sf (version 0.5-2)

dplyr: Dplyr verb methods for sf objects

Description

Dplyr verb methods for sf objects. Geometries are sticky, use as.data.frame to let codedplyr's own methods drop them.

Usage

filter_.sf(.data, ..., .dots)

filter.sf(.data, ..., .dots)

arrange_.sf(.data, ..., .dots)

arrange.sf(.data, ..., .dots)

distinct_.sf(.data, ..., .dots, .keep_all = FALSE)

distinct.sf(.data, ..., .dots, .keep_all = FALSE)

group_by_.sf(.data, ..., .dots, add = FALSE)

group_by.sf(.data, ..., .dots, add = FALSE)

ungroup.sf(x, ...)

mutate_.sf(.data, ..., .dots)

mutate.sf(.data, ..., .dots)

transmute_.sf(.data, ..., .dots)

transmute.sf(.data, ..., .dots)

select_.sf(.data, ..., .dots = NULL)

select.sf(.data, ...)

rename_.sf(.data, ..., .dots)

rename.sf(.data, ..., .dots)

slice_.sf(.data, ..., .dots)

slice.sf(.data, ..., .dots)

summarise.sf(.data, ..., .dots, do_union = TRUE)

summarise_.sf(.data, ..., .dots, do_union = TRUE)

gather_.sf(data, key_col, value_col, gather_cols, na.rm = FALSE, convert = FALSE, factor_key = FALSE)

spread_.sf(data, key_col, value_col, fill = NA, convert = FALSE, drop = TRUE, sep = NULL)

sample_n.sf(tbl, size, replace = FALSE, weight = NULL, .env = parent.frame())

sample_frac.sf(tbl, size = 1, replace = FALSE, weight = NULL, .env = parent.frame())

nest_.sf(data, key_col, nest_cols)

separate_.sf(data, col, into, sep = "[^[:alnum:]]+", remove = TRUE, convert = FALSE, extra = "warn", fill = "warn", ...)

unite_.sf(data, col, from, sep = "_", remove = TRUE)

inner_join.sf(x, y, by = NULL, copy = FALSE, suffix = c(".x", ".y"), ...)

left_join.sf(x, y, by = NULL, copy = FALSE, suffix = c(".x", ".y"), ...)

right_join.sf(x, y, by = NULL, copy = FALSE, suffix = c(".x", ".y"), ...)

full_join.sf(x, y, by = NULL, copy = FALSE, suffix = c(".x", ".y"), ...)

semi_join.sf(x, y, by = NULL, copy = FALSE, ...)

anti_join.sf(x, y, by = NULL, copy = FALSE, ...)

Arguments

.data

data object of class sf

...

other arguments

.dots

see corresponding function in package dplyr

.keep_all

see corresponding function in dplyr

add

see corresponding function in dplyr

do_union

logical; should geometries be unioned by using st_union, or simply be combined using st_combine? Using st_union resolves internal boundaries, but in case of unioning points may also change the order of the points.

data

see original function docs

key_col

see original function docs

value_col

see original function docs

gather_cols

see original function docs

na.rm

see original function docs

convert

see original function docs

factor_key

see original function docs

fill

see original function docs

drop

see original function docs

sep

see original function docs

tbl

see original function docs

size

see original function docs

replace

see original function docs

weight

see original function docs

.env

see original function docs

nest_cols

see nest

col
into
remove
extra
from

see unite

by
copy
suffix

Details

select keeps the geometry regardless whether it is selected or not; to deselect it, first pipe through as.data.frame to let dplyr's own select drop it.

Examples

Run this code
# NOT RUN {
library(dplyr)
nc = st_read(system.file("shape/nc.shp", package="sf"))
nc %>% filter(AREA > .1) %>% plot()
# plot 10 smallest counties in grey:
st_geometry(nc) %>% plot()
nc %>% select(AREA) %>% arrange(AREA) %>% slice(1:10) %>% plot(add = TRUE, col = 'grey')
title("the ten counties with smallest area")
nc[c(1:100, 1:10), ] %>% distinct() %>% nrow()
nc$area_cl = cut(nc$AREA, c(0, .1, .12, .15, .25))
nc %>% group_by(area_cl) %>% class()
nc2 <- nc %>% mutate(area10 = AREA/10)
nc %>% transmute(AREA = AREA/10, geometry = geometry) %>% class()
nc %>% transmute(AREA = AREA/10) %>% class()
nc %>% select(SID74, SID79) %>% names()
nc %>% select(SID74, SID79, geometry) %>% names()
nc %>% select(SID74, SID79) %>% class()
nc %>% select(SID74, SID79, geometry) %>% class()
nc2 <- nc %>% rename(area = AREA)
nc %>% slice(1:2)
nc$area_cl = cut(nc$AREA, c(0, .1, .12, .15, .25))
nc.g <- nc %>% group_by(area_cl)
nc.g %>% summarise(mean(AREA))
nc.g %>% summarise(mean(AREA)) %>% plot(col = grey(3:6 / 7))
nc %>% as.data.frame %>% summarise(mean(AREA))
library(tidyr)
nc %>% select(SID74, SID79, geometry) %>% gather(VAR, SID, -geometry) %>% summary()
library(tidyr)
nc$row = 1:100 # needed for spread to work
nc %>% select(SID74, SID79, geometry, row) %>% 
	gather(VAR, SID, -geometry, -row) %>% 
	spread(VAR, SID) %>% head()
# }

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