##// END OF EJS Templates
First step in reintegrating Jedi...
First step in reintegrating Jedi If Jedi is installed expose a private API use it with prompt toolkit. Jedi does not _yet_ provide all the completion IPython has, so this is still a bit awkward. In order to debug this (and see what is Jedi provided we for now inject a fake Jedi/IPython delimiter in the menu. Jedi completion and this behavior are enabled by default, but could likely be opt-in. Add also a number of debug flags to be able to track why jedi is not working, and/or what completions are found by IPython and not Jedi. That should give us a bit of heads up and feedback to know whether we can remove part of the IPython completer, and more especially if we can drop `python_matches`. Once `python_matches` is dropped and some other of the current matchers are either dropped or converted to the new API, that should simplify the internal quite a bit. That would just be too much for an already BIG pull-request.

File last commit:

r22963:2961b531
r23284:3ff1be2e
Show More
test_pylabtools.py
246 lines | 7.3 KiB | text/x-python | PythonLexer
"""Tests for pylab tools module.
"""
# Copyright (c) IPython Development Team.
# Distributed under the terms of the Modified BSD License.
from io import UnsupportedOperation, BytesIO
import matplotlib
matplotlib.use('Agg')
from matplotlib.figure import Figure
from nose import SkipTest
import nose.tools as nt
from matplotlib import pyplot as plt
import numpy as np
from IPython.core.getipython import get_ipython
from IPython.core.interactiveshell import InteractiveShell
from IPython.core.display import _PNG, _JPEG
from .. import pylabtools as pt
from IPython.testing import decorators as dec
def test_figure_to_svg():
# simple empty-figure test
fig = plt.figure()
nt.assert_equal(pt.print_figure(fig, 'svg'), None)
plt.close('all')
# simple check for at least svg-looking output
fig = plt.figure()
ax = fig.add_subplot(1,1,1)
ax.plot([1,2,3])
plt.draw()
svg = pt.print_figure(fig, 'svg')[:100].lower()
nt.assert_in(u'doctype svg', svg)
def _check_pil_jpeg_bytes():
"""Skip if PIL can't write JPEGs to BytesIO objects"""
# PIL's JPEG plugin can't write to BytesIO objects
# Pillow fixes this
from PIL import Image
buf = BytesIO()
img = Image.new("RGB", (4,4))
try:
img.save(buf, 'jpeg')
except Exception as e:
ename = e.__class__.__name__
raise SkipTest("PIL can't write JPEG to BytesIO: %s: %s" % (ename, e))
@dec.skip_without("PIL.Image")
def test_figure_to_jpeg():
_check_pil_jpeg_bytes()
# simple check for at least jpeg-looking output
fig = plt.figure()
ax = fig.add_subplot(1,1,1)
ax.plot([1,2,3])
plt.draw()
jpeg = pt.print_figure(fig, 'jpeg', quality=50)[:100].lower()
assert jpeg.startswith(_JPEG)
def test_retina_figure():
# simple empty-figure test
fig = plt.figure()
nt.assert_equal(pt.retina_figure(fig), None)
plt.close('all')
fig = plt.figure()
ax = fig.add_subplot(1,1,1)
ax.plot([1,2,3])
plt.draw()
png, md = pt.retina_figure(fig)
assert png.startswith(_PNG)
nt.assert_in('width', md)
nt.assert_in('height', md)
_fmt_mime_map = {
'png': 'image/png',
'jpeg': 'image/jpeg',
'pdf': 'application/pdf',
'retina': 'image/png',
'svg': 'image/svg+xml',
}
def test_select_figure_formats_str():
ip = get_ipython()
for fmt, active_mime in _fmt_mime_map.items():
pt.select_figure_formats(ip, fmt)
for mime, f in ip.display_formatter.formatters.items():
if mime == active_mime:
nt.assert_in(Figure, f)
else:
nt.assert_not_in(Figure, f)
def test_select_figure_formats_kwargs():
ip = get_ipython()
kwargs = dict(quality=10, bbox_inches='tight')
pt.select_figure_formats(ip, 'png', **kwargs)
formatter = ip.display_formatter.formatters['image/png']
f = formatter.lookup_by_type(Figure)
