protected override void LoadContent()
{
skeletonRenderer = new SkeletonRenderer(GraphicsDevice);
String name = "spineboy"; // "goblins";
Atlas atlas = new Atlas("data/" + name + ".atlas", new XnaTextureLoader(GraphicsDevice));
SkeletonJson json = new SkeletonJson(atlas);
skeleton = new Skeleton(json.ReadSkeletonData("data/" + name + ".json"));
if (name == "goblins")
{
skeleton.SetSkin("goblingirl");
}
skeleton.SetSlotsToBindPose(); // Without this the skin attachments won't be attached. See SetSkin.
// Define mixing between animations.
AnimationStateData stateData = new AnimationStateData(skeleton.Data);
if (name == "spineboy")
{
stateData.SetMix("walk", "jump", 0.2f);
stateData.SetMix("jump", "walk", 0.4f);
}
state = new AnimationState(stateData);
state.SetAnimation("walk", false);
state.AddAnimation("jump", false);
state.AddAnimation("walk", true);
skeleton.RootBone.X = 320;
skeleton.RootBone.Y = 440;
skeleton.UpdateWorldTransform();
}
protected override void LoadContent()
{
skeletonRenderer = new SkeletonMeshRenderer(GraphicsDevice);
skeletonRenderer.PremultipliedAlpha = true;
// String name = "spineboy";
String name = "goblins-ffd";
Atlas atlas = new Atlas(assetsFolder + name + ".atlas", new XnaTextureLoader(GraphicsDevice));
SkeletonJson json = new SkeletonJson(atlas);
if (name == "spineboy")
{
json.Scale = 0.6f;
}
skeleton = new Skeleton(json.ReadSkeletonData(assetsFolder + name + ".json"));
if (name == "goblins-ffd")
{
skeleton.SetSkin("goblin");
}
// Define mixing between animations.
AnimationStateData stateData = new AnimationStateData(skeleton.Data);
state = new AnimationState(stateData);
if (name == "spineboy")
{
stateData.SetMix("run", "jump", 0.2f);
stateData.SetMix("jump", "run", 0.4f);
// Event handling for all animations.
state.Start += Start;
state.End += End;
state.Complete += Complete;
state.Event += Event;
state.SetAnimation(0, "test", false);
TrackEntry entry = state.AddAnimation(0, "jump", false, 0);
entry.End += End; // Event handling for queued animations.
state.AddAnimation(0, "run", true, 0);
}
else
{
state.SetAnimation(0, "walk", true);
}
skeleton.X = 400;
skeleton.Y = 590;
skeleton.UpdateWorldTransform();
headSlot = skeleton.FindSlot("head");
}
protected override void LoadContent()
{
skeletonRenderer = new SkeletonRenderer(GraphicsDevice);
skeletonRenderer.PremultipliedAlpha = true;
String name = "spineboy"; // "goblins";
Atlas atlas = new Atlas("data/" + name + ".atlas", new XnaTextureLoader(GraphicsDevice));
SkeletonJson json = new SkeletonJson(atlas);
skeleton = new Skeleton(json.ReadSkeletonData("data/" + name + ".json"));
if (name == "goblins")
{
skeleton.SetSkin("goblingirl");
}
skeleton.SetSlotsToSetupPose(); // Without this the skin attachments won't be attached. See SetSkin.
// Define mixing between animations.
AnimationStateData stateData = new AnimationStateData(skeleton.Data);
if (name == "spineboy")
{
stateData.SetMix("walk", "jump", 0.2f);
stateData.SetMix("jump", "walk", 0.4f);
}
state = new AnimationState(stateData);
if (true)
{
// Event handling for all animations.
state.Start += Start;
state.End += End;
state.Complete += Complete;
state.Event += Event;
state.SetAnimation(0, "drawOrder", true);
}
else
{
state.SetAnimation(0, "walk", false);
TrackEntry entry = state.AddAnimation(0, "jump", false, 0);
entry.End += End; // Event handling for queued animations.
state.AddAnimation(0, "walk", true, 0);
}
skeleton.X = 320;
skeleton.Y = 440;
skeleton.UpdateWorldTransform();
headSlot = skeleton.FindSlot("head");
}
/*
*/
private void MakeSkeletonAndAnimationData()
{
if(sprites == null) {
Debug.LogWarning("Sprite collection not set for skeleton data asset: " + name,this);
return;
}
if(skeletonJSON == null) {
Debug.LogWarning("Skeleton JSON file not set for skeleton data asset: " + name,this);
return;
}
SkeletonJson json = new SkeletonJson(new tk2dSpineAttachmentLoader(sprites.spriteCollection));
json.Scale = scale;
try {
skeletonData = json.ReadSkeletonData(new StringReader(skeletonJSON.text));
} catch (Exception ex) {
Debug.Log("Error reading skeleton JSON file for skeleton data asset: " + name + "\n" + ex.Message + "\n" + ex.StackTrace,this);
return;
}
stateData = new AnimationStateData(skeletonData);
for(int i = 0, n = fromAnimation.Length; i < n; i++) {
if(fromAnimation[i].Length == 0 || toAnimation[i].Length == 0) continue;
stateData.SetMix(fromAnimation[i],toAnimation[i],duration[i]);
}
}
/// <summary>
/// Wendet alle zum Skeleton passenden AnimationMixes auf animationStateData an.
