Convenience function for # elements in data.frame, matrix, vector? - r

Is there a built-in convenience function that returns the number of elements in a data.frame, matrix, or vector? length( matrix ) and length( vector ) work, but length( data.frame ) returns the number of columns. prod( dim( vector ) ) returns 1 always, but works fine with matrix/data.frame. I'm looking for a single function that works for all three.

I don't think one already exists, so just write your own. You should only need 2 cases, 1) lists, 2) arrays:
elements <- function(x) {
if(is.list(x)) {
do.call(sum,lapply(x, elements))
} else {
length(x)
}
}
d <- data.frame(1:10, letters[1:10])
m <- as.matrix(d)
v <- d[,1]
l <- c(d, list(1:5))
L <- list(l, list(1:10))
elements(d) # data.frame
# [1] 20
elements(m) # matrix
# [1] 20
elements(v) # vector
# [1] 10
elements(l) # list
# [1] 25
elements(L) # list of lists
# [1] 35

What about length(unlist(whatever))?
(Note: I just wanted to reply that there's no such function, but suddenly I recalled I just used unlist 30 minutes ago, and that it can be applied to get easy solution! What a coincidence...)

My personal 'convenience function' for this is:
Rgames: lssize
function(items){
sizes<-sapply(sapply(sapply(sapply(items,get,simplify=F),unlist,simplify=F),as.vector,simplify=F),length)
return(sizes)
}
It works on every 'typeof' variable I could think of. FWIW, it's part of my toolkit which includes the useful "find only one type of variable in my workspace" :
Rgames: lstype
function(type='closure'){
inlist<-ls(.GlobalEnv)
if (type=='function') type <-'closure'
typelist<-sapply(sapply(inlist,get),typeof)
return(names(typelist[typelist==type]))
}

Related

How do you get a pre-defined size/length of a variable in R? [duplicate]

I want to find the function in R which does the same as the function size in Matlab.
In Matlab, if A = [ 1 2 3 4 5], then size(A) = 1 5.
If A =[ 1 2 3;4 5 6], then size(A) = 3 3.
In R, I found that the function dim gives the size of a matrix, but it doesn't apply to vectors.
Please help me solve this problem.
Thanks a lot.
Try dim(A) it's equal to Matlab size(A) function
As you noted dim doesn't work on vectors. You can use this function which will take any number of vectors matrices, data.frames or lists and find their dimension or length:
DIM <- function( ... ){
args <- list(...)
lapply( args , function(x) { if( is.null( dim(x) ) )
return( length(x) )
dim(x) } )
}
# length 10 vector
a <- 1:10
# 3x3 matrix
b <- matrix(1:9,3,3)
# length 2 list
c <- list( 1:2 , 1:100 )
# 1 row, 2 column data.frame
d <- data.frame( a =1 , b = 2 )
DIM(a,b,c,d)
#[[1]]
#[1] 10
#[[2]]
#[1] 3 3
#[[3]]
#[1] 2
#[[4]]
#[1] 1 2
Vectors are dimensionless in R, they have length.
If one wants to consider a vector as a dimensioned object (and later work on that vector), s/he must use t() (transpose) (that in essence makes it 1-dimensional array).
dim(1:10) # NULL
length(1:10) # 10
dim(t(1:10)) # 1x10
Belated answer, but note that NROW and NCOL give the dimensions of both vectors and matrices/data.frames. So, for example:
> a<-c(1,2,3,4)
> NROW(a);NCOL(a)
[1] 4
[1] 1
If you don't know if the class of variable A is 'matrix' or not, then try:
if (class(A) == "matrix" | class(A) == "data.frame") {
size <- dim(A)
} else {
size <- length(A)
}
size
This should work for your case.
You can use the following command:
c(NROW(w), NCOL(w))

