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CONTENTS

NAME

Locale::Maketext - framework for localization

SYNOPSIS

package MyProgram;
use strict;
use MyProgram::L10N;
 # ...which inherits from Locale::Maketext
my $lh = MyProgram::L10N->get_handle() || die "What language?";
...
# And then any messages your program emits, like:
warn $lh->maketext( "Can't open file [_1]: [_2]\n", $f, $! );
...

DESCRIPTION

It is a common feature of applications (whether run directly, or via the Web) for them to be "localized" -- i.e., for them to a present an English interface to an English-speaker, a German interface to a German-speaker, and so on for all languages it's programmed with. Locale::Maketext is a framework for software localization; it provides you with the tools for organizing and accessing the bits of text and text-processing code that you need for producing localized applications.

In order to make sense of Maketext and how all its components fit together, you should probably go read Locale::Maketext::TPJ13, and then read the following documentation.

You may also want to read over the source for File::Findgrep and its constituent modules -- they are a complete (if small) example application that uses Maketext.

QUICK OVERVIEW

The basic design of Locale::Maketext is object-oriented, and Locale::Maketext is an abstract base class, from which you derive a "project class". The project class (with a name like "TkBocciBall::Localize", which you then use in your module) is in turn the base class for all the "language classes" for your project (with names "TkBocciBall::Localize::it", "TkBocciBall::Localize::en", "TkBocciBall::Localize::fr", etc.).

A language class is a class containing a lexicon of phrases as class data, and possibly also some methods that are of use in interpreting phrases in the lexicon, or otherwise dealing with text in that language.

An object belonging to a language class is called a "language handle"; it's typically a flyweight object.

The normal course of action is to call:

use TkBocciBall::Localize;  # the localization project class
$lh = TkBocciBall::Localize->get_handle();
 # Depending on the user's locale, etc., this will
 # make a language handle from among the classes available,
 # and any defaults that you declare.
die "Couldn't make a language handle??" unless $lh;

From then on, you use the maketext function to access entries in whatever lexicon(s) belong to the language handle you got. So, this:

print $lh->maketext("You won!"), "\n";

...emits the right text for this language. If the object in $lh belongs to class "TkBocciBall::Localize::fr" and %TkBocciBall::Localize::fr::Lexicon contains ("You won!" => "Tu as gagné!"), then the above code happily tells the user "Tu as gagné!".

METHODS

Locale::Maketext offers a variety of methods, which fall into three categories:

These are covered in the following section.

Construction Methods

These are to do with constructing a language handle:

The "maketext" Method

This is the most important method in Locale::Maketext:

$text = $lh->maketext(I<key>, ...parameters for this phrase...);

This looks in the %Lexicon of the language handle $lh and all its superclasses, looking for an entry whose key is the string key. Assuming such an entry is found, various things then happen, depending on the value found:

If the value is a scalarref, the scalar is dereferenced and returned (and any parameters are ignored).

If the value is a coderef, we return &$value($lh, ...parameters...).

If the value is a string that doesn't look like it's in Bracket Notation, we return it (after replacing it with a scalarref, in its %Lexicon).

If the value does look like it's in Bracket Notation, then we compile it into a sub, replace the string in the %Lexicon with the new coderef, and then we return &$new_sub($lh, ...parameters...).

Bracket Notation is discussed in a later section. Note that trying to compile a string into Bracket Notation can throw an exception if the string is not syntactically valid (say, by not balancing brackets right.)

Also, calling &$coderef($lh, ...parameters...) can throw any sort of exception (if, say, code in that sub tries to divide by zero). But a very common exception occurs when you have Bracket Notation text that says to call a method "foo", but there is no such method. (E.g., "You have [quatn,_1,ball]." will throw an exception on trying to call $lh->quatn($_[1],'ball') -- you presumably meant "quant".) maketext catches these exceptions, but only to make the error message more readable, at which point it rethrows the exception.

