/// <summary>Sets the skin used to look up attachments before looking in the {@link SkeletonData#getDefaultSkin() default /// skin}. Attachmentsfrom the new skin are attached if the corresponding attachment from the old skin was attached. If /// there was no old skin, each slot's setup mode attachment is attached from the new skin.</summary> /// <param name="newSkin">May be null.</param> public void SetSkin(Skin newSkin) { if (newSkin != null) { if (skin != null) { newSkin.AttachAll(this, skin); } else { List <Slot> slots = this.slots; for (int i = 0, n = slots.Count; i < n; i++) { Slot slot = slots[i]; String name = slot.data.attachmentName; if (name != null) { Attachment attachment = newSkin.GetAttachment(i, name); if (attachment != null) { slot.Attachment = attachment; } } } } } skin = newSkin; }
/// <returns>May be null.</returns> public Attachment GetAttachment(int slotIndex, String attachmentName) { if (attachmentName == null) { throw new ArgumentNullException("attachmentName cannot be null."); } if (skin != null) { Attachment attachment = skin.GetAttachment(slotIndex, attachmentName); if (attachment != null) { return(attachment); } } if (data.defaultSkin != null) { return(data.defaultSkin.GetAttachment(slotIndex, attachmentName)); } return(null); }
private void ReadAnimation(String name, Stream input, SkeletonData skeletonData) { var timelines = new List <Timeline>(); float scale = Scale; float duration = 0; // Slot timelines. for (int i = 0, n = ReadInt(input, true); i < n; i++) { int slotIndex = ReadInt(input, true); for (int ii = 0, nn = ReadInt(input, true); ii < nn; ii++) { int timelineType = input.ReadByte(); int frameCount = ReadInt(input, true); switch (timelineType) { case TIMELINE_COLOR: { ColorTimeline timeline = new ColorTimeline(frameCount); timeline.slotIndex = slotIndex; for (int frameIndex = 0; frameIndex < frameCount; frameIndex++) { float time = ReadFloat(input); int color = ReadInt(input); float r = ((color & 0xff000000) >> 24) / 255f; float g = ((color & 0x00ff0000) >> 16) / 255f; float b = ((color & 0x0000ff00) >> 8) / 255f; float a = ((color & 0x000000ff)) / 255f; timeline.SetFrame(frameIndex, time, r, g, b, a); if (frameIndex < frameCount - 1) { ReadCurve(input, frameIndex, timeline); } } timelines.Add(timeline); duration = Math.Max(duration, timeline.frames[frameCount * 5 - 5]); break; } case TIMELINE_ATTACHMENT: { AttachmentTimeline timeline = new AttachmentTimeline(frameCount); timeline.slotIndex = slotIndex; for (int frameIndex = 0; frameIndex < frameCount; frameIndex++) { timeline.SetFrame(frameIndex, ReadFloat(input), ReadString(input)); } timelines.Add(timeline); duration = Math.Max(duration, timeline.frames[frameCount - 1]); break; } } } } // Bone timelines. for (int i = 0, n = ReadInt(input, true); i < n; i++) { int boneIndex = ReadInt(input, true); for (int ii = 0, nn = ReadInt(input, true); ii < nn; ii++) { int timelineType = input.ReadByte(); int frameCount = ReadInt(input, true); switch (timelineType) { case TIMELINE_ROTATE: { RotateTimeline timeline = new RotateTimeline(frameCount); timeline.boneIndex = boneIndex; for (int frameIndex = 0; frameIndex < frameCount; frameIndex++) { timeline.SetFrame(frameIndex, ReadFloat(input), ReadFloat(input)); if (frameIndex < frameCount - 1) { ReadCurve(input, frameIndex, timeline); } } timelines.Add(timeline); duration = Math.Max(duration, timeline.frames[frameCount * 2 - 2]); break; } case TIMELINE_TRANSLATE: case TIMELINE_SCALE: { TranslateTimeline timeline; float timelineScale = 1; if (timelineType == TIMELINE_SCALE) { timeline = new ScaleTimeline(frameCount); } else { timeline = new TranslateTimeline(frameCount); timelineScale = scale; } timeline.boneIndex = boneIndex; for (int frameIndex = 0; frameIndex < frameCount; frameIndex++) { timeline.SetFrame(frameIndex, ReadFloat(input), ReadFloat(input) * timelineScale, ReadFloat(input) * timelineScale); if (frameIndex < frameCount - 1) { ReadCurve(input, frameIndex, timeline); } } timelines.Add(timeline); duration = Math.Max(duration, timeline.frames[frameCount * 3 - 3]); break; } case TIMELINE_FLIPX: case TIMELINE_FLIPY: { FlipXTimeline timeline = timelineType == TIMELINE_FLIPX ? new FlipXTimeline(frameCount) : new FlipYTimeline( frameCount); timeline.boneIndex = boneIndex; for (int frameIndex = 0; frameIndex < frameCount; frameIndex++) { timeline.SetFrame(frameIndex, ReadFloat(input), ReadBoolean(input)); } timelines.Add(timeline); duration = Math.Max(duration, timeline.frames[frameCount * 2 - 2]); break; } } } } // IK timelines. for (int i = 0, n = ReadInt(input, true); i < n; i++) { IkConstraintData ikConstraint = skeletonData.ikConstraints[ReadInt(input, true)]; int frameCount = ReadInt(input, true); IkConstraintTimeline timeline = new IkConstraintTimeline(frameCount); timeline.ikConstraintIndex = skeletonData.ikConstraints.IndexOf(ikConstraint); for (int frameIndex = 0; frameIndex < frameCount; frameIndex++) { timeline.SetFrame(frameIndex, ReadFloat(input), ReadFloat(input), ReadSByte(input)); if (frameIndex < frameCount - 1) { ReadCurve(input, frameIndex, timeline); } } timelines.Add(timeline); duration = Math.Max(duration, timeline.frames[frameCount * 3 - 3]); } // FFD timelines. for (int i = 0, n = ReadInt(input, true); i < n; i++) { Skin skin = skeletonData.skins[ReadInt(input, true)]; for (int ii = 0, nn = ReadInt(input, true); ii < nn; ii++) { int slotIndex = ReadInt(input, true); for (int iii = 0, nnn = ReadInt(input, true); iii < nnn; iii++) { Attachment attachment = skin.GetAttachment(slotIndex, ReadString(input)); int frameCount = ReadInt(input, true); FFDTimeline timeline = new FFDTimeline(frameCount); timeline.slotIndex = slotIndex; timeline.attachment = attachment; for (int frameIndex = 0; frameIndex < frameCount; frameIndex++) { float time = ReadFloat(input); float[] vertices; int vertexCount; if (attachment is MeshAttachment) { vertexCount = ((MeshAttachment)attachment).vertices.Length; } else { vertexCount = ((SkinnedMeshAttachment)attachment).weights.Length / 3 * 2; } int end = ReadInt(input, true); if (end == 0) { if (attachment is MeshAttachment) { vertices = ((MeshAttachment)attachment).vertices; } else { vertices = new float[vertexCount]; } } else { vertices = new float[vertexCount]; int start = ReadInt(input, true); end += start; if (scale == 1) { for (int v = start; v < end; v++) { vertices[v] = ReadFloat(input); } } else { for (int v = start; v < end; v++) { vertices[v] = ReadFloat(input) * scale; } } if (attachment is MeshAttachment) { float[] meshVertices = ((MeshAttachment)attachment).vertices; for (int v = 0, vn = vertices.Length; v < vn; v++) { vertices[v] += meshVertices[v]; } } } timeline.SetFrame(frameIndex, time, vertices); if (frameIndex < frameCount - 1) { ReadCurve(input, frameIndex, timeline); } } timelines.Add(timeline); duration = Math.Max(duration, timeline.frames[frameCount - 1]); } } } // Draw order timeline. int drawOrderCount = ReadInt(input, true); if (drawOrderCount > 0) { DrawOrderTimeline timeline = new DrawOrderTimeline(drawOrderCount); int slotCount = skeletonData.slots.Count; for (int i = 0; i < drawOrderCount; i++) { int offsetCount = ReadInt(input, true); int[] drawOrder = new int[slotCount]; for (int ii = slotCount - 1; ii >= 0; ii--) { drawOrder[ii] = -1; } int[] unchanged = new int[slotCount - offsetCount]; int originalIndex = 0, unchangedIndex = 0; for (int ii = 0; ii < offsetCount; ii++) { int slotIndex = ReadInt(input, true); // Collect unchanged items. while (originalIndex != slotIndex) { unchanged[unchangedIndex++] = originalIndex++; } // Set changed items. drawOrder[originalIndex + ReadInt(input, true)] = originalIndex++; } // Collect remaining unchanged items. while (originalIndex < slotCount) { unchanged[unchangedIndex++] = originalIndex++; } // Fill in unchanged items. for (int ii = slotCount - 1; ii >= 0; ii--) { if (drawOrder[ii] == -1) { drawOrder[ii] = unchanged[--unchangedIndex]; } } timeline.SetFrame(i, ReadFloat(input), drawOrder); } timelines.Add(timeline); duration = Math.Max(duration, timeline.frames[drawOrderCount - 1]); } // Event timeline. int eventCount = ReadInt(input, true); if (eventCount > 0) { EventTimeline timeline = new EventTimeline(eventCount); for (int i = 0; i < eventCount; i++) { float time = ReadFloat(input); EventData eventData = skeletonData.events[ReadInt(input, true)]; Event e = new Event(eventData); e.Int = ReadInt(input, false); e.Float = ReadFloat(input); e.String = ReadBoolean(input) ? ReadString(input) : eventData.String; timeline.SetFrame(i, time, e); } timelines.Add(timeline); duration = Math.Max(duration, timeline.frames[eventCount - 1]); } timelines.TrimExcess(); skeletonData.animations.Add(new Animation(name, timelines, duration)); }
private void ReadAnimation(String name, Dictionary <String, Object> map, SkeletonData skeletonData) { var timelines = new List <Timeline>(); float duration = 0; float scale = Scale; if (map.ContainsKey("slots")) { foreach (KeyValuePair <String, Object> entry in (Dictionary <String, Object>)map["slots"]) { String slotName = entry.Key; int slotIndex = skeletonData.FindSlotIndex(slotName); var timelineMap = (Dictionary <String, Object>)entry.Value; foreach (KeyValuePair <String, Object> timelineEntry in timelineMap) { var values = (List <Object>)timelineEntry.Value; var timelineName = (String)timelineEntry.Key; if (timelineName == "color") { var timeline = new ColorTimeline(values.Count); timeline.slotIndex = slotIndex; int frameIndex = 0; foreach (Dictionary <String, Object> valueMap in values) { float time = (float)valueMap["time"]; String c = (String)valueMap["color"]; timeline.SetFrame(frameIndex, time, ToColor(c, 0), ToColor(c, 1), ToColor(c, 2), ToColor(c, 3)); ReadCurve(timeline, frameIndex, valueMap); frameIndex++; } timelines.Add(timeline); duration = Math.Max(duration, timeline.frames[timeline.FrameCount * 5 - 5]); } else if (timelineName == "attachment") { var timeline = new AttachmentTimeline(values.Count); timeline.slotIndex = slotIndex; int frameIndex = 0; foreach (Dictionary <String, Object> valueMap in values) { float time = (float)valueMap["time"]; timeline.SetFrame(frameIndex++, time, (String)valueMap["name"]); } timelines.Add(timeline); duration = Math.Max(duration, timeline.frames[timeline.FrameCount - 1]); } else { throw new Exception("Invalid timeline type for a slot: " + timelineName + " (" + slotName + ")"); } } } } if (map.ContainsKey("bones")) { foreach (KeyValuePair <String, Object> entry in (Dictionary <String, Object>)map["bones"]) { String boneName = entry.Key; int boneIndex = skeletonData.FindBoneIndex(boneName); if (boneIndex == -1) { throw new Exception("Bone not found: " + boneName); } var timelineMap = (Dictionary <String, Object>)entry.Value; foreach (KeyValuePair <String, Object> timelineEntry in timelineMap) { var values = (List <Object>)timelineEntry.Value; var