function to subset data supplying subset argument as text string

m <- matrix(1:4, ncol=2)
l <- list(a=1:3, b='c')
d <- data.frame(a=1:3, b=3:1)
I was wondering if it is possible to make a function that takes a base R object (matrix, vector, list or data.frame, ...) as well as a text that specifies the subset of the object.
f1 <- function(object, subset) {
# object'subset'
}
For instance
f1(m, '[1,1]') #to evaluate m[1,1]
f1(l, '[[1]][2:3]') #l[[1]][2:3]
f1(d, '$a') #d$a
would give us (respectively):
[1] 1
[1] 2 3
[1] 1 2 3
I guess the function need somehow to glue the two arguments before evaluating. I guess one could make a kind of interpreter for each bit of the subset text and the (for the matrix example) do something like:
`[`(1,1)
This would possible but I thought there would be an easier more direct way (my 'glue' above).
Well one way to go is to use eval(parse)) methodology, i.e.
f1 <- function(x, text){
eval(parse(text = paste0(x, text)))
}
f1('d', '$a')
#[1] 1 2 3
f1('m', '[1,1]')
#[1] 1
f1('l', '[[1]][2:3]')
#[1] 2 3
f1<-function(object, subset){
return(eval(parse(text=paste0(substitute(object),subset))))
}
> m=matrix(4,2,2)
> l=list(c(1,2,3),c(2,3,4))
> f1(m,'[1,1]')
[1] 4
> f1(l,'[[1]][1:2]')
[1] 1 2

Can I further vectorize this function

I am relatively new to R, and matrix-based scripting languages in general. I have written this function to return the index's of each row which has a content similar to any another row's content. It is a primitive form of spam reduction that I am developing.
if (!require("RecordLinkage")) install.packages("RecordLinkage")
library("RecordLinkage")
# Takes a column of strings, returns a list of index's
check_similarity <- function(x) {
threshold <- 0.8
values <- NULL
for(i in 1:length(x)) {
values <- c(values, which(jarowinkler(x[i], x[-i]) > threshold))
}
return(values)
}
is there a way that I could write this to avoid the for loop entirely?
We can simplify the code somewhat using sapply.
# some test data #
x = c('hello', 'hollow', 'cat', 'turtle', 'bottle', 'xxx')
# create an x by x matrix specifying which strings are alike
m = sapply(x, jarowinkler, x) > threshold
# set diagonal to FALSE: we're not interested in strings being identical to themselves
diag(m) = FALSE
# And find index positions of all strings that are similar to at least one other string
which(rowSums(m) > 0)
# [1] 1 2 4 5
I.e. this returns the index positions of 'hello', 'hollow', 'turtle', and 'bottle' as being similar to another string
If you prefer, you can use colSums instead of rowSums to get a named vector, but this could be messy if the strings are long:
which(colSums(m) > 0)
# hello hollow turtle bottle
# 1 2 4 5

How to know a dimension of matrix or vector in R?

I want to find the function in R which does the same as the function size in Matlab.
In Matlab, if A = [ 1 2 3 4 5], then size(A) = 1 5.
If A =[ 1 2 3;4 5 6], then size(A) = 3 3.
In R, I found that the function dim gives the size of a matrix, but it doesn't apply to vectors.
Please help me solve this problem.
Thanks a lot.
Try dim(A) it's equal to Matlab size(A) function
As you noted dim doesn't work on vectors. You can use this function which will take any number of vectors matrices, data.frames or lists and find their dimension or length:
DIM <- function( ... ){
args <- list(...)
lapply( args , function(x) { if( is.null( dim(x) ) )
return( length(x) )
dim(x) } )
}
# length 10 vector
a <- 1:10
# 3x3 matrix
b <- matrix(1:9,3,3)
# length 2 list
c <- list( 1:2 , 1:100 )
# 1 row, 2 column data.frame
d <- data.frame( a =1 , b = 2 )
DIM(a,b,c,d)
#[[1]]
#[1] 10
#[[2]]
#[1] 3 3
#[[3]]
#[1] 2
#[[4]]
#[1] 1 2
Vectors are dimensionless in R, they have length.
If one wants to consider a vector as a dimensioned object (and later work on that vector), s/he must use t() (transpose) (that in essence makes it 1-dimensional array).
dim(1:10) # NULL
length(1:10) # 10
dim(t(1:10)) # 1x10
Belated answer, but note that NROW and NCOL give the dimensions of both vectors and matrices/data.frames. So, for example:
> a<-c(1,2,3,4)
> NROW(a);NCOL(a)
[1] 4
[1] 1
If you don't know if the class of variable A is 'matrix' or not, then try:
if (class(A) == "matrix" | class(A) == "data.frame") {
size <- dim(A)
} else {
size <- length(A)
}
size
This should work for your case.
You can use the following command:
c(NROW(w), NCOL(w))

How to assign from a function which returns more than one value?

