python-tables 3.4.2-4 / usr / lib / python2.7 / dist-packages / tables / tests / test_enum.py

# -*- coding: utf-8 -*-

########################################################################
#
# License: BSD
# Created: 2005-05-09
# Author: Ivan Vilata i Balaguer - ivan@selidor.net
#
# $Id$
#
########################################################################

"""Test module for enumerated types under PyTables."""
from __future__ import absolute_import

import operator
import itertools

import tables
from tables.tests import common
from tables.tests.common import unittest
from tables.tests.common import PyTablesTestCase as TestCase
from six.moves import range


class CreateColTestCase(TestCase):
    """Test creating enumerated column descriptions."""

    def _createCol(self, enum, dflt, base='uint32', shape=()):
        """Create and check an enumerated column description."""

        enumcol = tables.EnumCol(enum, dflt, base=base, shape=shape)
        sameEnum = tables.Enum(enum)
        self.assertEqual(enumcol.type, 'enum')
        self.assertEqual(enumcol.dtype.base.name, enumcol.base.type)
        # To avoid 'LongInt' vs 'Int' issues
        # self.assertEqual(enumcol.dflt, sameEnum[dflt])
        self.assertEqual(int(enumcol.dflt), int(sameEnum[dflt]))
        self.assertEqual(enumcol.dtype.shape, shape)
        self.assertEqual(enumcol.enum, sameEnum)

    def test00a_validFromEnum(self):
        """Describing an enumerated column from an enumeration."""

        colors = tables.Enum(['red', 'green', 'blue'])
        self._createCol(colors, 'red')

    def test00b_validFromDict(self):
        """Describing an enumerated column from a dictionary."""

        colors = {'red': 4, 'green': 2, 'blue': 1}
        self._createCol(colors, 'red')

    def test00c_validFromList(self):
        """Describing an enumerated column from a list."""

        colors = ['red', 'green', 'blue']
        self._createCol(colors, 'red')

    def test00d_invalidFromType(self):
        """Describing an enumerated column from an invalid object."""

        colors = 123
        self.assertRaises(TypeError, self._createCol, colors, 'red')

    def test01_invalidDflt(self):
        """Describing an enumerated column with an invalid default object."""

        colors = {'red': 4, 'green': 2, 'blue': 1}
        self.assertRaises(KeyError, self._createCol, colors, 'black')

    def test02a_validDtypeBroader(self):
        """Describing an enumerated column with a broader type."""

        colors = {'red': 4, 'green': 2, 'blue': 1}
        self._createCol(colors, 'red', 'int64')

    def test02b_invalidDtypeTooNarrow(self):
        """Describing an enumerated column with a too narrow type."""

        colors = ['e%d' % i for i in range(300)]
        self.assertRaises(TypeError, self._createCol, colors, 'e0', 'uint8')

    def test03a_validShapeMD(self):
        """Describing an enumerated column with multidimensional shape."""

        colors = ['red', 'green', 'blue']
        self._createCol(colors, 'red', shape=(2,))

    def test04a_validReprEnum(self):
        """Checking the string representation of an enumeration."""

        colors = tables.Enum(['red', 'green', 'blue'])
        enumcol = tables.EnumCol(colors, 'red', base='uint32', shape=())

        # needed due to "Hash randomization" (default on python 3.3)
        template = (
            "EnumCol(enum=Enum({%s}), dflt='red', base=UInt32Atom(shape=(), "
            "dflt=0), shape=(), pos=None)"
        )
        permitations = [
            template % ', '.join(items) for items in itertools.permutations(
                ("'blue': 2", "'green': 1", "'red': 0"))
        ]
        self.assertTrue(repr(enumcol) in permitations)

    def test99a_nonIntEnum(self):
        """Describing an enumerated column of floats (not implemented)."""

        colors = {'red': 1.0}
        self.assertRaises(NotImplementedError, self._createCol, colors, 'red',
                          base=tables.FloatAtom())

    def test99b_nonIntDtype(self):
        """Describing an enumerated column encoded as floats.

        (not implemented).

