relate: Spatial relationships between geometries
In rspatial/terra: Spatial Data Analysis
relate R Documentation
Spatial relationships between geometries
Description
relate returns a logical matrix indicating the presence or absence of a specific spatial relationships between the geometries in x and y.
is.related returns a logical vector indicating the presence or absence of a specific spatial relationships between x and any of the geometries in y
Usage
## S4 method for signature 'SpatVector,SpatVector'
relate(x, y, relation, pairs=FALSE, na.rm=TRUE)
## S4 method for signature 'SpatVector,missing'
relate(x, y, relation, pairs=FALSE, na.rm=TRUE)
## S4 method for signature 'SpatVector,SpatVector'
is.related(x, y, relation)
Arguments
x
SpatVector or SpatExtent
y
missing or as for x
relation
character. One of "intersects", "touches", "crosses", "overlaps", "within", "contains", "covers", "coveredby", "disjoint". Or a "DE-9IM" string such as "FF*FF****". See wikipedia or geotools doc
pairs
logical. If TRUE a two-column matrix is returned with the indices of the cases where the requested relation is TRUE. This is especially helpful when dealing with many geometries as the returned value is generally much smaller
na.rm
logical. If TRUE and pairs=TRUE, geometries in x for which there is no related geometry in y are omitted
Value
matrix (relate) or vector (is.related)
See Also
adjacent, nearby, intersect, crop
Examples
# polygons
p1 <- vect("POLYGON ((0 0, 8 0, 8 9, 0 9, 0 0))")
p2 <- vect("POLYGON ((5 6, 15 6, 15 15, 5 15, 5 6))")
p3 <- vect("POLYGON ((8 2, 9 2, 9 3, 8 3, 8 2))")
p4 <- vect("POLYGON ((2 6, 3 6, 3 8, 2 8, 2 6))")
p5 <- vect("POLYGON ((2 12, 3 12, 3 13, 2 13, 2 12))")
p6 <- vect("POLYGON ((10 4, 12 4, 12 7, 11 7, 11 6, 10 6, 10 4))")
p <- rbind(p1, p2, p3, p4, p5, p6)
plot(p, col=rainbow(6, alpha=.5))
lines(p, lwd=2)
text(p)
## relate SpatVectors
relate(p1, p2, "intersects")
relate(p1, p3, "touches")
relate(p1, p5, "disjoint")
relate(rbind(p1, p2), p4, "disjoint")
## relate geometries within SpatVectors
# which are completely separated?
relate(p, relation="disjoint")
# which touch (not overlap or within)?
relate(p, relation="touches")
# which overlap (not merely touch, and not within)?
relate(p, relation="overlaps")
# which are within (not merely overlap)?
relate(p, relation="within")
# do they touch or overlap or are within?
relate(p, relation="intersects")
all(relate(p, relation="intersects") ==
(relate(p, relation="overlaps") |
relate(p, relation="touches") |
relate(p, relation="within")))
#for polygons, "coveredby" is "within"
relate(p, relation="coveredby")
# polygons, lines, and points
pp <- rbind(p1, p2)
L1 <- vect("LINESTRING(1 11, 4 6, 10 6)")
L2 <- vect("LINESTRING(8 14, 12 10)")
L3 <- vect("LINESTRING(1 8, 12 14)")
lns <- rbind(L1, L2, L3)
pts <- vect(cbind(c(7,10,10), c(3,5,6)))
plot(pp, col=rainbow(2, alpha=.5))
text(pp, paste0("POL", 1:2), halo=TRUE)
lines(pp, lwd=2)
lines(lns, col=rainbow(3), lwd=4)
text(lns, paste0("L", 1:3), halo=TRUE)
points(pts, cex=1.5)
text(pts, paste0("PT", 1:3), halo=TRUE, pos=4)
relate(lns, relation="crosses")
relate(lns, pp, relation="crosses")
relate(lns, pp, relation="touches")
relate(lns, pp, relation="intersects")
relate(lns, pp, relation="within")
# polygons can contain lines or points, not the other way around
relate(lns, pp, relation="contains")
relate(pp, lns, relation="contains")
# points and lines can be covered by polygons
relate(lns, pp, relation="coveredby")
relate(pts, pp, "within")
relate(pts, pp, "touches")
relate(pts, lns, "touches")
rspatial/terra documentation built on April 28, 2024, 12:22 a.m.
