I built a function that print results in R console.
The function works within a loop.
Several prints are made when the function is used.
I'd like to add void/space line between printed results
thx!
short example of data and working loop :
test <- c("A","B","C")
for (i in 1:length(test)){
print(test[i])
print("")
}
actual output :
[1] "A"
[1] ""
[1] "B"
[1] ""
[1] "C"
[1] ""
desired output :
[1] "A"
[1] "B"
[1] "C"
The comments under your question already provide hacks how to solve your problem. Nevertheless, it is worthwhile to mention some problems of your solution.
First, you are using a for loop, which is notoriously slow in R. If possible, it is always better to use a builtin vectorized function, e.g. (To add a blank line, just use "\n\n" instead of "\n"):
> cat(test, sep="\n")
A
B
C
Moreover, it might generally be preferable, for legibility reasons, to use formatted output with sprintf and cat, e.g.
> for (i in 1:length(test)) {
> cat(sprintf("test[%i] = %s\n", i, test[i]))
> }
test[1] = A
test[2] = B
test[3] = C
And because sprintf is a vectorized function, too, the same can be achieved without a for loop:
> cat(sprintf("test[%i] = %s\n", 1:length(test), test), sep="")
test[1] = A
test[2] = B
test[3] = C
Related
I am looking for the reverse of get().
Given an object name, I wish to have the character string representing that object extracted directly from the object.
Trivial example with foo being the placeholder for the function I am looking for.
z <- data.frame(x=1:10, y=1:10)
test <- function(a){
mean.x <- mean(a$x)
print(foo(a))
return(mean.x)}
test(z)
Would print:
"z"
My work around, which is harder to implement in my current problem is:
test <- function(a="z"){
mean.x <- mean(get(a)$x)
print(a)
return(mean.x)}
test("z")
The old deparse-substitute trick:
a<-data.frame(x=1:10,y=1:10)
test<-function(z){
mean.x<-mean(z$x)
nm <-deparse(substitute(z))
print(nm)
return(mean.x)}
test(a)
#[1] "a" ... this is the side-effect of the print() call
# ... you could have done something useful with that character value
#[1] 5.5 ... this is the result of the function call
Edit: Ran it with the new test-object
Note: this will not succeed inside a local function when a set of list items are passed from the first argument to lapply (and it also fails when an object is passed from a list given to a for-loop.) You would be able to extract the ".Names"-attribute and the order of processing from the structure result, if it were a named vector that were being processed.
> lapply( list(a=4,b=5), function(x) {nm <- deparse(substitute(x)); strsplit(nm, '\\[')} )
$a # This "a" and the next one in the print output are put in after processing
$a[[1]]
[1] "X" "" "1L]]" # Notice that there was no "a"
$b
$b[[1]]
[1] "X" "" "2L]]"
> lapply( c(a=4,b=5), function(x) {nm <- deparse(substitute(x)); strsplit(nm, '\\[')} )
$a
$a[[1]] # but it's theoretically possible to extract when its an atomic vector
[1] "structure(c(4, 5), .Names = c(\"a\", \"b\"))" ""
[3] "1L]]"
$b
$b[[1]]
[1] "structure(c(4, 5), .Names = c(\"a\", \"b\"))" ""
[3] "2L]]"
deparse(quote(var))
My intuitive understanding
In which the quote freeze the var or expression from evaluation
and the deparse function which is the inverse of parse function makes that freezed symbol back to String
Note that for print methods the behavior can be different.
print.foo=function(x){ print(deparse(substitute(x))) }
test = list(a=1, b=2)
class(test)="foo"
#this shows "test" as expected
print(test)
#this (just typing 'test' on the R command line)
test
#shows
#"structure(list(a = 1, b = 2), .Names = c(\"a\", \"b\"), class = \"foo\")"
Other comments I've seen on forums suggests that the last behavior is unavoidable. This is unfortunate if you are writing print methods for packages.
To elaborate on Eli Holmes' answer:
myfunc works beautifully
I was tempted to call it within another function (as discussed in his Aug 15, '20 comment)
Fail
Within a function, coded directly (rather than called from an external function), the deparse(substitute() trick works well.
