man perl5005delta (Commandes) - what's new for perl5.005

NAME

perl5005delta - what's new for perl5.005

DESCRIPTION

This document describes differences between the 5.004 release and this one.

About the new versioning system

Perl is now developed on two tracks: a maintenance track that makes small, safe updates to released production versions with emphasis on compatibility; and a development track that pursues more aggressive evolution. Maintenance releases (which should be considered production quality) have subversion numbers that run from CW1 to CW49, and development releases (which should be considered alpha quality) run from CW50 to CW99.

Perl 5.005 is the combined product of the new dual-track development scheme.

Incompatible Changes

WARNING: This version is not binary compatible with Perl 5.004.

Starting with Perl 5.004_50 there were many deep and far-reaching changes to the language internals. If you have dynamically loaded extensions that you built under perl 5.003 or 5.004, you can continue to use them with 5.004, but you will need to rebuild and reinstall those extensions to use them 5.005. See INSTALL for detailed instructions on how to upgrade.

Default installation structure has changed

The new Configure defaults are designed to allow a smooth upgrade from 5.004 to 5.005, but you should read INSTALL for a detailed discussion of the changes in order to adapt them to your system.

Perl Source Compatibility

When none of the experimental features are enabled, there should be very few user-visible Perl source compatibility issues.

If threads are enabled, then some caveats apply. CW@_ and CW$_ become lexical variables. The effect of this should be largely transparent to the user, but there are some boundary conditions under which user will need to be aware of the issues. For example, CWlocal(@_) results in a Can't localize lexical variable CW@_ ... message. This may be enabled in a future version.

Some new keywords have been introduced. These are generally expected to have very little impact on compatibility. See "New CWINIT keyword", "New CWlock keyword", and "New CWqr// operator".

Certain barewords are now reserved. Use of these will provoke a warning if you have asked for them with the CW-w switch. See "CWour is now a reserved word".

C Source Compatibility

There have been a large number of changes in the internals to support the new features in this release.

•
Core sources now require ANSI C compiler An ANSI C compiler is now required to build perl. See INSTALL.
•
All Perl global variables must now be referenced with an explicit prefix All Perl global variables that are visible for use by extensions now have a CWPL_ prefix. New extensions should CWnot refer to perl globals by their unqualified names. To preserve sanity, we provide limited backward compatibility for globals that are being widely used like CWsv_undef and CWna (which should now be written as CWPL_sv_undef, CWPL_na etc.) If you find that your XS extension does not compile anymore because a perl global is not visible, try adding a CWPL_ prefix to the global and rebuild. It is strongly recommended that all functions in the Perl API that don't begin with CWperl be referenced with a CWPerl_ prefix. The bare function names without the CWPerl_ prefix are supported with macros, but this support may cease in a future release. See perlapi.
•
Enabling threads has source compatibility issues Perl built with threading enabled requires extensions to use the new CWdTHR macro to initialize the handle to access per-thread data. If you see a compiler error that talks about the variable CWthr not being declared (when building a module that has XS code), you need to add CWdTHR; at the beginning of the block that elicited the error. The API function CWperl_get_sv("@",FALSE) should be used instead of directly accessing perl globals as CWGvSV(errgv). The API call is backward compatible with existing perls and provides source compatibility with threading is enabled. See C Source Compatibility for more information.

Binary Compatibility

This version is NOT binary compatible with older versions. All extensions will need to be recompiled. Further binaries built with threads enabled are incompatible with binaries built without. This should largely be transparent to the user, as all binary incompatible configurations have their own unique architecture name, and extension binaries get installed at unique locations. This allows coexistence of several configurations in the same directory hierarchy. See INSTALL.

Security fixes may affect compatibility

A few taint leaks and taint omissions have been corrected. This may lead to failure of scripts that used to work with older versions. Compiling with -DINCOMPLETE_TAINTS provides a perl with minimal amounts of changes to the tainting behavior. But note that the resulting perl will have known insecurities.

