Provided by: libdata-printer-perl_1.000004-1_all 
NAME
Data::Printer - colored & full-featured pretty print of Perl data structures and objects
SYNOPSIS
Want to see what's inside a variable in a complete, colored and human-friendly way?
use DDP; # same as 'use Data::Printer'
p $some_var;
p $some_var, as => "This label will be printed too!";
# no need to use '\' before arrays or hashes!
p @array;
p %hash;
# for anonymous array/hash references, use postderef (on perl 5.24 or later):
p [ $one, $two, $three ]->@*;
p { foo => $foo, bar => $bar }->%*;
# or deref the anonymous ref:
p @{[ $one, $two, $three ]};
p %{{ foo => $foo, bar => $bar }};
# or put '&' in front of the call:
&p( [ $one, $two, $three ] );
&p( { foo => $foo, bar => $bar } );
The snippets above will print the contents of the chosen variables to STDERR on your
terminal, with colors and a few extra features to help you debug your code.
If you wish to grab the output and handle it yourself, call "np()":
my $dump = np $var;
die "this is what happened: " . np %data;
The "np()" function is the same as "p()" but will return the string containing the dump.
By default it has no colors, but you can change that easily too.
That's pretty much it :)
Data::Printer is fully customizable, even on a per-module basis! Once you figure out your
own preferences, create a .dataprinter configuration file for yourself (or one for each
project) and Data::Printer will automatically use it!
FEATURES
Here's what Data::Printer offers Perl developers, out of the box:
· Variable dumps designed for easy parsing by the human brain, not a machine.
· Highly customizable, from indentation size to depth level. You can even rename the
exported "p()" function!
· Beautiful (and customizable) colors to highlight variable dumps and make issues stand-
out quickly on your console. Comes bundled with several themes for you to pick that
work on light and dark terminal backgrounds, and you can create your own as well.
· Filters for specific data structures and objects to make debugging much, much easier.
Includes filters for many popular classes from CPAN like JSON::*, URI, HTTP::*, LWP,
Digest::*, DBI and DBIx::Class. printing what really matters to developers debugging
code. It also lets you create your own custom filters easily.
· Lets you inspect information that's otherwise difficult to find/debug in Perl 5, like
circular references, reference counting (refcount), weak/read-only information,
overloaded operators, tainted data, ties, dual vars, even estimated data size - all to
help you spot issues with your data like leaks without having to know a lot about
internal data structures or install hardcore tools like Devel::Peek and
Devel::Gladiator.
· keep your custom settings on a .dataprinter file that allows different options per
module being analyzed! You may also create a custom profile class with your
preferences and filters and upload it to CPAN.
· output to many different targets like files, variables or open handles (defaults to
STDERR). You can send your dumps to the screen or anywhere else, and customize this
setting on a per-project or even per-module basis, like print everything from
Some::Module to a debug.log file with extra info, and everything else to STDERR.
· Easy to learn, easy to master. Seriously, the synopsis above and the customization
section below cover about 90% of all use cases.
· Works on Perl 5.8 and later. Because you can't control where you debug, we try our
best to be compatible with all versions of Perl 5.
· Best of all? All that with No non-core dependencies, Zero. Nada. So don't worry about
adding extra weight to your project, as Data::Printer can be easily added/removed.
DESCRIPTION
The ever-popular Data::Dumper is a fantastic tool, meant to stringify data structures in a
way they are suitable for being "eval"'ed back in. The thing is, a lot of people keep
using it (and similar ones, like Data::Dump) to print data structures and objects on
screen for inspection and debugging, and while you can use those modules for that, it
doesn't mean you should.
This is where Data::Printer comes in. It is meant to do one thing and one thing only:
format Perl variables and objects to be inspected by a human
If you want to serialize/store/restore Perl data structures, this module will NOT help
you. Try Storable, Data::Dumper, JSON, or whatever. CPAN is full of such solutions!
