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update nbformat.current to v4
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1 {
2 "metadata": {
3 "cell_tags": ["<None>", null],
4 "name": "",
5 "kernel_info": {
6 "name": "python",
7 "language": "python"
8 }
9 },
10 "nbformat": 4,
11 "nbformat_minor": 0,
12 "cells": [
13 {
14 "cell_type": "heading",
15 "level": 1,
16 "metadata": {},
17 "source": [
18 "nbconvert latex test"
19 ]
20 },
21 {
22 "cell_type": "markdown",
23 "metadata": {},
24 "source": [
25 "**Lorem ipsum** dolor sit amet, consectetur adipiscing elit. Nunc luctus bibendum felis dictum sodales. Ut suscipit, orci ut interdum imperdiet, purus ligula mollis *justo*, non malesuada nisl augue eget lorem. Donec bibendum, erat sit amet porttitor aliquam, urna lorem ornare libero, in vehicula diam diam ut ante. Nam non urna rhoncus, accumsan elit sit amet, mollis tellus. Vestibulum nec tellus metus. Vestibulum tempor, ligula et vehicula rhoncus, sapien turpis faucibus lorem, id dapibus turpis mauris ac orci. Sed volutpat vestibulum venenatis."
26 ]
27 },
28 {
29 "cell_type": "heading",
30 "level": 2,
31 "metadata": {},
32 "source": [
33 "Printed Using Python"
34 ]
35 },
36 {
37 "cell_type": "code",
38 "source": [
39 "print(\"hello\")"
40 ],
41 "metadata": {
42 "collapsed": false,
43 "autoscroll": false
44 },
45 "outputs": [
46 {
47 "output_type": "stream",
48 "metadata": {},
49 "name": "stdout",
50 "text": [
51 "hello\n"
52 ]
53 }
54 ],
55 "prompt_number": 1
56 },
57 {
58 "cell_type": "heading",
59 "level": 2,
60 "metadata": {},
61 "source": [
62 "Pyout"
63 ]
64 },
65 {
66 "cell_type": "code",
67 "source": [
68 "from IPython.display import HTML\n",
69 "HTML(\"\"\"\n",
70 "<script>\n",
71 "console.log(\"hello\");\n",
72 "</script>\n",
73 "<b>HTML</b>\n",
74 "\"\"\")"
75 ],
76 "metadata": {
77 "collapsed": false,
78 "autoscroll": false
79 },
80 "outputs": [
81 {
82 "text/html": [
83 "\n",
84 "<script>\n",
85 "console.log(\"hello\");\n",
86 "</script>\n",
87 "<b>HTML</b>\n"
88 ],
89 "metadata": {},
90 "output_type": "execute_result",
91 "prompt_number": 3,
92 "text/plain": [
93 "<IPython.core.display.HTML at 0x1112757d0>"
94 ]
95 }
96 ],
97 "prompt_number": 3
98 },
99 {
100 "cell_type": "code",
101 "source": [
102 "%%javascript\n",
103 "console.log(\"hi\");"
104 ],
105 "metadata": {
106 "collapsed": false,
107 "autoscroll": false
108 },
109 "outputs": [
110 {
111 "text/javascript": [
112 "console.log(\"hi\");"
113 ],
114 "metadata": {},
115 "output_type": "display_data",
116 "text/plain": [
117 "<IPython.core.display.Javascript at 0x1112b4b50>"
118 ]
119 }
120 ],
121 "prompt_number": 7
122 },
123 {
124 "cell_type": "heading",
125 "level": 3,
126 "metadata": {},
127 "source": [
128 "Image"
129 ]
130 },
131 {
132 "cell_type": "code",
133 "source": [
134 "from IPython.display import Image\n",
135 "Image(\"http://ipython.org/_static/IPy_header.png\")"
136 ],
137 "metadata": {
138 "collapsed": false,
139 "autoscroll": false
140 },
141 "outputs": [
142 {
143 "metadata": {},
144 "output_type": "execute_result",
145 "image/png": 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/pIqv1FrXnVNh7AmTR3V0qIwwRH1E4E28pd5+De0hZ1m/Bb4bfX0+H4Z7dMM+hgGjkDwC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\nHMRRca/E5hVINNIVwI2B56z6/3ExLRI31pXNAAAAAElFTkSuQmCC\n",
146 "prompt_number": 6,
147 "text/plain": [
148 "<IPython.core.display.Image at 0x111275490>"
149 ]
150 }
151 ],
152 "prompt_number": 6
153 }
154 ]
155 }
Show file before | Show file after | Hide comments
@@ -1,26 +1,10 b''
1 """API for converting notebooks between versions.
1 """API for converting notebooks between versions."""
