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Add new '%autoreload 3' option...
Add new '%autoreload 3' option Example: When an IPython session is ran with the 'autoreload' extension, you will now have the option '3' to select which means the following: 1. replicate all functionality from option 2 2. autoload all new funcs/classes/enums/globals from the module when they're added 3. autoload all newly imported funcs/classes/enums/globals from external modules Try ``%autoreload 3`` in an IPython session after running ``%load_ext autoreload`` For more information please see unit test - extensions/tests/test_autoreload.py : 'test_autoload_newly_added_objects'

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test_display.py
266 lines | 9.2 KiB | text/x-python | PythonLexer
"""Tests for IPython.lib.display.
"""
#-----------------------------------------------------------------------------
# Copyright (c) 2012, the IPython Development Team.
#
# Distributed under the terms of the Modified BSD License.
#
# The full license is in the file COPYING.txt, distributed with this software.
#-----------------------------------------------------------------------------
#-----------------------------------------------------------------------------
# Imports
#-----------------------------------------------------------------------------
from tempfile import NamedTemporaryFile, mkdtemp
from os.path import split, join as pjoin, dirname
import pathlib
from unittest import TestCase, mock
import struct
import wave
from io import BytesIO
# Third-party imports
import nose.tools as nt
try:
import numpy
except ImportError:
pass
# Our own imports
from IPython.lib import display
from IPython.testing.decorators import skipif_not_numpy
#-----------------------------------------------------------------------------
# Classes and functions
#-----------------------------------------------------------------------------
#--------------------------
# FileLink tests
#--------------------------
def test_instantiation_FileLink():
"""FileLink: Test class can be instantiated"""
fl = display.FileLink('example.txt')
# TODO: remove if when only Python >= 3.6 is supported
fl = display.FileLink(pathlib.PurePath('example.txt'))
def test_warning_on_non_existent_path_FileLink():
"""FileLink: Calling _repr_html_ on non-existent files returns a warning
"""
fl = display.FileLink('example.txt')
nt.assert_true(fl._repr_html_().startswith('Path (<tt>example.txt</tt>)'))
def test_existing_path_FileLink():
"""FileLink: Calling _repr_html_ functions as expected on existing filepath
"""
tf = NamedTemporaryFile()
fl = display.FileLink(tf.name)
actual = fl._repr_html_()
expected = "<a href='%s' target='_blank'>%s</a><br>" % (tf.name,tf.name)
nt.assert_equal(actual,expected)
def test_existing_path_FileLink_repr():
"""FileLink: Calling repr() functions as expected on existing filepath
"""
tf = NamedTemporaryFile()
fl = display.FileLink(tf.name)
actual = repr(fl)
expected = tf.name
nt.assert_equal(actual,expected)
def test_error_on_directory_to_FileLink():
"""FileLink: Raises error when passed directory
"""
td = mkdtemp()
nt.assert_raises(ValueError,display.FileLink,td)
#--------------------------
# FileLinks tests
#--------------------------
def test_instantiation_FileLinks():
"""FileLinks: Test class can be instantiated
"""
fls = display.FileLinks('example')
def test_warning_on_non_existent_path_FileLinks():
"""FileLinks: Calling _repr_html_ on non-existent files returns a warning
"""
fls = display.FileLinks('example')
nt.assert_true(fls._repr_html_().startswith('Path (<tt>example</tt>)'))
def test_existing_path_FileLinks():
"""FileLinks: Calling _repr_html_ functions as expected on existing dir
"""
td = mkdtemp()
tf1 = NamedTemporaryFile(dir=td)
tf2 = NamedTemporaryFile(dir=td)
fl = display.FileLinks(td)
actual = fl._repr_html_()
actual = actual.split('\n')
actual.sort()
# the links should always have forward slashes, even on windows, so replace
# backslashes with forward slashes here
expected = ["%s/<br>" % td,
"&nbsp;&nbsp;<a href='%s' target='_blank'>%s</a><br>" %\
(tf2.name.replace("\\","/"),split(tf2.name)[1]),
"&nbsp;&nbsp;<a href='%s' target='_blank'>%s</a><br>" %\
(tf1.name.replace("\\","/"),split(tf1.name)[1])]
expected.sort()
# We compare the sorted list of links here as that's more reliable
nt.assert_equal(actual,expected)
def test_existing_path_FileLinks_alt_formatter():
"""FileLinks: Calling _repr_html_ functions as expected w/ an alt formatter
"""
td = mkdtemp()
tf1 = NamedTemporaryFile(dir=td)
tf2 = NamedTemporaryFile(dir=td)
def fake_formatter(dirname,fnames,included_suffixes):
