So I am trying to sum the rows of a matrix, and there are inf's within it. How do I sum the row, omitting the inf's?

2I'm shocked that no one has asked the traditional StackOverflow question: "What have you tried?" – Ryan Amos Mar 13 '13 at 21:40

11I'm shocked at +9 (so far). Upvote clearly states This question shows research effort – Simon O'Hanlon Mar 13 '13 at 21:46
Multiply your matrix by the result of is.finite(m)
and call rowSums
on the product with na.rm=TRUE
. This works because Inf*0
is NaN
.
m < matrix(c(1:3,Inf,4,Inf,5:6),4,2)
rowSums(m*is.finite(m),na.rm=TRUE)
A[is.infinite(A)]<NA
rowSums(A,na.rm=TRUE)
Some benchmarking for comparison:
library(microbenchmark)
rowSumsMethod<function(A){
A[is.infinite(A)]<NA
rowSums(A,na.rm=TRUE)
}
applyMethod<function(A){
apply( A , 1 , function(x){ sum(x[!is.infinite(x)])})
}
rowSumsMethod2<function(m){
rowSums(m*is.finite(m),na.rm=TRUE)
}
rowSumsMethod0<function(A){
A[is.infinite(A)]<0
rowSums(A)
}
A1 < matrix(sample(c(1:5, Inf), 50, TRUE), ncol=5)
A2 < matrix(sample(c(1:5, Inf), 5000, TRUE), ncol=5)
microbenchmark(rowSumsMethod(A1),rowSumsMethod(A2),
rowSumsMethod0(A1),rowSumsMethod0(A2),
rowSumsMethod2(A1),rowSumsMethod2(A2),
applyMethod(A1),applyMethod(A2))
Unit: microseconds
expr min lq median uq max neval
rowSumsMethod(A1) 13.063 14.9285 16.7950 19.3605 1198.450 100
rowSumsMethod(A2) 212.726 220.8905 226.7220 240.7165 307.427 100
rowSumsMethod0(A1) 11.663 13.9960 15.3950 18.1940 112.894 100
rowSumsMethod0(A2) 103.098 109.6290 114.0610 122.9240 159.545 100
rowSumsMethod2(A1) 8.864 11.6630 12.5960 14.6955 49.450 100
rowSumsMethod2(A2) 57.380 60.1790 63.4450 67.4100 81.172 100
applyMethod(A1) 78.839 84.4380 92.1355 99.8330 181.005 100
applyMethod(A2) 3996.543 4221.8645 4338.0235 4552.3825 6124.735 100
So Joshua's method wins! And apply method is clearly slower than two other methods (relatively speaking of course).


So I'd use
sums < apply( A , 1 , FUN = function(x){ sum(x[!is.infinite(x)])})
– Simon O'Hanlon Mar 13 '13 at 18:19 
2Yes of course the differences are miniscule, I didn't think there's any meaningful differences, it's just fun to benchmark things :) – Jouni Helske Mar 13 '13 at 18:36

1If you're going to replace values in the matrix, you could have replaced with
0
and leftna.rm=FALSE
, which would likely be faster. – Joshua Ulrich Mar 13 '13 at 18:37 
1
I'd use apply
and is.infinite
in order to avoid replacing Inf
values by NA
as in @Hemmo's answer.
> set.seed(1)
> Mat < matrix(sample(c(1:5, Inf), 50, TRUE), ncol=5)
> Mat # this is an example
[,1] [,2] [,3] [,4] [,5]
[1,] 2 2 Inf 3 5
[2,] 3 2 2 4 4
[3,] 4 5 4 3 5
[4,] Inf 3 1 2 4
[5,] 2 5 2 5 4
[6,] Inf 3 3 5 5
[7,] Inf 5 1 5 1
[8,] 4 Inf 3 1 3
[9,] 4 3 Inf 5 5
[10,] 1 5 3 3 5
> apply(Mat, 1, function(x) sum(x[!is.infinite(x)]))
[1] 12 15 21 10 18 16 12 11 17 17


1Im delivering +1's all round, for again illuminating many ways to do the same thing, and for making me think about the best way to do something simple. I like Joshua's trick. – Simon O'Hanlon Mar 13 '13 at 18:39
Try this...
m < c( 1 ,2 , 3 , Inf , 4 , Inf ,5 )
sum(m[!is.infinite(m)])
Or
m < matrix( sample( c(1:10 , Inf) , 100 , rep = TRUE ) , nrow = 10 )
sums < apply( m , 1 , FUN = function(x){ sum(x[!is.infinite(x)])})
> m
[,1] [,2] [,3] [,4] [,5] [,6] [,7] [,8] [,9] [,10]
[1,] 8 9 7 Inf 9 2 2 6 1 Inf
[2,] 8 7 4 5 9 5 8 4 7 10
[3,] 7 9 3 4 7 3 3 6 9 4
[4,] 7 Inf 2 6 4 8 3 1 9 9
[5,] 4 Inf 7 5 9 5 3 5 9 9
[6,] 7 3 7 Inf 7 3 7 3 7 1
[7,] 5 7 2 1 Inf 1 9 8 1 5
[8,] 4 Inf 10 Inf 8 10 4 9 7 2
[9,] 10 7 9 7 2 Inf 4 Inf 4 6
[10,] 9 4 6 3 9 6 6 5 1 8
> sums
[1] 44 67 55 49 56 45 39 54 49 57
This is a "nonapply" and nondestructive approach:
rowSums( matrix(match(A, A[is.finite(A)]), nrow(A)), na.rm=TRUE)
[1] 2 4
Although it is reasonably efficient, it is not as fast as Johsua's multiplication method.

Okay, I think you meant
match(A, A[is.finite(A)])
. I've edited. Hope you don't mind. – Arun Mar 13 '13 at 19:54 
That was not the code that worked in my session. Seems as though ti would be less efficient. – IRTFM Mar 13 '13 at 20:48

You mean my edit isn't your code? I replaced
is.finite(A)
withA[is.finite(A)]
. Without this,match
spits out all NAs because it matches all value with TRUE. So, only the value 1 will be matched with TRUE. Every other value will get NA. – Arun Mar 13 '13 at 20:56 
I guess my test case had different results, but it was just a 2 x 2 matrix. – IRTFM Mar 14 '13 at 5:48