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package PerlIO;
our $VERSION = '1.02';
# Map layer name to package that defines it
our %alias;
sub import
{
my $class = shift;
while (@_)
{
my $layer = shift;
if (exists $alias{$layer})
{
$layer = $alias{$layer}
}
else
{
$layer = "${class}::$layer";
}
eval "require $layer";
warn $@ if $@;
}
}
sub F_UTF8 () { 0x8000 }
1;
__END__
=head1 NAME
PerlIO - On demand loader for PerlIO layers and root of PerlIO::* name space
=head1 SYNOPSIS
open($fh,"<:crlf", "my.txt"); # portably open a text file for reading
open($fh,"<","his.jpg"); # portably open a binary file for reading
binmode($fh);
Shell:
PERLIO=perlio perl ....
=head1 DESCRIPTION
When an undefined layer 'foo' is encountered in an C<open> or
C<binmode> layer specification then C code performs the equivalent of:
use PerlIO 'foo';
The perl code in PerlIO.pm then attempts to locate a layer by doing
require PerlIO::foo;
Otherwise the C<PerlIO> package is a place holder for additional
PerlIO related functions.
The following layers are currently defined:
=over 4
=item unix
Low level layer which calls C<read>, C<write> and C<lseek> etc.
=item stdio
Layer which calls C<fread>, C<fwrite> and C<fseek>/C<ftell> etc. Note
that as this is "real" stdio it will ignore any layers beneath it and
got straight to the operating system via the C library as usual.
=item perlio
This is a re-implementation of "stdio-like" buffering written as a
PerlIO "layer". As such it will call whatever layer is below it for
its operations.
=item crlf
A layer which does CRLF to "\n" translation distinguishing "text" and
"binary" files in the manner of MS-DOS and similar operating systems.
(It currently does I<not> mimic MS-DOS as far as treating of Control-Z
as being an end-of-file marker.)
=item utf8
Declares that the stream accepts perl's internal encoding of
characters. (Which really is UTF-8 on ASCII machines, but is
UTF-EBCDIC on EBCDIC machines.) This allows any character perl can
represent to be read from or written to the stream. The UTF-X encoding
is chosen to render simple text parts (i.e. non-accented letters,
digits and common punctuation) human readable in the encoded file.
Here is how to write your native data out using UTF-8 (or UTF-EBCDIC)
and then read it back in.
open(F, ">:utf8", "data.utf");
print F $out;
close(F);
open(F, "<:utf8", "data.utf");
$in = <F>;
close(F);
=item bytes
This is the inverse of C<:utf8> layer. It turns off the flag
on the layer below so that data read from it is considered to
be "octets" i.e. characters in range 0..255 only. Likewise
on output perl will warn if a "wide" character is written
to a such a stream.
=item raw
The C<:raw> layer is I<defined> as being identical to calling
C<binmode($fh)> - the stream is made suitable for passing binary
data i.e. each byte is passed as-is. The stream will still be
buffered. Unlike earlier versions of perl C<:raw> is I<not> just the
inverse of C<:crlf> - other layers which would affect the binary nature of
the stream are also removed or disabled.
The implementation of C<:raw> is as a pseudo-layer which when "pushed"
pops itself and then any layers which do not declare themselves as suitable
for binary data. (Undoing :utf8 and :crlf are implemented by clearing
flags rather than popping layers but that is an implementation detail.)
As a consequence of the fact that C<:raw> normally pops layers
it usually only makes sense to have it as the only or first element in
a layer specification. When used as the first element it provides
a known base on which to build e.g.
open($fh,":raw:utf8",...)
will construct a "binary" stream, but then enable UTF-8 translation.
=item pop
A pseudo layer that removes the top-most layer. Gives perl code
a way to manipulate the layer stack. Should be considered
as experimental. Note that C<:pop> only works on real layers
and will not undo the effects of pseudo layers like C<:utf8>.