2
2
3 Authors:
3 # Copyright (c) IPython Development Team.
4
4 # Distributed under the terms of the Modified BSD License.
5 * Jonathan Frederic
6 """
7
8 #-----------------------------------------------------------------------------
9 # Copyright (C) 2013 The IPython Development Team
10 #
11 # Distributed under the terms of the BSD License. The full license is in
12 # the file COPYING, distributed as part of this software.
13 #-----------------------------------------------------------------------------
14
15 #-----------------------------------------------------------------------------
16 # Imports
17 #-----------------------------------------------------------------------------
18
5
19 from .reader import get_version, versions
6 from .reader import get_version, versions
20
7
21 #-----------------------------------------------------------------------------
22 # Functions
23 #-----------------------------------------------------------------------------
24
8
25 def convert(nb, to_version):
9 def convert(nb, to_version):
26 """Convert a notebook node object to a specific version. Assumes that
10 """Convert a notebook node object to a specific version. Assumes that
@@ -60,11 +44,11 b' def convert(nb, to_version):'
60 # Convert and make sure version changed during conversion.
44 # Convert and make sure version changed during conversion.
61 converted = convert_function(nb)
45 converted = convert_function(nb)
62 if converted.get('nbformat', 1) == version:
46 if converted.get('nbformat', 1) == version:
63 raise Exception("Cannot convert notebook from v%d to v%d. Operation" \
47 raise ValueError("Cannot convert notebook from v%d to v%d. Operation" \
64 "failed silently." % (version, step_version))
48 "failed silently." % (version, step_version))
65
49
66 # Recursively convert until target version is reached.
50 # Recursively convert until target version is reached.
67 return convert(converted, to_version)
51 return convert(converted, to_version)
68 else:
52 else:
69 raise Exception("Cannot convert notebook to v%d because that " \
53 raise ValueError("Cannot convert notebook to v%d because that " \
70 "version doesn't exist" % (to_version))
54 "version doesn't exist" % (to_version))
Show file before | Show file after | Hide comments
@@ -1,36 +1,22 b''
1 """API for reading notebooks.
1 """API for reading notebooks of different versions"""
2
2
3 Authors:
3 # Copyright (c) IPython Development Team.
4
4 # Distributed under the terms of the Modified BSD License.
5 * Jonathan Frederic
6 """
7
8 #-----------------------------------------------------------------------------
9 # Copyright (C) 2013 The IPython Development Team
10 #
11 # Distributed under the terms of the BSD License. The full license is in
12 # the file COPYING, distributed as part of this software.
13 #-----------------------------------------------------------------------------
14
15 #-----------------------------------------------------------------------------
16 # Imports
17 #-----------------------------------------------------------------------------
18
5
19 import json
6 import json
20
7
21 from . import v1
8 from . import v1
22 from . import v2
9 from . import v2
23 from . import v3
10 from . import v3
11 from . import v4
24
12
25 versions = {
13 versions = {
26 1: v1,
14 1: v1,
27 2: v2,
15 2: v2,
28 3: v3,
16 3: v3,
17 4: v4,
29 }
18 }
30
19
31 #-----------------------------------------------------------------------------
32 # Code
33 #-----------------------------------------------------------------------------
34
20
35 class NotJSONError(ValueError):
21 class NotJSONError(ValueError):
36 pass
22 pass
Show file before | Show file after | Hide comments
@@ -17,7 +17,6 b' from IPython.core.application import BaseIPythonApplication, base_flags'
17
17
18 from .current import read, write
18 from .current import read, write
19
19
20
21 try:
20 try:
22 # Python 3
21 # Python 3
23 algorithms = hashlib.algorithms_guaranteed
22 algorithms = hashlib.algorithms_guaranteed
@@ -181,10 +180,10 b' class NotebookNotary(LoggingConfigurable):'
181
180
182 This function is the inverse of check_cells
181 This function is the inverse of check_cells
183 """
182 """
184 if not nb['worksheets']:
183 if not nb['cells']:
185 # nothing to mark if there are no cells
184 # nothing to mark if there are no cells
186 return
185 return
187 for cell in nb['worksheets'][0]['cells']:
186 for cell in nb['cells']:
188 if cell['cell_type'] == 'code':
187 if cell['cell_type'] == 'code':
189 cell['metadata']['trusted'] = trusted
188 cell['metadata']['trusted'] = trusted
190
189
@@ -206,12 +205,11 b' class NotebookNotary(LoggingConfigurable):'
206 # explicitly safe output
205 # explicitly safe output
207 safe = {
206 safe = {
208 'text/plain', 'image/png', 'image/jpeg',
207 'text/plain', 'image/png', 'image/jpeg',
209 'text', 'png', 'jpg', # v3-style short keys
210 }
208 }
211
209
212 for output in cell['outputs']:
210 for output in cell['outputs']:
213 output_type = output['output_type']
211 output_type = output['output_type']
214 if output_type in ('pyout', 'display_data'):
212 if output_type in {'execute_result', 'display_data'}:
215 # if there are any data keys not in the safe whitelist
213 # if there are any data keys not in the safe whitelist
216 output_keys = set(output).difference({"output_type", "prompt_number", "metadata"})
214 output_keys = set(output).difference({"output_type", "prompt_number", "metadata"})
217 if output_keys.difference(safe):
215 if output_keys.difference(safe):
@@ -226,10 +224,10 b' class NotebookNotary(LoggingConfigurable):'
