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9.11. Geometric Functions and Operators

The geometric types point, box, lseg, line, path, polygon, and circle have a large set of native support functions and operators, shown in Table 9-31, Table 9-32, and Table 9-33.

Caution

Note that the "same as" operator, ~=, represents the usual notion of equality for the point, box, polygon, and circle types. Some of these types also have an = operator, but = compares for equal areas only. The other scalar comparison operators (<= and so on) likewise compare areas for these types.

Table 9-31. Geometric Operators

Operator Description Example
+ Translation box '((0,0),(1,1))' + point '(2.0,0)'
- Translation box '((0,0),(1,1))' - point '(2.0,0)'
* Scaling/rotation box '((0,0),(1,1))' * point '(2.0,0)'
/ Scaling/rotation box '((0,0),(2,2))' / point '(2.0,0)'
# Point or box of intersection box '((1,-1),(-1,1))' # box '((1,1),(-2,-2))'
# Number of points in path or polygon # path '((1,0),(0,1),(-1,0))'
@-@ Length or circumference @-@ path '((0,0),(1,0))'
@@ Center @@ circle '((0,0),10)'
## Closest point to first operand on second operand point '(0,0)' ## lseg '((2,0),(0,2))'
<-> Distance between circle '((0,0),1)' <-> circle '((5,0),1)'
&& Overlaps? (One point in common makes this true.) box '((0,0),(1,1))' && box '((0,0),(2,2))'
<< Is strictly left of? circle '((0,0),1)' << circle '((5,0),1)'
>> Is strictly right of? circle '((5,0),1)' >> circle '((0,0),1)'
&< Does not extend to the right of? box '((0,0),(1,1))' &< box '((0,0),(2,2))'
&> Does not extend to the left of? box '((0,0),(3,3))' &> box '((0,0),(2,2))'
<<| Is strictly below? box '((0,0),(3,3))' <<| box '((3,4),(5,5))'
|>> Is strictly above? box '((3,4),(5,5))' |>> box '((0,0),(3,3))'
&<| Does not extend above? box '((0,0),(1,1))' &<| box '((0,0),(2,2))'
|&> Does not extend below? box '((0,0),(3,3))' |&> box '((0,0),(2,2))'
<^ Is below (allows touching)? circle '((0,0),1)' <^ circle '((0,5),1)'
>^ Is above (allows touching)? circle '((0,5),1)' >^ circle '((0,0),1)'
?# Intersects? lseg '((-1,0),(1,0))' ?# box '((-2,-2),(2,2))'
?- Is horizontal? ?- lseg '((-1,0),(1,0))'
?- Are horizontally aligned? point '(1,0)' ?- point '(0,0)'
?| Is vertical? ?| lseg '((-1,0),(1,0))'
?| Are vertically aligned? point '(0,1)' ?| point '(0,0)'
?-| Is perpendicular? lseg '((0,0),(0,1))' ?-| lseg '((0,0),(1,0))'
?|| Are parallel? lseg '((-1,0),(1,0))' ?|| lseg '((-1,2),(1,2))'
@> Contains? circle '((0,0),2)' @> point '(1,1)'
<@ Contained in or on? point '(1,1)' <@ circle '((0,0),2)'
~= Same as? polygon '((0,0),(1,1))' ~= polygon '((1,1),(0,0))'

Note: Before PostgreSQL 8.2, the containment operators @> and <@ were respectively called ~ and @. These names are still available, but are deprecated and will eventually be removed.

Table 9-32. Geometric Functions

Function Return Type Description Example
area(object) double precision area area(box '((0,0),(1,1))')
center(object) point center center(box '((0,0),(1,2))')
diameter(circle) double precision diameter of circle diameter(circle '((0,0),2.0)')
height(box) double precision vertical size of box height(box '((0,0),(1,1))')
isclosed(path) boolean a closed path? isclosed(path '((0,0),(1,1),(2,0))')
isopen(path) boolean an open path? isopen(path '[(0,0),(1,1),(2,0)]')
length(object) double precision length length(path '((-1,0),(1,0))')
npoints(path) int number of points npoints(path '[(0,0),(1,1),(2,0)]')
npoints(polygon) int number of points npoints(polygon '((1,1),(0,0))')
pclose(path) path convert path to closed pclose(path '[(0,0),(1,1),(2,0)]')
popen(path) path convert path to open popen(path '((0,0),(1,1),(2,0))')
radius(circle) double precision radius of circle radius(circle '((0,0),2.0)')
width(box) double precision horizontal size of box width(box '((0,0),(1,1))')

Table 9-33. Geometric Type Conversion Functions

Function Return Type Description Example
box(circle) box circle to box box(circle '((0,0),2.0)')
box(point) box point to empty box box(point '(0,0)')
box(point, point) box points to box box(point '(0,0)', point '(1,1)')
box(polygon) box polygon to box box(polygon '((0,0),(1,1),(2,0))')
bound_box(box, box) box boxes to bounding box bound_box(box '((0,0),(1,1))', box '((3,3),(4,4))')
circle(box) circle box to circle circle(box '((0,0),(1,1))')
circle(point, double precision) circle center and radius to circle circle(point '(0,0)', 2.0)
circle(polygon) circle polygon to circle circle(polygon '((0,0),(1,1),(2,0))')
line(point, point) line points to line line(point '(-1,0)', point '(1,0)')
lseg(box) lseg box diagonal to line segment lseg(box '((-1,0),(1,0))')
lseg(point, point) lseg points to line segment lseg(point '(-1,0)', point '(1,0)')
path(polygon) path polygon to path path(polygon '((0,0),(1,1),(2,0))')
point(double precision, double precision) point construct point point(23.4, -44.5)
point(box) point center of box point(box '((-1,0),(1,0))')
point(circle) point center of circle point(circle '((0,0),2.0)')
point(lseg) point center of line segment point(lseg '((-1,0),(1,0))')
point(polygon) point center of polygon point(polygon '((0,0),(1,1),(2,0))')
polygon(box) polygon box to 4-point polygon polygon(box '((0,0),(1,1))')
polygon(circle) polygon circle to 12-point polygon polygon(circle '((0,0),2.0)')
polygon(npts, circle) polygon circle to npts-point polygon polygon(12, circle '((0,0),2.0)')
polygon(path) polygon path to polygon polygon(path '((0,0),(1,1),(2,0))')

It is possible to access the two component numbers of a point as though the point were an array with indexes 0 and 1. For example, if t.p is a point column then SELECT p[0] FROM t retrieves the X coordinate and UPDATE t SET p[1] = ... changes the Y coordinate. In the same way, a value of type box or lseg can be treated as an array of two point values.

The area function works for the types box, circle, and path. The area function only works on the path data type if the points in the path are non-intersecting. For example, the path '((0,0),(0,1),(2,1),(2,2),(1,2),(1,0),(0,0))'::PATH will not work; however, the following visually identical path '((0,0),(0,1),(1,1),(1,2),(2,2),(2,1),(1,1),(1,0),(0,0))'::PATH will work. If the concept of an intersecting versus non-intersecting path is confusing, draw both of the above paths side by side on a piece of graph paper.