Oneliners with the CW-e switch do not create temporary files anymore.

Relaxed new mandatory warnings introduced in 5.004

Many new warnings that were introduced in 5.004 have been made optional. Some of these warnings are still present, but perl's new features make them less often a problem. See New Diagnostics.

Licensing

Perl has a new Social Contract for contributors. See Porting/Contract.

The license included in much of the Perl documentation has changed. Most of the Perl documentation was previously under the implicit GNU General Public License or the Artistic License (at the user's choice). Now much of the documentation unambiguously states the terms under which it may be distributed. Those terms are in general much less restrictive than the GNU GPL. See perl and the individual perl manpages listed therein.

Core Changes

Threads

WARNING: Threading is considered an experimental feature. Details of the implementation may change without notice. There are known limitations and some bugs. These are expected to be fixed in future versions.

See README.threads.

Compiler

WARNING: The Compiler and related tools are considered experimental. Features may change without notice, and there are known limitations and bugs. Since the compiler is fully external to perl, the default configuration will build and install it.

The Compiler produces three different types of transformations of a perl program. The C backend generates C code that captures perl's state just before execution begins. It eliminates the compile-time overheads of the regular perl interpreter, but the run-time performance remains comparatively the same. The CC backend generates optimized C code equivalent to the code path at run-time. The CC backend has greater potential for big optimizations, but only a few optimizations are implemented currently. The Bytecode backend generates a platform independent bytecode representation of the interpreter's state just before execution. Thus, the Bytecode back end also eliminates much of the compilation overhead of the interpreter.

The compiler comes with several valuable utilities.

CWB::Lint is an experimental module to detect and warn about suspicious code, especially the cases that the CW-w switch does not detect.

CWB::Deparse can be used to demystify perl code, and understand how perl optimizes certain constructs.

CWB::Xref generates cross reference reports of all definition and use of variables, subroutines and formats in a program.

CWB::Showlex show the lexical variables used by a subroutine or file at a glance.

CWperlcc is a simple frontend for compiling perl.

See CWext/B/README, B, and the respective compiler modules.

Regular Expressions

Perl's regular expression engine has been seriously overhauled, and many new constructs are supported. Several bugs have been fixed.

Here is an itemized summary:

Many new and improved optimizations
Changes in the RE engine:
        Unneeded nodes removed;
        Substrings merged together;
        New types of nodes to process (SUBEXPR)* and similar expressions
            quickly, used if the SUBEXPR has no side effects and matches
            strings of the same length;
        Better optimizations by lookup for constant substrings;
        Better search for constants substrings anchored by $ ;
Changes in Perl code using RE engine:
        More optimizations to s/longer/short/;
        study() was not working;
        /blah/ may be optimized to an analogue of index() if $& $` $' not seen;
        Unneeded copying of matched-against string removed;
        Only matched part of the string is copying if $` $' were not seen;
Many bug fixes
Note that only the major bug fixes are listed here. See Changes for others.
        Backtracking might not restore start of $3.
        No feedback if max count for * or + on "complex" subexpression
            was reached, similarly (but at compile time) for {3,34567}
        Primitive restrictions on max count introduced to decrease a 
            possibility of a segfault;
        (ZERO-LENGTH)* could segfault;
        (ZERO-LENGTH)* was prohibited;
        Long REs were not allowed;
        /RE/g could skip matches at the same position after a 
          zero-length match;
New regular expression constructs
The following new syntax elements are supported:
        (?<=RE)
        (?<!RE)
        (?{ CODE })
        (?i-x)
        (?i:RE)
        (?(COND)YES_RE|NO_RE)
        (?>RE)
        \z
New operator for precompiled regular expressions
See "New CWqr// operator".
Other improvements
        Better debugging output (possibly with colors),
            even from non-debugging Perl;
        RE engine code now looks like C, not like assembler;
        Behaviour of RE modifiable by `use re' directive;
        Improved documentation;
        Test suite significantly extended;
        Syntax [:^upper:] etc., reserved inside character classes;
Incompatible changes
        (?i) localized inside enclosing group;
        $( is not interpolated into RE any more;
        /RE/g may match at the same position (with non-zero length)
            after a zero-length match (bug fix).

