public onComplete ( Action |
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onComplete | Action |
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return | GoTweenConfig, |
private IEnumerator Spawn(bool initial) { if (!initial) { inputEnabled = false; HideShip(); Vector3 messagePoint = StartPosition() + new Vector3(-0.25f, 0.25f, 0.0f); MessageManager.ShowMessage("3", messagePoint); yield return(new WaitForSeconds(1.2f)); MessageManager.ShowMessage("2", messagePoint); yield return(new WaitForSeconds(1.2f)); MessageManager.ShowMessage("1", messagePoint); yield return(new WaitForSeconds(1.2f)); } inputEnabled = true; ResetShip(); var tween = new GoTweenConfig(); tween.easeType = GoEaseType.BounceOut; tween.onComplete(SpawnComplete); Go.to(transform, 1.0f, tween.scale(1.0f)); StartCoroutine(ApplyInvincibility()); }
public static GoTween MakeTween( Transform TheTransform, Vector3 Position, Quaternion Rotation, float MoveTime = 0.5f, bool IsLocal = false, GoEaseType Ease = GoEaseType.Linear, VoidDelegate OnCompleteFunction = null ) { GoTweenConfig Config = new GoTweenConfig(); Config.addTweenProperty(new PositionTweenProperty(Position, false, IsLocal)); //Config.addTweenProperty(new EulerAnglesTweenProperty(Rotation, false, IsLocal)); Config.addTweenProperty(new RotationQuaternionTweenProperty(Rotation, false, IsLocal)); Config.setEaseType(Ease); if(OnCompleteFunction != null){ Config.onComplete(c => { OnCompleteFunction(); }); } GoTween NewTween = new GoTween(TheTransform, MoveTime, Config); Go.addTween(NewTween); return NewTween; }
public void DestroyPlayerShip() { expls = Instantiate(Explosion,this.gameObject.transform.position, Quaternion.Euler(new Vector3(0,0,0))) as GameObject; this.gameObject.SetActive (false); GoTweenConfig config = new GoTweenConfig (); config.onComplete (delegate { Destroy (this.gameObject); GlobalManager.isPassed = false; GlobalManager.GotoStatisticPanel (); PlayerPrefs.SetInt("Score",GlobalManager.score); PlayerPrefs.SetInt("Level",GlobalManager.level); }); Go.to (this.gameObject.transform, 2, config); }
static public int onComplete(IntPtr l) { try { GoTweenConfig self = (GoTweenConfig)checkSelf(l); System.Action <AbstractGoTween> a1; LuaDelegation.checkDelegate(l, 2, out a1); var ret = self.onComplete(a1); pushValue(l, ret); return(1); } catch (Exception e) { return(error(l, e)); } }
public void DestroyPlayerShip() { expls = Instantiate(Explosion, this.gameObject.transform.position, Quaternion.Euler(new Vector3(0, 0, 0))) as GameObject; this.gameObject.SetActive(false); GoTweenConfig config = new GoTweenConfig(); config.onComplete(delegate { Destroy(this.gameObject); GlobalManager.isPassed = false; GlobalManager.GotoStatisticPanel(); PlayerPrefs.SetInt("Score", GlobalManager.score); PlayerPrefs.SetInt("Level", GlobalManager.level); }); Go.to(this.gameObject.transform, 2, config); }