/// </summary>
public static void SetFadingSettings(AnimationStateData pAnimationStateData)
{
List<AnimationMix> AnimationFadingList;
AnimationFadingList = AnimationFading[pAnimationStateData.SkeletonData.Name];
foreach (AnimationMix animMix in AnimationFadingList)
{
pAnimationStateData.SetMix(animMix.From, animMix.To, animMix.Fading);
}
}
public SkeletonData GetSkeletonData(bool quiet)
{
if (atlasAsset == null) {
if (!quiet)
Debug.LogWarning("Atlas not set for skeleton data asset: " + name, this);
Clear();
return null;
}
if (skeletonJSON == null) {
if (!quiet)
Debug.LogWarning("Skeleton JSON file not set for skeleton data asset: " + name, this);
Clear();
return null;
}
Atlas atlas = atlasAsset.GetAtlas();
if (atlas == null) {
Clear();
return null;
}
if (skeletonData != null)
return skeletonData;
SkeletonJson json = new SkeletonJson(atlas);
json.Scale = scale;
try {
skeletonData = json.ReadSkeletonData(new StringReader(skeletonJSON.text));
} catch (Exception) {
if (!quiet)
Debug.LogException(new Exception("Error reading skeleton JSON file for skeleton data asset: " + name), this);
return null;
}
stateData = new AnimationStateData(skeletonData);
for (int i = 0, n = fromAnimation.Length; i < n; i++)
stateData.SetMix(fromAnimation[i], toAnimation[i], duration[i]);
return skeletonData;
}
public SkeletonData GetSkeletonData (bool quiet) {
if (spriteCollection == null) {
if (!quiet)
Debug.LogError("Sprite collection not set for skeleton data asset: " + name, this);
Reset();
return null;
}
if (skeletonJSON == null) {
if (!quiet)
Debug.LogError("Skeleton JSON file not set for skeleton data asset: " + name, this);
Reset();
return null;
}
if (skeletonData != null)
return skeletonData;
SkeletonJson json = new SkeletonJson(new SpriteCollectionAttachmentLoader(spriteCollection));
json.Scale = 1.0f / (spriteCollection.invOrthoSize * spriteCollection.halfTargetHeight) * scale;
try {
skeletonData = json.ReadSkeletonData(new StringReader(skeletonJSON.text));
} catch (Exception ex) {
if (!quiet)
Debug.LogError("Error reading skeleton JSON file for SkeletonData asset: " + name + "\n" + ex.Message + "\n" + ex.StackTrace, this);
return null;
}
stateData = new AnimationStateData(skeletonData);
stateData.DefaultMix = defaultMix;
for (int i = 0, n = fromAnimation.Length; i < n; i++) {
if (fromAnimation[i].Length == 0 || toAnimation[i].Length == 0) continue;
stateData.SetMix(fromAnimation[i], toAnimation[i], duration[i]);
}
return skeletonData;
}
protected override void LoadContent()
{
skeletonRenderer = new SkeletonMeshRenderer(GraphicsDevice);
skeletonRenderer.PremultipliedAlpha = true;
// String name = "spineboy";
// String name = "goblins-mesh";
// String name = "raptor";
String name = "tank";
// String name = "star";
bool binaryData = true;
Atlas atlas = new Atlas(assetsFolder + name + ".atlas", new XnaTextureLoader(GraphicsDevice));
float scale = 1;
if (name == "spineboy")
{
scale = 0.6f;
}
if (name == "raptor")
{
scale = 0.5f;
}
if (name == "tank")
{
scale = 0.3f;
}
SkeletonData skeletonData;
if (binaryData)
{
SkeletonBinary binary = new SkeletonBinary(atlas);
binary.Scale = scale;
skeletonData = binary.ReadSkeletonData(assetsFolder + name + ".skel");
}
else
{
SkeletonJson json = new SkeletonJson(atlas);
json.Scale = scale;
skeletonData = json.ReadSkeletonData(assetsFolder + name + ".json");
}
skeleton = new Skeleton(skeletonData);
if (name == "goblins-mesh")
{
skeleton.SetSkin("goblin");
}
// Define mixing between animations.
AnimationStateData stateData = new AnimationStateData(skeleton.Data);
state = new AnimationState(stateData);
if (name == "spineboy")
{
stateData.SetMix("run", "jump", 0.2f);
stateData.SetMix("jump", "run", 0.4f);
// Event handling for all animations.
state.Start += Start;
state.End += End;
state.Complete += Complete;
state.Event += Event;
state.SetAnimation(0, "test", false);
TrackEntry entry = state.AddAnimation(0, "jump", false, 0);
entry.End += End; // Event handling for queued animations.
state.AddAnimation(0, "run", true, 0);
}
else if (name == "raptor")
{
state.SetAnimation(0, "walk", true);
state.AddAnimation(1, "gungrab", false, 2);
}
else if (name == "star")
{
// no animation in star
}
else if (name == "tank")
{
state.SetAnimation(0, "drive", true);
}
else
{
state.SetAnimation(0, "walk", true);
}
skeleton.X = 400 + (name == "tank" ? 300: 0);
skeleton.Y = 580;
skeleton.UpdateWorldTransform();
headSlot = skeleton.FindSlot("head");
}
protected override void LoadContent()
{
// Two color tint effect, comment line 80 to disable
var spineEffect = Content.Load <Effect>("spine-xna-example-content\\SpineEffect");
spineEffect.Parameters["World"].SetValue(Matrix.Identity);
spineEffect.Parameters["View"].SetValue(Matrix.CreateLookAt(new Vector3(0.0f, 0.0f, 1.0f), Vector3.Zero, Vector3.Up));
skeletonRenderer = new SkeletonRenderer(GraphicsDevice);
skeletonRenderer.PremultipliedAlpha = false;
skeletonRenderer.Effect = spineEffect;
skeletonDebugRenderer = new SkeletonDebugRenderer(GraphicsDevice);
skeletonDebugRenderer.DisableAll();
skeletonDebugRenderer.DrawClipping = true;
// String name = "spineboy-ess";
// String name = "goblins-pro";
// String name = "raptor-pro";
// String name = "tank-pro";
String name = "coin-pro";
String atlasName = name.Replace("-pro", "").Replace("-ess", "");
if (name == "goblins-pro")
{
atlasName = "goblins-mesh";
}
bool binaryData = false;
Atlas atlas = new Atlas(assetsFolder + atlasName + ".atlas", new XnaTextureLoader(GraphicsDevice));
float scale = 1;
if (name == "spineboy-ess")
{
scale = 0.6f;
}
if (name == "raptor-pro")
{
scale = 0.5f;
}
if (name == "tank-pro")
{
scale = 0.3f;
}
if (name == "coin-pro")
{
scale = 1;
}
SkeletonData skeletonData;
if (binaryData)
{
SkeletonBinary binary = new SkeletonBinary(atlas);
binary.Scale = scale;
skeletonData = binary.ReadSkeletonData(assetsFolder + name + ".skel");
}
else
{
SkeletonJson json = new SkeletonJson(atlas);
json.Scale = scale;
skeletonData = json.ReadSkeletonData(assetsFolder + name + ".json");
}
skeleton = new Skeleton(skeletonData);
if (name == "goblins-pro")
{
skeleton.SetSkin("goblin");
}
// Define mixing between animations.
