コード例 #1
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ファイル: test_data_array.py プロジェクト: cfarrow/datarray
def test__reordered_axes():
    a = Axis('x', 0, None)
    b = Axis('y', 1, None)
    c = Axis('z', 2, None)
    res = _reordered_axes([a, b, c], (1, 2, 0))
    names_inds = [(ax.name, ax.index) for ax in res]
    yield nt.assert_equal, set(names_inds), set([('y', 0), ('z', 1), ('x', 2)])
コード例 #2
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ファイル: test_data_array.py プロジェクト: cfarrow/datarray
 def test_axes_numeric_access(self):
     for i, spec in enumerate(self.axes_spec):
         try:
             name, labels = spec
         except ValueError:
             name, labels = spec, None
         nt.assert_true(self.A.axes[i] == Axis(
             name=name, index=i, parent_arr=self.A, labels=labels))
コード例 #3
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ファイル: test_data_array.py プロジェクト: cfarrow/datarray
def test_2d():
    b = DataArray([[1, 2], [3, 4], [5, 6]], 'xy')
    yield (nt.assert_equals, b.names, ('x', 'y'))
    # Check row named slicing
    rs = b.axes.x[0]
    yield (npt.assert_equal, rs, [1, 2])
    yield nt.assert_equal, rs.names, ('y', )
    yield nt.assert_equal, tuple(rs.axes), (Axis('y', 0, rs), )
    # Now, check that when slicing a row, we get the right names in the output
    yield (nt.assert_equal, b.axes.x[1:].names, ('x', 'y'))
    # Check column named slicing
    cs = b.axes.y[1]
    yield (npt.assert_equal, cs, [2, 4, 6])
    yield nt.assert_equal, cs.names, ('x', )
    yield nt.assert_equal, tuple(cs.axes), (Axis('x', 0, cs), )
    # What happens if we do normal slicing?
    rs = b[0]
    yield (npt.assert_equal, rs, [1, 2])
    yield nt.assert_equal, rs.names, ('y', )
    yield nt.assert_equal, tuple(rs.axes), (Axis('y', 0, rs), )
コード例 #4
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ファイル: test_data_array.py プロジェクト: cfarrow/datarray
def test_singleton_axis_prep():
    b = DataArray(np.random.randn(5, 6), 'xz')
    slicing = (None, )
    shape, axes, key = _make_singleton_axes(b, slicing)

    key_should_be = (slice(None), )  # should be trimmed
    shape_should_be = (1, 5, 6)
    ax_should_be = [Axis(l, i, b) for i, l in enumerate((None, 'x', 'z'))]

    yield nt.assert_true, key_should_be == key, 'key translated poorly'
    yield nt.assert_true, shape_should_be == shape, 'shape computed poorly'
    yield nt.assert_true, all([a1==a2 for a1,a2 in zip(ax_should_be, axes)]), \
          'axes computed poorly'
コード例 #5
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ファイル: test_data_array.py プロジェクト: ivanov/datarray
def test_singleton_axis_prep2():
    # a little more complicated
    b = DataArray(np.random.randn(5, 6), 'xz')
    slicing = (0, None)
    shape, axes, key = _make_singleton_axes(b, slicing)

    key_should_be = (0, )  # should be trimmed
    shape_should_be = (5, 1, 6)
    ax_should_be = [Axis(l, i, b) for i, l in enumerate(('x', None, 'z'))]

    nt.assert_true(key_should_be == key, 'key translated poorly')
    nt.assert_true(shape_should_be == shape, 'shape computed poorly')
    nt.assert_true(all([a1 == a2 for a1, a2 in zip(ax_should_be, axes)]),
                   'axes computed poorly')
コード例 #6
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ファイル: test_data_array.py プロジェクト: cfarrow/datarray
def test__pull_axis():
    a = Axis('x', 0, None)
    b = Axis('y', 1, None)
    c = Axis('z', 2, None)
    t_pos = Axis('y', 1, None)
    t_neg = Axis('x', 5, None)
    axes = [a, b, c]
    yield nt.assert_true, t_pos in axes
    yield nt.assert_false, t_neg in axes
    yield nt.assert_equal, axes, _pull_axis(axes, t_neg)
    yield nt.assert_equal, axes[:-1], _pull_axis(axes, c)
    new_axes = [a, Axis('z', 1, None)]
    yield nt.assert_equal, new_axes, _pull_axis(axes, t_pos)
コード例 #7
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ファイル: test_data_array.py プロジェクト: ivanov/datarray
def test__pull_axis():
    a = Axis('x', 0, None)
    b = Axis('y', 1, None)
    c = Axis('z', 2, None)
    t_pos = Axis('y', 1, None)
    t_neg = Axis('x', 5, None)
    axes = [a, b, c]
    nt.assert_true(t_pos in axes)
    nt.assert_false(t_neg in axes)
    nt.assert_equal(axes, _pull_axis(axes, t_neg))
    nt.assert_equal(axes[:-1], _pull_axis(axes, c))
    new_axes = [a, Axis('z', 1, None)]
    nt.assert_equal(new_axes, _pull_axis(axes, t_pos))
コード例 #8
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ファイル: test_data_array.py プロジェクト: cfarrow/datarray
def test_axis_equal():
    ax1 = Axis('aname', 0, None)
    ax2 = Axis('aname', 0, None)
    yield nt.assert_equal, ax1, ax2
    # The array to which the axis points does not matter in comparison
    ax3 = Axis('aname', 0, np.arange(10))
    yield nt.assert_equal, ax1, ax3
    # but the index does
    ax4 = Axis('aname', 1, None)
    yield nt.assert_not_equal, ax1, ax4
    # so does the name
    ax5 = Axis('anothername', 0, None)
    yield nt.assert_not_equal, ax1, ax5
    # and obviously both
    yield nt.assert_not_equal, ax4, ax5
    # Try with labels
    ax6 = Axis('same', 0, None, labels=['a', 'b'])
    ax7 = Axis('same', 0, None, labels=['a', 'b'])
    yield nt.assert_equal, ax6, ax7
    ax8 = Axis('same', 0, None, labels=['a', 'xx'])
    yield nt.assert_not_equal, ax6, ax8
コード例 #9
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ファイル: test_data_array.py プロジェクト: ivanov/datarray
'''Tests for DataArray and friend'''

import sys
PY3 = sys.version_info[0] >= 3

import numpy as np

from datarray.datarray import (Axis, DataArray, NamedAxisError, AxesManager,
                               _pull_axis, _reordered_axes)

import nose.tools as nt
import numpy.testing as npt

DA = DataArray(np.random.randn(4, 2, 6), 'xyz')
YZ = AxesManager(DA, (Axis('y', 0, None), Axis('z', 1, None)))
XZ = AxesManager(DA, (Axis('x', 0, None), Axis('z', 1, None)))
XY = AxesManager(DA, (Axis('x', 0, None), Axis('y', 1, None)))
AXES_REMOVED = dict(x=YZ, y=XZ, z=XY)


def test_axis_equal():
    ax1 = Axis('aname', 0, None)
    ax2 = Axis('aname', 0, None)
    nt.assert_equal(ax1, ax2)
    # The array to which the axis points does not matter in comparison
    ax3 = Axis('aname', 0, np.arange(10))
    nt.assert_equal(ax1, ax3)
    # but the index does
    ax4 = Axis('aname', 1, None)
    nt.assert_not_equal(ax1, ax4)
    # so does the name