| public static descriptions ( GameObject gameObject = null ) : LTDescr[], | ||
| gameObject | GameObject | |
| return | LTDescr[], | |
private float GetTravelTime(ElevatorLift lift)
{
var tweens = LeanTween.descriptions(lift.gameObject);
if (tweens.Length == 0)
{
return(0);
}
return(tweens[0].time);
}
IEnumerator timeBasedTesting()
{
yield return(new WaitForEndOfFrame());
GameObject cubeNormal = cubeNamed("normalTimeScale");
// float timeElapsedNormal = Time.time;
LeanTween.moveX(cubeNormal, 12f, 1.5f).setIgnoreTimeScale(false).setOnComplete(() => {
timeElapsedNormalTimeScale = Time.time;
});
LTDescr[] descr = LeanTween.descriptions(cubeNormal);
LeanTest.expect(descr.Length >= 0 && descr[0].to.x == 12f, "WE CAN RETRIEVE A DESCRIPTION");
GameObject cubeIgnore = cubeNamed("ignoreTimeScale");
LeanTween.moveX(cubeIgnore, 5f, 1.5f).setIgnoreTimeScale(true).setOnComplete(() => {
timeElapsedIgnoreTimeScale = Time.time;
});
yield return(new WaitForSeconds(1.5f));
LeanTest.expect(Mathf.Abs(timeElapsedNormalTimeScale - timeElapsedIgnoreTimeScale) < 0.7f, "START IGNORE TIMING", "timeElapsedIgnoreTimeScale:" + timeElapsedIgnoreTimeScale + " timeElapsedNormalTimeScale:" + timeElapsedNormalTimeScale);
// yield return new WaitForSeconds(100f);
Time.timeScale = 4f;
int pauseCount = 0;
LeanTween.value(gameObject, 0f, 1f, 1f).setOnUpdate(( float val ) => {
pauseCount++;
}).pause();
// Bezier should end at exact end position not just 99% close to it
Vector3[] roundCirc = new Vector3[] { new Vector3(0f, 0f, 0f), new Vector3(-9.1f, 25.1f, 0f), new Vector3(-1.2f, 15.9f, 0f), new Vector3(-25f, 25f, 0f), new Vector3(-25f, 25f, 0f), new Vector3(-50.1f, 15.9f, 0f), new Vector3(-40.9f, 25.1f, 0f), new Vector3(-50f, 0f, 0f), new Vector3(-50f, 0f, 0f), new Vector3(-40.9f, -25.1f, 0f), new Vector3(-50.1f, -15.9f, 0f), new Vector3(-25f, -25f, 0f), new Vector3(-25f, -25f, 0f), new Vector3(0f, -15.9f, 0f), new Vector3(-9.1f, -25.1f, 0f), new Vector3(0f, 0f, 0f) };
GameObject cubeRound = cubeNamed("bRound");
Vector3 onStartPos = cubeRound.transform.position;
LeanTween.moveLocal(cubeRound, roundCirc, 0.5f).setOnComplete(() => {
LeanTest.expect(cubeRound.transform.position == onStartPos, "BEZIER CLOSED LOOP SHOULD END AT START", "onStartPos:" + onStartPos + " onEnd:" + cubeRound.transform.position);
});
// Spline should end at exact end position not just 99% close to it
Vector3[] roundSpline = new Vector3[] { new Vector3(0f, 0f, 0f), new Vector3(0f, 0f, 0f), new Vector3(2f, 0f, 0f), new Vector3(0.9f, 2f, 0f), new Vector3(0f, 0f, 0f), new Vector3(0f, 0f, 0f) };
GameObject cubeSpline = cubeNamed("bSpline");
Vector3 onStartPosSpline = cubeSpline.transform.position;
LeanTween.moveSplineLocal(cubeSpline, roundSpline, 0.5f).setOnComplete(() => {
LeanTest.expect(Vector3.Distance(onStartPosSpline, cubeSpline.transform.position) <= 0.01f, "SPLINE CLOSED LOOP SHOULD END AT START", "onStartPos:" + onStartPosSpline + " onEnd:" + cubeSpline.transform.position + " dist:" + Vector3.Distance(onStartPosSpline, cubeSpline.transform.position));