timelineName = (String)timelineEntry.Key; if (timelineName == "rotate") { var timeline = new RotateTimeline(values.Count); timeline.boneIndex = boneIndex; int frameIndex = 0; foreach (Dictionary <String, Object> valueMap in values) { float time = (float)valueMap["time"]; timeline.SetFrame(frameIndex, time, (float)valueMap["angle"]); ReadCurve(timeline, frameIndex, valueMap); frameIndex++; } timelines.Add(timeline); duration = Math.Max(duration, timeline.frames[timeline.FrameCount * 2 - 2]); } else if (timelineName == "translate" || timelineName == "scale") { TranslateTimeline timeline; float timelineScale = 1; if (timelineName == "scale") { timeline = new ScaleTimeline(values.Count); } else { timeline = new TranslateTimeline(values.Count); timelineScale = scale; } timeline.boneIndex = boneIndex; int frameIndex = 0; foreach (Dictionary <String, Object> valueMap in values) { float time = (float)valueMap["time"]; float x = valueMap.ContainsKey("x") ? (float)valueMap["x"] : 0; float y = valueMap.ContainsKey("y") ? (float)valueMap["y"] : 0; timeline.SetFrame(frameIndex, time, (float)x * timelineScale, (float)y * timelineScale); ReadCurve(timeline, frameIndex, valueMap); frameIndex++; } timelines.Add(timeline); duration = Math.Max(duration, timeline.frames[timeline.FrameCount * 3 - 3]); } else if (timelineName == "flipX" || timelineName == "flipY") { bool x = timelineName == "flipX"; var timeline = x ? new FlipXTimeline(values.Count) : new FlipYTimeline(values.Count); timeline.boneIndex = boneIndex; String field = x ? "x" : "y"; int frameIndex = 0; foreach (Dictionary <String, Object> valueMap in values) { float time = (float)valueMap["time"]; timeline.SetFrame(frameIndex, time, valueMap.ContainsKey(field) ? (bool)valueMap[field] : false); frameIndex++; } timelines.Add(timeline); duration = Math.Max(duration, timeline.frames[timeline.FrameCount * 2 - 2]); } else { throw new Exception("Invalid timeline type for a bone: " + timelineName + " (" + boneName + ")"); } } } } if (map.ContainsKey("ik")) { foreach (KeyValuePair <String, Object> ikMap in (Dictionary <String, Object>)map["ik"]) { IkConstraintData ikConstraint = skeletonData.FindIkConstraint(ikMap.Key); var values = (List <Object>)ikMap.Value; var timeline = new IkConstraintTimeline(values.Count); timeline.ikConstraintIndex = skeletonData.ikConstraints.IndexOf(ikConstraint); int frameIndex = 0; foreach (Dictionary <String, Object> valueMap in values) { float time = (float)valueMap["time"]; float mix = valueMap.ContainsKey("mix") ? (float)valueMap["mix"] : 1; bool bendPositive = valueMap.ContainsKey("bendPositive") ? (bool)valueMap["bendPositive"] : true; timeline.SetFrame(frameIndex, time, mix, bendPositive ? 1 : -1); ReadCurve(timeline, frameIndex, valueMap); frameIndex++; } timelines.Add(timeline); duration = Math.Max(duration, timeline.frames[timeline.FrameCount * 3 - 3]); } } if (map.ContainsKey("ffd")) { foreach (KeyValuePair <String, Object> ffdMap in (Dictionary <String, Object>)map["ffd"]) { Skin skin = skeletonData.FindSkin(ffdMap.Key); foreach (KeyValuePair <String, Object> slotMap in (Dictionary <String, Object>)ffdMap.Value) { int slotIndex = skeletonData.FindSlotIndex(slotMap.Key); foreach (KeyValuePair <String, Object> meshMap in (Dictionary <String, Object>)slotMap.Value) { var values = (List <Object>)meshMap.Value; var timeline = new FFDTimeline(values.Count); Attachment attachment = skin.GetAttachment(slotIndex, meshMap.Key); if (attachment == null) { throw new Exception("FFD attachment not found: " + meshMap.Key); } timeline.slotIndex = slotIndex; timeline.attachment = attachment; int vertexCount; if (attachment is MeshAttachment) { vertexCount = ((MeshAttachment)attachment).vertices.Length; } else { vertexCount = ((SkinnedMeshAttachment)attachment).Weights.Length / 3 * 2; } int frameIndex = 0; foreach (Dictionary <String, Object> valueMap in values) { float[] vertices; if (!valueMap.ContainsKey("vertices")) { if (attachment is MeshAttachment) { vertices = ((MeshAttachment)attachment).vertices; } else { vertices = new float[vertexCount]; } } else { var verticesValue = (List <Object>)valueMap["vertices"]; vertices = new float[vertexCount]; int start = GetInt(valueMap, "offset", 0); if (scale == 1) { for (int i = 0, n = verticesValue.Count; i < n; i++) { vertices[i + start] = (float)verticesValue[i]; } } else { for (int i = 0, n = verticesValue.Count; i < n; i++) { vertices[i + start] = (float)verticesValue[i] * scale; } } if (attachment is MeshAttachment) { float[] meshVertices = ((MeshAttachment)attachment).vertices; for (int i = 0; i < vertexCount; i++) { vertices[i] += meshVertices[i]; } } } timeline.SetFrame(frameIndex, (float)valueMap["time"], vertices); ReadCurve(timeline, frameIndex, valueMap); frameIndex++; } timelines.Add(timeline); duration = Math.Max(duration, timeline.frames[timeline.FrameCount - 1]); } } } } if (map.ContainsKey("drawOrder") || map.ContainsKey("draworder")) { var values = (List <Object>)map[map.ContainsKey("drawOrder") ? "drawOrder" : "draworder"]; var timeline = new DrawOrderTimeline(values.Count); int slotCount = skeletonData.slots.Count; int frameIndex = 0; foreach (Dictionary <String, Object> drawOrderMap in values) { int[] drawOrder = null; if (drawOrderMap.ContainsKey("offsets")) { drawOrder = new int[slotCount]; for (int i = slotCount - 1; i >= 0; i--) { drawOrder[i] = -1; } var offsets = (List <Object>)drawOrderMap["offsets"]; int[] unchanged = new int[slotCount - offsets.Count]; int originalIndex = 0, unchangedIndex = 0; foreach (Dictionary <String, Object> offsetMap in offsets) { int slotIndex = skeletonData.FindSlotIndex((String)offsetMap["slot"]); if (slotIndex == -1) { throw new Exception("Slot not found: " + offsetMap["slot"]); } // Collect unchanged items. while (originalIndex != slotIndex) { unchanged[unchangedIndex++] = originalIndex++; } // Set changed items. int index = originalIndex + (int)(float)offsetMap["offset"]; drawOrder[index] = originalIndex++; } // Collect remaining unchanged items. while (originalIndex < slotCount) { unchanged[unchangedIndex++] = originalIndex++; } // Fill in unchanged items. for (int i = slotCount - 1; i >= 0; i--) { if (drawOrder[i] == -1) { drawOrder[i] = unchanged[--unchangedIndex]; } } } timeline.SetFrame(frameIndex++, (float)drawOrderMap["time"], drawOrder); } timelines.Add(timeline); duration = Math.Max(duration, timeline.frames[timeline.FrameCount - 1]); } if (map.ContainsKey("events")) { var eventsMap = (List <Object>)map["events"]; var timeline = new EventTimeline(eventsMap.Count); int frameIndex = 0; foreach (Dictionary <String, Object> eventMap in eventsMap) { EventData eventData = skeletonData.FindEvent((String)eventMap["name"]); if (eventData == null) { throw new Exception("Event not found: " + eventMap["name"]); } var e = new Event(eventData); e.Int = GetInt(eventMap, "int", eventData.Int); e.Float = GetFloat(eventMap, "float", eventData.Float); e.String = GetString(eventMap, "string", eventData.String); timeline.SetFrame(frameIndex++, (float)eventMap["time"], e); } timelines.Add(timeline); duration = Math.Max(duration, timeline.frames[timeline.FrameCount - 1]); } timelines.TrimExcess(); skeletonData.animations.Add(new Animation(name, timelines, duration)); }