public override Attachment Copy()
{
ClippingAttachment copy = new ClippingAttachment(this.Name);
CopyTo(copy);
copy.endSlot = endSlot;
return(copy);
}
public void ClipEnd()
{
if (this.clipAttachment != null)
{
this.clipAttachment = null;
this.clippingPolygons = null;
this.clippedVertices.Clear(true);
this.clippedTriangles.Clear(true);
this.clippingPolygon.Clear(true);
}
}
public void ClipEnd()
{
if (clipAttachment == null)
{
return;
}
clipAttachment = null;
clippingPolygons = null;
clippedVertices.Clear();
clippedTriangles.Clear();
clippingPolygon.Clear();
}
public int ClipStart(Slot slot, ClippingAttachment clip)
{
if (this.clipAttachment != null)
{
return(0);
}
this.clipAttachment = clip;
int worldVerticesLength = clip.worldVerticesLength;
float[] items = this.clippingPolygon.Resize(worldVerticesLength).Items;
clip.ComputeWorldVertices(slot, 0, worldVerticesLength, items, 0, 2);
MakeClockwise(this.clippingPolygon);
this.clippingPolygons = this.triangulator.Decompose(this.clippingPolygon, this.triangulator.Triangulate(this.clippingPolygon));
foreach (ExposedList <float> list in this.clippingPolygons)
{
MakeClockwise(list);
list.Add(list.Items[0]);
list.Add(list.Items[1]);
}
return(this.clippingPolygons.Count);
}
public int ClipStart(Slot slot, ClippingAttachment clip)
{
if (clipAttachment != null)
{
return(0);
}
clipAttachment = clip;
int n = clip.worldVerticesLength;
float[] vertices = clippingPolygon.Resize(n).Items;
clip.ComputeWorldVertices(slot, 0, n, vertices, 0, 2);
MakeClockwise(clippingPolygon);
clippingPolygons = triangulator.Decompose(clippingPolygon, triangulator.Triangulate(clippingPolygon));
foreach (var polygon in clippingPolygons)
{
MakeClockwise(polygon);
polygon.Add(polygon.Items[0]);
polygon.Add(polygon.Items[1]);
}
return(clippingPolygons.Count);
}
private Attachment ReadAttachment(Stream input, SkeletonData skeletonData, Skin skin, int slotIndex, String attachmentName, bool nonessential)
{
float scale = Scale;
String name = ReadString(input);
if (name == null)
{
name = attachmentName;
}
AttachmentType type = (AttachmentType)input.ReadByte();
switch (type)
{
case AttachmentType.Region: {
String path = ReadString(input);
float rotation = ReadFloat(input);
float x = ReadFloat(input);
float y = ReadFloat(input);
float scaleX = ReadFloat(input);
float scaleY = ReadFloat(input);
float width = ReadFloat(input);
float height = ReadFloat(input);
int color = ReadInt(input);
if (path == null)
{
path = name;
}
RegionAttachment region = attachmentLoader.NewRegionAttachment(skin, name, path);
if (region == null)
{
return(null);
}
region.Path = path;
region.x = x * scale;
region.y = y * scale;
region.scaleX = scaleX;
region.scaleY = scaleY;
region.rotation = rotation;
region.width = width * scale;
region.height = height * scale;
region.r = ((color & 0xff000000) >> 24) / 255f;
region.g = ((color & 0x00ff0000) >> 16) / 255f;
region.b = ((color & 0x0000ff00) >> 8) / 255f;
region.a = ((color & 0x000000ff)) / 255f;
region.UpdateOffset();
return(region);
}
case AttachmentType.Boundingbox: {
int vertexCount = ReadVarint(input, true);
Vertices vertices = ReadVertices(input, vertexCount);
if (nonessential)
{
ReadInt(input); //int color = nonessential ? ReadInt(input) : 0; // Avoid unused local warning.
