INHERITANCE
Geo::Line is a Geo::Shape Geo::Line is a Math::Polygon
SYNOPSIS
my $line = Geo::Line>new(points => [$p1, $p2]);
my $line = Geo::Line>line($p1, $p2);
my $ring = Geo::Line>ring($p1, $p2, $p3, $p1);
my $ring = Geo::Line>ring($p1, $p2, $p3);
my $plane = Geo::Line>filled($p1, $p2, $p3, $p1);
my $plane = Geo::Line>filled($p1, $p2, $p3);
DESCRIPTION
A 2dimensional sequence of connected points. The points will be forced to use the same projection.Extends ``DESCRIPTION'' in Math::Polygon.
Extends ``DESCRIPTION'' in Geo::Shape.
METHODS
Extends ``METHODS'' in Math::Polygon.Extends ``METHODS'' in Geo::Shape.
Constructors
Extends ``Constructors'' in Math::Polygon.Extends ``Constructors'' in Geo::Shape.
 Geo::Line>bboxFromString($string, [$projection])

Create a square from the $string. The coordinates can be separated by
a comma (preferrably), or blanks. When the coordinates end on NSEW, the
order does not matter, otherwise latlong or xy order is presumed.
This routine is very smart. It understands
PROJLABEL: <4 coordinates in any order, but with NSEW>
...example: bbox from string
my $x = '5n 2n 3e e12'; # coordinates in any order my $x = '5e , 2n, 3n, e12'; # coordinates in any order my $x = '2.1223.1E, N14'; # stretches my $x = 'wgs84: 25e, 18n'; # starts with projection my $x = 'wgs84: e2d12' 3d, n1, n7d12'34"'; my ($xmin, $ymin, $xmax, $ymax, $proj) = Geo::Line>bboxFromString($x); my $p = Geo::Line>ringFromString($x); # When parsing user applications, you probably want: my $p = eval { Geo::Line>bboxFromString($x) }; warn [email protected] if [email protected];
 $obj>filled($points, %options)
 Geo::Line>filled($points, %options)
 The $points form a ring() and the filled is part of the geometrical shape.
 $obj>line($points, %options)
 Geo::Line>line($points, %options)
 construct a line, which will probably not have the same begin and end point. The $points are passed as new(points), and the other %options are passed to new() as well.
 $obj>new([%options])
 Geo::Line>new([%options])

When called as instance method, the projection, ring, and filled attributes
are taken from the initiator, like a clone with modification.
Option Defined in Default bbox Math::Polygon undef clockwise Math::Polygon undef filled <false> points <data> proj Geo::Shape see Geo::Proj::defaultProjection() ring <false>

 bbox => ARRAY
 clockwise => BOOLEAN
 filled => BOOLEAN
 Implies ring. The filled of the ring is included in the geometrical shape.
 points => ARRAYOFPOINTSARRAYOFCOORDINATES
 With this option, you can specify either Geo::Point objects, or coordinate pairs which will get transformed into such objects. WARNING: in that case, the coordinates must be in xy order.
 proj => LABEL
 ring => BOOLEAN
 The first point is the last point. When specified, you have to make sure that this is the case. If ring() is used to create this object, that routine will check/repair it for you.

example:
my $point = Geo::Point>xy(1, 2); my $line = Geo::Line>new ( points => [$point, [3,4], [5,6], $point] , ring => 1 ); my $clone = $line>new(filled => 1);

 $obj>ring($points, %options)
 Geo::Line>ring($points, %options)
 The first and last point will be made the same: if not yet, than a reference to the first point is appended to the list. A ``ring'' does not cover the internal.
 Geo::Line>ringFromString($string, [$projection])
 Calls bboxFromString() and then produces a ring object from than. Don't forget the "eval" when you call this method.
Attributes
Extends ``Attributes'' in Math::Polygon.Extends ``Attributes'' in Geo::Shape.
 $obj>geopoint($index, [$index, ..])
 Returns the Geo::Point for the point with the specified $index or indices.
 $obj>geopoints()

