Hah ! So my compilation was not the source of *this* problem...
One more datapoint : trying to compile this example with the *first* tikz
fragment (which tries to plot a graph) commented out but keeping
uncommented the \usepackge{tikz-berge} and the *second* tikz fragment
(which plots a function) leads to a correct compilation, giving the
expected results. in the PDF. See enclosed source...
Therefore the problem might be specific to graphs plotting (or to graphs).
HTH,
Emmanuel
Charpentier
Le jeudi 15 août 2013 23:21:49 UTC+2, William a écrit :
>
>
>
>
> On Thu, Aug 15, 2013 at 1:44 PM, Emmanuel Charpentier <
> emanuel.c...@gmail.com <javascript:>> wrote:
>
>> Code enclosed (I think that you want "my" TeX sources...).
>>
>
>
> For what it is worth, I took example.tex and it worked fine at
> https://cloud.sagemath.com. Then I tried
> example-with-tikz.tex (plus manually finding a few missing tikz .sty files
> from random url's on the web), and
> things failed for me in exactly the same way as for you.
>
> William
>
>
>>
>> Le jeudi 15 août 2013 à 12:45 -0700, William Stein a écrit :
>>
>> [ Snip ... ]
>>
>>
>> > Please post a link to all your input code...
>> >
>> >
>> >
>> > --
>> > William Stein
>> > Professor of Mathematics
>> > University of Washington
>> > http://wstein.org
>>
>> --
>> You received this message because you are subscribed to the Google Groups
>> "sage-support" group.
>> To unsubscribe from this group and stop receiving emails from it, send an
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>> .
>> Visit this group at http://groups.google.com/group/sage-support.
>> For more options, visit https://groups.google.com/groups/opt_out.
>>
>
>
>
> --
> William Stein
> Professor of Mathematics
> University of Washington
> http://wstein.org
>
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% General example LaTeX file for including Sage calculations and plots
% Build with:
%
% (pdf)latex example.tex; sage example.sagetex.sage; pdflatex example.tex
%
% Please read README and the documentation of the SageTeX package for
% more information!
%
% If you'd like a prebuilt version of this file and your Sage
% installation does not have one in SAGE_ROOT/local/share/doc/sagetex,
% you can either build it by reinstalling this spkg with the environment
% variable SAGE_SPKG_INSTALL_DOCS set to "yes" or download it from
% http://bitbucket.org/ddrake/sagetex/downloads/example.pdf.
\documentclass{article}
\title{Examples of embedding Sage in \LaTeX{} with \textsf{Sage\TeX}}
\author{Dan Drake and others}
\usepackage{hyperref}
% If you want to see the examples in the section "Plotting
% (combinatorial) graphs with TikZ" remove the \begin{comment}
% and \end{comment} in that section and uncomment the following line.
\usepackage{tkz-berge}
\usepackage{sagetex}
%
% If you want SageTeX to use Imagemagick's `convert' utility to make eps
% files from png files when generating a dvi file, add the "imagemagick"
% option above:
%
% \usepackage[imagemagick]{sagetex}
\setlength{\sagetexindent}{10ex}
\begin{document}
\maketitle
\section{Inline Sage, code blocks}
This is an example $2+2=\sage{2+2}$. If you raise the current year mod
$100$ (which equals $\sage{mod(\the\year, 100)}$) to the power of the
current day ($\the\day$), you get $\sage{Integer(mod(\the\year,
100))^\the\day}$. Also, $\the\year$ modulo $42$ is $\sage{\the\year
\percent 42}$.
Code block which uses a variable \texttt{s} to store the solutions:
\begin{sageblock}
1+1
var('a,b,c')
eqn = [a+b*c==1, b-a*c==0, a+b==5]
s = solve(eqn, a,b,c)
\end{sageblock}
Solutions of $\mbox{eqn}=\sage{eqn}$:
\[
\sage{s[0]}
\]
\[
\sage{s[1]}
\]
Now we evaluate the following block:
\begin{sageblock}
E = EllipticCurve("37a")
\end{sageblock}
You can't do assignment inside \verb|\sage| macros, since Sage doesn't
know how to typeset the output of such a thing. So you have to use a
code block. The elliptic curve $E$ given by $\sage{E}$ has discriminant
$\sage{E.discriminant()}$.
