Mark Overmeer > Math-Polygon-1.02 > Math::Polygon

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Module Version: 1.02   Source   Latest Release: Math-Polygon-1.06

NAME

Math::Polygon - Class for maintaining polygon data

SYNOPSIS

``` my \$poly = Math::Polygon->new( [1,2], [2,4], [5,7], [1,2] );
print \$poly->nrPoints;
my @p    = \$poly->points;

my (\$xmin, \$ymin, \$xmax, \$ymax) = \$poly->bbox;

my \$area   = \$poly->area;
my \$l      = \$poly->perimeter;
if(\$poly->isClockwise) { ... };

my \$rot    = \$poly->startMinXY;
my \$center = \$poly->centroid;
if(\$poly->contains(\$point)) { ... };

my \$boxed  = \$poly->lineClip(\$xmin, \$xmax, \$ymin, \$ymax);```

DESCRIPTION

This class provides an OO interface around Math::Polygon::Calc and Math::Polygon::Clip.

METHODS

Constructors

\$obj->new([OPTIONS], [POINTS], [OPTIONS])
Math::Polygon->new([OPTIONS], [POINTS], [OPTIONS])

You may add OPTIONS after and/or before the POINTS. You may also use the "points" options to get the points listed. POINTS are references to an ARRAY of X and Y.

When `new` is called as instance method, it is believed that the new polygon is derived from the callee, and therefore some facts (like clockwise or anti-clockwise direction) will get copied unless overruled.

``` -Option   --Default
bbox       undef
clockwise  undef
points     undef```
bbox => ARRAY

Usually computed from the figure automatically, but can also be specified as [xmin,ymin,xmax, ymax]. See bbox().

clockwise => BOOLEAN

Is not specified, it will be computed by the isClockwise() method on demand.

points => ARRAY-OF-POINTS

See points() and nrPoints().

example: creation of new polygon

``` my \$p = Math::Polygon->new([1,0],[1,1],[0,1],[0,0],[1,0]);

my @p = ([1,0],[1,1],[0,1],[0,0],[1,0]);
my \$p = Math::Polygon->new(points => \@p);```

Attributes

\$obj->nrPoints

Returns the number of points,

\$obj->order

Returns the number of uniqe points: one less than nrPoints().

\$obj->point(INDEX, [INDEX, ...])

Returns the point with the specified INDEX or INDEXES. In SCALAR context, only the first INDEX is used.

\$obj->points

In LIST context, the points are returned as list, otherwise as reference to an ARRAY.

Geometry

\$obj->area

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 computed result is cached. Function Math::Polygon::Calc::polygon_area().

\$obj->bbox

Returns a list with four elements: (xmin, ymin, xmax, ymax), which describe the bounding box of the polygon (all points of the polygon are inside that area). The computation is expensive, and therefore, the results are cached. Function Math::Polygon::Calc::polygon_bbox().

\$obj->beautify(OPTIONS)

Returns a new, beautified version of this polygon. Function Math::Polygon::Calc::polygon_beautify().

Polygons, certainly after some computations, can have a lot of horrible artifacts: points which are double, spikes, etc. This functions provided by this module beautify

``` -Option       --Default
remove_spikes  <false>```
remove_spikes => BOOLEAN
\$obj->centroid

Returns the centroid location of the polygon. The last point of the list must be the same as the first to produce a correct result. The computed result is cached. Function Math::Polygon::Calc::polygon_centroid().

\$obj->clockwise

Make sure the points are in clockwise order.

\$obj->contains(POINT)

Returns a truth value indicating whether the point is inside the polygon or not. On the edge is inside.

\$obj->counterClockwise

Make sure the points are in counter-clockwise order.

\$obj->equal((OTHER|ARRAY, [TOLERANCE])|POINTS)

Compare two polygons, on the level of points. When the polygons are the same but rotated, this will return false. See same(). Function Math::Polygon::Calc::polygon_equal().

\$obj->isClockwise

The points are (in majority) orded in the direction of the hands of the clock. This calculation is quite expensive (same effort as calculating the area of the polygon), and the result is therefore cached.

\$obj->isClosed

Returns true if the first point of the poly definition is the same as the last point.

\$obj->perimeter

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. Function Math::Polygon::Calc::polygon_perimeter().