        """

        colors = ['red', 'green', 'blue']
        self.assertRaises(
            NotImplementedError, self._createCol, colors, 'red', 'float64')

    def test99b_nonScalarEnum(self):
        """Describing an enumerated column of non-scalars (not implemented)."""

        colors = {'red': (1, 2, 3)}
        self.assertRaises(NotImplementedError, self._createCol, colors, 'red',
                          base=tables.IntAtom(shape=3))


class CreateAtomTestCase(TestCase):
    """Test creating enumerated atoms."""

    def _createAtom(self, enum, dflt, base='uint32', shape=()):
        """Create and check an enumerated atom."""

        enumatom = tables.EnumAtom(enum, dflt, base=base, shape=shape)
        sameEnum = tables.Enum(enum)
        self.assertEqual(enumatom.type, 'enum')
        self.assertEqual(enumatom.dtype.base.name, enumatom.base.type)
        self.assertEqual(enumatom.shape, shape)
        self.assertEqual(enumatom.enum, sameEnum)

    def test00a_validFromEnum(self):
        """Describing an enumerated atom from an enumeration."""

        colors = tables.Enum(['red', 'green', 'blue'])
        self._createAtom(colors, 'red')

    def test00b_validFromDict(self):
        """Describing an enumerated atom from a dictionary."""

        colors = {'red': 4, 'green': 2, 'blue': 1}
        self._createAtom(colors, 'red')

    def test00c_validFromList(self):
        """Describing an enumerated atom from a list."""

        colors = ['red', 'green', 'blue']
        self._createAtom(colors, 'red')

    def test00d_invalidFromType(self):
        """Describing an enumerated atom from an invalid object."""

        colors = 123
        self.assertRaises(TypeError, self._createAtom, colors, 'red')

    def test02a_validDtypeBroader(self):
        """Describing an enumerated atom with a broader type."""

        colors = {'red': 4, 'green': 2, 'blue': 1}
        self._createAtom(colors, 'red', base='int64')

    def test02b_invalidDtypeTooNarrow(self):
        """Describing an enumerated atom with a too narrow type."""

        colors = ['e%d' % i for i in range(300)]
        self.assertRaises(TypeError, self._createAtom, colors, 'red', 'uint8')

    def test03a_validShapeMD(self):
        """Describing an enumerated atom with multidimensional shape."""

        colors = ['red', 'green', 'blue']
        self._createAtom(colors, 'red', shape=(2,))

    def test99a_nonIntEnum(self):
        """Describing an enumerated atom of floats (not implemented)."""

        colors = {'red': 1.0}
        self.assertRaises(NotImplementedError, self._createAtom, colors, 'red',
                          base=tables.FloatAtom())

    def test99b_nonIntDtype(self):
        """Describing an enumerated atom encoded as a float.

        (not implemented).

        """

        colors = ['red', 'green', 'blue']
        self.assertRaises(
            NotImplementedError, self._createAtom, colors, 'red', 'float64')

    def test99b_nonScalarEnum(self):
        """Describing an enumerated atom of non-scalars (not implemented)."""

        colors = {'red': (1, 2, 3)}
        self.assertRaises(NotImplementedError, self._createAtom, colors, 'red',
                          base=tables.IntAtom(shape=3))


class EnumTableTestCase(common.TempFileMixin, TestCase):
    """Test tables with enumerated columns."""

    enum = tables.Enum({'red': 4, 'green': 2, 'blue': 1, 'black': 0})
    defaultName = 'black'
    valueInEnum = enum.red
    valueOutOfEnum = 1234
    enumType = 'uint16'

    def _description(self, shape=()):
        class TestDescription(tables.IsDescription):
            rid = tables.IntCol(pos=0)
            rcolor = tables.EnumCol(
                self.enum, self.defaultName,
                base=self.enumType, shape=shape, pos=1)

        return TestDescription

    def test00a_reopen(self):
        """Reopening a file with tables using enumerated data."""

        self.h5file.create_table(
            '/', 'test', self._description(), title=self._getMethodName())

        self._reopen()

        self.assertEqual(
            self.h5file.root.test.get_enum('rcolor'), self.enum,
            "Enumerated type was not restored correctly from disk.")

    def test00b_reopenMD(self):
        """Reopening a file with tables using enumerated multi-dimensional
        data."""

        self.h5file.create_table(
            '/', 'test', self._description((2,)), title=self._getMethodName())

        self._reopen()

        self.assertEqual(
            self.h5file.root.test.get_enum('rcolor'), self.enum,
            "Enumerated type was not restored correctly from disk.")

    def test01_rowAppend(self):
        """Appending enumerated values using ``row.append()``."""