void playSounds(List <KeyValuePair <string, int> > sortedSounds, List <AudioClip> clips) { AudioSource[] src = this.gameObject.GetComponents <AudioSource> (); audioGtc = new GoTweenChain(); audioGtc.autoRemoveOnComplete = true; float accTime = 0; _curClipIndex = 0; for (int i = 0; i < sortedSounds.Count; ++i) { var sd = sortedSounds [i]; float delay = sd.Value / 24.0f - accTime; if (delay > 0) { audioGtc.appendDelay(delay); } var cbcon = new GoTweenConfig(); audioGtc.append(new GoTween( gameObject.transform, 0.01f, cbcon.onComplete(delegate(AbstractGoTween obj) { int ri = _curClipIndex % maxChannels; src [ri].clip = clips [_curClipIndex]; src [ri].loop = false; src [ri].spatialBlend = 0; src [ri].Play(); ++_curClipIndex; }) )); accTime += delay; } // for some reason the last play callback // is not invoked, so I add one more tween // to ensure the last sound is played. audioGtc.appendDelay(0.5f); GoTweenConfig gtcfg = new GoTweenConfig(); audioGtc.append(new GoTween( gameObject.transform, 0.01f, gtcfg.onComplete(delegate(AbstractGoTween obj) { }) )); audioGtc.play(); }
// Use this for initialization void Start() { ProgressBar.transform.localPosition = new Vector3 (-500,0,0); GoTweenConfig config = new GoTweenConfig (); config.localPosition(new Vector3 (0, 0, 0)); config.delay = 1f; config.setIterations (1); config.onUpdate (delegate(AbstractGoTween obj) { onProgress(); }); config.onComplete (delegate { GlobalManager.GotoGamePanel(); }); Go.to (ProgressBar.transform, 4, config); }
public void MoveWindow(int easeType) { switch (easeType) { case 0: Go.defaultEaseType = GoEaseType.Linear; break; case 1: Go.defaultEaseType = GoEaseType.BackOut; break; case 2: Go.defaultEaseType = GoEaseType.BounceOut; break; case 3: Go.defaultEaseType = GoEaseType.CircInOut; break; case 4: Go.defaultEaseType = GoEaseType.SineOut; break; default: Go.defaultEaseType = GoEaseType.Linear; break; } float move = 0; if (goScreen) { move = -length; } else { move = length; } var moveUpConfig = new GoTweenConfig().position(new Vector3(move, 0), true); moveUpConfig.onComplete(orginalTween => Done()); var tweenOne = new GoTween(this.transform, duration, moveUpConfig); var chain = new GoTweenChain(); chain.append(tweenOne); chain.play(); }
void Unbop() { if (canControl) return; StartCoroutine(InvincibilityTimeout()); canControl = true; // Tween cleanup, remove stun halo Go.killAllTweensWithTarget(stunHalo); haloUndoConfig.clearEvents(); haloUndoConfig.onComplete(c => { stunHalo.gameObject.SetActive(false); }); Go.to(stunHalo, 0.5f, haloUndoConfig); if (tired) { face.SetFace(Face.FaceType.Tired); } else { // return to default face if we're not in 'surprised' mode if (face.ActiveFace != Face.FaceType.Surprised) { var reaction = Random.Range(0f, 1f) < 0.5f ? Face.FaceType.Default : Face.FaceType.Frowning; face.SetFace(reaction); } } isInked = false; head.DisableInkSplat(); bopTweenConfig.clearEvents(); bopTweenConfig.clearProperties(); bopTweenConfig.setEaseType(GoEaseType.ElasticOut); if (elasticRoutine != null) StopCoroutine(elasticRoutine); elasticRoutine = StartCoroutine(ElasticStandUp()); // Jump up from bopped position if (surface == Surface.Ground) { cachedVelocity = rbody.velocity; cachedVelocity.y = jumpSpeed / 1.5f; rbody.velocity = cachedVelocity; } }
// Use this for initialization void Start() { ProgressBar.transform.localPosition = new Vector3(-500, 0, 0); GoTweenConfig config = new GoTweenConfig(); config.localPosition(new Vector3(0, 0, 0)); config.delay = 1f; config.setIterations(1); config.onUpdate(delegate(AbstractGoTween obj) { onProgress(); }); config.onComplete(delegate { GlobalManager.GotoGamePanel(); }); Go.to(ProgressBar.transform, 4, config); }
