private void StartLeanTweenSlowMotion(LTDescr leanTweenObj, float slowMotionMultiplier, bool shouldReset) { if (!shouldReset) { leanTweenObj.setTime(leanTweenObj.time * slowMotionMultiplier); SetAnimatorSpeed(animator.speed / slowMotionMultiplier); } else { leanTweenObj.setTime(leanTweenObj.time / slowMotionMultiplier); SetAnimatorSpeed(1); } }
void stopShake() { LeanTween.value(gameObject, 1f, 4.0f, 2.0f).setOnUpdate( (float val) => { //tween1.setTime(val*0.2f); tween2.setTime(val * 0.25f); //tween1.setTo(Vector3.up*val); tween2.setTo(Vector3.right * (1.0f / val)); } ).setEase(LeanTweenType.easeInSine).setOnComplete( () => { //tween1.setRepeat(1); tween2.setRepeat(1); Debug.Log("finished"); } ); }
private void MoveAnim(Vector3 position, bool againstWall) { float distancePercentage = againstWall ? wallBounceDistance : 1; Vector3 positionDiff = new Vector3(transform.position.x - position.x, transform.position.y - position.y); positionDiff = positionDiff * distancePercentage; LTDescr moveLTDescr = LeanTween.move(againstWall ? characterBody : gameObject, transform.position - positionDiff, moveTime).setEaseLinear(); if (againstWall) { moveLTDescr.setTime(wallBounceTime); moveLTDescr.setLoopPingPong(1).setOnComplete(() => IsSafe = true); } else { moveLTDescr.setOnComplete(() => CheckCurrentTile()); } }
void Start() { // Time.timeScale = 0.25f; LeanTest.timeout = 46f; LeanTest.expected = 56; LeanTween.init(15 + 1200); // add a listener LeanTween.addListener(cube1, 0, eventGameObjectCalled); LeanTest.expect(LeanTween.isTweening() == false, "NOTHING TWEEENING AT BEGINNING"); LeanTest.expect(LeanTween.isTweening(cube1) == false, "OBJECT NOT TWEEENING AT BEGINNING"); LeanTween.scaleX(cube4, 2f, 0f).setOnComplete(() => { LeanTest.expect(cube4.transform.localScale.x == 2f, "TWEENED WITH ZERO TIME"); }); // dispatch event that is received LeanTween.dispatchEvent(0); LeanTest.expect(eventGameObjectWasCalled, "EVENT GAMEOBJECT RECEIVED"); // do not remove listener LeanTest.expect(LeanTween.removeListener(cube2, 0, eventGameObjectCalled) == false, "EVENT GAMEOBJECT NOT REMOVED"); // remove listener LeanTest.expect(LeanTween.removeListener(cube1, 0, eventGameObjectCalled), "EVENT GAMEOBJECT REMOVED"); // add a listener LeanTween.addListener(1, eventGeneralCalled); // dispatch event that is received LeanTween.dispatchEvent(1); LeanTest.expect(eventGeneralWasCalled, "EVENT ALL RECEIVED"); // remove listener LeanTest.expect(LeanTween.removeListener(1, eventGeneralCalled), "EVENT ALL REMOVED"); lt1Id = LeanTween.move(cube1, new Vector3(3f, 2f, 0.5f), 1.1f).id; LeanTween.move(cube2, new Vector3(-3f, -2f, -0.5f), 1.1f); LeanTween.reset(); // Queue up a bunch of tweens, cancel some of them but expect the remainder to finish GameObject[] cubes = new GameObject[99]; int[] tweenIds = new int[cubes.Length]; for (int i = 0; i < cubes.Length; i++) { GameObject c = cubeNamed("cancel" + i); tweenIds[i] = LeanTween.moveX(c, 100f, 1f).id; cubes [i] = c; } int onCompleteCount = 0; LeanTween.delayedCall(cubes[0], 0.2f, () => { for (int i = 0; i < cubes.Length; i++) { if (i % 3 == 0) { LeanTween.cancel(cubes [i]); } else if (i % 3 == 1) { LeanTween.cancel(tweenIds[i]); } else if (i % 3 == 