suitable for passing binary data. This includes turning off possible CRLF
translation and marking it as bytes (as opposed to Unicode characters).
Note that, despite what may be implied in I<"Programming Perl"> (the
-Camel) or elsewhere, C<:raw> is I<not> the simply inverse of C<:crlf>
--- other layers which would affect binary nature of the stream are
+Camel) or elsewhere, C<:raw> is I<not> simply the inverse of C<:crlf>
+-- other layers which would affect the binary nature of the stream are
I<also> disabled. See L<PerlIO>, L<perlrun> and the discussion about the
PERLIO environment variable.
=item close
-Closes the file or pipe associated with the file handle, returning
-true only if IO buffers are successfully flushed and closes the system
-file descriptor. Closes the currently selected filehandle if the
-argument is omitted.
+Closes the file or pipe associated with the file handle, flushes the IO
+buffers, and closes the system file descriptor. Returns true if those
+operations have succeeded and if no error was reported by any PerlIO
+layer. Closes the currently selected filehandle if the argument is
+omitted.
You don't have to close FILEHANDLE if you are immediately going to do
another C<open> on it, because C<open> will close it for you. (See
a more elaborate exception handling implementation using objects that
maintain arbitrary state about the nature of the exception. Such a scheme
is sometimes preferable to matching particular string values of $@ using
-regular expressions. Here's an example:
+regular expressions. Because $@ is a global variable, and eval() may be
+used within object implementations, care must be taken that analyzing the
+error object doesn't replace the reference in the global variable. The
+easiest solution is to make a local copy of the reference before doing
+other manipulations. Here's an example:
use Scalar::Util 'blessed';
eval { ... ; die Some::Module::Exception->new( FOO => "bar" ) };
- if ($@) {
- if (blessed($@) && $@->isa("Some::Module::Exception")) {
+ if (my $ev_err = $@) {
+ if (blessed($ev_err) && $ev_err->isa("Some::Module::Exception")) {
# handle Some::Module::Exception
}
else {
system call will check whether it's possible to send a signal to it (that
means, to be brief, that the process is owned by the same user, or we are
the super-user). This is a useful way to check that a child process is
-alive and hasn't changed its UID. See L<perlport> for notes on the
-portability of this construct.
+alive (even if only as a zombie) and hasn't changed its UID. See
+L<perlport> for notes on the portability of this construct.
Unlike in the shell, if SIGNAL is negative, it kills
process groups instead of processes. (On System V, a negative I<PROCESS>
Equivalent to C<print FILEHANDLE sprintf(FORMAT, LIST)>, except that C<$\>
(the output record separator) is not appended. The first argument
of the list will be interpreted as the C<printf> format. See C<sprintf>
-for an explanation of the format argument. If C<use locale> is in effect,
-the character used for the decimal point in formatted real numbers is
-affected by the LC_NUMERIC locale. See L<perllocale>.
+for an explanation of the format argument. If C<use locale> is in effect,
+and POSIX::setlocale() has been called, the character used for the decimal
+separator in formatted floating point numbers is affected by the LC_NUMERIC
+locale. See L<perllocale> and L<POSIX>.
Don't fall into the trap of using a C<printf> when a simple
C<print> would do. The C<print> is more efficient and less
walks through @INC and encounters a subroutine, this subroutine gets
called with two parameters, the first being a reference to itself, and the
second the name of the file to be included (e.g. "F<Foo/Bar.pm>"). The
-subroutine should return nothing, or a list of up to 4 values in the
+subroutine should return nothing, or a list of up to three values in the
following order:
=over
=item 1
-A reference to a scalar, containing any initial source code to prepend to
-the file or generator output.
-
-
-=item 2
-
A filehandle, from which the file will be read.
-=item 3
+=item 2
A reference to a subroutine. If there is no filehandle (previous item),
then this subroutine is expected to generate one line of source code per
Again, return 1 for each valid line, and 0 after all lines have been
returned.
-=item 4
+=item 3
Optional state for the subroutine. The state is passed in as C<$_[1]>. A
reference to the subroutine itself is passed in as C<$_[0]>.
=item say
Just like C<print>, but implicitly appends a newline.
-C<say LIST> is simply an abbreviation for C<print LIST, "\n">,
-and C<say()> works just like C<print($_, "\n")>.
-
-That means that a call to say() appends any output record separator
-I<after> the added newline.
+C<say LIST> is simply an abbreviation for C<{ local $/ = "\n"; print
+LIST }>.
This keyword is only available when the "say" feature is
enabled: see L<feature>.
array, returns the undefined value. If ARRAY is omitted, shifts the
C<@_> array within the lexical scope of subroutines and formats, and the
C<@ARGV> array outside of a subroutine and also within the lexical scopes
-established by the C<eval STRING>, C<BEGIN {}>, C<INIT {}>, C<CHECK {}>
-and C<END {}> constructs.
+established by the C<eval STRING>, C<BEGIN {}>, C<INIT {}>, C<CHECK {}>,
+C<UNITCHECK {}> and C<END {}> constructs.