Whenever you type "use Data::Printer" or "use DDP", we export two functions to your
namespace:
p()
This function pretty-prints the contents of whatever variable to STDERR (by default), and
will use colors by default if your terminal supports it.
p @some_array;
p %some_hash;
p $scalar_or_ref;
Note that anonymous structures will only work if you postderef them:
p [$foo, $bar, $baz]->@*;
you may also deref it manually:
p %{{ foo => $foo }};
or prefix "p()" with "&":
&p( [$foo, $bar, $baz] ); # & (note mandatory parenthesis)
You can pass custom options that will work only on that particular call:
p @var, as => "some label", colorized => 0;
p %var, show_memsize => 1;
By default, "p()" prints to STDERR and returns the same variable being dumped. This lets
you quickly wrap variables with "p()" without worrying about changing return values. It
means that if you change this:
sub foo { my $x = shift + 13; $x }
to this:
sub foo { my $x = shift + 13; p($x) }
The function will still return $x after printing the contents. This form of handling data
even allows method chaining, so if you want to inspect what's going on in the middle of
this:
$object->foo->bar->baz;
You can just add "DDP::p" anywhere:
$object->foo->DDP::p->bar->baz; # what happens to $object after ->foo?
Check out the customization quick reference section below for all available options,
including changing the return type, output target and a lot more.
np()
The "np()" function behaves exactly like "p()" except it always returns the string
containing the dump (thus ignoring any setting regarding dump mode or destination), and
contains no colors by default. In fact, the only way to force a colored "np()" is to pass
"colored => 1" as an argument to each call. It is meant to provide an easy way to fetch
the dump and send it to some unsupported target, or appended to some other text (like part
of a log message).
CUSTOMIZATION
There are 3 possible ways to customize Data::Printer:
1. [RECOMMENDED] Creating a ".dataprinter" file either on your home directory or your
project's base directory, or both, or wherever you set the "DATAPRINTERRC" environment
variable to.
2. Setting custom properties on module load. This will override any setting from your
config file on the namespace (package/module) it was called:
use DDP max_depth => 2, deparse => 1;
3. Setting custom properties on the actual call to "p()" or "np()". This overrides all
other settings:
p $var, show_tainted => 1, indent => 2;
The .dataprinter configuration file
The most powerful way to customize Data::Printer is to have a ".dataprinter" file in your
home directory or your project's root directory. The format is super simple and can be
understood in the example below:
# global settings (note that only full line comments are accepted)
max_depth = 1
theme = Monokai
class.stringify = 0
# use quotes if you want spaces to be significant:
hash_separator = " => "
# You can set rules that apply only to a specific
# caller module (in this case, MyApp::Some::Module):
[MyApp::Some::Module]
max_depth = 2
class.expand = 0
escape_chars = nonlatin1
[MyApp::Other::Module]
multiline = 0
output = /var/log/myapp/debug.data
Note that if you set custom properties as arguments to "p()" or "np()", you should group
suboptions as a hashref. So while the ".dataprinter" file has ""class.expand = 0"" and
""class.inherited = none"", the equivalent code is ""class => { expand => 0, inherited =>
'none' }"".
Properties Quick Reference
Below are (almost) all available properties and their (hopefully sane) default values. See
Data::Printer::Object for further information on each of them:
# scalar options
show_tainted = 1
show_unicode = 1
show_lvalue = 1
print_escapes = 0
scalar_quotes = "
escape_chars = none
string_max = 4096
string_preserve = begin
string_overflow = '(...skipping __SKIPPED__ chars...)'
unicode_charnames = 0
# array options
array_max = 100
array_preserve = begin
array_overflow = '(...skipping __SKIPPED__ items...)'
index = 1
# hash options
hash_max = 100
hash_preserve = begin
hash_overflow = '(...skipping __SKIPPED__ keys...)'
hash_separator = ' '
align_hash = 1
sort_keys = 1
quote_keys = auto
# general options
name = var
return_value = pass
output = stderr
use_prototypes = 1
indent = 4
show_readonly = 1
show_tied = 1
show_dualvar = lax
show_weak = 1
show_refcount = 0
show_memsize = 0
memsize_unit = auto
separator = ,
end_separator = 0
caller_info = 0
caller_message = 'Printing in line __LINE__ of __FILENAME__'
max_depth = 0
deparse = 0
alias = p
warnings = 1
# colorization (see Colors & Themes below)
colored = auto
theme = Material
# object output
class_method = _data_printer
class.parents = 1
class.linear_isa = auto
class.universal = 1
class.expand = 1
class.stringify = 1
class.show_reftype = 0
class.show_overloads = 1
class.show_methods = all
class.sort_methods = 1
class.inherited = none
class.format_inheritance = string
class.parent_filters = 1
class.internals = 1
Settings' shortcuts
· as - prints a string before the dump. So:
p $some_var, as => 'here!';
is a shortcut to:
p $some_var, caller_info => 1, caller_message => 'here!';
· multiline - lets you create shorter dumps. By setting it to 0, we use a single space
as linebreak and disable the array index. Setting it to 1 (the default) goes back to
using "\n" as linebreak and restore whatever array index you had originally.
