dr
-
compas.numerical.
dr
(vertices, edges, fixed, loads, qpre, fpre=None, lpre=None, linit=None, E=None, radius=None, kmax=100, dt=1.0, tol1=0.001, tol2=1e-06, c=0.1, callback=None, callback_args=None)[source] Implementation of dynamic relaxation with RK integration scheme in pure Python.
- Parameters
vertices (list) – XYZ coordinates of the vertices.
edges (list) – Connectivity of the vertices.
fixed (list) – Indices of the fixed vertices.
loads (list) – XYZ components of the loads on the vertices.
qpre (list) – Prescribed force densities in the edges.
fpre (list, optional) – Prescribed forces in the edges.
lpre (list, optional) – Prescribed lengths of the edges.
linit (list, optoional) – Initial length of the edges.
E (list, optional) – Stiffness of the edges.
radius (list, optional) – Radius of the edges.
kmax (int, optional) – Maximum number of iterations.
dt (float, optional) – The time step.
tol1 (float, optional) – Convergence criterion for the residual forces.
tol2 (float, optional) – Convergence criterion for the displacements in between interations.
c (float, optional) – Damping factor for viscous damping.
callback (callable, optional) – A user-defined callback that is called after every iteration. The callback will be called with
k
the current iteration,X
the coordinates at iterationk
,crit1, crit2
the values of the stoppage criteria at iterationk
, andcallback_args
the optional additional arguments.callback_args (tuple, optional) – Additional arguments to be passed to the callback.
- Returns
xyz (array) – XYZ coordinates of the equilibrium geometry.
q (array) – Force densities in the edges.
f (array) – Forces in the edges.
l (array) – Lengths of the edges
r (array) – Residual forces.
Examples
>>>