        tbl = self.h5file.create_table(
            '/', 'test', self._description(), title=self._getMethodName())

        appended = [
            (10, self.valueInEnum),
            (20, self.valueOutOfEnum)]

        row = tbl.row

        row['rid'] = appended[0][0]
        row['rcolor'] = appended[0][1]
        row.append()

        row['rid'] = appended[1][0]
        self.assertRaises(
            ValueError, operator.setitem, row, 'rcolor', appended[1][1])

        tbl.flush()
        tbl.flavor = 'python'
        read = tbl.read()
        common.verbosePrint(
            "* appended value: %s\n"
            "* read value: %s\n"
            % (appended[:-1], read))
        self.assertEqual(
            appended[:-1], read, "Written and read values differ.")

    def test02_append(self):
        """Appending enumerated values using ``table.append()``."""

        tbl = self.h5file.create_table(
            '/', 'test', self._description(), title=self._getMethodName())

        appended = [
            (10, self.valueInEnum),
            (20, self.valueOutOfEnum)]

        tbl.append(appended)
        tbl.flush()
        tbl.flavor = 'python'
        read = tbl.read()
        common.verbosePrint(
            "* appended value: %s\n"
            "* read value: %s\n"
            % (appended, read))
        self.assertEqual(appended, read, "Written and read values differ.")

    def test03_setitem(self):
        """Changing enumerated values using ``table.__setitem__()``."""

        tbl = self.h5file.create_table(
            '/', 'test', self._description(), title=self._getMethodName())

        appended = [
            (10, self.valueInEnum),
            (20, self.valueInEnum)]
        tbl.append(appended)

        written = [
            (10, self.valueInEnum),
            (20, self.valueOutOfEnum)]
        tbl[:] = written
        tbl.flavor = 'python'
        read = tbl.read()
        common.verbosePrint(
            "* written value: %s\n"
            "* read value: %s\n"
            % (written, read))
        self.assertEqual(written, read, "Written and read values differ.")

    def test04_multidim(self):
        """Appending multi-dimensional enumerated data."""

        tbl = self.h5file.create_table(
            '/', 'test', self._description((2,)), title=self._getMethodName())

        appended = [
            (10, (self.valueInEnum, self.valueOutOfEnum)),
            (20, (self.valueInEnum, self.valueOutOfEnum))]

        row = tbl.row
        row['rid'] = appended[0][0]
        self.assertRaises(
            ValueError, operator.setitem, row, 'rcolor', appended[0][1])

        tbl.append(appended)
        tbl.flush()
        tbl.flavor = 'python'
        read = tbl.read()
        for i in range(len(appended)):
            self.assertEqual(appended[i][0], read[i][0],
                             "Written and read values differ.")
            self.assertEqual(appended[i][1][0], read[i][1][0],
                             "Written and read values differ.")
            self.assertEqual(appended[i][1][1], read[i][1][1],
                             "Written and read values differ.")

    def test05_where(self):
        """Searching enumerated data."""

        tbl = self.h5file.create_table(
            '/', 'test', self._description(), title=self._getMethodName())

        appended = [
            (10, self.valueInEnum),
            (20, self.valueInEnum),
            (30, self.valueOutOfEnum)]
        tbl.append(appended)
        tbl.flush()

        searched = [
            (row['rid'], row['rcolor'])
            for row in tbl.where('rcolor == v', {'v': self.valueInEnum})]
        common.verbosePrint(
            "* ``valueInEnum``: %s\n"
            "* ``rcolor`` column: ``%s``\n"
            "* ``searched``: %s\n"
            "* Should look like: %s\n"
            % (self.valueInEnum, tbl.cols.rcolor, searched, appended[:-1]))
        self.assertEqual(
            searched, appended[:-1], "Search returned incorrect results.")


class EnumEArrayTestCase(common.TempFileMixin, TestCase):
    """Test extendable arrays of enumerated values."""

    enum = tables.Enum({'red': 4, 'green': 2, 'blue': 1, 'black': 0})
    valueInEnum = enum.red
    valueOutOfEnum = 1234
    enumType = 'uint16'

    def _atom(self, shape=()):
        return tables.EnumAtom(
            self.enum, 'red', base=self.enumType, shape=shape)

    def test00a_reopen(self):
        """Reopening a file with extendable arrays using enumerated data."""

