Writing Error Messages to Standard Error Instead of Standard Output
At the moment, we’re writing all of our output to the terminal using the
println!
macro. In most terminals, there are two kinds of output: standard
output (stdout
) for general information and standard error (stderr
) for
error messages. This distinction enables users to choose to direct the
successful output of a program to a file but still print error messages to the
screen.
The println!
macro is only capable of printing to standard output, so we
have to use something else to print to standard error.
Checking Where Errors Are Written
First, let’s observe how the content printed by minigrep
is currently being
written to standard output, including any error messages we want to write to
standard error instead. We’ll do that by redirecting the standard output stream
to a file while intentionally causing an error. We won’t redirect the standard
error stream, so any content sent to standard error will continue to display on
the screen.
Command line programs are expected to send error messages to the standard error stream so we can still see error messages on the screen even if we redirect the standard output stream to a file. Our program is not currently well-behaved: we’re about to see that it saves the error message output to a file instead!
To demonstrate this behavior, we’ll run the program with >
and the file path,
output.txt, that we want to redirect the standard output stream to. We won’t
pass any arguments, which should cause an error:
$ cargo run > output.txt
The >
syntax tells the shell to write the contents of standard output to
output.txt instead of the screen. We didn’t see the error message we were
expecting printed to the screen, so that means it must have ended up in the
file. This is what output.txt contains:
Problem parsing arguments: not enough arguments
Yup, our error message is being printed to standard output. It’s much more useful for error messages like this to be printed to standard error so only data from a successful run ends up in the file. We’ll change that.
Printing Errors to Standard Error
We’ll use the code in Listing 12-24 to change how error messages are printed.
Because of the refactoring we did earlier in this chapter, all the code that
prints error messages is in one function, main
. The standard library provides
the eprintln!
macro that prints to the standard error stream, so let’s change
the two places we were calling println!
to print errors to use eprintln!
instead.
Let’s now run the program again in the same way, without any arguments and
redirecting standard output with >
:
$ cargo run > output.txt
Problem parsing arguments: not enough arguments
Now we see the error onscreen and output.txt contains nothing, which is the behavior we expect of command line programs.
Let’s run the program again with arguments that don’t cause an error but still redirect standard output to a file, like so:
$ cargo run -- to poem.txt > output.txt
We won’t see any output to the terminal, and output.txt will contain our results:
Filename: output.txt
Are you nobody, too?
How dreary to be somebody!
This demonstrates that we’re now using standard output for successful output and standard error for error output as appropriate.
Summary
This chapter recapped some of the major concepts you’ve learned so far and
covered how to perform common I/O operations in Rust. By using command line
arguments, files, environment variables, and the eprintln!
macro for printing
errors, you’re now prepared to write command line applications. Combined with
the concepts in previous chapters, your code will be well organized, store data
effectively in the appropriate data structures, handle errors nicely, and be
well tested.
Next, we’ll explore some Rust features that were influenced by functional languages: closures and iterators.