/
tst_vlen.py
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/
tst_vlen.py
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import sys
import unittest
import os
import tempfile
from netCDF4 import Dataset
import numpy as np
from numpy.testing import assert_array_equal
FILE_NAME = tempfile.NamedTemporaryFile(suffix='.nc', delete=False).name
VL_NAME = 'vlen_type'
VL_BASETYPE = np.int16
DIM1_NAME = 'lon'
DIM2_NAME = 'lat'
nlons = 5; nlats = 5
VAR1_NAME = 'ragged'
VAR2_NAME = 'strings'
VAR3_NAME = 'strings_alt'
VAR4_NAME = 'string_scalar'
VAR5_NAME = 'vlen_scalar'
data = np.empty(nlats*nlons,object)
datas = np.empty(nlats*nlons,object)
nn = 0
for n in range(nlats*nlons):
nn = nn + 1
data[n] = np.arange(nn,dtype=VL_BASETYPE)
datas[n] = ''.join([chr(i) for i in range(97,97+nn+1)])
data = np.reshape(data,(nlats,nlons))
datas = np.reshape(datas,(nlats,nlons))
class VariablesTestCase(unittest.TestCase):
def setUp(self):
self.file = FILE_NAME
f = Dataset(self.file,'w')
vlen_t = f.createVLType(VL_BASETYPE, VL_NAME)
f.createDimension(DIM1_NAME,nlons)
f.createDimension(DIM2_NAME,nlats)
ragged = f.createVariable(VAR1_NAME, vlen_t,\
(DIM2_NAME,DIM1_NAME))
strings = f.createVariable(VAR2_NAME, str,
(DIM2_NAME,DIM1_NAME))
strings_alt = f.createVariable(VAR3_NAME, datas.astype(str).dtype,
(DIM2_NAME, DIM1_NAME))
string_scalar = f.createVariable(VAR4_NAME,str,())
vlen_scalar = f.createVariable(VAR5_NAME,vlen_t,())
ragged[:] = data
ragged[-1,-1] = data[-1,-1]
strings[:] = datas
strings[-2,-2] = datas[-2,-2]
strings_alt[:] = datas.astype(str)
string_scalar[...] = 'foo' #issue458
vlen_scalar[...] = np.array([1,2,3],np.int16)
f.close()
def tearDown(self):
# Remove the temporary files
os.remove(self.file)
def runTest(self):
"""testing vlen variables"""
f = Dataset(self.file, 'r')
v = f.variables[VAR1_NAME]
vs = f.variables[VAR2_NAME]
vs_alt = f.variables[VAR3_NAME]
assert list(f.vltypes.keys()) == [VL_NAME]
assert f.vltypes[VL_NAME].dtype == VL_BASETYPE
assert f.variables['string_scalar'][...] == 'foo'
assert_array_equal(f.variables['vlen_scalar'][...],np.array([1,2,3],np.int16))
data2 = v[:]
data2s = vs[:]
for i in range(nlons):
for j in range(nlats):
assert_array_equal(data2[j,i], data[j,i])
assert datas[j,i] == data2s[j,i]
assert_array_equal(datas, vs_alt[:])
f.close()
class TestInvalidDataType(unittest.TestCase):
def runTest(self):
f = Dataset(FILE_NAME, 'w', format='NETCDF3_CLASSIC')
f.createDimension('x', 1)
# using assertRaisesRegext as a context manager
# only works with python >= 2.7 (issue #497)
#with self.assertRaisesRegexp(ValueError, 'strings are only supported'):
# f.createVariable('foo', str, ('x',))
try:
f.createVariable('foo', str, ('x',))
except ValueError:
pass
f.close()
os.remove(FILE_NAME)
class TestScalarVlenString(unittest.TestCase):
# issue 333
def runTest(self):
f = Dataset(FILE_NAME, 'w', format='NETCDF4')
teststring = f.createVariable('teststring', str)
stringout = "yyyymmdd_hhmmss"
teststring[()] = stringout
f.close()
f = Dataset(FILE_NAME)
assert f.variables['teststring'][:] == stringout
f.close()
os.remove(FILE_NAME)
class TestIntegerIndex(unittest.TestCase):
