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); }); // should be able to retrieve a point LTBezierPath roundCircPath = new LTBezierPath(roundCirc); float ratioPoint = roundCircPath.ratioAtPoint(new Vector3(-25f, 25f, 0f)); LeanTest.expect(Mathf.Equals(ratioPoint, 0.25f), "BEZIER RATIO POINT"); // 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)); }); // Sequence test, do three tweens and make sure they end at the right points GameObject 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 GameObject cubeBounds = cubeNamed("cBounds"); bool didPassBounds = true; Vector3 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; 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 + 7; 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) < 0.06f, "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"); }); 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"); StartCoroutine(lotsOfCancels()); }