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test_complex_outputs_unrun_cache.xml
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test_complex_outputs_unrun_cache.xml
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<document source="complex_outputs_unrun">
<container cell_index="0" cell_metadata="{'init_cell': True, 'slideshow': {'slide_type': 'skip'}}" classes="cell" exec_count="1" nb_element="cell_code">
<container classes="cell_input" nb_element="cell_code_source">
<literal_block language="ipython3" xml:space="preserve">
import matplotlib.pyplot as plt
import pandas as pd
import sympy as sym
sym.init_printing(use_latex=True)
import numpy as np
from IPython.display import Image, Latex
<section ids="markdown" names="markdown">
<title>
Markdown
<section ids="general" names="general">
<title>
General
<paragraph>
Some markdown text.
<paragraph>
A list:
<bullet_list bullet="-">
<list_item>
<paragraph>
something
<list_item>
<paragraph>
something else
<paragraph>
A numbered list
<enumerated_list enumtype="arabic" prefix="" suffix=".">
<list_item>
<paragraph>
something
<list_item>
<paragraph>
something else
<paragraph>
non-ascii characters TODO
<paragraph>
This is a long section of text, which we only want in a document (not a presentation)
some text
some more text
some more text
some more text
some more text
some more text
some more text
some more text
some more text
<paragraph>
This is an abbreviated section of the document text, which we only want in a presentation
<bullet_list bullet="-">
<list_item>
<paragraph>
summary of document text
<section ids="references-and-citations" names="references\ and\ citations">
<title>
References and Citations
<paragraph>
References to \cref{fig:example}, \cref{tbl:example}, =@eqn:example_sympy and \cref{code:example_mpl}.
<paragraph>
A latex citation.\cite{zelenyak_molecular_2016}
<paragraph>
A html citation.
<raw format="html" xml:space="preserve">
<cite data-cite="kirkeminde_thermodynamic_2012">
(Kirkeminde, 2012)
<raw format="html" xml:space="preserve">
</cite>
<section ids="todo-notes" names="todo\ notes">
<title>
Todo notes
<paragraph>
\todo[inline]{an inline todo}
<paragraph>
Some text.\todo{a todo in the margins}
<section ids="text-output" names="text\ output">
<title>
Text Output
<container cell_index="11" cell_metadata="{'ipub': {'text': {'format': {'backgroundcolor': '\\color{blue!10}'}}}}" classes="cell" exec_count="2" nb_element="cell_code">
<container classes="cell_input" nb_element="cell_code_source">
<literal_block language="ipython3" xml:space="preserve">
print("""
This is some printed text,
with a nicely formatted output.
""")
<container classes="cell_output" nb_element="cell_code_output">
<literal_block classes="output stream" language="myst-ansi" xml:space="preserve">
This is some printed text,
with a nicely formatted output.
<section ids="images-and-figures" names="images\ and\ figures">
<title>
Images and Figures
<section ids="displaying-a-plot-with-its-code" names="displaying\ a\ plot\ with\ its\ code">
<title>
Displaying a plot with its code
<paragraph>
A matplotlib figure, with the caption set in the markdowncell above the figure.
<paragraph>
The plotting code for a matplotlib figure (\cref{fig:example_mpl}).
<section ids="tables-with-pandas" names="tables\ (with\ pandas)">
<title>
Tables (with pandas)
<paragraph>
The plotting code for a pandas Dataframe table (\cref{tbl:example}).
<container cell_index="18" cell_metadata="{'ipub': {'code': {'asfloat': True, 'caption': '', 'label': 'code:example_pd', 'placement': 'H', 'widefigure': False}, 'table': {'alternate': 'gray!20', 'caption': 'An example of a table created with pandas dataframe.', 'label': 'tbl:example', 'placement': 'H'}}}" classes="cell" exec_count="3" nb_element="cell_code">
<container classes="cell_input" nb_element="cell_code_source">
<literal_block language="ipython3" xml:space="preserve">
np.random.seed(0)
df = pd.DataFrame(np.random.rand(3,4),columns=['a','b','c','d'])
df.a = ['$\delta$','x','y']
df.b = ['l','m','n']
df.set_index(['a','b'])
df.round(3)
<container classes="cell_output" nb_element="cell_code_output">
<container nb_element="mime_bundle">
<container mime_type="text/plain">
<literal_block classes="output text_plain" language="myst-ansi" xml:space="preserve">
a b c d
0 $\delta$ l 0.603 0.545
1 x m 0.438 0.892
2 y n 0.792 0.529
<container mime_type="text/html">
<raw classes="output text_html" format="html" xml:space="preserve">
<div>
<style scoped>
.dataframe tbody tr th:only-of-type {
vertical-align: middle;
}
.dataframe tbody tr th {
vertical-align: top;
}
.dataframe thead th {
text-align: right;
}
</style>
<table border="1" class="dataframe">
<thead>
<tr style="text-align: right;">
<th></th>
<th>a</th>
<th>b</th>
<th>c</th>
<th>d</th>
</tr>
</thead>
<tbody>
<tr>
<th>0</th>
<td>$\delta$</td>
<td>l</td>
<td>0.603</td>
<td>0.545</td>
</tr>
<tr>
<th>1</th>
<td>x</td>
<td>m</td>
<td>0.438</td>
<td>0.892</td>
</tr>
<tr>
<th>2</th>
<td>y</td>
<td>n</td>
<td>0.792</td>
<td>0.529</td>
</tr>
</tbody>
</table>
</div>
<section ids="equations-with-ipython-or-sympy" names="equations\ (with\ ipython\ or\ sympy)">
<title>
Equations (with ipython or sympy)
<container cell_index="20" cell_metadata="{'ipub': {'equation': {'label': 'eqn:example_ipy'}}}" classes="cell" exec_count="4" nb_element="cell_code">
<container classes="cell_input" nb_element="cell_code_source">
<literal_block language="ipython3" xml:space="preserve">
Latex('$$ a = b+c $$')
<container classes="cell_output" nb_element="cell_code_output">
<container nb_element="mime_bundle">
<container mime_type="text/plain">
<literal_block classes="output text_plain" language="myst-ansi" xml:space="preserve">
<IPython.core.display.Latex object>
<container mime_type="text/latex">
<math_block classes="output text_latex" nowrap="False" number="True" xml:space="preserve">
a = b+c
<paragraph>
The plotting code for a sympy equation (=@eqn:example_sympy).