In LIST context, this returns all points as separate scalars: each is a
Geo::Point with projection information. In SCALAR context, a
reference to the coordinates is returned.
With points(), you get arrays with XY coordinates returned, but without the projection information. That will be much faster, but not sufficient for some uses.
 $obj>isFilled()
 Returns a true value is the internals of the ring of points are declared to belong to the shape.
 $obj>isRing()
 Returns a true value if the sequence of points are a ring or filled: the first point is the last.
 $obj>nrPoints()
 Inherited, see ``Attributes'' in Math::Polygon
 $obj>order()
 Inherited, see ``Attributes'' in Math::Polygon
 $obj>point($index, [$index,...])
 Inherited, see ``Attributes'' in Math::Polygon
 $obj>points()
 Inherited, see ``Attributes'' in Math::Polygon
 $obj>proj()
 Inherited, see ``Attributes'' in Geo::Shape
 $obj>proj4()
 Inherited, see ``Attributes'' in Geo::Shape
Projections
Extends ``Projections'' in Geo::Shape. $obj>in(<$label'utm'>)
 Inherited, see ``Projections'' in Geo::Shape
 $obj>projectOn($nick, @points)
 Inherited, see ``Projections'' in Geo::Shape
Geometry
Extends ``Geometry'' in Math::Polygon.Extends ``Geometry'' in Geo::Shape.
 $obj>area()
 Returns the area enclosed by the polygon. Only useful when the points are in some orthogonal projection.
 $obj>bbox()
 The bounding box coordinates. These are more useful for rings than for open line pieces.
 $obj>bboxCenter()
 Inherited, see ``Geometry'' in Geo::Shape
 $obj>bboxRing([$xmin, $ymin, $xmax, $ymax, [$proj]])
 Geo::Line>bboxRing([$xmin, $ymin, $xmax, $ymax, [$proj]])
 Inherited, see ``Geometry'' in Geo::Shape
 $obj>beautify(%options)
 Inherited, see ``Geometry'' in Math::Polygon
 $obj>centroid()
 Inherited, see ``Geometry'' in Math::Polygon
 $obj>clip(<$xmin,$xmax,$ymin,$ymax>$object)

Clip the shape to the bounding box of $object, or the boxing parameters
specified. A list of Geo::Line objects is returned if anything is
inside the object.
On the moment Math::Polygon::lineClip() and Math::Polygon::fillClip1() are used to do the job. In the future, that may change.
 $obj>clockwise()
 Inherited, see ``Geometry'' in Math::Polygon
 $obj>contains($point)
 Inherited, see ``Geometry'' in Math::Polygon
 $obj>counterClockwise()
 Inherited, see ``Geometry'' in Math::Polygon
 $obj>distance($object, [$unit])
 Inherited, see ``Geometry'' in Geo::Shape
 $obj>equal(<$other  ARRAY,[$tolerance]>  $points)
 Inherited, see ``Geometry'' in Math::Polygon
 $obj>isClockwise()
 Inherited, see ``Geometry'' in Math::Polygon
 $obj>isClosed()
 Inherited, see ``Geometry'' in Math::Polygon
 $obj>length()
 The length of the line, only useful in a orthogonal coordinate system (projection). See also perimeter().
 $obj>perimeter()
 The length of the line on the ring. A check is performed that the ring is closed, but further this returns the result of length()
 $obj>same(<$other  ARRAY,[$tolerance]>  $points)
 Inherited, see ``Geometry'' in Math::Polygon
 $obj>startMinXY()
 Inherited, see ``Geometry'' in Math::Polygon
Transformations
Extends ``Transformations'' in Math::Polygon. $obj>grid(%options)
 Inherited, see ``Transformations'' in Math::Polygon
 $obj>mirror(%options)
 Inherited, see ``Transformations'' in Math::Polygon
 $obj>move(%options)
 Inherited, see ``Transformations'' in Math::Polygon
 $obj>resize(%options)
 Inherited, see ``Transformations'' in Math::Polygon
 $obj>rotate(%options)
 Inherited, see ``Transformations'' in Math::Polygon
 $obj>simplify(%options)
 Inherited, see ``Transformations'' in Math::Polygon
Clipping
Extends ``Clipping'' in Math::Polygon. $obj>fillClip1($box)
 Inherited, see ``Clipping'' in Math::Polygon
 $obj>lineClip($box)
 Inherited, see ``Clipping'' in Math::Polygon
Display
Extends ``Display'' in Math::Polygon.Extends ``Display'' in Geo::Shape.
 $obj>deg2dm($degrees, $pos, $neg)
 Geo::Line>deg2dm($degrees, $pos, $neg)
 Inherited, see ``Display'' in Geo::Shape
 $obj>deg2dms($degrees, $pos, $neg)
 Geo::Line>deg2dms($degrees, $pos, $neg)
 Inherited, see ``Display'' in Geo::Shape
 $obj>dms2deg($dms)
 Geo::Line>dms2deg($dms)
 Inherited, see ``Display'' in Geo::Shape
 $obj>string()
 Inherited, see ``Display'' in Math::Polygon
 $obj>toString([$projection])
 Returns a string representation of the line, which is also used for stringification. The old method named "string" is deprecated.
OVERLOAD
Extends ``OVERLOAD'' in Geo::Shape. overload: '""' (stringification)
 Inherited, see ``OVERLOAD'' in Geo::Shape
 overload: 'bool' (truth value)
 Inherited, see ``OVERLOAD'' in Geo::Shape
DIAGNOSTICS
 Error: area requires a ring of points
 If you think you have a ring of points (a polygon), than do specify that when that object is instantiated (ring() or new(ring)).
 Error: distance calculation not implemented between a $kind and a $kind
 Only a subset of all objects can be used in the distance calculation. The limitation is purely caused by lack of time to implement this.
 Error: in() not implemented for a $class
 Error: perimeter requires a ring of points
LICENSE
Copyrights 20052014 by [Mark Overmeer]. For other contributors see ChangeLog.This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself. See http://www.perl.com/perl/misc/Artistic.html