VRMLFeatures Struct Reference

#include <CreateVRML.h>

Data Fields
double	dt
char *	geomFilename
char *	geomFilename
char *	geomFilename
char *	geomFilename
char *	geomFilename
char *	geomFilename
char *	geomFilename
char **	jointsNames
char **	jointsNames
char **	jointsNames
char **	jointsNames
char **	jointsNames
char **	jointsNames
char **	jointsNames
double *	jointsPos
double *	jointsPos
double *	jointsPos
double *	jointsPos
double *	jointsPos
double *	jointsPos
double *	jointsPos
double *	jointsRot
double *	jointsRot
double *	jointsRot
double *	jointsRot
double *	jointsRot
double *	jointsRot
double *	jointsRot
double	markerColor [3]
char **	markerNames
double *	markerPos
int	nbJoints
int	nbMarker
int	nbPhysVec
int	nbSamples
char *	outputFilename
char *	outputFilename
char *	outputFilename
char *	outputFilename
char *	outputFilename
char *	outputFilename
char *	outputFilename
char **	physVecNames
char **	physVecNames
char **	physVecNames
char **	physVecNames
char **	physVecNames
char **	physVecNames
char **	physVecNames
double *	physVecPos
double *	physVecPos
double *	physVecPos
double *	physVecPos
double *	physVecPos
double *	physVecPos
double *	physVecPos
double *	physVecRGB
double *	physVecRGB
double *	physVecRGB
double *	physVecRGB
double *	physVecRGB
double *	physVecRGB
double *	physVecRGB
double *	physVecRot
double *	physVecRot
double *	physVecRot
double *	physVecRot
double *	physVecRot
double *	physVecRot
double *	physVecRot
double *	physVecScale
double *	physVecScale
double *	physVecScale
double *	physVecScale
double *	physVecScale
double *	physVecScale
double *	physVecScale
int	useJava

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Field Documentation

double VRMLFeatures::dt

dt (double) the time samples step

char* VRMLFeatures::geomFilename

geomFilename (char *) name of the input file describing h-anim compliant geometry

char* VRMLFeatures::geomFilename

geomFilename (char *) name of the input file describing h-anim compliant geometry

char* VRMLFeatures::geomFilename

geomFilename (char *) name of the input file describing h-anim compliant geometry

char* VRMLFeatures::geomFilename

geomFilename (char *) name of the input file describing h-anim compliant geometry

char* VRMLFeatures::geomFilename

geomFilename (char *) name of the input file describing h-anim compliant geometry

char* VRMLFeatures::geomFilename

geomFilename (char *) name of the input file describing h-anim compliant geometry

char* VRMLFeatures::geomFilename

geomFilename (char *) name of the input file describing h-anim compliant geometry

char** VRMLFeatures::jointsNames

jointsNames (char **) names of the joints

char** VRMLFeatures::jointsNames

jointsNames (char **) names of the joints

char** VRMLFeatures::jointsNames

jointsNames (char **) names of the joints

char** VRMLFeatures::jointsNames

jointsNames (char **) names of the joints

char** VRMLFeatures::jointsNames

jointsNames (char **) names of the joints

char** VRMLFeatures::jointsNames

jointsNames (char **) names of the joints

char** VRMLFeatures::jointsNames

jointsNames (char **) names of the joints

double* VRMLFeatures::jointsPos

pos (double *) the vector containing the root x y z position for every time sample ( [nbSamples x 3] )

double* VRMLFeatures::jointsPos

pos (double *) the vector containing the root x y z position for every time sample ( [nbSamples x 3] )

double* VRMLFeatures::jointsPos

pos (double *) the vector containing the root x y z position for every time sample ( [nbSamples x 3] )

double* VRMLFeatures::jointsPos

pos (double *) the vector containing the root x y z position for every time sample ( [nbSamples x 3] )

double* VRMLFeatures::jointsPos

pos (double *) the vector containing the root x y z position for every time sample ( [nbSamples x 3] )

double* VRMLFeatures::jointsPos

pos (double *) the vector containing the root x y z position for every time sample ( [nbSamples x 3] )