This is all implicit in his answer, but for the benefit of peeps with my degree of obliviousness, I wanted to spell it out.
an_object <- mtcars
myfunc <- function(x) deparse(substitute(x))
myfunc(an_object)
#> [1] "an_object"
# called within another function
wrapper <- function(x){
myfunc(x)
}
wrapper(an_object)
#> [1] "x"
I am looking for the reverse of get().
Given an object name, I wish to have the character string representing that object extracted directly from the object.
Trivial example with foo being the placeholder for the function I am looking for.
z <- data.frame(x=1:10, y=1:10)
test <- function(a){
mean.x <- mean(a$x)
print(foo(a))
return(mean.x)}
test(z)
Would print:
"z"
My work around, which is harder to implement in my current problem is:
test <- function(a="z"){
mean.x <- mean(get(a)$x)
print(a)
return(mean.x)}
test("z")
The old deparse-substitute trick:
a<-data.frame(x=1:10,y=1:10)
test<-function(z){
mean.x<-mean(z$x)
nm <-deparse(substitute(z))
print(nm)
return(mean.x)}
test(a)
#[1] "a" ... this is the side-effect of the print() call
# ... you could have done something useful with that character value
#[1] 5.5 ... this is the result of the function call
Edit: Ran it with the new test-object
Note: this will not succeed inside a local function when a set of list items are passed from the first argument to lapply (and it also fails when an object is passed from a list given to a for-loop.) You would be able to extract the ".Names"-attribute and the order of processing from the structure result, if it were a named vector that were being processed.
> lapply( list(a=4,b=5), function(x) {nm <- deparse(substitute(x)); strsplit(nm, '\\[')} )
$a # This "a" and the next one in the print output are put in after processing
$a[[1]]
[1] "X" "" "1L]]" # Notice that there was no "a"
$b
$b[[1]]
[1] "X" "" "2L]]"
> lapply( c(a=4,b=5), function(x) {nm <- deparse(substitute(x)); strsplit(nm, '\\[')} )
$a
$a[[1]] # but it's theoretically possible to extract when its an atomic vector
[1] "structure(c(4, 5), .Names = c(\"a\", \"b\"))" ""
[3] "1L]]"
$b
$b[[1]]
[1] "structure(c(4, 5), .Names = c(\"a\", \"b\"))" ""
[3] "2L]]"
deparse(quote(var))
My intuitive understanding
In which the quote freeze the var or expression from evaluation
and the deparse function which is the inverse of parse function makes that freezed symbol back to String
Note that for print methods the behavior can be different.
print.foo=function(x){ print(deparse(substitute(x))) }
test = list(a=1, b=2)
class(test)="foo"
#this shows "test" as expected
print(test)
#this (just typing 'test' on the R command line)
test
#shows
#"structure(list(a = 1, b = 2), .Names = c(\"a\", \"b\"), class = \"foo\")"
Other comments I've seen on forums suggests that the last behavior is unavoidable. This is unfortunate if you are writing print methods for packages.
To elaborate on Eli Holmes' answer:
myfunc works beautifully
I was tempted to call it within another function (as discussed in his Aug 15, '20 comment)
Fail
Within a function, coded directly (rather than called from an external function), the deparse(substitute() trick works well.
This is all implicit in his answer, but for the benefit of peeps with my degree of obliviousness, I wanted to spell it out.
an_object <- mtcars
myfunc <- function(x) deparse(substitute(x))
myfunc(an_object)
#> [1] "an_object"
# called within another function
wrapper <- function(x){
myfunc(x)
}
wrapper(an_object)
#> [1] "x"
I am looking for the reverse of get().
Given an object name, I wish to have the character string representing that object extracted directly from the object.
Trivial example with foo being the placeholder for the function I am looking for.
z <- data.frame(x=1:10, y=1:10)
test <- function(a){
mean.x <- mean(a$x)
print(foo(a))
return(mean.x)}
test(z)
Would print:
"z"
My work around, which is harder to implement in my current problem is:
test <- function(a="z"){
mean.x <- mean(get(a)$x)
print(a)
return(mean.x)}
test("z")
The old deparse-substitute trick:
a<-data.frame(x=1:10,y=1:10)
test<-function(z){
mean.x<-mean(z$x)
nm <-deparse(substitute(z))
print(nm)
return(mean.x)}
test(a)
#[1] "a" ... this is the side-effect of the print() call
# ... you could have done something useful with that character value
#[1] 5.5 ... this is the result of the function call
Edit: Ran it with the new test-object
Note: this will not succeed inside a local function when a set of list items are passed from the first argument to lapply (and it also fails when an object is passed from a list given to a for-loop.) You would be able to extract the ".Names"-attribute and the order of processing from the structure result, if it were a named vector that were being processed.
