topojson_list: Convert many input types with spatial data to TopoJSON as a...
In ropensci/geojsonio: Convert Data from and to 'GeoJSON' or 'TopoJSON'
View source: R/topojson_list.R
topojson_list R Documentation
Convert many input types with spatial data to TopoJSON
as a list
Description
Convert many input types with spatial data to TopoJSON
as a list
Usage
topojson_list(
input,
lat = NULL,
lon = NULL,
group = NULL,
geometry = "point",
type = "FeatureCollection",
convert_wgs84 = FALSE,
crs = NULL,
object_name = "foo",
quantization = 0,
...
)
Arguments
input
Input list, data.frame, spatial class, or sf class. Inputs can
also be dplyr tbl_df class since it inherits from data.frame
lat
(character) Latitude name. The default is NULL, and we
attempt to guess.
lon
(character) Longitude name. The default is NULL, and we
attempt to guess.
group
(character) A grouping variable to perform grouping for
polygons - doesn't apply for points
geometry
(character) One of point (Default) or polygon.
type
(character) The type of collection. One of FeatureCollection
(default) or GeometryCollection.
convert_wgs84
Should the input be converted to the
standard CRS for GeoJSON (https://tools.ietf.org/html/rfc7946)
(geographic coordinate reference system, using the WGS84 datum, with
longitude and latitude units of decimal degrees; EPSG: 4326).
Default is FALSE though this may change in a future package version.
This will only work for sf or Spatial objects with a CRS
already defined. If one is not defined but you know what it is, you
may define it in the crs argument below.
crs
The CRS of the input if it is not already defined. This can
be an epsg code as a four or five digit integer or a valid proj4 string.
This argument will be ignored if convert_wgs84 is FALSE
or the object already has a CRS.
object_name
(character) name to give to the TopoJSON object created.
Default: "foo"
quantization
(numeric) quantization parameter, use this to
quantize geometry prior to computing topology. Typical values are powers of
ten (1e4, 1e5, ...), default is 0 to not perform quantization.
For more information about quantization, see this by Mike Bostock
https://stackoverflow.com/questions/18900022/topojson-quantization-vs-simplification/18921214#18921214
...
args passed down through topojson_json() to geojson_json();
see geojson_json() for help on what's supported here
Details
Internally, we call topojson_json(), then use
an internal function to convert that JSON output to a list
The type parameter is automatically converted to
type="auto" if a sf, sfc, or sfg class is passed to input
Value
a list with TopoJSON
Examples
## Not run:
# From a numeric vector of length 2 to a point
vec <- c(-99.74, 32.45)
topojson_list(vec)
# Lists
## From a list
mylist <- list(
list(latitude = 30, longitude = 120, marker = "red"),
list(latitude = 30, longitude = 130, marker = "blue")
)
topojson_list(mylist)
## From a list of numeric vectors to a polygon
vecs <- list(c(100.0, 0.0), c(101.0, 0.0), c(101.0, 1.0), c(100.0, 1.0), c(100.0, 0.0))
topojson_list(vecs, geometry = "polygon")
# from data.frame to points
(res <- topojson_list(us_cities[1:2, ], lat = "lat", lon = "long"))
as.json(res)
## guess lat/long columns
topojson_list(us_cities[1:2, ])
topojson_list(states[1:3, ])
topojson_list(states[1:351, ], geometry = "polygon", group = "group")
topojson_list(canada_cities[1:30, ])
# from data.frame to polygons
head(states)
topojson_list(states[1:351, ], lat = "lat", lon = "long", geometry = "polygon", group = "group")
# From SpatialPolygons class
library("sp")
poly1 <- Polygons(list(Polygon(cbind(
c(-100, -90, -85, -100),
c(40, 50, 45, 40)
))), "1")
poly2 <- Polygons(list(Polygon(cbind(
c(-90, -80, -75, -90),
c(30, 40, 35, 30)
))), "2")
sp_poly <- SpatialPolygons(list(poly1, poly2), 1:2)
topojson_list(sp_poly)
# From SpatialPolygonsDataFrame class
sp_polydf <- as(sp_poly, "SpatialPolygonsDataFrame")
