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Description

This extension is a geometry modifier. It loads a particle file, or reads particles stored internally and creates instances of the selected geometry at the particles positions. Example of how to create a MaxwellCloner object, add a uv channel, set its custom type to "Density" and enable loading the particle densities array.

CextensionManager* extensionManager = CextensionManager::instance();
CgeometryModifierExtension* geomModifExtension = extensionManager->createGeometryModifierExtension( "MaxwellCloner" );
//Get the extension container. When using this method of getting the container,
//nearly all parameters have default values, and there is no need to explicitly set them.
MXparamList* clonerParams = geomModifExtension->getExtensionData();

//Fill the required data
char* filename = "/home/rocco/Emitter01_00023.bin";
clonerParams->setString( "FileName", filename );

//Get the object we want to clone
Cmaxwell::Cobject mxObject = scene->getObject( "MyGeometry" );
isOk = mxObject.applyGeometryModifierExtension( clonerParams );

 

Parameters

 

Name

Type

Description

"FileName"

char*

Particles filename

"Radius Factor"

float

Particle radius multiplier

"MB Factor"

float

Motion blur multiplier

"Shutter 1/"

float

Camera shutterspeed

"Load particles %"floatPercentage of particles to load
"Create N particles per particle"unsigned intEnables Multipoint feature if N > 0
"Extra particles dispersion"floatDispersion of the extra particles cloud
"Extra particles deformation"floatDeformation of the extra particles cloud
"Load particle Force"byteLoad or not array of Force vectors
"Min Force"floatMinimum force modulus value
"Max Force"floatMaximum force modulus value
"Load particle Vorticity"byteLoad or not array of Vorticity vectors
"Min Vorticity"floatMinimum vorticity modulus value
"Max Vorticity"floatMaximum vorticity modulus value
"Load particle Normal"byteLoad or not array of Normal vectors
"Load particle neighbors no."byteLoad or not array of particle neighbors#
"Min Nneighbors"unsigned intMinimum number of neighbors value
"Max Nneighbors"unsigned intMaximum number of neighbors value"Max Nneighbors"
"Load particle UV"byteLoad or not array of particle UV
"Load particle Age"byteLoad or not array of particle Age
"Min Age"floatMinimum age value
"Max Age"floatMaximum age value
"Load particle Isolation Time"byteLoad or not array of particle isolation time
"Min Isolation Time"floatMinimum isolation time value
"Max Isolation Time"floatMaximum isolation time value
"Load particle Viscosity"byteLoad or not array of particle viscosity
"Min Viscosity"floatMinimum viscosity value
"Max Viscosity"floatMaximum viscosity value
"Load particle Density"byteLoad or not array of particle density
"Min Density"floatMinimum density value
"Max Density"floatMaximum density value
"Load particle Pressure"byteLoad or not array of particle pressure
"Min Pressure"floatMinimum pressure value
"Max Pressure"floatMaximum pressure value
"Load particle Mass"byteLoad or not array of particle mass
"Min Mass"floatMinimum mass value
"Max Mass"floatMaximum mass value
"Load particle Temperature"byteLoad or not array of particle temperature
"Min Temperature"floatMinimum temperature value
"Max Temperature"floatMaximum temperature value
"Load particle ID"byteLoad or not array of particle ID
"PARTICLE_POSITIONS"float*Array of particle positions
"PARTICLE_SPEEDS"float*Array of particle speeds
"PARTICLE_RADII"float*Array of particle radii
"PARTICLE_IDS"int*

Array of particleID's

 

 

UV Generators

NameIndex
"Particle UV"0
"Particle UW"1
"Particle VW"2
"Velocity Modulus"3
"Velocity Vx"4
"Velocity Vy"5
"Velocity Vz"6
"Velocity Vx Vy"7
"Velocity Vx Vz"8
"Velocity Vy Vz"9
"Force Modulus"10
"Force Fx"11
"Force Fy"12
"Force Fz"13
"Force Fx Fy"14
"Force Fx Fz"15
"Force Fy Fz"16
"Vorticity Modulus"17
"Vorticity wx"18
"Vorticity wy"19
"Vorticity wz"20
"Vorticity wx wy"21
"Vorticity wx wz"22
"Vorticity wy wz"23
"Normal Nx"24
"Normal Ny"25
"Normal Nz"26
"Normal Nx Ny"27
"Normal Nx Nz"28
"Normal Ny Nz"29
"No. neighbors"30
"Age"31
"Isolation Time"32
"Viscosity"33
"Density"34
"Pressure"35
"Mass"36
"Temperature"37
"ID"38

 

"FileName"

Name of the file that contains particles data. It is a NULL terminated string.

Example:

char* file = "/home/paco/Emitter01_00049.bin"; 
extParam->setString( "FileName", file ); 

 

"Radius Factor"

Multiplier for the particle radius that is read from the file. Can go from 0.00001 to 1000000 and the default value is 1.

Example:

float rFactor = 0.3f; 
extParam->setFloat( "Radius Factor", rFactor );

 

"MB Factor"

Multiplier to increase or decrease the amount of motion blur of the particles. Can go from 0.0 to 1000000.0. Default is 1.0.