An exception may be thrown if key is not found in any of $lh's %Lexicon hashes. What happens if a key is not found, is discussed in a later section, "Controlling Lookup Failure".

Note that you might find it useful in some cases to override the maketext method with an "after method", if you want to translate encodings, or even scripts:

package YrProj::zh_cn; # Chinese with PRC-style glyphs
use base ('YrProj::zh_tw');  # Taiwan-style
sub maketext {
  my $self = shift(@_);
  my $value = $self->maketext(@_);
  return Chineeze::taiwan2mainland($value);
}

Or you may want to override it with something that traps any exceptions, if that's critical to your program:

sub maketext {
  my($lh, @stuff) = @_;
  my $out;
  eval { $out = $lh->SUPER::maketext(@stuff) };
  return $out unless $@;
  ...otherwise deal with the exception...
}

Other than those two situations, I don't imagine that it's useful to override the maketext method. (If you run into a situation where it is useful, I'd be interested in hearing about it.)

$lh->fail_with or $lh->fail_with(PARAM)
$lh->failure_handler_auto

These two methods are discussed in the section "Controlling Lookup Failure".

Utility Methods

These are methods that you may find it handy to use, generally from %Lexicon routines of yours (whether expressed as Bracket Notation or not).

$language->quant($number, $singular)
$language->quant($number, $singular, $plural)
$language->quant($number, $singular, $plural, $negative)

This is generally meant to be called from inside Bracket Notation (which is discussed later), as in

"Your search matched [quant,_1,document]!"

It's for quantifying a noun (i.e., saying how much of it there is, while giving the correct form of it). The behavior of this method is handy for English and a few other Western European languages, and you should override it for languages where it's not suitable. You can feel free to read the source, but the current implementation is basically as this pseudocode describes:

if $number is 0 and there's a $negative,
   return $negative;
elsif $number is 1,
   return "1 $singular";
elsif there's a $plural,
   return "$number $plural";
else
   return "$number " . $singular . "s";
#
# ...except that we actually call numf to
#  stringify $number before returning it.

So for English (with Bracket Notation) "...[quant,_1,file]..." is fine (for 0 it returns "0 files", for 1 it returns "1 file", and for more it returns "2 files", etc.)

But for "directory", you'd want "[quant,_1,directory,directories]" so that our elementary quant method doesn't think that the plural of "directory" is "directorys". And you might find that the output may sound better if you specify a negative form, as in:

"[quant,_1,file,files,No files] matched your query.\n"

Remember to keep in mind verb agreement (or adjectives too, in other languages), as in:

"[quant,_1,document] were matched.\n"

Because if _1 is one, you get "1 document were matched". An acceptable hack here is to do something like this:

"[quant,_1,document was, documents were] matched.\n"
$language->numf($number)

This returns the given number formatted nicely according to this language's conventions. Maketext's default method is mostly to just take the normal string form of the number (applying sprintf "%G" for only very large numbers), and then to add commas as necessary. (Except that we apply tr/,./.,/ if $language->{'numf_comma'} is true; that's a bit of a hack that's useful for languages that express two million as "2.000.000" and not as "2,000,000").

If you want anything fancier, consider overriding this with something that uses Number::Format, or does something else entirely.

Note that numf is called by quant for stringifying all quantifying numbers.

$language->numerate($number, $singular, $plural, $negative)

This returns the given noun form which is appropriate for the quantity $number according to this language's conventions. numerate is used internally by quant to quantify nouns. Use it directly -- usually from bracket notation -- to avoid quant's implicit call to numf and output of a numeric quantity.

$language->sprintf($format, @items)

This is just a wrapper around Perl's normal sprintf function. It's provided so that you can use "sprintf" in Bracket Notation:

"Couldn't access datanode [sprintf,%10x=~[%s~],_1,_2]!\n"

returning...

