| Current File : //proc/self/root/proc/self/root/lib64/python2.7/site-packages/numpy/ma/tests/test_mrecords.py |
# pylint: disable-msg=W0611, W0612, W0511,R0201
"""Tests suite for mrecords.
:author: Pierre Gerard-Marchant
:contact: pierregm_at_uga_dot_edu
"""
__author__ = "Pierre GF Gerard-Marchant ($Author: jarrod.millman $)"
__revision__ = "$Revision: 3473 $"
__date__ = '$Date: 2007-10-29 17:18:13 +0200 (Mon, 29 Oct 2007) $'
import sys
import numpy as np
from numpy import recarray
from numpy.core.records import fromrecords as recfromrecords, \
fromarrays as recfromarrays
from numpy.compat import asbytes, asbytes_nested
import numpy.ma.testutils
from numpy.ma.testutils import *
import numpy.ma as ma
from numpy.ma import masked, nomask
import warnings
from numpy.testing.utils import WarningManager
from numpy.ma.mrecords import MaskedRecords, mrecarray, fromarrays, \
fromtextfile, fromrecords, addfield
#..............................................................................
class TestMRecords(TestCase):
"Base test class for MaskedArrays."
def __init__(self, *args, **kwds):
TestCase.__init__(self, *args, **kwds)
self.setup()
def setup(self):
"Generic setup"
ilist = [1,2,3,4,5]
flist = [1.1,2.2,3.3,4.4,5.5]
slist = asbytes_nested(['one','two','three','four','five'])
ddtype = [('a',int),('b',float),('c','|S8')]
mask = [0,1,0,0,1]
self.base = ma.array(list(zip(ilist,flist,slist)),
mask=mask, dtype=ddtype)
def test_byview(self):
"Test creation by view"
base = self.base
mbase = base.view(mrecarray)
assert_equal(mbase.recordmask, base.recordmask)
assert_equal_records(mbase._mask, base._mask)
assert_(isinstance(mbase._data, recarray))
assert_equal_records(mbase._data, base._data.view(recarray))
for field in ('a','b','c'):
assert_equal(base[field], mbase[field])
assert_equal_records(mbase.view(mrecarray), mbase)
def test_get(self):
"Tests fields retrieval"
base = self.base.copy()
mbase = base.view(mrecarray)
# As fields..........
for field in ('a','b','c'):
assert_equal(getattr(mbase,field), mbase[field])
assert_equal(base[field], mbase[field])
# as elements .......
mbase_first = mbase[0]
assert_(isinstance(mbase_first, mrecarray))
assert_equal(mbase_first.dtype, mbase.dtype)
assert_equal(mbase_first.tolist(), (1,1.1,asbytes('one')))
# Used to be mask, now it's recordmask
assert_equal(mbase_first.recordmask, nomask)
assert_equal(mbase_first._mask.item(), (False, False, False))
assert_equal(mbase_first['a'], mbase['a'][0])
mbase_last = mbase[-1]
assert_(isinstance(mbase_last, mrecarray))
assert_equal(mbase_last.dtype, mbase.dtype)
assert_equal(mbase_last.tolist(), (None,None,None))
# Used to be mask, now it's recordmask
assert_equal(mbase_last.recordmask, True)
assert_equal(mbase_last._mask.item(), (True, True, True))
assert_equal(mbase_last['a'], mbase['a'][-1])
assert_((mbase_last['a'] is masked))
# as slice ..........
mbase_sl = mbase[:2]
assert_(isinstance(mbase_sl, mrecarray))
assert_equal(mbase_sl.dtype, mbase.dtype)
# Used to be mask, now it's recordmask
assert_equal(mbase_sl.recordmask, [0,1])
assert_equal_records(mbase_sl.mask,
np.array([(False,False,False),(True,True,True)],
dtype=mbase._mask.dtype))
assert_equal_records(mbase_sl, base[:2].view(mrecarray))
for field in ('a','b','c'):
assert_equal(getattr(mbase_sl,field), base[:2][field])
def test_set_fields(self):
"Tests setting fields."
