Awesome
<!-- README.md is generated from README.Rmd. Please edit that file -->wk
<!-- badges: start --> <!-- badges: end -->The goal of wk is to provide lightweight R, C, and C++ infrastructure for a distributed ecosystem of packages that operate on collections of coordinates. First, wk provides vector classes for points, circles, rectangles, well-known text (WKT), and well-known binary (WKB). Second, wk provides a C API and set of S3 generics for event-based iteration over vectors of geometries.
Installation
You can install the released version of wk from CRAN with:
install.packages("wk")
You can install the development version from GitHub with:
# install.packages("remotes")
remotes::install_github("paleolimbot/wk")
If you can load the package, you’re good to go!
library(wk)
Vector classes
Use wkt()
to mark a character vector as containing well-known text, or
wkb()
to mark a vector as well-known binary. Use xy()
, xyz()
,
xym()
, and xyzm()
to create vectors of points, and rct()
to create
vectors of rectangles. These classes have full
vctrs support and plot()
/format()
methods
to make them as frictionless as possible working in R and RStudio.
wkt("POINT (30 10)")
#> <wk_wkt[1]>
#> [1] POINT (30 10)
as_wkb(wkt("POINT (30 10)"))
#> <wk_wkb[1]>
#> [1] <POINT (30 10)>
xy(1, 2)
#> <wk_xy[1]>
#> [1] (1 2)
rct(1, 2, 3, 4)
#> <wk_rct[1]>
#> [1] [1 2 3 4]
crc(0, 0, 1)
#> <wk_crc[1]>
#> [1] [0 0, r = 1]
Generics
The wk package is made up of readers, handlers, and filters. Readers
parse the various formats supported by the wk package, handlers
calculate values based on information from the readers (e.g.,
translating a vector of geometries into another format), and filters
transform information from the readers (e.g., transforming coordinates)
on the fly. The wk_handle()
and wk_translate()
generics power
operations for many geometry vector formats without having to explicitly
support each one.
C API
The distributed nature of the wk framework is powered by a ~100-line header describing the types of information that parsers typically encounter when reading geometries and the order in which that information is typically organized. Detailed information is available in the C and C++ API article.
wk_debug(
as_wkt("LINESTRING (1 1, 2 2, 3 3)"),
wkt_format_handler(max_coords = 2)
)
#> initialize (dirty = 0 -> 1)
#> vector_start: <Unknown type / 0>[1] <0x16d75aac0> => WK_CONTINUE
#> feature_start (1): <0x16d75aac0> => WK_CONTINUE
#> geometry_start (<none>): LINESTRING[UNKNOWN] <0x16d75a950> => WK_CONTINUE
#> coord (1): <0x16d75a950> (1.000000 1.000000) => WK_CONTINUE
#> coord (2): <0x16d75a950> (2.000000 2.000000) => WK_ABORT_FEATURE
#> vector_end: <0x16d75aac0>
#> deinitialize
#> [1] "LINESTRING (1 1, 2 2..."
sf support
The wk package implements a reader and writer for sfc objects so you can
use them wherever you’d use an xy()
, rct()
, crc()
, wkb()
, or
wkt()
:
wk_debug(
sf::st_sfc(sf::st_linestring(rbind(c(1, 1), c(2, 2), c(3, 3)))),
wkt_format_handler(max_coords = 2)
)
#> initialize (dirty = 0 -> 1)
#> vector_start: LINESTRING B[1] <0x16d75dac8> => WK_CONTINUE
#> feature_start (1): <0x16d75dac8> => WK_CONTINUE
#> geometry_start (<none>): LINESTRING[3] <0x16d75da10> => WK_CONTINUE
#> coord (1): <0x16d75da10> (1.000000 1.000000) => WK_CONTINUE
#> coord (2): <0x16d75da10> (2.000000 2.000000) => WK_ABORT_FEATURE
#> vector_end: <0x16d75dac8>
#> deinitialize
#> [1] "LINESTRING (1 1, 2 2..."
Lightweight
The wk package has zero dependencies and compiles in ~10 seconds.