});
// Groups of tweens testing
groupTweens = new LTDescr[1200];
groupGOs = new GameObject[groupTweens.Length];
groupTweensCnt = 0;
int descriptionMatchCount = 0;
for (int i = 0; i < groupTweens.Length; i++)
{
GameObject cube = cubeNamed("c" + i);
cube.transform.position = new Vector3(0, 0, i * 3);
groupGOs[i] = cube;
}
yield return(new WaitForEndOfFrame());
bool hasGroupTweensCheckStarted = false;
int setOnStartNum = 0;
int setPosNum = 0;
bool setPosOnUpdate = true;
for (int i = 0; i < groupTweens.Length; i++)
{
Vector3 finalPos = transform.position + Vector3.one * 3f;
Dictionary <string, object> finalDict = new Dictionary <string, object> {
{ "final", finalPos }, { "go", groupGOs[i] }
};
groupTweens[i] = LeanTween.move(groupGOs[i], finalPos, 3f).setOnStart(() => {
setOnStartNum++;
}).setOnUpdate((Vector3 newPosition) => {
if (transform.position.z > newPosition.z)
{
setPosOnUpdate = false;
}
// Debug.LogWarning("New Position: " + newPosition.ToString());
}).
setOnCompleteParam(finalDict).
setOnComplete((object param) => {
Dictionary <string, object> finalDictRetr = param as Dictionary <string, object>;
Vector3 neededPos = (Vector3)finalDictRetr["final"];
GameObject tweenedGo = finalDictRetr["go"] as GameObject;
if (neededPos.ToString() == tweenedGo.transform.position.ToString())
{
setPosNum++;
}
else
{
// Debug.Log("neededPos:"+neededPos+" tweenedGo.transform.position:"+tweenedGo.transform.position);
}
if (hasGroupTweensCheckStarted == false)
{
hasGroupTweensCheckStarted = true;
LeanTween.delayedCall(gameObject, 0.1f, () => {
LeanTest.expect(setOnStartNum == groupTweens.Length, "SETONSTART CALLS", "expected:" + groupTweens.Length + " was:" + setOnStartNum);
LeanTest.expect(groupTweensCnt == groupTweens.Length, "GROUP FINISH", "expected " + groupTweens.Length + " tweens but got " + groupTweensCnt);
LeanTest.expect(setPosNum == groupTweens.Length, "GROUP POSITION FINISH", "expected " + groupTweens.Length + " tweens but got " + setPosNum);
LeanTest.expect(setPosOnUpdate, "GROUP POSITION ON UPDATE");
});
}
groupTweensCnt++;
});
if (LeanTween.description(groupTweens[i].id).trans == groupTweens[i].trans)
{
descriptionMatchCount++;
}
}
while (LeanTween.tweensRunning < groupTweens.Length)
{
yield return(null);
}
LeanTest.expect(descriptionMatchCount == groupTweens.Length, "GROUP IDS MATCH");
int expectedSearch = groupTweens.Length + 5;
LeanTest.expect(LeanTween.maxSearch <= expectedSearch, "MAX SEARCH OPTIMIZED", "maxSearch:" + LeanTween.maxSearch + " should be:" + expectedSearch);
LeanTest.expect(LeanTween.isTweening() == true, "SOMETHING IS TWEENING");
// resume item before calling pause should continue item along it's way
float previousXlt4 = cube4.transform.position.x;
lt4 = LeanTween.moveX(cube4, 5.0f, 1.1f).setOnComplete(() => {
LeanTest.expect(cube4 != null && previousXlt4 != cube4.transform.position.x, "RESUME OUT OF ORDER", "cube4:" + cube4 + " previousXlt4:" + previousXlt4 + " cube4.transform.position.x:" + (cube4 != null ? cube4.transform.position.x : 0));
