# In R, how to convert binary string to binary or decimal value

In R language, is there any function to convert binary string into binary or decimal value?

If I have a binary string `000101`, what should I do to convert it into `5`?

-
which language do you use ? –  Chandra Sekhar Walajapet Oct 15 '12 at 9:05
Which Language? This is a very basic functionality and you can write your own function for it.. –  Arpit Oct 15 '12 at 9:07
@ChandraSekharWalajapet - OP tagged the question r; so I guess this concerns the language R –  Marijn Oct 15 '12 at 9:12
I know that I could write my own function.... the thing is if there is a simpler way to do it, I want to know it. –  LifeWorks Oct 15 '12 at 10:00
@ChandraSekharWalajapet Sorry for confusion. It's in R language. I only mentioned it in title and tags. –  LifeWorks Oct 15 '12 at 10:05

Here is what you can try:

``````binStr <- "00000001001100110000010110110111" # 20121015
(binNum <- 00000001001100110000010110110111) # 20121015
[1] 1.0011e+24
binVec <- c(1,0,1,0,0,0,1,1,0,0,0,0,0,0,1,0,0,0,0,0,0,1) # 2670721
shortBin <- 10011010010 # 1234
BinToDec <- function(x)
sum(2^(which(rev(unlist(strsplit(as.character(x), "")) == 1))-1))
BinToDec(binStr)
[1] 20121015
BinToDec(binNum)
[1] 576528
BinToDec(binVec)
[1] 2670721
BinToDec(shortBin)
[1] 1234
``````

That is, you can input both strings (because of `as.character()`) and numeric binary values but there are some problems with large numbers like `binNum`. As I understand you also want to convert binary string to numeric binary values, but unfortunately there is no such data type at least in base R.

Edit: Now `BinToDec` also accepts binary vectors, which might be a solution for large numbers. Function `digitsBase()` from package `sfsmisc` returns such a vector:

``````(vec <- digitsBase(5, base= 2, 10))
Class 'basedInt'(base = 2) [1:1]
[,1]
[1,]    0
[2,]    0
[3,]    0
[4,]    0
[5,]    0
[6,]    0
[7,]    0
[8,]    1
[9,]    0
[10,]    1
BinToDec(vec)
[1] 5
``````

Finally, another possibility is package `compositions` , for example:

``````(x <- unbinary("10101010"))
[1] 170
(y <- binary(x))
[1] "10101010"
``````
-
Thanks, I think this is a nicer way than what I write... –  LifeWorks Oct 15 '12 at 10:04

You could use the `packBits` function (in the `base` package). Bear in mind that this function requires very specific input.

``````(yy <- intToBits(5))
#  [1] 01 00 01 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
# [26] 00 00 00 00 00 00 00
# Note that there are 32 bits and the order is reversed from your example

class(yy)
[1] "raw"

packBits(yy, "integer")
# [1] 5
``````

There is also the `strtoi` function (also in the `base` package):

``````strtoi("00000001001100110000010110110111", base = 2)
# [1] 20121015

strtoi("000101", base = 2)
# [1] 5
``````
-
@LifeWorks, I had forgotten about the `strtoi` function; please see the edit. –  BenBarnes Oct 15 '12 at 15:34

This function calculates the decimal version with a flexible base. Base equals 2 is binary, etc. This should work up until a base of 10.

``````base2decimal = function(base_number, base = 2) {
split_base = strsplit(as.character(base_number), split = "")
return(sapply(split_base, function(x) sum(as.numeric(x) * base^(rev(seq_along(x) - 1)))))
}
> base2decimal(c("000101", "00000001001100110000010110110111"))
[1]        5 20121015
``````
-

In the case that you have binary string, all of the prior answers are great. I often find myself in situations where I want to encode a combination of binary vectors. The logic of translating from a combination of 0's and 1's to an integer is always the same:

``````bincount <- function(B, base=2) { return(B %*% base^seq(0,ncol(B)-1)) }
``````

Where B is a matrix, and each column is a binary vector.

Example:

``````isBig <- c(0, 1, 0, 1)
isRed <- c(0, 0, 1, 1)
B = cbind(isBig,isRed)
bincount(B)
# 0 1 2 3
``````
-