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Make comm manager (mostly) independent of InteractiveShell...
Make comm manager (mostly) independent of InteractiveShell This makes it possible to use comms from wrapper kernels, without instantiating the full IPython shell machinery. The one remaining place where we need a reference to shell is to fire pre_execute and post_execute hooks (which are needed to get mpl figures right). This is a pure IPythonism, that it should be safe to ignore if shell is not set.
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nbexamples.py
154 lines | 3.0 KiB | text/x-python | PythonLexer
/ IPython / nbformat / v3 / tests / nbexamples.py
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# -*- coding: utf-8 -*-
import os
from base64 import encodestring
from ..nbbase import (
NotebookNode,
new_code_cell, new_text_cell, new_worksheet, new_notebook, new_output,
new_metadata, new_author, new_heading_cell, nbformat, nbformat_minor
)
# some random base64-encoded *text*
png = encodestring(os.urandom(5)).decode('ascii')
jpeg = encodestring(os.urandom(6)).decode('ascii')
ws = new_worksheet(name='worksheet1')
ws.cells.append(new_text_cell(
u'html',
source='Some NumPy Examples',
rendered='Some NumPy Examples'
))
ws.cells.append(new_code_cell(
input='import numpy',
prompt_number=1,
collapsed=False
))
ws.cells.append(new_text_cell(
u'markdown',
source='A random array',
rendered='A random array'
))
ws.cells.append(new_text_cell(
u'raw',
source='A random array',
))
ws.cells.append(new_heading_cell(
u'My Heading',
level=2
))
ws.cells.append(new_code_cell(
input='a = numpy.random.rand(100)',
prompt_number=2,
collapsed=True
))
ws.cells.append(new_code_cell(
input='a = 10\nb = 5\n',
prompt_number=3,
))
ws.cells.append(new_code_cell(
input='a = 10\nb = 5',
prompt_number=4,
))
ws.cells.append(new_code_cell(
input=u'print "ünîcødé"',
prompt_number=3,
collapsed=False,
outputs=[new_output(
output_type=u'pyout',
output_text=u'<array a>',
output_html=u'The HTML rep',
output_latex=u'$a$',
output_png=png,
output_jpeg=jpeg,
output_svg=u'<svg>',
output_json=u'json data',
output_javascript=u'var i=0;',
prompt_number=3
),new_output(
output_type=u'display_data',
output_text=u'<array a>',
output_html=u'The HTML rep',
output_latex=u'$a$',
output_png=png,
output_jpeg=jpeg,
output_svg=u'<svg>',
output_json=u'json data',
output_javascript=u'var i=0;'
),new_output(
output_type=u'pyerr',
ename=u'NameError',
evalue=u'NameError was here',
traceback=[u'frame 0', u'frame 1', u'frame 2']
),new_output(
output_type=u'stream',
output_text='foo\rbar\r\n'
),new_output(
output_type=u'stream',
stream='stderr',
output_text='\rfoo\rbar\n'
)]
))
authors = [new_author(name='Bart Simpson',email='bsimpson@fox.com',
affiliation=u'Fox',url=u'http://www.fox.com')]
md = new_metadata(name=u'My Notebook',license=u'BSD',created=u'8601_goes_here',
modified=u'8601_goes_here',gistid=u'21341231',authors=authors)
nb0 = new_notebook(
worksheets=[ws, new_worksheet(name='worksheet2')],
metadata=md
)
nb0_py = u"""# -*- coding: utf-8 -*-
# <nbformat>%i.%i</nbformat>
# <htmlcell>
# Some NumPy Examples
# <codecell>
import numpy
# <markdowncell>
# A random array
# <rawcell>
# A random array
# <headingcell level=2>
# My Heading
# <codecell>
a = numpy.random.rand(100)
# <codecell>
a = 10
b = 5
# <codecell>
a = 10
b = 5
# <codecell>
print "ünîcødé"
""" % (nbformat, nbformat_minor)