2) { LTDescr descr = LeanTween.descr(tweenIds[i]); // Debug.Log("descr:"+descr); descr.setOnComplete(() => { onCompleteCount++; // Debug.Log("onCompleteCount:"+onCompleteCount); if (onCompleteCount >= 33) { LeanTest.expect(true, "CANCELS DO NOT EFFECT FINISHING"); } }); } } }); Vector3[] splineArr = new Vector3[] { new Vector3(-1f, 0f, 0f), new Vector3(0f, 0f, 0f), new Vector3(4f, 0f, 0f), new Vector3(20f, 0f, 0f), new Vector3(30f, 0f, 0f) }; LTSpline cr = new LTSpline(splineArr); cr.place(cube4.transform, 0.5f); LeanTest.expect((Vector3.Distance(cube4.transform.position, new Vector3(10f, 0f, 0f)) <= 0.7f), "SPLINE POSITIONING AT HALFWAY", "position is:" + cube4.transform.position + " but should be:(10f,0f,0f)"); LeanTween.color(cube4, Color.green, 0.01f); // Debug.Log("Point 2:"+cr.ratioAtPoint(splineArr[2])); // OnStart Speed Test for ignoreTimeScale vs normal timeScale GameObject cubeDest = cubeNamed("cubeDest"); Vector3 cubeDestEnd = new Vector3(100f, 20f, 0f); LeanTween.move(cubeDest, cubeDestEnd, 0.7f); GameObject cubeToTrans = cubeNamed("cubeToTrans"); LeanTween.move(cubeToTrans, cubeDest.transform, 1.2f).setEase(LeanTweenType.easeOutQuad).setOnComplete(() => { LeanTest.expect(cubeToTrans.transform.position == cubeDestEnd, "MOVE TO TRANSFORM WORKS"); }); GameObject cubeDestroy = cubeNamed("cubeDestroy"); LeanTween.moveX(cubeDestroy, 200f, 0.05f).setDelay(0.02f).setDestroyOnComplete(true); LeanTween.moveX(cubeDestroy, 200f, 0.1f).setDestroyOnComplete(true).setOnComplete(() => { LeanTest.expect(true, "TWO DESTROY ON COMPLETE'S SUCCEED"); }); GameObject cubeSpline = cubeNamed("cubeSpline"); LeanTween.moveSpline(cubeSpline, new Vector3[] { new Vector3(0.5f, 0f, 0.5f), new Vector3(0.75f, 0f, 0.75f), new Vector3(1f, 0f, 1f), new Vector3(1f, 0f, 1f) }, 0.1f).setOnComplete(() => { LeanTest.expect(Vector3.Distance(new Vector3(1f, 0f, 1f), cubeSpline.transform.position) < 0.01f, "SPLINE WITH TWO POINTS SUCCEEDS"); }); // This test works when it is positioned last in the test queue (probably worth fixing when you have time) GameObject jumpCube = cubeNamed("jumpTime"); jumpCube.transform.position = new Vector3(100f, 0f, 0f); jumpCube.transform.localScale *= 100f; int jumpTimeId = LeanTween.moveX(jumpCube, 200f, 1f).id; LeanTween.delayedCall(gameObject, 0.2f, () => { LTDescr d = LeanTween.descr(jumpTimeId); float beforeX = jumpCube.transform.position.x; d.setTime(0.5f); LeanTween.delayedCall(0.0f, () => { }).setOnStart(() => { float diffAmt = 1f; // This variable is dependent on a good frame-rate because it evalutes at the next Update beforeX += Time.deltaTime * 100f * 2f; LeanTest.expect(Mathf.Abs(jumpCube.transform.position.x - beforeX) < diffAmt, "CHANGING TIME DOESN'T JUMP AHEAD", "Difference:" + Mathf.Abs(jumpCube.transform.position.x - beforeX) + " beforeX:" + beforeX + " now:" + jumpCube.transform.position.x + " dt:" + Time.deltaTime); }); }); // Tween with time of zero is needs to be set to it's final value GameObject zeroCube = cubeNamed("zeroCube"); LeanTween.moveX(zeroCube, 10f, 0f).setOnComplete(() => { LeanTest.expect(zeroCube.transform.position.x == 10f, "ZERO TIME FINSHES CORRECTLY", "final x:" + zeroCube.transform.position.x); }); // Scale, and OnStart