}).setDestroyOnComplete(true);
lt4.resume();
rotateRepeat = rotateRepeatAngle = 0;
LeanTween.rotateAround(cube3, Vector3.forward, 360f, 0.1f).setRepeat(3).setOnComplete(rotateRepeatFinished).setOnCompleteOnRepeat(true).setDestroyOnComplete(true);
yield return(new WaitForEndOfFrame());
LeanTween.delayedCall(0.1f * 8f + 1f, rotateRepeatAllFinished);
int countBeforeCancel = LeanTween.tweensRunning;
LeanTween.cancel(lt1Id);
LeanTest.expect(countBeforeCancel == LeanTween.tweensRunning, "CANCEL AFTER RESET SHOULD FAIL", "expected " + countBeforeCancel + " but got " + LeanTween.tweensRunning);
LeanTween.cancel(cube2);
int tweenCount = 0;
for (int i = 0; i < groupTweens.Length; i++)
{
if (LeanTween.isTweening(groupGOs[i]))
{
tweenCount++;
}
if (i % 3 == 0)
{
LeanTween.pause(groupGOs[i]);
}
else if (i % 3 == 1)
{
groupTweens[i].pause();
}
else
{
LeanTween.pause(groupTweens[i].id);
}
}
LeanTest.expect(tweenCount == groupTweens.Length, "GROUP ISTWEENING", "expected " + groupTweens.Length + " tweens but got " + tweenCount);
yield return(new WaitForEndOfFrame());
tweenCount = 0;
for (int i = 0; i < groupTweens.Length; i++)
{
if (i % 3 == 0)
{
LeanTween.resume(groupGOs[i]);
}
else if (i % 3 == 1)
{
groupTweens[i].resume();
}
else
{
LeanTween.resume(groupTweens[i].id);
}
if (i % 2 == 0 ? LeanTween.isTweening(groupTweens[i].id) : LeanTween.isTweening(groupGOs[i]))
{
tweenCount++;
}
}
LeanTest.expect(tweenCount == groupTweens.Length, "GROUP RESUME");
LeanTest.expect(LeanTween.isTweening(cube1) == false, "CANCEL TWEEN LTDESCR");
LeanTest.expect(LeanTween.isTweening(cube2) == false, "CANCEL TWEEN LEANTWEEN");
LeanTest.expect(pauseCount == 0, "ON UPDATE NOT CALLED DURING PAUSE", "expect pause count of 0, but got " + pauseCount);
yield return(new WaitForEndOfFrame());
Time.timeScale = 0.25f;
float tweenTime = 0.2f;
float expectedTime = tweenTime * (1f / Time.timeScale);
float start = Time.realtimeSinceStartup;
bool onUpdateWasCalled = false;
LeanTween.moveX(cube1, -5f, tweenTime).setOnUpdate((float val) => {
onUpdateWasCalled = true;
}).setOnComplete(() => {
float end = Time.realtimeSinceStartup;
float diff = end - start;
LeanTest.expect(Mathf.Abs(expectedTime - diff) < 0.05f, "SCALED TIMING DIFFERENCE", "expected to complete in roughly " + expectedTime + " but completed in " + diff);
LeanTest.expect(Mathf.Approximately(cube1.transform.position.x, -5f), "SCALED ENDING POSITION", "expected to end at -5f, but it ended at " + cube1.transform.position.x);
LeanTest.expect(onUpdateWasCalled, "ON UPDATE FIRED");
});
bool didGetCorrectOnUpdate = false;
LeanTween.value(gameObject, new Vector3(1f, 1f, 1f), new Vector3(10f, 10f, 10f), 1f).setOnUpdate(( Vector3 val ) => {
didGetCorrectOnUpdate = val.x >= 1f && val.y >= 1f && val.z >= 1f;
}).setOnComplete(() => {
LeanTest.expect(didGetCorrectOnUpdate, "VECTOR3 CALLBACK CALLED");
});
yield return(new WaitForSeconds(expectedTime));