See perlre and perlop.

Improved malloc()

See banner at the beginning of CWmalloc.c for details.

Quicksort is internally implemented

Perl now contains its own highly optimized qsort() routine. The new qsort() is resistant to inconsistent comparison functions, so Perl's CWsort() will not provoke coredumps any more when given poorly written sort subroutines. (Some C library CWqsort()s that were being used before used to have this problem.) In our testing, the new CWqsort() required the minimal number of pair-wise compares on average, among all known CWqsort() implementations.

See CWperlfunc/sort.

Reliable signals

Perl's signal handling is susceptible to random crashes, because signals arrive asynchronously, and the Perl runtime is not reentrant at arbitrary times.

However, one experimental implementation of reliable signals is available when threads are enabled. See CWThread::Signal. Also see INSTALL for how to build a Perl capable of threads.

Reliable stack pointers

The internals now reallocate the perl stack only at predictable times. In particular, magic calls never trigger reallocations of the stack, because all reentrancy of the runtime is handled using a stack of stacks. This should improve reliability of cached stack pointers in the internals and in XSUBs.

More generous treatment of carriage returns

Perl used to complain if it encountered literal carriage returns in scripts. Now they are mostly treated like whitespace within program text. Inside string literals and here documents, literal carriage returns are ignored if they occur paired with linefeeds, or get interpreted as whitespace if they stand alone. This behavior means that literal carriage returns in files should be avoided. You can get the older, more compatible (but less generous) behavior by defining the preprocessor symbol CWPERL_STRICT_CR when building perl. Of course, all this has nothing whatever to do with how escapes like CW\r are handled within strings.

Note that this doesn't somehow magically allow you to keep all text files in DOS format. The generous treatment only applies to files that perl itself parses. If your C compiler doesn't allow carriage returns in files, you may still be unable to build modules that need a C compiler.

Memory leaks

CWsubstr, CWpos and CWvec don't leak memory anymore when used in lvalue context. Many small leaks that impacted applications that embed multiple interpreters have been fixed.

Better support for multiple interpreters

The build-time option CW-DMULTIPLICITY has had many of the details reworked. Some previously global variables that should have been per-interpreter now are. With care, this allows interpreters to call each other. See the CWPerlInterp extension on CPAN.

Behavior of local() on array and hash elements is now well-defined

See Temporary Values via local() in perlsub. See perlvar, and Errno.

Pseudo-hashes are supported

See perlref. See perlsyn.

Keywords can be globally overridden

See perlsub. See perlvar. CWforeach (1..1000000) is now optimized into a counting loop. It does not try to allocate a 1000000-size list anymore. Barewords caused unintuitive behavior when a subroutine with the same name as a package happened to be defined. Thus, CWnew Foo @args, use the result of the call to CWFoo() instead of CWFoo being treated as a literal. The recommended way to write barewords in the indirect object slot is CWnew Foo:: @args. Note that the method CWnew() is called with a first argument of CWFoo, not CWFoo:: when you do that. It was impossible to test for the existence of a package without actually creating it before. Now CWexists $Foo::{Bar::} can be used to test if the CWFoo::Bar namespace has been created.

Better locale support

See perllocale.

Experimental support for 64-bit platforms

Perl5 has always had 64-bit support on systems with 64-bit longs. Starting with 5.005, the beginnings of experimental support for systems with 32-bit long and 64-bit 'long long' integers has been added. If you add -DUSE_LONG_LONG to your ccflags in config.sh (or manually define it in perl.h) then perl will be built with 'long long' support. There will be many compiler warnings, and the resultant perl may not work on all systems. There are many other issues related to third-party extensions and libraries. This option exists to allow people to work on those issues.

prototype() returns useful results on builtins

See prototype in perlfunc.