base = self.base.copy()
mbase = base.view(mrecarray)
mbase = mbase.copy()
mbase.fill_value = (999999,1e20,'N/A')
# Change the data, the mask should be conserved
mbase.a._data[:] = 5
assert_equal(mbase['a']._data, [5,5,5,5,5])
assert_equal(mbase['a']._mask, [0,1,0,0,1])
# Change the elements, and the mask will follow
mbase.a = 1
assert_equal(mbase['a']._data, [1]*5)
assert_equal(ma.getmaskarray(mbase['a']), [0]*5)
# Use to be _mask, now it's recordmask
assert_equal(mbase.recordmask, [False]*5)
assert_equal(mbase._mask.tolist(),
np.array([(0,0,0),(0,1,1),(0,0,0),(0,0,0),(0,1,1)],
dtype=bool))
# Set a field to mask ........................
mbase.c = masked
# Use to be mask, and now it's still mask !
assert_equal(mbase.c.mask, [1]*5)
assert_equal(mbase.c.recordmask, [1]*5)
assert_equal(ma.getmaskarray(mbase['c']), [1]*5)
assert_equal(ma.getdata(mbase['c']), [asbytes('N/A')]*5)
assert_equal(mbase._mask.tolist(),
np.array([(0,0,1),(0,1,1),(0,0,1),(0,0,1),(0,1,1)],
dtype=bool))
# Set fields by slices .......................
mbase = base.view(mrecarray).copy()
mbase.a[3:] = 5
assert_equal(mbase.a, [1,2,3,5,5])
assert_equal(mbase.a._mask, [0,1,0,0,0])
mbase.b[3:] = masked
assert_equal(mbase.b, base['b'])
assert_equal(mbase.b._mask, [0,1,0,1,1])
# Set fields globally..........................
ndtype = [('alpha','|S1'),('num',int)]
data = ma.array([('a',1),('b',2),('c',3)], dtype=ndtype)
rdata = data.view(MaskedRecords)
val = ma.array([10,20,30], mask=[1,0,0])
#
warn_ctx = WarningManager()
warn_ctx.__enter__()
try:
warnings.simplefilter("ignore")
rdata['num'] = val
assert_equal(rdata.num, val)
assert_equal(rdata.num.mask, [1,0,0])
finally:
warn_ctx.__exit__()
def test_set_fields_mask(self):
"Tests setting the mask of a field."
base = self.base.copy()
# This one has already a mask....
mbase = base.view(mrecarray)
mbase['a'][-2] = masked
assert_equal(mbase.a, [1,2,3,4,5])
assert_equal(mbase.a._mask, [0,1,0,1,1])
# This one has not yet
mbase = fromarrays([np.arange(5), np.random.rand(5)],
dtype=[('a',int),('b',float)])
mbase['a'][-2] = masked
assert_equal(mbase.a, [0,1,2,3,4])
assert_equal(mbase.a._mask, [0,0,0,1,0])
#
def test_set_mask(self):
base = self.base.copy()
mbase = base.view(mrecarray)
# Set the mask to True .......................
mbase.mask = masked
assert_equal(ma.getmaskarray(mbase['b']), [1]*5)
assert_equal(mbase['a']._mask, mbase['b']._mask)
assert_equal(mbase['a']._mask, mbase['c']._mask)
assert_equal(mbase._mask.tolist(),
np.array([(1,1,1)]*5, dtype=bool))
# Delete the mask ............................
mbase.mask = nomask
assert_equal(ma.getmaskarray(mbase['c']), [0]*5)
assert_equal(mbase._mask.tolist(),
np.array([(0,0,0)]*5, dtype=bool))
#
def test_set_mask_fromarray(self):
base = self.base.copy()
mbase = base.view(mrecarray)
# Sets the mask w/ an array
mbase.mask = [1,0,0,0,1]
assert_equal(mbase.a.mask, [1,0,0,0,1])
assert_equal(mbase.b.mask, [1,0,0,0,1])
assert_equal(mbase.c.mask, [1,0,0,0,1])
# Yay, once more !
mbase.mask = [0,0,0,0,1]
assert_equal(mbase.a.mask, [0,0,0,0,1])
assert_equal(mbase.b.mask, [0,0,0,0,1])
assert_equal(mbase.c.mask, [0,0,0,0,1])
#
def test_set_mask_fromfields(self):
mbase = self.base.copy().view(mrecarray)
#
nmask = np.array([(0,1,0),(0,1,0),(1,0,1),(1,0,1),(0,0,0)],
dtype=[('a',bool),('b',bool),('c',bool)])
mbase.mask = nmask
assert_equal(mbase.a.mask, [0,0,1,1,0])
assert_equal(mbase.b.mask, [1,1,0,0,0])
assert_equal(mbase.c.mask, [0,0,1,1,0])
# Reinitalizes and redo
mbase.mask = False
mbase.fieldmask = nmask
assert_equal(mbase.a.mask, [0,0,1,1,0])
assert_equal(mbase.b.mask, [1,1,0,0,0])
assert_equal(mbase.c.mask, [0,0,1,1,0])
#
def test_set_elements(self):
base = self.base.copy()