Time.timeScale = 1f;
int ltCount = 0;
GameObject[] allGos = FindObjectsOfType(typeof(GameObject)) as GameObject[];
foreach (GameObject go in allGos)
{
if (go.name == "~LeanTween")
{
ltCount++;
}
}
LeanTest.expect(ltCount == 1, "RESET CORRECTLY CLEANS UP");
lotsOfCancels();
}
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()
{
LeanTest.timeout = 45f;
LeanTest.expected = 31;
LeanTween.init(10 + 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;
});
StartCoroutine(timeBasedTesting());
}
void Start()
{
// Time.timeScale = 0.25f;
LeanTest.timeout = 46f;
LeanTest.expected = 63;
LeanTween.init(1300);
// 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");
});
// Testing specific cancellation
GameObject cubeCancelA = cubeNamed("cubeCancelA");
cubeCancelA.LeanMoveX(10f, 1f);
cubeCancelA.LeanMoveY(10f, 1f);
LeanTween.cancel(cubeCancelA, false, TweenAction.MOVE_X);
LTDescr[] descrs = LeanTween.descriptions(cubeCancelA);
LeanTest.expect(descrs.Length == 1, "SPECIFIC TWEEN DID CANCEL");
// check descr
// LTDescr descr2 = LeanTween.descr( descrId );
// LeanTest.expect(descr2 == null,"DESCRIPTION STARTS AS NULL");
StartCoroutine(timeBasedTesting());
}
private IEnumerator timeBasedTesting()
{
yield return(new WaitForEndOfFrame());
var cubeNormal = cubeNamed("normalTimeScale");
// float timeElapsedNormal = Time.time;
LeanTween.moveX(cubeNormal, 12f, 1.5f).setIgnoreTimeScale(false).setOnComplete(() =>
{
timeElapsedNormalTimeScale = Time.time;
});
var descr = LeanTween.descriptions(cubeNormal);
LeanTest.expect(descr.Length >= 0 && descr[0].to.x == 12f, "WE CAN RETRIEVE A DESCRIPTION");
var cubeIgnore = cubeNamed("ignoreTimeScale");
LeanTween.moveX(cubeIgnore, 5f, 1.5f).setIgnoreTimeScale(true).setOnComplete(() =>
{
timeElapsedIgnoreTimeScale = Time.time;
});
yield return(new WaitForSeconds(1.5f));
LeanTest.expect(Mathf.Abs(timeElapsedNormalTimeScale - timeElapsedIgnoreTimeScale) < 0.7f,
"START IGNORE TIMING",
"timeElapsedIgnoreTimeScale:" + timeElapsedIgnoreTimeScale + " timeElapsedNormalTimeScale:" +
timeElapsedNormalTimeScale);
// yield return new WaitForSeconds(100f);
Time.timeScale = 4f;
var pauseCount = 0;
LeanTween.value(gameObject, 0f, 1f, 1f).setOnUpdate((float val) => { pauseCount++; }).pause();
// Bezier should end at exact end position not just 99% close to it
Vector3[] roundCirc =
{
new Vector3(0f, 0f, 0f), new Vector3(-9.1f, 25.1f, 0f), new Vector3(-1.2f, 15.9f, 0f),
new Vector3(-25f, 25f, 0f), new Vector3(-25f, 25f, 0f), new Vector3(-50.1f, 15.9f, 0f),
new Vector3(-40.9f, 25.1f, 0f), new Vector3(-50f, 0f, 0f), new Vector3(-50f, 0f, 0f),
new Vector3(-40.9f, -25.1f, 0f), new Vector3(-50.1f, -15.9f, 0f), new Vector3(-25f, -25f, 0f),
new Vector3(-25f, -25f, 0f), new Vector3(0f, -15.9f, 0f), new Vector3(-9.1f, -25.1f, 0f),
new Vector3(0f, 0f, 0f)
};
var cubeRound = cubeNamed("bRound");
var onStartPos = cubeRound.transform.position;
LeanTween.moveLocal(cubeRound, roundCirc, 0.5f).setOnComplete(() =>
{
