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tst_compoundvar.py
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tst_compoundvar.py
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import sys
import unittest
import os
import tempfile
from netCDF4 import Dataset, CompoundType
import numpy as np
from numpy.testing import assert_array_equal, assert_array_almost_equal
# test compound data types.
FILE_NAME = tempfile.NamedTemporaryFile(suffix='.nc', delete=False).name
DIM_NAME = 'phony_dim'
GROUP_NAME = 'phony_group'
VAR_NAME = 'phony_compound_var'
TYPE_NAME1 = 'cmp1'
TYPE_NAME2 = 'cmp2'
TYPE_NAME3 = 'cmp3'
TYPE_NAME4 = 'cmp4'
TYPE_NAME5 = 'cmp5'
DIM_SIZE=3
# unaligned data types (note they are nested)
dtype1=np.dtype([('i', 'i2'), ('j', 'i8')])
dtype2=np.dtype([('x', 'f4',), ('y', 'f8',(3,2))])
dtype3=np.dtype([('xx', dtype1), ('yy', dtype2)])
dtype4=np.dtype([('xxx',dtype3),('yyy','f8', (4,))])
dtype5=np.dtype([('x1', dtype1), ('y1', dtype2)])
# aligned data types
dtype1a = np.dtype({'names':['i','j'],'formats':['<i2','<i8']},align=True)
dtype2a = np.dtype({'names':['x','y'],'formats':['<f4',('<f8', (3, 2))]},align=True)
dtype3a = np.dtype({'names':['xx','yy'],'formats':[dtype1a,dtype2a]},align=True)
dtype4a = np.dtype({'names':['xxx','yyy'],'formats':[dtype3a,('f8', (4,))]},align=True)
dtype5a = np.dtype({'names':['x1','y1'],'formats':[dtype1a,dtype2a]},align=True)
data = np.zeros(DIM_SIZE,dtype4)
data['xxx']['xx']['i']=1
data['xxx']['xx']['j']=2
data['xxx']['yy']['x']=3
data['xxx']['yy']['y']=4
data['yyy'] = 5
datag = np.zeros(DIM_SIZE,dtype5)
datag['x1']['i']=10
datag['x1']['j']=20
datag['y1']['x']=30
datag['y1']['y']=40
class VariablesTestCase(unittest.TestCase):
def setUp(self):
self.file = FILE_NAME
f = Dataset(self.file, 'w')
d = f.createDimension(DIM_NAME,DIM_SIZE)
g = f.createGroup(GROUP_NAME)
# simple compound types.
cmptype1 = f.createCompoundType(dtype1, TYPE_NAME1)
cmptype2 = f.createCompoundType(dtype2, TYPE_NAME2)
# close and reopen the file to make sure compound
# type info read back in correctly.
f.close()
f = Dataset(self.file,'r+')
g = f.groups[GROUP_NAME]
# multiply nested compound types
cmptype3 = f.createCompoundType(dtype3, TYPE_NAME3)
cmptype4 = f.createCompoundType(dtype4, TYPE_NAME4)
cmptype5 = f.createCompoundType(dtype5, TYPE_NAME5)
v = f.createVariable(VAR_NAME,cmptype4, DIM_NAME)
vv = g.createVariable(VAR_NAME,cmptype5, DIM_NAME)
v[:] = data
vv[:] = datag
# try reading the data back before the file is closed
dataout = v[:]
dataoutg = vv[:]
assert (cmptype4 == dtype4a) # data type should be aligned
assert (dataout.dtype == dtype4a) # data type should be aligned
assert(list(f.cmptypes.keys()) ==\
[TYPE_NAME1,TYPE_NAME2,TYPE_NAME3,TYPE_NAME4,TYPE_NAME5])
assert_array_equal(dataout['xxx']['xx']['i'],data['xxx']['xx']['i'])
assert_array_equal(dataout['xxx']['xx']['j'],data['xxx']['xx']['j'])
assert_array_almost_equal(dataout['xxx']['yy']['x'],data['xxx']['yy']['x'])
assert_array_almost_equal(dataout['xxx']['yy']['y'],data['xxx']['yy']['y'])
assert_array_almost_equal(dataout['yyy'],data['yyy'])
assert_array_equal(dataoutg['x1']['i'],datag['x1']['i'])
assert_array_equal(dataoutg['x1']['j'],datag['x1']['j'])
assert_array_almost_equal(dataoutg['y1']['x'],datag['y1']['x'])
assert_array_almost_equal(dataoutg['y1']['y'],datag['y1']['y'])
f.close()
def tearDown(self):
# Remove the temporary files
os.remove(self.file)
#pass
def runTest(self):
"""testing compound variables"""
f = Dataset(self.file, 'r')
v = f.variables[VAR_NAME]
g = f.groups[GROUP_NAME]
vv = g.variables[VAR_NAME]
dataout = v[:]
dataoutg = vv[:]
# make sure data type is aligned
assert (f.cmptypes['cmp4'] == dtype4a)
assert(list(f.cmptypes.keys()) ==\
[TYPE_NAME1,TYPE_NAME2,TYPE_NAME3,TYPE_NAME4,TYPE_NAME5])
assert_array_equal(dataout['xxx']['xx']['i'],data['xxx']['xx']['i'])
assert_array_equal(dataout['xxx']['xx']['j'],data['xxx']['xx']['j'])
assert_array_almost_equal(dataout['xxx']['yy']['x'],data['xxx']['yy']['x'])
assert_array_almost_equal(dataout['xxx']['yy']['y'],data['xxx']['yy']['y'])
assert_array_almost_equal(dataout['yyy'],data['yyy'])
assert_array_equal(dataoutg['x1']['i'],datag['x1']['i'])
assert_array_equal(dataoutg['x1']['j'],datag['x1']['j'])
assert_array_almost_equal(dataoutg['y1']['x'],datag['y1']['x'])
assert_array_almost_equal(dataoutg['y1']['y'],datag['y1']['y'])
f.close()
# issue 773
f = Dataset(self.file,'w')
dtype = np.dtype([('observation', 'i4'),
('station_name','S80')])
dtype_nest = np.dtype([('observation', 'i4'),
('station_name','S80'),
('nested_observation',dtype)])
station_data_t1 = f.createCompoundType(dtype,'station_data1')
station_data_t2 = f.createCompoundType(dtype_nest,'station_data')
f.createDimension('station',None)
statdat = f.createVariable('station_obs', station_data_t2, ('station',))
assert(statdat.dtype == station_data_t2.dtype)
datain = np.empty(2,station_data_t2.dtype_view)
datain['observation'][:] = (123,314)
datain['station_name'][:] = ('Boulder','New York')
datain['nested_observation']['observation'][:] = (-999,999)
datain['nested_observation']['station_name'][:] = ('Boston','Chicago')
statdat[:] = datain
f.close()
f = Dataset(self.file)
dataout = f['station_obs'][:]
assert(dataout.dtype == station_data_t2.dtype_view)
assert_array_equal(datain, dataout)
f.close()
if __name__ == '__main__':
from netCDF4 import getlibversion
version = getlibversion().split()[0]
unittest.main()