cell = f.__closure__[0].cell_contents
nt.assert_equal(cell, kwargs)
# check that the formatter doesn't raise
fig = plt.figure()
ax = fig.add_subplot(1,1,1)
ax.plot([1,2,3])
plt.draw()
formatter.enabled = True
png = formatter(fig)
assert png.startswith(_PNG)
def test_select_figure_formats_set():
ip = get_ipython()
for fmts in [
{'png', 'svg'},
['png'],
('jpeg', 'pdf', 'retina'),
{'svg'},
]:
active_mimes = {_fmt_mime_map[fmt] for fmt in fmts}
pt.select_figure_formats(ip, fmts)
for mime, f in ip.display_formatter.formatters.items():
if mime in active_mimes:
nt.assert_in(Figure, f)
else:
nt.assert_not_in(Figure, f)
def test_select_figure_formats_bad():
ip = get_ipython()
with nt.assert_raises(ValueError):
pt.select_figure_formats(ip, 'foo')
with nt.assert_raises(ValueError):
pt.select_figure_formats(ip, {'png', 'foo'})
with nt.assert_raises(ValueError):
pt.select_figure_formats(ip, ['retina', 'pdf', 'bar', 'bad'])
def test_import_pylab():
ns = {}
pt.import_pylab(ns, import_all=False)
nt.assert_true('plt' in ns)
nt.assert_equal(ns['np'], np)
class TestPylabSwitch(object):
class Shell(InteractiveShell):
def enable_gui(self, gui):
pass
def setup(self):
import matplotlib
def act_mpl(backend):
matplotlib.rcParams['backend'] = backend
# Save rcParams since they get modified
self._saved_rcParams = matplotlib.rcParams
self._saved_rcParamsOrig = matplotlib.rcParamsOrig
matplotlib.rcParams = dict(backend='Qt4Agg')
matplotlib.rcParamsOrig = dict(backend='Qt4Agg')
# Mock out functions
self._save_am = pt.activate_matplotlib
pt.activate_matplotlib = act_mpl
self._save_ip = pt.import_pylab
pt.import_pylab = lambda *a,**kw:None
self._save_cis = pt.configure_inline_support
pt.configure_inline_support = lambda *a,**kw:None
def teardown(self):
pt.activate_matplotlib = self._save_am
pt.import_pylab = self._save_ip
pt.configure_inline_support = self._save_cis
import matplotlib
matplotlib.rcParams = self._saved_rcParams
matplotlib.rcParamsOrig = self._saved_rcParamsOrig
def test_qt(self):
s = self.Shell()
gui, backend = s.enable_matplotlib(None)
nt.assert_equal(gui, 'qt')
nt.assert_equal(s.pylab_gui_select, 'qt')
gui, backend = s.enable_matplotlib('inline')
nt.assert_equal(gui, 'inline')
nt.assert_equal(s.pylab_gui_select, 'qt')
gui, backend = s.enable_matplotlib('qt')
nt.assert_equal(gui, 'qt')
nt.assert_equal(s.pylab_gui_select, 'qt')
gui, backend = s.enable_matplotlib('inline')
nt.assert_equal(gui, 'inline')
nt.assert_equal(s.pylab_gui_select, 'qt')
gui, backend = s.enable_matplotlib()
nt.assert_equal(gui, 'qt')
nt.assert_equal(s.pylab_gui_select, 'qt')
def test_inline(self):
s = self.Shell()
gui, backend = s.enable_matplotlib('inline')
nt.assert_equal(gui, 'inline')
nt.assert_equal(s.pylab_gui_select, None)
gui, backend = s.enable_matplotlib('inline')
nt.assert_equal(gui, 'inline')
nt.assert_equal(s.pylab_gui_select, None)
gui, backend = s.enable_matplotlib('qt')
nt.assert_equal(gui, 'qt')
nt.assert_equal(s.pylab_gui_select, 'qt')
def test_inline_twice(self):
"Using '%matplotlib inline' twice should not reset formatters"
ip = self.Shell()
gui, backend = ip.enable_matplotlib('inline')
nt.assert_equal(gui, 'inline')
fmts = {'png'}
active_mimes = {_fmt_mime_map[fmt] for fmt in fmts}
pt.select_figure_formats(ip, fmts)
gui, backend = ip.enable_matplotlib('inline')
nt.assert_equal(gui, 'inline')
for mime, f in ip.display_formatter.formatters.items():
if mime in active_mimes:
nt.assert_in(Figure, f)
else:
nt.assert_not_in(Figure, f)
def test_qt_gtk(self):
s = self.Shell()
gui, backend = s.enable_matplotlib('qt')
nt.assert_equal(gui, 'qt')
nt.assert_equal(s.pylab_gui_select, 'qt')
gui, backend = s.enable_matplotlib('gtk')
nt.assert_equal(gui, 'qt')
nt.assert_equal(s.pylab_gui_select, 'qt')