You can do anything in a code block that you can do in Sage and/or
Python. Here we save an elliptic curve into a file.
\begin{sageblock}
try:
E = load('E2')
except IOError:
E = EllipticCurve([1,2,3,4,5])
E.anlist(100000)
E.save('E2')
\end{sageblock}
The 9999th Fourier coefficient of $\sage{E}$ is
$\sage{E.anlist(100000)[9999]}$.
The following code block doesn't appear in the typeset file\dots
\begin{sagesilent}
e = 2
e = 3*e + 1
\end{sagesilent}
but we can refer to whatever we did in that code block: $e=\sage{e}$.
\begin{sageblock}
var('x')
f(x) = log(sin(x)/x)
\end{sageblock}
The Taylor Series of $f$ begins: $\sage{ f.taylor(x, 0, 10) }$.
\section{Plotting}
Here's a very large plot of the elliptic curve $E$.
\sageplot{E.plot(-3,3)}
\begin{sagesilent}
# the var line is unecessary unless you've defined x to be something
# other than a symbolic variable
var('x')
f(x) = -x^3+3*x^2+7*x-4
\end{sagesilent}
You can use variables to hold plot objects and do stuff with them.
\begin{sageblock}
p = plot(f, x, -5, 5)
\end{sageblock}
Here's a small plot of $f$ from $-5$ to $5$, which I've centered:
\begin{center} \sageplot[scale=.2]{p} \end{center}
On second thought, use a size of $3/4$ the \verb|\textwidth| and don't
use axes:
\sageplot[width=.75\textwidth]{p, axes=False}
Remember, you're using Sage, and can therefore call upon any of the
software packages Sage is built out of.
\begin{sageblock}
f = maxima('sin(x)^2*exp(x)')
g = f.integrate('x')
\end{sageblock}
Plot $g(x)$, but don't typeset it.
\begin{sagesilent}
# g is a Maxima thingy, it needs to get converted into a Sage object
plot1 = plot(g.sage(),x,-1,2*pi)
\end{sagesilent}
You can specify a file format and options for \verb|includegraphics|.
The default is for EPS and PDF files, which are the best choice in
almost all situations. (Although see the section on 3D plotting.)
\sageplot[angle=45, width=.5\textwidth][png]{plot1}
If you use regular \verb|latex| to make a DVI file, you'll see a box,
because DVI files can't include PNG files. If you use \verb|pdflatex|
that will work. See the documentation for details.
When using \verb|\sageplot|, you can pass in just about anything that
Sage can call \verb|.save()| on to produce a graphics file:
\begin{center}
\sageplot{plot1 + plot(f.sage(),x,-1,2*pi,rgbcolor=hue(0.4)), figsize=[1,2]}
\end{center}
To fiddle with aspect ratio, first save the plot object:
\begin{sageblock}
p = plot(x, 0, 1) + circle((0,0), 1)
p.set_aspect_ratio(1)
\end{sageblock}
Now plot it and see the circular circle and nice 45 degree angle:
\sageplot[scale=.33]{p}
Indentation and so on works fine.
\begin{sageblock}
s = 7
s2 = 2^s
P.<x> = GF(2)[]
M = matrix(parent(x),s2)
for i in range(s2):
p = (1+x)^i
pc = p.coeffs()
a = pc.count(1)
for j in range(a):
idx = pc.index(1)
M[i,idx+j] = pc.pop(idx)
matrixprogram = matrix_plot(M,cmap='Greys')
\end{sageblock}
And here's the picture:
\sageplot[scale=.5]{matrixprogram}
Reset \texttt{x} in Sage so that it's not a generator for the polynomial
ring: \sage{var('x')}
\subsection{Plotting (combinatorial) graphs with TikZ}
\label{sec:plotting-graphs-with}
Sage now includes some nice support for plotting graphs using
\href{http://www.texample.net/tikz/}{TikZ}. Here, we mean things with
vertices and edges, not graphs of a function of one or two variables.