GameObject cubeScale = cubeNamed("cubeScale"); LeanTween.scale(cubeScale, new Vector3(5f, 5f, 5f), 0.01f).setOnStart(() => { LeanTest.expect(true, "ON START WAS CALLED"); }).setOnComplete(() => { LeanTest.expect(cubeScale.transform.localScale.z == 5f, "SCALE", "expected scale z:" + 5f + " returned:" + cubeScale.transform.localScale.z); }); // Rotate GameObject cubeRotate = cubeNamed("cubeRotate"); LeanTween.rotate(cubeRotate, new Vector3(0f, 180f, 0f), 0.02f).setOnComplete(() => { LeanTest.expect(cubeRotate.transform.eulerAngles.y == 180f, "ROTATE", "expected rotate y:" + 180f + " returned:" + cubeRotate.transform.eulerAngles.y); }); // RotateAround GameObject cubeRotateA = cubeNamed("cubeRotateA"); LeanTween.rotateAround(cubeRotateA, Vector3.forward, 90f, 0.3f).setOnComplete(() => { LeanTest.expect(cubeRotateA.transform.eulerAngles.z == 90f, "ROTATE AROUND", "expected rotate z:" + 90f + " returned:" + cubeRotateA.transform.eulerAngles.z); }); // RotateAround 360 GameObject cubeRotateB = cubeNamed("cubeRotateB"); cubeRotateB.transform.position = new Vector3(200f, 10f, 8f); LeanTween.rotateAround(cubeRotateB, Vector3.forward, 360f, 0.3f).setPoint(new Vector3(5f, 3f, 2f)).setOnComplete(() => { LeanTest.expect(cubeRotateB.transform.position.ToString() == (new Vector3(200f, 10f, 8f)).ToString(), "ROTATE AROUND 360", "expected rotate pos:" + (new Vector3(200f, 10f, 8f)) + " returned:" + cubeRotateB.transform.position); }); // Alpha, onUpdate with passing value, onComplete value LeanTween.alpha(cubeAlpha1, 0.5f, 0.1f).setOnUpdate((float val) => { LeanTest.expect(val != 0f, "ON UPDATE VAL"); }).setOnCompleteParam("Hi!").setOnComplete((object completeObj) => { LeanTest.expect(((string)completeObj) == "Hi!", "ONCOMPLETE OBJECT"); LeanTest.expect(cubeAlpha1.GetComponent <Renderer>().material.color.a == 0.5f, "ALPHA"); }); // Color float onStartTime = -1f; LeanTween.color(cubeAlpha2, Color.cyan, 0.3f).setOnComplete(() => { LeanTest.expect(cubeAlpha2.GetComponent <Renderer>().material.color == Color.cyan, "COLOR"); LeanTest.expect(onStartTime >= 0f && onStartTime < Time.time, "ON START", "onStartTime:" + onStartTime + " time:" + Time.time); }).setOnStart(() => { onStartTime = Time.time; }); // moveLocalY (make sure uses y values) Vector3 beforePos = cubeAlpha1.transform.position; LeanTween.moveY(cubeAlpha1, 3f, 0.2f).setOnComplete(() => { LeanTest.expect(cubeAlpha1.transform.position.x == beforePos.x && cubeAlpha1.transform.position.z == beforePos.z, "MOVE Y"); }); Vector3 beforePos2 = cubeAlpha2.transform.localPosition; LeanTween.moveLocalZ(cubeAlpha2, 12f, 0.2f).setOnComplete(() => { LeanTest.expect(cubeAlpha2.transform.localPosition.x == beforePos2.x && cubeAlpha2.transform.localPosition.y == beforePos2.y, "MOVE LOCAL Z", "ax:" + cubeAlpha2.transform.localPosition.x + " bx:" + beforePos.x + " ay:" + cubeAlpha2.transform.localPosition.y + " by:" + beforePos2.y); }); AudioClip audioClip = LeanAudio.createAudio(new AnimationCurve(new Keyframe(0f, 1f, 0f, -1f), new Keyframe(1f, 0f, -1f, 0f)), new AnimationCurve(new Keyframe(0f, 0.001f, 0f, 0f), new Keyframe(1f, 0.001f, 0f, 0f)), LeanAudio.options()); LeanTween.delayedSound(gameObject, audioClip, new Vector3(0f, 0f, 