See also C<unshift>, C<push>, and C<pop>. C<shift> and C<unshift> do the
same thing to the left end of an array that C<pop> and C<push> do to the
%E like %e, but using an upper-case "E"
%G like %g, but with an upper-case "E" (if applicable)
%b an unsigned integer, in binary
+ %B like %b, but using an upper-case "B" with the # flag
%p a pointer (outputs the Perl value's address in hexadecimal)
%n special: *stores* the number of characters output so far
into the next variable in the parameter list
=item flags
one or more of:
+
space prefix positive number with a space
+ prefix positive number with a plus sign
- left-justify within the field
0 use zeros, not spaces, to right-justify
- # prefix non-zero octal with "0", non-zero hex with "0x",
- non-zero binary with "0b"
+ # ensure the leading "0" for any octal,
+ prefix non-zero hexadecimal with "0x" or "0X",
+ prefix non-zero binary with "0b" or "0B"
For example:
- printf '<% d>', 12; # prints "< 12>"
- printf '<%+d>', 12; # prints "<+12>"
- printf '<%6s>', 12; # prints "< 12>"
- printf '<%-6s>', 12; # prints "<12 >"
- printf '<%06s>', 12; # prints "<000012>"
- printf '<%#x>', 12; # prints "<0xc>"
+ printf '<% d>', 12; # prints "< 12>"
+ printf '<%+d>', 12; # prints "<+12>"
+ printf '<%6s>', 12; # prints "< 12>"
+ printf '<%-6s>', 12; # prints "<12 >"
+ printf '<%06s>', 12; # prints "<000012>"
+ printf '<%#o>', 12; # prints "<014>"
+ printf '<%#x>', 12; # prints "<0xc>"
+ printf '<%#X>', 12; # prints "<0XC>"
+ printf '<%#b>', 12; # prints "<0b1100>"
+ printf '<%#B>', 12; # prints "<0B1100>"
+
+When a space and a plus sign are given as the flags at once,
+a plus sign is used to prefix a positive number.
+
+ printf '<%+ d>', 12; # prints "<+12>"
+ printf '<% +d>', 12; # prints "<+12>"
+
+When the # flag and a precision are given in the %o conversion,
+the precision is incremented if it's necessary for the leading "0".
+
+ printf '<%#.5o>', 012; # prints "<00012>"
+ printf '<%#.5o>', 012345; # prints "<012345>"
+ printf '<%#.0o>', 0; # prints "<0>"
=item vector flag
printf '<%.4g>', 100.01; # prints "<100>"
For integer conversions, specifying a precision implies that the
-output of the number itself should be zero-padded to this width:
+output of the number itself should be zero-padded to this width,
+where the 0 flag is ignored:
+
+ printf '<%.6d>', 1; # prints "<000001>"
+ printf '<%+.6d>', 1; # prints "<+000001>"
+ printf '<%-10.6d>', 1; # prints "<000001 >"
+ printf '<%10.6d>', 1; # prints "< 000001>"
+ printf '<%010.6d>', 1; # prints "< 000001>"
+ printf '<%+10.6d>', 1; # prints "< +000001>"
printf '<%.6x>', 1; # prints "<000001>"
printf '<%#.6x>', 1; # prints "<0x000001>"
printf '<%-10.6x>', 1; # prints "<000001 >"
+ printf '<%10.6x>', 1; # prints "< 000001>"
+ printf '<%010.6x>', 1; # prints "< 000001>"
+ printf '<%#10.6x>', 1; # prints "< 0x000001>"
For string conversions, specifying a precision truncates the string
to fit in the specified width:
printf '<%.6x>', 1; # prints "<000001>"
printf '<%.*x>', 6, 1; # prints "<000001>"
+If a precision obtained through C<*> is negative, it has the same
+effect as no precision.
+
+ printf '<%.*s>', 7, "string"; # prints "<string>"
+ printf '<%.*s>', 3, "string"; # prints "<str>"
+ printf '<%.*s>', 0, "string"; # prints "<>"
+ printf '<%.*s>', -1, "string"; # prints "<string>"
+
+ printf '<%.*d>', 1, 0; # prints "<0>"
+ printf '<%.*d>', 0, 0; # prints "<>"
+ printf '<%.*d>', -1, 0; # prints "<0>"
+
You cannot currently get the precision from a specified number,
but it is intended that this will be possible in the future using
e.g. C<.*2$>:
=back
-If C<use locale> is in effect, the character used for the decimal
-point in formatted real numbers is affected by the LC_NUMERIC locale.
-See L<perllocale>.
+If C<use locale> is in effect, and POSIX::setlocale() has been called,
+the character used for the decimal separator in formatted floating
+point numbers is affected by the LC_NUMERIC locale. See L<perllocale>
+and L<POSIX>.
=item sqrt EXPR
X<sqrt> X<root> X<square root>
printf "Permissions are %04o\n", S_IMODE($mode), "\n";
$is_setuid = $mode & S_ISUID;
- $is_setgid = S_ISDIR($mode);
+ $is_directory = S_ISDIR($mode);
You could write the last two using the C<-u> and C<-d> operators.
The commonly available C<S_IF*> constants are
return wantarray ? @a : "@a";
C<wantarray()>'s result is unspecified in the top level of a file,
-in a C<BEGIN>, C<CHECK>, C<INIT> or C<END> block, or in a C<DESTROY>
-method.
+in a C<BEGIN>, C<UNITCHECK>, C<CHECK>, C<INIT> or C<END> block, or
+in a C<DESTROY> method.
This function should have been named wantlist() instead.
=item warn LIST
X<warn> X<warning> X<STDERR>
-Produces a message on STDERR just like C<die>, but doesn't exit or throw
-an exception.
+Prints the value of LIST to STDERR. If the last element of LIST does
+not end in a newline, appends the same text as C<die> does.
If LIST is empty and C<$@> already contains a value (typically from a
previous eval) that value is used after appending C<"\t...caught">
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