def test_create_write_read_bladestructure(self):
if not os.path.exists(self.test_dir):
os.makedirs(self.test_dir)
write_bladestructure(self.st3d, os.path.join(self.test_dir, 'test'))
st3dn = read_bladestructure(os.path.join(self.test_dir, 'test'))
self.assertEqual(np.testing.assert_array_equal(
self.st3d['DPs'][:, 4],
st3dn['DPs'][:, 4]), None)
self.assertEqual(np.testing.assert_array_equal(
self.st3d['regions'][2]['thicknesses'][:, 4],
st3dn['regions'][2]['thicknesses'][:, 4]), None)
uniax = self.uniax
self.assertEqual(np.testing.assert_array_equal(
self.st3d['matprops'][1, :],
[uniax.E1,
uniax.E2,
uniax.E3,
uniax.nu12,
uniax.nu13,
uniax.nu23,
uniax.G12,
uniax.G13,
uniax.G23,
uniax.rho,
]), None)
shutil.rmtree(self.test_dir)
def test_create_write_read_bladestructure(self):
if not os.path.exists(self.test_dir):
os.makedirs(self.test_dir)
write_bladestructure(self.st3d, os.path.join(self.test_dir, 'test'))
st3dn = read_bladestructure(os.path.join(self.test_dir, 'test'))
self.assertEqual(
np.testing.assert_array_equal(self.st3d['DPs'][:, 4],
st3dn['DPs'][:, 4]), None)
self.assertEqual(
np.testing.assert_array_equal(
self.st3d['regions'][2]['thicknesses'][:, 4],
st3dn['regions'][2]['thicknesses'][:, 4]), None)
uniax = self.uniax
self.assertEqual(
np.testing.assert_array_equal(self.st3d['matprops'][1, :], [
uniax.E1,
uniax.E2,
uniax.E3,
uniax.nu12,
uniax.nu13,
uniax.nu23,
uniax.G12,
uniax.G13,
uniax.G23,
uniax.rho,
]), None)
shutil.rmtree(self.test_dir)
def test_read_write_read_bladestructure_version_1(self):
if not os.path.exists(self.test_dir):
os.makedirs(self.test_dir)
st3d = read_bladestructure(os.path.join(self.data_version_1, self.blade))
write_bladestructure(st3d, os.path.join(self.test_dir, 'test'))
st3dn = read_bladestructure(os.path.join(self.test_dir, 'test'))
self.assertEqual(np.testing.assert_array_equal(
st3dn['web_def'],
st3d_desired['web_def']), None)
shutil.rmtree(self.test_dir)
def test_read_write_read_bladestructure_version_1(self):
if not os.path.exists(self.test_dir):
os.makedirs(self.test_dir)
st3d = read_bladestructure(os.path.join(self.data_version_1, self.blade))
write_bladestructure(st3d, os.path.join(self.test_dir, 'test'))
st3dn = read_bladestructure(os.path.join(self.test_dir, 'test'))
self.assertEqual(np.testing.assert_array_equal(
st3dn['web_def'],
st3d_desired['web_def']), None)
shutil.rmtree(self.test_dir)
def write_recorded_bladestructure(st3d, db, coordinate, filebase):
data = db[coordinate]['Unknowns']
s = st3d['s']
stnew = {}
stnew['s'] = s
stnew['materials'] = st3d['materials']
stnew['matprops'] = st3d['matprops']
stnew['failcrit'] = st3d['failcrit']
stnew['failmat'] = st3d['failmat']
stnew['web_def'] = st3d['web_def']
stnew['version'] = st3d['version']
nsec = s.shape[0]
nDP = st3d['DPs'].shape[1]
DPs = np.array([data['DP%02d' % i] for i in range(nDP)]).T
stnew['DPs'] = DPs
stnew['regions'] = []
stnew['webs'] = []
for ireg, reg in enumerate(st3d['regions']):
rnew = {}
rnew['layers'] = reg['layers']
nl = len(reg['layers'])
Ts = np.zeros((nsec, nl))
As = np.zeros((nsec, nl))
for i, lname in enumerate(reg['layers']):
varname = 'r%02d%s' % (ireg, lname)
Ts[:, i] = data[varname + 'T']
As[:, i] = data[varname + 'A']
rnew['thicknesses'] = Ts
rnew['angles'] = As
stnew['regions'].append(rnew)
for ireg, reg in enumerate(st3d['webs']):
rnew = {}
rnew['layers'] = reg['layers']
nl = len(reg['layers'])
Ts = np.zeros((nsec, nl))
As = np.zeros((nsec, nl))
for i, lname in enumerate(reg['layers']):
varname = 'w%02d%s' % (ireg, lname)
Ts[:, i] = data[varname + 'T']
As[:, i] = data[varname + 'A']
rnew['thicknesses'] = Ts
rnew['angles'] = As
stnew['webs'].append(rnew)
write_bladestructure(stnew, filebase)
def test_version_2_geo3d(self):
if not os.path.exists(self.test_dir):
os.makedirs(self.test_dir)
st3d = read_bladestructure(os.path.join(self.data_version_2, 'Param2_10MW'))
write_bladestructure(st3d, os.path.join(self.test_dir, 'test'))
st3dn = read_bladestructure(os.path.join(self.test_dir, 'test'))
self.assertEqual(np.testing.assert_array_equal(
st3dn['cap_DPs'],
st3d_desired['cap_DPs']), None)
self.assertEqual(np.testing.assert_array_equal(
st3dn['le_DPs'],
st3d_desired['le_DPs']), None)
self.assertEqual(np.testing.assert_array_equal(
st3dn['te_DPs'],
st3d_desired['te_DPs']), None)
self.assertEqual(np.testing.assert_array_equal(
st3dn['cap_width_ps'],
st3d_desired['cap_width_ps']), None)
shutil.rmtree(self.test_dir)
# read the blade structure including the geo3d file
st3d = read_bladestructure(os.path.join(PATH, 'data_version_2/Param2_10MW'))
# instantiate class with st3d dict and set additional surface params
st = ComputeDPsParam2(st3d,
x=pf['x'],
y=pf['y'],
z=pf['z'],
surface=d.surface)
st.compute()
# save the DPs to new st file
st3d['DPs'] = st.DPs
write_bladestructure(st3d, 'param2_st')
# --- 4 ---
# simple plots
st.plot(coordsys='rotor')
st.plot_topview(coordsys='rotor')
# --- 5 ---
# set the struct_angle to 15 deg
# and shift the main laminates and webs forward
st.struct_angle = 15.
st.cap_center_ss = np.linspace(0.5, 0.0, 20) / 86.366
st.cap_center_ps = np.linspace(0.5, 0.0, 20) / 86.366
import numpy as np
from fusedwind.turbine.structure import read_bladestructure, write_bladestructure, interpolate_bladestructure
st3d = read_bladestructure('data/DTU10MW')
write_bladestructure(st3d, 'test_out')
st3dn = read_bladestructure('test_out')
#s_new = np.linspace(0, 1, 20)
#st3dn = interpolate_bladestructure(r.st3d, s_new)
def write_recorded_bladestructure(st3d, db, coordinate, filebase):
stnew = get_recorded_bladestructure(st3d, db, coordinate)
write_bladestructure(stnew, filebase)
def write_recorded_bladestructure(st3d, db, coordinate, filebase):
stnew = get_recorded_bladestructure(st3d, db, coordinate)
write_bladestructure(stnew, filebase)