private void Move(Transform target, Vector3 to, Vector3 back, float duration) { animationReady = false; Go.defaultEaseType = GoEaseType.Linear; var moveUpConfig = new GoTweenConfig().position( to, true ); var moveBackConfig = new GoTweenConfig().position( -back, true ); moveBackConfig.onComplete(orginalTween => Done()); var tweenOne = new GoTween( target, duration, moveUpConfig); var tweenTwo = new GoTween( target, duration, moveBackConfig); var chain = new GoTweenChain(); chain.append(tweenOne).append(tweenTwo); chain.play(); }
public void ScaleWindow() { if (goScreen) { Go.defaultEaseType = GoEaseType.BounceOut; scale = Vector3.one; } else { Go.defaultEaseType = GoEaseType.BounceIn; scale = Vector3.zero; } var scaleConfig = new GoTweenConfig().scale(scale, false); scaleConfig.onComplete(orginalTween => ScaleDone()); var tweenOne = new GoTween(this.transform, duration, scaleConfig); var chain = new GoTweenChain(); chain.append(tweenOne); chain.play(); }
void applyJumpSkillMove(List <Dictionary <string, string> > boxDataDict) { var rigidBody = gameObject.GetComponent <Rigidbody>(); //rigidBody.velocity = testVelocity; gtc = new GoTweenChain(); gtc.autoRemoveOnComplete = true; List <Dictionary <string, float> > atkOffsets = new List <Dictionary <string, float> >(); int bi = 0; foreach (var boxData in boxDataDict) { if (boxData["self_aff"] != "跳跃") { break; } char[] delimiterChars = { ',' }; string[] sdata = boxData["self_param"].Split(delimiterChars); if (sdata.Length < 3) { break; } List <float> fdata = new List <float>(); foreach (string s in sdata) { fdata.Add(Convert.ToSingle(s)); } float startTime = fdata[0]; float angle = fdata[1]; float speed = fdata[2]; float vx = speed * Mathf.Cos(Mathf.Deg2Rad * angle); float vy = speed * Mathf.Sin(Mathf.Deg2Rad * angle); Dictionary <string, float> offsetData = new Dictionary <string, float>(); offsetData["startTime"] = startTime; offsetData["velocityX"] = vx; offsetData["velocityY"] = vy; atkOffsets.Add(offsetData); var curData = atkOffsets[bi]; if (bi >= 1) { var preData = atkOffsets[bi - 1]; curData["delay"] = startTime - preData["startTime"]; } else { if (startTime > 0) { curData["delay"] = startTime; } } ++bi; } foreach (var v in atkOffsets) { if (v.ContainsKey("delay")) { var gtconfig = new GoTweenConfig(); gtc.append(new GoTween( gameObject.transform, v["delay"], gtconfig.onComplete(delegate(AbstractGoTween obj) { rigidBody.velocity = new Vector3(v["velocityX"], v["velocityY"], 0.0f); }) )); } } var cbcon = new GoTweenConfig(); gtc.append(new GoTween( gameObject.transform, 0.01f, cbcon.onComplete(delegate(AbstractGoTween obj) { //DestroyEfx (); }) )); gtc.appendDelay(2.0f); var con = new GoTweenConfig(); gtc.append(new GoTween( gameObject.transform, 0.01f, con.position(Vector3.zero, false).setEaseType(GoEaseType.Linear).setUpdateType(GoUpdateType.FixedUpdate) )); gtc.play(); }
private void resetConfig(float scale) { config = new GoTweenConfig (); config.onComplete (originalTween => animate = false); config.scale (scale); }