0f), 0.1f).setDelay(0.2f).setOnComplete(() => { LeanTest.expect(Time.time > 0, "DELAYED SOUND"); }); // Easing Methods int totalEasingCheck = 0; int totalEasingCheckSuccess = 0; for (int j = 0; j < 2; j++) { bool isCheckingFrom = j == 1; int totalTweenTypeLength = (int)LeanTweenType.easeShake; for (int i = (int)LeanTweenType.notUsed; i < totalTweenTypeLength; i++) { LeanTweenType easeType = (LeanTweenType)i; GameObject cube = cubeNamed("cube" + easeType); LTDescr descr = LeanTween.moveLocalX(cube, 5, 0.1f).setOnComplete((object obj) => { GameObject cubeIn = obj as GameObject; totalEasingCheck++; if (cubeIn.transform.position.x == 5f) { totalEasingCheckSuccess++; } if (totalEasingCheck == (2 * totalTweenTypeLength)) { LeanTest.expect(totalEasingCheck == totalEasingCheckSuccess, "EASING TYPES"); } }).setOnCompleteParam(cube); if (isCheckingFrom) { descr.setFrom(-5f); } } } // value2 bool value2UpdateCalled = false; LeanTween.value(gameObject, new Vector2(0, 0), new Vector2(256, 96), 0.1f).setOnUpdate((Vector2 value) => { value2UpdateCalled = true; }); LeanTween.delayedCall(0.2f, () => { LeanTest.expect(value2UpdateCalled, "VALUE2 UPDATE"); }); // check descr // LTDescr descr2 = LeanTween.descr( descrId ); // LeanTest.expect(descr2 == null,"DESCRIPTION STARTS AS NULL"); StartCoroutine(timeBasedTesting()); }
void Start() { LeanTest.timeout = 46f; LeanTest.expected = 35; LeanTween.init(14 + 1200); // add a listener LeanTween.addListener(cube1, 0, eventGameObjectCalled); LeanTest.expect(LeanTween.isTweening() == false, "NOTHING TWEEENING AT BEGINNING"); LeanTest.expect(LeanTween.isTweening(cube1) == false, "OBJECT NOT TWEEENING AT BEGINNING"); LeanTween.scaleX(cube4, 2f, 0f).setOnComplete(() => { LeanTest.expect(cube4.transform.localScale.x == 2f, "TWEENED WITH ZERO TIME"); }); // dispatch event that is received LeanTween.dispatchEvent(0); LeanTest.expect(eventGameObjectWasCalled, "EVENT GAMEOBJECT RECEIVED"); // do not remove listener LeanTest.expect(LeanTween.removeListener(cube2, 0, eventGameObjectCalled) == false, "EVENT GAMEOBJECT NOT REMOVED"); // remove listener LeanTest.expect(LeanTween.removeListener(cube1, 0, eventGameObjectCalled), "EVENT GAMEOBJECT REMOVED"); // add a listener LeanTween.addListener(1, eventGeneralCalled); // dispatch event that is received LeanTween.dispatchEvent(1); LeanTest.expect(eventGeneralWasCalled, "EVENT ALL RECEIVED"); // remove listener LeanTest.expect(LeanTween.removeListener(1, eventGeneralCalled), "EVENT ALL REMOVED"); lt1Id = LeanTween.move(cube1, new Vector3(3f, 2f, 0.5f), 1.1f).id; LeanTween.move(cube2, new Vector3(-3f, -2f, -0.5f), 1.1f); LeanTween.reset(); LTSpline cr = new LTSpline(new Vector3[] { new Vector3(-1f, 0f, 0f), new Vector3(0f, 0f, 0f), new Vector3(4f, 0f, 0f), new Vector3(20f, 0f, 0f), new Vector3(30f, 0f, 0f) }); cr.place(cube4.transform, 0.5f); LeanTest.expect((Vector3.Distance(cube4.transform.position, new Vector3(10f, 0f, 0f)) <= 0.7f), "SPLINE POSITIONING AT HALFWAY", "position is:" + cube4.transform.position + " but should be:(10f,0f,0f)"); LeanTween.color(cube4, Color.green, 0.01f); // OnStart Speed Test for ignoreTimeScale vs normal timeScale GameObject cube = Instantiate(boxNoCollider) as