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I would like to construct a dataframe row-by-row in R. I've done some searching, and all I came up with is the suggestion to create an empty list, keep a list index scalar, then each time add to the list a single-row dataframe and advance the list index by one. Finally, do.call(rbind,) on the list.

While this works, it seems very cumbersome. Isn't there an easier way for achieving the same goal?

Obviously I refer to cases where I can't use some apply function and explicitly need to create the dataframe row by row. At least, is there a way to push into the end of a list instead of explicitly keeping track of the last index used?

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You can use append() [which should probably be named insert] or c() to add items to the end of a list, though won't help you here. –  crippledlambda Sep 6 '10 at 9:31
    
There are not many functions in R that return data frames unless you return them [row-wise] from lapply(), Map(), and so on, but you may also want to take a look at aggregate(), dapply() {heR.Misc}, and cast() {reshape} to see if your tasks cannot be handled by these functions (these all return data frames). –  crippledlambda Sep 6 '10 at 9:35
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4 Answers

up vote 50 down vote accepted

You can grow them row by row by appending or using rbind().

That does not mean you should. Dynamically growing structures is one of the least efficient ways to code in R.

If you can, just preserver all your data.frame up front:

N <- 1e4  # some magic number, possibly an overestimate

DF <- data.frame(num=rep(NA, N), txt=rep("", N),  # as many cols as you need
                 stringsAsFactors=FALSE)          # you don't know levels yet

and then during your operations insert row at a time

DF[i, ] <- c(1.4, "foo")

That should work for arbitrary data.frame and be much more efficient. If you overshot N you can always shrink empty rows out at the end.

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3  
Didn't you mean to put N instead of 10, and list(1.4,"foo") instead of c(1.4,"foo") so as not to coerce the 1.4 into character mode? –  crippledlambda Sep 6 '10 at 9:46
    
Yes, I meant to use N in the data.frame creation. Also, very good catch re the coercion into chat -- I had missed that. –  Dirk Eddelbuettel Sep 6 '10 at 13:01
1  
It'd be better to edit the answer than leave it in the comments. I was confused trying to grok this answer. –  User Mar 13 '12 at 17:07
    
Ok, done. Thanks for the reminder. –  Dirk Eddelbuettel Mar 13 '12 at 17:13
1  
data.table seems to be even faster than pre-allocation using data.frames. Testing here: stackoverflow.com/a/11486400/636656 –  Ari B. Friedman Jul 15 '12 at 2:02
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One can add rows to NULL:

df<-NULL;
while(...){
  #Some code that generates new row
  rbind(df,row)->df
}

for instance

df<-NULL
for(e in 1:10) rbind(df,data.frame(x=e,square=e^2,even=factor(e%%2==0)))->df
print(df)
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12  
How nice to be downvoted for giving accurate answer ;-) I agree that this is less efficient than Dirk's solution, still sometimes the time of programmer is more valuable than the than the time of CPU... or least error-prone approach is needed. –  mbq Sep 5 '10 at 1:34
1  
+1: it's not wrong. ;) –  crippledlambda Sep 6 '10 at 10:06
4  
+1 for "sometimes the time of programmer is more valuable than the than the time of CPU" and answer that reflects that thinking –  Aerik Dec 20 '12 at 19:09
1  
it outputs a matrix, not a data frame –  Olga Jan 19 '13 at 0:28
    
@Olga Only if you bind rows of elements of an equal type -- BTW in that case it is better to sapply (or vectorise) and transpose. –  mbq Jan 19 '13 at 11:55
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This is a silly example of how to use do.call(rbind,) on the output of Map() [which is similar to lapply()]

> DF <- do.call(rbind,Map(function(x) data.frame(a=x,b=x+1),x=1:3))
> DF
  x y
1 1 2
2 2 3
3 3 4
> class(DF)
[1] "data.frame"

I use this construct quite often.

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+1 This is the best solution. –  mbq Mar 12 '12 at 23:00
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The reason I like Rcpp so much is that I don't always get how R Core thinks, and with Rcpp, more often than not, I don't have to.

Speaking philosophically, you're in a state of sin with regards to the functional paradigm, which tries to ensure that every value appears independent of every other value; changing one value should never cause a visible change in another value, the way you get with pointers sharing representation in C.

The problems arise when functional programming signals the small craft to move out of the way, and the small craft replies "I'm a lighthouse". Making a long series of small changes to a large object which you want to process on in the meantime puts you square into lighthouse territory.

In the C++ STL, push_back() is a way of life. It doesn't try to be functional, but it does try to accommodate common programming idioms efficiently.

With some cleverness behind the scenes, you can sometimes arrange to have one foot in each world. Snapshot based file systems are a good example (which evolved from concepts such as union mounts, which also ply both sides).

If R Core wanted to do this, underlying vector storage could function like a union mount. One reference to the vector storage might be valid for subscripts 1:N, while another reference to the same storage is valid for subscripts 1:(N+1). There could be reserved storage not yet validly referenced by anything but convenient for a quick push_back(). You don't violate the functional concept when appending outside the range that any existing reference considers valid.

Eventually appending rows incrementally, you run out of reserved storage. You'll need to create new copies of everything, with the storage multiplied by some increment. The STL implementations I've use tend to multiply storage by 2 when extending allocation. I thought I read in R Internals that there is a memory structure where the storage increments by 20%. Either way, growth operations occur with logarithmic frequency relative to the total number of elements appended. On an amortized basis, this is usually acceptable.

As tricks behind the scenes go, I've seen worse. Every time you push_back() a new row onto the dataframe, a top level index structure would need to be copied. The new row could append onto shared representation without impacting any old functional values. I don't even think it would complicate the garbage collector much; since I'm not proposing push_front() all references are prefix references to the front of the allocated vector storage.

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1  
+1 for mentioning Rcpp –  Sim Dec 19 '12 at 6:00
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