<container cell_index="22" cell_metadata="{'ipub': {'code': {'asfloat': True, 'caption': '', 'label': 'code:example_sym', 'placement': 'H', 'widefigure': False}, 'equation': {'environment': 'equation', 'label': 'eqn:example_sympy'}}}" classes="cell" exec_count="5" nb_element="cell_code">
<container classes="cell_input" nb_element="cell_code_source">
<literal_block language="ipython3" xml:space="preserve">
y = sym.Function('y')
n = sym.symbols(r'\alpha')
f = y(n)-2*y(n-1/sym.pi)-5*y(n-2)
sym.rsolve(f,y(n),[1,4])
<container classes="cell_output" nb_element="cell_code_output">
<container nb_element="mime_bundle">
<container mime_type="text/plain">
<literal_block classes="output text_plain" language="myst-ansi" xml:space="preserve">
\alpha ⎛1 2⋅√5⋅ⅈ⎞ \alpha ⎛1 2⋅√5⋅ⅈ⎞
(√5⋅ⅈ) ⋅⎜─ - ──────⎟ + (-√5⋅ⅈ) ⋅⎜─ + ──────⎟
⎝2 5 ⎠ ⎝2 5 ⎠
<container mime_type="image/png">
<image candidates="{'*': '_build/jupyter_execute/e2dfbe330154316cfb6f3186e8f57fc4df8aee03b0303ed1345fc22cd51f66de.png'}" uri="_build/jupyter_execute/e2dfbe330154316cfb6f3186e8f57fc4df8aee03b0303ed1345fc22cd51f66de.png">
<container mime_type="text/latex">
<math_block classes="output text_latex" nowrap="False" number="True" xml:space="preserve">
\displaystyle \left(\sqrt{5} i\right)^{\alpha} \left(\frac{1}{2} - \frac{2 \sqrt{5} i}{5}\right) + \left(- \sqrt{5} i\right)^{\alpha} \left(\frac{1}{2} + \frac{2 \sqrt{5} i}{5}\right)
<section ids="interactive-outputs" names="interactive\ outputs">
<title>
Interactive outputs
<section ids="ipywidgets" names="ipywidgets">
<title>
ipywidgets
<container cell_index="24" cell_metadata="{}" classes="cell" exec_count="6" nb_element="cell_code">
<container classes="cell_input" nb_element="cell_code_source">
<literal_block language="ipython3" xml:space="preserve">
import ipywidgets as widgets
widgets.Layout(model_id="1337h4x0R")
<container classes="cell_output" nb_element="cell_code_output">
<container nb_element="mime_bundle">
<container mime_type="text/plain">
<literal_block classes="output text_plain" language="myst-ansi" xml:space="preserve">
Layout()
<container mime_type="application/vnd.jupyter.widget-view+json">
<raw format="html" xml:space="preserve">
<script type="application/vnd.jupyter.widget-view+json">{"version_major": 2, "version_minor": 0, "model_id": "1337h4x0R"}</script>
<container cell_index="25" cell_metadata="{}" classes="cell" exec_count="7" nb_element="cell_code">
<container classes="cell_input" nb_element="cell_code_source">
<literal_block language="ipython3" xml:space="preserve">
from IPython.display import display, Markdown
display(Markdown('**_some_ markdown**'))
<container classes="cell_output" nb_element="cell_code_output">
<container nb_element="mime_bundle">
<container mime_type="text/plain">
<literal_block classes="output text_plain" language="myst-ansi" xml:space="preserve">
<IPython.core.display.Markdown object>
<container mime_type="text/markdown">
<paragraph>
<strong>
<emphasis>
some
markdown