double* VRMLFeatures::jointsPos

pos (double *) the vector containing the root x y z position for every time sample ( [nbSamples x 3] )

double* VRMLFeatures::jointsRot

rot (double *) the matrix containing each joint quaternion for every time sample ( [nbSamples x nbJoints x 4] )

double* VRMLFeatures::jointsRot

rot (double *) the matrix containing each joint quaternion for every time sample ( [nbSamples x nbJoints x 4] )

double* VRMLFeatures::jointsRot

rot (double *) the matrix containing each joint quaternion for every time sample ( [nbSamples x nbJoints x 4] )

double* VRMLFeatures::jointsRot

rot (double *) the matrix containing each joint quaternion for every time sample ( [nbSamples x nbJoints x 4] )

double* VRMLFeatures::jointsRot

rot (double *) the matrix containing each joint quaternion for every time sample ( [nbSamples x nbJoints x 4] )

double* VRMLFeatures::jointsRot

rot (double *) the matrix containing each joint quaternion for every time sample ( [nbSamples x nbJoints x 4] )

double* VRMLFeatures::jointsRot

rot (double *) the matrix containing each joint quaternion for every time sample ( [nbSamples x nbJoints x 4] )

double VRMLFeatures::markerColor[3]

markerColor (double[3]) the color of markers red by default

char** VRMLFeatures::markerNames

markerNames (char **) names of the led markers

double* VRMLFeatures::markerPos

markerPos (double *) the vector containing each led marker x y z position for every time sample ( [nbSamples x nbMarker x 3] )

int VRMLFeatures::nbJoints

nbJoints (int) the number of joints

int VRMLFeatures::nbMarker

nbMarkers (int) the number of led markers set up on the body

int VRMLFeatures::nbPhysVec

nbPhysVec (int) number of physical vectors to display, 0 by default

int VRMLFeatures::nbSamples

nbSamples (int) the number of time samples

char* VRMLFeatures::outputFilename

outputFilename (char *) name of the file to create

char* VRMLFeatures::outputFilename

outputFilename (char *) name of the file to create

char* VRMLFeatures::outputFilename

outputFilename (char *) name of the file to create

char* VRMLFeatures::outputFilename

outputFilename (char *) name of the file to create

char* VRMLFeatures::outputFilename

outputFilename (char *) name of the file to create

char* VRMLFeatures::outputFilename

outputFilename (char *) name of the file to create

char* VRMLFeatures::outputFilename

outputFilename (char *) name of the file to create

char** VRMLFeatures::physVecNames

physVecNames (char **) names of the physical vectors

char** VRMLFeatures::physVecNames

physVecNames (char **) names of the physical vectors

char** VRMLFeatures::physVecNames

physVecNames (char **) names of the physical vectors

char** VRMLFeatures::physVecNames

physVecNames (char **) names of the physical vectors

char** VRMLFeatures::physVecNames

physVecNames (char **) names of the physical vectors

char** VRMLFeatures::physVecNames

physVecNames (char **) names of the physical vectors

char** VRMLFeatures::physVecNames

physVecNames (char **) names of the physical vectors

double* VRMLFeatures::physVecPos

physVecPos (double *) the vector containing each physical vector x y z position for every time sample ( [nbSamples x nbPhysVec x 3] )

double* VRMLFeatures::physVecPos

physVecPos (double *) the vector containing each physical vector x y z position for every time sample ( [nbSamples x nbPhysVec X 3] )

double* VRMLFeatures::physVecPos

physVecPos (double *) the vector containing each physical vector x y z position for every time sample ( [nbSamples x nbPhysVec X 3] )

double* VRMLFeatures::physVecPos

physVecPos (double *) the vector containing each physical vector x y z position for every time sample ( [nbSamples x nbPhysVec X 3] )

double* VRMLFeatures::physVecPos

physVecPos (double *) the vector containing each physical vector x y z position for every time sample ( [nbSamples x nbPhysVec X 3] )

double* VRMLFeatures::physVecPos

physVecPos (double *) the vector containing each physical vector x y z position for every time sample ( [nbSamples x nbPhysVec X 3] )

