Voro++ basic example codes ========================== These programs demonstrate some basic usage of the Voro++ library. 1. single_cell.cc introduces the basic voronoicell class. It creates a simple cell by cutting it with a number of random planes. It outputs the cell to a file called single_cell.gnu, which can be visualized in gnuplot using the following commands: set style data lines splot 'single_cell.gnu' 2. platonic.cc uses the voronoicell class to make the five Platonic solids, which are output to files that can be visualized in gnuplot. 3. random_points.cc introduces the container class, for holding particle positions in a box. After creating a container, it adds a small number of random points to the box. It then calculates the sum of the volumes of the Voronoi cells, and compares it to the container volume - since the cells should perfectly partition the container, these two should be identical to within numerical accuracy. The code then saves the particle positions to "random_points_p.gnu" and the Voronoi cells to "random_points_v.gnu". These can be visualized in gnuplot using the command: splot 'random_points_p.gnu' u 2:3:4 with points, 'random_points_v.gnu' with lines 4. import.cc demonstrates the ability of the code to import a list of particles from a text file. The code imports a text file called 'pack_ten_cube' which contains a thousand particles in a cube of side length 10. Each line of this file has the form: <Numerical ID> <x coordinate> <y coordinate> <z coordinate> The code imports the particles into the container, and then saves the particles and Voronoi cells in gnuplot and POV-Ray formats. To visualize the particles in gnuplot, use the command: splot 'pack_ten_cube' u 2:3:4 with points, 'pack_ten_cube.gnu' with lines To create a POV-Ray rendering of the particles, the scene header file import.pov must be used, which includes the output from the program. To render an 800x600 image with antialiasing, use the command: povray +W800 +H600 +A0.01 +Oimport.png import.pov