Extended support for exception handling

CWdie() now accepts a reference value, and CW$@ gets set to that value in exception traps. This makes it possible to propagate exception objects. This is an undocumented experimental feature.

Re-blessing in DESTROY() supported for chaining DESTROY() methods

See Destructors in perlobj. See printf in perlfunc. CWINIT subs are like CWBEGIN and CWEND, but they get run just before the perl runtime begins execution. e.g., the Perl Compiler makes use of CWINIT blocks to initialize and resolve pointers to XSUBs. The CWlock keyword is the fundamental synchronization primitive in threaded perl. When threads are not enabled, it is currently a noop.

To minimize impact on source compatibility this keyword is weak, i.e., any user-defined subroutine of the same name overrides it, unless a CWuse Thread has been seen. The CWqr// operator, which is syntactically similar to the other quote-like operators, is used to create precompiled regular expressions. This compiled form can now be explicitly passed around in variables, and interpolated in other regular expressions. See perlop. Calling a subroutine with the name CWour will now provoke a warning when using the CW-w switch.

Tied arrays are now fully supported

See Tie::Array.

Tied handles support is better

Several missing hooks have been added. There is also a new base class for TIEARRAY implementations. See Tie::Array.

4th argument to substr

substr() can now both return and replace in one operation. The optional 4th argument is the replacement string. See substr in perlfunc.

Negative LENGTH argument to splice

splice() with a negative LENGTH argument now work similar to what the LENGTH did for substr(). Previously a negative LENGTH was treated as 0. See splice in perlfunc.

Magic lvalues are now more magical

When you say something like CWsubstr($x, 5) = "hi", the scalar returned by substr() is special, in that any modifications to it affect CW$x. (This is called a 'magic lvalue' because an 'lvalue' is something on the left side of an assignment.) Normally, this is exactly what you would expect to happen, but Perl uses the same magic if you use substr(), pos(), or vec() in a context where they might be modified, like taking a reference with CW\ or as an argument to a sub that modifies CW@_. In previous versions, this 'magic' only went one way, but now changes to the scalar the magic refers to ($x in the above example) affect the magic lvalue too. For instance, this code now acts differently:

    $x = "hello";
    sub printit {
        $x = "g'bye";
        print $_[0], "\n";
    }
    printit(substr($x, 0, 5));

In previous versions, this would print hello, but it now prints g'bye.

<> now reads in records

If CW$/ is a reference to an integer, or a scalar that holds an integer, <> will read in records instead of lines. For more info, see "$/" in perlvar.

Supported Platforms

Configure has many incremental improvements. Site-wide policy for building perl can now be made persistent, via Policy.sh. Configure also records the command-line arguments used in config.sh.

New Platforms

BeOS is now supported. See README.beos.

DOS is now supported under the DJGPP tools. See README.dos (installed as perldos on some systems).

MiNT is now supported. See README.mint.

MPE/iX is now supported. See README.mpeix.

MVS (aka OS390, aka Open Edition) is now supported. See README.os390 (installed as perlos390 on some systems).

Stratus VOS is now supported. See README.vos.

Changes in existing support

Win32 support has been vastly enhanced. Support for Perl Object, a encapsulation of Perl. GCC and EGCS are now supported on Win32. See README.win32, aka perlwin32.

VMS configuration system has been rewritten. See README.vms (installed as README_vms on some systems).

The hints files for most Unix platforms have seen incremental improvements.

