity physics layer" to go with it
// (But not if we're using unity:layer override)
if (String.IsNullOrEmpty(layer.UnityLayerOverrideName) && !String.IsNullOrEmpty(layer.Name))
{
gameObjectCollision.SetAttributeValue("name", "Collision_" + layer.Name);
gameObjectCollision.SetAttributeValue("layer", layer.Name);
}
return(gameObjectCollision);
}
