Edited quiz questions.
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% Tutorial slides on Python.
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% Author: Prabhu Ramachandran <prabhu at aero.iitb.ac.in>
% Copyright (c) 2005-2009, Prabhu Ramachandran
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% Title page
\title[]{Matrices and Arrays\\ \& \\2D Plotting}
\author[FOSSEE Team] {Asokan Pichai\\Prabhu Ramachandran}
\institute[IIT Bombay] {Department of Aerospace Engineering\\IIT Bombay}
\date[] {11, October 2009}
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\begin{document}
\begin{frame}
\maketitle
\end{frame}
\begin{frame}
\frametitle{Outline}
\tableofcontents
% You might wish to add the option [pausesections]
\end{frame}
\section{Matrices and Arrays}
\subsection{Basic \typ{numpy} }
\newcommand{\num}{\texttt{numpy}}
\begin{frame}
\frametitle{The \num\ module}
\begin{itemize}
\item Why?
\item What:
\begin{itemize}
\item An efficient and powerful array type for various common data types
\item Abstracts out the most commonly used standard operations on arrays
\end{itemize}
\end{itemize}
\end{frame}
\begin{frame}[fragile]
\frametitle{Examples of \num}
\begin{lstlisting}
# Simple array math example
>>> import numpy as np
>>> a = np.array([1,2,3,4])
>>> b = np.arange(2,6)
>>> b
array([2,3,4,5])
>>> a*2 + b + 1 # Basic math!
array([5, 8, 11, 14])
\end{lstlisting}
\end{frame}
\begin{frame}[fragile]
\frametitle{Examples of \num}
\begin{lstlisting}
# Pi and e are defined.
>>> x = np.linspace(0.0, 10.0, 1000)
>>> x *= 2*np.pi/10 # inplace.
# apply functions to array.
>>> y = np.sin(x)
>>> z = np.exp(y)
\end{lstlisting}
\inctime{5}
\end{frame}
\begin{frame}
\frametitle{Basic concepts}
\begin{itemize}
\item fixed size (\typ{arr.size});
\item Same type (\typ{arr.dtype}) of data
\item arbitrary dimensionality
\item \typ{arr.shape}: size in each dimension
\item \alert{Note:} \typ{len(arr) != arr.size} in general
\item \alert{Note:} By default array operations are performed
\alert{elementwise}
\end{itemize}
\end{frame}
\begin{frame}[fragile]
\frametitle{More examples of \num}
\vspace*{-8pt}
\begin{lstlisting}
>>> x = np.array([1., 2, 3, 4])
>>> np.size(x)
4
>>> x.dtype # What is a.dtype?
dtype('float64')
>>> x.shape
(4,)
>>> print np.rank(x), x.itemsize
1 8
>>> x[0] = 10
>>> print x[0], x[-1]
10.0 4.0
\end{lstlisting}
\end{frame}
\begin{frame}[fragile]
\frametitle{Multi-dimensional arrays}
\begin{lstlisting}
>>> a = np.array([[ 0, 1, 2, 3],
... [10,11,12,13]])
>>> a.shape # (rows, columns)
(2, 4)
# Accessing and setting values
>>> a[1,3]
13
>>> a[1,3] = -1
>>> a[1] # The second row
array([10,11,12,-1])
\end{lstlisting}
\end{frame}
\begin{frame}[fragile]
\frametitle{Array math}
\begin{itemize}
\item Basic \alert{elementwise} math (given two arrays \typ{a, b}):
\typ{+, -, *, /, \%}
\item Inplace operators: \typ{a += b}, or \typ{np.add(a, b, a)} etc.
\item \typ{np.sum(x, axis=0)},
\typ{np.product(x, axis=0)},
\typ{np.dot(a, bp)}
\end{itemize}
\begin{lstlisting}
>>> b=np.array([[0,2,4,2],[1,2,3,4]])
>>> np.add(a,b,a)
>>> np.sum(x,axis=1)
\end{lstlisting}
\end{frame}
\begin{frame}[fragile]
\frametitle{Array math cont.}
\begin{itemize}
\item Logical operations: \typ{np.equal (==)}, \typ{np.not\_equal (!=)},
\typ{np.less (<)}, \typ{np.greater (>)} etc.
\item Trig and other functions: \typ{np.sin(x),}
\typ{np.arcsin(x), np.sinh(x),}
\typ{np.exp(x), np.sqrt(x)} etc.