Modules and Pragmata

New Modules

B
Perl compiler and tools. See B.
Data::Dumper
A module to pretty print Perl data. See Data::Dumper.
Dumpvalue
A module to dump perl values to the screen. See Dumpvalue.
Errno
A module to look up errors more conveniently. See Errno.
File::Spec
A portable API for file operations.
ExtUtils::Installed
Query and manage installed modules.
ExtUtils::Packlist
Manipulate .packlist files.
Fatal
Make functions/builtins succeed or die.
IPC::SysV
Constants and other support infrastructure for System V IPC operations in perl.
Test
A framework for writing testsuites.
Tie::Array
Base class for tied arrays.
Tie::Handle
Base class for tied handles.
Thread
Perl thread creation, manipulation, and support.
attrs
Set subroutine attributes.
fields
Compile-time class fields.
re
Various pragmata to control behavior of regular expressions.

Changes in existing modules

Benchmark
You can now run tests for x seconds instead of guessing the right number of tests to run. Keeps better time.
Carp
Carp has a new function cluck(). cluck() warns, like carp(), but also adds a stack backtrace to the error message, like confess().
CGI
CGI has been updated to version 2.42.
Fcntl
More Fcntl constants added: F_SETLK64, F_SETLKW64, O_LARGEFILE for large (more than 4G) file access (the 64-bit support is not yet working, though, so no need to get overly excited), Free/Net/OpenBSD locking behaviour flags F_FLOCK, F_POSIX, Linux F_SHLCK, and O_ACCMODE: the mask of O_RDONLY, O_WRONLY, and O_RDWR.
Math::Complex
The accessors methods Re, Im, arg, abs, rho, theta, methods can ($z->Re()) now also act as mutators ($z->Re(3)).
Math::Trig
A little bit of radial trigonometry (cylindrical and spherical) added, for example the great circle distance.
POSIX
POSIX now has its own platform-specific hints files.
DB_File
DB_File supports version 2.x of Berkeley DB. See CWext/DB_File/Changes.
MakeMaker
MakeMaker now supports writing empty makefiles, provides a way to specify that site umask() policy should be honored. There is also better support for manipulation of .packlist files, and getting information about installed modules. Extensions that have both architecture-dependent and architecture-independent files are now always installed completely in the architecture-dependent locations. Previously, the shareable parts were shared both across architectures and across perl versions and were therefore liable to be overwritten with newer versions that might have subtle incompatibilities.
CPAN
See perlmodinstall and CPAN.
Cwd
Cwd::cwd is faster on most platforms.

Utility Changes

CWh2ph and related utilities have been vastly overhauled.

CWperlcc, a new experimental front end for the compiler is available.

The crude GNU CWconfigure emulator is now called CWconfigure.gnu to avoid trampling on CWConfigure under case-insensitive filesystems.

CWperldoc used to be rather slow. The slower features are now optional. In particular, case-insensitive searches need the CW-i switch, and recursive searches need CW-r. You can set these switches in the CWPERLDOC environment variable to get the old behavior.

Documentation Changes

Config.pm now has a glossary of variables.

Porting/patching.pod has detailed instructions on how to create and submit patches for perl.

perlport specifies guidelines on how to write portably.

perlmodinstall describes how to fetch and install modules from CWCPAN sites.

Some more Perl traps are documented now. See perltrap.

perlopentut gives a tutorial on using open().

perlreftut gives a tutorial on references.

perlthrtut gives a tutorial on threads.

