Book Image

LaTeX Graphics with TikZ

By : Stefan Kottwitz
4.5 (4)
Book Image

LaTeX Graphics with TikZ

4.5 (4)
By: Stefan Kottwitz

Overview of this book

In this first-of-its-kind TikZ book, you’ll embark on a journey to discover the fascinating realm of TikZ—what it’s about, the philosophy behind it, and what sets it apart from other graphics libraries. From installation procedures to the intricacies of its syntax, this comprehensive guide will help you use TikZ to create flawless graphics to captivate your audience in theses, articles, or books. You’ll learn all the details starting with drawing nodes, edges, and arrows and arranging them with perfect alignment. As you explore advanced features, you’ll gain proficiency in using colors and transparency for filling and shading, and clipping image parts. You’ll learn to define TikZ styles and work with coordinate calculations and transformations. That’s not all! You’ll work with layers, overlays, absolute positioning, and adding special decorations and take it a step further using add-on packages for drawing diagrams, charts, and plots. By the end of this TikZ book, you’ll have mastered the finer details of image creation, enabling you to achieve visually stunning graphics with great precision.
Table of Contents (18 chapters)

Using the polar coordinate system

In Chapter 2, we talked about polar coordinates. Polar coordinates are just perfect for representing circular or radial symmetric data. Have a quick look back at that chapter, especially at Figure 2.5.

To use polar coordinates, we need to load the corresponding library:

\usepgfplotslibrary{polar}

Then, we have a new polaraxis environment. We can use this just like a normal axis, except that the labels, ticks, and grids are now radial. Take a look at this:

\begin{polaraxis}
  \addplot[domain=0:180, samples=100, thick] {sin(3*x)};
\end{polaraxis}

While a polar plot of sin(x) would give us a simple circle, this relatively simple plot command provides us with the following plot with three leaves:

Figure 13.10 – A trigonometric function in a polar coordinate system

Figure 13.10 – A trigonometric function in a polar coordinate system

We can drive it on and use a large domain, especially with a fractional argument of the sine function, like this:

\addplot[domain...