# Subscript out of bounds - general definition and solution?

When working with R I frequently get the error message "subscript out of bounds". For example:

``````# Load necessary libraries and data
library(igraph)
library(NetData)
data(kracknets, package = "NetData")

# Reduce dataset to nonzero edges
krack_full_nonzero_edges <- subset(krack_full_data_frame, (advice_tie > 0 | friendship_tie > 0 | reports_to_tie > 0))

# convert to graph data farme
krack_full <- graph.data.frame(krack_full_nonzero_edges)

# Set vertex attributes
for (i in V(krack_full)) {
for (j in names(attributes)) {
krack_full <- set.vertex.attribute(krack_full, j, index=i, attributes[i+1,j])
}
}

# Calculate reachability for each vertix
reachability <- function(g, m) {
reach_mat = matrix(nrow = vcount(g),
ncol = vcount(g))
for (i in 1:vcount(g)) {
reach_mat[i,] = 0
this_node_reach <- subcomponent(g, (i - 1), mode = m)

for (j in 1:(length(this_node_reach))) {
alter = this_node_reach[j] + 1
reach_mat[i, alter] = 1
}
}
return(reach_mat)
}

reach_full_in <- reachability(krack_full, 'in')
reach_full_in
``````

This generates the following error `Error in reach_mat[i, alter] = 1 : subscript out of bounds`.

However, my question is not about this particular piece of code (even though it would be helpful to solve that too), but my question is more general:

• What is the definition of a subscript-out-of-bounds error? What causes it?
• Are there any generic ways of approaching this kind of error?
-
@January has it. It means you're trying to get something, say a column or row, that doesn't exist. For example, say your table has 10 rows and your function tries to call for row 15. – Ben Feb 22 '13 at 19:16
And for anyone who's wondering about this PARTICULAR piece of code (from the McFarland network analysis labs) it's because igraph has changed its indexing scheme from 0-based to 1-based, and so '(i-1)' in 'subcomponent' should be just 'i'. – Sophologist 7 hours ago

This is because you try to access an array out of his boundary. I will show you how you can debug such errors.

1. I set `options(error=recover)`
2. I run `reach_full_in <- reachability(krack_full, 'in')` I get :

``````reach_full_in <- reachability(krack_full, 'in')
Error in reach_mat[i, alter] = 1 : subscript out of bounds
Enter a frame number, or 0 to exit
1: reachability(krack_full, "in")
``````
3. I enter 1 and I get

`````` Called from: top level
``````
4. I type `ls()` to see my current variables

``````  1] "*tmp*"           "alter"           "g"
"i"               "j"                     "m"
"reach_mat"       "this_node_reach"
``````

Now I will see the dimensions of my variables :

``````Browse[1]> i
[1] 1
Browse[1]> j
[1] 21
Browse[1]> alter
[1] 22
Browse[1]> dim(reach_mat)
[1] 21 21
``````

You see that alter is out of bounds. 22 > 21 . in the line :

``````  reach_mat[i, alter] = 1
``````

To avoid such error , personally I do this :

• Try to use `applyxx` function . They are safer than for
• I use seq_along and not 1:n (1:0)
• Try to think in a vectorized solution if you can to avoid mat[i,j] index access.

EDIT vectorize the solution

For example here I see that you'dont use the fact that `set.vertex.attribute` is vectorized. You can replace:

``````# Set vertex attributes
for (i in V(krack_full)) {
for (j in names(attributes)) {
krack_full <- set.vertex.attribute(krack_full, j, index=i, attributes[i+1,j])
}
}
``````

by this:

``````##  set.vertex.attribute is vectorized!
##  no need to loop over vertex!
for (attr in names(attributes))
krack_full <<- set.vertex.attribute (krack_full,
attr, value=attributes[,attr])
``````
-

It just means that either `alter > ncol( reach_mat )` or `i > nrow( reach_mat )`, in other words, your indices exceed the array boundary (i is greater than the number of rows, or alter is greater than the number of columns).

Just run the above tests to see what and when is happening.

-

I sometimes encounter the same issue. I can only answer your second bullet, because I am not as expert in R as I am with other languages. I have found that the standard `for` loop has some unexpected results. Say `x = 0`

``````for (i in 1:x) {
print(i)
}
``````

The output is

``````[1] 1
[1] 0
``````

Whereas with python, for example

``````for i in range(x):
print i
``````

does nothing. The loop is not entered.

I expected that if `x = 0` that in R, the loop would not be entered. However, `1:0` is a valid range of numbers. I have not yet found a good workaround besides having an `if` statement wrapping the `for` loop

-
Which is why you don't do `for (i in 1:x)` for an x that could be zero (it does what it should given the definitions, that's just not what you hoped it would do). You do `for (seq_len(x))` to get the behaviour you seek. – Glen_b Feb 22 '13 at 19:30

This came from standford's sna free tutorial and it states that ...

`# Reachability can only be computed on one vertex at a time. To` `# get graph-wide statistics, change the value of "vertex"` `# manually or write a for loop. (Remember that, unlike R objects,` `# igraph objects are numbered from 0.)`

ok, so when ever using igraph, the first roll/column is 0 other than 1, but matrix starts at 1, thus for any calculation under igraph, you would need x-1, shown at

`this_node_reach <- subcomponent(g, (i - 1), mode = m)`

but for the alter calculation, there is a typo here

`alter = this_node_reach[j] + 1`

delete +1 and it will work alright

-