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Major restructuring of magics, breaking them up into separate classes....
Major restructuring of magics, breaking them up into separate classes. This is the first step to get the new magic architecture in place, with a new base class for magic functions. At this point IPython does *not* run, but the changes are extensive enough to warrant intermediate non-working commits.
Fernando Perez - - Load All Authors

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nbexamples.py
147 lines | 2.8 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
)
# some random base64-encoded *bytes*
png = encodestring(os.urandom(5))
jpeg = encodestring(os.urandom(6))
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',
etype=u'NameError',
evalue=u'NameError was here',
traceback=[u'frame 0', u'frame 1', u'frame 2']
)]
))
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</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