topojson_list(input = sp_polydf)
# From SpatialPoints class
x <- c(1, 2, 3, 4, 5)
y <- c(3, 2, 5, 1, 4)
s <- SpatialPoints(cbind(x, y))
topojson_list(s)
# From SpatialPointsDataFrame class
s <- SpatialPointsDataFrame(cbind(x, y), mtcars[1:5, ])
topojson_list(s)
# From SpatialLines class
library("sp")
c1 <- cbind(c(1, 2, 3), c(3, 2, 2))
c2 <- cbind(c1[, 1] + .05, c1[, 2] + .05)
c3 <- cbind(c(1, 2, 3), c(1, 1.5, 1))
L1 <- Line(c1)
L2 <- Line(c2)
L3 <- Line(c3)
Ls1 <- Lines(list(L1), ID = "a")
Ls2 <- Lines(list(L2, L3), ID = "b")
sl1 <- SpatialLines(list(Ls1))
sl12 <- SpatialLines(list(Ls1, Ls2))
topojson_list(sl1)
topojson_list(sl12)
as.json(topojson_list(sl12))
as.json(topojson_list(sl12), pretty = TRUE)
# From SpatialLinesDataFrame class
dat <- data.frame(
X = c("Blue", "Green"),
Y = c("Train", "Plane"),
Z = c("Road", "River"), row.names = c("a", "b")
)
sldf <- SpatialLinesDataFrame(sl12, dat)
topojson_list(sldf)
as.json(topojson_list(sldf))
as.json(topojson_list(sldf), pretty = TRUE)
# From SpatialGrid
x <- GridTopology(c(0, 0), c(1, 1), c(5, 5))
y <- SpatialGrid(x)
topojson_list(y)
# From SpatialGridDataFrame
sgdim <- c(3, 4)
sg <- SpatialGrid(GridTopology(rep(0, 2), rep(10, 2), sgdim))
sgdf <- SpatialGridDataFrame(sg, data.frame(val = 1:12))
topojson_list(sgdf)
# From SpatialPixels
library("sp")
pixels <- suppressWarnings(SpatialPixels(SpatialPoints(us_cities[c("long", "lat")])))
summary(pixels)
topojson_list(pixels)
# From SpatialPixelsDataFrame
library("sp")
pixelsdf <- suppressWarnings(
SpatialPixelsDataFrame(points = canada_cities[c("long", "lat")], data = canada_cities)
)
topojson_list(pixelsdf)
## End(Not run)
# From sf classes:
if (require(sf)) {
## sfg (a single simple features geometry)
p1 <- rbind(c(0, 0), c(1, 0), c(3, 2), c(2, 4), c(1, 4), c(0, 0))
poly <- rbind(c(1, 1), c(1, 2), c(2, 2), c(1, 1))
poly_sfg <- st_polygon(list(p1))
topojson_list(poly_sfg)
## sfc (a collection of geometries)
p1 <- rbind(c(0, 0), c(1, 0), c(3, 2), c(2, 4), c(1, 4), c(0, 0))
p2 <- rbind(c(5, 5), c(5, 6), c(4, 5), c(5, 5))
poly_sfc <- st_sfc(st_polygon(list(p1)), st_polygon(list(p2)))
topojson_list(poly_sfc)
## sf (collection of geometries with attributes)
p1 <- rbind(c(0, 0), c(1, 0), c(3, 2), c(2, 4), c(1, 4), c(0, 0))
p2 <- rbind(c(5, 5), c(5, 6), c(4, 5), c(5, 5))
poly_sfc <- st_sfc(st_polygon(list(p1)), st_polygon(list(p2)))
poly_sf <- st_sf(foo = c("a", "b"), bar = 1:2, poly_sfc)
topojson_list(poly_sf)
}
ropensci/geojsonio documentation built on Oct. 30, 2023, 2:22 p.m.
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View source: R/topojson_list.R
| topojson_list | R Documentation |
Convert many input types with spatial data to TopoJSON as a list
Description
Convert many input types with spatial data to TopoJSON as a list
Usage
topojson_list(
input,
lat = NULL,
lon = NULL,
group = NULL,
geometry = "point",
type = "FeatureCollection",
convert_wgs84 = FALSE,
crs = NULL,
object_name = "foo",
quantization = 0,
...
)
Arguments
input |
Input list, data.frame, spatial class, or sf class. Inputs can
also be dplyr |
lat |
(character) Latitude name. The default is |
lon |
(character) Longitude name. The default is |
group |
(character) A grouping variable to perform grouping for polygons - doesn't apply for points |
geometry |
(character) One of point (Default) or polygon. |
type |
(character) The type of collection. One of FeatureCollection (default) or GeometryCollection. |
convert_wgs84 |
Should the input be converted to the
standard CRS for GeoJSON (https://tools.ietf.org/html/rfc7946)
(geographic coordinate reference system, using the WGS84 datum, with
longitude and latitude units of decimal degrees; EPSG: 4326).
Default is |
crs |
The CRS of the input if it is not already defined. This can
be an epsg code as a four or five digit integer or a valid proj4 string.