        self.h5file.create_earray(
            '/', 'test', self._atom(), shape=(0,),
            title=self._getMethodName())
        self.h5file.root.test.flavor = 'python'

        self._reopen()

        self.assertEqual(
            self.h5file.root.test.get_enum(), self.enum,
            "Enumerated type was not restored correctly from disk.")

    def test00b_reopenMD(self):
        """Reopening a file with extendable arrays using enumerated
        multi-dimensional data."""

        self.h5file.create_earray(
            '/', 'test', self._atom(), shape=(0, 2),
            title=self._getMethodName())
        self.h5file.root.test.flavor = 'python'

        self._reopen()

        self.assertEqual(
            self.h5file.root.test.get_enum(), self.enum,
            "Enumerated type was not restored correctly from disk.")

    def test_enum_default_persistence_red(self):
        dflt = 'red'
        atom = tables.EnumAtom(
            self.enum, dflt, base=self.enumType, shape=())

        self.h5file.create_earray('/', 'test', atom, shape=(0,),
                                  title=self._getMethodName())
        self._reopen()

        self.assertEqual(
            self.h5file.root.test.get_enum(), self.enum,
            "Enumerated type was not restored correctly from disk.")

        self.assertEqual(
            self.h5file.root.test.atom.dflt, self.enum[dflt],
            "The default value of enumerated type was not restored correctly "
            "from disk.")

    def test_enum_default_persistence_green(self):
        dflt = 'green'
        atom = tables.EnumAtom(
            self.enum, dflt, base=self.enumType, shape=())

        self.h5file.create_earray('/', 'test', atom, shape=(0,),
                                  title=self._getMethodName())
        self._reopen()

        self.assertEqual(
            self.h5file.root.test.get_enum(), self.enum,
            "Enumerated type was not restored correctly from disk.")

        self.assertEqual(
            self.h5file.root.test.atom.dflt, self.enum[dflt],
            "The default value of enumerated type was not restored correctly "
            "from disk.")

    def test_enum_default_persistence_blue(self):
        dflt = 'blue'
        atom = tables.EnumAtom(
            self.enum, dflt, base=self.enumType, shape=())

        self.h5file.create_earray('/', 'test', atom, shape=(0,),
                                  title=self._getMethodName())
        self._reopen()

        self.assertEqual(
            self.h5file.root.test.get_enum(), self.enum,
            "Enumerated type was not restored correctly from disk.")

        self.assertEqual(
            self.h5file.root.test.atom.dflt, self.enum[dflt],
            "The default value of enumerated type was not restored correctly "
            "from disk.")

    def test_enum_default_persistence_black(self):
        dflt = 'black'
        atom = tables.EnumAtom(
            self.enum, dflt, base=self.enumType, shape=())

        self.h5file.create_earray('/', 'test', atom, shape=(0,),
                                  title=self._getMethodName())
        self._reopen()

        self.assertEqual(
            self.h5file.root.test.get_enum(), self.enum,
            "Enumerated type was not restored correctly from disk.")

        self.assertEqual(
            self.h5file.root.test.atom.dflt, self.enum[dflt],
            "The default value of enumerated type was not restored correctly "
            "from disk.")

    def test01_append(self):
        """Appending scalar elements of enumerated values."""

        earr = self.h5file.create_earray(
            '/', 'test', self._atom(), shape=(0,),
            title=self._getMethodName())
        earr.flavor = 'python'

        appended = [self.valueInEnum, self.valueOutOfEnum]

        earr.append(appended)
        earr.flush()
        read = earr.read()
        self.assertEqual(appended, read, "Written and read values differ.")

    def test02_appendMD(self):
        """Appending multi-dimensional elements of enumerated values."""

        earr = self.h5file.create_earray(
            '/', 'test', self._atom(), shape=(0, 2),
            title=self._getMethodName())
        earr.flavor = 'python'

        appended = [
            [self.valueInEnum, self.valueOutOfEnum],
            [self.valueInEnum, self.valueOutOfEnum]]

        earr.append(appended)
        earr.flush()
        read = earr.read()
        self.assertEqual(appended, read, "Written and read values differ.")

    def test03_setitem(self):
        """Changing enumerated values using ``earray.__setitem__()``."""

        earr = self.h5file.create_earray(
            '/', 'test', self._atom(), shape=(0,),
            title=self._getMethodName())
        earr.flavor = 'python'

        appended = (self.valueInEnum, self.valueInEnum)
        earr.append(appended)

        written = [self.valueInEnum, self.valueOutOfEnum]
        earr[:] = written
        read = earr.read()
        self.assertEqual(written, read, "Written and read values differ.")