The graphics in this section depends on the \texttt{tkz-berge} package,
which is generally only available in newer \TeX{} distributions (for
example, \TeX Live 2011 and newer). That package depends in turn on
TikZ 2.0, which is also only available in newer \TeX{} distributions.
Installing both of those is in some cases nontrivial, so this section is
disabled by default.
If you have TikZ and \texttt{tkz-berge} and friends, remove the
\texttt{comment} environments below.
\begin{comment}
First define our graph:
\begin{sageblock}
g = graphs.PetersenGraph()
g.set_latex_options(tkz_style='Art')
\end{sageblock}
Now just do \verb|\sage{}| on it to plot it. You'll need to use the
\texttt{tkz-berge} package for this to work; that package in turn
depends on \texttt{tkz-graph} and TikZ. See
\href{http://altermundus.fr/pages/tkz.html}{\texttt{altermundus.fr/pages/tkz.html}};
if you're using a recent version of \TeX Live, you can use its package
manager to install those packages, or get them from CTAN:
\href{http://www.ctan.org/pkg/tkz-berge}{\texttt{www.ctan.org/pkg/tkz-berge}}.
See
\href{http://sagemath.org/doc/reference/sage/graphs/graph_latex.html}{``\LaTeX{}
Options for Graphs''} in the Sage reference manual for more details.
\begin{center}
\sage{g}
\end{center}
The above command just outputs a \texttt{tikzpicture} environment, and
you can control that environment using anything supported by
TikZ---although the output of \verb|\sage{g}| explicitly hard-codes a
lot of things and cannot be flexibly controlled in its current form.
\tikzstyle{every picture}=[rotate=45, scale=1/2]
\begin{center}
\sage{g}
\end{center}
\tikzstyle{every picture}=[]
Here's some more graphs, plotted using the usual plot routines.
\sageplot[scale=.5]{graphs.FlowerSnark().plot()}
\begin{sageblock}
G4 = DiGraph({1:[2,2,3,5], 2:[3,4], 3:[4], 4:[5,7], 5:[6]},\
multiedges=True)
G4plot = G4.plot(layout='circular')
\end{sageblock}
\sageplot[scale=.5]{G4plot, axes=False}
\end{comment}
\subsection{3D plotting}
3D plotting right now (Sage version 4.3.4) is problematic because
there's no convenient way to produce vector graphics. We can make PNGs,
though, so if you pass \verb|sageplot| a graphics object that cannot be
saved to EPS or PDF format, we will automatically save to a PNG file,
which can be used when typesetting a PDF file, but not when creating a
DVI file. However, you can specify the ``\texttt{imagemagick}'' option,
which will use the Imagemagick \texttt{convert} utility to make EPS
files. See the documentation for details.
% FIXME: not sure this works with remote sagetex
\begin{sagesilent}
x, y = var('x y')
\end{sagesilent}
Here's a 3D plot whose format we do not specify; it will automatically
get saved as a PNG file and won't work when using \texttt{latex} to make
a DVI file.
\sageplot[scale=.5]{plot3d(sin(pi*(x^2+y^2))/2,(x,-1,1),(y,-1,1))}
Here's the (perhaps-not-so-) famous Sage cube graph in 3D.
\begin{sageblock}
G = graphs.CubeGraph(5)
\end{sageblock}
% need empty [] so sageplot knows you want png format, and aren't
% passing an option to includegraphics
\sageplot[][png]{G.plot3d()}
\section{Pausing Sage\TeX}
\label{sec:pausing-sagetex}
Sometimes you want to ``pause'' for a bit while writing your document if
you have embedded a long calculation or just want to concentrate on the
\LaTeX{} and ignore any Sage stuff. You can use the \verb|\sagetexpause|
and \verb|\sagetexunpause| macros to do that.