This argument will be ignored if |
object_name |
(character) name to give to the TopoJSON object created. Default: "foo" |
quantization |
(numeric) quantization parameter, use this to
quantize geometry prior to computing topology. Typical values are powers of
ten ( |
... |
args passed down through |
Details
Internally, we call topojson_json(), then use
an internal function to convert that JSON output to a list
The type parameter is automatically converted to
type="auto" if a sf, sfc, or sfg class is passed to input
Value
a list with TopoJSON
Examples
## Not run:
# From a numeric vector of length 2 to a point
vec <- c(-99.74, 32.45)
topojson_list(vec)
# Lists
## From a list
mylist <- list(
list(latitude = 30, longitude = 120, marker = "red"),
list(latitude = 30, longitude = 130, marker = "blue")
)
topojson_list(mylist)
## From a list of numeric vectors to a polygon
vecs <- list(c(100.0, 0.0), c(101.0, 0.0), c(101.0, 1.0), c(100.0, 1.0), c(100.0, 0.0))
topojson_list(vecs, geometry = "polygon")
# from data.frame to points
(res <- topojson_list(us_cities[1:2, ], lat = "lat", lon = "long"))
as.json(res)
## guess lat/long columns
topojson_list(us_cities[1:2, ])
topojson_list(states[1:3, ])
topojson_list(states[1:351, ], geometry = "polygon", group = "group")
topojson_list(canada_cities[1:30, ])
# from data.frame to polygons
head(states)
topojson_list(states[1:351, ], lat = "lat", lon = "long", geometry = "polygon", group = "group")
# From SpatialPolygons class
library("sp")
poly1 <- Polygons(list(Polygon(cbind(
c(-100, -90, -85, -100),
c(40, 50, 45, 40)
))), "1")
poly2 <- Polygons(list(Polygon(cbind(
c(-90, -80, -75, -90),
c(30, 40, 35, 30)
))), "2")
sp_poly <- SpatialPolygons(list(poly1, poly2), 1:2)
topojson_list(sp_poly)
# From SpatialPolygonsDataFrame class
sp_polydf <- as(sp_poly, "SpatialPolygonsDataFrame")
topojson_list(input = sp_polydf)
# From SpatialPoints class
x <- c(1, 2, 3, 4, 5)
y <- c(3, 2, 5, 1, 4)
s <- SpatialPoints(cbind(x, y))
topojson_list(s)
# From SpatialPointsDataFrame class
s <- SpatialPointsDataFrame(cbind(x, y), mtcars[1:5, ])
topojson_list(s)
# From SpatialLines class
library("sp")
c1 <- cbind(c(1, 2, 3), c(3, 2, 2))
c2 <- cbind(c1[, 1] + .05, c1[, 2] + .05)
c3 <- cbind(c(1, 2, 3), c(1, 1.5, 1))
L1 <- Line(c1)
L2 <- Line(c2)
L3 <- Line(c3)
Ls1 <- Lines(list(L1), ID = "a")
Ls2 <- Lines(list(L2, L3), ID = "b")
sl1 <- SpatialLines(list(Ls1))
sl12 <- SpatialLines(list(Ls1, Ls2))
topojson_list(sl1)
topojson_list(sl12)
as.json(topojson_list(sl12))
as.json(topojson_list(sl12), pretty = TRUE)
# From SpatialLinesDataFrame class
dat <- data.frame(
X = c("Blue", "Green"),
Y = c("Train", "Plane"),
Z = c("Road", "River"), row.names = c("a", "b")
)
sldf <- SpatialLinesDataFrame(sl12, dat)
topojson_list(sldf)
as.json(topojson_list(sldf))
as.json(topojson_list(sldf), pretty = TRUE)
# From SpatialGrid
x <- GridTopology(c(0, 0), c(1, 1), c(5, 5))
y <- SpatialGrid(x)
topojson_list(y)
# From SpatialGridDataFrame
sgdim <- c(3, 4)
sg <- SpatialGrid(GridTopology(rep(0, 2), rep(10, 2), sgdim))
sgdf <- SpatialGridDataFrame(sg, data.frame(val = 1:12))
topojson_list(sgdf)
# From SpatialPixels
library("sp")
pixels <- suppressWarnings(SpatialPixels(SpatialPoints(us_cities[c("long", "lat")])))
summary(pixels)
topojson_list(pixels)
# From SpatialPixelsDataFrame
library("sp")
pixelsdf <- suppressWarnings(
SpatialPixelsDataFrame(points = canada_cities[c("long", "lat")], data = canada_cities)
)
topojson_list(pixelsdf)
## End(Not run)
# From sf classes:
if (require(sf)) {
## sfg (a single simple features geometry)
p1 <- rbind(c(0, 0), c(1, 0), c(3, 2), c(2, 4), c(1, 4), c(0, 0))
poly <- rbind(c(1, 1), c(1, 2), c(2, 2), c(1, 1))
poly_sfg <- st_polygon(list(p1))
topojson_list(poly_sfg)
## sfc (a collection of geometries)
p1 <- rbind(c(0, 0), c(1, 0), c(3, 2), c(2, 4), c(1, 4), c(0, 0))
p2 <- rbind(c(5, 5), c(5, 6), c(4, 5), c(5, 5))
poly_sfc <- st_sfc(st_polygon(list(p1)), st_polygon(list(p2)))
topojson_list(poly_sfc)
## sf (collection of geometries with attributes)
p1 <- rbind(c(0, 0), c(1, 0), c(3, 2), c(2, 4), c(1, 4), c(0, 0))
p2 <- rbind(c(5, 5), c(5, 6), c(4, 5), c(5, 5))
poly_sfc <- st_sfc(st_polygon(list(p1)), st_polygon(list(p2)))
poly_sf <- st_sf(foo = c("a", "b"), bar = 1:2, poly_sfc)
topojson_list(poly_sf)
}
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