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I would like to do the following:

combine into a data frame, two vectors that

  • have different length
  • contain sequences found also in the other vector
  • contain sequences not found in the other vector
  • sequences that are not found in other vector are never longer than 3 elements
  • always have same first element

The data frame should show the equal sequences in the two vectors aligned, with NA in the column if a vector lacks a sequence present in the other vector.

For example:

vector 1    vector 2                     vector 1        vector 2
   1           1                            a               a
   2           2                            g               g
   3           3                            b               b
   4           1            or              h               a
   1           2                            a               g
   2           3                            g               b   
   5           4                            c               h
               5                                            c

should be combined into data frame

    1   1                                    a   a
    2   2                                    g   g
    3   3                                    b   b
    4   NA                                   h   NA
    1   1                  or                a   a 
    2   2                                    g   g
    NA  3                                    NA  b
    NA  4                                    NA  h
    5   5                                    c   c

What I did, is to search for merge, combine, cbind, plyr examples but was not able to find solutions. I am afraid I will need to start write a function with nested for loops to solve this problem.

share|improve this question
A sequence by definition is an ordered list of objects. Take two sequences, e.g. c("apple", "banana") and c("apple", "orange"): we know from sequence #1 that banana will come after apple; similarly, we know from sequence #2 that orange will come after apple. But what will tell us if banana or orange should come first? We need a way to sort elements across multiple sequences. Can you clarify that aspect of the problem? (In your example, you used integers for which there is an implicit solution. Maybe it's just a matter of confirming that your two vectors are integer.) –  flodel Dec 15 '12 at 21:12
Do both vectors contain the same number of sequences? Is there a special value that always indicate the start of a new sequence (1 in your example)? –  flodel Dec 15 '12 at 21:31
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2 Answers 2

up vote 2 down vote accepted

I maintain that your problem might be solved in terms of the shortest common supersequence. It assumes that your two vectors each represent one sequence. Please give the code below a try.

If it still does not solve your problem, you'll have to explain exactly what you mean by "my vector contains not one but many sequences": define what you mean by a sequence and tell us how sequences can be identified by scanning through your two vectors.

Part I: given two sequences, find the longest common subsequence

LongestCommonSubsequence <- function(X, Y) {
    m <- length(X)
    n <- length(Y)
    C <- matrix(0, 1 + m, 1 + n)
    for (i in seq_len(m)) {
        for (j in seq_len(n)) {
            if (X[i] == Y[j]) {
                C[i + 1, j + 1] = C[i, j] + 1
            } else {
                C[i + 1, j + 1] = max(C[i + 1, j], C[i, j + 1])

    backtrack <- function(C, X, Y, i, j) {
        if (i == 1 | j == 1) {
            return(data.frame(I = c(), J = c(), LCS = c()))
        } else if (X[i - 1] == Y[j - 1]) {
            return(rbind(backtrack(C, X, Y, i - 1, j - 1),
                         data.frame(LCS = X[i - 1], I = i - 1, J = j - 1)))
        } else if (C[i, j - 1] > C[i - 1, j]) {
            return(backtrack(C, X, Y, i, j - 1))
        } else {
            return(backtrack(C, X, Y, i - 1, j))

    return(backtrack(C, X, Y, m + 1, n + 1))

Part II: given two sequences, find the shortest common supersequence

ShortestCommonSupersequence <- function(X, Y) {
    LCS <- LongestCommonSubsequence(X, Y)[c("I", "J")]
    X.df <- data.frame(X = X, I = seq_along(X), stringsAsFactors = FALSE)
    Y.df <- data.frame(Y = Y, J = seq_along(Y), stringsAsFactors = FALSE)   
    ALL <- merge(LCS, X.df, by = "I", all = TRUE)
    ALL <- merge(ALL, Y.df, by = "J", all = TRUE)
    ALL <- ALL[order(pmax(ifelse(is.na(ALL$I), 0, ALL$I),
                          ifelse(is.na(ALL$J), 0, ALL$J))), ]
    ALL$SCS <- ifelse(is.na(ALL$X), ALL$Y, ALL$X)

Your Example:

ShortestCommonSupersequence(X = c("a","g","b","h","a","g","c"),
                            Y = c("a","g","b","a","g","b","h","c"))
#    J  I    X    Y SCS
# 1  1  1    a    a   a
# 2  2  2    g    g   g
# 3  3  3    b    b   b
# 9 NA  4    h <NA>   h
# 4  4  5    a    a   a
# 5  5  6    g    g   g
# 6  6 NA <NA>    b   b
# 7  7 NA <NA>    h   h
# 8  8  7    c    c   c