Example:

float factor = 0.3f; 
extParam->setFloat( "MB Factor", factor );


"Shutter 1/"

Shutterspeed of the active camera. Affects the amount of motion of the particles. It is the inverse of the time the shutter is open.

Example:

float shutter = 125.f;
extParam->setFloat( "Shutter 1/", shutter );

 

"Load particles %"

Percentage of particles to load. Can go from 0.0 to 100.0, default value is 100.

Example:

float percent = 75.f; 
extParam->setFloat( "Load particles %", percent );

 

"Create N particles per particle"

This parameter, if set greater than zero, activates the Multipoint feature, creating N more particles around each particle. So, if you have 100 particles and set this parameter to 4, it will create 400 more particles, and the final count will be 500.

Example:

unsigned int nParts = 10;
extParam->setUInt( "Create N particles per particle", nParts );

 

"Extra particles dispersion"

This parameter sets the size of the cloud of extra particles around each original particle. Can go from 0 to 100000. Default is 0.

Example:

float dispersion = 2.f;
extParam->setFloat( "Extra particles dispersion", dispersion );

 

"Extra particles deformation"

Sets the amount of deformation of the new particles cloud along the speed vector of the original particle. Can go from 0 to 100000. Default is 0.

Example:

float deformation = 1.1f;
extParam->setFloat( "Extra particles deformation", deformation );


"Load particle Force" "Load particle Vorticity" "Load particle Normal" "Load particle neighbors no." "Load particle UV" "Load particle Age" "Load particle Isolation Time" "Load particle Viscosity" "Load particle Density" "Load particle Pressure"  "Load particle Mass" "Load particle Temperature" "Load particle ID"


These flags enable the extension to load the magnitudes arrays to be used with the corresponding UV generators. Note that loading every array without later using it with the UV generator is a waste of memory and could slow the render process. Use them only if you need them.

The particle ID array is needed only if the Multipoint feature is used.

byte loadArray = 1;
extParam->setByte( "Load particle Viscosity", loadArray );


"Min Force" "Max Force" "Min Vorticity" "Max Vorticity" "Min Nneighbors" "Max Nneighbors" "Min Age" "Max Age" "Min Isolation Time" "Max Isolation Time" "Min Viscosity" "Max Viscosity" "Min Density" "Max Density" "Min Pressure" "Max Pressure" "Min Mass" "Max Mass" "Min Temperature" "Max Temperature"

These values must be set to normalize the values read from the corresponding magnitudes arrays. For vector magnitudes the max and min values should be the max and min modulus of these vectors.


"PARTICLE_POSITIONS"

Particle data can come whether in a file or internally stored in the .mxs file. If a filename is not supplied, the extension checks for internal data, and if successful, loads it. This parameter is a linear array of floats x0 y0 z0 x1 y1 z1 x2 y2 z2 x3 y3 z3 x4 y4 z4 ...., its length is 3*numberOfParticles.

Example:

int numParticles = 4;
float points[ 3*4 ];
for( int idx = 0; idx < numParticles; idx++ )
{
	points[ 3*idx + 0 ] = (float)idx;
	points[ 3*idx + 1 ] = (float)idx;
	points[ 3*idx + 2 ] = (float)idx;
}
extParam->setFloatArray( "PARTICLE_POSITIONS", points, 3*numParticles );
 

"PARTICLE_SPEEDS"

Linear array of particle speeds, floating point numbers, needed to enable calculation of motion blur: Vx0 Vy0 Vz0 Vx1 Vy1 Vz1 Vx2 Vy2 Vz2...., its length is 3*numberOfParticles.

Example:

int numParticles = 4;
float speeds[ 3*4 ];
for( int idx = 0; idx < numParticles; idx++ )
{
 speeds[ 3*idx + 0 ] = (float)idx;
 speeds[ 3*idx + 1 ] = (float)idx;
 speeds[ 3*idx + 2 ] = (float)idx;
}
extParam->setFloatArray( "PARTICLE_SPEEDS", speeds, 3*numParticles );


"PARTICLE_RADII"

Linear array of particle radii, floating point numbers: r0 r1 r2 r3 r4 r5 r6 .... The length of this array can be either 1 or numParticles. If only one radius is given , it is applied to all the particles, otherwise each particle gets its own radius.

Example:

//Each particle its own radius
int numParticles = 4;
float radius[ 4 ];
for( int idx = 0; idx < numParticles; idx++ )
{
 radius[ idx ] = (float)idx + 0.01f;
}
extParam->setFloatArray( "PARTICLE_RADII", radius, numParticles );

//One radius for all particles
float r = 0.4f;
setFloatArray( "PARTICLE_RADII", &r, 1 );


"PARTICLE_IDS"

Linear array of particle IDs, id0 id1 id2 id3 id4 id5.......needed to enable coherent calculation of multipoint. It is an integer array.

Example:

int numParticles = 3;
int ids[ 3 ];
ids[ 0 ] = 23;
ids[ 1 ] = 9;
ids[ 2 ] = 51;

extParam->setIntArray( "PARTICLE_IDS", ids, numParticles );
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