table of contents
| Math::Polygon::Calc(3pm) | User Contributed Perl Documentation | Math::Polygon::Calc(3pm) |
NAME¶
Math::Polygon::Calc - Simple polygon calculations
INHERITANCE¶
Math::Polygon::Calc is an Exporter
SYNOPSIS¶
my @poly = ( [1,2], [2,4], [5,7], [1, 2] );
my ($xmin, $ymin, $xmax, $ymax) = polygon_bbox @poly;
my $area = polygon_area @poly;
MY $L = polygon_perimeter @poly;
if(polygon_is_clockwise @poly) { ... };
my @rot = polygon_start_minxy @poly;
DESCRIPTION¶
This package contains a wide variaty of relatively easy polygon calculations. More complex calculations are put in separate packages.
FUNCTIONS¶
- polygon_area(@points)
- Returns the area enclosed by the polygon. The last point of the list must
be the same as the first to produce a correct result.
The algorithm was found at <https://mathworld.wolfram.com/PolygonArea.html>, and sounds:
A = abs( 1/2 * (x1y2-x2y1 + x2y3-x3y2 ...) - polygon_bbox(@points)
- Returns a list with four elements: (xmin, ymin, xmax, ymax), which describe the bounding box of the polygon (all points of the polygon are within that area.
- polygon_beautify( [\%options], @points )
- Polygons, certainly after some computations, can have a lot of horrible
artifacts: points which are double, spikes, etc. The optional HASH
contains the %options.
-Option --Default remove_spikes <C<false>>
- remove_spikes => BOOLEAN
- Spikes contain of three successive points, where the first is on the line
between the second and the third. The line goes from first to second, but
then back to get to the third point.
At the moment, only pure horizontal and pure vertical spikes are removed.
- polygon_centroid( [%options|\%options], @points )
- Returns the centroid location of the polygon.
The last point of the list must be the same as the first (must be 'closed') to produce a correct result.
warning: When the polygon is very flat, it will not produce a stable result: minor changes in single coordinates will move the centroid too far.
The algorithm was found at <https://en.wikipedia.org/wiki/Centroid#Of_a_polygon>
-Option --Default is_large false
- is_large => BOOLEAN
- When the polygon is small and far from the origin
"(0,0)" (as often happens when
processing geo coordinates), then rounding errors will have a large impact
on result of the algorithm. To avoid this, we will move the poly first
close to the origin, and move the calculated center point back.
This transform, which cost modest performance, can be disabled with this option. The transformation will also not happen when the first "x" coordinate is an object, like Math::BigFloat.
- polygon_clockwise(@points)
- Be sure the polygon points are in clockwise order.
- polygon_contains_point($point, @points)
- Returns "true" if the point is inside the closed polygon. On an edge will be flagged as 'inside'. But be warned of rounding issues, caused by the floating-point calculations used by this algorithm.
- polygon_counter_clockwise(@points)
- Be sure the polygon points are in counter-clockwise order.
- polygon_distance($point, @polygon)
- [1.05] calculate the shortest distance between a point and any vertex of a closed polygon.
- polygon_equal( \@points1, \@points2, [$tolerance] )
- Compare two polygons, on the level of points. When the polygons are the same but rotated, this will return "false". See polygon_same().
- polygon_format($format, @points)
- [1.07] Map the $format over all
@points, both the X and Y coordinate. This is
especially useful to reduce the number of digits in the stringification.
For instance, when you want reproducible results in regression scripts.
The format is anything supported by printf(), for instance "%5.2f". Or, you can pass a code reference which accepts a single value.
- polygon_is_clockwise(@points)
- polygon_is_closed(@points)
- polygon_perimeter(@points)
- The length of the line of the polygon. This can also be used to compute
the length of any line: of the last point is not equal to the first, then
a line is presumed; for a polygon they must match.
This is simply Pythagoras.
$l = sqrt((x1-x0)^2 + (y1-y0)^2) + sqrt((x2-x1)^2+(y2-y1)^2) + ... - polygon_same( \@points1, \@points2, [$tolerance] )
- [1.12] Compare two polygons, where the polygons may be rotated or mirrored wrt each other. This is (much) slower than polygon_equal(), but some algorithms will cause un unpredictable rotation in the result.
- polygon_start_minxy(@points)
- Returns the polygon, where the point which is closest to the left-bottom corner of the bounding box is made first.
- polygon_string(@points)
DIAGNOSTICS¶
- Error: empty polygon is neither closed nor open
- Cast by polygon_is_closed()
- Error: polygon points on a line, so no centroid
- Cast by polygon_centroid()
SEE ALSO¶
This module is part of Math-Polygon version 2.00, built on September 04, 2025. Website: http://perl.overmeer.net/CPAN/
LICENSE¶
For contributors see file ChangeLog.
This software is copyright (c) 2004-2025 by Mark Overmeer.
This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself.
| 2025-10-04 | perl v5.40.1 |