void applyNonJumpSkillMove(List <Dictionary <string, string> > boxDataDict) { gtc = new GoTweenChain(); gtc.autoRemoveOnComplete = true; List <Dictionary <string, float> > atkOffsets = new List <Dictionary <string, float> >(); int bi = 0; foreach (var boxData in boxDataDict) { if (boxData["self_aff"] != "位移") { break; } char[] delimiterChars = { ',' }; string[] sdata = boxData["self_param"].Split(delimiterChars); if (sdata.Length < 3) { break; } List <float> fdata = new List <float>(); foreach (string s in sdata) { fdata.Add(Convert.ToSingle(s)); } float startTime = fdata[0] / 24; float speed = fdata[1]; float dist = fdata[2]; float duration = Mathf.Abs(dist / speed); speed = dist / duration; Dictionary <string, float> offsetData = new Dictionary <string, float>(); offsetData["startTime"] = startTime; offsetData["endTime"] = startTime + duration; offsetData["curTime"] = 0; offsetData["totalTime"] = duration; offsetData["speed"] = speed; atkOffsets.Add(offsetData); if (bi >= 1) { var preData = atkOffsets[bi - 1]; if (preData["endTime"] > startTime) { preData["endTime"] = startTime; preData["totalTime"] = startTime - preData["startTime"]; } else { preData["delay"] = startTime - preData["endTime"]; } } else { var curData = atkOffsets[bi]; if (startTime > 0) { curData["delay"] = startTime; } } ++bi; } foreach (var v in atkOffsets) { if (v.ContainsKey("delay")) { gtc.appendDelay(v["delay"]); } var gtconfig = new GoTweenConfig(); if (v["totalTime"] > 0) { var dirInc = new Vector3(v["speed"] * v["totalTime"], 0, 0); gtc.append(new GoTween( gameObject.transform, v["totalTime"], gtconfig.position(dirInc, true).setEaseType(GoEaseType.Linear).setUpdateType(GoUpdateType.FixedUpdate) )); } } var cbcon = new GoTweenConfig(); gtc.append(new GoTween( gameObject.transform, 0.01f, cbcon.onComplete(delegate(AbstractGoTween obj) { //DestroyEfx (); }) )); gtc.appendDelay(2.0f); var con = new GoTweenConfig(); gtc.append(new GoTween( gameObject.transform, 0.01f, con.position(Vector3.zero, false).setEaseType(GoEaseType.Linear).setUpdateType(GoUpdateType.FixedUpdate) )); gtc.play(); }
public static GoTween MakeTweenScale( Transform TheTransform, Vector3 Scale, float MoveTime, bool IsLocal = false, GoEaseType Ease = GoEaseType.Linear, VoidDelegate OnCompleteFunction = null ) { GoTweenConfig Config = new GoTweenConfig(); Config.addTweenProperty(new ScaleTweenProperty(Scale, false)); Config.setEaseType(Ease); if(OnCompleteFunction != null){ Config.onComplete(c => { OnCompleteFunction(); }); } GoTween NewTween = new GoTween(TheTransform, MoveTime, Config); Go.addTween(NewTween); return NewTween; }
void SetupTweens() { // Ease DG.Tweening.Ease dotweenEase = easing == Easing.Linear ? DG.Tweening.Ease.Linear : DG.Tweening.Ease.InOutQuad; Holoville.HOTween.EaseType hotweenEase = easing == Easing.Linear ? Holoville.HOTween.EaseType.Linear : Holoville.HOTween.EaseType.EaseInOutQuad; LeanTweenType leanEase = easing == Easing.Linear ? LeanTweenType.linear : LeanTweenType.easeInOutQuad; GoEaseType goEase = easing == Easing.Linear ? GoEaseType.Linear : GoEaseType.QuadInOut; iTween.EaseType iTweenEase = easing == Easing.Linear ? iTween.EaseType.linear : iTween.EaseType.easeInOutQuad; // Loop int loops = testSetup == TestSetup.Emit ? 1 : -1; DG.Tweening.LoopType dotweenLoopType = testSetup == TestSetup.YoyoLoop ? DG.Tweening.LoopType.Yoyo : DG.Tweening.LoopType.Restart; Holoville.HOTween.LoopType hotweenLoopType = testSetup == TestSetup.YoyoLoop ? Holoville.HOTween.LoopType.Yoyo : Holoville.HOTween.LoopType.Restart; LeanTweenType leanLoopType = testSetup == TestSetup.YoyoLoop ? LeanTweenType.pingPong : LeanTweenType.clamp; GoLoopType goLoopType = testSetup == TestSetup.YoyoLoop ? GoLoopType.PingPong : GoLoopType.RestartFromBeginning; iTween.LoopType iTweenLoopType = loops != -1 ? iTween.LoopType.none : testSetup == TestSetup.YoyoLoop ? iTween.LoopType.pingPong : iTween.LoopType.loop; // Create tweens switch (testType) { case TestType.Floats: for (int i = 0; i < numTweens; ++i) { TestObjectData data = testObjsData[i]; switch (engine) { case Engine.HOTween: HOTween.To(data, duration, new Holoville.HOTween.TweenParms() .Prop("floatValue", rndFloats[i]) .Ease(hotweenEase) .Loops(loops, hotweenLoopType) ); break; case Engine.LeanTween: LeanTween.value(this.gameObject, x => data.floatValue = x, data.floatValue, rndFloats[i], duration).setEase(leanEase).setRepeat(loops).setLoopType(leanLoopType); break; case Engine.GoKit: Go.to(data, duration, new GoTweenConfig() .floatProp("floatValueProperty", rndFloats[i]) .setEaseType(goEase) .setIterations(loops, goLoopType) ); break; case Engine.iTween: Hashtable hs = new Hashtable(); hs.Add("from", data.floatValue); hs.Add("to", rndFloats[i]); hs.Add("time", duration); hs.Add("onupdate", "UpdateiTweenFloat"); hs.Add("looptype", iTweenLoopType); hs.Add("easetype", iTweenEase); iTween.ValueTo(this.gameObject, hs); break; default: // tCopy is needed to create correct closure object, // otherwise closure will pass the same t to all the loop TestObjectData dataCopy = data; DOTween.To(() => dataCopy.floatValue, x => dataCopy.floatValue = x, rndFloats[i], duration).SetEase(dotweenEase).SetLoops(loops, dotweenLoopType); break; } } break; default: for (int i = 0; i < numTweens; ++i) { float twDuration = testSetup == TestSetup.Emit ? UnityEngine.Random.Range(0.25f, 1f) : duration; Transform t = testObjsTrans[i]; GameObject go = testObjsGos[i]; // Used by LeanTween and iTween switch (engine) { case Engine.HOTween: Holoville.HOTween.TweenParms tp = new Holoville.HOTween.TweenParms() .Ease(hotweenEase) .Loops(loops, hotweenLoopType); if (positionTween) { Vector3 toPos = rndPositions[i]; tp.Prop("position", toPos); if (testSetup == TestSetup.Emit) { tp.OnComplete(() => EmitHOTweenPositionFor(t, toPos, twDuration, hotweenEase)); } } if (rotationTween) { Vector3 toRot = rndRotations[i]; tp.Prop("rotation", toRot); if (testSetup == TestSetup.Emit) { tp.OnComplete(() => EmitHOTweenRotationFor(t, toRot, twDuration, hotweenEase)); } } if (scaleTween) { tp.Prop("localScale", rndScale); if (testSetup == TestSetup.Emit) { tp.OnComplete(() => EmitHOTweenScaleFor(t, rndScale, twDuration, hotweenEase)); } } HOTween.To(t, twDuration, tp); break; case Engine.LeanTween: LTDescr leanTween; if (positionTween) { Vector3 toPos = rndPositions[i]; leanTween = LeanTween.move(go, rndPositions[i], twDuration).setEase(leanEase).setRepeat(loops).setLoopType(leanLoopType); if (testSetup == TestSetup.Emit) { leanTween.setOnComplete(() => EmitLeanTweenPositionFor(t, go, toPos, twDuration, leanEase)); } } if (rotationTween) { Vector3 toRot = rndRotations[i]; leanTween = LeanTween.rotate(go, rndRotations[i], twDuration).setEase(leanEase).setRepeat(loops).setLoopType(leanLoopType); if (testSetup == TestSetup.Emit) { leanTween.setOnComplete(() => EmitLeanTweenRotationFor(t, go, toRot, twDuration, leanEase)); } } if (scaleTween) { leanTween = LeanTween.scale(go, rndScale, twDuration).setEase(leanEase).setRepeat(loops).setLoopType(leanLoopType); if (testSetup == TestSetup.Emit) { leanTween.setOnComplete(() => EmitLeanTweenScaleFor(t, go, rndScale, twDuration, leanEase)); } } break; case