# Efficiently locate group-wise constant columns in a data.frame

How can I efficiently extract group-wise constant columns from a data frame? I've included an plyr implementation below to make precise what I'm trying to do, but it's slow. How can I do it as efficiently as possible? (Ideally without splitting the data frame at all).

base <- data.frame(group = 1:1000, a = sample(1000), b = sample(1000))
df <- data.frame(
base[rep(seq_len(nrow(base)), length = 1e6), ],
c = runif(1e6),
d = runif(1e6)
)

is.constant <- function(x) length(unique(x)) == 1
constant_cols <- function(x) head(Filter(is.constant, x), 1)
system.time(constant <- ddply(df, "group", constant_cols))
#   user  system elapsed
# 20.531   1.670  22.378
stopifnot(identical(names(constant), c("group", "a", "b")))
stopifnot(nrow(constant) == 1000)

In my real use case (deep inside ggplot2) there may be an arbitrary number of constant and non-constant columns. The size of the data in the example is about the right order of magnitude.

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You are already doing better than any pure-R implementation by using plyr. IMHO you can only do better by sorting the df by group (quite fast) and then scanning for breaks in C code. –  Simon Urbanek Dec 27 '11 at 19:31
@Simon I'm doing better than any row based solution with plyr - I feel like there should be a cunning column based solution though. –  hadley Dec 28 '11 at 15:04

(Edited to possibly address the issue of consecutive groups with the same value)

I'm tentatively submitting this answer, but I haven't completely convinced myself that it will correctly identify within group constant columns in all cases. But it's definitely faster (and can probably be improved):

constant_cols1 <- function(df,grp){
df <- df[order(df[,grp]),]

#Adjust values based on max diff in data
rle_group <- rle(df[,grp])
vec <- rep(rep(c(0,ceiling(diff(range(df)))),
length.out = length(rle_group\$lengths)),
times = rle_group\$lengths)
m <- matrix(vec,nrow = length(vec),ncol = ncol(df)-1)
df_new <- df
df_new[,-1] <- df[,-1] + m

rles <- lapply(df_new,FUN = rle)
nms <- names(rles)
tmp <- sapply(rles[nms != grp],
FUN = function(x){identical(x\$lengths,rles[[grp]]\$lengths)})
return(tmp)
}

My basic idea was to use rle, obviously.

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Hmmm, I think that won't work for if the value is the same across multiple groups (so e.g. length would be 2000). Really interesting approach though –  hadley Dec 27 '11 at 17:44
@hadley Drat, you're right. –  joran Dec 27 '11 at 17:59
I think it should be easier to fix in my approach that works similarly to yours but uses logical vectors –  hadley Dec 27 '11 at 18:14

I'm not sure if this is exactly what you are looking for, but it identifies columns a and b.

require(data.table)
is.constant <- function(x) identical(var(x), 0)
dtOne <- data.table(df)
system.time({dtTwo <- dtOne[, lapply(.SD, is.constant), by=group]
result <- apply(X=dtTwo[, list(a, b, c, d)], 2, all)
result <- result[result == TRUE] })
stopifnot(identical(names(result), c("a", "b")))
result
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Unfortunately I'm trying to do it with as few external dependencies as possible, but this does give a time to aim for: 0.5 s on my computer. –  hadley Dec 27 '11 at 21:43
I tried doing the same thing with aggregate and by and they were about 10 and 18 seconds resepctively instead of the 0.3 seconds data.table took. –  Jared Dec 28 '11 at 3:53
yes, because a big bottleneck is subsetting data frames - it's slow because it creates a copy. Data tables don't do that, so it's fast. –  hadley Dec 28 '11 at 15:01
What about using your idata.frame? –  Jared Jan 4 '12 at 20:02

is.constant<-function(x) length(which(x==x[1])) == length(x)

This seems to be a nice improvement. Compare the following.