AnimationStateData stateData = new AnimationStateData(skeleton.Data);
state = new AnimationState(stateData);
if (name == "spineboy-ess")
{
skeleton.SetAttachment("head-bb", "head");
stateData.SetMix("run", "jump", 0.2f);
stateData.SetMix("jump", "run", 0.4f);
// Event handling for all animations.
state.Start += Start;
state.End += End;
state.Complete += Complete;
state.Event += Event;
state.SetAnimation(0, "run", true);
TrackEntry entry = state.AddAnimation(0, "jump", false, 0);
entry.End += End; // Event handling for queued animations.
state.AddAnimation(0, "run", true, 0);
}
else if (name == "raptor-pro")
{
state.SetAnimation(0, "walk", true);
state.AddAnimation(1, "gun-grab", false, 2);
}
else if (name == "coin-pro")
{
state.SetAnimation(0, "animation", true);
}
else if (name == "tank-pro")
{
skeleton.X += 300;
state.SetAnimation(0, "drive", true);
}
else
{
state.SetAnimation(0, "walk", true);
}
skeleton.X += 400;
skeleton.Y += GraphicsDevice.Viewport.Height;
skeleton.UpdateWorldTransform();
headSlot = skeleton.FindSlot("head");
}
protected override void LoadContent()
{
// Two color tint effect, comment line 76 to disable
var spineEffect = Content.Load <Effect>("Content\\SpineEffect");
spineEffect.Parameters["World"].SetValue(Matrix.Identity);
spineEffect.Parameters["View"].SetValue(Matrix.CreateLookAt(new Vector3(0.0f, 0.0f, 1.0f), Vector3.Zero, Vector3.Up));
skeletonRenderer = new SkeletonRenderer(GraphicsDevice);
skeletonRenderer.PremultipliedAlpha = true;
skeletonRenderer.Effect = spineEffect;
// String name = "spineboy";
// String name = "goblins-mesh";
// String name = "raptor";
// String name = "tank";
// String name = "coin";
String name = "TwoColorTest";
bool binaryData = true;
Atlas atlas = new Atlas(assetsFolder + name + ".atlas", new XnaTextureLoader(GraphicsDevice));
float scale = 1;
if (name == "spineboy")
{
scale = 0.6f;
}
if (name == "raptor")
{
scale = 0.5f;
}
if (name == "tank")
{
scale = 0.3f;
}
if (name == "TwoColorTest")
{
scale = 0.5f;
}
SkeletonData skeletonData;
if (binaryData)
{
SkeletonBinary binary = new SkeletonBinary(atlas);
binary.Scale = scale;
skeletonData = binary.ReadSkeletonData(assetsFolder + name + ".skel");
}
else
{
SkeletonJson json = new SkeletonJson(atlas);
json.Scale = scale;
skeletonData = json.ReadSkeletonData(assetsFolder + name + ".json");
}
skeleton = new Skeleton(skeletonData);
if (name == "goblins-mesh")
{
skeleton.SetSkin("goblin");
}
// Define mixing between animations.
AnimationStateData stateData = new AnimationStateData(skeleton.Data);
state = new AnimationState(stateData);
if (name == "spineboy")
{
stateData.SetMix("run", "jump", 0.2f);
stateData.SetMix("jump", "run", 0.4f);
// Event handling for all animations.
state.Start += Start;
state.End += End;
state.Complete += Complete;
state.Event += Event;
state.SetAnimation(0, "test", false);
TrackEntry entry = state.AddAnimation(0, "jump", false, 0);
entry.End += End; // Event handling for queued animations.
state.AddAnimation(0, "run", true, 0);
}
else if (name == "raptor")
{
state.SetAnimation(0, "walk", true);
state.AddAnimation(1, "gungrab", false, 2);
}
else if (name == "coin")
{
state.SetAnimation(0, "rotate", true);
}
else if (name == "tank")
{
state.SetAnimation(0, "drive", true);
}
else if (name == "TwoColorTest")
{
state.SetAnimation(0, "animation", true);
}
else
{
state.SetAnimation(0, "walk", true);
}
skeleton.X = 400 + (name == "tank" ? 300: 0);
skeleton.Y = 580 + (name == "TwoColorTest" ? -300 : 0);
skeleton.UpdateWorldTransform();
headSlot = skeleton.FindSlot("head");
}
protected override void LoadContent()
{
skeletonRenderer = new SkeletonRenderer(GraphicsDevice);
String name = "spineboy"; // "goblins";
Atlas atlas = new Atlas("data/" + name + ".atlas", new XnaTextureLoader(GraphicsDevice));
SkeletonJson json = new SkeletonJson(atlas);
skeleton = new Skeleton(json.ReadSkeletonData("data/" + name + ".json"));
if (name == "goblins") skeleton.SetSkin("goblingirl");
skeleton.SetSlotsToSetupPose(); // Without this the skin attachments won't be attached. See SetSkin.
// Define mixing between animations.
AnimationStateData stateData = new AnimationStateData(skeleton.Data);
if (name == "spineboy") {
stateData.SetMix("walk", "jump", 0.2f);
stateData.SetMix("jump", "walk", 0.4f);
}
state = new AnimationState(stateData);
if (true) {
// Event handling for all animations.
state.Start += new EventHandler(Start);
state.End += new EventHandler(End);
state.Complete += new EventHandler<CompleteArgs>(Complete);
state.Event += new EventHandler<EventTriggeredArgs>(Event);
state.SetAnimation("drawOrder", true);
} else {
state.SetAnimation("walk", false);
QueueEntry entry = state.AddAnimation("jump", false);
entry.End += new EventHandler(End); // Event handling for queued animations.
state.AddAnimation("walk", true);
}
skeleton.X = 320;
skeleton.Y = 440;
skeleton.UpdateWorldTransform();
headSlot = skeleton.FindSlot("head");
}
public void SetSkeletonData(SkeletonData data)
{
this.skeletonData = data;
stateData = new AnimationStateData(skeletonData);
stateData.DefaultMix = defaultMix;
for (int i = 0, n = fromAnimation.Length; i < n; i++)
{
if (fromAnimation[i].Length == 0 || toAnimation[i].Length == 0) continue;
stateData.SetMix(fromAnimation[i], toAnimation[i], duration[i]);
}
}
protected override void LoadContent()
{
skeletonRenderer = new SkeletonRenderer(GraphicsDevice);
String name = "spineboy"; // "goblins";
Atlas atlas = new Atlas("data/" + name + ".atlas", new XnaTextureLoader(GraphicsDevice));
SkeletonJson json = new SkeletonJson(atlas);
skeleton = new Skeleton(json.ReadSkeletonData("data/" + name + ".json"));
if (name == "goblins") skeleton.SetSkin("goblingirl");
skeleton.SetSlotsToBindPose(); // Without this the skin attachments won't be attached. See SetSkin.
// Define mixing between animations.
