# Given a vector c(a1, a2, a3), how to generate c(a1, a2, a3, a2, a3, a3) in R?

The question has been explained by the title. In my problem, the vector is quite long, approximately 1,500. One way I was trying is to generate matrix as follows,

Roughly speaking, this matrix `rbind` three diagonal matrices, `diag(1, 3)`, `diag(1,2)` and `diag(1,1)`. But these matrices have different number of columns. Hence `rbind` does not apply here. Is there any efficient way to solve this problem.

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## 5 Answers

``````vec <- 1:4
n <- length(vec)
as.vector(rev(setNames(vec, n:1)[as.character(sequence(1:n))]))
# [1] 1 2 3 4 2 3 4 3 4 4
``````

A couple of tricks here; `as.vector` is unnecessary, it just omits vector names.

``````Tyler <- function() do.call(rbind, mapply(compile, rows, nums, lst))
Julius <- function() as.vector(rev(setNames(vec, n:1)[as.character(sequence(1:n))]))

# Vector of length 3
# Unit: microseconds
#      expr     min      lq  median      uq      max neval
#   Tyler() 144.183 148.383 151.649 155.382 2241.617  1000
#  Julius()  73.724  76.058  80.724  82.590  276.236  1000

# Vector of length 1500
# Unit: seconds
#      expr    min       lq   median       uq      max neval
#  Julius() 1.2181 1.270544 1.469416 1.506019 1.518471    10
# (list of 1500 diagonal matrices took too much memory, couldn't compare)
``````

Edit.

``````JuliusTwo <- function() rev(vec[n + 1 - sequence(1:n)])

vec <- 1:3
n <- length(vec)
microbenchmark(Julius(), JuliusTwo(), times = 1000)
# Unit: microseconds
#         expr    min     lq median     uq      max neval
#     Julius() 72.326 75.125 76.525 78.392  259.905  1000
#  JuliusTwo() 49.461 51.794 53.194 54.595 1950.450  1000

vec <- 1:1500
n <- length(vec)
microbenchmark(Julius(), JuliusTwo(), Henrik(x2), times = 10)
# Unit: milliseconds
#         expr       min        lq   median        uq       max neval
#     Julius() 1497.9588 1499.9438 1547.660 1582.0843 1590.2048    10
#  JuliusTwo()  157.0313  157.9193  177.682  200.7433  214.9415    10
#   Henrik(x2) 4639.1891 6157.247 7178.9953 7350.8146 7640.8685    10

Matthew <- function() {m <- matrix(rep(vec, n), n);m[lower.tri(m, diag=TRUE)]}
microbenchmark(JuliusTwo(), Matthew(), Arun(vec), times = 100)
# Unit: milliseconds
#         expr       min        lq    median        uq       max neval
#  JuliusTwo() 113.25630 121.69106 126.16566 150.42730 237.51304   100
#    Matthew() 119.59806 126.87538 152.28000 157.42816 415.27231   100
#    Arun(vec)  32.93695  37.78204  40.99725  43.19757  98.69791   100
``````
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Very clean answer, +1! –  Henrik Oct 27 '13 at 19:33
Very nice. I was thinking constructing a simple triplet may also work pretty fast but this seems to do the trick quickly +1 –  Tyler Rinker Oct 27 '13 at 19:56
@Henrik, no, only the last two lines. –  Julius Oct 27 '13 at 20:34
@Julius. OK! Suppose the first step is negligible in comparison to the rest of the machinery anyway... Cheers. –  Henrik Oct 27 '13 at 20:35
@Julius +1. Also, try this: `Arun <- function(x) x[sequence(n:1) + rep.int(0:(n-1), n:1)]` –  Arun Oct 27 '13 at 23:05

You can also do this pretty simply with `lower.tri`.

``````vec <- 1:4
m <- matrix(rep(vec, length(vec)), length(vec))
m[lower.tri(m, diag=TRUE)]
# [1] 1 2 3 4 2 3 4 3 4 4
``````

This a little bit slower than @Julius' clever answer. See his for benchmarks.

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It should probably be `matrix(rep(vec, length(vec)), length(vec))`. –  Julius Oct 27 '13 at 20:36
@Julius thanks, fixed. –  Matthew Plourde Oct 27 '13 at 20:41

I don't know about efficient but here's the solution I used:

``````lst <- list(
diag(1, 3),
diag(1,2) ,
diag(1,1)
)

cols <- sapply(lst, ncol)
mcol <- max(cols)
rows <- sapply(lst, nrow)
nums <- (mcol - cols)*rows

compile <- function(x, y, z) {
if (y == 0) return(z)
cbind(matrix(rep(0, y), nrow = x), z)
}

do.call(rbind, mapply(compile, rows, nums, lst))

#'      [,1] [,2] [,3]
#' [1,]    1    0    0
#' [2,]    0    1    0
#' [3,]    0    0    1
#' [4,]    0    1    0
#' [5,]    0    0    1
#' [6,]    0    0    1
``````
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Several nice solutions already. Still, I give it a try with a `zoo` alternative:

``````library(zoo)

# the vector
x1 <- c("a1", "a2", "a3")
n <- length(x1)

# convert to zoo object
x2 <- zoo(x1)

# lag the vector with a vector of lags
x3 <- lag(x2, k = seq(from = 0, by = 1, length.out = n))

# convert back to vector
na.omit(as.vector(x3))
# [1] "a1" "a2" "a3" "a2" "a3" "a3"
``````
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Cool! Didn't know that `k` in `lag` works with vectors as well. –  cryo111 Oct 27 '13 at 19:36

Iterative solution

``````seq_generator=function(vec) if (length(vec)-1>0) c(vec,seq_generator(vec[-1])) else tail(vec,1)
seq_generator(1:4)
``````
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maybe not efficient due to recursion –  cryo111 Oct 27 '13 at 19:23
Jupp! Just checked it: Is relatively slow for larger vectors. Call stack gets probably too large. :) Up to lengths of 500 it's ok, however... –  cryo111 Oct 27 '13 at 19:30