> a<-rnorm(5000000)

> system.time(is.constant(a))
user  system elapsed
0.039   0.010   0.048
>
> system.time(is.constantOld(a))
user  system elapsed
1.049   0.084   1.125
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Ah, but inserting that in your old code, the is.constant doesn't seem to be the bottleneck. Hrm... Still, every bit helps, eh? –  jebyrnes Dec 27 '11 at 17:26
I would have thought is.constant <- function(x) !any(x[1] != x) would be even better. But you're right that this is not the bottleneck - it's the splitting and combining of the data frames that's slow. –  hadley Dec 27 '11 at 17:29

A bit slower than what hadley suggested above, but I think it should handle the case of equal adjacent groups

findBreaks <- function(x) cumsum(rle(x)\$lengths)

constantGroups <- function(d, groupColIndex=1) {
d <- d[order(d[, groupColIndex]), ]
breaks <- lapply(d, findBreaks)
groupBreaks <- breaks[[groupColIndex]]
numBreaks <- length(groupBreaks)
isSubset <- function(x) length(x) <= numBreaks && length(setdiff(x, groupBreaks)) == 0
unlist(lapply(breaks[-groupColIndex], isSubset))
}

The intuition is that if a column is constant groupwise then the breaks in the column values (sorted by the group value) will be a subset of the breaks in the group value.

Now, compare it with hadley's (with small modification to ensure n is defined)

# df defined as in the question

n <- nrow(df)
changed <- function(x) c(TRUE, x[-1] != x[-n])

constant_cols2 <- function(df,grp){
df <- df[order(df[,grp]),]
changes <- lapply(df, changed)
vapply(changes[-1], identical, changes[[1]], FUN.VALUE = logical(1))
}

> system.time(constant_cols2(df, 1))
user  system elapsed
1.779   0.075   1.869
> system.time(constantGroups(df))
user  system elapsed
2.503   0.126   2.614
> df\$f <- 1
> constant_cols2(df, 1)
a     b     c     d     f
TRUE  TRUE FALSE FALSE FALSE
> constantGroups(df)
a     b     c     d     f
TRUE  TRUE FALSE FALSE  TRUE
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Nice! I think it's possible to adapt my version to use the same strategy as yours, so it can stay a little faster. –  hadley Dec 28 '11 at 15:03
Just adapted by answer to use the same line of thinking as yours, but with logical vectors. Thanks! –  hadley Dec 28 '11 at 15:18

Inspired by @Joran's answer, here's similar strategy that's a little faster (1 s vs 1.5 s on my machine)

changed <- function(x) c(TRUE, x[-1] != x[-n])

constant_cols2 <- function(df,grp){
df <- df[order(df[,grp]),]
n <- nrow(df)
changes <- lapply(df, changed)

vapply(changes[-1], identical, changes[[1]], FUN.VALUE = logical(1))
}
system.time(cols <- constant_cols2(df, "group")) # about 1 s

system.time(constant <- df[changed(df\$group), cols])
#   user  system elapsed
#  1.057   0.230   1.314

stopifnot(identical(names(constant), c("group", "a", "b")))
stopifnot(nrow(constant) == 1000)

It has the same flaws though, in that it won't detect columns that are have the same values for adjacent groups (e.g. df\$f <- 1)

With a bit more thinking plus @David's ideas:

constant_cols3 <- function(df, grp) {
# If col == TRUE and group == FALSE, not constant
matching_breaks <- function(group, col) {
!any(col & !group)
}

n <- nrow(df)
changed <- function(x) c(TRUE, x[-1] != x[-n])

df <- df[order(df[,grp]),]
changes <- lapply(df, changed)
vapply(changes[-1], matching_breaks, group = changes[[1]],
FUN.VALUE = logical(1))
}

system.time(x <- constant_cols3(df, "group"))
#   user  system elapsed
#  1.086   0.221   1.413

And that gives the correct result.

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It just occurred to me that you might be able to solve the same values in adjacent groups problem by adding a 0:1 vector to each column that repeats along with group prior to doing rle. –  joran Dec 27 '11 at 20:27
Hmmm, seems to be even faster if instead of sorting the data frame, I sort the individual columns as I compute the changes. –  hadley Dec 28 '11 at 15:27

How fast does is.unsorted(x) fail for non-constant x? Sadly I don't have access to R at the moment. Also seems that's not your bottleneck though.

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