> lapply( list(a=4,b=5), function(x) {nm <- deparse(substitute(x)); strsplit(nm, '\\[')} )
$a # This "a" and the next one in the print output are put in after processing
$a[[1]]
[1] "X" "" "1L]]" # Notice that there was no "a"
$b
$b[[1]]
[1] "X" "" "2L]]"
> lapply( c(a=4,b=5), function(x) {nm <- deparse(substitute(x)); strsplit(nm, '\\[')} )
$a
$a[[1]] # but it's theoretically possible to extract when its an atomic vector
[1] "structure(c(4, 5), .Names = c(\"a\", \"b\"))" ""
[3] "1L]]"
$b
$b[[1]]
[1] "structure(c(4, 5), .Names = c(\"a\", \"b\"))" ""
[3] "2L]]"
deparse(quote(var))
My intuitive understanding
In which the quote freeze the var or expression from evaluation
and the deparse function which is the inverse of parse function makes that freezed symbol back to String
Note that for print methods the behavior can be different.
print.foo=function(x){ print(deparse(substitute(x))) }
test = list(a=1, b=2)
class(test)="foo"
#this shows "test" as expected
print(test)
#this (just typing 'test' on the R command line)
test
#shows
#"structure(list(a = 1, b = 2), .Names = c(\"a\", \"b\"), class = \"foo\")"
Other comments I've seen on forums suggests that the last behavior is unavoidable. This is unfortunate if you are writing print methods for packages.
To elaborate on Eli Holmes' answer:
myfunc works beautifully
I was tempted to call it within another function (as discussed in his Aug 15, '20 comment)
Fail
Within a function, coded directly (rather than called from an external function), the deparse(substitute() trick works well.
This is all implicit in his answer, but for the benefit of peeps with my degree of obliviousness, I wanted to spell it out.
an_object <- mtcars
myfunc <- function(x) deparse(substitute(x))
myfunc(an_object)
#> [1] "an_object"
# called within another function
wrapper <- function(x){
myfunc(x)
}
wrapper(an_object)
#> [1] "x"
I've got a little issue with the switch statement in R.
The following code is OK ... :
value = "B"
switch(value,
"A"={
print("value = A")
},
"B"={
print("value = B")
},
"C"={
print("value = C")
},
{
print("Other !!!")
}
)
It returns :
[1] "value = B"
... but I would like to compare value to a vector's values like this :
mychr = c("A","B", "C")
value = "B"
switch(value,
mychr[1]={
print(mychr[1])
},
mychr[2]={
print(mychr[2])
},
mychr[3]={
print(mychr[3])
},
{
print("Other !!!")
}
)
And that doesn't work.
I can do this with "if else", or with the first code but I would like to understand the mistake.
Im sure there are easier ways but you can use alist and do.call
xlist = c("A","B", "C")
value = "B"
myList <- alist(print(xlist[1]), print(xlist[2]), print(xlist[3]), print("Other !!!"))
myList <- setNames(myList, c(xlist, ''))
do.call(switch, c(EXPR = value, myList))
Examples:
> value = "D"
> do.call(switch, c(EXPR = value, myList))
[1] "Other !!!"
> value = "A"
> do.call(switch, c(EXPR = value, myList))
[1] "A"
> value = "C"
> do.call(switch, c(EXPR = value, myList))
[1] "C"
> value = "B"
> do.call(switch, c(EXPR = value, myList))
[1] "B"
Your mistake is that the switch alternatives require literal names and can't have a variable name. You're naming the arguments of the function and they internally become names of items in a list. In fact, the "" aren't necessary around your A, B, C in your first example. Knowing that, the problem becomes more obvious. Try assigning b <- "B" and then using b as the second switch item. That will fail as well because it's not going to resolve the variable name, just take it as a literal. In your case it fails with a syntax problem because alist[1] isn't a valid alternative label without quotes.
Similar restrictions are placed on switch statements in other languages as well. Think of the alternatives in the switch as being labelled like names of items in a list structure. They can be pretty much anything quoted but they don't need quotes and then there are restrictions on what they can be. What they cannot be is variable.