}
BoundingBoxAttachment box = attachmentLoader.NewBoundingBoxAttachment(skin, name);
if (box == null)
{
return(null);
}
box.worldVerticesLength = vertexCount << 1;
box.vertices = vertices.vertices;
box.bones = vertices.bones;
return(box);
}
case AttachmentType.Mesh: {
String path = ReadString(input);
int color = ReadInt(input);
int vertexCount = ReadVarint(input, true);
float[] uvs = ReadFloatArray(input, vertexCount << 1, 1);
int[] triangles = ReadShortArray(input);
Vertices vertices = ReadVertices(input, vertexCount);
int hullLength = ReadVarint(input, true);
int[] edges = null;
float width = 0, height = 0;
if (nonessential)
{
edges = ReadShortArray(input);
width = ReadFloat(input);
height = ReadFloat(input);
}
if (path == null)
{
path = name;
}
MeshAttachment mesh = attachmentLoader.NewMeshAttachment(skin, name, path);
if (mesh == null)
{
return(null);
}
mesh.Path = path;
mesh.r = ((color & 0xff000000) >> 24) / 255f;
mesh.g = ((color & 0x00ff0000) >> 16) / 255f;
mesh.b = ((color & 0x0000ff00) >> 8) / 255f;
mesh.a = ((color & 0x000000ff)) / 255f;
mesh.bones = vertices.bones;
mesh.vertices = vertices.vertices;
mesh.WorldVerticesLength = vertexCount << 1;
mesh.triangles = triangles;
mesh.regionUVs = uvs;
mesh.UpdateUVs();
mesh.HullLength = hullLength << 1;
if (nonessential)
{
mesh.Edges = edges;
mesh.Width = width * scale;
mesh.Height = height * scale;
}
return(mesh);
}
case AttachmentType.Linkedmesh: {
String path = ReadString(input);
int color = ReadInt(input);
String skinName = ReadString(input);
String parent = ReadString(input);
bool inheritDeform = ReadBoolean(input);
float width = 0, height = 0;
if (nonessential)
{
width = ReadFloat(input);
height = ReadFloat(input);
}
if (path == null)
{
path = name;
}
MeshAttachment mesh = attachmentLoader.NewMeshAttachment(skin, name, path);
if (mesh == null)
{
return(null);
}
mesh.Path = path;
mesh.r = ((color & 0xff000000) >> 24) / 255f;
mesh.g = ((color & 0x00ff0000) >> 16) / 255f;
mesh.b = ((color & 0x0000ff00) >> 8) / 255f;
mesh.a = ((color & 0x000000ff)) / 255f;
mesh.inheritDeform = inheritDeform;
if (nonessential)
{
mesh.Width = width * scale;
mesh.Height = height * scale;
}
linkedMeshes.Add(new SkeletonJson.LinkedMesh(mesh, skinName, slotIndex, parent));
return(mesh);
}
case AttachmentType.Path: {
bool closed = ReadBoolean(input);
bool constantSpeed = ReadBoolean(input);
int vertexCount = ReadVarint(input, true);
Vertices vertices = ReadVertices(input, vertexCount);
float[] lengths = new float[vertexCount / 3];
for (int i = 0, n = lengths.Length; i < n; i++)
{
lengths[i] = ReadFloat(input) * scale;
}
if (nonessential)
{
ReadInt(input); //int color = nonessential ? ReadInt(input) : 0;
}
PathAttachment path = attachmentLoader.NewPathAttachment(skin, name);
if (path == null)
{
return(null);
}
path.closed = closed;
path.constantSpeed = constantSpeed;
path.worldVerticesLength = vertexCount << 1;
path.vertices = vertices.vertices;
path.bones = vertices.bones;
path.lengths = lengths;
return(path);
}
case AttachmentType.Point: {
float rotation = ReadFloat(input);
float x = ReadFloat(input);
float y = ReadFloat(input);
if (nonessential)
{
ReadInt(input); //int color = nonessential ? ReadInt(input) : 0;
}
PointAttachment point = attachmentLoader.NewPointAttachment(skin, name);
if (point == null)
{
return(null);
}
point.x = x * scale;
point.y = y * scale;
point.rotation = rotation;
//if (nonessential) point.color = color;
return(point);
}
case AttachmentType.Clipping: {
int endSlotIndex = ReadVarint(input, true);
int vertexCount = ReadVarint(input, true);
Vertices vertices = ReadVertices(input, vertexCount);
if (nonessential)
{
ReadInt(input);
}