New Diagnostics

Ambiguous call resolved as CORE::%s(), qualify as such or use &
(W) A subroutine you have declared has the same name as a Perl keyword, and you have used the name without qualification for calling one or the other. Perl decided to call the builtin because the subroutine is not imported. To force interpretation as a subroutine call, either put an ampersand before the subroutine name, or qualify the name with its package. Alternatively, you can import the subroutine (or pretend that it's imported with the CWuse subs pragma). To silently interpret it as the Perl operator, use the CWCORE:: prefix on the operator (e.g. CWCORE::log($x)) or by declaring the subroutine to be an object method (see attrs).
Bad index while coercing array into hash
(F) The index looked up in the hash found as the 0'th element of a pseudo-hash is not legal. Index values must be at 1 or greater. See perlref. (W) You used a qualified bareword of the form CWFoo::, but the compiler saw no other uses of that namespace before that point. Perhaps you need to predeclare a package? (F) You used the syntax of a method call, but the slot filled by the object reference or package name contains an undefined value. Something like this will reproduce the error:
    $BADREF = 42;
    process $BADREF 1,2,3;
    $BADREF->process(1,2,3);
(P) For some reason you can't check the filesystem of the script for nosuid.
Can't coerce array into hash
(F) You used an array where a hash was expected, but the array has no information on how to map from keys to array indices. You can do that only with arrays that have a hash reference at index 0.
Can't goto subroutine from an eval-string
(F) The goto subroutine call can't be used to jump out of an eval string. (You can use it to jump out of an eval {BLOCK}, but you probably don't want to.)
Can't localize pseudo-hash element
(F) You said something like CWlocal $ar->{'key'}, where CW$ar is a reference to a pseudo-hash. That hasn't been implemented yet, but you can get a similar effect by localizing the corresponding array element directly CWlocal $ar->[$ar->[0]{'key'}].
Can't use %%! because Errno.pm is not available
(F) The first time the %! hash is used, perl automatically loads the Errno.pm module. The Errno module is expected to tie the %! hash to provide symbolic names for CW$! errno values. (F) A string of a form CWCORE::word was given to prototype(), but there is no builtin with the name CWword.
Character class syntax [. .] is reserved for future extensions
(W) Within regular expression character classes ([]) the syntax beginning with [. and ending with .] is reserved for future extensions. If you need to represent those character sequences inside a regular expression character class, just quote the square brackets with the backslash: \[. and .\].
Character class syntax [: :] is reserved for future extensions
(W) Within regular expression character classes ([]) the syntax beginning with [: and ending with :] is reserved for future extensions. If you need to represent those character sequences inside a regular expression character class, just quote the square brackets with the backslash: \[: and :\].
Character class syntax [= =] is reserved for future extensions
(W) Within regular expression character classes ([]) the syntax beginning with [= and ending with =] is reserved for future extensions. If you need to represent those character sequences inside a regular expression character class, just quote the square brackets with the backslash: \[= and =\].
%s: Eval-group in insecure regular expression
(F) Perl detected tainted data when trying to compile a regular expression that contains the CW(?{ ... }) zero-width assertion, which is unsafe. See (?{ code }) in perlre, and perlsec.
%s: Eval-group not allowed, use re 'eval'
(F) A regular expression contained the CW(?{ ... }) zero-width assertion, but that construct is only allowed when the CWuse re 'eval' pragma is in effect. See (?{ code }) in perlre.
%s: Eval-group not allowed at run time
(F) Perl tried to compile a regular expression containing the CW(?{ ... }) zero-width assertion at run time, as it would when the pattern contains interpolated values. Since that is a security risk, it is not allowed. If you insist, you may still do this by explicitly building the pattern from an interpolated string at run time and using that in an eval(). See (?{ code }) in perlre.
Explicit blessing to '' (assuming package main)
(W) You are blessing a reference to a zero length string. This has the effect of blessing the reference into the package main. This is usually not what you want. Consider providing a default target package, e.g. bless($ref, CW$p || 'MyPackage');
Illegal hex digit ignored
(W) You may have tried to use a character other than 0 - 9 or A - F in a hexadecimal number. Interpretation of the hexadecimal number stopped before the illegal character.
No such array field
(F) You tried to access an array as a hash, but the field name used is not defined. The hash at index 0 should map all valid field names to array indices for that to work. (F) You tried to access a field of a typed variable where the type does not know about the field name. The field names are looked up in the CW%FIELDS hash in the type package at compile time. The CW%FIELDS hash is usually set up with the 'fields' pragma.
Out of memory during ridiculously large request
(F) You can't allocate more than 2^31+small amount bytes. This error is most likely to be caused by a typo in the Perl program. e.g., CW$arr[time] instead of CW$arr[$time].
Range iterator outside integer range
(F) One (or both) of the numeric arguments to the range operator .. are outside the range which can be represented by integers internally. One possible workaround is to force Perl to use magical string increment by prepending 0 to your numbers. (F) More than 100 levels of inheritance were encountered while invoking a method. Probably indicates an unintended loop in your inheritance hierarchy.
Reference found where even-sized list expected
(W) You gave a single reference where Perl was expecting a list with an even number of elements (for assignment to a hash). This usually means that you used the anon hash constructor when you meant to use parens. In any case, a hash requires key/value pairs.
    %hash = { one => 1, two => 2, };   # WRONG
    %hash = [ qw/ an anon array / ];   # WRONG
    %hash = ( one => 1, two => 2, );   # right
    %hash = qw( one 1 two 2 );                 # also fine
Undefined value assigned to typeglob
(W) An undefined value was assigned to a typeglob, a la CW*foo = undef. This does nothing. It's possible that you really mean CWundef *foo. (D) The indicated bareword is a reserved word. Future versions of perl may use it as a keyword, so you're better off either explicitly quoting the word in a manner appropriate for its context of use, or using a different name altogether. The warning can be suppressed for subroutine names by either adding a CW& prefix, or using a package qualifier, e.g. CW&our(), or CWFoo::our().
perl: warning: Setting locale failed.
(S) The whole warning message will look something like:
       perl: warning: Setting locale failed.
       perl: warning: Please check that your locale settings:
               LC_ALL = "En_US",
               LANG = (unset)
           are supported and installed on your system.
       perl: warning: Falling back to the standard locale ("C").
Exactly what were the failed locale settings varies. In the above the settings were that the LC_ALL was En_US and the LANG had no value. This error means that Perl detected that you and/or your system administrator have set up the so-called variable system but Perl could not use those settings. This was not dead serious, fortunately: there is a default locale called C that Perl can and will use, the script will be run. Before you really fix the problem, however, you will get the same error message each time you run Perl. How to really fix the problem can be found in LOCALE PROBLEMS in perllocale.

