compute displacement list according to a triangulation file and a correspondences file
atet3D%u -cuttingZone [sz&u]
get/set the zone given to new surface triangles
atet3D%u -damping [%f]
get/set the damping factor on all vertices
atet3D%u -deformationMode [no | local | global]
set/get model deformation mode
atet3D%u -destroy
destroy a 3D tetrahedrisation
atet3D%u -distFromRest [L1][L2][linf]
compute normalized distance from rest position
atet3D%u -elasticDamping [%f]
get/set the elastic damping factor on all vertices
atet3D%u -flipNormals
flip the surface normals for display
atet3D%u -forceConstraint [%u]
get the number of force Constraint. If a rank number n is provided then the name of the nth force constraint is returned. If the "delete" keyword is added this force constraint is deleted
Incompressibility constraint forces each tetrahedron to keep the same volume; This option command get/set the incompressibility constraint extent ( value between 0.0 and 1.0)
atet3D%u -integrationMethod [EXPLICIT | HOUBOLT]
set/get time integration method of the tetrahedrisation
atet3D%u -internalEnergy
get the internal energy on the whole mesh
atet3D%u -internalForce [all | %s ]
get/set the name of the internal force applied on the each vertex
atet3D%u -isotropicLameCoefficient [%f %f]
get/set the two Lamé coefficient (lambda,mu) on all tetrahedra
atet3D%u -kind
returns the name of the object kind associated with a given object
atet3D%u -loadOption [moduleName=%s] [true|false]
when no parameters is provided, returns the list of modules. If one module name is provided then returns a boolean indicating if the module should be read. If 2 parameters are provided then set the selection mode of a module for reading
set maximum number of iterations of conjugate gradient for implicit computation
atet3D%u -positionConstraint [%u] [delete]
without any parameters get the number of position Constraint. If a rank number n is provided then the name of the nth position constraint is returned. If the "delete" keyword is added this position constraint is deleted
atet3D%u -pressureConstraint [sz%u %f]
pressure constraint force on a given surface zone
atet3D%u -qualityHistogram
get the histogram of the tetrahedra shape index
atet3D%u -rangeInformation [%u]
change the range Information for an active tetrahedrisation
atet3D%u -readBasicTransformation [filename=%s]
read basic transformation (rot,trans,scale) in file and apply to active tetrahedrization
atet3D%u -recomputeTensors
recompute all elastic tensors
atet3D%u -removeConnectedComponent v%u
remove the connected component coresponding to a given virtual vertex
get the list of possible rendering modes for a tetrahedrisation
atet3D%u -rotate %f %f %f
rotate Tetrahedrisation
atet3D%u -save [filename=%s]
save a 3D tetrahedrisation (using given filename)
atet3D%u -saveAsGHS3D [filename=%s]
save a 3D tetrahedrisation in the GHS3D format (using given filename)
atet3D%u -saveAsPreTr [filename=%s]
save a 3D tetrahedrisation in the Precomputed Tr format (using given filename)
atet3D%u -saveOption [moduleName=%s] [true|false]
when no parameters is provided, returns the list of modules. If one module name is provided then returns a boolean indicating if the module should be saved or not. If 2 parameters are provided then set the selection mode of a module for writing
atet3D%u -saveTr [filename=%s]
save a 3D tetrahedrisation in the Tr format (using given filename)