# Set an element to mask .....................
mbase = base.view(mrecarray).copy()
mbase[-2] = masked
assert_equal(mbase._mask.tolist(),
np.array([(0,0,0),(1,1,1),(0,0,0),(1,1,1),(1,1,1)],
dtype=bool))
# Used to be mask, now it's recordmask!
assert_equal(mbase.recordmask, [0,1,0,1,1])
# Set slices .................................
mbase = base.view(mrecarray).copy()
mbase[:2] = (5,5,5)
assert_equal(mbase.a._data, [5,5,3,4,5])
assert_equal(mbase.a._mask, [0,0,0,0,1])
assert_equal(mbase.b._data, [5.,5.,3.3,4.4,5.5])
assert_equal(mbase.b._mask, [0,0,0,0,1])
assert_equal(mbase.c._data,
asbytes_nested(['5','5','three','four','five']))
assert_equal(mbase.b._mask, [0,0,0,0,1])
#
mbase = base.view(mrecarray).copy()
mbase[:2] = masked
assert_equal(mbase.a._data, [1,2,3,4,5])
assert_equal(mbase.a._mask, [1,1,0,0,1])
assert_equal(mbase.b._data, [1.1,2.2,3.3,4.4,5.5])
assert_equal(mbase.b._mask, [1,1,0,0,1])
assert_equal(mbase.c._data,
asbytes_nested(['one','two','three','four','five']))
assert_equal(mbase.b._mask, [1,1,0,0,1])
#
def test_setslices_hardmask(self):
"Tests setting slices w/ hardmask."
base = self.base.copy()
mbase = base.view(mrecarray)
mbase.harden_mask()
try:
mbase[-2:] = (5,5,5)
assert_equal(mbase.a._data, [1,2,3,5,5])
assert_equal(mbase.b._data, [1.1,2.2,3.3,5,5.5])
assert_equal(mbase.c._data,
asbytes_nested(['one','two','three','5','five']))
assert_equal(mbase.a._mask, [0,1,0,0,1])
assert_equal(mbase.b._mask, mbase.a._mask)
assert_equal(mbase.b._mask, mbase.c._mask)
except NotImplementedError:
# OK, not implemented yet...
pass
except AssertionError:
raise
else:
raise Exception("Flexible hard masks should be supported !")
# Not using a tuple should crash
try:
mbase[-2:] = 3
except (NotImplementedError, TypeError):
pass
else:
raise TypeError("Should have expected a readable buffer object!")
def test_hardmask(self):
"Test hardmask"
base = self.base.copy()
mbase = base.view(mrecarray)
mbase.harden_mask()
self.assertTrue(mbase._hardmask)
mbase.mask = nomask
assert_equal_records(mbase._mask, base._mask)
mbase.soften_mask()
self.assertTrue(not mbase._hardmask)
mbase.mask = nomask
# So, the mask of a field is no longer set to nomask...
assert_equal_records(mbase._mask,
ma.make_mask_none(base.shape,base.dtype))
self.assertTrue(ma.make_mask(mbase['b']._mask) is nomask)
assert_equal(mbase['a']._mask,mbase['b']._mask)
#
def test_pickling(self):
"Test pickling"
import cPickle
base = self.base.copy()
mrec = base.view(mrecarray)
_ = cPickle.dumps(mrec)
mrec_ = cPickle.loads(_)
assert_equal(mrec_.dtype, mrec.dtype)
assert_equal_records(mrec_._data, mrec._data)
assert_equal(mrec_._mask, mrec._mask)
assert_equal_records(mrec_._mask, mrec._mask)
#
def test_filled(self):
"Test filling the array"
_a = ma.array([1,2,3],mask=[0,0,1],dtype=int)
_b = ma.array([1.1,2.2,3.3],mask=[0,0,1],dtype=float)
_c = ma.array(['one','two','three'],mask=[0,0,1],dtype='|S8')
ddtype = [('a',int),('b',float),('c','|S8')]
mrec = fromarrays([_a,_b,_c], dtype=ddtype,
fill_value=(99999,99999.,'N/A'))
mrecfilled = mrec.filled()
assert_equal(mrecfilled['a'], np.array((1,2,99999), dtype=int))
assert_equal(mrecfilled['b'], np.array((1.1,2.2,99999.), dtype=float))
assert_equal(mrecfilled['c'], np.array(('one','two','N/A'), dtype='|S8'))
#
def test_tolist(self):
"Test tolist."