AnimationStateData stateData = new AnimationStateData(skeleton.Data);
if (name == "spineboy") {
stateData.SetMix("walk", "jump", 0.2f);
stateData.SetMix("jump", "walk", 0.4f);
}
state = new AnimationState(stateData);
state.SetAnimation("walk", false);
state.AddAnimation("jump", false);
state.AddAnimation("walk", true);
skeleton.RootBone.X = 320;
skeleton.RootBone.Y = 440;
skeleton.UpdateWorldTransform();
}
protected override void LoadContent () {
skeletonRenderer = new SkeletonMeshRenderer(GraphicsDevice);
skeletonRenderer.PremultipliedAlpha = true;
// String name = "spineboy";
// String name = "goblins-mesh";
String name = "raptor";
bool binaryData = true;
Atlas atlas = new Atlas(assetsFolder + name + ".atlas", new XnaTextureLoader(GraphicsDevice));
float scale = 1;
if (name == "spineboy") scale = 0.6f;
if (name == "raptor") scale = 0.5f;
SkeletonData skeletonData;
if (binaryData) {
SkeletonBinary binary = new SkeletonBinary(atlas);
binary.Scale = scale;
skeletonData = binary.ReadSkeletonData(assetsFolder + name + ".skel");
} else {
SkeletonJson json = new SkeletonJson(atlas);
json.Scale = scale;
skeletonData = json.ReadSkeletonData(assetsFolder + name + ".json");
}
skeleton = new Skeleton(skeletonData);
if (name == "goblins-mesh") skeleton.SetSkin("goblin");
// Define mixing between animations.
AnimationStateData stateData = new AnimationStateData(skeleton.Data);
state = new AnimationState(stateData);
if (name == "spineboy") {
stateData.SetMix("run", "jump", 0.2f);
stateData.SetMix("jump", "run", 0.4f);
// Event handling for all animations.
state.Start += Start;
state.End += End;
state.Complete += Complete;
state.Event += Event;
state.SetAnimation(0, "test", false);
TrackEntry entry = state.AddAnimation(0, "jump", false, 0);
entry.End += End; // Event handling for queued animations.
state.AddAnimation(0, "run", true, 0);
} else if (name == "raptor") {
state.SetAnimation(0, "walk", true);
state.SetAnimation(1, "empty", false);
state.AddAnimation(1, "gungrab", false, 2);
} else {
state.SetAnimation(0, "walk", true);
}
skeleton.X = 400;
skeleton.Y = 590;
skeleton.UpdateWorldTransform();
headSlot = skeleton.FindSlot("head");
}
AnimationStateTests(string testJsonFilePath)
{
skeletonData = json.ReadSkeletonData(testJsonFilePath);
TrackEntry entry;
Setup("0.1 time step", // 1
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 0), //
Expect(0, "event 14", 0.5f, 0.5f), //
Expect(0, "event 30", 1, 1), //
Expect(0, "complete", 1, 1), //
Expect(0, "end", 1, 1.1f), //
Expect(0, "dispose", 1, 1.1f) //
);
state.SetAnimation(0, "events0", false).TrackEnd = 1;
Run(0.1f, 1000, null);
Setup("1/60 time step, dispose queued", // 2
Expect(0, "start", 0, 0), //
Expect(0, "interrupt", 0, 0), //
Expect(0, "end", 0, 0), //
Expect(0, "dispose", 0, 0), //
Expect(1, "dispose", 0, 0), //
Expect(0, "dispose", 0, 0), //
Expect(1, "dispose", 0, 0), //
Note("First 2 set/addAnimation calls are done."),
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 0), //
Expect(0, "event 14", 0.483f, 0.483f), //
Expect(0, "event 30", 1, 1), //
Expect(0, "complete", 1, 1), //
Expect(0, "end", 1, 1.017f), //
Expect(0, "dispose", 1, 1.017f) //
);
state.SetAnimation(0, "events0", false);
state.AddAnimation(0, "events1", false, 0);
state.AddAnimation(0, "events0", false, 0);
state.AddAnimation(0, "events1", false, 0);
state.SetAnimation(0, "events0", false).TrackEnd = 1;
Run(1 / 60f, 1000, null);
Setup("30 time step", // 3
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 0), //
Expect(0, "event 14", 30, 30), //
Expect(0, "event 30", 30, 30), //
Expect(0, "complete", 30, 30), //
Expect(0, "end", 30, 60), //
Expect(0, "dispose", 30, 60) //
);
state.SetAnimation(0, "events0", false).TrackEnd = 1;
Run(30, 1000, null);
Setup("1 time step", // 4
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 0), //
Expect(0, "event 14", 1, 1), //
Expect(0, "event 30", 1, 1), //
Expect(0, "complete", 1, 1), //
Expect(0, "end", 1, 2), //
Expect(0, "dispose", 1, 2) //
);
state.SetAnimation(0, "events0", false).TrackEnd = 1;
Run(1, 1.01f, null);
Setup("interrupt", // 5
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 0), //
Expect(0, "event 14", 0.5f, 0.5f), //
Expect(0, "event 30", 1, 1), //
Expect(0, "complete", 1, 1), //
Expect(0, "interrupt", 1.1f, 1.1f), //
Expect(1, "start", 0.1f, 1.1f), //
Expect(1, "event 0", 0.1f, 1.1f), //
Expect(0, "end", 1.1f, 1.2f), //
Expect(0, "dispose", 1.1f, 1.2f), //
Expect(1, "event 14", 0.5f, 1.5f), //
Expect(1, "event 30", 1, 2), //
Expect(1, "complete", 1, 2), //
Expect(1, "interrupt", 1.1f, 2.1f), //
Expect(0, "start", 0.1f, 2.1f), //
Expect(0, "event 0", 0.1f, 2.1f), //
Expect(1, "end", 1.1f, 2.2f), //
Expect(1, "dispose", 1.1f, 2.2f), //
Expect(0, "event 14", 0.5f, 2.5f), //
Expect(0, "event 30", 1, 3), //
Expect(0, "complete", 1, 3), //
Expect(0, "end", 1, 3.1f), //
Expect(0, "dispose", 1, 3.1f) //
);
state.SetAnimation(0, "events0", false);
state.AddAnimation(0, "events1", false, 0);
state.AddAnimation(0, "events0", false, 0).TrackEnd = 1;
Run(0.1f, 4f, null);
Setup("interrupt with delay", // 6
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 0), //
Expect(0, "event 14", 0.5f, 0.5f), //