Engine.GoKit: GoTweenConfig goConfig = new GoTweenConfig() .setEaseType(goEase) .setIterations(loops, goLoopType); if (positionTween) { Vector3 toPos = rndPositions[i]; goConfig.addTweenProperty(new PositionTweenProperty(toPos)); if (testSetup == TestSetup.Emit) { goConfig.onComplete(x => EmitGoKitPositionFor(t, toPos, twDuration, goEase)); } } if (rotationTween) { Vector3 toRot = rndRotations[i]; goConfig.addTweenProperty(new RotationTweenProperty(toRot)); if (testSetup == TestSetup.Emit) { goConfig.onComplete(x => EmitGoKitRotationFor(t, toRot, twDuration, goEase)); } } if (scaleTween) { goConfig.addTweenProperty(new ScaleTweenProperty(rndScale)); if (testSetup == TestSetup.Emit) { goConfig.onComplete(x => EmitGoKitScaleFor(t, rndScale, twDuration, goEase)); } } Go.to(t, twDuration, goConfig); break; case Engine.iTween: Hashtable hs; if (positionTween) { hs = new Hashtable(); hs.Add("position", rndPositions[i]); hs.Add("time", twDuration); hs.Add("looptype", iTweenLoopType); hs.Add("easetype", iTweenEase); iTween.MoveTo(go, hs); } if (rotationTween) { hs = new Hashtable(); hs.Add("rotation", rndRotations[i]); hs.Add("time", twDuration); hs.Add("looptype", iTweenLoopType); hs.Add("easetype", iTweenEase); iTween.RotateTo(go, hs); } if (scaleTween) { hs = new Hashtable(); hs.Add("scale", rndScale); hs.Add("time", twDuration); hs.Add("looptype", iTweenLoopType); hs.Add("easetype", iTweenEase); iTween.ScaleTo(go, hs); } break; default: // tCopy is needed to create correct closure object, // otherwise closure will pass the same t to all the loop Transform tCopy = t; DG.Tweening.Tween dotween; if (positionTween) { Vector3 toPos = rndPositions[i]; dotween = tCopy.DOMove(toPos, twDuration).SetEase(dotweenEase).SetLoops(loops, dotweenLoopType); if (testSetup == TestSetup.Emit) { dotween.OnComplete(() => EmitDOTweenPositionFor(t, toPos, twDuration, dotweenEase)); } } if (rotationTween) { Vector3 toRot = rndRotations[i]; dotween = tCopy.DORotate(toRot, twDuration).SetEase(dotweenEase).SetLoops(loops, dotweenLoopType); if (testSetup == TestSetup.Emit) { dotween.OnComplete(() => EmitDOTweenRotationFor(t, toRot, twDuration, dotweenEase)); } } if (scaleTween) { dotween = tCopy.DOScale(rndScale, twDuration).SetEase(dotweenEase).SetLoops(loops, dotweenLoopType); if (testSetup == TestSetup.Emit) { dotween.OnComplete(() => EmitDOTweenScaleFor(t, rndScale, twDuration, dotweenEase)); } } break; } } break; } }
public static void FadeTo(FNode node, float alpha,float duration,bool autoRemove) { GoTweenConfig config=new GoTweenConfig().floatProp("alpha",alpha); if (autoRemove) { config.onComplete(FxHelper.Instance.RemoveFromContainer); } Go.to(node,duration,config); }
public static void FadeColorTo(FNode node, Color color,float duration,bool autoRemove) { GoTweenConfig config=new GoTweenConfig().colorProp("color",color); if (autoRemove) { config.onComplete(FxHelper.Instance.RemoveFromContainer); } Go.to(node,duration,config); }