Couldn't access datanode      Stuff=[thangamabob]!
$language->language_tag()

Currently this just takes the last bit of ref($language), turns underscores to dashes, and returns it. So if $language is an object of class Hee::HOO::Haw::en_us, $language->language_tag() returns "en-us". (Yes, the usual representation for that language tag is "en-US", but case is never considered meaningful in language-tag comparison.)

You may override this as you like; Maketext doesn't use it for anything.

$language->encoding()

Currently this isn't used for anything, but it's provided (with default value of (ref($language) && $language->{'encoding'})) or "iso-8859-1" ) as a sort of suggestion that it may be useful/necessary to associate encodings with your language handles (whether on a per-class or even per-handle basis.)

Language Handle Attributes and Internals

A language handle is a flyweight object -- i.e., it doesn't (necessarily) carry any data of interest, other than just being a member of whatever class it belongs to.

A language handle is implemented as a blessed hash. Subclasses of yours can store whatever data you want in the hash. Currently the only hash entry used by any crucial Maketext method is "fail", so feel free to use anything else as you like.

Remember: Don't be afraid to read the Maketext source if there's any point on which this documentation is unclear. This documentation is vastly longer than the module source itself.

LANGUAGE CLASS HIERARCHIES

These are Locale::Maketext's assumptions about the class hierarchy formed by all your language classes:

ENTRIES IN EACH LEXICON

A typical %Lexicon entry is meant to signify a phrase, taking some number (0 or more) of parameters. An entry is meant to be accessed by via a string key in $lh->maketext(key, ...parameters...), which should return a string that is generally meant for be used for "output" to the user -- regardless of whether this actually means printing to STDOUT, writing to a file, or putting into a GUI widget.

While the key must be a string value (since that's a basic restriction that Perl places on hash keys), the value in the lexicon can currently be of several types: a defined scalar, scalarref, or coderef. The use of these is explained above, in the section 'The "maketext" Method', and Bracket Notation for strings is discussed in the next section.

While you can use arbitrary unique IDs for lexicon keys (like "_min_larger_max_error"), it is often useful for if an entry's key is itself a valid value, like this example error message:

"Minimum ([_1]) is larger than maximum ([_2])!\n",

Compare this code that uses an arbitrary ID...

die $lh->maketext( "_min_larger_max_error", $min, $max )
 if $min > $max;

...to this code that uses a key-as-value:

die $lh->maketext(
 "Minimum ([_1]) is larger than maximum ([_2])!\n",
 $min, $max
) if $min > $max;

The second is, in short, more readable. In particular, it's obvious that the number of parameters you're feeding to that phrase (two) is the number of parameters that it wants to be fed. (Since you see _1 and a _2 being used in the key there.)

Also, once a project is otherwise complete and you start to localize it, you can scrape together all the various keys you use, and pass it to a translator; and then the translator's work will go faster if what he's presented is this:

"Minimum ([_1]) is larger than maximum ([_2])!\n",
 => "",   # fill in something here, Jacques!

rather than this more cryptic mess:

"_min_larger_max_error"
 => "",   # fill in something here, Jacques

I think that keys as lexicon values makes the completed lexicon entries more readable:

"Minimum ([_1]) is larger than maximum ([_2])!\n",
 => "Le minimum ([_1]) est plus grand que le maximum ([_2])!\n",

Also, having valid values as keys becomes very useful if you set up an _AUTO lexicon. _AUTO lexicons are discussed in a later section.

I almost always use keys that are themselves valid lexicon values. One notable exception is when the value is quite long. For example, to get the screenful of data that a command-line program might return when given an unknown switch, I often just use a brief, self-explanatory key such as "_USAGE_MESSAGE". At that point I then go and immediately to define that lexicon entry in the ProjectClass::L10N::en lexicon (since English is always my "project language"):

'_USAGE_MESSAGE' => <<'EOSTUFF',
...long long message...
EOSTUFF

and then I can use it as:

getopt('oDI', \%opts) or die $lh->maketext('_USAGE_MESSAGE');

Incidentally, note that each class's %Lexicon inherits-and-extends the lexicons in its superclasses. This is not because these are special hashes per se, but because you access them via the maketext method, which looks for entries across all the %Lexicon hashes in a language class and all its ancestor classes. (This is because the idea of "class data" isn't directly implemented in Perl, but is instead left to individual class-systems to implement as they see fit..)

