#!/usr/bin/env python
# coding: utf-8

# <center><h1> CSS Playground </h1></center>

# A notebook that contain most of the things that could be displayed, to test CSS, feel free to add things to it, and send modification

# # Title first level

# ## Title second Level

# ### Title third level

# #### h4

# ##### h5

# ###### h6

# # h1
# ## h2
# ### h3
# #### h4
# ##### h6
# 
# This is just a sample paragraph
# 
# > With a blockquote
# 
#     def some_code():
#         return 'by indenting'
# 
# ```
# def some_other_code():
#     return 'between_backticks'
# ```

# You can look at different level of nested unordered list 
# 
# - level 1
#     - level 2
#     - level 2
#     - level 2
#         - level 3
#         - level 3
#             - level 4
#                 - level 5
#                     - level 6
#     - level 2
# 
# - level 1
# - level 1
# - level 1

# Ordered list 
# 
# 1. level 1
#     2. level 1
#     3. level 1
#         4. level 1
#         1. level 1
#         2. level 1
#             2. level 1
#             3. level 1
#                 4. level 1
#                 1. level 1
#                 2. level 1
# 3. level 1
# 4. level 1

# some Horizontal line
# 
# ***
# 
# ---

# ## copy past from Daring Fireball

# link : 
# This is [an example](http://example.com/ "Title") inline link.
# 
# [This link](http://example.net/) has no title attribute.

# inline Html
# This is a regular paragraph.
# 
# <table>
#     <tr>
#         <td>Foo</td>
#     </tr>
# </table>
# 
# This is another regular paragraph.

# > This is a blockquote with two paragraphs. Lorem ipsum dolor sit amet,
# > consectetuer adipiscing elit. Aliquam hendrerit mi posuere lectus.
# > Vestibulum enim wisi, viverra nec, fringilla in, laoreet vitae, risus.
# > 
# > Donec sit amet nisl. Aliquam semper ipsum sit amet velit. Suspendisse
# > id sem consectetuer libero luctus adipiscing.
# 
# ---
# 
# > This is a blockquote with two paragraphs. Lorem ipsum dolor sit amet,
# consectetuer adipiscing elit. Aliquam hendrerit mi posuere lectus.
# Vestibulum enim wisi, viverra nec, fringilla in, laoreet vitae, risus.
# 
# > Donec sit amet nisl. Aliquam semper ipsum sit amet velit. Suspendisse
# id sem consectetuer libero luctus adipiscing.

# > This is the first level of quoting.
# >
# > > This is nested blockquote.
# >
# > Back to the first level.

# > ## This is a header.
# > 
# > 1.   This is the first list item.
# > 2.   This is the second list item.
# > 
# > Here's some example code:
# > 
# >     return shell_exec("echo $input | $markdown_script");

# 1.  This is a list item with two paragraphs. Lorem ipsum dolor
#     sit amet, consectetuer adipiscing elit. Aliquam hendrerit
#     mi posuere lectus.
# 
#     Vestibulum enim wisi, viverra nec, fringilla in, laoreet
#     vitae, risus. Donec sit amet nisl. Aliquam semper ipsum
#     sit amet velit.
# 
# 2.  Suspendisse id sem consectetuer libero luctus adipiscing.

# *   This is a list item with two paragraphs.
# 
#     This is the second paragraph in the list item. You're
# only required to indent the first line. Lorem ipsum dolor
# sit amet, consectetuer adipiscing elit.
# 
# *   Another item in the same list.

# *   A list item with a blockquote:
# 
#     > This is a blockquote
#     > inside a list item.

# *   A list item with a code block:
# 
#         <code goes here>

# 1986. What a great season.
# 
# 1986\. What a great season.

# See my [About](/about/) page for details.   

# ref link
# This is [an example][id] reference-style link.
# 
# [id]: http://example.com/  "Optional Title Here"

# *single asterisks*
# 
# _single underscores_
# 
# **double asterisks**
# 
# __double underscores__
# 
# un*frigging*believable  // should render partially as bold
# 
# \*this text is surrounded by literal asterisks\*
# 
# ``There is a literal backtick (`) here.``