\end{itemize}
\begin{lstlisting}
>>> np.greater(a,4)
>>> np.sqrt(a)
\end{lstlisting}
\inctime{10}
\end{frame}
\subsection{Array Creation \& Slicing, Striding Arrays}
\begin{frame}[fragile]
\frametitle{Array creation functions}
\begin{itemize}
\item {\typ{np.array(object,dtype=None,...)}
\begin{lstlisting}
>>> np.array([2,3,4])
array([2, 3, 4])
\end{lstlisting}
\item \typ{np.linspace(start,stop,...)}
\begin{lstlisting}
>>> np.linspace(0, 2, 4)
array([0.,0.6666667,1.3333333,2.])
\end{lstlisting}
\item Also try \typ{np.arange}
\end{itemize}
\end{frame}
\begin{frame}[fragile]
\frametitle{Array creation functions cont.}
\begin{itemize}
\item \typ{np.ones(shape, dtype=None, ...)}
\begin{lstlisting}
>>>np.ones([2,2])
array([[ 1., 1.],
[ 1., 1.]])
\end{lstlisting}
\item \typ{np.identity(n)}
\item \typ{np.ones\_like(x)}
\begin{lstlisting}
>>>a = np.array([[1,2,3],[4,5,6]])
>>>np.ones_like(a)
array([[1, 1, 1],
[1, 1, 1]])
\end{lstlisting}
\item Also try \typ{zeros, zeros\_like, empty}
\end{itemize}
\end{frame}
\begin{frame}[fragile]
\frametitle{Slicing arrays}
\begin{lstlisting}
>>> a = np.array([[1,2,3], [4,5,6],
[7,8,9]])
>>> a[0,1:3]
array([2, 3])
>>> a[1:,1:]
array([[5, 6],
[8, 9]])
>>> a[:,2]
array([3, 6, 9])
>>> a[...,2]
array([3, 6, 9])
\end{lstlisting}
\end{frame}
\begin{frame}[fragile]
\frametitle{Striding arrays}
\begin{lstlisting}
>>> a[0::2,0::2]
array([[1, 3],
[7, 9]])
# Slices are references to the
# same memory!
\end{lstlisting}
\end{frame}
\begin{frame}[fragile]
\frametitle{Random Numbers}
\begin{lstlisting}
>>> np.random.rand(3,2)
array([[ 0.96276665, 0.77174861],
[ 0.35138557, 0.61462271],
[ 0.16789255, 0.43848811]])
>>> np.random.randint(1,100)
42
\end{lstlisting}
\inctime{15}
\end{frame}
\begin{frame}[fragile]
\frametitle{Problem Set}
\begin{lstlisting}
>>> from scipy import misc
>>> A=misc.imread(name)
>>> misc.imshow(A)
\end{lstlisting}
\begin{enumerate}
\item Convert an RGB image to Grayscale. $ Y = 0.5R + 0.25G + 0.25B $
\item Scale the image to 50\%
\item Introduce some random noise
\item Smooth the image using a mean filter
\\\small{Each element in the array is replaced by mean of all the neighbouring elements}
\\\small{How fast does your code run?}
\end{enumerate}
\inctime{15}
\end{frame}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\section{2D Plotting}
\subsection{Getting Started}
\begin{frame}
{IPython's \typ{pylab} mode}
\begin{block}{Immediate use:}
\typ{\$ ipython -pylab}
\end{block}
\begin{itemize}
\item \typ{pylab}: convenient 2D plotting interface to MPL
\item Imports all of pylab for you!
\item Allows for interactive plotting
\end{itemize}
\end{frame}
\begin{frame}[fragile]
\frametitle{Basic 2D plotting}
\begin{lstlisting}
>>> x = linspace(0, 2*pi, 1000)
>>> plot(x, sin(x))
>>> plot(x, sin(x), 'ro')
>>> xlabel(r'$\chi$', color='g')
# LaTeX markup!
>>> ylabel(r'sin($\chi$)', color='r')
>>> title('Simple figure', fontsize=20)
>>> savefig('/tmp/test.eps')
\end{lstlisting}
\begin{itemize}
\item Also: PNG, PDF, PS, EPS, SVG, PDF
\end{itemize}
\inctime{5}
\end{frame}
\subsection{Plots - Lines, Labels and Legends}
\begin{frame}[fragile]
\frametitle{Tweaking plots}
\begin{lstlisting}
# Set properties of objects:
>>> l, = plot(x, sin(x))
# Why "l,"?
>>> setp(l, linewidth=2.0, color='r')
>>> l.set_linewidth(2.0)
>>> draw() # Redraw.
>>> setp(l) # Print properties.
>>> clf() # Clear figure.
>>> close() # Close figure.
\end{lstlisting}
\end{frame}
\begin{frame}[fragile]
\frametitle{Working with text \ldots}
%\begin{itemize}
% \item We already saw LaTeX markup support!
%\end{itemize}
\begin{lstlisting}
>>> w = arange(-2,2,.1)
>>> plot(w,exp(-(w*w))*cos)
>>> ylabel('$f(\omega)$')
>>> xlabel('$\omega$')
>>> title(r"$f(\omega)=e^{-\omega^2}
cos({\omega^2})$")
>>> annotate('maxima',xy=(0, 1),
xytext=(1, 0.8),
arrowprops=dict(
facecolor='black',
shrink=0.05))
\end{lstlisting}
\end{frame}
\begin{frame}[fragile]
\frametitle{Legends}
\begin{lstlisting}
>>> x = linspace(0, 2*np.pi, 1000)
>>> plot(x, cos(5*x), 'r--',
label='cosine')
>>> plot(x, sin(5*x), 'g--',
label='sine')
>>> legend()
# Or use:
>>> legend(['cosine', 'sine'])
\end{lstlisting}
\end{frame}
\begin{frame}[fragile]
\frametitle{Multiple figures}
\begin{lstlisting}
>>> figure(1)
>>> plot(x, sin(x))
>>> figure(2)
>>> plot(x, tanh(x))
>>> figure(1)
>>> title('Easy as 1,2,3')
\end{lstlisting}
\end{frame}
\begin{frame}[fragile]
\frametitle{\typ{pylab} in Python scripts}
\begin{lstlisting}
import pylab
x = pylab.linspace(0, 20, 1000)
pylab.plot(x, pylab.sin(x))
# Can also use:
from pylab import linspace, sin, plot
\end{lstlisting}
\inctime{10}
\end{frame}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\subsection{Types of Plots}
\begin{frame}[fragile]
\frametitle{X-Y plot}
\begin{columns}
\column{0.5\textwidth}
\hspace*{-0.5in}
\includegraphics[height=2in, interpolate=true]{data/xyplot}
\column{0.45\textwidth}
\begin{block}{Example code}
\tiny
\begin{lstlisting}
t1 = arange(0.0, 5.0, 0.1)
t2 = arange(0.0, 5.0, 0.02)
t3 = arange(0.0, 2.0, 0.01)
subplot(211)
plot(t1, cos(2*pi*t1)*exp(-t1), 'bo',
t2, cos(2*pi*t2)*exp(-t2), 'k')
grid(True)
title('A tale of 2 subplots')
ylabel('Damped')
subplot(212)
plot(t3, cos(2*pi*t3), 'r--')
grid(True)
xlabel('time (s)')
ylabel('Undamped')
\end{lstlisting}
\end{block}
\end{columns}
\end{frame}
\begin{frame}[fragile] \frametitle{Semi-log and log-log plots}
\begin{columns}
\column{0.5\textwidth}
\hspace*{-0.5in}
\includegraphics[height=2in, interpolate=true]{data/log}
\column{0.45\textwidth}
\begin{block}{Example code}
\tiny
\begin{lstlisting}
dt = 0.01
t = arange(dt, 20.0, dt)
subplot(311)
semilogy(t, exp(-t/5.0))
ylabel('semilogy')
grid(True)
subplot(312)
semilogx(t, sin(2*pi*t))
ylabel('semilogx')
grid(True)
# minor grid on too
gca().xaxis.grid(True, which='minor')
subplot(313)
loglog(t, 20*exp(-t/10.0), basex=4)
grid(True)
ylabel('loglog base 4 on x')
\end{lstlisting}
\end{block}
\end{columns}
\end{frame}
\begin{frame}[fragile] \frametitle{Errorbar}
\begin{columns}
\column{0.5\textwidth}
\hspace*{-0.5in}
\includegraphics[height=2in, interpolate=true]{data/errorbar}
\column{0.45\textwidth}
\begin{block}{Example code}
\tiny
\begin{lstlisting}
t = arange(0.1, 4, 0.1)
s = exp(-t)
e = 0.1*abs(randn(len(s)))
f = 0.1*abs(randn(len(s)))
g = 2*e
h = 2*f
errorbar(t, s, [e,g], f, fmt='o')
xlabel('Distance (m)')
ylabel('Height (m)')
title('Mean and standard error '\
'as a function of distance')
\end{lstlisting}
\end{block}
\end{columns}
\end{frame}
\begin{frame}[fragile] \frametitle{Histogram}
\begin{columns}
\column{0.5\textwidth}
\hspace*{-0.5in}
\includegraphics[height=2in, interpolate=true]{data/histogram}
\column{0.45\textwidth}
\begin{block}{Example code}
\tiny
\begin{lstlisting}
mu, sigma = 100, 15
x = mu + sigma*randn(10000)
# the histogram of the data
n, bins, patches = hist(x, 100, normed=1)
# add a 'best fit' line
y = normpdf( bins, mu, sigma)
l = plot(bins, y, 'r--', linewidth=2)
xlim(40, 160)
xlabel('Smarts')
ylabel('P')
title(r'$\rm{IQ:}\/ \mu=100,\/ \sigma=15$')
\end{lstlisting}
\end{block}
\end{columns}
\end{frame}
\begin{frame}[fragile] \frametitle{Bar charts}
\begin{columns}
\column{0.5\textwidth}
\hspace*{-0.5in}
\includegraphics[height=2in, interpolate=true]{data/barchart}
\column{0.45\textwidth}
\begin{block}{Example code}
\tiny
\begin{lstlisting}
N = 5
menMeans = (20, 35, 30, 35, 27)
menStd = ( 2, 3, 4, 1, 2)
# the x locations for the groups
ind = arange(N)
# the width of the bars
width = 0.35
p1 = bar(ind, menMeans, width,
color='r', yerr=menStd)
womenMeans = (25, 32, 34, 20, 25)
womenStd = ( 3, 5, 2, 3, 3)
p2 = bar(ind+width, womenMeans, width,
color='y', yerr=womenStd)
ylabel('Scores')
title('Scores by group and gender')
xticks(ind+width,
('G1', 'G2', 'G3', 'G4', 'G5'))
xlim(-width,len(ind))
yticks(arange(0,41,10))
legend((p1[0], p2[0]),
('Men', 'Women'), shadow=True)
\end{lstlisting}
\end{block}
\end{columns}
\end{frame}
\begin{frame}[fragile] \frametitle{Pie charts}
\begin{columns}
\column{0.5\textwidth}
\hspace*{-0.4in}
\includegraphics[height=2.0in, interpolate=true]{data/piechart}
\column{0.45\textwidth}
\begin{block}{Example code}
\tiny
\begin{lstlisting}
# make a square figure and axes
figure(1, figsize=(8,8))
ax = axes([0.1, 0.1, 0.8, 0.8])
labels = 'Frogs', 'Hogs', 'Dogs', 'Logs'
fracs = [15,30,45, 10]
explode=(0, 0.05, 0, 0)
pie(fracs, explode=explode, labels=labels,
autopct='%1.1f%%', shadow=True)
title('Raining Hogs and Dogs',
bbox={'facecolor':'0.8', 'pad':5})
\end{lstlisting}
\end{block}
\end{columns}
\end{frame}
\begin{frame}[fragile] \frametitle{Scatter plots}
\begin{columns}
\column{0.5\textwidth}
\hspace*{-0.4in}
\includegraphics[height=2in, interpolate=true]{data/scatter}
\column{0.45\textwidth}
\begin{block}{Example code}
\tiny
\begin{lstlisting}
N = 30
x = 0.9*rand(N)
y = 0.9*rand(N)
# 0 to 10 point radiuses
area = pi*(10 * rand(N))**2
volume = 400 + rand(N)*450
scatter(x,y,s=area, marker='o', c=volume,
alpha=0.75)
xlabel(r'$\Delta_i$', size='x-large')
ylabel(r'$\Delta_{i+1}$', size='x-large')
title(r'Volume and percent change')
grid(True)
colorbar()
savefig('scatter')
\end{lstlisting}
\end{block}
\end{columns}
\end{frame}
\begin{frame}[fragile] \frametitle{Polar}
\begin{columns}
\column{0.5\textwidth}
\hspace*{-0.5in}
\includegraphics[height=2in, interpolate=true]{data/polar}
\column{0.45\textwidth}
\begin{block}{Example code}
\tiny
\begin{lstlisting}
figure(figsize=(8,8))
ax = axes([0.1, 0.1, 0.8, 0.8],
polar=True,
axisbg='#d5de9c')
r = arange(0,1,0.001)
theta = 2*2*pi*r
polar(theta, r, color='#ee8d18', lw=3)
# the radius of the grid labels
setp(ax.thetagridlabels, y=1.075)
title(r'$\theta=4\pi r$', fontsize=20)
\end{lstlisting}
\end{block}
\end{columns}
\end{frame}
\begin{frame}[fragile] \frametitle{Contours}
\begin{columns}
\column{0.45\textwidth}
\hspace*{-0.5in}
\includegraphics[height=2in, interpolate=true]{data/contour}
\column{0.525\textwidth}
\begin{block}{Example code}
\tiny
\begin{lstlisting}
x = arange(-3.0, 3.0, 0.025)
y = arange(-2.0, 2.0, 0.025)
X, Y = meshgrid(x, y)
Z1 = bivariate_normal(X, Y, 1.0, 1.0, 0.0, 0.0)
Z2 = bivariate_normal(X, Y, 1.5, 0.5, 1, 1)
# difference of Gaussians
Z = 10.0 * (Z2 - Z1)
im = imshow(Z, interpolation='bilinear',
origin='lower',
cmap=cm.gray, extent=(-3,3,-2,2))
levels = arange(-1.2, 1.6, 0.2)
# label every second level
clabel(CS, levels[1::2], inline=1,
fmt='%1.1f', fontsize=14)
CS = contour(Z, levels,
origin='lower',
linewidths=2,
extent=(-3,3,-2,2))
# make a colorbar for the contour lines
CB = colorbar(CS, shrink=0.8, extend='both')
title('Lines with colorbar')
hot(); flag()
\end{lstlisting}
\end{block}
\end{columns}
\end{frame}
\begin{frame}[fragile] \frametitle{Velocity vectors}
\begin{columns}
\column{0.5\textwidth}
\hspace*{-0.5in}
\includegraphics[height=2in, interpolate=true]{data/quiver}
\column{0.45\textwidth}
\begin{block}{Example code}
\tiny
\begin{lstlisting}
X,Y = meshgrid(arange(0,2*pi,.2),
arange(0,2*pi,.2) )
U = cos(X)
V = sin(Y)
Q = quiver(X[::3, ::3], Y[::3, ::3],
U[::3, ::3], V[::3, ::3],
color='r', units='x',
linewidths=(2,),
edgecolors=('k'),
headaxislength=5 )
qk = quiverkey(Q, 0.5, 0.03, 1, '1 m/s',
fontproperties=
{'weight': 'bold'})
axis([-1, 7, -1, 7])
title('triangular head; scale '\
'with x view; black edges')
\end{lstlisting}
\end{block}
\end{columns}
\end{frame}
\begin{frame}[fragile] \frametitle{Maps}
\includegraphics[height=2.3in, interpolate=true]{data/plotmap}
\begin{center}
\tiny
For details see \url{http://matplotlib.sourceforge.net/screenshots/plotmap.py}
\end{center}
\end{frame}
\begin{frame}
\frametitle{More information}
\begin{itemize}
\item More information here: \url{http://matplotlib.sf.net}
\item \url{http://matplotlib.sf.net/tutorial.html}
\item \url{http://matplotlib.sf.net/screenshots.html}
\end{itemize}
\inctime{5}
\end{frame}
\begin{frame}
\frametitle{Problem Set}
\begin{enumerate}
\item Write a function that plots any regular n-gon given \typ{n}.
\item Consider the logistic map, $f(x) = kx(1-x)$, plot it for
$k=2.5, 3.5$ and $4$ in the same plot.
\end{enumerate}
\end{frame}
\begin{frame}[fragile]
\frametitle{Problem Set}
\begin{columns}
\column{0.6\textwidth}
\small{
\begin{enumerate}
\item Consider the iteration $x_{n+1} = f(x_n)$ where $f(x) =
kx(1-x)$. Plot the successive iterates of this process.
\item Plot this using a cobweb plot as follows:
\begin{enumerate}
\item Start at $(x_0, 0)$
\item Draw line to $(x_i, f(x_i))$;
\item Set $x_{i+1} = f(x_i)$
\item Draw line to $(x_i, x_i)$
\item Repeat from 2 for as long as you want
\end{enumerate}
\end{enumerate}}
\column{0.35\textwidth}
\hspace*{-0.5in}
\includegraphics[height=1.6in, interpolate=true]{data/cobweb}
\end{columns}
\inctime{20}
\end{frame}
\begin{frame}{Summary}
\begin{itemize}
\item Basics of Numpy.
\item Array operations.
\item Plotting in 2D.
\end{itemize}
\end{frame}
\end{document}