taken as the name of the filehandle. Returns true on success,
C<undef> on failure.
-DISCIPLINE can be either of C<:bytes> for "binary" mode or C<:crlf>
-for "text" mode. If the DISCIPLINE is omitted, it defaults to
-C<:bytes>. To mark FILEHANDLE as UTF-8, use C<:utf8>. For backward
-compatibility C<binmode(FILEHANDLE)> also implicitly marks the
-filehandle as bytes.
-
-The C<:bytes>, C<:crlf>, and C<:utf8>, and any other directives of the
-form C<:...>, are called I/O I<disciplines>. The C<open> pragma can
-be used to establish default I/O disciplines. See L<open>.
-
-The C<:raw> discipline is deprecated. (As opposed to what Camel III
-said, it is not the inverse of C<:crlf>.) See L<perlrun> and the
-discussion about the PERLIO environment variable.
-
-In general, binmode() should be called after open() but before any I/O
-is done on the filehandle. Calling binmode() will flush any possibly
-pending buffered input or output data on the handle. The only
-exception to this is the C<:encoding> discipline that changes
-the default character encoding of the handle, see L<open>.
-The C<:encoding> discipline sometimes needs to be called in
-mid-stream, and it doesn't flush the stream.
+If DISCIPLINE is omitted or specified as C<:raw> the filehandle is made
+suitable for passing binary data. This includes turning off possible CRLF
+translation and marking it as bytes (as opposed to Unicode characters).
+Note that as desipite what may be implied in I<"Programming Perl">
+(the Camel) or elsewhere C<:raw> is I<not> the simply inverse of C<:crlf>
+- other disciplines which would affect binary nature of the stream are
+I<also> disabled. See L<PerlIO>, L<perlrun> and the discussion about the
+PERLIO environment variable.
On some systems (in general, DOS and Windows-based systems) binmode()
is necessary when you're not working with a text file. For the sake
and to never use it when it isn't appropriate.
In other words: regardless of platform, use binmode() on binary files
-(like for example images), and do not use binmode() on text files.
+(like for example images).
+
+If DISCIPLINE is present it is a single string, but may contain
+multiple directives. The directives alter the behaviour of the
+file handle. When DISCIPLINE is present using binmode on text
+file makes sense.
+
+To mark FILEHANDLE as UTF-8, use C<:utf8>.
+
+The C<:bytes>, C<:crlf>, and C<:utf8>, and any other directives of the
+form C<:...>, are called I/O I<disciplines>. The normal implementation
+of disciplines in Perl 5.8 and later is in terms of I<layers>. See
+L<PerlIO>. (There is typically a one-to-one correspondence between
+layers and disiplines.) The C<open> pragma can be used to establish
+default I/O disciplines. See L<open>.
+
+In general, binmode() should be called after open() but before any I/O
+is done on the filehandle. Calling binmode() will normally flush any
+pending buffered output data (and perhaps pending input data) on the
+handle. An exception to this is the C<:encoding> discipline that
+changes the default character encoding of the handle, see L<open>.
+The C<:encoding> discipline sometimes needs to be called in
+mid-stream, and it doesn't flush the stream.
The operating system, device drivers, C libraries, and Perl run-time
system all work together to let the programmer treat a single
Mac OS, all variants of Unix, and Stream_LF files on VMS use a single
character to end each line in the external representation of text (even
though that single character is CARRIAGE RETURN on Mac OS and LINE FEED
-on Unix and most VMS files). Consequently binmode() has no effect on
-these operating systems. In other systems like OS/2, DOS and the various
-flavors of MS-Windows your program sees a C<\n> as a simple C<\cJ>, but
-what's stored in text files are the two characters C<\cM\cJ>. That means
-that, if you don't use binmode() on these systems, C<\cM\cJ> sequences on
-disk will be converted to C<\n> on input, and any C<\n> in your program
-will be converted back to C<\cM\cJ> on output. This is what you want for
-text files, but it can be disastrous for binary files.
+on Unix and most VMS files). In other systems like OS/2, DOS and the
+various flavors of MS-Windows your program sees a C<\n> as a simple C<\cJ>,
+but what's stored in text files are the two characters C<\cM\cJ>. That
+means that, if you don't use binmode() on these systems, C<\cM\cJ>
+sequences on disk will be converted to C<\n> on input, and any C<\n> in
+your program will be converted back to C<\cM\cJ> on output. This is what
+you want for text files, but it can be disastrous for binary files.
Another consequence of using binmode() (on some systems) is that
special end-of-file markers will be seen as part of the data stream.
=item lock THING
-This function places an advisory lock on a shared variable, or referenced
+This function places an advisory lock on a shared variable, or referenced
object contained in I<THING> until the lock goes out of scope.
lock() is a "weak keyword" : this means that if you've defined a function
and opening C<< '>-' >> opens STDOUT.
You may use the three-argument form of open to specify
-I<I/O disciplines> that affect how the input and output
-are processed: see L</binmode> and L<open>. For example
+I<I/O disciplines> or IO "layers" to be applied to the handle that affect how the input and output
+are processed: (see L<open> and L<PerlIO> for more details).
+For example
open(FH, "<:utf8", "file")
will open the UTF-8 encoded file containing Unicode characters,
-see L<perluniintro>.
+see L<perluniintro>. (Note that if disciplines are specified in the
+three-arg form then default disciplines set by the C<open> pragma are
+ignored.)
Open returns nonzero upon success, the undefined value otherwise. If
the C<open> involved a pipe, the return value happens to be the pid of
character, and which encode that character in C as C<"\n">, do not
need C<binmode>. The rest need it.
-In the three argument form MODE may also contain a list of IO "layers"
-(see L<open> and L<PerlIO> for more details) to be applied to the
-handle. This can be used to achieve the effect of C<binmode> as well
-as more complex behaviours.
-
When opening a file, it's usually a bad idea to continue normal execution
if the request failed, so C<open> is frequently used in connection with
C<die>. Even if C<die> won't do what you want (say, in a CGI script,