\sagetexpause
A calculation: $\sage{factor(2^325 + 1)}$ and a code environment that
simulates a time-consuming calculation. While paused, this will get
skipped over.
\begin{sageblock}
import time
time.sleep(15)
\end{sageblock}
Graphics are also skipped: \sageplot{plot(2*sin(x^2) + x^2, (x, 0, 5))}
\sagetexunpause
\section{Make Sage write your \LaTeX{} for you}
With \textsf{Sage\TeX}, you can not only have Sage do your math for you,
it can write parts of your \LaTeX{} document for you! For example, I
hate writing \texttt{tabular} environments; there's too many fiddly
little bits of punctuation and whatnot\ldots and what if you want to add
a column? It's a pain---or rather, it \emph{was} a pain. Just write a
Sage/Python function that outputs a string of \LaTeX{} code, and use
\verb|\sagestr|. Here's how to make Pascal's triangle.
\begin{sageblock}
def pascals_triangle(n):
# start of the table
s = [r"\begin{tabular}{cc|" + "r" * (n+1) + "}"]
s.append(r" & & $k$: & \\")
# second row, with k values:
s.append(r" & ")
for k in [0..n]:
s.append("& {0} ".format(k))
s.append(r"\\")
# the n = 0 row:
s.append(r"\hline" + "\n" + r"$n$: & 0 & 1 & \\")
# now the rest of the rows
for r in [1..n]:
s.append(" & {0} ".format(r))
for k in [0..r]:
s.append("& {0} ".format(binomial(r, k)))
s.append(r"\\")
# add the last line and return
s.append(r"\end{tabular}")
return ''.join(s)
# how big should the table be?
n = 8
\end{sageblock}
Okay, now here's the table. To change the size, edit \texttt{n} above.
If you have several tables, you can use this to get them all the same
size, while changing only one thing.
\begin{center}
\sagestr{pascals_triangle(n)}
\end{center}
\section{Include doctest-like examples in your document}
Here are some examples of using the \texttt{sageexample} environment:
\begin{sageexample}
sage: 1+1
2
sage: factor(x^2 + 2*x + 1)
(x + 1)^2
\end{sageexample}
If you want to see the plain-text output as well as the typeset output,
renew the \texttt{sageexampleincludetextoutput} command to True:
\begin{verbatim}
\renewcommand{\sageexampleincludetextoutput}{True}
\end{verbatim}
\renewcommand{\sageexampleincludetextoutput}{True}
This can be useful to check that the two outputs are consistent.
When this environment is near the bottom of the page, it may look like
the page number is the output of a command, when in fact the real output
is on the next page. If the output of a command below looks like
\thepage, don't worry, that's just the page number.
\begin{sageexample}
sage: 1+1
2
sage: factor(x^2 + 2*x + 1)
(x + 1)^2
\end{sageexample}
Multiline statements are supported, as are triple-quoted strings
delimited by single quotes:
\renewcommand{\sageexampleincludetextoutput}{False}
\begin{sageexample}
sage: def f(a):
... '''This function is really quite nice,
... although perhaps not very useful.'''
... print "f called with a = ", a
... y = integrate(SR(cyclotomic_polynomial(10)) + a, x)
... return y + 1
sage: f(x)
f called with a = x
1/5*x^5 - 1/4*x^4 + 1/3*x^3 + x + 1
\end{sageexample}
Note that the ``$f$ called with\ldots'' stuff doesn't get typeset, since
when running Sage on \texttt{example.sagetex.sage}, that gets printed to the
terminal.