Note that you may have things stored in a lexicon besides just phrases for output: for example, if your program takes input from the keyboard, asking a "(Y/N)" question, you probably need to know what the equivalent of "Y[es]/N[o]" is in whatever language. You probably also need to know what the equivalents of the answers "y" and "n" are. You can store that information in the lexicon (say, under the keys "~answer_y" and "~answer_n", and the long forms as "~answer_yes" and "~answer_no", where "~" is just an ad-hoc character meant to indicate to programmers/translators that these are not phrases for output).

Or instead of storing this in the language class's lexicon, you can (and, in some cases, really should) represent the same bit of knowledge as code in a method in the language class. (That leaves a tidy distinction between the lexicon as the things we know how to say, and the rest of the things in the lexicon class as things that we know how to do.) Consider this example of a processor for responses to French "oui/non" questions:

sub y_or_n {
  return undef unless defined $_[1] and length $_[1];
  my $answer = lc $_[1];  # smash case
  return 1 if $answer eq 'o' or $answer eq 'oui';
  return 0 if $answer eq 'n' or $answer eq 'non';
  return undef;
}

...which you'd then call in a construct like this:

my $response;
until(defined $response) {
  print $lh->maketext("Open the pod bay door (y/n)? ");
  $response = $lh->y_or_n( get_input_from_keyboard_somehow() );
}
if($response) { $pod_bay_door->open()         }
else          { $pod_bay_door->leave_closed() }

Other data worth storing in a lexicon might be things like filenames for language-targetted resources:

...
"_main_splash_png"
  => "/styles/en_us/main_splash.png",
"_main_splash_imagemap"
  => "/styles/en_us/main_splash.incl",
"_general_graphics_path"
  => "/styles/en_us/",
"_alert_sound"
  => "/styles/en_us/hey_there.wav",
"_forward_icon"
 => "left_arrow.png",
"_backward_icon"
 => "right_arrow.png",
# In some other languages, left equals
#  BACKwards, and right is FOREwards.
...

You might want to do the same thing for expressing key bindings or the like (since hardwiring "q" as the binding for the function that quits a screen/menu/program is useful only if your language happens to associate "q" with "quit"!)

BRACKET NOTATION

Bracket Notation is a crucial feature of Locale::Maketext. I mean Bracket Notation to provide a replacement for the use of sprintf formatting. Everything you do with Bracket Notation could be done with a sub block, but bracket notation is meant to be much more concise.

Bracket Notation is a like a miniature "template" system (in the sense of Text::Template, not in the sense of C++ templates), where normal text is passed thru basically as is, but text in special regions is specially interpreted. In Bracket Notation, you use square brackets ("[...]"), not curly braces ("{...}") to note sections that are specially interpreted.

For example, here all the areas that are taken literally are underlined with a "^", and all the in-bracket special regions are underlined with an X:

"Minimum ([_1]) is larger than maximum ([_2])!\n",
 ^^^^^^^^^ XX ^^^^^^^^^^^^^^^^^^^^^^^^^^ XX ^^^^

When that string is compiled from bracket notation into a real Perl sub, it's basically turned into:

sub {
  my $lh = $_[0];
  my @params = @_;
  return join '',
    "Minimum (",
    ...some code here...
    ") is larger than maximum (",
    ...some code here...
    ")!\n",
}
# to be called by $lh->maketext(KEY, params...)

