You should use
cat() when making the
print.*() functions for S3 objects. For everything else, you should use
message() unless the state of the program is problematic. e.g. bad error that is recoverable gives
warning() vs. show stopping error uses
The objective of this post is to provide feedback on the different output options a package developer has access to and how one should structure output that is potentially on a new object or based upon strings.
R Output Overview
The traditional output functions are:
Now, the first two functions (
cat()) send their output to
stdout or standard output. The last three functions (
stop()) send their output to
stderr or the standard error. That is, the result output from a command like
lm() is sent to one file and the error output - if it exists - is sent to a completely separate file. This is particularly important for the user experience as diagnostics then are not cluttering the output of the results in log files and errors are then available to search through quickly.
Designing for Users and External Packages
Now, the above is framed more in a I/O mindset and not necessarily a user-facing frameset. So, let's provide some motivation for it in the context of an everyday R user. In particular, by using 3-5 or the
stderr functions, their output is able to be suppressed without tinkering with the console text via
capture.output(). The suppression normally comes in the form of
suppressPackageStartupMessages(), and so on. Thus, users are only confronted with result facing output. This is particularly important if you plan to allow users the flexibility of turning off text-based output when creating dynamic documents via either knitr, rmarkdown, or Sweave.
knitr offers chunk options such as
error = F,
message = F, and
warning = F. This enables the reduction of text accompanying a command in the document. Furthermore, this prevents the need from using the
results = "hide" option that would disable all output.
Specifics of Output
Up first, we have an oldie but a goodie,
print(). This function has some severe limitations. One of them being the lack of embedded concatenation of terms. The second, and probably more severe, is the fact that each output is preceded by
[x] followed by quotations around the actual content. The
x in this case refers to the element number being printed. This is helpful for debugging purposes, but outside of that it doesn't serve any purpose.
For concatenation, we rely upon the
paste() function working in sync with
 "Hello World!"
Alternatively, one can use the
paste0(...) function in place of
paste(...) to avoid the default use of a space between elements governed by
sep = " " parameter. (a.k.a concatenation without spaces)
print(paste("Hello","World!", sep = ""))
On the flip side,
cat() addresses all of these critiques. Most notably, the
sep=" " parameter of the
paste() functionality is built in allowing one to skip writing
cat(). However, the
cat() function's only downside is you have to force new lines via
\n appended at the end or
fill = TRUE (uses default print width).
cat("Hello","World!\n", sep = "")
It is for this very reason why you should use
cat() when designing a
print.*() S3 method.
message() function is one step better than even
cat()! The reason why is the output is distinct from traditional plain text as it is directed to
stderr instead of
stdout. E.g. They changed the color from standard black output to red output to catch the users eye.
Furthermore, you have the built in
message("Hello ","World!") # Note the space after Hello
message() provides an error state that can be used with
warning() function is not something to use casually. The warning function is differentiated from the message function primarily by having a line prefixed to it (
"Warning message:") and its state is consider to be problematic.
Misc: Casual use in a function may inadvertently trigger heartbreak while trying to upload the package to CRAN due to the example checks and warnings normally being treated as "errors".
Last but not least, we have
stop(). This takes warnings to the next level by completely killing the task at hand and returning control back to the user. Furthermore, it has the most serious prefix with the term
"Error:" being added.