Expect(0, "interrupt", 0.6f, 0.6f), //
Expect(1, "start", 0.1f, 0.6f), //
Expect(1, "event 0", 0.1f, 0.6f), //
Expect(0, "end", 0.6f, 0.7f), //
Expect(0, "dispose", 0.6f, 0.7f), //
Expect(1, "event 14", 0.5f, 1.0f), //
Expect(1, "event 30", 1, 1.5f), //
Expect(1, "complete", 1, 1.5f), //
Expect(1, "end", 1, 1.6f), //
Expect(1, "dispose", 1, 1.6f) //
);
state.SetAnimation(0, "events0", false);
state.AddAnimation(0, "events1", false, 0.5f).TrackEnd = 1;
Run(0.1f, 1000, null);
Setup("interrupt with delay and mix time", // 7
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 0), //
Expect(0, "event 14", 0.5f, 0.5f), //
Expect(0, "interrupt", 1, 1), //
Expect(1, "start", 0.1f, 1), //
Expect(0, "complete", 1, 1), //
Expect(1, "event 0", 0.1f, 1), //
Expect(1, "event 14", 0.5f, 1.4f), //
Expect(0, "end", 1.6f, 1.7f), //
Expect(0, "dispose", 1.6f, 1.7f), //
Expect(1, "event 30", 1, 1.9f), //
Expect(1, "complete", 1, 1.9f), //
Expect(1, "end", 1, 2), //
Expect(1, "dispose", 1, 2) //
);
stateData.SetMix("events0", "events1", 0.7f);
state.SetAnimation(0, "events0", true);
state.AddAnimation(0, "events1", false, 0.9f).TrackEnd = 1;
Run(0.1f, 1000, null);
Setup("animation 0 events do not fire during mix", // 8
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 0), //
Expect(0, "interrupt", 0.5f, 0.5f), //
Expect(1, "start", 0.1f, 0.5f), //
Expect(1, "event 0", 0.1f, 0.5f), //
Expect(1, "event 14", 0.5f, 0.9f), //
Expect(0, "complete", 1, 1), //
Expect(0, "end", 1.1f, 1.2f), //
Expect(0, "dispose", 1.1f, 1.2f), //
Expect(1, "event 30", 1, 1.4f), //
Expect(1, "complete", 1, 1.4f), //
Expect(1, "end", 1, 1.5f), //
Expect(1, "dispose", 1, 1.5f) //
);
stateData.DefaultMix = 0.7f;
state.SetAnimation(0, "events0", false);
state.AddAnimation(0, "events1", false, 0.4f).TrackEnd = 1;
Run(0.1f, 1000, null);
Setup("event threshold, some animation 0 events fire during mix", // 9
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 0), //
Expect(0, "interrupt", 0.5f, 0.5f), //
Expect(1, "start", 0.1f, 0.5f), //
Expect(0, "event 14", 0.5f, 0.5f), //
Expect(1, "event 0", 0.1f, 0.5f), //
Expect(1, "event 14", 0.5f, 0.9f), //
Expect(0, "complete", 1, 1), //
Expect(0, "end", 1.1f, 1.2f), //
Expect(0, "dispose", 1.1f, 1.2f), //
Expect(1, "event 30", 1, 1.4f), //
Expect(1, "complete", 1, 1.4f), //
Expect(1, "end", 1, 1.5f), //
Expect(1, "dispose", 1, 1.5f) //
);
stateData.SetMix("events0", "events1", 0.7f);
state.SetAnimation(0, "events0", false).EventThreshold = 0.5f;
state.AddAnimation(0, "events1", false, 0.4f).TrackEnd = 1;
Run(0.1f, 1000, null);
Setup("event threshold, all animation 0 events fire during mix", // 10
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 0), //
Expect(0, "event 14", 0.5f, 0.5f), //
Expect(0, "interrupt", 0.9f, 0.9f), //
Expect(1, "start", 0.1f, 0.9f), //
Expect(1, "event 0", 0.1f, 0.9f), //
Expect(0, "event 30", 1, 1), //
Expect(0, "complete", 1, 1), //
Expect(0, "event 0", 1, 1), //
Expect(1, "event 14", 0.5f, 1.3f), //
Expect(0, "end", 1.5f, 1.6f), //
Expect(0, "dispose", 1.5f, 1.6f), //
Expect(1, "event 30", 1, 1.8f), //
Expect(1, "complete", 1, 1.8f), //
Expect(1, "end", 1, 1.9f), //
Expect(1, "dispose", 1, 1.9f) //
);
state.SetAnimation(0, "events0", true).EventThreshold = 1;
entry = state.AddAnimation(0, "events1", false, 0.8f);
entry.MixDuration = 0.7f;
entry.TrackEnd = 1;
Run(0.1f, 1000, null);
Setup("looping", // 11
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 0), //
Expect(0, "event 14", 0.5f, 0.5f), //
Expect(0, "event 30", 1, 1), //
Expect(0, "complete", 1, 1), //
Expect(0, "event 0", 1, 1), //
Expect(0, "event 14", 1.5f, 1.5f), //
Expect(0, "event 30", 2, 2), //
Expect(0, "complete", 2, 2), //
Expect(0, "event 0", 2, 2), //
Expect(0, "event 14", 2.5f, 2.5f), //
Expect(0, "event 30", 3, 3), //
Expect(0, "complete", 3, 3), //
Expect(0, "event 0", 3, 3), //
Expect(0, "event 14", 3.5f, 3.5f), //
Expect(0, "event 30", 4, 4), //
Expect(0, "complete", 4, 4), //
Expect(0, "event 0", 4, 4), //
Expect(0, "end", 4.1f, 4.1f), //
Expect(0, "dispose", 4.1f, 4.1f) //
);
state.SetAnimation(0, "events0", true);
Run(0.1f, 4, null);
Setup("not looping, track end past animation 0 duration", // 12
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 0), //
Expect(0, "event 14", 0.5f, 0.5f), //
Expect(0, "event 30", 1, 1), //
Expect(0, "complete", 1, 1), //
Expect(0, "interrupt", 2.1f, 2.1f), //
Expect(1, "start", 0.1f, 2.1f), //
Expect(1, "event 0", 0.1f, 2.1f), //
Expect(0, "end", 2.1f, 2.2f), //
Expect(0, "dispose", 2.1f, 2.2f), //
Expect(1, "event 14", 0.5f, 2.5f), //
Expect(1, "event 30", 1, 3), //
Expect(1, "complete", 1, 3), //
Expect(1, "end", 1, 3.1f), //
Expect(1, "dispose", 1, 3.1f) //
);
state.SetAnimation(0, "events0", false);
state.AddAnimation(0, "events1", false, 2).TrackEnd = 1;
Run(0.1f, 4f, null);
Setup("interrupt animation after first loop complete", // 13
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 0), //
Expect(0, "event 14", 0.5f, 0.5f), //
Expect(0, "event 30", 1, 1), //
Expect(0, "complete", 1, 1), //
Expect(0, "event 0", 1, 1), //
Expect(0, "event 14", 1.5f, 1.5f), //
Expect(0, "event 30", 2, 2), //
Expect(0, "complete", 2, 2), //
Expect(0, "event 0", 2, 2), //