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| relate | R Documentation |
Spatial relationships between geometries
Description
relate returns a logical matrix indicating the presence or absence of a specific spatial relationships between the geometries in x and y.
is.related returns a logical vector indicating the presence or absence of a specific spatial relationships between x and any of the geometries in y
Usage
## S4 method for signature 'SpatVector,SpatVector'
relate(x, y, relation, pairs=FALSE, na.rm=TRUE)
## S4 method for signature 'SpatVector,missing'
relate(x, y, relation, pairs=FALSE, na.rm=TRUE)
## S4 method for signature 'SpatVector,SpatVector'
is.related(x, y, relation)
Arguments
x |
SpatVector or SpatExtent |
y |
missing or as for |
relation |
character. One of "intersects", "touches", "crosses", "overlaps", "within", "contains", "covers", "coveredby", "disjoint". Or a "DE-9IM" string such as "FF*FF****". See wikipedia or geotools doc |
pairs |
logical. If |
na.rm |
logical. If |
Value
matrix (relate) or vector (is.related)
See Also
adjacent, nearby, intersect, crop
Examples
# polygons
p1 <- vect("POLYGON ((0 0, 8 0, 8 9, 0 9, 0 0))")
p2 <- vect("POLYGON ((5 6, 15 6, 15 15, 5 15, 5 6))")
p3 <- vect("POLYGON ((8 2, 9 2, 9 3, 8 3, 8 2))")
p4 <- vect("POLYGON ((2 6, 3 6, 3 8, 2 8, 2 6))")
p5 <- vect("POLYGON ((2 12, 3 12, 3 13, 2 13, 2 12))")
p6 <- vect("POLYGON ((10 4, 12 4, 12 7, 11 7, 11 6, 10 6, 10 4))")
p <- rbind(p1, p2, p3, p4, p5, p6)
plot(p, col=rainbow(6, alpha=.5))
lines(p, lwd=2)
text(p)
## relate SpatVectors
relate(p1, p2, "intersects")
relate(p1, p3, "touches")
relate(p1, p5, "disjoint")
relate(rbind(p1, p2), p4, "disjoint")
## relate geometries within SpatVectors
# which are completely separated?
relate(p, relation="disjoint")
# which touch (not overlap or within)?
relate(p, relation="touches")
# which overlap (not merely touch, and not within)?
relate(p, relation="overlaps")
# which are within (not merely overlap)?
relate(p, relation="within")
# do they touch or overlap or are within?
relate(p, relation="intersects")
all(relate(p, relation="intersects") ==
(relate(p, relation="overlaps") |
relate(p, relation="touches") |
relate(p, relation="within")))
#for polygons, "coveredby" is "within"
relate(p, relation="coveredby")
# polygons, lines, and points
pp <- rbind(p1, p2)
L1 <- vect("LINESTRING(1 11, 4 6, 10 6)")
L2 <- vect("LINESTRING(8 14, 12 10)")
L3 <- vect("LINESTRING(1 8, 12 14)")
lns <- rbind(L1, L2, L3)
pts <- vect(cbind(c(7,10,10), c(3,5,6)))
plot(pp, col=rainbow(2, alpha=.5))
text(pp, paste0("POL", 1:2), halo=TRUE)
lines(pp, lwd=2)
lines(lns, col=rainbow(3), lwd=4)
text(lns, paste0("L", 1:3), halo=TRUE)
points(pts, cex=1.5)
text(pts, paste0("PT", 1:3), halo=TRUE, pos=4)
relate(lns, relation="crosses")
relate(lns, pp, relation="crosses")
relate(lns, pp, relation="touches")
relate(lns, pp, relation="intersects")
relate(lns, pp, relation="within")
# polygons can contain lines or points, not the other way around
relate(lns, pp, relation="contains")
relate(pp, lns, relation="contains")
# points and lines can be covered by polygons
relate(lns, pp, relation="coveredby")
relate(pts, pp, "within")
relate(pts, pp, "touches")
relate(pts, lns, "touches")
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