def run_ccx_cantilevernodeload(solver=None, base_name=None):
from femexamples.ccx_cantilever_std import setup_cantilevernodeload as setup
doc = setup()
if base_name is None:
base_name = "CantileverNodeLoad"
if solver is not None:
base_name += "_" + solver
run_analysis(doc, base_name)
return doc
def run_rcwall2d(solver=None, base_name=None):
from femexamples.rc_wall_2d import setup_rcwall2d as setup
doc = setup()
if base_name is None:
base_name = "RC_FIB_Wall_2D"
if solver is not None:
base_name += "_" + solver
run_analysis(doc, base_name)
return doc
def run_ccx_cantileverprescribeddisplacement(solver=None, base_name=None):
from femexamples.ccx_cantilever_std import setup_cantileverprescribeddisplacement as setup
doc = setup()
if base_name is None:
base_name = "CantileverPrescribedDisplacement"
if solver is not None:
base_name += "_" + solver
run_analysis(doc, base_name)
return doc
def run_ccx_cantileverfaceload(solver=None, base_name=None):
from femexamples.ccx_cantilever_std import setup_cantileverfaceload as setup
doc = setup()
if base_name is None:
base_name = 'CantilverFaceLoad'
if solver is not None:
base_name += ('_' + solver)
run_analysis(doc, base_name)
return doc
def run_ccx_cantilevernodeload(solver=None, base_name=None):
from femexamples.ccx_cantilever_std import setup_cantilevernodeload as setup
doc = setup()
if base_name is None:
base_name = 'CantileverNodeLoad'
if solver is not None:
base_name += ('_' + solver)
run_analysis(doc, base_name)
return doc
def run_ccx_cantileverprescribeddisplacement(solver=None, base_name=None):
from femexamples.ccx_cantilever_std import setup_cantileverprescribeddisplacement as setup
doc = setup()
if base_name is None:
base_name = 'CantileverPrescribedDisplacement'
if solver is not None:
base_name += ('_' + solver)
run_analysis(doc, base_name)
return doc