Expect(0, "interrupt", 2.1f, 2.1f), //
Expect(1, "start", 0.1f, 2.1f), //
Expect(1, "event 0", 0.1f, 2.1f), //
Expect(0, "end", 2.1f, 2.2f), //
Expect(0, "dispose", 2.1f, 2.2f), //
Expect(1, "event 14", 0.5f, 2.5f), //
Expect(1, "event 30", 1, 3), //
Expect(1, "complete", 1, 3), //
Expect(1, "end", 1, 3.1f), //
Expect(1, "dispose", 1, 3.1f) //
);
state.SetAnimation(0, "events0", true);
Run(0.1f, 6, new TestListener(
(time) => {
if (IsEqual(time, 1.4f))
{
state.AddAnimation(0, "events1", false, 0).TrackEnd = 1;
}
}));
Setup("add animation on empty track", // 14
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 0), //
Expect(0, "event 14", 0.5f, 0.5f), //
Expect(0, "event 30", 1, 1), //
Expect(0, "complete", 1, 1), //
Expect(0, "end", 1, 1.1f), //
Expect(0, "dispose", 1, 1.1f) //
);
state.AddAnimation(0, "events0", false, 0).TrackEnd = 1;
Run(0.1f, 1.9f, null);
Setup("end time beyond non-looping animation duration", // 15
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 0), //
Expect(0, "event 14", 0.5f, 0.5f), //
Expect(0, "event 30", 1, 1), //
Expect(0, "complete", 1, 1), //
Expect(0, "end", 9f, 9.1f), //
Expect(0, "dispose", 9f, 9.1f) //
);
state.SetAnimation(0, "events0", false).TrackEnd = 9;
Run(0.1f, 10, null);
Setup("looping with animation start", // 16
Expect(0, "start", 0, 0), //
Expect(0, "event 30", 0.4f, 0.4f), //
Expect(0, "complete", 0.4f, 0.4f), //
Expect(0, "event 30", 0.8f, 0.8f), //
Expect(0, "complete", 0.8f, 0.8f), //
Expect(0, "event 30", 1.2f, 1.2f), //
Expect(0, "complete", 1.2f, 1.2f), //
Expect(0, "end", 1.4f, 1.4f), //
Expect(0, "dispose", 1.4f, 1.4f) //
);
entry = state.SetAnimation(0, "events0", true);
entry.AnimationLast = 0.6f;
entry.AnimationStart = 0.6f;
Run(0.1f, 1.4f, null);
Setup("looping with animation start and end", // 17
Expect(0, "start", 0, 0), //
Expect(0, "event 14", 0.3f, 0.3f), //
Expect(0, "complete", 0.6f, 0.6f), //
Expect(0, "event 14", 0.9f, 0.9f), //
Expect(0, "complete", 1.2f, 1.2f), //
Expect(0, "event 14", 1.5f, 1.5f), //
Expect(0, "end", 1.8f, 1.8f), //
Expect(0, "dispose", 1.8f, 1.8f) //
);
entry = state.SetAnimation(0, "events0", true);
entry.AnimationStart = 0.2f;
entry.AnimationLast = 0.2f;
entry.AnimationEnd = 0.8f;
Run(0.1f, 1.8f, null);
Setup("non-looping with animation start and end", // 18
Expect(0, "start", 0, 0), //
Expect(0, "event 14", 0.3f, 0.3f), //
Expect(0, "complete", 0.6f, 0.6f), //
Expect(0, "end", 1, 1.1f), //
Expect(0, "dispose", 1, 1.1f) //
);
entry = state.SetAnimation(0, "events0", false);
entry.AnimationStart = 0.2f;
entry.AnimationLast = 0.2f;
entry.AnimationEnd = 0.8f;
entry.TrackEnd = 1;
Run(0.1f, 1.8f, null);
Setup("mix out looping with animation start and end", // 19
Expect(0, "start", 0, 0), //
Expect(0, "event 14", 0.3f, 0.3f), //
Expect(0, "complete", 0.6f, 0.6f), //
Expect(0, "interrupt", 0.8f, 0.8f), //
Expect(1, "start", 0.1f, 0.8f), //
Expect(1, "event 0", 0.1f, 0.8f), //
Expect(0, "event 14", 0.9f, 0.9f), //
Expect(0, "complete", 1.2f, 1.2f), //
Expect(1, "event 14", 0.5f, 1.2f), //
Expect(0, "end", 1.4f, 1.5f), //
Expect(0, "dispose", 1.4f, 1.5f), //
Expect(1, "event 30", 1, 1.7f), //
Expect(1, "complete", 1, 1.7f), //
Expect(1, "end", 1, 1.8f), //
Expect(1, "dispose", 1, 1.8f) //
);
entry = state.SetAnimation(0, "events0", true);
entry.AnimationStart = (0.2f);
entry.AnimationLast = (0.2f);
entry.AnimationEnd = (0.8f);
entry.EventThreshold = 1;
entry = state.AddAnimation(0, "events1", false, 0.7f);
entry.MixDuration = (0.7f);
entry.TrackEnd = 1;
Run(0.1f, 20, null);
Setup("setAnimation with track entry mix", // 20
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 0), //
Expect(0, "event 14", 0.5f, 0.5f), //
Expect(0, "event 30", 1, 1), //
Expect(0, "complete", 1, 1), //
Expect(0, "event 0", 1, 1), //
Expect(0, "interrupt", 1, 1), //
Expect(1, "start", 0, 1), //
Expect(1, "event 0", 0.1f, 1.1f), //
Expect(1, "event 14", 0.5f, 1.5f), //
Expect(0, "end", 1.7f, 1.8f), //
Expect(0, "dispose", 1.7f, 1.8f), //
Expect(1, "event 30", 1, 2), //
Expect(1, "complete", 1, 2), //
Expect(1, "end", 1, 2.1f), //
Expect(1, "dispose", 1, 2.1f) //
);
state.SetAnimation(0, "events0", true);
Run(0.1f, 1000, new TestListener(
(time) => {
if (IsEqual(time, 1f))
{
TrackEntry ent = state.SetAnimation(0, "events1", false);
ent.MixDuration = (0.7f);
ent.TrackEnd = 1;
}
}));
Setup("setAnimation twice", // 21
Expect(0, "start", 0, 0), //
Expect(0, "interrupt", 0, 0), //
Expect(0, "end", 0, 0), //
Expect(0, "dispose", 0, 0), //
Expect(1, "start", 0, 0), //
Expect(1, "event 0", 0, 0), //
Expect(1, "event 14", 0.5f, 0.5f), //
Note("First 2 setAnimation calls are done."),
Expect(1, "interrupt", 0.8f, 0.8f), //
Expect(0, "start", 0, 0.8f), //
Expect(0, "interrupt", 0, 0.8f), //
Expect(0, "end", 0, 0.8f), //
Expect(0, "dispose", 0, 0.8f), //
Expect(2, "start", 0, 0.8f), //
Expect(2, "event 0", 0.1f, 0.9f), //
Expect(1, "end", 0.9f, 1), //
Expect(1, "dispose", 0.9f, 1), //
Expect(2, "event 14", 0.5f, 1.3f), //
Expect(2, "event 30", 1, 1.8f), //
Expect(2, "complete", 1, 1.8f), //
Expect(2, "end", 1, 1.9f), //
Expect(2, "dispose", 1, 1.9f) //
);
state.SetAnimation(0, "events0", false); // First should be ignored.