_a = ma.array([1,2,3],mask=[0,0,1],dtype=int)
_b = ma.array([1.1,2.2,3.3],mask=[0,0,1],dtype=float)
_c = ma.array(['one','two','three'],mask=[1,0,0],dtype='|S8')
ddtype = [('a',int),('b',float),('c','|S8')]
mrec = fromarrays([_a,_b,_c], dtype=ddtype,
fill_value=(99999,99999.,'N/A'))
#
assert_equal(mrec.tolist(),
[(1,1.1,None),(2,2.2,asbytes('two')),
(None,None,asbytes('three'))])
#
def test_withnames(self):
"Test the creation w/ format and names"
x = mrecarray(1, formats=float, names='base')
x[0]['base'] = 10
assert_equal(x['base'][0], 10)
#
def test_exotic_formats(self):
"Test that 'exotic' formats are processed properly"
easy = mrecarray(1, dtype=[('i',int), ('s','|S8'), ('f',float)])
easy[0] = masked
assert_equal(easy.filled(1).item(), (1,asbytes('1'),1.))
#
solo = mrecarray(1, dtype=[('f0', '<f8', (2, 2))])
solo[0] = masked
assert_equal(solo.filled(1).item(),
np.array((1,), dtype=solo.dtype).item())
#
mult = mrecarray(2, dtype= "i4, (2,3)float, float")
mult[0] = masked
mult[1] = (1, 1, 1)
mult.filled(0)
assert_equal_records(mult.filled(0),
np.array([(0,0,0),(1,1,1)], dtype=mult.dtype))
class TestView(TestCase):
#
def setUp(self):
(a, b) = (np.arange(10), np.random.rand(10))
ndtype = [('a',np.float), ('b',np.float)]
arr = np.array(zip(a,b), dtype=ndtype)
rec = arr.view(np.recarray)
#
marr = ma.array(zip(a,b), dtype=ndtype, fill_value=(-9., -99.))
mrec = fromarrays([a,b], dtype=ndtype, fill_value=(-9., -99.))
mrec.mask[3] = (False, True)
self.data = (mrec, a, b, arr)
#
def test_view_by_itself(self):
(mrec, a, b, arr) = self.data
test = mrec.view()
self.assertTrue(isinstance(test, MaskedRecords))
assert_equal_records(test, mrec)
assert_equal_records(test._mask, mrec._mask)
#
def test_view_simple_dtype(self):
(mrec, a, b, arr) = self.data
ntype = (np.float, 2)
test = mrec.view(ntype)
self.assertTrue(isinstance(test, ma.MaskedArray))
assert_equal(test, np.array(zip(a,b), dtype=np.float))
self.assertTrue(test[3,1] is ma.masked)
#
def test_view_flexible_type(self):
(mrec, a, b, arr) = self.data
alttype = [('A',np.float), ('B',np.float)]
test = mrec.view(alttype)
self.assertTrue(isinstance(test, MaskedRecords))
assert_equal_records(test, arr.view(alttype))
self.assertTrue(test['B'][3] is masked)
assert_equal(test.dtype, np.dtype(alttype))
self.assertTrue(test._fill_value is None)
################################################################################
class TestMRecordsImport(TestCase):
"Base test class for MaskedArrays."
def __init__(self, *args, **kwds):
TestCase.__init__(self, *args, **kwds)
self.setup()
def setup(self):
"Generic setup"
_a = ma.array([1,2,3],mask=[0,0,1],dtype=int)
_b = ma.array([1.1,2.2,3.3],mask=[0,0,1],dtype=float)
_c = ma.array(list(map(asbytes,['one','two','three'])),
mask=[0,0,1],dtype='|S8')
ddtype = [('a',int),('b',float),('c','|S8')]
mrec = fromarrays([_a,_b,_c], dtype=ddtype,
fill_value=(asbytes('99999'),asbytes('99999.'),
asbytes('N/A')))
nrec = recfromarrays((_a._data,_b._data,_c._data), dtype=ddtype)
self.data = (mrec, nrec, ddtype)
def test_fromarrays(self):
_a = ma.array([1,2,3],mask=[0,0,1],dtype=int)
_b = ma.array([1.1,2.2,3.3],mask=[0,0,1],dtype=float)
_c = ma.array(['one','two','three'],mask=[0,0,1],dtype='|S8')
(mrec, nrec, _) = self.data
for (f,l) in zip(('a','b','c'),(_a,_b,_c)):
assert_equal(getattr(mrec,f)._mask, l._mask)
# One record only
_x = ma.array([1,1.1,'one'], mask=[1,0,0],)
assert_equal_records(fromarrays(_x, dtype=mrec.dtype), mrec[0])
def test_fromrecords(self):
"Test construction from records."
