# individual pieces of definition into the user interface.
#
sim = IS( tloop = tl )
sim.configure_traits()
else:
# Tseval for a discretized line domain
#
tseval = DOTSEval( fets_eval = fets_eval )
# Discretization
#
line_domain = MGridDomain( lengths = (3.,1.,0.),
shape = (8,8,0),
n_nodal_dofs = 2,
n_e_nodes_geo = (1,1,0),
n_e_nodes_dof = (1,1,0),
node_map_geo = [0,1,3,2],
node_map_dof = [0,1,3,2] )
# Put the tseval (time-stepper) into the spatial context of the
# discretization and specify the response tracers to evaluate there.
#
right_dof = 2
ts = TS( tse = tseval,
sdomain = line_domain,
bcond_list = [ BCDof(var='u', dof = i, value = 0.) for i in line_domain.get_left_dofs()[:,0] ] +
[ BCDof(var='u', dof = i, value = 0.) for i in line_domain.get_left_dofs()[:,1] ] +
[ BCDof(var='u', dof = i, value = 20 ) for i in line_domain.get_right_dofs()[:,1] ],
rtrace_list = [ RTraceGraph(name = 'Fi,right over u_right (iteration)' ,
var_y = 'F_int', idx_y = right_dof,
from lib.mats.mats2D.mats2D_elastic.mats2D_elastic import MATS2DElastic
from lib.fets.fets2D.fets2D4q9u import FETS2D4Q9U
fets_eval = FETS2D4Q9U(mats_eval = MATS2DElastic())
# Tseval for a discretized line domain
#
tseval = SpDOTSEval( fets_eval = fets_eval )
# Discretization
#
domain = MGridDomain( lengths = (1.,1.,0.),
shape = (1,1,0),
n_nodal_dofs = 2,
# NOTE: the following properties must be defined and
# must correspond to the used element formulation
n_e_nodes_geo = (1,1,0),
n_e_nodes_dof = (2,2,0),
node_map_geo = [0,1,3,2],
node_map_dof = [0,2,8,6,1,5,7,3,4] )
# for i, elem in enumerate( domain.elements ):
# print 'elem.id_number', elem.id_number
# print 'elem.nodes_geo', elem.nodes_geo
# print 'elem.get_X_mtx()', elem.get_X_mtx()
# Put the tseval (time-stepper) into the spatial context of the
# discretization and specify the response tracers to evaluate there.
#
from math import e
# fets_eval = FETS2D9Q(mats_eval = MA2DSca larDamage(strain_norm = Euclidean()))
fets_eval = FETS3D8H(mats_eval = MATS3DElastic())
# Tseval for a discretized line domain
#
tseval = DOTSEval( fets_eval = fets_eval )
# Discretization
#
domain = MGridDomain( lengths = (1., 1., 1.),
shape = (10, 10, 10),
# NOTE: the following properties must be defined and
# must correspond to the used element formulation
n_nodal_dofs = 3,
n_e_nodes_geo = (1, 1, 1),
n_e_nodes_dof = (1, 1, 1),
node_map_geo = [0, 1, 2, 3, 4, 5, 6, 7],
node_map_dof = [0, 1, 2, 3, 4, 5, 6, 7] )
domain.changed = True
# for i, elem in enumerate( domain.elements ):
# print 'elem.id_number', elem.id_number
# print 'elem.nodes_geo', elem.nodes_geo
# print 'elem.get_X_mtx()', elem.get_X_mtx()
# Put the tseval (time-stepper) into the spatial context of the