In other words, text outside bracket groups is turned into string literals. Text in brackets is rather more complex, and currently follows these rules:

The group as a whole is interpreted as follows:

Note, incidentally, that items in each group are comma-separated, not /\s*,\s*/-separated. That is, you might expect that this bracket group:

"Hoohah [foo, _1 , bar ,baz]!"

would compile to this:

sub {
  my $lh = $_[0];
  return join '',
    "Hoohah ",
    $lh->foo( $_[1], "bar", "baz"),
    "!",
}

But it actually compiles as this:

sub {
  my $lh = $_[0];
  return join '',
    "Hoohah ",
    $lh->foo(" _1 ", " bar ", "baz"),  # note the <space> in " bar "
    "!",
}

In the notation discussed so far, the characters "[" and "]" are given special meaning, for opening and closing bracket groups, and "," has a special meaning inside bracket groups, where it separates items in the group. This begs the question of how you'd express a literal "[" or "]" in a Bracket Notation string, and how you'd express a literal comma inside a bracket group. For this purpose I've adopted "~" (tilde) as an escape character: "~[" means a literal '[' character anywhere in Bracket Notation (i.e., regardless of whether you're in a bracket group or not), and ditto for "~]" meaning a literal ']', and "~," meaning a literal comma. (Altho "," means a literal comma outside of bracket groups -- it's only inside bracket groups that commas are special.)

And on the off chance you need a literal tilde in a bracket expression, you get it with "~~".

Currently, an unescaped "~" before a character other than a bracket or a comma is taken to mean just a "~" and that character. I.e., "~X" means the same as "~~X" -- i.e., one literal tilde, and then one literal "X". However, by using "~X", you are assuming that no future version of Maketext will use "~X" as a magic escape sequence. In practice this is not a great problem, since first off you can just write "~~X" and not worry about it; second off, I doubt I'll add lots of new magic characters to bracket notation; and third off, you aren't likely to want literal "~" characters in your messages anyway, since it's not a character with wide use in natural language text.

Brackets must be balanced -- every openbracket must have one matching closebracket, and vice versa. So these are all invalid:

"I ate [quant,_1,rhubarb pie."
"I ate [quant,_1,rhubarb pie[."
"I ate quant,_1,rhubarb pie]."
"I ate quant,_1,rhubarb pie[."

Currently, bracket groups do not nest. That is, you cannot say:

"Foo [bar,baz,[quux,quuux]]\n";

If you need a notation that's that powerful, use normal Perl:

%Lexicon = (
  ...
  "some_key" => sub {
    my $lh = $_[0];
    join '',
      "Foo ",
      $lh->bar('baz', $lh->quux('quuux')),
      "\n",
  },
  ...
);

Or write the "bar" method so you don't need to pass it the output from calling quux.

I do not anticipate that you will need (or particularly want) to nest bracket groups, but you are welcome to email me with convincing (real-life) arguments to the contrary.

AUTO LEXICONS

If maketext goes to look in an individual %Lexicon for an entry for key (where key does not start with an underscore), and sees none, but does see an entry of "_AUTO" => some_true_value, then we actually define $Lexicon{key} = key right then and there, and then use that value as if it had been there all along. This happens before we even look in any superclass %Lexicons!

(This is meant to be somewhat like the AUTOLOAD mechanism in Perl's function call system -- or, looked at another way, like the AutoLoader module.)

I can picture all sorts of circumstances where you just do not want lookup to be able to fail (since failing normally means that maketext throws a die, although see the next section for greater control over that). But here's one circumstance where _AUTO lexicons are meant to be especially useful:

As you're writing an application, you decide as you go what messages you need to emit. Normally you'd go to write this:

if(-e $filename) {
  go_process_file($filename)
} else {
  print qq{Couldn't find file "$filename"!\n};
}

but since you anticipate localizing this, you write:

use ThisProject::I18N;
my $lh = ThisProject::I18N->get_handle();
 # For the moment, assume that things are set up so
 # that we load class ThisProject::I18N::en
 # and that that's the class that $lh belongs to.
...
if(-e $filename) {
  go_process_file($filename)
} else {
  print $lh->maketext(
    qq{Couldn't find file "[_1]"!\n}, $filename
  );
}