· fulldump - when set to 1, disables all max string/hash/array values. Use this to
generate complete (full) dumps of all your content, which is trimmed by default.
Colors & Themes
Data::Printer lets you set custom colors for pretty much every part of the content being
printed. For example, if you want numbers to be shown in bright green, just put
"colors.number = #00ff00" on your configuration file.
See Data::Printer::Theme for the full list of labels, ways to represent and customize
colors, and even how to group them in your own custom theme.
The colorization is set by the "colored" property. It can be set to 0 (never colorize), 1
(always colorize) or 'auto' (the default), which will colorize "p()" only when there is no
"ANSI_COLORS_DISABLED" environment variable, the output is going to the terminal (STDOUT
or STDERR) and your terminal actually supports colors.
Profiles
You may bundle your settings and filters into a profile module. It works like a
configuration file but gives you the power and flexibility to use Perl code to find out
what to print and how to print. It also lets you use CPAN to store your preferred settings
and install them into your projects just like a regular dependency.
use DDP profile => 'ProfileName';
See Data::Printer::Profile for all the ways to load a profile, a list of available
profiles and how to make one yourself.
Filters
Data::Printer works by passing your variable to a different set of filters, depending on
whether it's a scalar, a hash, an array, an object, etc. It comes bundled with filters for
all native data types (always enabled, but overwritable), including a generic object
filter that pretty-prints regular and Moo(se) objects and is even aware of Role::Tiny.
Data::Printer also comes with filter bundles that can be quickly activated to make it
easier to debug binary data and many popular CPAN modules that handle date and time,
databases (yes, even DBIx::Class), message digests like MD5 and SHA1, and JSON and Web
content like HTTP requests and responses.
So much so we recommend everyone to activate all bundled filters by putting the following
line on your ".dataprinter" file:
filters = ContentType, DateTime, DB, Digest, Web
Creating your custom filters is very easy, and you're encouraged to upload them to CPAN.
There are many options available under the "Data::Printer::Filter::*" namespace. Check
Data::Printer::Filter for more information!
Making your classes DDP-aware (without adding any dependencies!)
The default object filter will first check if the class implements a sub called
'"_data_printer()"' (or whatever you set the "class_method" option to in your settings).
If so, Data::Printer will use it to get the string to print instead of making a regular
class dump.
This means you could have the following in one of your classes:
sub _data_printer {
my ($self, $ddp) = @_;
return 'Hey, no peeking! But foo contains ' . $self->foo;
}
Notice that you can do this without adding Data::Printer as a dependency to your project!
Just write your sub and it will be called with the object to be printed and a $ddp object
ready for you. See Data::Printer::Object for how to use it to pretty-print your data.
Finally, if your object implements string overload or provides a method called
"to_string", "as_string" or "stringify", Data::Printer will use it. To disable this
behaviour, set "class.stringify = 0" on your ".dataprinter" file, or call p() with "class
=> { stringify => 0 }".
Loading a filter for that particular class will of course override these settings.
CAVEATS
You can't pass more than one variable at a time.
p $foo, $bar; # wrong
p $foo; p $bar; # right
You can't use it in variable declarations (it will most likely not do what you want):
p my @array = qw(a b c d); # wrong
my @array = qw(a b c d); p @array; # right
If you pass a nonexistant key/index to DDP using prototypes, they will trigger
autovivification:
use DDP;
my %foo;
p $foo{bar}; # undef, but will create the 'bar' key (with undef)
my @x;
p $x[5]; # undef, but will initialize the array with 5 elements (all undef)
Slices (both array and hash) must be coerced into actual arrays (or hashes) to properly
shown. So if you want to print a slice, instead of doing something like this:
p @somevar[1..10]; # WRONG! DON'T DO THIS!
try one of those:
my @x = @somevar[1..10]; p @x; # works!
p [ @somevar[1..0] ]->@*; # also works!
p @{[@somevar[1..0]]}; # this works too!!
