Determine if geometries in two dbSpatial
objects are disjoint
st_disjoint.Rd
https://postgis.net/docs/ST_Disjoint.html
Usage
st_disjoint(
g1,
g1_geomName = "geom",
g1_cols_keep = "all",
g2,
g2_geomName = "geom",
g2_cols_keep = "all",
overwrite = FALSE,
name = "disjoint_geom",
...
)
# S4 method for class 'dbSpatial,ANY,ANY,dbSpatial'
st_disjoint(
g1,
g1_geomName = "geom",
g1_cols_keep = "all",
g2,
g2_geomName = "geom",
g2_cols_keep = "all",
overwrite = FALSE,
name = "disjoint_geom",
...
)
Arguments
- g1
A
dbSpatial
object.- g1_geomName
character
. Thegeometry
column name ing1
. Default: "geom".- g1_cols_keep
character vector
. The column names ing1
to keep. Default: "all".- g2
A
dbSpatial
object.- g2_geomName
character
. Thegeometry
column name ing2
. Default: "geom".- g2_cols_keep
character vector
. The column names ing2
to keep. Default: "all".- overwrite
logical
. IfTRUE
, overwrite existing table. Default:FALSE
.- name
character
. Default: "disjoint_geom"- ...
Additional arguments passed to
duckdb::dbSendQuery
.
Value
dbSpatial
object
Functions
st_disjoint( g1 = dbSpatial, g1_geomName = ANY, g1_cols_keep = ANY, g2 = dbSpatial )
: Method fordbSpatial
objects
See also
Other spatial_join:
st_contains()
,
st_coveredby()
,
st_covers()
,
st_crosses()
,
st_difference()
,
st_distance()
,
st_equals()
,
st_intersects()
,
st_touches()
Examples
con = DBI::dbConnect(duckdb::duckdb(), ":memory:")
coordinates <- data.frame(x = c(100, 200, 300), y = c(500, 600, 700))
attributes <- data.frame(id = 1:3, name = c("A1", "B1", "C1"))
# Combine the coordinates and attributes
dummy_data <- cbind(coordinates, attributes)
points <- dbSpatial(conn = con,
name = "points",
value = dummy_data,
overwrite = TRUE,
x_colName = "x",
y_colName = "y")
# preview
points
#> # Class: dbSpatial
#> # Source: table<points> [3 x 5]
#> # Database: DuckDB v1.0.0 [unknown@Linux 6.5.0-1025-azure:R 4.4.1/:memory:]
#> x y id name geom
#> <dbl> <dbl> <int> <chr> <list>
#> 1 100 500 1 A1 <raw [32]>
#> 2 200 600 2 B1 <raw [32]>
#> 3 300 700 3 C1 <raw [32]>
# Create a second set of points, with B1 and C1 translated by + 100
dummy_data2 <- dummy_data
dummy_data2[c(2,3),c(1,2)] <- dummy_data2[c(2,3),c(1,2)] + 150
dummy_data2$name <- c('A2', 'B2', 'C2')
points2 <- dbSpatial(conn = con,
name = "points2",
value = dummy_data2,
overwrite = TRUE,
x_colName = "x",
y_colName = "y")
# preview
points2
#> # Class: dbSpatial
#> # Source: table<points2> [3 x 5]
#> # Database: DuckDB v1.0.0 [unknown@Linux 6.5.0-1025-azure:R 4.4.1/:memory:]
#> x y id name geom
#> <dbl> <dbl> <int> <chr> <list>
#> 1 100 500 1 A2 <raw [32]>
#> 2 350 750 2 B2 <raw [32]>
#> 3 450 850 3 C2 <raw [32]>
res <- st_disjoint(g1 = points,
g1_cols_keep = c("name"),
g2 = points2,
overwrite = TRUE)
res
#> # Class: dbSpatial
#> # Source: table<disjoint_geom> [8 x 6]
#> # Database: DuckDB v1.0.0 [unknown@Linux 6.5.0-1025-azure:R 4.4.1/:memory:]
#> name x y id name_1 geom
#> <chr> <dbl> <dbl> <int> <chr> <list>
#> 1 A1 350 750 2 B2 <raw [32]>
#> 2 A1 450 850 3 C2 <raw [32]>
#> 3 B1 100 500 1 A2 <raw [32]>
#> 4 B1 350 750 2 B2 <raw [32]>
#> 5 B1 450 850 3 C2 <raw [32]>
#> 6 C1 100 500 1 A2 <raw [32]>
#> 7 C1 350 750 2 B2 <raw [32]>
#> 8 C1 450 850 3 C2 <raw [32]>