# Draw a quadratic spline through points in lattice

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Based on this great question: How to draw a smooth curve passing through some points

How would one do this in lattice?

``````plot(rnorm(120), rnorm(120), col="darkblue", pch=16, xlim=c(-3,3), ylim=c(-4,4))
points(rnorm(120,-1,1), rnorm(120,2,1), col="darkred", pch=16)
points(c(-1,-1.5,-3), c(4,2,0), pch=3, cex=3)
xspline(c(-1,-1.5,-3), c(4,2,0), shape = -1)
``````

Here is similar data, formatted more appropriately for a `lattice` plot:

``````dat <- data.frame(x=c(rnorm(120), rnorm(120,-1,1)),
y=c(rnorm(120), rnorm(120,2,1)),
l=factor(rep(c('B','R'),each=120))
)
spl <- data.frame(x=c(-1,-1.5,-3),
y=c(4,2,0)
)
``````

And here is what the linked question gave, translated to `lattice`:

``````xyplot(y ~ x,
data=dat,
groups=l,
col=c("darkblue", "darkred"),
pch=16,
panel = function(x, y, ...) {
panel.xyplot(x=spl\$x, y=spl\$y, pch=3, cex=3)
## panel.spline(x=spl\$x, y=spl\$y)              ## Gives an error, need at least four 'x' values
panel.superpose(x, y, ...,
panel.groups = function(x, y, ...) {
panel.xyplot(x, y, ...)
}
)
},
xlim=c(-3,3), ylim=c(-4,4)
)
``````

-
This question is producing some great answers. One of the tricky things in 'lattice' plotting is how one properly annotates existing plots. There are a variety of techniques that can be applied within the original function or to overly existing functions. – DWin Jan 13 at 20:30
Whether or not you adopt the specific implementation in my answer below, the `grid.xspline()` function will likely come in handy... – Josh O'Brien Jan 14 at 2:32
@JoshO'Brien Indeed, `grid.xspline()` works for the plain `lattice` code as well. – Matthew Lundberg Jan 14 at 2:40
@MatthewLundberg I added a `ggplot2` solution using `grid.xspline()`. – agstudy Jan 14 at 10:48

Here's a line-for line 'translation' of the base graphics solution into lattice. (The directness of the translation is made possible by the `+` operator supplied by the latticeExtra package. See `?layer` for details of its usage.)

The final line invokes `grid.xspline()`, an exact grid analogue of the base graphic function `xspline()`.

``````library(lattice)
library(grid)
library(latticeExtra)

xyplot(rnorm(120)~rnorm(120), pch=16, col="darkblue",
xlim = c(-3.1, 3.1), ylim = c(-4.1, 4.1)) +
xyplot(rnorm(120,2,1) ~ rnorm(120,-1,1), pch=16, col="darkred") +
xyplot(c(4,2,0) ~ c(-1,-1.5,-3), pch=3, cex=3) +
layer(grid.xspline(c(-1,-1.5,-3), c(4,2,0), shape = -1, default.units="native"))
``````

(One peculiar detail of grid does pop up in the final line above: like several other of its low-level line-drawing functions, `grid.xspline()` defaults to `"npc"` units instead of the usually-desired `"native"` units used as defaults by `grid.points()` and many other `grid.*()` functions. Obviously that's easy enough to change --- once you're aware of it!)

-
 `latticeExtra` is something that I haven't used. I'll investigate it, although I prefer the "callback" nature of `lattice` as it is. – Matthew Lundberg Jan 14 at 2:38 Love that grid-iffied answer! – DWin Jan 14 at 2:47 +1 for this great answer! I am pretty sure that this can be generalized to any base graphic mathematical|statistical|graphical function.I mean every time you need something in base you find the homologous in grid. – agstudy Jan 14 at 8:40 @agstudy -- Not sure if that's strictly true, but yeah, I've found it to be so every time I've needed it. It helps a lot that Paul Murrel (bless him) has been so deeply involved in implementing both the base and grid graphical systems! – Josh O'Brien Jan 14 at 13:27 @DWin Thanks! The only tricky part was having to reset the `default.units` of `grid.xspline()`, a grid oddity that has bit folks before. (I've now added a mention of that to my answer.) – Josh O'Brien Jan 14 at 13:37

This is a little bit tricky but works.

``````plot(rnorm(120), rnorm(120), col="darkblue", pch=16, xlim=c(-3,3), ylim=c(-4,4))
points(rnorm(120,-1,1), rnorm(120,2,1), col="darkred", pch=16)
points(c(-1,-1.5,-3), c(4,2,0), pch=3, cex=3)
``````

I use `xspline` without producing the draw

``````dd <- xspline(c(-1,-1.5,-3), c(4,2,0), shape = -1,draw=FALSE)
``````