(where the two updated vectors are in columns X and Y.)

share|improve this answer
If receivers recorded perfectly, the two vectors would be the shortest common supersequence. But they are not perfect. For each element in SCS, there is a probability that it will not be in my vector. Therefore, my vectors are subsets of SCS. I need to find out which elements from SCS are missing in each vector and put NA instead. I will review your code later flodel, you have been patient and helpful, thanks. –  Dmitrii I. Dec 16 '12 at 10:37
I don't understand. The columns X and Y of the example above match exactly your expected output. Can you explain why you think this algorithm won't work for you? Or in other words, can you explain why you think the example you provided is not representative of your problem...? Also why don't you just give a sample of your data? I've been patient because you have one of the most interesting problems I've seen on SO for a while, but I'll admit I'll be running out soon :-) –  flodel Dec 16 '12 at 11:48
I did not say it will not work. I just did not have time to test it. –  Dmitrii I. Dec 16 '12 at 16:20
I have been able to test your solution and it worked, so I will accept your answer. Thanks for all the trouble! Those Wikipedia links revealed that I was thinking of a sequence as a substring, but apparently they are not the same. One problem with your solution is the need to create m+1 by n+1 matrix. For large X and Y, I get "too many elements specified" matrix related error. I guess I'd need to take a look at the Large memory and out-of-memory data page at CRAN: cran.r-project.org/web/views/HighPerformanceComputing.html –  Dmitrii I. Dec 16 '12 at 18:21
The reason I did not give sample of my data is that it is even more complicated... Each vector is in fact a paste of multiple columns. Additionally, there are 40,000 observations and only 40 or so observations missing. And... And... Therefore I provided the simplest representation of my problem to you, and I will concern myself with the implementation issues. –  Dmitrii I. Dec 16 '12 at 18:30
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Note - this was proposed as an answer to the first version of the OP. The question has been modified since then but the problem is still not well-defined in my opinion.

Here is a solution that works with your integer example and would also work with numeric vectors. I am also assuming that:

  • both vectors contain the same number of sequences
  • a new sequence starts where value[i+1] <= value[i]

If your vectors are non-numeric or if one of my assumptions does not fit your problem, you'll have to clarify.

v1 <- c(1,2,3,4,1,2,5)
v2 <- c(1,2,3,1,2,3,4,5)

v1.sequences <- split(v1, cumsum(c(TRUE, diff(v1) <= 0)))
v2.sequences <- split(v2, cumsum(c(TRUE, diff(v2) <= 0)))

align.fun <- function(s1, s2) { #aligns two sequences
  s12 <- sort(unique(c(s1, s2)))
  cbind(ifelse(s12 %in% s1, s12, NA),
        ifelse(s12 %in% s2, s12, NA))

do.call(rbind, mapply(align.fun, v1.sequences, v2.sequences))
#       [,1] [,2]
#  [1,]    1    1
#  [2,]    2    2
#  [3,]    3    3
#  [4,]    4   NA
#  [5,]    1    1
#  [6,]    2    2
#  [7,]   NA    3
#  [8,]   NA    4
#  [9,]    5    5
share|improve this answer
Unfortunately both assumptions do not hold for my case. The integers in my case are decimal numbers that are generated randomly. –  Dmitrii I. Dec 15 '12 at 22:09
@DmitriiI., if your two vectors are numeric (what you call "decimal"), why would you have an example with integers, then edit it to add another example with characters? Can you just give your real data or a subset of it if it is too much? –  flodel Dec 15 '12 at 22:32
@DmitriiI., if your two vectors have a different numbers of sequences, we need some clarification. Imagine that vector 1 has 5 sequences and vector 2 has 8 sequences. Three (8-5) of the sequences from vector 2 won't have a match. Which ones? The last three? –  flodel Dec 15 '12 at 22:36
@DmitriiI. If my assumption that a new sequence starts where value[i+1] <= value[i] is wrong, can you tell us what the rule is? Is it that every sequence starts with the same value (1 or a in your two current examples?) –  flodel Dec 15 '12 at 22:39
I gave example in characters to indicate that data is random and no patterns should be sought in it. Regarding your second comment: I think this is exactly what I am trying to solve. I have some unmatched sequences. I do not know which ones. I want to put NA in the data frame once they are found. –  Dmitrii I. Dec 15 '12 at 22:40
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