double* VRMLFeatures::physVecPos

physVecPos (double *) the vector containing each physical vector x y z position for every time sample ( [nbSamples x nbPhysVec X 3] )

double* VRMLFeatures::physVecRGB

physVecRGB (double *) the matrix containing RGB colors for every physical vector ( [nbPhysVec x 3] )

double* VRMLFeatures::physVecRGB

physVecRGB (double *) the matrix containing RGB colors for every physical vector ( [nbPhysVec x 3] )

double* VRMLFeatures::physVecRGB

physVecRGB (double *) the matrix containing RGB colors for every physical vector ( [nbPhysVec x 3] )

double* VRMLFeatures::physVecRGB

physVecRGB (double *) the matrix containing RGB colors for every physical vector ( [nbPhysVec x 3] )

double* VRMLFeatures::physVecRGB

physVecRGB (double *) the matrix containing RGB colors for every physical vector ( [nbPhysVec x 3] )

double* VRMLFeatures::physVecRGB

physVecRGB (double *) the matrix containing RGB colors for every physical vector ( [nbPhysVec x 3] )

double* VRMLFeatures::physVecRGB

physVecRGB (double *) the matrix containing RGB colors for every physical vector ( [nbPhysVec x 3] )

double* VRMLFeatures::physVecRot

physVecRot (double *) the matrix containing each physical vector quaternion for every time sample ( [nbSamples x nbPhysVec x 4] )

double* VRMLFeatures::physVecRot

physVecRot (double *) the matrix containing each physical vector quaternion for every time sample ( [nbSamples x nbPhysVec x 4] )

double* VRMLFeatures::physVecRot

physVecRot (double *) the matrix containing each physical vector quaternion for every time sample ( [nbSamples x nbPhysVec x 4] )

double* VRMLFeatures::physVecRot

physVecRot (double *) the matrix containing each physical vector quaternion for every time sample ( [nbSamples x nbPhysVec x 4] )

double* VRMLFeatures::physVecRot

physVecRot (double *) the matrix containing each physical vector quaternion for every time sample ( [nbSamples x nbPhysVec x 4] )

double* VRMLFeatures::physVecRot

physVecRot (double *) the matrix containing each physical vector quaternion for every time sample ( [nbSamples x nbPhysVec x 4] )

double* VRMLFeatures::physVecRot

physVecRot (double *) the matrix containing each physical vector quaternion for every time sample ( [nbSamples x nbPhysVec x 4] )

double* VRMLFeatures::physVecScale

physVecScale (double *) the matrix containing each physical vector x y z scale for every time sample ( [nbSamples x nbnbPhysvec x 3] )

double* VRMLFeatures::physVecScale

physVecScale (double *) the matrix containing each physical vector x y z scale for every time sample ( [nbSamples x nbnbPhysvec x 3] )

double* VRMLFeatures::physVecScale

physVecScale (double *) the matrix containing each physical vector x y z scale for every time sample ( [nbSamples x nbnbPhysvec x 3] )

double* VRMLFeatures::physVecScale

physVecScale (double *) the matrix containing each physical vector x y z scale for every time sample ( [nbSamples x nbnbPhysvec x 3] )

double* VRMLFeatures::physVecScale

physVecScale (double *) the matrix containing each physical vector x y z scale for every time sample ( [nbSamples x nbnbPhysvec x 3] )

double* VRMLFeatures::physVecScale

physVecScale (double *) the matrix containing each physical vector x y z scale for every time sample ( [nbSamples x nbnbPhysvec x 3] )

double* VRMLFeatures::physVecScale

physVecScale (double *) the matrix containing each physical vector x y z scale for every time sample ( [nbSamples x nbnbPhysvec x 3] )

int VRMLFeatures::useJava

flag to enable the use of java script nodes to use transparency when displaying physical vectors and an improved interface

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The documentation for this struct was generated from the following files:

• Bip/CreateVRML.h
• Human/CreateVRML.h
• Human36/CreateVRML.h
• Kondo-KHR1/CreateVRML.h
• PA10/CreateVRML.h
• RX90/CreateVRML.h
• CreateVRMLWithMarkers.h

HuMAnS

humans-users@inrialpes.fr

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