class EnumVLArrayTestCase(common.TempFileMixin, TestCase):
    """Test variable-length arrays of enumerated values."""

    enum = tables.Enum({'red': 4, 'green': 2, 'blue': 1, 'black': 0})
    valueInEnum = enum.red
    valueOutOfEnum = 1234
    enumType = 'uint16'

    def _atom(self, shape=()):
        return tables.EnumAtom(
            self.enum, 'red', base=self.enumType, shape=shape)

    def test00a_reopen(self):
        """Reopening a file with variable-length arrays using
        enumerated data."""

        self.h5file.create_vlarray(
            '/', 'test', self._atom(),
            title=self._getMethodName())
        self.h5file.root.test.flavor = 'python'

        self._reopen()

        self.assertEqual(
            self.h5file.root.test.get_enum(), self.enum,
            "Enumerated type was not restored correctly from disk.")

    def test00b_reopenMD(self):
        """Reopening a file with variable-length arrays using enumerated
        multi-dimensional data."""

        self.h5file.create_vlarray(
            '/', 'test', self._atom((2,)),
            title=self._getMethodName())
        self.h5file.root.test.flavor = 'python'

        self._reopen()

        self.assertEqual(
            self.h5file.root.test.get_enum(), self.enum,
            "Enumerated type was not restored correctly from disk.")

    def test01_append(self):
        """Appending scalar elements of enumerated values."""

        vlarr = self.h5file.create_vlarray(
            '/', 'test', self._atom(),
            title=self._getMethodName())
        vlarr.flavor = 'python'

        appended = [
            [self.valueInEnum, ],
            [self.valueInEnum, self.valueOutOfEnum]]

        vlarr.append(appended[0])
        vlarr.append(appended[1])
        vlarr.flush()
        read = vlarr.read()
        common.verbosePrint(
            "* appended value: %s\n"
            "* read value: %s\n"
            % (appended, read))
        self.assertEqual(appended, read, "Written and read values differ.")

    def test02_appendMD(self):
        """Appending multi-dimensional elements of enumerated values."""

        vlarr = self.h5file.create_vlarray(
            '/', 'test', self._atom((2,)),
            title=self._getMethodName())
        vlarr.flavor = 'python'

        appended = [
            [[self.valueInEnum, self.valueInEnum], ],
            [[self.valueInEnum, self.valueOutOfEnum],
             [self.valueInEnum, self.valueInEnum]]]

        vlarr.append(appended[0])
        vlarr.append(appended[1])
        vlarr.flush()
        read = vlarr.read()
        common.verbosePrint(
            "* appended value: %s\n"
            "* read value: %s\n"
            % (appended, read))
        self.assertEqual(appended, read, "Written and read values differ.")

    def test03_setitem(self):
        """Changing enumerated values using ``vlarray.__setitem__()``."""

        vlarr = self.h5file.create_vlarray(
            '/', 'test', self._atom(),
            title=self._getMethodName())
        vlarr.flavor = 'python'

        appended = (self.valueInEnum, self.valueInEnum)
        vlarr.append(appended)

        written = [self.valueInEnum, self.valueOutOfEnum]
        vlarr[0] = written
        read = vlarr.read()
        common.verbosePrint(
            "* written value: %s\n"
            "* read value: %s\n"
            % (written, read))
        self.assertEqual(written, read[0], "Written and read values differ.")


def suite():
    """Return a test suite consisting of all the test cases in the module."""

    # These two are for including Enum's doctests here.
    import doctest
    from tables.misc import enum
    theSuite = unittest.TestSuite()
    niter = 1

    # theSuite.addTest(unittest.makeSuite(EnumTableTestCase))
    for i in range(niter):
        theSuite.addTest(doctest.DocTestSuite(enum))
        theSuite.addTest(unittest.makeSuite(CreateColTestCase))
        theSuite.addTest(unittest.makeSuite(CreateAtomTestCase))
        theSuite.addTest(unittest.makeSuite(EnumTableTestCase))
        theSuite.addTest(unittest.makeSuite(EnumEArrayTestCase))
        theSuite.addTest(unittest.makeSuite(EnumVLArrayTestCase))

    return theSuite


if __name__ == '__main__':
    import sys
    common.parse_argv(sys.argv)
    common.print_versions()
    unittest.main(defaultTest='suite')


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