/**
* Loads a 3D Parameter from the specified XMLNode
**/
public Parameter3D LoadXMLParameter3D(XmlNode node)
{
Parameter3D newPar = new Parameter3D();
newPar.alpha = LoadXMLVector3D(node.SelectSingleNode("alpha"));
newPar.beta = LoadXMLVector3D(node.SelectSingleNode("beta"));
newPar.distribution = (Distribution)Enum.Parse(typeof(Distribution),
Convert.ToString(node.SelectSingleNode("distribution").Attributes.GetNamedItem("x").Value));
return newPar;
}
/**
* Loads emitter parameters from XML file.
**/
public void LoadXMLEmitter(XmlDocument emitter)
{
XmlNode emitterPars =
emitter.SelectSingleNode("/ParticleSystem/EmitterParameters");
XmlNode particlePars =
emitter.SelectSingleNode("/ParticleSystem/ParticleParameters");
/**
* Load Emitter Parameters:
**/
//Location = LoadXMLVector3D(emitterPars.SelectSingleNode("location"));
EmitDimensions = LoadXMLVector3D(emitterPars.SelectSingleNode("dimension"));
MaxNumParticles =
(int)(GlobalParticleLevels * Convert.ToInt32(emitterPars.SelectSingleNode("maxNumParticles").
Attributes.GetNamedItem("x").Value));
EmitRate =
(int)(GlobalParticleLevels * Convert.ToInt32(emitterPars.SelectSingleNode("emitRate").
Attributes.GetNamedItem("x").Value));
MeanEmitDelay =
Convert.ToDouble(emitterPars.SelectSingleNode("meanEmitDelay").
Attributes.GetNamedItem("x").Value);
EmitLifetime =
Convert.ToDouble(emitterPars.SelectSingleNode("emitterLifetime").
Attributes.GetNamedItem("x").Value);
PermanentParticles =
Convert.ToBoolean(emitterPars.SelectSingleNode("permanentParticles").
Attributes.GetNamedItem("x").Value);
/**
* Load particle randomization parameters:
**/
position = LoadXMLParameter3D(particlePars.SelectSingleNode("position"));
velocity = LoadXMLParameter3D(particlePars.SelectSingleNode("velocity"));
/**
* Speed and Direction: Not implemented yet.
**/
// speed = LoadXMLParameterDouble(particlePars.SelectSingleNode("speed"));
// direction = LoadXMLParameterDouble(particlePars.SelectSingleNode("direction"));
acceleration = LoadXMLParameter3D(particlePars.SelectSingleNode("acceleration"));
color = LoadXMLParameter3D(particlePars.SelectSingleNode("color"));
angle = LoadXMLParameterDouble(particlePars.SelectSingleNode("angle"));
angularVelocity = LoadXMLParameterDouble(particlePars.SelectSingleNode("angularVelocity"));
transparency = LoadXMLParameterDouble(particlePars.SelectSingleNode("transparency"));
transparencyDelta = LoadXMLParameterDouble(particlePars.SelectSingleNode("transparencyDelta"));
size = LoadXMLParameterDouble(particlePars.SelectSingleNode("size"));
size.alpha *= GlobalScaling;
size.beta *= GlobalScaling;
growth = LoadXMLParameterDouble(particlePars.SelectSingleNode("growth"));
ttl = LoadXMLParameterDouble(particlePars.SelectSingleNode("ttl"));
}
/**
* Transposes a parameter using magnitude and direction to
* one using a 3D vector.
* TODO: Implement.
**/
public Parameter3D MagnitudeDirectionTo3DVector(
ParameterDouble magnitude,
ParameterDouble direction)
{
Parameter3D vector = new Parameter3D();
/**
* Randomly-distributed magnitude and direction variables
* transformed to randomly-distributed 3d x,y,z vectors.
**/
return vector;
}
/// <summary>
/// UNIMPLEMENTED: Transpose magnitude and direction parameters to a 3D (x, y, z)-based one.
/// </summary>
/// <param name="magnitude">The magnitude parameter.</param>
/// <param name="direction">The direction parameter.</param>
/// <returns>Randomly-distributed magnitude and direction variables
/// transformed to randomly-distributed 3D vectors.</returns>
public Parameter3D MagnitudeDirectionTo3DVector(
ParameterDouble magnitude,
ParameterDouble direction)
{
Parameter3D vector = new Parameter3D();
// TODO: Implement.
return vector;
}