Finally, as mentioned before, you cannot pass anonymous references on the default mode of
"use_prototypes = 1":
p { foo => 1 }; # wrong!
p %{{ foo => 1 }}; # right
p { foo => 1 }->%*; # right on perl 5.24+
&p( { foo => 1 } ); # right, but requires the parenthesis
sub pp { p @_ }; # wrapping it also lets you use anonymous data.
use DDP use_prototypes => 0;
p { foo => 1 }; # works, but now p(@foo) will fail, you must always pass a ref,
# e.g. p(\@foo)
BACKWARDS INCOMPATIBLE CHANGES
While we make a genuine effort not to break anything on new releases, sometimes we do. To
make things easier for people migrating their code, we have aggregated here a list of all
incompatible changes since ever:
· 1.00 - some defaults changed! Because we added a bunch of new features (including
color themes), you may notice some difference on the default output of Data::Printer.
Hopefully it's for the best.
· 1.00 - new ".dataprinter" file format. This should only affect you if you have a
".dataprinter" file. The change was required to avoid calling "eval" on potentially
tainted/unknown code. It also provided a much cleaner interface.
· 1.00 - new way of creating external filters. This only affects you if you write or
use external filters. Previously, the sub in your "filters" call would get the
reference to be parsed and a properties hash. The properties hash has been replaced
with a Data::Printer::Object instance, providing much more power and flexibility.
Because of that, the filter call does not export "p()"/"np()" anymore, replaced by
methods in Data::Printer::Object.
· 1.00 - new way to call filters. This affects you if you load your own inline filters.
The fix is quick and Data::Printer will generate a warning explaining how to do it.
Basically, "filters => { ... }" became "filters => [{ ... }]" and you must replace
"-external => [1,2]" with "filters => [1, 2]", or "filters => [1, 2, {...}]" if you
also have inline filters. This allowed us much more power and flexibility with
filters, and hopefully also makes things clearer.
· 0.36 - "p()"'s default return value changed from 'dump' to 'pass'. This was a very
important change to ensure chained calls and to prevent weird side-effects when "p()"
is the last statement in a sub. Read the full discussion
<https://github.com/garu/Data-Printer/issues/16>.
Any undocumented change was probably unintended. If you bump into one, please file an
issue on Github!
TIPS & TRICKS
Using p() in some/all of your loaded modules
(contributed by Matt S. Trout (mst))
While debugging your software, you may want to use Data::Printer in some or all loaded
modules and not bother having to load it in each and every one of them. To do this, in any
module loaded by "myapp.pl", simply write:
::p @myvar; # note the '::' in front of p()
Then call your program like:
perl -MDDP myapp.pl
This also has the advantage that if you leave one p() call in by accident, it will trigger
a compile-time failure without the -M, making it easier to spot :)
If you really want to have p() imported into your loaded modules, use the next tip
instead.
Adding p() to all your loaded modules
(contributed by Árpád Szász)
If you wish to automatically add Data::Printer's "p()" function to every loaded module in
you app, you can do something like this to your main program:
BEGIN {
{
no strict 'refs';
require Data::Printer;
my $alias = 'p';
foreach my $package ( keys %main:: ) {
if ( $package =~ m/::$/ ) {
*{ $package . $alias } = \&Data::Printer::p;
}
}
}
}
WARNING This will override all locally defined subroutines/methods that are named "p", if
they exist, in every loaded module. If you already have a subroutine named '"p()"', be
sure to change $alias to something custom.
If you rather avoid namespace manipulation altogether, use the previous tip instead.
Using Data::Printer from the Perl debugger
(contributed by Árpád Szász and Marcel Grünauer (hanekomu))
With DB::Pluggable, you can easily set the perl debugger to use Data::Printer to print
variable information, replacing the debugger's standard "p()" function. All you have to do
is add these lines to your ".perldb" file:
use DB::Pluggable;
DB::Pluggable->run_with_config( \'[DataPrinter]' ); # note the '\'
Then call the perl debugger as you normally would:
perl -d myapp.pl
Now Data::Printer's "p()" command will be used instead of the debugger's!
See perldebug for more information on how to use the perl debugger, and DB::Pluggable for
extra functionality and other plugins.
If you can't or don't want to use DB::Pluggable, or simply want to keep the debugger's
"p()" function and add an extended version using Data::Printer (let's call it "px()" for
instance), you can add these lines to your ".perldb" file instead:
$DB::alias{px} = 's/px/DB::px/';
sub px {
my $expr = shift;
require Data::Printer;
print Data::Printer::p($expr);
}
Now, inside the Perl debugger, you can pass as reference to "px" expressions to be dumped
using Data::Printer.