Now, right after you've just written the above lines, you'd normally have to go open the file ThisProject/I18N/en.pm, and immediately add an entry:

"Couldn't find file \"[_1]\"!\n"
=> "Couldn't find file \"[_1]\"!\n",

But I consider that somewhat of a distraction from the work of getting the main code working -- to say nothing of the fact that I often have to play with the program a few times before I can decide exactly what wording I want in the messages (which in this case would require me to go changing three lines of code: the call to maketext with that key, and then the two lines in ThisProject/I18N/en.pm).

However, if you set "_AUTO => 1" in the %Lexicon in, ThisProject/I18N/en.pm (assuming that English (en) is the language that all your programmers will be using for this project's internal message keys), then you don't ever have to go adding lines like this

"Couldn't find file \"[_1]\"!\n"
=> "Couldn't find file \"[_1]\"!\n",

to ThisProject/I18N/en.pm, because if _AUTO is true there, then just looking for an entry with the key "Couldn't find file \"[_1]\"!\n" in that lexicon will cause it to be added, with that value!

Note that the reason that keys that start with "_" are immune to _AUTO isn't anything generally magical about the underscore character -- I just wanted a way to have most lexicon keys be autoable, except for possibly a few, and I arbitrarily decided to use a leading underscore as a signal to distinguish those few.

READONLY LEXICONS

If your lexicon is a tied hash the simple act of caching the compiled value can be fatal.

For example a GDBM_File GDBM_READER tied hash will die with something like:

gdbm store returned -1, errno 2, key "..." at ...

All you need to do is turn on caching outside of the lexicon hash itself like so:

sub init {
    my ($lh) = @_;
    ...
    $lh->{'use_external_lex_cache'} = 1;
    ...
}

And then instead of storing the compiled value in the lexicon hash it will store it in $lh->{'_external_lex_cache'}

CONTROLLING LOOKUP FAILURE

If you call $lh->maketext(key, ...parameters...), and there's no entry key in $lh's class's %Lexicon, nor in the superclass %Lexicon hash, and if we can't auto-make key (because either it starts with a "_", or because none of its lexicons have _AUTO => 1,), then we have failed to find a normal way to maketext key. What then happens in these failure conditions, depends on the $lh object's "fail" attribute.

If the language handle has no "fail" attribute, maketext will simply throw an exception (i.e., it calls die, mentioning the key whose lookup failed, and naming the line number where the calling $lh->maketext(key,...) was.

If the language handle has a "fail" attribute whose value is a coderef, then $lh->maketext(key,...params...) gives up and calls:

return $that_subref->($lh, $key, @params);

Otherwise, the "fail" attribute's value should be a string denoting a method name, so that $lh->maketext(key,...params...) can give up with:

return $lh->$that_method_name($phrase, @params);

The "fail" attribute can be accessed with the fail_with method:

# Set to a coderef:
$lh->fail_with( \&failure_handler );

# Set to a method name:
$lh->fail_with( 'failure_method' );

# Set to nothing (i.e., so failure throws a plain exception)
$lh->fail_with( undef );

# Get the current value
$handler = $lh->fail_with();

Now, as to what you may want to do with these handlers: Maybe you'd want to log what key failed for what class, and then die. Maybe you don't like die and instead you want to send the error message to STDOUT (or wherever) and then merely exit().