Still trying to get into the R logic... what is the "best" way to unpack (on LHS) the results from a function returning multiple values?
I can't do this apparently:
R> functionReturningTwoValues <- function() { return(c(1, 2)) }
R> functionReturningTwoValues()
[1] 1 2
R> a, b <- functionReturningTwoValues()
Error: unexpected ',' in "a,"
R> c(a, b) <- functionReturningTwoValues()
Error in c(a, b) <- functionReturningTwoValues() : object 'a' not found
must I really do the following?
R> r <- functionReturningTwoValues()
R> a <- r[1]; b <- r[2]
or would the R programmer write something more like this:
R> functionReturningTwoValues <- function() {return(list(first=1, second=2))}
R> r <- functionReturningTwoValues()
R> r$first
[1] 1
R> r$second
[1] 2
--- edited to answer Shane's questions ---
I don't really need giving names to the result value parts. I am applying one aggregate function to the first component and an other to the second component (min and max. if it was the same function for both components I would not need splitting them).
(1) list[...]<- I had posted this over a decade ago on r-help. Since then it has been added to the gsubfn package. It does not require a special operator but does require that the left hand side be written using list[...] like this:
library(gsubfn) # need 0.7-0 or later
list[a, b] <- functionReturningTwoValues()
If you only need the first or second component these all work too:
list[a] <- functionReturningTwoValues()
list[a, ] <- functionReturningTwoValues()
list[, b] <- functionReturningTwoValues()
(Of course, if you only needed one value then functionReturningTwoValues()[[1]] or functionReturningTwoValues()[[2]] would be sufficient.)
See the cited r-help thread for more examples.
(2) with If the intent is merely to combine the multiple values subsequently and the return values are named then a simple alternative is to use with :
myfun <- function() list(a = 1, b = 2)
list[a, b] <- myfun()
a + b
# same
with(myfun(), a + b)
(3) attach Another alternative is attach:
attach(myfun())
a + b
ADDED: with and attach
I somehow stumbled on this clever hack on the internet ... I'm not sure if it's nasty or beautiful, but it lets you create a "magical" operator that allows you to unpack multiple return values into their own variable. The := function is defined here, and included below for posterity:
':=' <- function(lhs, rhs) {
frame <- parent.frame()
lhs <- as.list(substitute(lhs))
if (length(lhs) > 1)
lhs <- lhs[-1]
if (length(lhs) == 1) {
do.call(`=`, list(lhs[[1]], rhs), envir=frame)
return(invisible(NULL))
}
if (is.function(rhs) || is(rhs, 'formula'))
rhs <- list(rhs)
if (length(lhs) > length(rhs))
rhs <- c(rhs, rep(list(NULL), length(lhs) - length(rhs)))
for (i in 1:length(lhs))
do.call(`=`, list(lhs[[i]], rhs[[i]]), envir=frame)
return(invisible(NULL))
}
With that in hand, you can do what you're after:
functionReturningTwoValues <- function() {
return(list(1, matrix(0, 2, 2)))
}
c(a, b) := functionReturningTwoValues()
a
#[1] 1
b
# [,1] [,2]
# [1,] 0 0
# [2,] 0 0
I don't know how I feel about that. Perhaps you might find it helpful in your interactive workspace. Using it to build (re-)usable libraries (for mass consumption) might not be the best idea, but I guess that's up to you.
... you know what they say about responsibility and power ...
Usually I wrap the output into a list, which is very flexible (you can have any combination of numbers, strings, vectors, matrices, arrays, lists, objects int he output)
so like:
func2<-function(input) {
a<-input+1
b<-input+2
output<-list(a,b)
return(output)
}
output<-func2(5)
for (i in output) {
print(i)
}
[1] 6
[1] 7
I put together an R package zeallot to tackle this problem. zeallot includes a multiple assignment or unpacking assignment operator, %<-%. The LHS of the operator is any number of variables to assign, built using calls to c(). The RHS of the operator is a vector, list, data frame, date object, or any custom object with an implemented destructure method (see ?zeallot::destructure).
Here are a handful of examples based on the original post,
library(zeallot)
functionReturningTwoValues <- function() {
return(c(1, 2))
}
c(a, b) %<-% functionReturningTwoValues()
a # 1
b # 2