Using Data::Printer in a perl shell (REPL)
Some people really enjoy using a REPL shell to quickly try Perl code. One of the most
popular ones out there is Devel::REPL. If you use it, now you can also see its output with
Data::Printer!
Just install Devel::REPL::Plugin::DataPrinter and add the following line to your re.pl
configuration file (usually ".re.pl/repl.rc" in your home dir):
load_plugin('DataPrinter');
The next time you run "re.pl", it should dump all your REPL using Data::Printer!
Easily rendering Data::Printer's output as HTML
To turn Data::Printer's output into HTML, you can do something like:
use HTML::FromANSI;
use Data::Printer;
my $html_output = ansi2html( np($object, colored => 1) );
In the example above, the $html_output variable contains the HTML escaped output of
"p($object)", so you can print it for later inspection or render it (if it's a web app).
Using Data::Printer with Template Toolkit
(contributed by Stephen Thirlwall (sdt))
If you use Template Toolkit and want to dump your variables using Data::Printer, install
the Template::Plugin::DataPrinter module and load it in your template:
[% USE DataPrinter %]
The provided methods match those of "Template::Plugin::Dumper":
ansi-colored dump of the data structure in "myvar":
[% DataPrinter.dump( myvar ) %]
html-formatted, colored dump of the same data structure:
[% DataPrinter.dump_html( myvar ) %]
The module allows several customization options, even letting you load it as a complete
drop-in replacement for Template::Plugin::Dumper so you don't even have to change your
previous templates!
Migrating from Data::Dumper to Data::Printer
If you are porting your code to use Data::Printer instead of Data::Dumper, you could
replace:
use Data::Dumper;
with something like:
use Data::Printer;
sub Dumper { np @_, colored => 1 }
this sub will accept multiple variables just like Data::Dumper.
Unified interface for Data::Printer and other debug formatters
(contributed by Kevin McGrath (catlgrep))
If you want a really unified approach to easily flip between debugging outputs, use
Any::Renderer and its plugins, like Any::Renderer::Data::Printer.
Printing stack traces with arguments expanded using Data::Printer
(contributed by Sergey Aleynikov (randir))
There are times where viewing the current state of a variable is not enough, and you
want/need to see a full stack trace of a function call.
The Devel::PrettyTrace module uses Data::Printer to provide you just that. It exports a
"bt()" function that pretty-prints detailed information on each function in your stack,
making it easier to spot any issues!
Troubleshooting apps in real time without changing a single line of your code
(contributed by Marcel Grünauer (hanekomu))
dip is a dynamic instrumentation framework for troubleshooting Perl programs, similar to
DTrace <http://opensolaris.org/os/community/dtrace/>. In a nutshell, "dip" lets you
create probes for certain conditions in your application that, once met, will perform a
specific action. Since it uses Aspect-oriented programming, it's very lightweight and you
only pay for what you use.
"dip" can be very useful since it allows you to debug your software without changing a
single line of your original code. And Data::Printer comes bundled with it, so you can use
the "p()" function to view your data structures too!
# Print a stack trace every time the name is changed,
# except when reading from the database.
dip -e 'before { print longmess(np $_->{args}[1], colored => 1)
if $_->{args}[1] } call "MyObj::name" & !cflow("MyObj::read")' myapp.pl
You can check dip's own documentation for more information and options.
Sample output for color fine-tuning
(contributed by Yanick Champoux (yanick))
The "examples/try_me.pl" file included in this distribution has a sample dump with a
complex data structure to let you quickly test color schemes.
VERSIONING AND UPDATES
As of 1.0.0 this module complies with "Major.Minor.Revision" versioning scheme (SemVer),
meaning backwards incompatible changes will trigger a new major number, new features
without any breaking changes trigger a new minor number, and simple patches trigger a
revision number.
