Problem E - Polylops
Given the vertices of a non-degenerate polygon (no 180-degree angles,
zero-length sides, or self-intersection - but not necessarily convex),
you must determine how many distinct lines of symmetry exist for that
polygon. A line of symmetry is one on which the polygon, when
reflected on that line, maps to itself.
Problem Input
Input consists of a description of several polygons.
Each polygon description consists of two lines. The first contains
the integer "n" (3<=n<=1000), which gives the number of vertices on
the polygon. The second contains "n" pairs of numbers (an x- and a
y-value), describing the vertices of the polygon in order. All
coordinates are integers from -1000 to 1000.
Input terminates on a polygon with 0 vertices.
Problem Output
For every polygon described, print out a line saying
"Polygon #x has y symmetry line(s).", where x is the number of the
polygon (starting from 1), and y is the number of distinct symmetry
lines on that polygon.
Sample Input
4
-1 0 0 2 1 0 0 -1
3
-666 -42 57 -84 19 282
3
-241 -50 307 43 -334 498
0
Sample Output
Polygon #1 has 1 symmetry line(s).
Polygon #2 has 0 symmetry line(s).
Polygon #3 has 1 symmetry line(s).