Obsolete Diagnostics

Can't mktemp()
(F) The mktemp() routine failed for some reason while trying to process a -e switch. Maybe your /tmp partition is full, or clobbered. Removed because -e doesn't use temporary files any more. (F) The write routine failed for some reason while trying to process a -e switch. Maybe your /tmp partition is full, or clobbered. Removed because -e doesn't use temporary files any more.
Cannot open temporary file
(F) The create routine failed for some reason while trying to process a -e switch. Maybe your /tmp partition is full, or clobbered. Removed because -e doesn't use temporary files any more.
regexp too big
(F) The current implementation of regular expressions uses shorts as address offsets within a string. Unfortunately this means that if the regular expression compiles to longer than 32767, it'll blow up. Usually when you want a regular expression this big, there is a better way to do it with multiple statements. See perlre.

Configuration Changes

You can use Configure -Uinstallusrbinperl which causes installperl to skip installing perl also as /usr/bin/perl. This is useful if you prefer not to modify /usr/bin for some reason or another but harmful because many scripts assume to find Perl in /usr/bin/perl.

BUGS

If you find what you think is a bug, you might check the headers of recently posted articles in the comp.lang.perl.misc newsgroup. There may also be information at http://www.perl.com/perl/ , the Perl Home Page.

If you believe you have an unreported bug, please run the perlbug program included with your release. Make sure you trim your bug down to a tiny but sufficient test case. Your bug report, along with the output of CWperl -V, will be sent off to <perlbug@perl.com> to be analysed by the Perl porting team.

SEE ALSO

The Changes file for exhaustive details on what changed.

The INSTALL file for how to build Perl.

The README file for general stuff.

The Artistic and Copying files for copyright information.

HISTORY

Written by Gurusamy Sarathy <gsar@activestate.com>, with many contributions from The Perl Porters.

Send omissions or corrections to <perlbug@perl.com>.