An example of a possible use might be:
open($fh,...)
...
binmode($fh,":encoding(...)"); # next chunk is encoded
...
binmode($fh,":pop"); # back to un-encocded
A more elegant (and safer) interface is needed.
=back
=head2 Custom Layers
It is possible to write custom layers in addition to the above builtin
ones, both in C/XS and Perl. Two such layers (and one example written
in Perl using the latter) come with the Perl distribution.
=over 4
=item :encoding
Use C<:encoding(ENCODING)> either in open() or binmode() to install
a layer that does transparently character set and encoding transformations,
for example from Shift-JIS to Unicode. Note that under C<stdio>
an C<:encoding> also enables C<:utf8>. See L<PerlIO::encoding>
for more information.
=item :via
Use C<:via(MODULE)> either in open() or binmode() to install a layer
that does whatever transformation (for example compression /
decompression, encryption / decryption) to the filehandle.
See L<PerlIO::via> for more information.
=back
=head2 Alternatives to raw
To get a binary stream an alternate method is to use:
open($fh,"whatever")
binmode($fh);
this has advantage of being backward compatible with how such things have
had to be coded on some platforms for years.
To get an un-buffered stream specify an unbuffered layer (e.g. C<:unix>)
in the open call:
open($fh,"<:unix",$path)
=head2 Defaults and how to override them
If the platform is MS-DOS like and normally does CRLF to "\n"
translation for text files then the default layers are :
unix crlf
(The low level "unix" layer may be replaced by a platform specific low
level layer.)
Otherwise if C<Configure> found out how to do "fast" IO using system's
stdio, then the default layers are :
unix stdio
Otherwise the default layers are
unix perlio
These defaults may change once perlio has been better tested and tuned.
The default can be overridden by setting the environment variable
PERLIO to a space separated list of layers (C<unix> or platform low
level layer is always pushed first).
This can be used to see the effect of/bugs in the various layers e.g.
cd .../perl/t
PERLIO=stdio ./perl harness
PERLIO=perlio ./perl harness
=head2 Querying the layers of filehandle
The following returns the B<names> of the PerlIO layers on a filehandle.
my @layers = PerlIO::get_layers($fh); # Or FH, *FH, "FH".
The layers are returned in the order an open() or binmode() call would
use them. Note that the stack begins (normally) from C<stdio> or from
C<perlio>. Under C<stdio> the platform specific low-level I/O (like
C<unix>) is not part of the stack, but under C<perlio> it is.
By default the layers from the input side of the filehandle is
returned, to get the output side use the optional C<output> argument:
my @layers = PerlIO::get_layers($fh, output => 1);
(Usually the layers are identical on either side of a filehandle but
for example with sockets there may be differences, or if you have
been using the C<open> pragma.)
There is no set_layers(), nor does get_layers() return a tied array
mirroring the stack, or anything fancy like that. This is not
accidental or unintentional. The PerlIO layer stack is a bit more
complicated than just a stack (see for example the behaviour of C<:raw>).
You are supposed to use open() and binmode() to manipulate the stack.
B<Implementation details follow, please close your eyes.>
The arguments to layers are by default returned in parenthesis after
the name of the layer, and certain layers (like C<utf8>) are not real
layers but instead flags on real layers: to get all of these returned
separately use the optional C<separate> argument:
my @layer_and_args_and_flags = PerlIO::get_layers($fh, details => 1);
The result will be up to be three times the number of layers:
the first element will be a name, the second element the arguments
(unspecified arguments will be C<undef>), the third element the flags,
the fourth element a name again, and so forth.
B<You may open your eyes now.>
=head1 AUTHOR
Nick Ing-Simmons E<lt>nick@ing-simmons.netE<gt>
=head1 SEE ALSO
L<perlfunc/"binmode">, L<perlfunc/"open">, L<perlunicode>, L<perliol>,
L<Encode>
=cut
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