Row-wise manipulation on large dataset

I am looking for a faster way to achieve the operation below. The dataset contains > 1M rows but I have provided a simplified example to illustrate the task --

``````To create the data table --

dt <- data.table(name=c("john","jill"), a1=c(1,4), a2=c(2,5), a3=c(3,6),
b1=c(10,40), b2=c(20,50), b3=c(30,60))

colGroups <- c("a","b")   # Columns starting in "a", and in "b"

Original Dataset
-----------------------------------
name    a1   a2   a3   b1   b2   b3
john    1    2    3    10   20   30
jill    4    5    6    40   50   60
``````

The above dataset is transformed such that 2 new rows are added for each unique name and in each row, the values are left shifted for each group of columns independently (in this example I have used a columns and b columns but there are many more)

``````Transformed Dataset
-----------------------------------
name    a1   a2   a3   b1   b2   b3
john    1    2    3    10   20   30  # First Row for John
john    2    3    0    20   30    0  # "a" values left shifted, "b" values left shifted
john    3    0    0    30   0     0  # Same as above, left-shifted again

jill    4    5    6    40   50   60  # Repeated for Jill
jill    5    6    0    50   60    0
jill    6    0    0    60    0    0
``````

And so on. My dataset is extremely large, which is why I am trying to see if there is an efficient way to implement this.

Thanks in advance.

-
What have you tried so far? –  Metrics Oct 3 '13 at 21:55
Is there a fixed number of columns per `columnGroup`? Or does that value vary by column group? –  Ricardo Saporta Oct 3 '13 at 22:08
@Ricardo Saporta - Fixed number of columns per column group –  xbsd Oct 3 '13 at 22:46
Hey Look!! It's @Arun! Welcome back bud! –  Ricardo Saporta Oct 3 '13 at 23:07
@RicardoSaporta, on vacation.. managed to sneak in for a while.. :) –  Arun Oct 3 '13 at 23:11

3 Answers

Update: A (much) faster solution would be to play with the indices as follows (takes about 4 seconds on 1e6*7):

``````ll <- vector("list", 3)
ll[[1]] <- copy(dt[, -1, with=FALSE])
d_idx <- seq(2, ncol(dt), by=3)
for (j in 1:2) {
tmp <- vector("list", 2)
for (i in seq_along(colGroups)) {
idx <- ((i-1)*3+2):((i*3)+1)
tmp[[i]] <- cbind(dt[, setdiff(idx, d_idx[i]:(d_idx[i]+j-1)),
with=FALSE], data.table(matrix(0, ncol=j)))
}
ll[[j+1]] <- do.call(cbind, tmp)
}
ans <- cbind(data.table(name=dt\$name), rbindlist(ll))
setkey(ans, name)
``````

First attempt (old): Very interesting problem. I'd approach it using `melt.data.table` and `dcast.data.table` (from 1.8.11) as follows:

``````require(data.table)
require(reshape2)
# melt is S3 generic, calls melt.data.table, returns a data.table (very fast)
ans <- melt(dt, id=1, measure=2:7, variable.factor=FALSE)[,
grp := rep(colGroups, each=nrow(dt)*3)]
setkey(ans, name, grp)
ans <- ans[, list(variable=c(variable, variable[1:(.N-1)],
variable[1:(.N-2)]), value=c(value, value[-1],
value[-(1:2)]), id2=rep.int(1:3, 3:1)), list(name, grp)]
# dcast in reshape2 is not yet a S3 generic, have to call by full name
ans <- dcast.data.table(ans, name+id2~variable, fill=0L)[, id2 := NULL]
``````

