private void LegacyParticleSpeed(float fSpeed)
{
ParticleEmitter pe = this.m_pe;
ParticleAnimator pa = this.m_pa;
ParticleRenderer pr = this.m_pr;
if (pe == null || pr == null)
{
return;
}
Vector3 vector = Vector3.get_one() * fSpeed;
ParticleEmitter expr_3B = pe;
expr_3B.set_minEnergy(expr_3B.get_minEnergy() / fSpeed);
ParticleEmitter expr_49 = pe;
expr_49.set_maxEnergy(expr_49.get_maxEnergy() / fSpeed);
pe.set_worldVelocity(Vector3.Scale(pe.get_worldVelocity(), vector));
pe.set_localVelocity(Vector3.Scale(pe.get_localVelocity(), vector));
pe.set_rndVelocity(Vector3.Scale(pe.get_rndVelocity(), vector));
ParticleEmitter expr_8D = pe;
expr_8D.set_angularVelocity(expr_8D.get_angularVelocity() * fSpeed);
ParticleEmitter expr_9B = pe;
expr_9B.set_rndAngularVelocity(expr_9B.get_rndAngularVelocity() * fSpeed);
ParticleEmitter expr_A9 = pe;
expr_A9.set_emitterVelocityScale(expr_A9.get_emitterVelocityScale() * fSpeed);
if (pa != null)
{
pa.set_rndForce(Vector3.Scale(pa.get_rndForce(), vector));
pa.set_force(Vector3.Scale(pa.get_force(), vector));
}
}
private static int get_rndForce(IntPtr L)
{
object obj = null;
int result;
try
{
obj = ToLua.ToObject(L, 1);
ParticleAnimator particleAnimator = (ParticleAnimator)obj;
Vector3 rndForce = particleAnimator.get_rndForce();
ToLua.Push(L, rndForce);
result = 1;
}
catch (Exception ex)
{
result = LuaDLL.toluaL_exception(L, ex, (obj != null) ? ex.get_Message() : "attempt to index rndForce on a nil value");
}
return(result);
}
private void LegacySetParticle()
{
ParticleEmitter pe = this.m_pe;
ParticleAnimator pa = this.m_pa;
ParticleRenderer pr = this.m_pr;
if (pe == null || pr == null)
{
return;
}
if (this.m_bLegacyRuntimeScale)
{
Vector3 vector = Vector3.get_one() * this.m_fStartSpeedRate;
float fStartSpeedRate = this.m_fStartSpeedRate;
ParticleEmitter expr_53 = pe;
expr_53.set_minSize(expr_53.get_minSize() * this.m_fStartSizeRate);
ParticleEmitter expr_66 = pe;
expr_66.set_maxSize(expr_66.get_maxSize() * this.m_fStartSizeRate);
ParticleEmitter expr_79 = pe;
expr_79.set_minEnergy(expr_79.get_minEnergy() * this.m_fStartLifeTimeRate);
ParticleEmitter expr_8C = pe;
expr_8C.set_maxEnergy(expr_8C.get_maxEnergy() * this.m_fStartLifeTimeRate);
ParticleEmitter expr_9F = pe;
expr_9F.set_minEmission(expr_9F.get_minEmission() * this.m_fStartEmissionRate);
ParticleEmitter expr_B2 = pe;
expr_B2.set_maxEmission(expr_B2.get_maxEmission() * this.m_fStartEmissionRate);
pe.set_worldVelocity(Vector3.Scale(pe.get_worldVelocity(), vector));
pe.set_localVelocity(Vector3.Scale(pe.get_localVelocity(), vector));
pe.set_rndVelocity(Vector3.Scale(pe.get_rndVelocity(), vector));
ParticleEmitter expr_FB = pe;
expr_FB.set_angularVelocity(expr_FB.get_angularVelocity() * fStartSpeedRate);
ParticleEmitter expr_10A = pe;
expr_10A.set_rndAngularVelocity(expr_10A.get_rndAngularVelocity() * fStartSpeedRate);
ParticleEmitter expr_119 = pe;
expr_119.set_emitterVelocityScale(expr_119.get_emitterVelocityScale() * fStartSpeedRate);
if (pa != null)
{
pa.set_rndForce(Vector3.Scale(pa.get_rndForce(), vector));
pa.set_force(Vector3.Scale(pa.get_force(), vector));
}
ParticleRenderer expr_158 = pr;
expr_158.set_lengthScale(expr_158.get_lengthScale() * this.m_fRenderLengthRate);
}
else
{
Vector3 vector2 = ((!this.m_bScaleWithTransform) ? Vector3.get_one() : pe.get_transform().get_lossyScale()) * this.m_fStartSpeedRate;
float num = ((!this.m_bScaleWithTransform) ? 1f : NcTransformTool.GetTransformScaleMeanValue(pe.get_transform())) * this.m_fStartSpeedRate;
float num2 = ((!this.m_bScaleWithTransform) ? 1f : NcTransformTool.GetTransformScaleMeanValue(pe.get_transform())) * this.m_fStartSizeRate;
ParticleEmitter expr_1EF = pe;
expr_1EF.set_minSize(expr_1EF.get_minSize() * num2);
ParticleEmitter expr_1FE = pe;
expr_1FE.set_maxSize(expr_1FE.get_maxSize() * num2);
ParticleEmitter expr_20D = pe;
expr_20D.set_minEnergy(expr_20D.get_minEnergy() * this.m_fStartLifeTimeRate);
ParticleEmitter expr_220 = pe;
expr_220.set_maxEnergy(expr_220.get_maxEnergy() * this.m_fStartLifeTimeRate);
ParticleEmitter expr_233 = pe;
expr_233.set_minEmission(expr_233.get_minEmission() * this.m_fStartEmissionRate);
ParticleEmitter expr_246 = pe;
expr_246.set_maxEmission(expr_246.get_maxEmission() * this.m_fStartEmissionRate);
pe.set_worldVelocity(Vector3.Scale(pe.get_worldVelocity(), vector2));
pe.set_localVelocity(Vector3.Scale(pe.get_localVelocity(), vector2));
pe.set_rndVelocity(Vector3.Scale(pe.get_rndVelocity(), vector2));
ParticleEmitter expr_292 = pe;
expr_292.set_angularVelocity(expr_292.get_angularVelocity() * num);
ParticleEmitter expr_2A1 = pe;
expr_2A1.set_rndAngularVelocity(expr_2A1.get_rndAngularVelocity() * num);
ParticleEmitter expr_2B0 = pe;
expr_2B0.set_emitterVelocityScale(expr_2B0.get_emitterVelocityScale() * num);
if (pa != null)
{
pa.set_rndForce(Vector3.Scale(pa.get_rndForce(), vector2));
pa.set_force(Vector3.Scale(pa.get_force(), vector2));
}
ParticleRenderer expr_2F1 = pr;
expr_2F1.set_lengthScale(expr_2F1.get_lengthScale() * this.m_fRenderLengthRate);
}
}