226
224
227 This function is the inverse of mark_cells.
225 This function is the inverse of mark_cells.
228 """
226 """
229 if not nb['worksheets']:
227 if not nb['cells']:
230 return True
228 return True
231 trusted = True
229 trusted = True
232 for cell in nb['worksheets'][0]['cells']:
230 for cell in nb['cells']:
233 if cell['cell_type'] != 'code':
231 if cell['cell_type'] != 'code':
234 continue
232 continue
235 # only distrust a cell if it actually has some output to distrust
233 # only distrust a cell if it actually has some output to distrust
Show file before | Show file after | Hide comments
@@ -1,16 +1,7 b''
1 """
1 """Tests for nbformat.convert"""
2 Contains tests class for convert.py
2
3 """
3 # Copyright (c) IPython Development Team.
4 #-----------------------------------------------------------------------------
4 # Distributed under the terms of the Modified BSD License.
5 # Copyright (C) 2013 The IPython Development Team
6 #
7 # Distributed under the terms of the BSD License. The full license is in
8 # the file COPYING, distributed as part of this software.
9 #-----------------------------------------------------------------------------
10
11 #-----------------------------------------------------------------------------
12 # Imports
13 #-----------------------------------------------------------------------------
14
5
15 from .base import TestsBase
6 from .base import TestsBase
16
7
@@ -18,13 +9,10 b' from ..convert import convert'
18 from ..reader import read, get_version
9 from ..reader import read, get_version
19 from ..current import current_nbformat
10 from ..current import current_nbformat
20
11
21 #-----------------------------------------------------------------------------
22 # Classes and functions
23 #-----------------------------------------------------------------------------
24
12
25 class TestConvert(TestsBase):
13 class TestConvert(TestsBase):
26
14
27 def test_downgrade(self):
15 def test_downgrade_3_2(self):
28 """Do notebook downgrades work?"""
16 """Do notebook downgrades work?"""
29
17
30 # Open a version 3 notebook and attempt to downgrade it to version 2.
18 # Open a version 3 notebook and attempt to downgrade it to version 2.
@@ -37,7 +25,7 b' class TestConvert(TestsBase):'
37 self.assertEqual(major, 2)
25 self.assertEqual(major, 2)
38
26
39
27
40 def test_upgrade(self):
28 def test_upgrade_2_3(self):
41 """Do notebook upgrades work?"""
29 """Do notebook upgrades work?"""
42
30
43 # Open a version 2 notebook and attempt to upgrade it to version 3.
31 # Open a version 2 notebook and attempt to upgrade it to version 3.
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@@ -1,14 +1,7 b''
1 """Test Notebook signing"""
1 """Test Notebook signing"""
2 #-----------------------------------------------------------------------------
3 # Copyright (C) 2014, The IPython Development Team
4 #
5 # Distributed under the terms of the BSD License. The full license is in
6 # the file COPYING, distributed as part of this software.
7 #-----------------------------------------------------------------------------
8
2
9 #-----------------------------------------------------------------------------
3 # Copyright (c) IPython Development Team.
10 # Imports
4 # Distributed under the terms of the Modified BSD License.
