class turbsimGroup(Group):
def __init__(self):
super(turbsimGroup, self).__init__()
self.reader = turbsimReader()
self.writer = TurbsimBuilder()
self.wrapper = Turbsim_wrapper()
self.run_dir = self.writer.run_dir
def execute(self):
#def solve_nonlinear(self, params, unknowns, resids):
if not os.path.exists(self.run_dir): os.makedirs(self.run_dir)
self.writer.run_dir = self.run_dir
self.reader.run_dir = self.run_dir
self.wrapper.run_dir = self.run_dir
self.writer.turbsim_vt = self.reader.turbsim_vt
self.writer.execute()
self.wrapper.execute()
class turbsimGroup(Group):
def __init__(self):
super(turbsimGroup, self).__init__()
self.reader = turbsimReader()
self.writer = TurbsimBuilder()
self.wrapper = Turbsim_wrapper()
self.run_dir = self.writer.run_dir
def execute(self):
#def solve_nonlinear(self, params, unknowns, resids):
if not os.path.exists(self.run_dir): os.makedirs(self.run_dir)
self.writer.run_dir = self.run_dir
self.reader.run_dir = self.run_dir
self.wrapper.run_dir = self.run_dir
self.writer.turbsim_vt = self.reader.turbsim_vt
self.writer.execute()
self.wrapper.execute()
def execute(self, IEC_WindType, Uref, ver='Turbsim'):
self.IEC_WindType = IEC_WindType
self.Uref = Uref
turbsim_vt = self.setup()
writer = TurbsimBuilder()
if ver.lower() == 'turbsim':
wrapper = Turbsim_wrapper()
if ver.lower() =='pyturbsim':
wrapper = pyTurbsim_wrapper()
# if self.case_name[-3:] != '.in':
# self.case_name = self.case_name + '.in'
# self.case_name += '_U%1.1f'%self.Uref + '_Seed%1.1f'%self.seed
# self.case_name += '_U%d'%self.Uref + '_Seed%d.in'%self.seed
case_name = self.case_name + '_U%1.6f'%self.Uref + '_Seed%1.1f'%self.seed
tsim_input_file = case_name + '.in'
wind_file_out = case_name + '.bts'
# If wind file already exists and overwriting is turned off, skip wind file write
if os.path.exists(os.path.join(self.outdir, wind_file_out)) and not self.overwrite:
return wind_file_out, 3
# Run wind file generation
else:
writer.turbsim_vt = turbsim_vt
writer.run_dir = self.outdir
writer.tsim_input_file = tsim_input_file
writer.execute()
wrapper.turbsim_input = os.path.realpath(os.path.join(writer.run_dir, writer.tsim_input_file))
wrapper.run_dir = writer.run_dir
wrapper.turbsim_exe = self.Turbsim_exe
wrapper.debug_level = self.debug_level
wrapper.execute()
return wind_file_out, 3
class TurbsimWorkflow(Component):
""" An OpenMDAO Component for running the FST (FAST) workflow
This class is a basic workflow utlizing the FST reader, writer, and wrapper
in OpenMDAO. User is expected to subclass or modify
this class to enable OpenMDAO-style connectivity to FAST variables of interest."""
def __init__(self, config, case):
""" A FAST component that executes the workflow. Takes a single dictionary, config, as well as a case
name as the input. Executes FAST workflow in the associated case running directory.
"""
super(TurbsimWorkflow, self).__init__()
# Initialize objects
self.reader = turbsimReader()
self.writer = TurbsimBuilder()
self.wrapper = Turbsim_wrapper()
for key in config:
if key == 'Turbsim_masterfile':
self.reader.Turbsim_masterfile = config[key]
#print self.reader.Turbsim_masterfile
elif key == 'Turbsim_masterdir':
self.reader.Turbsim_masterdir = config[key]
#print self.reader.Turbsim_masterdir
elif key == 'Turbsim_runfile':
self.writer.Turbsim_runfile = config[key]
#print self.writer.Turbsim_runfile
elif key == 'Turbsim_rundir':
self.writer.Turbsim_rundir = config[key]
#print self.writer.Turbsim_rundir
elif key == 'Turbsim_exe':
self.wrapper.Turbsim_exe = config[key]
#print self.wrapper.Turbsim_exe
self.reader.execute() #Read/populate vartrees
self.writer.turbsim_vt = self.reader.turbsim_vt #Pass vartrees from reader to write
self.writer.InputConfig(
**config) #Edit vartrees according to keys in config dictionary
# Pass file and directory names from writer to wrapper
self.wrapper.Turbsim_runfile = self.writer.Turbsim_runfile
self.wrapper.Turbsim_rundir = self.writer.Turbsim_rundir
#print 'check wrapper rundir'
#print self.wrapper.Turbsim_rundir
#print 'writer rundir'
#print self.writer.Turbsim_rundir
#print 'check wrapper runfile'
#print self.wrapper.Turbsim_runfile
#print 'writer runfile'
#print self.writer.Turbsim_runfile
def solve_nonlinear(self, params, unknowns, resids):
# Create running directory if it doesn't exist
if not os.path.isdir(self.writer.Turbsim_rundir):
os.makedirs(self.writer.Turbsim_rundir)
# Write new analysis files
self.writer.execute()
# Execute analysis
self.wrapper.execute()
from AeroelasticSE.Turbsim_mdao.turbsim_writer import TurbsimBuilder
from AeroelasticSE.Turbsim_mdao.turbsim_wrapper import Turbsim_wrapper
from AeroelasticSE.Turbsim_mdao.turbsim_reader import turbsimReader
reader = turbsimReader()
writer = TurbsimBuilder()
wrapper = Turbsim_wrapper()
reader.read_input_file('TurbsimInputFiles/test01.inp')
writer.turbsim_vt = reader.turbsim_vt
writer.turbsim_vt.spatialcoherance.CohExp = 0.1
writer.turbulence_template = 'TurbsimInputFiles/turbulence_user.inp'
writer.run_dir = 'test'
writer.execute()
wrapper.run_dir = writer.run_dir
wrapper.turbsim_exe = 'TurbSim_x64.exe'
wrapper.execute()
from AeroelasticSE.Turbsim_mdao.turbsim_writer import TurbsimBuilder
from AeroelasticSE.Turbsim_mdao.turbsim_wrapper import Turbsim_wrapper
from AeroelasticSE.Turbsim_mdao.turbsim_reader import turbsimReader
reader = turbsimReader()
writer = TurbsimBuilder()
wrapper = Turbsim_wrapper()
reader.read_input_file('TurbsimInputFiles/test01.inp')
writer.turbsim_vt = reader.turbsim_vt
writer.turbsim_vt.spatialcoherance.CohExp = 0.1
writer.turbulence_template = 'TurbsimInputFiles/turbulence_user.inp'
writer.run_dir = 'test'
writer.execute()
wrapper.run_dir = writer.run_dir
wrapper.turbsim_exe = '/Users/jquick/SE/TurbSim/bin/TurbSim_glin64'
wrapper.execute()