GameObject; cube.name = "normalTimeScale"; // float timeElapsedNormal = Time.time; LeanTween.moveX(cube, 12f, 1f).setIgnoreTimeScale(false).setOnComplete(() => { timeElapsedNormalTimeScale = Time.time; }); LTDescr[] descr = LeanTween.descriptions(cube); LeanTest.expect(descr.Length >= 0 && descr[0].to.x == 12f, "WE CAN RETRIEVE A DESCRIPTION"); cube = Instantiate(boxNoCollider) as GameObject; cube.name = "ignoreTimeScale"; LeanTween.moveX(cube, 5f, 1f).setIgnoreTimeScale(true).setOnComplete(() => { timeElapsedIgnoreTimeScale = Time.time; }); GameObject cubeDest = Instantiate(boxNoCollider) as GameObject; cubeDest.name = "cubeDest"; Vector3 cubeDestEnd = new Vector3(100f, 20f, 0f); LeanTween.move(cubeDest, cubeDestEnd, 0.7f); GameObject cubeToTrans = Instantiate(boxNoCollider) as GameObject; cubeToTrans.name = "cubeToTrans"; LeanTween.move(cubeToTrans, cubeDest.transform, 1.2f).setEase(LeanTweenType.easeOutQuad).setOnComplete(() => { LeanTest.expect(cubeToTrans.transform.position == cubeDestEnd, "MOVE TO TRANSFORM WORKS"); }); GameObject cubeDestroy = Instantiate(boxNoCollider) as GameObject; cubeDestroy.name = "cubeDestroy"; LeanTween.moveX(cubeDestroy, 200f, 0.05f).setDelay(0.02f).setDestroyOnComplete(true); LeanTween.moveX(cubeDestroy, 200f, 0.1f).setDestroyOnComplete(true).setOnComplete(() => { LeanTest.expect(true, "TWO DESTROY ON COMPLETE'S SUCCEED"); }); GameObject cubeSpline = Instantiate(boxNoCollider) as GameObject; cubeSpline.name = "cubeSpline"; LeanTween.moveSpline(cubeSpline, new Vector3[] { new Vector3(0.5f, 0f, 0.5f), new Vector3(0.75f, 0f, 0.75f), new Vector3(1f, 0f, 1f), new Vector3(1f, 0f, 1f) }, 0.1f).setOnComplete(() => { LeanTest.expect(Vector3.Distance(new Vector3(1f, 0f, 1f), cubeSpline.transform.position) < 0.01f, "SPLINE WITH TWO POINTS SUCCEEDS"); }); // This test works when it is positioned last in the test queue (probably worth fixing when you have time) GameObject jumpCube = Instantiate(boxNoCollider) as GameObject; jumpCube.name = "jumpTime"; int jumpTimeId = LeanTween.moveX(jumpCube, 1f, 1f).id; LeanTween.delayedCall(jumpCube, 0.2f, () => { LTDescr d = LeanTween.descr(jumpTimeId); float beforeX = jumpCube.transform.position.x; d.setTime(0.5f); LeanTween.delayedCall(0.01f, () => { }).setOnStart(() => { LeanTest.expect(Mathf.Abs(jumpCube.transform.position.x - beforeX) < 0.01f, "CHANGING TIME DOESN'T JUMP AHEAD", "Difference:" + Mathf.Abs(jumpCube.transform.position.x - beforeX)); }); }); StartCoroutine(timeBasedTesting()); }
void Start() { // Time.timeScale = 0.25f; LeanTest.timeout = 46f; LeanTest.expected = 50; LeanTween.init(15 + 1200); // add a listener LeanTween.addListener(cube1, 0, eventGameObjectCalled); LeanTest.expect(LeanTween.isTweening() == false, "NOTHING TWEEENING AT BEGINNING"); LeanTest.expect(LeanTween.isTweening(cube1) == false, "OBJECT NOT TWEEENING AT BEGINNING"); LeanTween.scaleX(cube4, 2f, 0f).setOnComplete(() => { LeanTest.expect(cube4.transform.localScale.x == 2f, "TWEENED WITH ZERO TIME"); }); // dispatch event that is received LeanTween.dispatchEvent(0); LeanTest.expect(eventGameObjectWasCalled, "EVENT GAMEOBJECT RECEIVED"); // do not remove listener LeanTest.expect(LeanTween.removeListener(cube2, 