LeanTest.expect(cubeRound.transform.position == onStartPos,
"BEZIER CLOSED LOOP SHOULD END AT START",
"onStartPos:" + onStartPos + " onEnd:" + cubeRound.transform.position);
});
// should be able to retrieve a point
var roundCircPath = new LTBezierPath(roundCirc);
var ratioPoint = roundCircPath.ratioAtPoint(new Vector3(-25f, 25f, 0f));
LeanTest.expect(Equals(ratioPoint, 0.25f), "BEZIER RATIO POINT");
// Spline should end at exact end position not just 99% close to it
Vector3[] roundSpline =
{
new Vector3(0f, 0f, 0f), new Vector3(0f, 0f, 0f), new Vector3(2f, 0f, 0f), new Vector3(0.9f, 2f, 0f),
new Vector3(0f, 0f, 0f), new Vector3(0f, 0f, 0f)
};
var cubeSpline = cubeNamed("bSpline");
var onStartPosSpline = cubeSpline.transform.position;
LeanTween.moveSplineLocal(cubeSpline, roundSpline, 0.5f).setOnComplete(() =>
{
LeanTest.expect(Vector3.Distance(onStartPosSpline, cubeSpline.transform.position) <= 0.01f,
"SPLINE CLOSED LOOP SHOULD END AT START",
"onStartPos:" + onStartPosSpline + " onEnd:" + cubeSpline.transform.position + " dist:" +
Vector3.Distance(onStartPosSpline, cubeSpline.transform.position));
});
// Sequence test, do three tweens and make sure they end at the right points
var cubeSeq = cubeNamed("cSeq");
var seq = LeanTween.sequence().append(LeanTween.moveX(cubeSeq, 100f, 0.2f));
seq.append(0.1f).append(LeanTween.scaleX(cubeSeq, 2f, 0.1f));
seq.append(() =>
{
LeanTest.expect(cubeSeq.transform.position.x == 100f, "SEQ MOVE X FINISHED",
"move x:" + cubeSeq.transform.position.x);
LeanTest.expect(cubeSeq.transform.localScale.x == 2f, "SEQ SCALE X FINISHED",
"scale x:" + cubeSeq.transform.localScale.x);
}).setScale(0.2f);
// Bounds check
var cubeBounds = cubeNamed("cBounds");
var didPassBounds = true;
var failPoint = Vector3.zero;
LeanTween.move(cubeBounds, new Vector3(10, 10, 10), 0.1f).setOnUpdate((float val) =>
{
// Debug.LogWarning("cubeBounds x:"+cubeBounds.transform.position.x + " y:"+ cubeBounds.transform.position.y+" z:"+cubeBounds.transform.position.z);
if (cubeBounds.transform.position.x < 0f || cubeBounds.transform.position.x > 10f ||
cubeBounds.transform.position.y < 0f || cubeBounds.transform.position.y > 10f ||
cubeBounds.transform.position.z < 0f || cubeBounds.transform.position.z > 10f)
{
didPassBounds = false;
failPoint = cubeBounds.transform.position;
// Debug.LogError("OUT OF BOUNDS");
}
}).setLoopPingPong().setRepeat(8).setOnComplete(() =>
{
LeanTest.expect(didPassBounds, "OUT OF BOUNDS",
"pos x:" + failPoint.x + " y:" + failPoint.y + " z:" + failPoint.z);
});
// Local scale check
//GameObject cubeLocal = cubeNamed("cLocal");
//LeanTween.scale(cubeLocal, new Vector3(0.5f, 0.5f, 0.5f), 0.2f).setOnComplete(() =>
//{
// LeanTest.expect((cubeLocal.transform.localScale.x == 0.5f && cubeLocal.transform.localScale.y == 0.5f && cubeLocal.transform.localScale.z == 0.5f), "SCALE WORKS", "scale x:" + cubeLocal.transform.localScale.x + " y:" + cubeLocal.transform.localScale.y + " z:" + cubeLocal.transform.localScale.z);
