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Make prompt numbers notebook more specific
Jessica B. Hamrick -
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@@ -8,42 +8,6 b''
8 {
8 {
9 "cells": [
9 "cells": [
10 {
10 {
11 "cell_type": "heading",
12 "level": 1,
13 "metadata": {},
14 "source": [
15 "NumPy and Matplotlib examples"
16 ]
17 },
18 {
19 "cell_type": "markdown",
20 "metadata": {},
21 "source": [
22 "First import NumPy and Matplotlib:"
23 ]
24 },
25 {
26 "cell_type": "code",
27 "collapsed": false,
28 "input": [
29 "%pylab inline"
30 ],
31 "language": "python",
32 "metadata": {},
33 "outputs": [
34 {
35 "output_type": "stream",
36 "stream": "stdout",
37 "text": [
38 "\n",
39 "Welcome to pylab, a matplotlib-based Python environment [backend: module://IPython.kernel.zmq.pylab.backend_inline].\n",
40 "For more information, type 'help(pylab)'.\n"
41 ]
42 }
43 ],
44 "prompt_number": 1
45 },
46 {
47 "cell_type": "code",
11 "cell_type": "code",
48 "collapsed": false,
12 "collapsed": false,
49 "input": [
13 "input": [
@@ -55,58 +19,10 b''
55 "prompt_number": 2
19 "prompt_number": 2
56 },
20 },
57 {
21 {
58 "cell_type": "markdown",
59 "metadata": {},
60 "source": [
61 "Now we show some very basic examples of how they can be used."
62 ]
63 },
64 {
65 "cell_type": "code",
66 "collapsed": false,
67 "input": [
68 "a = np.random.uniform(size=(100,100))"
69 ],
70 "language": "python",
71 "metadata": {},
72 "outputs": [],
73 "prompt_number": 6
74 },
75 {
76 "cell_type": "code",
77 "collapsed": false,
78 "input": [
79 "a.shape"
80 ],
81 "language": "python",
82 "metadata": {},
83 "outputs": [
84 {
85 "metadata": {},
86 "output_type": "pyout",
87 "prompt_number": 7,
88 "text": [
89 "(100, 100)"
90 ]
91 }
92 ],
93 "prompt_number": 7
94 },
95 {
96 "cell_type": "code",
97 "collapsed": false,
98 "input": [
99 "evs = np.linalg.eigvals(a)"
100 ],
101 "language": "python",
102 "metadata": {},
103 "outputs": [],
104 "prompt_number": 8
105 },
106 {
107 "cell_type": "code",
22 "cell_type": "code",
108 "collapsed": false,
23 "collapsed": false,
109 "input": [
24 "input": [
25 "evs = np.zeros(100)",
110 "evs.shape"
26 "evs.shape"
111 ],
27 ],
112 "language": "python",
28 "language": "python",
@@ -124,45 +40,6 b''
124 "prompt_number": 10
40 "prompt_number": 10
125 },
41 },
126 {
42 {
127 "cell_type": "markdown",
128 "metadata": {},
129 "source": [
130 "Here is a cell that has both text and PNG output:"
131 ]
132 },
133 {
134 "cell_type": "code",
135 "collapsed": false,
136 "input": [
137 "hist(evs.real)"
138 ],
139 "language": "python",
140 "metadata": {},
141 "outputs": [
142 {
143 "metadata": {},
144 "output_type": "pyout",
145 "prompt_number": 14,
146 "text": [
147 "(array([95, 4, 0, 0, 0, 0, 0, 0, 0, 1]),\n",
148 " array([ -2.93566063, 2.35937011, 7.65440086, 12.9494316 ,\n",
149 " 18.24446235, 23.53949309, 28.83452384, 34.12955458,\n",
150 " 39.42458533, 44.71961607, 50.01464682]),\n",
151 " <a list of 10 Patch objects>)"
152 ]
153 },
154 {
155 "metadata": {},
156 "output_type": "display_data",