Or maybe you don't want to die at all! Maybe you could use a handler like this:

# Make all lookups fall back onto an English value,
#  but only after we log it for later fingerpointing.
my $lh_backup = ThisProject->get_handle('en');
open(LEX_FAIL_LOG, ">>wherever/lex.log") || die "GNAARGH $!";
sub lex_fail {
  my($failing_lh, $key, $params) = @_;
  print LEX_FAIL_LOG scalar(localtime), "\t",
     ref($failing_lh), "\t", $key, "\n";
  return $lh_backup->maketext($key,@params);
}

Some users have expressed that they think this whole mechanism of having a "fail" attribute at all, seems a rather pointless complication. But I want Locale::Maketext to be usable for software projects of any scale and type; and different software projects have different ideas of what the right thing is to do in failure conditions. I could simply say that failure always throws an exception, and that if you want to be careful, you'll just have to wrap every call to $lh->maketext in an eval { }. However, I want programmers to reserve the right (via the "fail" attribute) to treat lookup failure as something other than an exception of the same level of severity as a config file being unreadable, or some essential resource being inaccessible.

One possibly useful value for the "fail" attribute is the method name "failure_handler_auto". This is a method defined in the class Locale::Maketext itself. You set it with:

$lh->fail_with('failure_handler_auto');

Then when you call $lh->maketext(key, ...parameters...) and there's no key in any of those lexicons, maketext gives up with

return $lh->failure_handler_auto($key, @params);

But failure_handler_auto, instead of dying or anything, compiles $key, caching it in

$lh->{'failure_lex'}{$key} = $compiled

and then calls the compiled value, and returns that. (I.e., if $key looks like bracket notation, $compiled is a sub, and we return &{$compiled}(@params); but if $key is just a plain string, we just return that.)

The effect of using "failure_auto_handler" is like an AUTO lexicon, except that it 1) compiles $key even if it starts with "_", and 2) you have a record in the new hashref $lh->{'failure_lex'} of all the keys that have failed for this object. This should avoid your program dying -- as long as your keys aren't actually invalid as bracket code, and as long as they don't try calling methods that don't exist.

"failure_auto_handler" may not be exactly what you want, but I hope it at least shows you that maketext failure can be mitigated in any number of very flexible ways. If you can formalize exactly what you want, you should be able to express that as a failure handler. You can even make it default for every object of a given class, by setting it in that class's init:

sub init {
  my $lh = $_[0];  # a newborn handle
  $lh->SUPER::init();
  $lh->fail_with('my_clever_failure_handler');
  return;
}
sub my_clever_failure_handler {
  ...you clever things here...
}

HOW TO USE MAKETEXT

Here is a brief checklist on how to use Maketext to localize applications:

SEE ALSO

I recommend reading all of these:

Locale::Maketext::TPJ13 -- my The Perl Journal article about Maketext. It explains many important concepts underlying Locale::Maketext's design, and some insight into why Maketext is better than the plain old approach of having message catalogs that are just databases of sprintf formats.

File::Findgrep is a sample application/module that uses Locale::Maketext to localize its messages. For a larger internationalized system, see also Apache::MP3.

I18N::LangTags.

Win32::Locale.

RFC 3066, Tags for the Identification of Languages, as at http://sunsite.dk/RFC/rfc/rfc3066.html

RFC 2277, IETF Policy on Character Sets and Languages is at http://sunsite.dk/RFC/rfc/rfc2277.html -- much of it is just things of interest to protocol designers, but it explains some basic concepts, like the distinction between locales and language-tags.

The manual for GNU gettext. The gettext dist is available in ftp://prep.ai.mit.edu/pub/gnu/ -- get a recent gettext tarball and look in its "doc/" directory, there's an easily browsable HTML version in there. The gettext documentation asks lots of questions worth thinking about, even if some of their answers are sometimes wonky, particularly where they start talking about pluralization.

The Locale/Maketext.pm source. Observe that the module is much shorter than its documentation!

COPYRIGHT AND DISCLAIMER

Copyright (c) 1999-2004 Sean M. Burke. All rights reserved.

This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself.

This program is distributed in the hope that it will be useful, but without any warranty; without even the implied warranty of merchantability or fitness for a particular purpose.

AUTHOR

Sean M. Burke sburke@cpan.org