functionReturningListOfValues <- function() {
return(list(1, 2, 3))
}
c(d, e, f) %<-% functionReturningListOfValues()
d # 1
e # 2
f # 3
functionReturningNestedList <- function() {
return(list(1, list(2, 3)))
}
c(f, c(g, h)) %<-% functionReturningNestedList()
f # 1
g # 2
h # 3
functionReturningTooManyValues <- function() {
return(as.list(1:20))
}
c(i, j, ...rest) %<-% functionReturningTooManyValues()
i # 1
j # 2
rest # list(3, 4, 5, ..)
Check out the package vignette for more information and examples.
functionReturningTwoValues <- function() {
results <- list()
results$first <- 1
results$second <-2
return(results)
}
a <- functionReturningTwoValues()
I think this works.
There's no right answer to this question. I really depends on what you're doing with the data. In the simple example above, I would strongly suggest:
Keep things as simple as possible.
Wherever possible, it's a best practice to keep your functions vectorized. That provides the greatest amount of flexibility and speed in the long run.
Is it important that the values 1 and 2 above have names? In other words, why is it important in this example that 1 and 2 be named a and b, rather than just r[1] and r[2]? One important thing to understand in this context is that a and b are also both vectors of length 1. So you're not really changing anything in the process of making that assignment, other than having 2 new vectors that don't need subscripts to be referenced:
> r <- c(1,2)
> a <- r[1]
> b <- r[2]
> class(r)
[1] "numeric"
> class(a)
[1] "numeric"
> a
[1] 1
> a[1]
[1] 1
You can also assign the names to the original vector if you would rather reference the letter than the index:
> names(r) <- c("a","b")
> names(r)
[1] "a" "b"
> r["a"]
a
1
[Edit] Given that you will be applying min and max to each vector separately, I would suggest either using a matrix (if a and b will be the same length and the same data type) or data frame (if a and b will be the same length but can be different data types) or else use a list like in your last example (if they can be of differing lengths and data types).
> r <- data.frame(a=1:4, b=5:8)
> r
a b
1 1 5
2 2 6
3 3 7
4 4 8
> min(r$a)
[1] 1
> max(r$b)
[1] 8
If you want to return the output of your function to the Global Environment, you can use list2env, like in this example:
myfun <- function(x) { a <- 1:x
b <- 5:x
df <- data.frame(a=a, b=b)
newList <- list("my_obj1" = a, "my_obj2" = b, "myDF"=df)
list2env(newList ,.GlobalEnv)
}
myfun(3)
This function will create three objects in your Global Environment:
> my_obj1
[1] 1 2 3
> my_obj2
[1] 5 4 3
> myDF
a b
1 1 5
2 2 4
3 3 3
Lists seem perfect for this purpose. For example within the function you would have
x = desired_return_value_1 # (vector, matrix, etc)
y = desired_return_value_2 # (vector, matrix, etc)
returnlist = list(x,y...)
} # end of function
main program
x = returnlist[[1]]
y = returnlist[[2]]
Yes to your second and third questions -- that's what you need to do as you cannot have multiple 'lvalues' on the left of an assignment.
How about using assign?
functionReturningTwoValues <- function(a, b) {
assign(a, 1, pos=1)
assign(b, 2, pos=1)
}
You can pass the names of the variable you want to be passed by reference.
> functionReturningTwoValues('a', 'b')
> a
[1] 1
> b
[1] 2
If you need to access the existing values, the converse of assign is get.
[A]
If each of foo and bar is a single number, then there's nothing wrong with c(foo,bar); and you can also name the components: c(Foo=foo,Bar=bar). So you could access the components of the result 'res' as res[1], res[2]; or, in the named case, as res["Foo"], res["BAR"].
[B]
If foo and bar are vectors of the same type and length, then again there's nothing wrong with returning cbind(foo,bar) or rbind(foo,bar); likewise nameable. In the 'cbind' case, you would access foo and bar as res[,1], res[,2] or as res[,"Foo"], res[,"Bar"]. You might also prefer to return a dataframe rather than a matrix:
data.frame(Foo=foo,Bar=bar)
and access them as res$Foo, res$Bar. This would also work well if foo and bar were of the same length but not of the same type (e.g. foo is a vector of numbers, bar a vector of character strings).
[C]