state.SetAnimation(0, "events1", false);
Run(0.1f, 1000, new TestListener(
(time) => {
if (IsEqual(time, 0.8f))
{
state.SetAnimation(0, "events0", false); // First should be ignored.
state.SetAnimation(0, "events2", false).TrackEnd = 1;
}
}));
Setup("setAnimation twice with multiple mixing", // 22
Expect(0, "start", 0, 0), //
Expect(0, "interrupt", 0, 0), //
Expect(0, "end", 0, 0), //
Expect(0, "dispose", 0, 0), //
Expect(1, "start", 0, 0), //
Expect(1, "event 0", 0, 0), //
Note("First 2 setAnimation calls are done."),
Expect(1, "interrupt", 0.2f, 0.2f), //
Expect(0, "start", 0, 0.2f), //
Expect(0, "interrupt", 0, 0.2f), //
Expect(0, "end", 0, 0.2f), //
Expect(0, "dispose", 0, 0.2f), //
Expect(2, "start", 0, 0.2f), //
Expect(2, "event 0", 0.1f, 0.3f), //
Note("Second 2 setAnimation calls are done."),
Expect(2, "interrupt", 0.2f, 0.4f), //
Expect(1, "start", 0, 0.4f), //
Expect(1, "interrupt", 0, 0.4f), //
Expect(1, "end", 0, 0.4f), //
Expect(1, "dispose", 0, 0.4f), //
Expect(0, "start", 0, 0.4f), //
Expect(0, "event 0", 0.1f, 0.5f), //
Expect(1, "end", 0.8f, 0.9f), //
Expect(1, "dispose", 0.8f, 0.9f), //
Expect(0, "event 14", 0.5f, 0.9f), //
Expect(2, "end", 0.8f, 1.1f), //
Expect(2, "dispose", 0.8f, 1.1f), //
Expect(0, "event 30", 1, 1.4f), //
Expect(0, "complete", 1, 1.4f), //
Expect(0, "end", 1, 1.5f), //
Expect(0, "dispose", 1, 1.5f) //
);
stateData.DefaultMix = 0.6f;
state.SetAnimation(0, "events0", false); // First should be ignored.
state.SetAnimation(0, "events1", false);
Run(0.1f, 1000, new TestListener(
(time) => {
if (IsEqual(time, 0.2f))
{
state.SetAnimation(0, "events0", false); // First should be ignored.
state.SetAnimation(0, "events2", false);
}
if (IsEqual(time, 0.4f))
{
state.SetAnimation(0, "events1", false); // First should be ignored.
state.SetAnimation(0, "events0", false).TrackEnd = 1;
}
}));
Setup("addAnimation with delay on empty track", // 23
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 5), //
Expect(0, "event 14", 0.5f, 5.5f), //
Expect(0, "event 30", 1, 6), //
Expect(0, "complete", 1, 6), //
Expect(0, "end", 1, 6.1f), //
Expect(0, "dispose", 1, 6.1f) //
);
state.AddAnimation(0, "events0", false, 5).TrackEnd = 1;
Run(0.1f, 10, null);
Setup("setAnimation during AnimationStateListener"); // 24
state.Start += (trackEntry) => {
if (trackEntry.Animation.Name.Equals("events0"))
{
state.SetAnimation(1, "events1", false);
}
};
state.Interrupt += (trackEntry) => {
state.AddAnimation(3, "events1", false, 0);
};
state.End += (trackEntry) => {
if (trackEntry.Animation.Name.Equals("events0"))
{
state.SetAnimation(0, "events1", false);
}
};
state.Dispose += (trackEntry) => {
if (trackEntry.Animation.Name.Equals("events0"))
{
state.SetAnimation(1, "events1", false);
}
};
state.Complete += (trackEntry) => {
if (trackEntry.Animation.Name.Equals("events0"))
{
state.SetAnimation(1, "events1", false);
}
};
state.Event += (trackEntry, ev) => {
if (trackEntry.TrackIndex != 2)
{
state.SetAnimation(2, "events1", false);
}
};
state.AddAnimation(0, "events0", false, 0);
state.AddAnimation(0, "events1", false, 0);
state.SetAnimation(1, "events1", false).TrackEnd = 1;
Run(0.1f, 10, null);
Setup("clearTrack", // 25
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 0), //
Expect(0, "event 14", 0.5f, 0.5f), //
Expect(0, "end", 0.7f, 0.7f), //
Expect(0, "dispose", 0.7f, 0.7f) //
);
state.AddAnimation(0, "events0", false, 0).TrackEnd = 1;
Run(0.1f, 10, new TestListener(
(time) => {
if (IsEqual(time, 0.7f))
{
state.ClearTrack(0);
}
}));
Setup("setEmptyAnimation", // 26
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 0), //
Expect(0, "event 14", 0.5f, 0.5f), //
Expect(0, "interrupt", 0.7f, 0.7f), //
Expect(-1, "start", 0, 0.7f), //
Expect(-1, "complete", 0.1f, 0.8f), //
Expect(0, "end", 0.8f, 0.9f), //
Expect(0, "dispose", 0.8f, 0.9f), //
Expect(-1, "end", 0.2f, 1), //
Expect(-1, "dispose", 0.2f, 1) //
);
state.AddAnimation(0, "events0", false, 0).TrackEnd = 1;
Run(0.1f, 10, new TestListener(
(time) => {
if (IsEqual(time, 0.7f))
{
state.SetEmptyAnimation(0, 0);
}
}));
Setup("TrackEntry listener"); // 27
int counter = 0;
entry = state.AddAnimation(0, "events0", false, 0);
entry.Start += (trackEntry) => {
Interlocked.Add(ref counter, 1 << 1);
};
entry.Interrupt += (trackEntry) => {
Interlocked.Add(ref counter, 1 << 5);
};
entry.End += (trackEntry) => {
Interlocked.Add(ref counter, 1 << 9);
};
entry.Dispose += (trackEntry) => {
Interlocked.Add(ref counter, 1 << 13);
};
entry.Complete += (trackEntry) => {
Interlocked.Add(ref counter, 1 << 17);
};
entry.Event += (trackEntry, ev) => {
Interlocked.Add(ref counter, 1 << 21);
};
state.AddAnimation(0, "events0", false, 0);
state.AddAnimation(0, "events1", false, 0);
state.SetAnimation(1, "events1", false).TrackEnd = 1;
Run(0.1f, 10, null);
if (counter != 15082016)
{
string message = "TEST 27 FAILED! " + counter;
Log(message);
FailTestRun(message);
}
#if RUN_ADDITIONAL_FORUM_RELATED_TEST
Setup("0.1 time step, start and add", // 2
Expect(0, "start", 0, 0), //
Expect(0, "event 0", 0, 0), //
Expect(0, "event 14", 0.5f, 0.5f), //
Expect(0, "event 30", 1, 1), //
Expect(0, "complete", 1, 1), //
Expect(0, "interrupt", 1.1f, 1.1f), //
Expect(1, "start", 0.1f, 1.1f), //
Expect(1, "event 0", 0.1f, 1.1f), //
Expect(0, "end", 1.3f, 1.4f), //
Expect(0, "dispose", 1.3f, 1.4f), //
Expect(1, "event 14", 0.5f, 1.5f), //
Expect(1, "event 30", 1, 2), //
Expect(1, "complete", 1, 2), //
Expect(1, "end", 1, 2.1f), //
Expect(1, "dispose", 1, 2.1f) //
);
state.SetAnimation(0, "events0", false);
var entry1 = state.AddAnimation(0, "events1", false, 0);
entry1.MixDuration = 0.25f;
entry1.TrackEnd = 1.0f;
Run(0.1f, 1000, null);
#endif // RUN_ADDITIONAL_FORUM_RELATED_TEST
Log("AnimationState tests passed.");
}
protected override void LoadContent()
{
bool useNormalmapShader = false;
Effect spineEffect;
if (!useNormalmapShader)
{
// Two color tint effect. Note that you can also use the default BasicEffect instead.