0, eventGameObjectCalled) == false, "EVENT GAMEOBJECT NOT REMOVED"); // remove listener LeanTest.expect(LeanTween.removeListener(cube1, 0, eventGameObjectCalled), "EVENT GAMEOBJECT REMOVED"); // add a listener LeanTween.addListener(1, eventGeneralCalled); // dispatch event that is received LeanTween.dispatchEvent(1); LeanTest.expect(eventGeneralWasCalled, "EVENT ALL RECEIVED"); // remove listener LeanTest.expect(LeanTween.removeListener(1, eventGeneralCalled), "EVENT ALL REMOVED"); lt1Id = LeanTween.move(cube1, new Vector3(3f, 2f, 0.5f), 1.1f).id; LeanTween.move(cube2, new Vector3(-3f, -2f, -0.5f), 1.1f); LeanTween.reset(); Vector3[] splineArr = new Vector3[] { new Vector3(-1f, 0f, 0f), new Vector3(0f, 0f, 0f), new Vector3(4f, 0f, 0f), new Vector3(20f, 0f, 0f), new Vector3(30f, 0f, 0f) }; LTSpline cr = new LTSpline(splineArr); cr.place(cube4.transform, 0.5f); LeanTest.expect((Vector3.Distance(cube4.transform.position, new Vector3(10f, 0f, 0f)) <= 0.7f), "SPLINE POSITIONING AT HALFWAY", "position is:" + cube4.transform.position + " but should be:(10f,0f,0f)"); LeanTween.color(cube4, Color.green, 0.01f); // Debug.Log("Point 2:"+cr.ratioAtPoint(splineArr[2])); // OnStart Speed Test for ignoreTimeScale vs normal timeScale GameObject cubeDest = cubeNamed("cubeDest"); Vector3 cubeDestEnd = new Vector3(100f, 20f, 0f); LeanTween.move(cubeDest, cubeDestEnd, 0.7f); GameObject cubeToTrans = cubeNamed("cubeToTrans"); LeanTween.move(cubeToTrans, cubeDest.transform, 1.2f).setEase(LeanTweenType.easeOutQuad).setOnComplete(() => { LeanTest.expect(cubeToTrans.transform.position == cubeDestEnd, "MOVE TO TRANSFORM WORKS"); }); GameObject cubeDestroy = cubeNamed("cubeDestroy"); LeanTween.moveX(cubeDestroy, 200f, 0.05f).setDelay(0.02f).setDestroyOnComplete(true); LeanTween.moveX(cubeDestroy, 200f, 0.1f).setDestroyOnComplete(true).setOnComplete(() => { LeanTest.expect(true, "TWO DESTROY ON COMPLETE'S SUCCEED"); }); GameObject cubeSpline = cubeNamed("cubeSpline"); LeanTween.moveSpline(cubeSpline, new Vector3[] { new Vector3(0.5f, 0f, 0.5f), new Vector3(0.75f, 0f, 0.75f), new Vector3(1f, 0f, 1f), new Vector3(1f, 0f, 1f) }, 0.1f).setOnComplete(() => { LeanTest.expect(Vector3.Distance(new Vector3(1f, 0f, 1f), cubeSpline.transform.position) < 0.01f, "SPLINE WITH TWO POINTS SUCCEEDS"); }); // This test works when it is positioned last in the test queue (probably worth fixing when you have time) GameObject jumpCube = cubeNamed("jumpTime"); jumpCube.transform.position = new Vector3(100f, 0f, 0f); jumpCube.transform.localScale *= 100f; int jumpTimeId = LeanTween.moveX(jumpCube, 200f, 1f).id; LeanTween.delayedCall(gameObject, 0.2f, () => { LTDescr d = LeanTween.descr(jumpTimeId); float beforeX = jumpCube.transform.position.x; d.setTime(0.5f); LeanTween.delayedCall(0.0f, () => { }).setOnStart(() => { float diffAmt = 1f; // This variable is dependent on a good frame-rate because it evalutes at the next Update beforeX += Time.deltaTime * 100f * 2f; LeanTest.expect(Mathf.Abs(jumpCube.transform.position.x - beforeX) < diffAmt, "CHANGING TIME DOESN'T JUMP AHEAD", "Difference:" + Mathf.Abs(jumpCube.transform.position.x - beforeX) + " beforeX:" + beforeX + " now:" + jumpCube.transform.position.x + " dt:" + Time.deltaTime); }); }); // Tween with time of zero is needs to be set to it's final value GameObject zeroCube = cubeNamed("zeroCube"); LeanTween.moveX(zeroCube, 10f, 0f).setOnComplete(() => { LeanTest.expect(zeroCube.transform.position.x == 10f, "ZERO TIME FINSHES CORRECTLY", "final x:" + zeroCube.transform.position.x); }); // Scale, and OnStart GameObject cubeScale = cubeNamed("cubeScale"); LeanTween.scale(cubeScale, new Vector3(5f, 5f, 5f), 0.01f).setOnStart(() => { LeanTest.expect(true, "ON START WAS CALLED"); }).setOnComplete(() => { LeanTest.expect(cubeScale.transform.localScale.z == 5f, "SCALE", "expected scale z:" + 5f + " returned:" + cubeScale.transform.localScale.z); }); // Rotate GameObject cubeRotate = cubeNamed("cubeRotate"); LeanTween.rotate(cubeRotate, new Vector3(0f, 180f, 0f), 0.02f).setOnComplete(() => { LeanTest.expect(cubeRotate.transform.eulerAngles.y == 180f, "ROTATE", "expected rotate y:" + 180f + " returned:" + cubeRotate.transform.eulerAngles.y); }); // RotateAround GameObject cubeRotateA = cubeNamed("cubeRotateA"); LeanTween.rotateAround(cubeRotateA, Vector3.forward, 90f, 0.3f).setOnComplete(() => { LeanTest.expect(cubeRotateA.transform.eulerAngles.z == 90f, "ROTATE AROUND", "expected rotate z:" + 90f + " returned:" + cubeRotateA.transform.eulerAngles.z); }); // Alpha, onUpdate with passing value, onComplete value LeanTween.alpha(cubeAlpha1, 0.5f, 0.1f).setOnUpdate((float val) => { LeanTest.expect(val != 0f, "ON UPDATE VAL"); }).setOnCompleteParam("Hi!").setOnComplete((object completeObj) => { LeanTest.expect(((string)completeObj) == "Hi!", "ONCOMPLETE OBJECT"); LeanTest.expect(cubeAlpha1.GetComponent <Renderer>().material.color.a == 0.5f, "ALPHA"); }); // Color float onStartTime = -1f; LeanTween.color(cubeAlpha2, Color.cyan, 0.3f).setOnComplete(() => { LeanTest.expect(cubeAlpha2.GetComponent <Renderer>().material.color == Color.cyan, "COLOR"); LeanTest.expect(onStartTime >= 0f && onStartTime < Time.time, "ON START", "onStartTime:" + onStartTime + " time:" + Time.time); }).setOnStart(() => { onStartTime = Time.time; }); // moveLocalY (make sure uses y values) Vector3 beforePos = cubeAlpha1.transform.position; LeanTween.moveY(cubeAlpha1, 3f, 0.2f).setOnComplete(() => { LeanTest.expect(cubeAlpha1.transform.position.x == beforePos.x && cubeAlpha1.transform.position.z == beforePos.z, "MOVE Y"); }); Vector3 beforePos2 = cubeAlpha2.transform.localPosition; LeanTween.moveLocalZ(cubeAlpha2, 12f, 0.2f).setOnComplete(() => { LeanTest.expect(cubeAlpha2.transform.localPosition.x == beforePos2.x && cubeAlpha2.transform.localPosition.y == beforePos2.y, "MOVE LOCAL Z", "ax:" + cubeAlpha2.transform.localPosition.x + " bx:" + beforePos.x + " ay:" + cubeAlpha2.transform.localPosition.y + " by:" + beforePos2.y); }); AudioClip audioClip = LeanAudio.createAudio(new AnimationCurve(new Keyframe(0f, 1f, 0f, -1f), new Keyframe(1f, 0f, -1f, 0f)), new AnimationCurve(new Keyframe(0f, 0.001f, 0f, 0f), new Keyframe(1f, 0.001f, 0f, 0f)), LeanAudio.options()); LeanTween.delayedSound(gameObject, audioClip, new Vector3(0f, 0f, 0f), 0.1f).setDelay(0.2f).setOnComplete(() => { LeanTest.expect(Time.time > 0, "DELAYED SOUND"); }); StartCoroutine(timeBasedTesting()); }