You'd think if they're teaching you Perl, they'd use the modern Perl syntax. Please don't take this personally. After all, this is how you were taught. However, you should know the new Perl programming style because it helps eliminates all sorts of programming mistakes, and makes your code easier to understand.
- Use the pragmas
use strict;
and use warnings;
. The warnings pragma replaces the need for the -w
flag on the command line. It's actually more flexible and better. For example, I can turn off particular warnings when I know they'll be an issue. The use strict;
pragma requires me to declare my variables with either a my or our. (NOTE: Don't declare Perl built in variables). 99% of the time, you'll use my. These variables are called lexically scoped, but you can think of them as true local variables. Lexically scoped variables don't have any value outside of their scope. For example, if you declare a variable using my
inside a while loop, that variable will disappear once the loop exits.
- Use the three parameter syntax for the
open
statement: In the example below, I use the three parameter syntax. This way, if a file is called >myfile
, I'll be able to read from it.
- **Use locally defined file handles. Note that I use
my $file_1_fh
instead of simply FILE_1_HANDLE. The old way, FILE_1_HANDLE is globally scoped, plus it's very difficult to pass the file handle to a function. Using lexically scoped file handles just works better.
- Use
or
and and
instead of ||
and &&
: They're easier to understand, and their operator precedence is better. They're more likely not to cause problems.
- Always check whether your
open
statement worked: You need to make sure your open
statement actually opened a file. Or use the use autodie;
pragma which will kill your program if the open
statements fail (which is probably what you want to do anyway.
And, here's your program:
#! /usr/bin/env perl
#
use strict;
use warnings;
use autodie;
open my $file_1, "<", shift;
open my $file_2, "<", shift;
open my $output_fh, ">", shift;
for (;;) {
my $line_1 = <$file_1>;
my $line_2 = <$file_2>;
last if not defined $line_1 and not defined $line_2;
no warnings qw(uninitialized);
print {$output_fh} $line_1 . $line_2;
use warnings;
}
In the above example, I read from both files even if they're empty. If there's nothing to read, then $line_1
or $line_2
is simply undefined. After I do my read, I check whether both $line_1
and $line_2
are undefined. If so, I use last
to end my loop.
Because my file handle is a scalar variable, I like putting it in curly braces, so people know it's a file handle and not a variable I want to print out. I don't need it, but it improves clarity.
Notice the no warnings qw(uninitialized);
. This turns off the uninitialized warning I'll get. I know that either $line_1
or $line_3
might be uninitialized, so I don't want the warning. I turn it back on right below my print statement because it is a valuable warning.
Here's another way to do that for
loop:
while ( 1 ) {
my $line_1 = <$file_1>;
my $line_2 = <$file_2>;
last if not defined $line_1 and not defined $line_2;
print {$output_fh} $line_1 if defined $line_1;
print {$output_fh} $line_2 if defined $line_2;
}
The infinite loop is a while loop instead of a for loop. Some people don't like the C style of for
loop and have banned it from their coding practices. Thus, if you have an infinite loop, you use while ( 1 ) {
. To me, maybe because I came from a C background, for (;;) {
means infinite loop, and while ( 1 ) {
takes a few extra milliseconds to digest.
Also, I check whether $line_1
or $line_2
is defined before I print them out. I guess it's better than using no warning
and warning
, but I need two separate print statements instead of combining them into one.