11 #-----------------------------------------------------------------------------
12
5
13 from .. import sign
6 from .. import sign
14 from .base import TestsBase
7 from .base import TestsBase
@@ -16,9 +9,6 b' from .base import TestsBase'
16 from ..current import read
9 from ..current import read
17 from IPython.core.getipython import get_ipython
10 from IPython.core.getipython import get_ipython
18
11
19 #-----------------------------------------------------------------------------
20 # Classes and functions
21 #-----------------------------------------------------------------------------
22
12
23 class TestNotary(TestsBase):
13 class TestNotary(TestsBase):
24
14
@@ -80,7 +70,7 b' class TestNotary(TestsBase):'
80 self.assertTrue(check_signature(nb))
70 self.assertTrue(check_signature(nb))
81
71
82 def test_mark_cells_untrusted(self):
72 def test_mark_cells_untrusted(self):
83 cells = self.nb.worksheets[0].cells
73 cells = self.nb.cells
84 self.notary.mark_cells(self.nb, False)
74 self.notary.mark_cells(self.nb, False)
85 for cell in cells:
75 for cell in cells:
86 self.assertNotIn('trusted', cell)
76 self.assertNotIn('trusted', cell)
@@ -91,7 +81,7 b' class TestNotary(TestsBase):'
91 self.assertNotIn('trusted', cell.metadata)
81 self.assertNotIn('trusted', cell.metadata)
92
82
93 def test_mark_cells_trusted(self):
83 def test_mark_cells_trusted(self):
94 cells = self.nb.worksheets[0].cells
84 cells = self.nb.cells
95 self.notary.mark_cells(self.nb, True)
85 self.notary.mark_cells(self.nb, True)
96 for cell in cells:
86 for cell in cells:
97 self.assertNotIn('trusted', cell)
87 self.assertNotIn('trusted', cell)
@@ -105,17 +95,17 b' class TestNotary(TestsBase):'
105 nb = self.nb
95 nb = self.nb
106 self.notary.mark_cells(nb, True)
96 self.notary.mark_cells(nb, True)
107 self.assertTrue(self.notary.check_cells(nb))
97 self.assertTrue(self.notary.check_cells(nb))
108 for cell in nb.worksheets[0].cells:
98 for cell in nb.cells:
109 self.assertNotIn('trusted', cell)
99 self.assertNotIn('trusted', cell)
110 self.notary.mark_cells(nb, False)
100 self.notary.mark_cells(nb, False)
111 self.assertFalse(self.notary.check_cells(nb))
101 self.assertFalse(self.notary.check_cells(nb))
112 for cell in nb.worksheets[0].cells:
102 for cell in nb.cells:
113 self.assertNotIn('trusted', cell)
103 self.assertNotIn('trusted', cell)
114
104
115 def test_trust_no_output(self):
105 def test_trust_no_output(self):
116 nb = self.nb
106 nb = self.nb
117 self.notary.mark_cells(nb, False)
107 self.notary.mark_cells(nb, False)
118 for cell in nb.worksheets[0].cells:
108 for cell in nb.cells:
119 if cell.cell_type == 'code':
109 if cell.cell_type == 'code':
120 cell.outputs = []
110 cell.outputs = []
121 self.assertTrue(self.notary.check_cells(nb))
111 self.assertTrue(self.notary.check_cells(nb))
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@@ -11,14 +11,10 b' from ..current import read'
11 from ..validator import isvalid, validate
11 from ..validator import isvalid, validate
12
12
13
13
14 #-----------------------------------------------------------------------------
15 # Classes and functions
16 #-----------------------------------------------------------------------------
17
18 class TestValidator(TestsBase):
14 class TestValidator(TestsBase):
19
15
20 def test_nb2(self):
16 def test_nb2(self):
21 """Test that a v2 notebook converted to v3 passes validation"""
17 """Test that a v2 notebook converted to current passes validation"""
22 with self.fopen(u'test2.ipynb', u'r') as f:
18 with self.fopen(u'test2.ipynb', u'r') as f:
23 nb = read(f, u'json')
19 nb = read(f, u'json')
24 validate(nb)
20 validate(nb)
@@ -31,6 +27,13 b' class TestValidator(TestsBase):'
31 validate(nb)
27 validate(nb)
32 self.assertEqual(isvalid(nb), True)
28 self.assertEqual(isvalid(nb), True)
33
29
30 def test_nb4(self):
31 """Test that a v3 notebook passes validation"""
32 with self.fopen(u'test4.ipynb', u'r') as f:
33 nb = read(f, u'json')
34 validate(nb)
35 self.assertEqual(isvalid(nb), True)
36
34 def test_invalid(self):
37 def test_invalid(self):
35 """Test than an invalid notebook does not pass validation"""
38 """Test than an invalid notebook does not pass validation"""
36 # this notebook has a few different errors:
39 # this notebook has a few different errors:
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@@ -4,7 +4,7 b''
4 # Distributed under the terms of the Modified BSD License.
4 # Distributed under the terms of the Modified BSD License.
5
5
6 from .nbbase import (
6 from .nbbase import (
7 NotebookNode,
7 NotebookNode, from_dict,
8 nbformat, nbformat_minor, nbformat_schema,
8 nbformat, nbformat_minor, nbformat_schema,
9 new_code_cell, new_heading_cell, new_markdown_cell, new_notebook,
9 new_code_cell, new_heading_cell, new_markdown_cell, new_notebook,
10 new_output,
10 new_output,
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