(mrec, nrec, ddtype) = self.data
#......
palist = [(1, 'abc', 3.7000002861022949, 0),
(2, 'xy', 6.6999998092651367, 1),
(0, ' ', 0.40000000596046448, 0)]
pa = recfromrecords(palist, names='c1, c2, c3, c4')
mpa = fromrecords(palist, names='c1, c2, c3, c4')
assert_equal_records(pa,mpa)
#.....
_mrec = fromrecords(nrec)
assert_equal(_mrec.dtype, mrec.dtype)
for field in _mrec.dtype.names:
assert_equal(getattr(_mrec, field), getattr(mrec._data, field))
#
_mrec = fromrecords(nrec.tolist(), names='c1,c2,c3')
assert_equal(_mrec.dtype, [('c1',int),('c2',float),('c3','|S5')])
for (f,n) in zip(('c1','c2','c3'), ('a','b','c')):
assert_equal(getattr(_mrec,f), getattr(mrec._data, n))
#
_mrec = fromrecords(mrec)
assert_equal(_mrec.dtype, mrec.dtype)
assert_equal_records(_mrec._data, mrec.filled())
assert_equal_records(_mrec._mask, mrec._mask)
def test_fromrecords_wmask(self):
"Tests construction from records w/ mask."
(mrec, nrec, ddtype) = self.data
#
_mrec = fromrecords(nrec.tolist(), dtype=ddtype, mask=[0,1,0,])
assert_equal_records(_mrec._data, mrec._data)
assert_equal(_mrec._mask.tolist(), [(0,0,0),(1,1,1),(0,0,0)])
#
_mrec = fromrecords(nrec.tolist(), dtype=ddtype, mask=True)
assert_equal_records(_mrec._data, mrec._data)
assert_equal(_mrec._mask.tolist(), [(1,1,1),(1,1,1),(1,1,1)])
#
_mrec = fromrecords(nrec.tolist(), dtype=ddtype, mask=mrec._mask)
assert_equal_records(_mrec._data, mrec._data)
assert_equal(_mrec._mask.tolist(), mrec._mask.tolist())
#
_mrec = fromrecords(nrec.tolist(), dtype=ddtype,
mask=mrec._mask.tolist())
assert_equal_records(_mrec._data, mrec._data)
assert_equal(_mrec._mask.tolist(), mrec._mask.tolist())
def test_fromtextfile(self):
"Tests reading from a text file."
fcontent = asbytes("""#
'One (S)','Two (I)','Three (F)','Four (M)','Five (-)','Six (C)'
'strings',1,1.0,'mixed column',,1
'with embedded "double quotes"',2,2.0,1.0,,1
'strings',3,3.0E5,3,,1
'strings',4,-1e-10,,,1
""")
import os
import tempfile
(tmp_fd,tmp_fl) = tempfile.mkstemp()
os.write(tmp_fd, fcontent)
os.close(tmp_fd)
mrectxt = fromtextfile(tmp_fl, delimitor=',',varnames='ABCDEFG')
os.remove(tmp_fl)
#
self.assertTrue(isinstance(mrectxt, MaskedRecords))
assert_equal(mrectxt.F, [1,1,1,1])
assert_equal(mrectxt.E._mask, [1,1,1,1])
assert_equal(mrectxt.C, [1,2,3.e+5,-1e-10])
def test_addfield(self):
"Tests addfield"
(mrec, nrec, ddtype) = self.data
(d,m) = ([100,200,300], [1,0,0])
mrec = addfield(mrec, ma.array(d, mask=m))
assert_equal(mrec.f3, d)
assert_equal(mrec.f3._mask, m)
###############################################################################
#------------------------------------------------------------------------------
if __name__ == "__main__":
run_module_suite()