Benchmarking on 1e6 rows with same number of columns:

``````require(data.table)
require(reshape2)
set.seed(45)
N <- 1e6
dt <- cbind(data.table(name=paste("x", 1:N, sep="")),
matrix(sample(10, 6*N, TRUE), nrow=N))
setnames(dt, c("name", "a1", "a2", "a3", "b1", "b2", "b3"))
colGroups = c("a", "b")

system.time({
ans <- melt(dt, id=1, measure=2:7, variable.factor=FALSE)[,
grp := rep(colGroups, each=nrow(dt)*3)]
setkey(ans, name, grp)
ans <- ans[, list(variable=c(variable, variable[1:(.N-1)],
variable[1:(.N-2)]), value=c(value, value[-1],
value[-(1:2)]), id2=rep.int(1:3, 3:1)), list(name, grp)]
ans <- dcast.data.table(ans, name+id2~variable, fill=0L)[, id2 := NULL]

})

#   user  system elapsed
# 45.627   2.197  52.051
``````
-
Works fine here, just tried ... did you load dt and colGroups –  xbsd Oct 4 '13 at 0:52
@Arun - thanks, it is very fast indeed. My actual table has ~ 40 groups and 9 columns per group, will try it out on the same. –  xbsd Oct 4 '13 at 0:55
I was testing on 1.8.10, so I was getting `ans` as a d.f instead of d.t –  Ricardo Saporta Oct 4 '13 at 0:56
ah i c. Just to add some more context (lest this seems like an odd exercise), the operation above is required to prepare a time-series table with lagged predictors to measure seasonal variations using ML algorithms (the colGroups are time intervals). Thanks for the help. –  xbsd Oct 4 '13 at 1:04
@xbsd, you may want to check the update. –  Arun Oct 4 '13 at 9:37

You can append the rows and then shift up the columns in groups. Since the total number of columns per group is fixed, you iterate over each group number.

``````## Add in the extra rows
dt <- dt[, rbindlist(rep(list(.SD), 3)), by=name]

### ASSUMING A FIXED NUMBER PER COLGROUP
N <- 3

colsShifting <- as.vector(sapply(colGroups, paste0, 2:N))

for (i in (2:N)-1 ) {
current <- colsShifting[ (i) +  ( (N-1) * (seq_along(colGroups)-1) )]
dt[, c(current) := {
.NN <- .N;
.CROP <- .SD[1:(.NN-i)]  ## These lines are only for clean code. You can put it all into the `rbindlist` line
rbindlist(list(.CROP, as.data.table(replicate(ncol(.SD), rep(0, i),simplify=FALSE ))))
}
, .SDcols=current
, by=name]
}
``````

which gives:

``````dt
#     name a1 a2 a3 b1 b2 b3
#  1: john  1  2  3 10 20 30
#  2: john  1  2  0 10 20  0
#  3: john  1  0  0 10  0  0
#  4: jill  4  5  6 40 50 60
#  5: jill  4  5  0 40 50  0
#  6: jill  4  0  0 40  0  0
``````
-

Just an edit of @Arun (s) code for the chosen answer. Providing here as I cannot post in the comments section.

``````#Parameterized version of @Arun (author) code (in the selected answer)

#Shifting Columns in R
#--------------------------------------------
N = 5  # SET - Number of unique names
set.seed(5)
colGroups <- c("a","b") # ... (i) # SET colGroups
totalColsPerGroup <- 10 # SET Cols Per Group
numColsToLeftShift <- 8 # SET Cols to Shift

lenColGroups <- length(colGroups) # ... (ii)

# From (i) and (ii)
totalCols = lenColGroups * totalColsPerGroup

dt <- cbind(data.table(name=paste("x", 1:N, sep="")),
matrix(sample(5, totalCols*N, TRUE), nrow=N)) # Change 5 if needed

ll <- vector("list", numColsToLeftShift)
ll[[1]] <- copy(dt[, -1, with=FALSE])
d_idx <- seq(2, ncol(dt), by=totalColsPerGroup)
for (j in 1:(numColsToLeftShift)) {
tmp <- vector("list", 2)
for (i in seq_along(colGroups)) {
idx <- ((i-1)*totalColsPerGroup+2):((i*totalColsPerGroup)+1) #OK
tmp[[i]] <- cbind(dt[, setdiff(idx, d_idx[i]:(d_idx[i]+j-1)),
with=FALSE], data.table(matrix(0, ncol=j)))

}
ll[[j+1]] <- do.call(cbind, tmp)

}
ans <- cbind(data.table(name=dt\$name), rbindlist(ll))
setkey(ans, name)
``````

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