# issue 526
def runTest(self):
strtest = Dataset(FILE_NAME, 'w', format='NETCDF4')
strtest.createDimension('tenstrings', 10)
strtest.createVariable('tenstrings', str, ['tenstrings'])
strtest['tenstrings'][np.int32(5)] = 'asdf'
strtest['tenstrings'][6.0] = 'asdf'
strtest.close()
f = Dataset(FILE_NAME)
assert f.variables['tenstrings'][np.int32(5)] == 'asdf'
assert f.variables['tenstrings'][6.0] == 'asdf'
f.close()
os.remove(FILE_NAME)
class TestObjectArrayIndexing(unittest.TestCase):
def setUp(self):
self.file = FILE_NAME
f = Dataset(self.file,'w')
vlen_t = f.createVLType(VL_BASETYPE, VL_NAME)
f.createDimension(DIM1_NAME,nlons)
f.createDimension(DIM2_NAME,nlats)
strings_alt = f.createVariable(VAR3_NAME, datas.astype(str).dtype,
(DIM2_NAME, DIM1_NAME))
strings_alt[:] = datas.astype(str)
f.close()
def tearDown(self):
# Remove the temporary files
os.remove(self.file)
def runTest(self):
"""testing vlen variables"""
f = Dataset(self.file, 'r')
vs_alt = f.variables[VAR3_NAME]
unicode_strings = vs_alt[:]
fancy_indexed = unicode_strings[0][[1,2,4]]
assert fancy_indexed[0] == 'abc'
assert fancy_indexed[1] == 'abcd'
assert fancy_indexed[2] == 'abcdef'
f.close()
class VlenAppendTestCase(unittest.TestCase):
def setUp(self):
import netCDF4
if netCDF4.__netcdf4libversion__ < "4.4.1":
self.skip = True
try:
self.skipTest("This test requires NetCDF 4.4.1 or later.")
except AttributeError:
# workaround for Python 2.6 (skipTest(reason) is new
# in Python 2.7)
pass
else:
self.skip = False
self.file = FILE_NAME
f = Dataset(self.file, 'w')
vlen_type = f.createVLType(np.float64, 'vltest')
f.createDimension('x', None)
v = f.createVariable('vl', vlen_type, 'x')
w = f.createVariable('vl2', np.float64, 'x')
f.close()
def tearDown(self):
# Remove the temporary files
os.remove(self.file)
def runTest(self):
"""testing appending to vlen variables (issue #527)."""
# workaround for Python 2.6
if self.skip:
return
f = Dataset(self.file, 'a')
w = f.variables["vl2"]
v = f.variables["vl"]
w[0:3] = np.arange(3, dtype=np.float64)
v[0] # sometimes crashes
v[0].tolist() # sometimes crashes
v[0].size # BOOM!
f.close()
class Vlen_ScaledInts(unittest.TestCase):
def setUp(self):
self.file = FILE_NAME
nc = Dataset(self.file, 'w')
vlen_type = nc.createVLType(np.uint8, 'vltest')
nc.createDimension('x', None)
v = nc.createVariable('vl', vlen_type, 'x')
v.scale_factor = 1./254.
v.missing_value=np.array(255,np.uint8)
# random lengths between 1 and 1000
ilen = np.random.randint(1,1000,size=100)
n = 0
for nlen in ilen:
data = np.random.uniform(low=0.0, high=1.0, size=nlen)
v[n] = data
if n==99: self.data = data
n += 1
nc.close()
def tearDown(self):
# Remove the temporary files
os.remove(self.file)
def runTest(self):
"""testing packing float vlens as scaled integers (issue #1003)."""
nc = Dataset(self.file)
data = nc['vl'][-1]
# check max error of compression
err = np.abs(data - self.data)
assert(err.max() < nc['vl'].scale_factor)
# turn off auto-scaling
nc.set_auto_maskandscale(False)
data = nc['vl'][-1]
assert(data[-1] == np.around(self.data[-1]/nc['vl'].scale_factor))
nc.close()
if __name__ == '__main__':
unittest.main()