```
library(ggplot)
library(grid)
library(stringr)
df <- data.frame(x = 1:3, y = 1:3)
df2 <- data.frame(x = c(1,3), y = c(1,3),
xend = c(2,2), yend = c(2,2))
g <- ggplot(df, aes(x, y)) +
geom_point() +
geom_curve(aes(x = x ,y = y,
xend = xend, yend = yend),
data = df2,
color = c("red", "blue"))
g
getCurve_controlPoints <- function(ggplotObject) {
len_layers <- length(ggplotObject$layers)
layerNames <- lapply(seq_len(len_layers),
function(j) {
className <- class(ggplotObject$layers[[j]]$geom)
className[-which(className %in% c("ggproto" ,"gg", "Geom"))]
})
curveLayerId <- which(sapply(layerNames,
function(layerName){
"GeomCurve" %in% layerName
}) == TRUE
)
gg_build <- ggplot_build(ggplotObject)
# you can also add yes or no in your code
# answer <- utils::menu(c("y", "n"), title="Do you want to draw the ggplot?")
grid.draw(ggplotObject)
grid.force()
gridList <- grid.ls(print = FALSE)
gridList.name <- gridList$name
xspline.name <- gridList.name[which(str_detect(gridList.name, "curve") == TRUE)]
xspline.len <- length(xspline.name)
controlPoints <- lapply(seq_len(length(curveLayerId)),
function (j) {
# curve data
curve_data <- gg_build$data[[curveLayerId[j]]]
# avoid duplicated rows
curve_data <- curve_data[!duplicated(curve_data), ]
n <- dim(curve_data)[1]
# here we go! But wait a second, it seems like the starting and ending position do not match
xsplinePoints <- xsplinePoints(grid.get("xspline", grep=TRUE))
# mapping data to our coordinates
control_data <- lapply(seq_len(n),
function(i){
if (n == 1) {
xy <- lapply(xsplinePoints,
function(coord){
as.numeric(coord)
})
} else {
xy <- lapply(xsplinePoints[[i]],
function(coord){
as.numeric(coord)
})
}
x.start <- curve_data[i, ]$x
x.end <- curve_data[i, ]$xend
y.start <- curve_data[i, ]$y
y.end <- curve_data[i, ]$yend
# mapping to ggplot coordinates
xy_x.diff <- xy$x[length(xy$x)] - xy$x[1]
xy_y.diff <- xy$y[length(xy$y)] - xy$y[1]
# maybe there is a better way?
if(xy_x.diff == 0){
xy_x.diff <- 1e-16
}
if(xy_y.diff == 0){
xy_y.diff <- 1e-16
}
x <- (x.end - x.start) / (xy_x.diff) * (xy$x - xy$x[1]) + x.start
y <- (y.end - y.start) / (xy_y.diff) * (xy$y - xy$y[1]) + y.start
list(x = x, y = y)
})
# grid remove
grid.remove(xspline.name[j], redraw = FALSE)
control_data
})
controlPoints
}
controlPoints <- getCurve_controlPoints(g)
# check the points
plot(controlPoints[[1]][[1]]$x, controlPoints[[1]][[1]]$y,
xlim = c(1,3),
ylim = c(1,3),
xlab = "x",
ylab = "y",
pch = 19)
points(controlPoints[[1]][[2]]$x, controlPoints[[1]][[2]]$y, pch = 19)
```

I think it works well so far and the ggplot version I used is **3.0.0**. If you use any version less than **2.2.1**, error may occur.

This idea is suggested by Prof **Paul Murrell**. Perhaps the easiest way to capture the control points of `geom_curve`

? The cons are that `grob`

s(`ggplot`

object) must be drawn at first, since these points are only generated at the drawing time.