CONTRIBUTORS
Many thanks to everyone who helped design and develop this module with patches, bug
reports, wishlists, comments and tests. They are (alphabetically):
Adam Rosenstein, Alexandr Ciornii (chorny), Alexander Hartmaier (abraxxa), Allan
Whiteford, Anatoly (Snelius30), Andreas König (andk), Andy Bach, Anthony DeRobertis, Árpád
Szász, Athanasios Douitsis (aduitsis), Baldur Kristinsson, Benct Philip Jonsson (bpj),
brian d foy, Chad Granum (exodist), Chris Prather (perigrin), Curtis Poe (Ovid), David D
Lowe (Flimm), David E. Condon (hhg7), David Golden (xdg), David Precious (bigpresh), David
Raab, David E. Wheeler (theory), Damien Krotkine (dams), Denis Howe, dirk, Dotan Dimet,
Eden Cardim (edenc), Elliot Shank (elliotjs), Eugen Konkov (KES777), Fernando Corrêa
(SmokeMachine), Fitz Elliott, Florian (fschlich), Frew Schmidt (frew), GianniGi, Graham
Knop (haarg), Graham Todd, Gregory J. Oschwald, grr, Håkon Hægland, Iaroslav O. Kosmina
(darviarush), Ivan Bessarabov (bessarabv), J Mash, James E. Keenan (jkeenan), Jarrod
Funnell (Timbus), Jay Allen (jayallen), Jay Hannah (jhannah), jcop, Jesse Luehrs (doy),
Joel Berger (jberger), John S. Anderson (genehack), Karen Etheridge (ether), Kartik
Thakore (kthakore), Kevin Dawson (bowtie), Kevin McGrath (catlgrep), Kip Hampton (ubu),
Londran, Marcel Grünauer (hanekomu), Marco Masetti (grubert65), Mark Fowler (Trelane),
Martin J. Evans, Matt S. Trout (mst), Maxim Vuets, Michael Conrad, Mike Doherty (doherty),
Nicolas R (atoomic), Nigel Metheringham (nigelm), Nuba Princigalli (nuba), Olaf Alders
(oalders), Paul Evans (LeoNerd), Pedro Melo (melo), Philippe Bruhat (BooK), Przemysław
Wesołek (jest), Rebecca Turner (iarna), Renato Cron (renatoCRON), Ricardo Signes (rjbs),
Rob Hoelz (hoelzro), Salve J. Nilsen (sjn), sawyer, Sebastian Willing (Sewi), Sébastien
Feugère (smonff), Sergey Aleynikov (randir), Slaven Rezić, Stanislaw Pusep (syp), Stephen
Thirlwall (sdt), sugyan, Tai Paul, Tatsuhiko Miyagawa (miyagawa), Thomas Sibley (tsibley),
Tim Heaney (oylenshpeegul), Toby Inkster (tobyink), Torsten Raudssus (Getty), Tokuhiro
Matsuno (tokuhirom), trapd00r, Tsai Chung-Kuan, Veesh Goldman (rabbiveesh), vividsnow,
Wesley Dal`Col (blabos), y, Yanick Champoux (yanick).
If I missed your name, please drop me a line!
LICENSE AND COPYRIGHT
Copyright (C) 2011-2021 Breno G. de Oliveira
This program is free software; you can redistribute it and/or modify it under the terms of
either: the GNU General Public License as published by the Free Software Foundation; or
the Artistic License.
See <http://dev.perl.org/licenses/> for more information.
DISCLAIMER OF WARRANTY
BECAUSE THIS SOFTWARE IS LICENSED FREE OF CHARGE, THERE IS NO WARRANTY FOR THE SOFTWARE,
TO THE EXTENT PERMITTED BY APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE
COPYRIGHT HOLDERS AND/OR OTHER PARTIES PROVIDE THE SOFTWARE "AS IS" WITHOUT WARRANTY OF
ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ENTIRE RISK AS TO
THE QUALITY AND PERFORMANCE OF THE SOFTWARE IS WITH YOU. SHOULD THE SOFTWARE PROVE
DEFECTIVE, YOU ASSUME THE COST OF ALL NECESSARY SERVICING, REPAIR, OR CORRECTION.
IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING WILL ANY COPYRIGHT
HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY AND/OR REDISTRIBUTE THE SOFTWARE AS PERMITTED BY
THE ABOVE LICENCE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY GENERAL, SPECIAL,
INCIDENTAL, OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE THE
SOFTWARE (INCLUDING BUT NOT LIMITED TO LOSS OF DATA OR DATA BEING RENDERED INACCURATE OR
LOSSES SUSTAINED BY YOU OR THIRD PARTIES OR A FAILURE OF THE SOFTWARE TO OPERATE WITH ANY
OTHER SOFTWARE), EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF
SUCH DAMAGES.