157 "png": 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1zjvvaMuWLerr6/PM/JK0efNmlZWVpS+M8NLslmUpGo3q0KFDisfjkrw1/7p162Tbtrq6\nutTV1SWfz+dq/pwE3ufzadasWX/aHovFVF9fL9u2tWDBAjmOo2QymYuRMuLF6/vnzZunadOmDdkW\nj8fV3NysgoICNTU1jet9mDFjhiorKyVJ06dPV3l5uRKJhKf24eKLL5YkDQwM6Oeff1ZBQYFn5j9x\n4oRef/11rVixIn1hhFdm/9UfL+jw0vz79u3T2rVrNWHCBOXn52vq1Kmu5h/Tz6KJx+MqLS1N3y8p\nKUm/2o4nplzf//v98Pl84/J3/VeOHj2q7u5uVVdXe2ofzp07p4qKChUWFuq+++6Tbduemf+BBx7Q\npk2blJf3WyK8Mrt0/gi+trZWjY2N2r59uyTvzH/ixAkNDg6qpaVFgUBAGzduVCqVcjV/1v7IetNN\nN+nLL7/80/YNGzakz+H90V9dMsl18qPHi5eoJpNJLVmyRO3t7Zo0aZKn9iEvL0+ffPKJjh07psWL\nF2vu3LmemH/Hjh267LLL5Pf7h7y93wuz/+q9997TzJkz1dPTo4aGBlVXV3tm/sHBQfX29mrTpk2q\nq6vTypUr9dJLL7maP2tH8Hv37tWnn376p9vfxV2SAoGADh8+nL5/5MgRVVVVZWukrKmqqtKRI0fS\n97u7u1VTUzOGE7lTVVWlnp4eSVJPT8+4/F3/3tmzZ3X77bdr+fLlCoVCkry3D9L5P/gtXrxYsVjM\nE/O///772r59u6666iotXbpUb731lpYvX+6J2X81c+ZMSVJpaaluueUWvfbaa56Z/5prrlFJSYka\nGho0ceJELV26VLt373Y1f85P0fz+Vai6ulp79uxRf3+/otGo8vLyNHny5FyP9K9Mub4/EAgoEoko\nlUopEomM6xcpx3HU3Nysa6+9VmvWrElv98o+fPPNN/ruu+8kSd9++63eeOMNhUIhT8y/YcMGHT9+\nXF988YW2bdum2tpabd261ROzS9KZM2fSf8v7+uuvtWfPHtXX13tmfkkqLi5WLBbTuXPntHPnTtXV\n1bmb38mBV155xSkqKnImTJjgFBYWOvX19envPfroo87VV1/tlJaWOvv378/FOK5Eo1HH5/M5V199\ntbN58+axHudf3Xnnnc7MmTOdiy66yCkqKnIikYhz+vRp55ZbbnEuv/xyJxQKOclkcqzH/Fvvvvuu\nY1mWU1FR4VRWVjqVlZXOrl27PLMPXV1djt/vd+bMmeMsWrTIefbZZx3HcTwz/6+i0ajT0NDgOI53\nZv/888+diooKp6KiwqmtrXW2bNniOI535nccx/nss8+cQCDgVFRUOA8++KAzMDDgav6c/5usAIDc\n4F90AgBDEXgAMBSBBwBDEXgAMBSBBwBDEXgAMNT/AQKseNIf7mhWAAAAAElFTkSuQmCC\n",
158 "text": [
159 "<matplotlib.figure.Figure at 0x108c8f1d0>"
160 ]
161 }
162 ],
163 "prompt_number": 14
164 },
165 {
166 "cell_type": "code",
43 "cell_type": "code",
167 "collapsed": false,
44 "collapsed": false,
168 "input": [],
45 "input": [],
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@@ -70,8 +70,8 b' class TestHTMLExporter(ExportersTestsBase):'
70 in_regex = r"In&nbsp;\[(.*)\]:"
70 in_regex = r"In&nbsp;\[(.*)\]:"
71 out_regex = r"Out\[(.*)\]:"
71 out_regex = r"Out\[(.*)\]:"
72
72
73 ins = ["1", "2", "6", "7", "8", "10", "14", "&nbsp;", "&nbsp;", "*", "0"]
73 ins = ["2", "10", "&nbsp;", "&nbsp;", "*", "0"]
74 outs = ["7", "10", "14"]
74 outs = ["10"]
75
75
76 assert re.findall(in_regex, output) == ins
76 assert re.findall(in_regex, output) == ins
77 assert re.findall(out_regex, output) == outs
77 assert re.findall(out_regex, output) == outs
Show file before | Show file after | Hide comments
@@ -111,8 +111,8 b' class TestLatexExporter(ExportersTestsBase):'
111 in_regex = r"In \[\{\\color\{incolor\}(.*)\}\]:"
111 in_regex = r"In \[\{\\color\{incolor\}(.*)\}\]:"
112 out_regex = r"Out\[\{\\color\{outcolor\}(.*)\}\]:"
112 out_regex = r"Out\[\{\\color\{outcolor\}(.*)\}\]:"
113
113
114 ins = ["1", "2", "6", "7", "8", "10", "14", " ", " ", "*", "0"]
114 ins = ["2", "10", " ", " ", "*", "0"]
115 outs = ["7", "10", "14"]
115 outs = ["10"]
116
116
117 assert re.findall(in_regex, output) == ins
117 assert re.findall(in_regex, output) == ins
118 assert re.findall(out_regex, output) == outs
118 assert re.findall(out_regex, output) == outs
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