\begin{juliaterm}
julia> using Winston

julia> t = linspace(0, 2*pi, 100)

linspace(0.0,6.283185307179587,100)
julia> plot(t, sinc(t))

Winston.FramedPlot(...)
\end{juliaterm}
\includegraphics[width=\linewidth]{figures/winston_formats_1_1.pdf}

\begin{juliaterm}
julia> s = 1:10

1:10
julia> plot(s, "r*")
Winston.FramedPlot(...)
\end{juliaterm}
\includegraphics[width=\linewidth]{figures/winston_formats_1_2.pdf}





\begin{figure}[htpb]
\center
\includegraphics[width=\linewidth]{figures/winston_formats_random_1.pdf}
\caption{Random walk.}
\label{fig:random}
\end{figure}




\begin{juliacode}
x = linspace(0, 3pi, 100)
c = cos(x)
s = sin(x)

p = FramedPlot(
         title="title!",
         xlabel="\\Sigma x^2_i",
         ylabel="\\Theta_i")

add(p, FillBetween(x, c, x, s))
add(p, Curve(x, c, color="red"))
add(p, Curve(x, s, color="blue"))
display(p)

\end{juliacode}
\includegraphics[width=\linewidth]{figures/winston_formats_3_1.pdf}

\begin{juliacode}

p = FramedPlot(
     aspect_ratio=1,
     xrange=(0,100),
     yrange=(0,100))

n = 21
x = linspace(0, 100, n)
yA = 40 .+ 10randn(n)
yB = x .+ 5randn(n)

a = Points(x, yA, kind="circle")
setattr(a, label="a points")

b = Points(x, yB)
setattr(b, label="b points")
style(b, kind="filled circle")

s = Slope(1, (0,0), kind="dotted")
setattr(s, label="slope")

l = Legend(.1, .9, {a,b,s})

add(p, s, a, b, l)
display(p)
\end{juliacode}
\includegraphics[width=\linewidth]{figures/winston_formats_3_2.pdf}