//});
// Groups of tweens testing
groupTweens = new LTDescr[1200];
groupGOs = new GameObject[groupTweens.Length];
groupTweensCnt = 0;
var descriptionMatchCount = 0;
for (var i = 0; i < groupTweens.Length; i++)
{
var cube = cubeNamed("c" + i);
cube.transform.position = new Vector3(0, 0, i * 3);
groupGOs[i] = cube;
}
yield return(new WaitForEndOfFrame());
var hasGroupTweensCheckStarted = false;
var setOnStartNum = 0;
var setPosNum = 0;
var setPosOnUpdate = true;
for (var i = 0; i < groupTweens.Length; i++)
{
var finalPos = transform.position + Vector3.one * 3f;
var finalDict = new Dictionary <string, object> {
{ "final", finalPos }, { "go", groupGOs[i] }
};
groupTweens[i] = LeanTween.move(groupGOs[i], finalPos, 3f).setOnStart(() => { setOnStartNum++; })
.setOnUpdate(newPosition =>
{
if (transform.position.z > newPosition.z)
{
setPosOnUpdate = false;
}
// Debug.LogWarning("New Position: " + newPosition.ToString());
}).setOnCompleteParam(finalDict).setOnComplete(param =>
{
var finalDictRetr = param as Dictionary <string, object>;
var neededPos = (Vector3)finalDictRetr["final"];
var tweenedGo = finalDictRetr["go"] as GameObject;
if (neededPos.ToString() == tweenedGo.transform.position.ToString())
{
setPosNum++;
}
if (hasGroupTweensCheckStarted == false)
{
hasGroupTweensCheckStarted = true;
LeanTween.delayedCall(gameObject, 0.1f, () =>
{
LeanTest.expect(setOnStartNum == groupTweens.Length, "SETONSTART CALLS",
"expected:" + groupTweens.Length + " was:" + setOnStartNum);
LeanTest.expect(groupTweensCnt == groupTweens.Length, "GROUP FINISH",
"expected " + groupTweens.Length + " tweens but got " + groupTweensCnt);
LeanTest.expect(setPosNum == groupTweens.Length, "GROUP POSITION FINISH",
"expected " + groupTweens.Length + " tweens but got " + setPosNum);
LeanTest.expect(setPosOnUpdate, "GROUP POSITION ON UPDATE");
});
}
groupTweensCnt++;
});
if (LeanTween.description(groupTweens[i].id).trans == groupTweens[i].trans)
{
descriptionMatchCount++;
}
}
while (LeanTween.tweensRunning < groupTweens.Length)
{
yield return(null);
}
LeanTest.expect(descriptionMatchCount == groupTweens.Length, "GROUP IDS MATCH");
var expectedSearch = groupTweens.Length + 7;
LeanTest.expect(LeanTween.maxSearch <= expectedSearch, "MAX SEARCH OPTIMIZED",
"maxSearch:" + LeanTween.maxSearch + " should be:" + expectedSearch);
LeanTest.expect(LeanTween.isTweening(), "SOMETHING IS TWEENING");
// resume item before calling pause should continue item along it's way
var previousXlt4 = cube4.transform.position.x;
lt4 = LeanTween.moveX(cube4, 5.0f, 1.1f).setOnComplete(() =>
{
LeanTest.expect(cube4 != null && previousXlt4 != cube4.transform.position.x, "RESUME OUT OF ORDER",
"cube4:" + cube4 + " previousXlt4:" + previousXlt4 + " cube4.transform.position.x:" +
(cube4 != null ? cube4.transform.position.x : 0));
}).setDestroyOnComplete(true);
lt4.resume();
rotateRepeat = rotateRepeatAngle = 0;
LeanTween.rotateAround(cube3, Vector3.forward, 360f, 0.1f).setRepeat(3).setOnComplete(rotateRepeatFinished)