ClippingAttachment clip = attachmentLoader.NewClippingAttachment(skin, name);
if (clip == null)
{
return(null);
}
clip.EndSlot = skeletonData.slots.Items[endSlotIndex];
clip.worldVerticesLength = vertexCount << 1;
clip.vertices = vertices.vertices;
clip.bones = vertices.bones;
return(clip);
}
}
return(null);
}
public void Draw(Skeleton skeleton)
{
var drawOrder = skeleton.DrawOrder;
var drawOrderItems = skeleton.DrawOrder.Items;
float skeletonR = skeleton.R, skeletonG = skeleton.G, skeletonB = skeleton.B, skeletonA = skeleton.A;
Color color = new Color();
if (VertexEffect != null)
{
VertexEffect.Begin(skeleton);
}
for (int i = 0, n = drawOrder.Count; i < n; i++)
{
Slot slot = drawOrderItems[i];
Attachment attachment = slot.Attachment;
float attachmentColorR, attachmentColorG, attachmentColorB, attachmentColorA;
Texture2D texture = null;
int verticesCount = 0;
float[] vertices = this.vertices;
int indicesCount = 0;
int[] indices = null;
float[] uvs = null;
if (attachment is RegionAttachment)
{
RegionAttachment regionAttachment = (RegionAttachment)attachment;
attachmentColorR = regionAttachment.R; attachmentColorG = regionAttachment.G; attachmentColorB = regionAttachment.B; attachmentColorA = regionAttachment.A;
AtlasRegion region = (AtlasRegion)regionAttachment.RendererObject;
texture = (Texture2D)region.page.rendererObject;
verticesCount = 4;
regionAttachment.ComputeWorldVertices(slot.Bone, vertices, 0, 2);
indicesCount = 6;
indices = quadTriangles;
uvs = regionAttachment.UVs;
}
else if (attachment is MeshAttachment)
{
MeshAttachment mesh = (MeshAttachment)attachment;
attachmentColorR = mesh.R; attachmentColorG = mesh.G; attachmentColorB = mesh.B; attachmentColorA = mesh.A;
AtlasRegion region = (AtlasRegion)mesh.RendererObject;
texture = (Texture2D)region.page.rendererObject;
int vertexCount = mesh.WorldVerticesLength;
if (vertices.Length < vertexCount)
{
vertices = new float[vertexCount];
}
verticesCount = vertexCount >> 1;
mesh.ComputeWorldVertices(slot, vertices);
indicesCount = mesh.Triangles.Length;
indices = mesh.Triangles;
uvs = mesh.UVs;
}
else if (attachment is ClippingAttachment)
{
ClippingAttachment clip = (ClippingAttachment)attachment;
clipper.ClipStart(slot, clip);
continue;
}
else
{
continue;
}
// set blend state
BlendState blend = slot.Data.BlendMode == BlendMode.Additive ? BlendState.Additive : defaultBlendState;
if (device.BlendState != blend)
{
//End();
//device.BlendState = blend;
}
// calculate color
float a = skeletonA * slot.A * attachmentColorA;
if (premultipliedAlpha)
{
color = new Color(
skeletonR * slot.R * attachmentColorR * a,
skeletonG * slot.G * attachmentColorG * a,
skeletonB * slot.B * attachmentColorB * a, a);
}
else
{
color = new Color(
skeletonR * slot.R * attachmentColorR,
skeletonG * slot.G * attachmentColorG,
skeletonB * slot.B * attachmentColorB, a);
}
Color darkColor = new Color();
if (slot.HasSecondColor)
{
if (premultipliedAlpha)
{
darkColor = new Color(slot.R2 * a, slot.G2 * a, slot.B2 * a);
}
else
{
darkColor = new Color(slot.R2 * a, slot.G2 * a, slot.B2 * a);
}
}
darkColor.A = premultipliedAlpha ? (byte)255 : (byte)0;
// clip
if (clipper.IsClipping)
{
clipper.ClipTriangles(vertices, verticesCount << 1, indices, indicesCount, uvs);
vertices = clipper.ClippedVertices.Items;
verticesCount = clipper.ClippedVertices.Count >> 1;
indices = clipper.ClippedTriangles.Items;
indicesCount = clipper.ClippedTriangles.Count;
uvs = clipper.ClippedUVs.Items;
}
if (verticesCount == 0 || indicesCount == 0)
{
continue;
}
// submit to batch
MeshItem item = batcher.NextItem(verticesCount, indicesCount);
item.texture = texture;
for (int ii = 0, nn = indicesCount; ii < nn; ii++)
{
item.triangles[ii] = indices[ii];
}
