// Update is called once per frame
void Update()
{
//update position to follow camera
if (cameraToFollow != null)
{
if (cameraPosOffset != null)
{
transform.position = cameraToFollow.transform.position + cameraPosOffset;
}
// if (cameraRotOffset != null)
// transform.rotation = cameraToFollow.transform.rotation + cameraRotOffset;
}
if (fadingIn)
{
Vector2 newAlpha = interp.Update();
rend.material.shader = Shader.Find("Standard");
rend.material.SetColor("_Color", new Color(0, 0, 0, newAlpha.x));
if (interp.complete)
{
fadingIn = false;
}
}
else if (fadingOut)
{
Vector2 newAlpha = interp.Update();
rend.material.shader = Shader.Find("Standard");
rend.material.SetColor("_Color", new Color(0, 0, 0, newAlpha.x));
if (interp.complete)
{
fadingOut = false;
}
}
else if (triggerFadeOut)
{
// start fade out - TODO this is a 1d vector but i don't have Interpolar1D yet
interp.Initialize(new Vector2(0f, 0f), new Vector2(1f, 0f), fadeOutTime);
fadingOut = true;
}
}
// Update is called once per frame
void Update()
{
if (trigger)
{
trigger = false;
if ((!onlyTrigerOnce) || (!everBeenTriggered))
{
active = true;
animToStart.SetTrigger("TrigFlight");
fadeOutInitialVolume1 = toFadeOut1.volume;
fadeOutInitialVolume2 = toFadeOut2.volume;
// TODO this is a 2d interp being used as two 1D interps
interp.Initialize(new Vector2(0f, 1f), new Vector2(fadeInTargetVolume, 0f), fadeTime);
}
everBeenTriggered = true;
}
if (active)
{
Vector2 values = interp.Update();
toFadeIn.volume = values.x;
toFadeOut1.volume = values.y * fadeOutInitialVolume1;
toFadeOut2.volume = values.y * fadeOutInitialVolume2;
if (interp.complete)
{
active = false;
}
}
}
// Update is called once per frame
void Update()
{
if (!goingNow)
{
if (Time.time > nextStart)
{
StartFlyBy();
}
}
else // goingNow == true
{
if (interp.complete)
{
EndFlyBy();
}
else
{
Vector2 newPos = interp.Update();
Vector3 newPos3D = new Vector3(newPos.x, transform.position.y, newPos.y);
transform.position = newPos3D;
}
}
}
void Update()
{
// if emerging isn't finished and you're not a manager, leave now
if ((manager != this) && (!emergingComplete))
{
return;
}
// no glow rocks exist in the scene yet
if ((manager == this) && (Time.time < timeBeforeEmerge))
{
return;
}
// kick off the emerge behavior
if ((manager == this) && (Time.time >= timeBeforeEmerge) && (!emergingStarted))
{
emergingStarted = true;
// TODO - this is a 2dinterpolator being used as a 1dinterpoolator
interp_emerge.Initialize(new Vector2(0f, 0f), new Vector2(1f, 0f), emergeDuration);
interp_emergeSfx.Initialize(new Vector2(0f, 0f), new Vector2(0.05f, 0f), emergeSfxDuration); // hardcoded from vol 0 to vol 0.05
// enable all glow rocks and turn on all glow rock's render and collider meshes (only)
MeshRenderer myRend = GetComponent <MeshRenderer>();
myRend.enabled = true;
MeshCollider myCol = GetComponent <MeshCollider>();
myCol.enabled = true;
for (int i = 0; i < allRocks.Length; i++)
{
allRocks[i].gameObject.SetActive(true);
MeshRenderer rend = allRocks[i].GetComponent <MeshRenderer>();
rend.enabled = true;
MeshCollider col = allRocks[i].GetComponent <MeshCollider>();
col.enabled = true;
}
return;
}
// continue the emerge behavior
if ((manager == this) && (emergingStarted) && (!emergingComplete))
{
// sfx first
if (emergeSfx != null)
{
emergeSfx.volume = interp_emergeSfx.Update().x;
}
// scale all the glow rocks with the interpolator, up to their stored originalScale
Vector2 vec = interp_emerge.Update();
