ddbs_affine: Apply an affine transformation to geometries
In duckspatial: R Interface to 'DuckDB' Database with Spatial Extension

ddbs_affine

R Documentation

Apply an affine transformation to geometries

Description

Applies an affine transformation to geometries using a 2x3 or 3x4 matrix.

Usage

ddbs_affine(
  x,
  matrix,
  conn = NULL,
  name = NULL,
  mode = NULL,
  overwrite = FALSE,
  quiet = FALSE
)

Arguments

`x`	Input spatial data. Can be: A `duckspatial_df` object (lazy spatial data frame via dbplyr) An `sf` object A `tbl_lazy` from dbplyr A character string naming a table/view in `conn` Data is returned from this object.
`matrix`	A numeric matrix specifying the transformation: 2x3: 2D transformation with rows `[a, b, xoff]` and `[d, e, yoff]` 3x4: 3D transformation with rows `[a, b, c, xoff]`, `[d, e, f, yoff]`, and `[g, h, i, zoff]`
`conn`	A connection object to a DuckDB database. If `NULL`, the function runs on a temporary DuckDB database.
`name`	A character string of length one specifying the name of the table, or a character string of length two specifying the schema and table names. If `NULL` (the default), the function returns the result as an `sf` object
`mode`	Character. Controls the return type. Options: `"duckspatial"` (default): Lazy spatial data frame backed by dbplyr/DuckDB `"sf"`: Eagerly collected sf object (uses memory) Can be set globally via `ddbs_options(mode = "...")` or per-function via this argument. Per-function overrides global setting.
`overwrite`	Boolean. whether to overwrite the existing table if it exists. Defaults to `FALSE`. This argument is ignored when `name` is `NULL`.
`quiet`	A logical value. If `TRUE`, suppresses any informational messages. Defaults to `FALSE`.

Value

Depends on the mode argument (or global preference set by ddbs_options):

duckspatial (default): A duckspatial_df (lazy spatial data frame) backed by dbplyr/DuckDB.
sf: An eagerly collected object in R memory, that will return the same data type as the sf equivalent (e.g. sf or units vector).

When name is provided, the result is also written as a table or view in DuckDB and the function returns TRUE (invisibly).

Examples

## Not run: 
## load package
library(duckspatial)

## read data
argentina_ddbs <- ddbs_open_dataset(
  system.file("spatial/argentina.geojson",
  package = "duckspatial")
)

## 2D translation (shift x by 1, y by 2)
mat_2d <- matrix(c(1, 0, 1,
                   0, 1, 2), nrow = 2, byrow = TRUE)
ddbs_affine(argentina_ddbs, mat_2d)

## 2D scaling (scale x by 2, y by 3)
mat_scale <- matrix(c(2, 0, 0,
                      0, 3, 0), nrow = 2, byrow = TRUE)
ddbs_affine(argentina_ddbs, mat_scale)

## 3D transformation
mat_3d <- matrix(c(1, 0, 0, 1,
                   0, 1, 0, 2,
                   0, 0, 1, 0), nrow = 3, byrow = TRUE)
ddbs_affine(argentina_ddbs, mat_3d)

## End(Not run)

duckspatial documentation built on June 22, 2026, 9:08 a.m.