If foo and bar are sufficiently different not to combine conveniently as above, then you shuld definitely return a list.
For example, your function might fit a linear model and
also calculate predicted values, so you could have
LM<-lm(....) ; foo<-summary(LM); bar<-LM$fit
and then you would return list(Foo=foo,Bar=bar) and then access the summary as res$Foo, the predicted values as res$Bar
source: http://r.789695.n4.nabble.com/How-to-return-multiple-values-in-a-function-td858528.html
Year 2021 and this is something I frequently use.
tidyverse package has a function called lst that assigns name to the list elements when creating the list.
Post which I use list2env() to assign variable or use the list directly
library(tidyverse)
fun <- function(){
a<-1
b<-2
lst(a,b)
}
list2env(fun(), envir=.GlobalEnv)#unpacks list key-values to variable-values into the current environment
This is only for the sake of completeness and not because I personally prefer it. You can pipe %>% the result, evaluate it with curly braces {} and write variables to the parent environment using double-arrow <<-.
library(tidyverse)
functionReturningTwoValues() %>% {a <<- .[1]; b <<- .[2]}
UPDATE:
Your can also use the multiple assignment operator from the zeallot package:: %<-%
c(a, b) %<-% list(0, 1)
I will post a function that returns multiple objects by way of vectors:
Median <- function(X){
X_Sort <- sort(X)
if (length(X)%%2==0){
Median <- (X_Sort[(length(X)/2)]+X_Sort[(length(X)/2)+1])/2
} else{
Median <- X_Sort[(length(X)+1)/2]
}
return(Median)
}
That was a function I created to calculate the median. I know that there's an inbuilt function in R called median() but nonetheless I programmed it to build other function to calculate the quartiles of a numeric data-set by using the Median() function I just programmed. The Median() function works like this:
If a numeric vector X has an even number of elements (i.e., length(X)%%2==0), the median is calculated by averaging the elements sort(X)[length(X)/2] and sort(X)[(length(X)/2+1)].
If Xdoesn't have an even number of elements, the median is sort(X)[(length(X)+1)/2].
On to the QuartilesFunction():
QuartilesFunction <- function(X){
X_Sort <- sort(X) # Data is sorted in ascending order
if (length(X)%%2==0){
# Data number is even
HalfDN <- X_Sort[1:(length(X)/2)]
HalfUP <- X_Sort[((length(X)/2)+1):length(X)]
QL <- Median(HalfDN)
QU <- Median(HalfUP)
QL1 <- QL
QL2 <- QL
QU1 <- QU
QU2 <- QU
QL3 <- QL
QU3 <- QU
Quartiles <- c(QL1,QU1,QL2,QU2,QL3,QU3)
names(Quartiles) = c("QL (1)", "QU (1)", "QL (2)", "QU (2)","QL (3)", "QU (3)")
} else{ # Data number is odd
# Including the median
Half1DN <- X_Sort[1:((length(X)+1)/2)]
Half1UP <- X_Sort[(((length(X)+1)/2)):length(X)]
QL1 <- Median(Half1DN)
QU1 <- Median(Half1UP)
# Not including the median
Half2DN <- X_Sort[1:(((length(X)+1)/2)-1)]
Half2UP <- X_Sort[(((length(X)+1)/2)+1):length(X)]
QL2 <- Median(Half2DN)
QU2 <- Median(Half2UP)
# Methods (1) and (2) averaged
QL3 <- (QL1+QL2)/2
QU3 <- (QU1+QU2)/2
Quartiles <- c(QL1,QU1,QL2,QU2,QL3,QU3)
names(Quartiles) = c("QL (1)", "QU (1)", "QL (2)", "QU (2)","QL (3)", "QU (3)")
}
return(Quartiles)
}
This function returns the quartiles of a numeric vector by using three methods:
Discarding the median for the calculation of the quartiles when the number of elements of the numeric vector Xis odd.
Keeping the median for the calculation of the quartiles when the number of elements of the numeric vector Xis odd.
Averaging the results obtained by using methods 1 and 2.
When the number of elements in the numeric vector X is even, the three methods coincide.
The result of the QuartilesFunction() is a vector that depicts the first and third quartiles calculated by using the three methods outlined.
With R 3.6.1, I can do the following
fr2v <- function() { c(5,3) }
a_b <- fr2v()
(a_b[[1]]) # prints "5"
(a_b[[2]]) # prints "3"
To obtain multiple outputs from a function and keep them in the desired format you can save the outputs to your hard disk (in the working directory) from within the function and then load them from outside the function:
myfun <- function(x) {
df1 <- ...
df2 <- ...
save(df1, file = "myfile1")
save(df2, file = "myfile2")
}
load("myfile1")
load("myfile2")

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