When typesetting your document, the validity of the outputs is not
checked. In fact, the provided outputs are completely ignored:
\renewcommand{\sageexampleincludetextoutput}{True}
\begin{sageexample}
sage: is_prime(57)
toothpaste
\end{sageexample}
\renewcommand{\sageexampleincludetextoutput}{False}
However, typesetting your document produces a file named
\texttt{example\_doctest.sage} containing all the doctest-like examples,
and you can have Sage check them for you with:
\begin{verbatim}
$ sage -t example_doctest.sage
\end{verbatim}
You should get one doctest failure from the ``toothpaste'' line above.
Please look into this file for the original line numbers.
Beware that \texttt{sage -t} does not handle well file names with
special characters in them, particularly dashes, dots, and spaces---this
ultimately comes from the way Python interprets \texttt{import}
statements. Also, running doctests on files outside the main Sage
library does not always work, so contact \texttt{sage-support} if you
run into troubles.
Some more examples. This environment is implemented a little bit
differently than the other environments, so it's good to make sure that
definitions are preserved across multiple uses. This will correctly
define $a$, but not print its output because the statement is made up of
a sequence of expressions.
\begin{sageexample}
sage: 1; 2; a=4; 3; a
1
2
3
4
\end{sageexample}
After that, Sage should remember that $a = \sage{a}$ and be able to use
that in future \texttt{sageexample} blocks:
\begin{sageexample}
sage: f(a)
f called with a = 4
1/5*x^5 - 1/4*x^4 + 1/3*x^3 - 1/2*x^2 + 5*x + 1
\end{sageexample}
\section{Plotting functions in Ti\emph{k}Z with Sage\TeX}
(The code in this section should work with any reasonable version of
Ti\emph{k}Z, which means it should work with all but the most terribly
out-of-date \TeX{} installations---but to make sure we can accomodate
everyone, the code here is commented out. You can almost certainly
uncomment and run them. Make sure you do \verb|\usepackage{tikz}| in the
preamble.)
% \begin{comment}
The wonderful graphics package TikZ has the ability to plot functions by
reading in a sequence of points from an external file---see chapter 18,
page 193 of the TikZ manual. This facility is designed around files
produced by Gnuplot, but the file format is so simple that it's very
easy to use Sage\TeX{} to generate them. First you need a function that
will evaluate functions and write the results into a file:
% set up plotting stuff
\begin{sageblock}
def gnuplot(x, y, tvals_, fn):
"""
Write out a gnuplot-style file of points x(t), y(t).
"""
tvals = list(tvals_)
lines = ['#This is a gnuplot-style file written by SageTeX.',
'#x: {0}'.format(x),
'#y: {0}'.format(y),
'#Curve 0, {0} points'.format(len(tvals)),
'#x y type']
fmt = lambda _: _.n().str(no_sci=2)
for t in tvals:
try:
lines.append('{0} {1} i'.format(fmt(x(t)), fmt(y(t))))
except ValueError, ZeroDivisonError:
pass
with open(fn, 'w') as f:
f.write('\n'.join(lines) + '\n')
\end{sageblock}
There probably should be some more exceptions in that list, and the
above code doesn't check to make sure it's writing real values, but then
again, this is just a file of examples!
Then you define callable functions x and y and pass them in, along with
a sequence of values and a file name. Here's a plot that I used on a
calculus exam:
\begin{sageblock}
r(t) = 1 - 2*sin(3*t)
x(t) = r(t)*cos(t)
y(t) = r(t)*sin(t)
gnuplot(x, y, srange(0, 2*pi + .05, .05), 'example-tikz1.table')
\end{sageblock}
(Usually you would do that in sagesilent environments, I guess.)