VertexPositionColorTextureColor[] itemVertices = item.vertices;
for (int ii = 0, v = 0, nn = verticesCount << 1; v < nn; ii++, v += 2)
{
itemVertices[ii].Color = color;
itemVertices[ii].Color2 = darkColor;
itemVertices[ii].Position.X = vertices[v];
itemVertices[ii].Position.Y = vertices[v + 1];
itemVertices[ii].Position.Z = 0;
itemVertices[ii].TextureCoordinate.X = uvs[v];
itemVertices[ii].TextureCoordinate.Y = uvs[v + 1];
if (VertexEffect != null)
{
VertexEffect.Transform(ref itemVertices[ii]);
}
}
clipper.ClipEnd(slot);
}
clipper.ClipEnd();
if (VertexEffect != null)
{
VertexEffect.End();
}
}
private Attachment ReadAttachment(Stream input, SkeletonData skeletonData, Skin skin, int slotIndex, string attachmentName, bool nonessential)
{
float scale = Scale;
string text = ReadString(input);
if (text == null)
{
text = attachmentName;
}
switch (input.ReadByte())
{
case 0:
{
string text2 = ReadString(input);
float rotation = ReadFloat(input);
float num3 = ReadFloat(input);
float num4 = ReadFloat(input);
float scaleX = ReadFloat(input);
float scaleY = ReadFloat(input);
float num5 = ReadFloat(input);
float num6 = ReadFloat(input);
int num7 = ReadInt(input);
if (text2 == null)
{
text2 = text;
}
RegionAttachment regionAttachment = attachmentLoader.NewRegionAttachment(skin, text, text2);
if (regionAttachment == null)
{
return(null);
}
regionAttachment.Path = text2;
regionAttachment.x = num3 * scale;
regionAttachment.y = num4 * scale;
regionAttachment.scaleX = scaleX;
regionAttachment.scaleY = scaleY;
regionAttachment.rotation = rotation;
regionAttachment.width = num5 * scale;
regionAttachment.height = num6 * scale;
regionAttachment.r = (float)((num7 & 4278190080u) >> 24) / 255f;
regionAttachment.g = (float)((num7 & 0xFF0000) >> 16) / 255f;
regionAttachment.b = (float)((num7 & 0xFF00) >> 8) / 255f;
regionAttachment.a = (float)(num7 & 0xFF) / 255f;
regionAttachment.UpdateOffset();
return(regionAttachment);
}
case 1:
{
int num20 = ReadVarint(input, optimizePositive: true);
Vertices vertices4 = ReadVertices(input, num20);
if (nonessential)
{
ReadInt(input);
}
BoundingBoxAttachment boundingBoxAttachment = attachmentLoader.NewBoundingBoxAttachment(skin, text);
if (boundingBoxAttachment == null)
{
return(null);
}
boundingBoxAttachment.worldVerticesLength = num20 << 1;
boundingBoxAttachment.vertices = vertices4.vertices;
boundingBoxAttachment.bones = vertices4.bones;
return(boundingBoxAttachment);
}
case 2:
{
string text3 = ReadString(input);
int num8 = ReadInt(input);
int num9 = ReadVarint(input, optimizePositive: true);
float[] regionUVs = ReadFloatArray(input, num9 << 1, 1f);
int[] triangles = ReadShortArray(input);
Vertices vertices2 = ReadVertices(input, num9);
int num10 = ReadVarint(input, optimizePositive: true);
int[] edges = null;
float num11 = 0f;
float num12 = 0f;
if (nonessential)
{
edges = ReadShortArray(input);
num11 = ReadFloat(input);
num12 = ReadFloat(input);
}
if (text3 == null)
{
text3 = text;
}
MeshAttachment meshAttachment = attachmentLoader.NewMeshAttachment(skin, text, text3);
if (meshAttachment == null)
{
return(null);
}
meshAttachment.Path = text3;
meshAttachment.r = (float)((num8 & 4278190080u) >> 24) / 255f;
meshAttachment.g = (float)((num8 & 0xFF0000) >> 16) / 255f;
meshAttachment.b = (float)((num8 & 0xFF00) >> 8) / 255f;
meshAttachment.a = (float)(num8 & 0xFF) / 255f;
meshAttachment.bones = vertices2.bones;
meshAttachment.vertices = vertices2.vertices;
meshAttachment.WorldVerticesLength = num9 << 1;
meshAttachment.triangles = triangles;
meshAttachment.regionUVs = regionUVs;
meshAttachment.UpdateUVs();
meshAttachment.HullLength = num10 << 1;
if (nonessential)
{
meshAttachment.Edges = edges;
meshAttachment.Width = num11 * scale;