# ## Other Notebook element

# A small tooltip
# 
# <div id="tooltip_p" class="ipython_tooltip" style='position:relative'><div class="tooltipbuttons"><a href="#" role="button" class="ui-button"><span class="ui-icon ui-icon-close">Close</span></a><a href="#" class="ui-corner-all" role="button" id="expanbutton" title="Grow the tooltip vertically (press tab 2 times)" style=""><span class="ui-icon ui-icon-plus">Expand</span></a><a href="#" role="button" class="ui-button" title="show the current docstring in pager (press tab 4 times)"><span class="ui-icon ui-icon-arrowstop-l-n">Open in Pager</span></a><a href="#" role="button" class="ui-button" title="Tootip is not dismissed while typing for 10 seconds" style="display: none;"><span class="ui-icon ui-icon-clock">Close</span></a></div><div class="pretooltiparrow"></div><div class="tooltiptext smalltooltip">And some text inside</div></div>

# 
# 
# <div id="tooltip_p" class="ipython_tooltip" style='position:relative'>
#     <div class="tooltipbuttons">
#         <a href="#" role="button" class="ui-button">
#             <span class="ui-icon ui-icon-close">Close</span>
#         </a>
#         <a href="#" class="ui-corner-all" role="button" id="expanbutton" title="Grow the tooltip vertically (press tab 2 times)" style="">
#             <span class="ui-icon ui-icon-plus">Expand</span>
#         </a>
#         <a href="#" role="button" class="ui-button" title="show the current docstring in pager (press tab 4 times)">
#             <span class="ui-icon ui-icon-arrowstop-l-n">Open in Pager</span></a>
#         <a href="#" role="button" class="ui-button" title="Tootip is not dismissed while typing for 10 seconds" style="display: none;">
#             <span class="ui-icon ui-icon-clock">Close</span>
#         </a>
#     </div>
#     <div class="pretooltiparrow">
#     </div>
#     <div class="tooltiptext bigtooltip">This one should be big</div>
# </div>

# In[9]:


# a code cell 
import numpy as np
import matplotlib.pyplot as plt
from matplotlib.colors import LightSource

# example showing how to make shaded relief plots
# like Mathematica
# (http://reference.wolfram.com/mathematica/ref/ReliefPlot.html)
# or Generic Mapping Tools
# (http://gmt.soest.hawaii.edu/gmt/doc/gmt/html/GMT_Docs/node145.html)

# test data
d= 1
def maltc(ax, lambd=1, n=1):
    I0=1
    I= lambda theta,d : I0*(sin(2*theta)*sin(pi*n*d/lambd))**2
    X,Y=np.mgrid[-5:5:0.05,-5:5:0.05]
    Z=np.sqrt(X**2+Y**2)+np.sin(X**2+Y**2)
    
    r= np.sqrt(X**2+Y**2)
    theta = np.angle(X+1.0j*Y)
    
    Iv= np.vectorize(I)
    Z = Iv(r,theta)
    
    # create light source object.
    #ls = LightSource(azdeg=0,altdeg=65)
    # shade data, creating an rgb array.
    #rgb = ls.shade(Z,plt.cm.copper)
    # plot un-shaded and shaded images.
    #plt.figure(figsize=(12,5))
    #plt.subplot(121)
    ax.imshow(Z,cmap=plt.cm.copper)
    ax.set_title('d=%d lambda=%f'%(d,lambd))
    
fig, (axes) = plt.subplots(3,4)
fig.set_figheight(10)
fig.set_figwidth(20)

flatten = [item for sublist in axes for item in sublist]

for ax,l in zip(flatten,range(len(flatten))):
   maltc(ax,lambd=(l+1)*pi/8.0)


# In[16]:


from __future__ import print_function
import sys
print('stdout')
print('stderr',file=sys.stderr)


# <table class='table-striped table-condensed'>
#     <thead>
#         <tr>
#         <td>This is table</td>
#         <td>Head</td>
#         </tr>
#     </thead>
#     <tbody>
#         <tr>
#             <td>but thi</td>
#             <td>is the </td>
#         </tr>
#         <tr>
#             <td>body</td>
#             <td>of </td>
#         </tr>
#         <tr>
#             <td>The</td>
#             <td>table</td>
#         </tr>
#     </tbody>
# </table>

# In[ ]: