%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % Tutorial slides on Python. % % Author: Prabhu Ramachandran % Copyright (c) 2005-2009, Prabhu Ramachandran %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \documentclass[compress,14pt]{beamer} % \documentclass[handout]{beamer} % \usepackage{pgfpages} % \pgfpagesuselayout{4 on 1}[a4paper,border, shrink=5mm,landscape] \usepackage{tikz} \newcommand{\hyperlinkmovie}{} %\usepackage{movie15} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % Note that in presentation mode % \paperwidth 364.19536pt % \paperheight 273.14662pt % h/w = 0.888 \mode { \usetheme{Warsaw} %\usetheme{Boadilla} %\usetheme{default} \useoutertheme{infolines} \setbeamercovered{transparent} } % To remove navigation symbols \setbeamertemplate{navigation symbols}{} \usepackage{amsmath} \usepackage[english]{babel} \usepackage[latin1]{inputenc} \usepackage{times} \usepackage[T1]{fontenc} % Taken from Fernando's slides. \usepackage{ae,aecompl} \usepackage{mathpazo,courier,euler} \usepackage[scaled=.95]{helvet} \usepackage{pgf} \definecolor{darkgreen}{rgb}{0,0.5,0} \usepackage{listings} \lstset{language=Python, basicstyle=\ttfamily\bfseries, commentstyle=\color{red}\itshape, stringstyle=\color{darkgreen}, showstringspaces=false, keywordstyle=\color{blue}\bfseries} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % My Macros \setbeamercolor{postit}{bg=yellow,fg=black} \setbeamercolor{emphbar}{bg=blue!20, fg=black} \newcommand{\emphbar}[1] {\begin{beamercolorbox}[rounded=true]{emphbar} {#1} \end{beamercolorbox} } %{\centerline{\fcolorbox{gray!50} {blue!10}{ %\begin{minipage}{0.9\linewidth} % {#1} %\end{minipage} % }}} \newcommand{\myemph}[1]{\structure{\emph{#1}}} \newcommand{\PythonCode}[1]{\lstinline{#1}} \newcommand{\tvtk}{\texttt{tvtk}} \newcommand{\mlab}{\texttt{mlab}} \newcounter{time} \setcounter{time}{0} \newcommand{\inctime}[1]{\addtocounter{time}{#1}{\vspace*{0.1in}\tiny \thetime\ m}} \newcommand\BackgroundPicture[1]{% \setbeamertemplate{background}{% \parbox[c][\paperheight]{\paperwidth}{% \vfill \hfill \hfill \vfill }}} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % Configuring the theme %\setbeamercolor{normal text}{fg=white} %\setbeamercolor{background canvas}{bg=black} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % Title page \title[3D Plotting]{3D data Visualization} \author[FOSSEE] {FOSSEE} \institute[IIT Bombay] {Department of Aerospace Engineering\\IIT Bombay} \date[] {1 May, 2010\\Day 2, Session 6} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %\pgfdeclareimage[height=0.75cm]{iitblogo}{iitblogo} %\logo{\pgfuseimage{iitblogo}} \AtBeginSection[] { \begin{frame} \frametitle{Outline} \tableofcontents[currentsection,currentsubsection] \end{frame} } %% Delete this, if you do not want the table of contents to pop up at %% the beginning of each subsection: \AtBeginSubsection[] { \begin{frame} \frametitle{Outline} \tableofcontents[currentsection,currentsubsection] \end{frame} } \AtBeginSection[] { \begin{frame} \frametitle{Outline} \tableofcontents[currentsection,currentsubsection] \end{frame} } %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % DOCUMENT STARTS \begin{document} \begin{frame} \maketitle \end{frame} \begin{frame} \frametitle{Outline} \tableofcontents % You might wish to add the option [pausesections] \end{frame} \section{3D Data Visualization} \begin{frame} \frametitle{What is visualization?} \Large \begin{center} Visual representation of data \end{center} \end{frame} %% \begin{frame} %% \frametitle{Is this new?} %% \begin{center} %% We have moved from: %% \end{center} %% \begin{columns} %% \column{} %% \hspace*{-1in} %% \includegraphics[width=1.75in,height=1.75in, interpolate=true]{data/3832} %% \column{}\hspace*{-0.25in} %% To %% \column{} %% \hspace*{-1in} %% \includegraphics[width=1.75in, height=1.75in, interpolate=true]{data/torus} %% \end{columns} %% \end{frame} \begin{frame} \frametitle{3D visualization} \Large \begin{center} Harder but important \end{center} \end{frame} \begin{frame} \frametitle{Is this Graphics?} \Large \begin{center} Visualization is about data! \end{center} \end{frame} \begin{frame} \frametitle{Examples: trajectory in space} \Large \begin{center} \pgfimage[width=2.5in]{MEDIA/m2/mlab/plot3d_ex} \end{center} \end{frame} \begin{frame} \frametitle{Examples: Fire in a room} \Large \begin{center} Demo of data \end{center} \inctime{10} \end{frame} \section{Tools available} \subsection{mlab} \begin{frame} {Overview} \Large \begin{itemize} \item Simple \item Convenient \item Full-featured \end{itemize} \end{frame} \begin{frame}[fragile] \frametitle{Getting started} \myemph{\Large Vanilla:} \begin{lstlisting}[language=bash] $ ipython -wthread \end{lstlisting} \myemph{\Large with Pylab:} \begin{lstlisting}[language=bash] $ ipython -pylab -wthread \end{lstlisting} \end{frame} \begin{frame}[fragile] \frametitle{Using mlab} \begin{lstlisting} In []:from enthought.mayavi import mlab \end{lstlisting} \vspace*{0.5in} \myemph{\Large Try these} \vspace*{0.25in} \begin{lstlisting} In []: mlab.test_ In []: mlab.test_contour3d() In []: mlab.test_contour3d?? \end{lstlisting} \end{frame} \begin{frame} {Exploring the view} \begin{columns} \column{0.6\textwidth} \pgfimage[width=3in]{MEDIA/m2/contour3d} \column{0.4\textwidth} \begin{itemize} \item Mouse \item Keyboard \item Toolbar \item Mayavi icon\pgfimage[width=0.2in]{MEDIA/m2/m2_icon} \end{itemize} \end{columns} \end{frame} \begin{frame}[fragile] \frametitle{\mlab\ plotting functions} \begin{columns} \column{0.25\textwidth} \myemph{\Large 0D data} \column{0.5\textwidth} \pgfimage[width=2in]{MEDIA/m2/mlab/points3d_ex} \end{columns} \begin{lstlisting} In []: t = linspace(0, 2*pi, 50) In []: u = cos(t) * pi In []: x, y, z = sin(u), cos(u), sin(t) \end{lstlisting} \emphbar{\PythonCode{In []: mlab.points3d(x, y, z)}} \end{frame} \begin{frame} \begin{columns} \column{0.25\textwidth} \myemph{\Large 1D data} \column{0.5\textwidth} \pgfimage[width=2.5in]{MEDIA/m2/mlab/plot3d_ex} \end{columns} \emphbar{\PythonCode{In []: mlab.plot3d(x, y, z, t)}} Plots lines between the points \end{frame} \begin{frame}[fragile] \begin{columns} \column{0.25\textwidth} \myemph{\Large 2D data} \column{0.5\textwidth} \pgfimage[width=2in]{MEDIA/m2/mlab/surf_ex} \end{columns} \begin{lstlisting} In []: x, y = mgrid[-3:3:100j,-3:3:100j] In []: z = sin(x*x + y*y) \end{lstlisting} \emphbar{\PythonCode{In []: mlab.surf(x, y, z)}} \alert{Assumes the points are rectilinear} \end{frame} \begin{frame}[fragile] \frametitle{mgrid} \begin{lstlisting} In []: mgrid[0:3,0:3] Out[]: array([[[0, 0, 0], [1, 1, 1], [2, 2, 2]], [[0, 1, 2], [0, 1, 2], [0, 1, 2]]]) In []: mgrid[-1:1:5j] Out[]: array([-1., -0.5, 0., 0.5, 1.]) \end{lstlisting} \end{frame} \begin{frame}[fragile] \frametitle{Example} \begin{lstlisting} In []: x, y = mgrid[-1:1:5j, -1:1:5j] In []: z = x*x + y*y In []: z Out[]: array([[ 2. , 1.25, 1. , 1.25, 2. ], [ 1.25, 0.5 , 0.25, 0.5 , 1.25], [ 1. , 0.25, 0. , 0.25, 1. ], [ 1.25, 0.5 , 0.25, 0.5 , 1.25], [ 2. , 1.25, 1. , 1.25, 2. ]]) \end{lstlisting} \end{frame} \begin{frame}[fragile] \myemph{\Large 2D data: \texttt{mlab.mesh}} \vspace*{0.25in} \emphbar{\PythonCode{In []: mlab.mesh(x, y, z)}} \alert{Points needn't be regular} \vspace*{0.25in} \begin{lstlisting} In []: phi, theta = mgrid[0:pi:20j, ... 0:2*pi:20j] In []: x = sin(phi)*cos(theta) In []: y = sin(phi)*sin(theta) In []: z = cos(phi) In []: mlab.mesh(x, y, z, ... representation= ... 'wireframe') \end{lstlisting} \end{frame} \begin{frame}[fragile] \begin{columns} \column{0.25\textwidth} \myemph{\Large 3D data} \column{0.5\textwidth} \pgfimage[width=1.5in]{MEDIA/m2/mlab/contour3d}\\ \end{columns} \begin{lstlisting} In []: x, y, z = mgrid[-5:5:64j, ... -5:5:64j, ... -5:5:64j] In []: mlab.contour3d(x*x*0.5 + y*y + z*z*2) \end{lstlisting} \end{frame} \begin{frame}[fragile] \myemph{\Large 3D vector data: \PythonCode{mlab.quiver3d}} \vspace*{0.25in} \pgfimage[width=2in]{MEDIA/m2/mlab/quiver3d_ex}\\ \begin{lstlisting} In []: mlab.test_quiver3d() \end{lstlisting} \emphbar{\PythonCode{obj = mlab.quiver3d(x, y, z, u, v, w)}} \inctime{20} \end{frame} \subsection{Mayavi2} \begin{frame} \frametitle{Introduction to Mayavi} \begin{itemize} \item Most scientists not interested in details of visualization \item Visualization of data files with a nice UI \item Interactive visualization of data (think Matlab) \item Embedding visualizations in applications \item Customization \end{itemize} \pause \begin{block}{The Goal} Provide a \alert{flexible} library/app for all of these needs! \end{block} \end{frame} \begin{frame} {Overview of features} \vspace*{-0.3in} \begin{center} \hspace*{-0.2in}\pgfimage[width=5in]{MEDIA/m2/m2_app3_3} \end{center} \end{frame} \begin{frame} \frametitle{Mayavi in applications} \vspace*{-0.3in} \begin{center} \hspace*{-0.2in}\pgfimage[width=4.5in]{MEDIA/m2/m2_envisage} \end{center} \end{frame} \begin{frame} \frametitle{Live in your dialogs} \vspace*{0.1in} \begin{center} \hspace*{-0.2in}\pgfimage[width=2.5in]{MEDIA/m2/mlab_tui} \end{center} \end{frame} \begin{frame} {Exploring the documentation} \begin{center} \pgfimage[width=4in]{MEDIA/m2/m2_ug_doc} \end{center} \end{frame} \begin{frame} \frametitle{Summary} \begin{itemize} \item \url{http://code.enthought.com/projects/mayavi} \item Uses VTK (\url{www.vtk.org}) \item BSD license \item Linux, win32 and Mac OS X \item Highly scriptable \item Embed in Traits UIs (wxPython and PyQt4) \item Envisage Plugins \item Debian/Ubuntu/Fedora \item \alert{Pythonic} \end{itemize} \inctime{10} \end{frame} \begin{frame} {Getting hands dirty!} \begin{block}{Motivational problem} Atmospheric data of temperature over the surface of the earth. Let temperature ($T$) vary linearly with height ($z$): \begin{center} $T = 288.15 - 6.5z$ \end{center} \end{block} \end{frame} \begin{frame}[fragile] \frametitle{Simple solution} \begin{lstlisting} lat = linspace(-89, 89, 37) lon = linspace(0, 360, 37) z = linspace(0, 100, 11) \end{lstlisting} \pause \begin{lstlisting} x, y, z = mgrid[0:360:37j,-89:89:37j, 0:100:11j] t = 288.15 - 6.5*z mlab.contour3d(x, y, z, t) mlab.outline() mlab.colorbar() \end{lstlisting} \end{frame} \begin{frame}[fragile] \frametitle{Exercise: Lorenz equation} \begin{columns} \column{0.25\textwidth} \begin{eqnarray*} \frac{d x}{dt} &=& s (y-x)\\ \frac{d y}{d t} &=& rx -y -xz\\ \frac{d z}{d t} &=& xy - bz\\ \end{eqnarray*} \column{0.25\textwidth} Let $s=10,$ $r=28,$ $b=8./3.$ \end{columns} \structure{\Large Region of interest} \begin{lstlisting} x, y, z = mgrid[-50:50:20j,-50:50:20j, -10:60:20j] \end{lstlisting} \inctime{20} \end{frame} \begin{frame}[fragile] \frametitle{Solution} \begin{lstlisting} def lorenz(x,y,z,s=10.,r=28.,b=8./3.): u = s*(y-x) v = r*x-y-x*z w = x*y-b*z return u,v,w x,y,z = mgrid [-50:50:20j,-50:50:20j, -10:60:20j ] u,v,w = lorenz( x , y , z ) # Your plot here # mlab.show() \end{lstlisting} \end{frame} \begin{frame} \frametitle{We have covered:} \begin{itemize} \item Need of visualization. \item Using mlab to create 3 D plots. \item Mayavi Toolkit. \end{itemize} \end{frame} \end{document}