Then I use the points produced witn `panel.lines`

``````library(lattice)
xyplot(y ~ x,
data=dat,
groups=l,
col=c("darkblue", "darkred"),
pch=16,
panel = function(x, y, ...) {
panel.xyplot(x=spl\$x, y=spl\$y, pch=3, cex=3)
panel.lines(dd\$x,dd\$y)
panel.superpose(x, y, ...,
panel.groups = function(x, y, ...) {
panel.xyplot(x, y, ...)
}
)
},
xlim=c(-3,3), ylim=c(-4,4)
)
``````

-
 Nice solution, but I don't like that it requires the base plotting functions to work. – Matthew Lundberg Jan 13 at 16:46 @MatthewLundberg Thanks. But why ? I am curious. because it generates the base plots? Does a wrapper to xspline where I call basic plot (in "invisible" manner) is an acceptable solution for you ? – agstudy Jan 13 at 16:53 I'm looking to avoid base graphics functions. If I don't get anything better than my own answer, I'll accept this simply because it does work. – Matthew Lundberg Jan 13 at 17:28 I don't think agstudy's answer actually depends on the preceding `plot` or `points` calls. It succeeds by just starting with the assignment to `dd`. – DWin Jan 13 at 21:19 @DWin Sorry for my poor english. I didn't understand exactly your comment. have i to change something in my answer? – agstudy Jan 13 at 21:40
show 2 more comments

I finally found a solution to this, based on the answer to this question: Quadratic spline

Using package `splines`

Replace `panel.splines(`...`)` (commented out above) with this code:

``````         local({
model <- lm(y ~ bs(x, degree=2), data=spl)
x0 <- seq(min(spl\$x), max(spl\$x), by=.1)
panel.lines(x0, predict(model, data.frame(x=x0)))
})
``````

From Josh O'Brien's excellent suggestion, `grid.xspline()` can replace the commented-out `panel.splines(`...`)` line, resulting in the exact plot as in the base question, linked above (except for the margins):

``````         grid.xspline(spl\$x, spl\$y, shape = -1, default.units="native")
``````

-
 If you are satisfied with your solution you can accept it :) – agstudy Jan 13 at 18:04 @agstudy it's not very readable, and besides, there's no percentage in accepting my own answer. – Matthew Lundberg Jan 13 at 18:23 Wow. You got that answer from the answer or comments to the cited link. Y'er a better man than I. – DWin Jan 13 at 20:26 @DWin Specifically, Josh's answer. – Matthew Lundberg Jan 13 at 21:00

This is not a solution, by an attempt to use Josh solution with `grid.xspline` in `ggplot2`. I think it is interesting to get a parallel between ggplot2/lattice.

``````## prepare the data
dat <- data.frame(x=c(rnorm(120), rnorm(120,-1,1)),
y=c(rnorm(120), rnorm(120,2,1)),
l=factor(rep(c('B','R'),each=120))
)
spl <- data.frame(x=c(-2,-1.5,-3),
y=c(4,2,0)
)
## prepare the scatter plot
library(ggplot(2))
p <- ggplot(data=dat,aes(x=x,y=y,color=l))+
geom_point()+
geom_point(data=spl,aes(x=x,y=y),color='darkred',size=5)
library(grid)
ff <- ggplot_build(p)
``````

My idea is to use the scales generated by ggplot2, to create the spline in the same panel than the scatterplot. Personally I find this tricky, and I hope that someone comes with a better solution.

``````xsp.grob <- xsplineGrob(spl\$x, spl\$y,
vp=viewport(xscale =ff\$panel\$ranges[[1]]\$x.range,
yscale = ff\$panel\$ranges[[1]]\$y.range),
shape = -1, default.units="native")
p
``````
-

Here is a variation of a spline panel from Deepayan Sarkar

``````panel.smooth.spline <-  function(x, y,
w=NULL, df, spar = NULL, cv = FALSE,
lwd=plot.line\$lwd, lty=plot.line\$lty,col,
col.line=plot.line\$col,type, ... )
{
x <- as.numeric(x)
y <- as.numeric(y)
ok <- is.finite(x) & is.finite(y)
if (sum(ok) < 1)
return()
if (!missing(col)) {
if (missing(col.line))
col.line <- col
}
plot.line <- trellis.par.get("plot.line")
spline <-   smooth.spline(x[ok], y[ok],
w=w, df=df, spar = spar, cv = cv)
pred = predict(spline,x= seq(min(x),max(x),length.out=150))
panel.lines(x = pred\$x, y = pred\$y, col = col.line,
lty = lty, lwd = lwd, ...)
panel.abline(h=y[which.min(x)],col=col.line,lty=2)
}
``````
-
 This may solve the problem that I actually want to solve, but doesn't work for the example: `Error using packet 1 need at least 4 unique 'x' values` -- as does `panel.spline`. – Matthew Lundberg Jan 13 at 16:16