meshAttachment.Height = num12 * scale;
}
return(meshAttachment);
}
case 3:
{
string text4 = ReadString(input);
int num13 = ReadInt(input);
string skin2 = ReadString(input);
string parent = ReadString(input);
bool inheritDeform = ReadBoolean(input);
float num14 = 0f;
float num15 = 0f;
if (nonessential)
{
num14 = ReadFloat(input);
num15 = ReadFloat(input);
}
if (text4 == null)
{
text4 = text;
}
MeshAttachment meshAttachment2 = attachmentLoader.NewMeshAttachment(skin, text, text4);
if (meshAttachment2 == null)
{
return(null);
}
meshAttachment2.Path = text4;
meshAttachment2.r = (float)((num13 & 4278190080u) >> 24) / 255f;
meshAttachment2.g = (float)((num13 & 0xFF0000) >> 16) / 255f;
meshAttachment2.b = (float)((num13 & 0xFF00) >> 8) / 255f;
meshAttachment2.a = (float)(num13 & 0xFF) / 255f;
meshAttachment2.inheritDeform = inheritDeform;
if (nonessential)
{
meshAttachment2.Width = num14 * scale;
meshAttachment2.Height = num15 * scale;
}
linkedMeshes.Add(new SkeletonJson.LinkedMesh(meshAttachment2, skin2, slotIndex, parent));
return(meshAttachment2);
}
case 4:
{
bool closed = ReadBoolean(input);
bool constantSpeed = ReadBoolean(input);
int num16 = ReadVarint(input, optimizePositive: true);
Vertices vertices3 = ReadVertices(input, num16);
float[] array = new float[num16 / 3];
int i = 0;
for (int num17 = array.Length; i < num17; i++)
{
array[i] = ReadFloat(input) * scale;
}
if (nonessential)
{
ReadInt(input);
}
PathAttachment pathAttachment = attachmentLoader.NewPathAttachment(skin, text);
if (pathAttachment == null)
{
return(null);
}
pathAttachment.closed = closed;
pathAttachment.constantSpeed = constantSpeed;
pathAttachment.worldVerticesLength = num16 << 1;
pathAttachment.vertices = vertices3.vertices;
pathAttachment.bones = vertices3.bones;
pathAttachment.lengths = array;
return(pathAttachment);
}
case 5:
{
float rotation2 = ReadFloat(input);
float num18 = ReadFloat(input);
float num19 = ReadFloat(input);
if (nonessential)
{
ReadInt(input);
}
PointAttachment pointAttachment = attachmentLoader.NewPointAttachment(skin, text);
if (pointAttachment == null)
{
return(null);
}
pointAttachment.x = num18 * scale;
pointAttachment.y = num19 * scale;
pointAttachment.rotation = rotation2;
return(pointAttachment);
}
case 6:
{
int num = ReadVarint(input, optimizePositive: true);
int num2 = ReadVarint(input, optimizePositive: true);
Vertices vertices = ReadVertices(input, num2);
if (nonessential)
{
ReadInt(input);
}
ClippingAttachment clippingAttachment = attachmentLoader.NewClippingAttachment(skin, text);
if (clippingAttachment == null)
{
return(null);
}
clippingAttachment.EndSlot = skeletonData.slots.Items[num];
clippingAttachment.worldVerticesLength = num2 << 1;
clippingAttachment.vertices = vertices.vertices;
clippingAttachment.bones = vertices.bones;
return(clippingAttachment);
}
default:
return(null);
}
}
private Attachment ReadAttachment(Dictionary <string, object> map, Skin skin, int slotIndex, string name, SkeletonData skeletonData)
{
float scale = Scale;
name = GetString(map, "name", name);
string text = GetString(map, "type", "region");
if (text == "skinnedmesh")
{
text = "weightedmesh";
}
if (text == "weightedmesh")
{
text = "mesh";
}
if (text == "weightedlinkedmesh")
{
text = "linkedmesh";
}
AttachmentType attachmentType = (AttachmentType)Enum.Parse(typeof(AttachmentType), text, ignoreCase: true);
string @string = GetString(map, "path", name);
switch (attachmentType)
{
case AttachmentType.Region:
{
RegionAttachment regionAttachment = attachmentLoader.NewRegionAttachment(skin, name, @string);
if (regionAttachment == null)
{
return(null);
}
regionAttachment.Path = @string;
regionAttachment.x = GetFloat(map, "x", 0f) * scale;