float newScaleMag = vec.x;
for (int i = 0; i < allRocks.Length; i++)
{
Vector3 newScale = new Vector3(newScaleMag * allRocks[i].originalScale.x, newScaleMag * allRocks[i].originalScale.y, newScaleMag * allRocks[i].originalScale.z);
allRocks[i].transform.localScale = newScale;
}
// manager too
Vector3 myNewScale = new Vector3(newScaleMag * originalScale.x, newScaleMag * originalScale.y, newScaleMag * originalScale.z);
transform.localScale = myNewScale;
// check to see if emerging is complete yet
if (interp_emerge.complete)
{
emergingComplete = true;
TurnStuffOnOff(true);
for (int i = 0; i < allRocks.Length; i++)
{
allRocks[i].TurnStuffOnOff(true);
}
}
return;
}
// if the code gets this far, the emerging process is complete
if ((!emergingComplete) && ((Time.frameCount % 10) == 0))
{
Debug.LogError("emerging should be complete by now");
if (manager == this)
{
Debug.Log("I AM the manager.");
}
else
{
Debug.Log("I am NOT the manager.");
}
}
// LERP the sfx out. this is crappy but whatever
if ((manager == this) && (emergeSfx != null))
{
float percent = (Time.time - emergeDuration - timeBeforeEmerge) / (emergeSfxDuration);
if (percent > 1f)
{
percent = 1f;
}
percent = 1 - percent;
emergeSfx.volume = (0.05f * percent);
}
// put the light directly above the rock in world space, regardless of how the rock moves or rotates
myLight.transform.position = transform.position + new Vector3(0f, myLightHeight, 0f);
// if i'm the manager and it's time to do so, tell all the other rocks to stop auto-triggering after this next one
if ((manager == this) && (Time.time > untriggerAllRocksTime))
{
allRocksTriggered = false;
foreach (GlowRock rock in allRocks)
{
rock.autoTrigEnabled = false;
}
autoTrigEnabled = false; // manager too
}
// ignore new triggers if you're already in the glow behavior
if ((triggered) && (glowStage != GlowStage.Inactive))
{
triggered = false;
}
if ((glowStage == GlowStage.Brighten) || (glowStage == GlowStage.Darken))
{
Vector2 newLight, newEmis;
float newColor;
newLight = interp_light.Update();
newEmis = interp_emis.Update();
newColor = newEmis.x;
myRend.material.shader = Shader.Find("Standard");
myRend.material.SetColor("_EmissionColor", new Color(newColor, newColor, newColor));
myLight.intensity = newLight.x;
if (interp_emis.complete && interp_light.complete)
{
if (glowStage == GlowStage.Brighten)
{
glowStage = GlowStage.Glowing;
glowingStartTime = Time.time;
// slam to max values
myRend.material.shader = Shader.Find("Standard");
myRend.material.SetColor("_EmissionColor", new Color(emisHigh, emisHigh, emisHigh));
myLight.intensity = lightIntensityHigh;
}
else
{
glowStage = GlowStage.Inactive;
// slam to min values
myRend.material.shader = Shader.Find("Standard");
myRend.material.SetColor("_EmissionColor", new Color(emisLow, emisLow, emisLow));
myLight.intensity = lightIntensityLow;
if (autoTrigEnabled)
{
InitAutoTrigger();
}
}
}
} // end Brighten or Darken
else if (glowStage == GlowStage.Glowing)
{
if ((Time.time - glowingStartTime) > glowDuration)
{
glowStage = GlowStage.Darken;
interp_emis.Initialize(new Vector2(emisHigh, 0f), new Vector2(emisLow, 0f), darkenDuration);
interp_light.Initialize(new Vector2(lightIntensityHigh, 0f), new Vector2(lightIntensityLow, 0f), darkenDuration);
}
} // end Glowing
else if (glowStage == GlowStage.Inactive)
{
if (triggered)
{
Trigger(false);
}
else if (autoTrigEnabled)
{
if (Time.time > nextAutoTrigger)
{
Trigger(true);
}
}
} // end Inactive
}