spineEffect = Content.Load <Effect>("spine-xna-example-content\\SpineEffect");
}
else
{
spineEffect = Content.Load <Effect>("spine-xna-example-content\\SpineEffectNormalmap");
spineEffect.Parameters["Light0_Direction"].SetValue(new Vector3(-0.5265408f, 0.5735765f, -0.6275069f));
spineEffect.Parameters["Light0_Diffuse"].SetValue(new Vector3(1, 0.9607844f, 0.8078432f));
spineEffect.Parameters["Light0_Specular"].SetValue(new Vector3(1, 0.9607844f, 0.8078432f));
spineEffect.Parameters["Light0_SpecularExponent"].SetValue(2.0f);
}
spineEffect.Parameters["World"].SetValue(Matrix.Identity);
spineEffect.Parameters["View"].SetValue(Matrix.CreateLookAt(new Vector3(0.0f, 0.0f, 1.0f), Vector3.Zero, Vector3.Up));
skeletonRenderer = new SkeletonRenderer(GraphicsDevice);
skeletonRenderer.PremultipliedAlpha = false;
skeletonRenderer.Effect = spineEffect;
skeletonDebugRenderer = new SkeletonDebugRenderer(GraphicsDevice);
skeletonDebugRenderer.DisableAll();
skeletonDebugRenderer.DrawClipping = true;
// String name = "spineboy-pro";
String name = "raptor-pro";
// String name = "tank-pro";
//String name = "coin-pro";
if (useNormalmapShader)
{
name = "raptor-pro"; // we only have normalmaps for raptor
}
String atlasName = name.Replace("-pro", "").Replace("-ess", "");
bool binaryData = false;
Atlas atlas;
if (!useNormalmapShader)
{
atlas = new Atlas(assetsFolder + atlasName + ".atlas", new XnaTextureLoader(GraphicsDevice));
}
else
{
atlas = new Atlas(assetsFolder + atlasName + ".atlas", new XnaTextureLoader(GraphicsDevice,
loadMultipleTextureLayers: true, textureSuffixes: new string[] { "", "_normals" }));
}
float scale = 1;
if (name == "spineboy-pro")
{
scale = 0.6f;
}
if (name == "raptor-pro")
{
scale = 0.5f;
}
if (name == "tank-pro")
{
scale = 0.3f;
}
if (name == "coin-pro")
{
scale = 1;
}
SkeletonData skeletonData;
if (binaryData)
{
SkeletonBinary binary = new SkeletonBinary(atlas);
binary.Scale = scale;
skeletonData = binary.ReadSkeletonData(assetsFolder + name + ".skel");
}
else
{
SkeletonJson json = new SkeletonJson(atlas);
json.Scale = scale;
skeletonData = json.ReadSkeletonData(assetsFolder + name + ".json");
}
skeleton = new Skeleton(skeletonData);
if (name == "goblins-pro")
{
skeleton.SetSkin("goblin");
}
// Define mixing between animations.
AnimationStateData stateData = new AnimationStateData(skeleton.Data);
state = new AnimationState(stateData);
if (name == "spineboy-pro")
{
skeleton.SetAttachment("head-bb", "head");
stateData.SetMix("run", "jump", 0.2f);
stateData.SetMix("jump", "run", 0.4f);
// Event handling for all animations.
state.Start += Start;
state.End += End;
state.Complete += Complete;
state.Event += Event;
state.SetAnimation(0, "run", true);
TrackEntry entry = state.AddAnimation(0, "jump", false, 0);
entry.End += End; // Event handling for queued animations.
state.AddAnimation(0, "run", true, 0);
}
else if (name == "raptor-pro")
{
state.SetAnimation(0, "walk", true);
state.AddAnimation(1, "gun-grab", false, 2);
}
else if (name == "coin-pro")
{
state.SetAnimation(0, "animation", true);
}
else if (name == "tank-pro")
{
skeleton.X += 300;
state.SetAnimation(0, "drive", true);
}
else
{
state.SetAnimation(0, "walk", true);
}
skeleton.X += 400;
skeleton.Y += GraphicsDevice.Viewport.Height;
skeleton.UpdateWorldTransform();
headSlot = skeleton.FindSlot("head");
}
public SkeletonData GetSkeletonData(bool quiet)
{
if (atlasAsset == null) {
if (!quiet)
Debug.LogError("Atlas not set for SkeletonData asset: " + name, this);
Clear();
return null;
}
if (skeletonJSON == null) {
if (!quiet)
Debug.LogError("Skeleton JSON file not set for SkeletonData asset: " + name, this);
Clear();
return null;
}
Atlas atlas = atlasAsset.GetAtlas();
if (atlas == null) {
Clear();
return null;
}
if (skeletonData != null)
return skeletonData;
SkeletonJson json = new SkeletonJson(atlas);
json.Scale = scale;
try {
skeletonData = json.ReadSkeletonData(new StringReader(skeletonJSON.text));
} catch (Exception ex) {
if (!quiet)
Debug.LogError("Error reading skeleton JSON file for SkeletonData asset: " + name + "\n" + ex.Message + "\n" + ex.StackTrace, this);
return null;
}
stateData = new AnimationStateData(skeletonData);
for (int i = 0, n = fromAnimation.Length; i < n; i++) {
if (fromAnimation[i].Length == 0 || toAnimation[i].Length == 0) continue;
stateData.SetMix(fromAnimation[i], toAnimation[i], duration[i]);
}
return skeletonData;
}