regionAttachment.y = GetFloat(map, "y", 0f) * scale;
regionAttachment.scaleX = GetFloat(map, "scaleX", 1f);
regionAttachment.scaleY = GetFloat(map, "scaleY", 1f);
regionAttachment.rotation = GetFloat(map, "rotation", 0f);
regionAttachment.width = GetFloat(map, "width", 32f) * scale;
regionAttachment.height = GetFloat(map, "height", 32f) * scale;
regionAttachment.UpdateOffset();
if (map.ContainsKey("color"))
{
string hexString2 = (string)map["color"];
regionAttachment.r = ToColor(hexString2, 0);
regionAttachment.g = ToColor(hexString2, 1);
regionAttachment.b = ToColor(hexString2, 2);
regionAttachment.a = ToColor(hexString2, 3);
}
regionAttachment.UpdateOffset();
return(regionAttachment);
}
case AttachmentType.Boundingbox:
{
BoundingBoxAttachment boundingBoxAttachment = attachmentLoader.NewBoundingBoxAttachment(skin, name);
if (boundingBoxAttachment == null)
{
return(null);
}
ReadVertices(map, boundingBoxAttachment, GetInt(map, "vertexCount", 0) << 1);
return(boundingBoxAttachment);
}
case AttachmentType.Mesh:
case AttachmentType.Linkedmesh:
{
MeshAttachment meshAttachment = attachmentLoader.NewMeshAttachment(skin, name, @string);
if (meshAttachment == null)
{
return(null);
}
meshAttachment.Path = @string;
if (map.ContainsKey("color"))
{
string hexString = (string)map["color"];
meshAttachment.r = ToColor(hexString, 0);
meshAttachment.g = ToColor(hexString, 1);
meshAttachment.b = ToColor(hexString, 2);
meshAttachment.a = ToColor(hexString, 3);
}
meshAttachment.Width = GetFloat(map, "width", 0f) * scale;
meshAttachment.Height = GetFloat(map, "height", 0f) * scale;
string string3 = GetString(map, "parent", null);
if (string3 != null)
{
meshAttachment.InheritDeform = GetBoolean(map, "deform", defaultValue: true);
linkedMeshes.Add(new LinkedMesh(meshAttachment, GetString(map, "skin", null), slotIndex, string3));
return(meshAttachment);
}
float[] floatArray = GetFloatArray(map, "uvs", 1f);
ReadVertices(map, meshAttachment, floatArray.Length);
meshAttachment.triangles = GetIntArray(map, "triangles");
meshAttachment.regionUVs = floatArray;
meshAttachment.UpdateUVs();
if (map.ContainsKey("hull"))
{
meshAttachment.HullLength = GetInt(map, "hull", 0) * 2;
}
if (map.ContainsKey("edges"))
{
meshAttachment.Edges = GetIntArray(map, "edges");
}
return(meshAttachment);
}
case AttachmentType.Path:
{
PathAttachment pathAttachment = attachmentLoader.NewPathAttachment(skin, name);
if (pathAttachment == null)
{
return(null);
}
pathAttachment.closed = GetBoolean(map, "closed", defaultValue: false);
pathAttachment.constantSpeed = GetBoolean(map, "constantSpeed", defaultValue: true);
int @int = GetInt(map, "vertexCount", 0);
ReadVertices(map, pathAttachment, @int << 1);
pathAttachment.lengths = GetFloatArray(map, "lengths", scale);
return(pathAttachment);
}
case AttachmentType.Point:
{
PointAttachment pointAttachment = attachmentLoader.NewPointAttachment(skin, name);
if (pointAttachment == null)
{
return(null);
}
pointAttachment.x = GetFloat(map, "x", 0f) * scale;
pointAttachment.y = GetFloat(map, "y", 0f) * scale;
pointAttachment.rotation = GetFloat(map, "rotation", 0f);
return(pointAttachment);
}
case AttachmentType.Clipping:
{
ClippingAttachment clippingAttachment = attachmentLoader.NewClippingAttachment(skin, name);
if (clippingAttachment == null)
{
return(null);
}
string string2 = GetString(map, "end", null);
if (string2 != null)
{
SlotData slotData = skeletonData.FindSlot(string2);
if (slotData == null)
{
throw new Exception("Clipping end slot not found: " + string2);
}
clippingAttachment.EndSlot = slotData;
}
ReadVertices(map, clippingAttachment, GetInt(map, "vertexCount", 0) << 1);
return(clippingAttachment);
}
default:
return(null);
}
}