\$obj->same((OTHER|ARRAY, [TOLERANCE])|POINTS)

Compare two polygons, where the polygons may be rotated wrt each other. This is (much) slower than equal(), but some algorithms will cause un unpredictable rotation in the result. Function Math::Polygon::Calc::polygon_same().

\$obj->startMinXY

Returns a new polygon object, where the points are rotated in such a way that the point which is losest to the left-bottom point of the bouding box has become the first.

Transformations

Implemented in Math::Polygon::Transform: changes on the structure of the polygon except clipping. All functions return a new polygon object or undef.

\$obj->grid(OPTIONS)

Returns a polygon object with the points snapped to grid points. See Math::Polygon::Transform::polygon_grid().

``` -Option--Default
raster  1.0```
raster => FLOAT

The raster size, which determines the points to round to. The origin `[0,0]` is always on a grid-point. When the raster value is zero, no transformation will take place.

\$obj->mirror(OPTIONS)

Mirror the polygon in a line. Only one of the options can be provided. Some programs call this "flip" or "flop".

``` -Option--Default
b       0
line    <undef>
rc      undef
x       undef
y       undef```
b => FLOAT

Only used in combination with option `rc` to describe a line.

line => [POINT, POINT]

Alternative way to specify the mirror line. The `rc` and `b` are computed from the two points of the line.

rc => FLOAT

Description of the line which is used to mirror in. The line is `y= rc*x+b`. The `rc` equals `-dy/dx`, the firing angle. If `undef` is explicitly specified then `b` is used as constant x: it's a vertical mirror.

x => FLOAT

Mirror in the line `x=value`, which means that `y` stays unchanged.

y => FLOAT

Mirror in the line `y=value`, which means that `x` stays unchanged.

\$obj->move(OPTIONS)

Returns a moved polygon object: all point are moved over the indicated distance. See Math::Polygon::Transform::polygon_move().

``` -Option--Default
dx      0
dy      0```
dx => FLOAT

Displacement in the horizontal direction.

dy => FLOAT

Displacement in the vertical direction.

\$obj->resize(OPTIONS)

Returns a resized polygon object. See Math::Polygon::Transform::polygon_resize().

``` -Option--Default
center  [0,0]
scale   1.0
xscale  <scale>
yscale  <scale>```
center => POINT
scale => FLOAT

Resize the polygon with the indicated factor. When the factor is larger than 1, the resulting polygon with grow, when small it will be reduced in size. The scale will be respective from the center.

xscale => FLOAT

Specific scaling factor in the horizontal direction.

yscale => FLOAT

Specific scaling factor in the vertical direction.

\$obj->rotate(OPTIONS)

Returns a rotated polygon object: all point are moved over the indicated distance. See Math::Polygon::Transform::polygon_rotate().

``` -Option --Default
center   [0,0]
degrees  0
center => POINT
degrees => FLOAT

specify rotation angle in degrees (between -180 and 360).

specify rotation angle in rads (between -pi and 2*pi)

\$obj->simplify(OPTIONS)

Returns a polygon object where points are removed. See Math::Polygon::Transform::polygon_simplify().

``` -Option    --Default
max_points  undef
same        0.0001
slope       undef```
max_points => INTEGER

First, `same` and `slope` reduce the number of points. Then, if there are still more than the specified number of points left, the points with the widest angles will be removed until the specified maximum number is reached.

same => FLOAT

The distance between two points to be considered "the same" point. The value is used as radius of the circle.

slope => FLOAT

With three points X(n),X(n+1),X(n+2), the point X(n+1) will be removed if the length of the path over all three points is less than `slope` longer than the direct path between X(n) and X(n+2).

The slope will not be removed around the starting point of the polygon. Removing points will change the area of the polygon.

Clipping

\$obj->fillClip1(BOX)

Clipping a polygon into rectangles can be done in various ways. With this algorithm, the parts of the polygon which are outside the BOX are mapped on the borders. The polygon stays in one piece, but may have vertices which are followed in two directions.

Returned is one polygon, which is cleaned from double points, spikes and superfluous intermediate points, or `undef` when no polygon is outside the BOX. Function Math::Polygon::Clip::polygon_fill_clip1().

\$obj->lineClip(BOX)

Returned is a list of ARRAYS-OF-POINTS containing line pieces from the input polygon. Function Math::Polygon::Clip::polygon_line_clip().

\$obj->string