As you recognize in your question, there are alternative ways to do this. Here's a concise one that will be much faster than a switch statement (even if you did manage to solve the variable list items problem indirectly with a call function).
i <- which(alist == value)
if (length(i) == 1){
print( paste0( 'value = ', alist[i]) )
}else {
print( 'Other !!' ) }
The == operator works on vectors, so what you need is just:
> a <- c("A", "B", "C")
> a
[1] "A" "B" "C"
> b <- "B"
> b == a
[1] FALSE TRUE FALSE
Alternatively, you can use which
> which(a == b)
[1] 2
Note that can return several elements if a contains more than one instance of b
You can then proceed using an if or ifelse or switch statement on the result.
PS: you should avoid using list as a variable name, as it is a standard function in R
Try using vapply.
i.e. in your case
vapply(mychr,switch,"",...SWITCH ARGS...)
I think what you would want is:
vapply(mychr,switch,"",
mychr[1]=mychr[1],mychr[2]=mychr[2],mychr[3]=mychr[3],"Other !!!")
I am looking for the reverse of get().
Given an object name, I wish to have the character string representing that object extracted directly from the object.
Trivial example with foo being the placeholder for the function I am looking for.
z <- data.frame(x=1:10, y=1:10)
test <- function(a){
mean.x <- mean(a$x)
print(foo(a))
return(mean.x)}
test(z)
Would print:
"z"
My work around, which is harder to implement in my current problem is:
test <- function(a="z"){
mean.x <- mean(get(a)$x)
print(a)
return(mean.x)}
test("z")
The old deparse-substitute trick:
a<-data.frame(x=1:10,y=1:10)
test<-function(z){
mean.x<-mean(z$x)
nm <-deparse(substitute(z))
print(nm)
return(mean.x)}
test(a)
#[1] "a" ... this is the side-effect of the print() call
# ... you could have done something useful with that character value
#[1] 5.5 ... this is the result of the function call
Edit: Ran it with the new test-object
Note: this will not succeed inside a local function when a set of list items are passed from the first argument to lapply (and it also fails when an object is passed from a list given to a for-loop.) You would be able to extract the ".Names"-attribute and the order of processing from the structure result, if it were a named vector that were being processed.
> lapply( list(a=4,b=5), function(x) {nm <- deparse(substitute(x)); strsplit(nm, '\\[')} )
$a # This "a" and the next one in the print output are put in after processing
$a[[1]]
[1] "X" "" "1L]]" # Notice that there was no "a"
$b
$b[[1]]
[1] "X" "" "2L]]"
> lapply( c(a=4,b=5), function(x) {nm <- deparse(substitute(x)); strsplit(nm, '\\[')} )
$a
$a[[1]] # but it's theoretically possible to extract when its an atomic vector
[1] "structure(c(4, 5), .Names = c(\"a\", \"b\"))" ""
[3] "1L]]"
$b
$b[[1]]
[1] "structure(c(4, 5), .Names = c(\"a\", \"b\"))" ""
[3] "2L]]"
deparse(quote(var))
My intuitive understanding
In which the quote freeze the var or expression from evaluation
and the deparse function which is the inverse of parse function makes that freezed symbol back to String
Note that for print methods the behavior can be different.
print.foo=function(x){ print(deparse(substitute(x))) }
test = list(a=1, b=2)
class(test)="foo"
#this shows "test" as expected
print(test)
#this (just typing 'test' on the R command line)
test
#shows
#"structure(list(a = 1, b = 2), .Names = c(\"a\", \"b\"), class = \"foo\")"
Other comments I've seen on forums suggests that the last behavior is unavoidable. This is unfortunate if you are writing print methods for packages.
To elaborate on Eli Holmes' answer:
myfunc works beautifully
I was tempted to call it within another function (as discussed in his Aug 15, '20 comment)
Fail
Within a function, coded directly (rather than called from an external function), the deparse(substitute() trick works well.
This is all implicit in his answer, but for the benefit of peeps with my degree of obliviousness, I wanted to spell it out.
an_object <- mtcars
myfunc <- function(x) deparse(substitute(x))
myfunc(an_object)
#> [1] "an_object"
# called within another function
wrapper <- function(x){
myfunc(x)
}
wrapper(an_object)
#> [1] "x"