void SetupTweens() { // Ease DG.Tweening.Ease dotweenEase = easing == Easing.Linear ? DG.Tweening.Ease.Linear : DG.Tweening.Ease.InOutQuad; Holoville.HOTween.EaseType hotweenEase = easing == Easing.Linear ? Holoville.HOTween.EaseType.Linear : Holoville.HOTween.EaseType.EaseInOutQuad; LeanTweenType leanEase = easing == Easing.Linear ? LeanTweenType.linear : LeanTweenType.easeInOutQuad; GoEaseType goEase = easing == Easing.Linear ? GoEaseType.Linear : GoEaseType.QuadInOut; iTween.EaseType iTweenEase = easing == Easing.Linear ? iTween.EaseType.linear : iTween.EaseType.easeInOutQuad; // Loop int loops = testSetup == TestSetup.Emit ? 1 : -1; DG.Tweening.LoopType dotweenLoopType = testSetup == TestSetup.YoyoLoop ? DG.Tweening.LoopType.Yoyo : DG.Tweening.LoopType.Restart; Holoville.HOTween.LoopType hotweenLoopType = testSetup == TestSetup.YoyoLoop ? Holoville.HOTween.LoopType.Yoyo : Holoville.HOTween.LoopType.Restart; LeanTweenType leanLoopType = testSetup == TestSetup.YoyoLoop ? LeanTweenType.pingPong : LeanTweenType.clamp; GoLoopType goLoopType = testSetup == TestSetup.YoyoLoop ? GoLoopType.PingPong : GoLoopType.RestartFromBeginning; iTween.LoopType iTweenLoopType = loops != -1 ? iTween.LoopType.none : testSetup == TestSetup.YoyoLoop ? iTween.LoopType.pingPong : iTween.LoopType.loop; // Create tweens switch (testType) { case TestType.Floats: for (int i = 0; i < numTweens; ++i) { TestObjectData data = testObjsData[i]; switch (engine) { case Engine.HOTween: HOTween.To(data, duration, new Holoville.HOTween.TweenParms() .Prop("floatValue", rndFloats[i]) .Ease(hotweenEase) .Loops(loops, hotweenLoopType) ); break; case Engine.LeanTween: LeanTween.value(this.gameObject, x=> data.floatValue = x, data.floatValue, rndFloats[i], duration).setEase(leanEase).setRepeat(loops).setLoopType(leanLoopType); break; case Engine.GoKit: Go.to(data, duration, new GoTweenConfig() .floatProp("floatValueProperty", rndFloats[i]) .setEaseType(goEase) .setIterations(loops, goLoopType) ); break; case Engine.iTween: Hashtable hs = new Hashtable(); hs.Add("from", data.floatValue); hs.Add("to", rndFloats[i]); hs.Add("time", duration); hs.Add("onupdate", "UpdateiTweenFloat"); hs.Add("looptype", iTweenLoopType); hs.Add("easetype", iTweenEase); iTween.ValueTo(this.gameObject, hs); break; default: // tCopy is needed to create correct closure object, // otherwise closure will pass the same t to all the loop TestObjectData dataCopy = data; DOTween.To(()=> dataCopy.floatValue, x=> dataCopy.floatValue = x, rndFloats[i], duration).SetEase(dotweenEase).SetLoops(loops, dotweenLoopType); break; } } break; default: for (int i = 0; i < numTweens; ++i) { float twDuration = testSetup == TestSetup.Emit ? UnityEngine.Random.Range(0.25f, 1f) : duration; Transform t = testObjsTrans[i]; GameObject go = testObjsGos[i]; // Used by LeanTween and iTween switch (engine) { case Engine.HOTween: Holoville.HOTween.TweenParms tp = new Holoville.HOTween.TweenParms() .Ease(hotweenEase) .Loops(loops, hotweenLoopType); if (positionTween) { Vector3 toPos = rndPositions[i]; tp.Prop("position", toPos); if (testSetup == TestSetup.Emit) tp.OnComplete(()=> EmitHOTweenPositionFor(t, toPos, twDuration, hotweenEase)); } if (rotationTween) { Vector3 toRot = rndRotations[i]; tp.Prop("rotation", toRot); if (testSetup == TestSetup.Emit) tp.OnComplete(()=> EmitHOTweenRotationFor(t, toRot, twDuration, hotweenEase)); } if (scaleTween) { tp.Prop("localScale", rndScale); if (testSetup == TestSetup.Emit) tp.OnComplete(()=> EmitHOTweenScaleFor(t, rndScale, twDuration, hotweenEase)); } HOTween.To(t, twDuration, tp); break; case Engine.LeanTween: LTDescr leanTween; if (positionTween) { Vector3 toPos = rndPositions[i]; leanTween = LeanTween.move(go, rndPositions[i], twDuration).setEase(leanEase).setRepeat(loops).setLoopType(leanLoopType); if (testSetup == TestSetup.Emit) leanTween.setOnComplete(()=> EmitLeanTweenPositionFor(t, go, toPos, twDuration, leanEase)); } if (rotationTween) { Vector3 toRot = rndRotations[i]; leanTween = LeanTween.rotate(go, rndRotations[i], twDuration).setEase(leanEase).setRepeat(loops).setLoopType(leanLoopType); if (testSetup == TestSetup.Emit) leanTween.setOnComplete(()=> EmitLeanTweenRotationFor(t, go, toRot, twDuration, leanEase)); } if (scaleTween) { leanTween = LeanTween.scale(go, rndScale, twDuration).setEase(leanEase).setRepeat(loops).setLoopType(leanLoopType); if (testSetup == TestSetup.Emit) leanTween.setOnComplete(()=> EmitLeanTweenScaleFor(t, go, rndScale, twDuration, leanEase)); } break; case Engine.GoKit: GoTweenConfig goConfig = new GoTweenConfig() .setEaseType(goEase) .setIterations(loops, goLoopType); if (positionTween) { Vector3 toPos = rndPositions[i]; goConfig.addTweenProperty(new PositionTweenProperty(toPos)); if (testSetup == TestSetup.Emit) goConfig.onComplete(x=> EmitGoKitPositionFor(t, toPos, twDuration, goEase)); } if (rotationTween) { Vector3 toRot = rndRotations[i]; goConfig.addTweenProperty(new RotationTweenProperty(toRot)); if (testSetup == TestSetup.Emit) goConfig.onComplete(x=> EmitGoKitRotationFor(t, toRot, twDuration, goEase)); } if (scaleTween) { goConfig.addTweenProperty(new ScaleTweenProperty(rndScale)); if (testSetup == TestSetup.Emit) goConfig.onComplete(x=> EmitGoKitScaleFor(t, rndScale, twDuration, goEase)); } Go.to(t, twDuration, goConfig); break; case Engine.iTween: Hashtable hs; if (positionTween) { hs = new Hashtable(); hs.Add("position", rndPositions[i]); hs.Add("time", twDuration); hs.Add("looptype", iTweenLoopType); hs.Add("easetype", iTweenEase); iTween.MoveTo(go, hs); } if (rotationTween) { hs = new Hashtable(); hs.Add("rotation", rndRotations[i]); hs.Add("time", twDuration); hs.Add("looptype", iTweenLoopType); hs.Add("easetype", iTweenEase); iTween.RotateTo(go, hs); } if (scaleTween) { hs = new Hashtable(); hs.Add("scale", rndScale); hs.Add("time", twDuration); hs.Add("looptype", iTweenLoopType); hs.Add("easetype", iTweenEase); iTween.ScaleTo(go, hs); } break; default: // tCopy is needed to create correct closure object, // otherwise closure will pass the same t to all the loop Transform tCopy = t; DG.Tweening.Tween dotween; if (positionTween) { Vector3 toPos = rndPositions[i]; dotween = tCopy.DOMove(toPos, twDuration).SetEase(dotweenEase).SetLoops(loops, dotweenLoopType); if (testSetup == TestSetup.Emit) dotween.OnComplete(()=> EmitDOTweenPositionFor(t, toPos, twDuration, dotweenEase)); } if (rotationTween) { Vector3 toRot = rndRotations[i]; dotween = tCopy.DORotate(toRot, twDuration).SetEase(dotweenEase).SetLoops(loops, dotweenLoopType); if (testSetup == TestSetup.Emit) dotween.OnComplete(()=> EmitDOTweenRotationFor(t, toRot, twDuration, dotweenEase)); } if (scaleTween) { dotween = tCopy.DOScale(rndScale, twDuration).SetEase(dotweenEase).SetLoops(loops, dotweenLoopType); if (testSetup == TestSetup.Emit) dotween.OnComplete(()=> EmitDOTweenScaleFor(t, rndScale, twDuration, dotweenEase)); } break; } } break; } }
public static GoTweenConfig removeWhenComplete(this GoTweenConfig config) { config.onComplete(HandleRemoveWhenDoneTweenComplete); return(config); }