return ["hello","world"]
fl = display.FileLinks(td,notebook_display_formatter=fake_formatter)
actual = fl._repr_html_()
actual = actual.split('\n')
actual.sort()
expected = ["hello","world"]
expected.sort()
# We compare the sorted list of links here as that's more reliable
nt.assert_equal(actual,expected)
def test_existing_path_FileLinks_repr():
"""FileLinks: Calling repr() functions as expected on existing directory """
td = mkdtemp()
tf1 = NamedTemporaryFile(dir=td)
tf2 = NamedTemporaryFile(dir=td)
fl = display.FileLinks(td)
actual = repr(fl)
actual = actual.split('\n')
actual.sort()
expected = ['%s/' % td, ' %s' % split(tf1.name)[1],' %s' % split(tf2.name)[1]]
expected.sort()
# We compare the sorted list of links here as that's more reliable
nt.assert_equal(actual,expected)
def test_existing_path_FileLinks_repr_alt_formatter():
"""FileLinks: Calling repr() functions as expected w/ alt formatter
"""
td = mkdtemp()
tf1 = NamedTemporaryFile(dir=td)
tf2 = NamedTemporaryFile(dir=td)
def fake_formatter(dirname,fnames,included_suffixes):
return ["hello","world"]
fl = display.FileLinks(td,terminal_display_formatter=fake_formatter)
actual = repr(fl)
actual = actual.split('\n')
actual.sort()
expected = ["hello","world"]
expected.sort()
# We compare the sorted list of links here as that's more reliable
nt.assert_equal(actual,expected)
def test_error_on_file_to_FileLinks():
"""FileLinks: Raises error when passed file
"""
td = mkdtemp()
tf1 = NamedTemporaryFile(dir=td)
nt.assert_raises(ValueError,display.FileLinks,tf1.name)
def test_recursive_FileLinks():
"""FileLinks: Does not recurse when recursive=False
"""
td = mkdtemp()
tf = NamedTemporaryFile(dir=td)
subtd = mkdtemp(dir=td)
subtf = NamedTemporaryFile(dir=subtd)
fl = display.FileLinks(td)
actual = str(fl)
actual = actual.split('\n')
nt.assert_equal(len(actual), 4, actual)
fl = display.FileLinks(td, recursive=False)
actual = str(fl)
actual = actual.split('\n')
nt.assert_equal(len(actual), 2, actual)
def test_audio_from_file():
path = pjoin(dirname(__file__), 'test.wav')
display.Audio(filename=path)
class TestAudioDataWithNumpy(TestCase):
@skipif_not_numpy
def test_audio_from_numpy_array(self):
test_tone = get_test_tone()
audio = display.Audio(test_tone, rate=44100)
nt.assert_equal(len(read_wav(audio.data)), len(test_tone))
@skipif_not_numpy
def test_audio_from_list(self):
test_tone = get_test_tone()
audio = display.Audio(list(test_tone), rate=44100)
nt.assert_equal(len(read_wav(audio.data)), len(test_tone))
@skipif_not_numpy
def test_audio_from_numpy_array_without_rate_raises(self):
nt.assert_raises(ValueError, display.Audio, get_test_tone())
@skipif_not_numpy
def test_audio_data_normalization(self):
expected_max_value = numpy.iinfo(numpy.int16).max
for scale in [1, 0.5, 2]:
audio = display.Audio(get_test_tone(scale), rate=44100)
actual_max_value = numpy.max(numpy.abs(read_wav(audio.data)))
nt.assert_equal(actual_max_value, expected_max_value)
@skipif_not_numpy
def test_audio_data_without_normalization(self):
max_int16 = numpy.iinfo(numpy.int16).max
for scale in [1, 0.5, 0.2]:
test_tone = get_test_tone(scale)
test_tone_max_abs = numpy.max(numpy.abs(test_tone))
expected_max_value = int(max_int16 * test_tone_max_abs)
audio = display.Audio(test_tone, rate=44100, normalize=False)
actual_max_value = numpy.max(numpy.abs(read_wav(audio.data)))
nt.assert_equal(actual_max_value, expected_max_value)
def test_audio_data_without_normalization_raises_for_invalid_data(self):
nt.assert_raises(
ValueError,
lambda: display.Audio([1.001], rate=44100, normalize=False))
nt.assert_raises(
ValueError,
lambda: display.Audio([-1.001], rate=44100, normalize=False))
def simulate_numpy_not_installed():
try:
import numpy
return mock.patch('numpy.array', mock.MagicMock(side_effect=ImportError))
except ModuleNotFoundError:
return lambda x:x
@simulate_numpy_not_installed()
class TestAudioDataWithoutNumpy(TestAudioDataWithNumpy):
# All tests from `TestAudioDataWithNumpy` are inherited.
@skipif_not_numpy
def test_audio_raises_for_nested_list(self):
stereo_signal = [list(get_test_tone())] * 2
nt.assert_raises(
TypeError,
lambda: display.Audio(stereo_signal, rate=44100))
@skipif_not_numpy
def get_test_tone(scale=1):
return numpy.sin(2 * numpy.pi * 440 * numpy.linspace(0, 1, 44100)) * scale
def read_wav(data):
with wave.open(BytesIO(data)) as wave_file:
wave_data = wave_file.readframes(wave_file.getnframes())
num_samples = wave_file.getnframes() * wave_file.getnchannels()
return struct.unpack('<%sh' % num_samples, wave_data)
def test_code_from_file():
c = display.Code(filename=__file__)
assert c._repr_html_().startswith('<style>')