Then you call TikZ with your plot.
\begin{tikzpicture}
\draw[very thin,->] (-3.25,0) -- (3.25,0);
\draw[very thin,->] (0,-3.25) -- (0,3.25);
\draw[smooth] plot file {example-tikz1.table};
\end{tikzpicture}
For regular Cartesian plots, just pass in the identity function for x:
\begin{sageblock}
x = lambda t: t
y(t) = t*sin(1/t)
gnuplot(x, y, [0.01, 0.02..(0.5)] + [0.55, 0.6..2], 'example-tikz2.table')
\end{sageblock}
\begin{tikzpicture}
\draw[very thin,->] (-0.25,0) -- (2,0);
\draw[very thin,->] (0,-1/3) -- (0,1);
\draw[smooth, red] plot file {example-tikz2.table};
\end{tikzpicture}
This style of plotting will become even more useful and powerful when
the new TikZ Data Visualization library is available---you will be able
to feed TikZ a bunch of data points, and it automatically make a very
nice plot for you, including axes, labels, and so on.
% \end{comment}
\section{The \texttt{sagecommandline} environment}
When writing a \TeX{} document about Sage, you may want to show some
examples of commands and their output. But naturally, you are lazy and
don't want to cut and paste the output into your document. ``Why should
I have to do anything? Why can't Sage and \TeX{} cooperate and do it for
me?'' you may cry. Well, they \emph{can} cooperate:
\begin{sagecommandline}
sage: 1+1
sage: is_prime(57)
\end{sagecommandline}
Note that the output of the commands is not included in the source file,
but are included in the typeset output.
Because of the way the environment is implemented, not everything is
exactly like using Sage in a terminal: the two commands below would
produce some output, but don't here:
\begin{sagecommandline}
sage: x = 2010; len(x.divisors())
sage: print 'Hola, mundo!'
\end{sagecommandline}
The difference lies in the Python distinction between statements and
expressions.
One nice thing is that you can set labels by using an @ sign:
\begin{sagecommandline}
sage: l = matrix([[1,0,0],[3/5,1,0],[-2/5,-2,1]])
sage: d = diagonal_matrix([15, -1, 4]) #@\label{diagonal}
sage: u = matrix([[1,0,1/3],[0,1,2],[0,0,1]]) #@\label{anotherlabel} \# foo
sage: l*d*u # this is a comment
\end{sagecommandline}
And then refer to that label: it was on line \ref{diagonal}, which is on
page \pageref{diagonal}. Note that the other text after the hash mark on
that line does not get typeset as a comment, and that you cannot have
any space between the hash mark and the~@.
You can also typeset the output:
\renewcommand{\sagecommandlinetextoutput}{False}
\begin{sagecommandline}
sage: l*d*u
sage: x = var('x')
sage: (1-cos(x)^2).trig_simplify()
\end{sagecommandline}
\renewcommand{\sagecommandlinetextoutput}{True}
The Sage input and output is typeset using the \texttt{listings} package
with the styles \texttt{SageInput} and \texttt{SageOutput},
respectively. If you don't like the defaults you can change them. It is
recommended to derive from \texttt{DefaultSageInput} and
\texttt{DefaultSageOutput}, for example\ldots
\lstdefinestyle{SageInput}{style=DefaultSageInput,basicstyle={\color{red}}}
\lstdefinestyle{SageOutput}{style=DefaultSageOutput,basicstyle={\color{green}}}
makes things overly colorful:
\begin{sagecommandline}
sage: pi.n(100)
\end{sagecommandline}
\lstdefinestyle{SageInput}{style=DefaultSageInput}
\lstdefinestyle{SageOutput}{style=DefaultSageOutput}
Plotting things doesn't automatically pull in the plot, just the text
representation of the plot (the equivalent of applying \texttt{str()} to
it):
\begin{sagecommandline}
sage: plot(sin(x), (x, 0, 2*pi))
\end{sagecommandline}
You can include output, but it will be ignored. This is useful for
doctesting, as all the \texttt{sagecommandline} environment things get
put into the ``\texttt{\_doctest.sage}'' file.
\begin{sagecommandline}
sage: factor(x^2 + 2*x + 1)
(x + 999)^2
\end{sagecommandline}
\end{document}
