In a sense, you have answered your own question.

Assuming you have a set of points, and you use `ahull(...)`

in the `alphahull`

package to generate the convex hull, you can extract the points on the boundary, in the correct order, directly from the `ahull`

object. Here is an example:

```
library(sp)
library(alphahull)
set.seed(1) # for reproducible example
X <- rnorm(100)
Y <- rnorm(100)
plot(X,Y)
XY <- cbind(X,Y)
hull <- ahull(XY,alpha=1)
plot(hull)
# extract the row numbers of the boundary points, in convex order.
indx=hull$arcs[,"end1"]
points <- XY[indx,] # extract the boundary points from XY
points <- rbind(points,points[1,]) # add the closing point
# create the SpatialPolygonsDataFrame
SpP = SpatialPolygons(list(Polygons(list(Polygon(points)),ID="s1")))
plot(SpP)
points(XY)
```

**EDIT** Response to OP's providing their dataset.

`ahull(...)`

seems to fail, without warning, with your dataset - it does not produce any convex hulls. After a bit if experimentation, it looks like the problem has to do with the magnitude of the x,y values. If I divide everything by 1000, it works. No idea what's going one with that (perhaps someone else will provide an insight??). Anyway, here's the code and the result:

```
library(sp)
library(alphahull)
df <- read.csv("ahull problem.csv")
hull <- ahull(df[2:3]/1000,alpha=2)
plot(hull)
# extract the row numbers of the boundary points, in convex order.
indx=hull$arcs[,"end1"]
points <- df[indx,2:3] # extract the boundary points from df
points <- rbind(points,points[1,]) # add the closing point
# create the SpatialPolygonsDataFrame
SpP = SpatialPolygons(list(Polygons(list(Polygon(points)),ID="s1")))
plot(SpP)
points(df[2:3])
```

Note also that `alpha=2`

. Setting `alpha=1`

with this dataset actually generates 2 hulls, one with 1 point and one with all the other points. Setting `alpha=2`

creates 1 hull.

`spatstat`

to see if they have any relevant tools? I know it has tests like`crossing.psp`

but I'd hate to have to exhaustively test all segment pairs. – Carl Witthoft Jun 10 at 15:18