.setOnCompleteOnRepeat(true).setDestroyOnComplete(true);
yield return(new WaitForEndOfFrame());
LeanTween.delayedCall(0.1f * 8f + 1f, rotateRepeatAllFinished);
var countBeforeCancel = LeanTween.tweensRunning;
LeanTween.cancel(lt1Id);
LeanTest.expect(countBeforeCancel == LeanTween.tweensRunning, "CANCEL AFTER RESET SHOULD FAIL",
"expected " + countBeforeCancel + " but got " + LeanTween.tweensRunning);
LeanTween.cancel(cube2);
var tweenCount = 0;
for (var i = 0; i < groupTweens.Length; i++)
{
if (LeanTween.isTweening(groupGOs[i]))
{
tweenCount++;
}
if (i % 3 == 0)
{
LeanTween.pause(groupGOs[i]);
}
else if (i % 3 == 1)
{
groupTweens[i].pause();
}
else
{
LeanTween.pause(groupTweens[i].id);
}
}
LeanTest.expect(tweenCount == groupTweens.Length, "GROUP ISTWEENING",
"expected " + groupTweens.Length + " tweens but got " + tweenCount);
yield return(new WaitForEndOfFrame());
tweenCount = 0;
for (var i = 0; i < groupTweens.Length; i++)
{
if (i % 3 == 0)
{
LeanTween.resume(groupGOs[i]);
}
else if (i % 3 == 1)
{
groupTweens[i].resume();
}
else
{
LeanTween.resume(groupTweens[i].id);
}
if (i % 2 == 0 ? LeanTween.isTweening(groupTweens[i].id) : LeanTween.isTweening(groupGOs[i]))
{
tweenCount++;
}
}
LeanTest.expect(tweenCount == groupTweens.Length, "GROUP RESUME");
LeanTest.expect(LeanTween.isTweening(cube1) == false, "CANCEL TWEEN LTDESCR");
LeanTest.expect(LeanTween.isTweening(cube2) == false, "CANCEL TWEEN LEANTWEEN");
LeanTest.expect(pauseCount == 0, "ON UPDATE NOT CALLED DURING PAUSE",
"expect pause count of 0, but got " + pauseCount);
yield return(new WaitForEndOfFrame());
Time.timeScale = 0.25f;
var tweenTime = 0.2f;
var expectedTime = tweenTime * (1f / Time.timeScale);
var start = Time.realtimeSinceStartup;
var onUpdateWasCalled = false;
LeanTween.moveX(cube1, -5f, tweenTime).setOnUpdate((float val) => { onUpdateWasCalled = true; })
.setOnComplete(() =>
{
var end = Time.realtimeSinceStartup;
var diff = end - start;
LeanTest.expect(Mathf.Abs(expectedTime - diff) < 0.06f, "SCALED TIMING DIFFERENCE",
"expected to complete in roughly " + expectedTime + " but completed in " + diff);
LeanTest.expect(Mathf.Approximately(cube1.transform.position.x, -5f), "SCALED ENDING POSITION",
"expected to end at -5f, but it ended at " + cube1.transform.position.x);
LeanTest.expect(onUpdateWasCalled, "ON UPDATE FIRED");
});
var didGetCorrectOnUpdate = false;
LeanTween.value(gameObject, new Vector3(1f, 1f, 1f), new Vector3(10f, 10f, 10f), 1f).setOnUpdate(val =>
{
didGetCorrectOnUpdate = val.x >= 1f && val.y >= 1f && val.z >= 1f;
}).setOnComplete(() => { LeanTest.expect(didGetCorrectOnUpdate, "VECTOR3 CALLBACK CALLED"); });
yield return(new WaitForSeconds(expectedTime));
Time.timeScale = 1f;
var ltCount = 0;
var allGos = FindObjectsOfType(typeof(GameObject)) as GameObject[];
foreach (var go in allGos)
{
if (go.name == "~LeanTween")
{
ltCount++;
}
}
LeanTest.expect(ltCount == 1, "RESET CORRECTLY CLEANS UP");
StartCoroutine(lotsOfCancels());
}