John Peacock > Math-Currency-0.47 > Math::Currency

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Module Version: 0.47   Source  

NAME ^

Math::Currency - Exact Currency Math with Formatting and Rounding

SYNOPSIS ^

 use Math::Currency qw(Money $LC_MONETARY);
 $dollar = Math::Currency->new("$12,345.67");
 $taxamt = $dollar * 0.28;
 # this sets the default format for all objects w/o their own format
 Math::Currency->format('EUR');
 $euro = Money(12345.67);
 $euro_string = Money(12345.67)->bstr();
 # or if you already have a Math::Currency object
 $euro_string = "$euro";

DESCRIPTION ^

Currency math is actually more closely related to integer math than it is to floating point math. Rounding errors on addition and subtraction are not allowed and division/multiplication should never create more accuracy than the original values. All currency values should round to the closest cent or whatever the local equivalent should happen to be.

However, repeated mathematical operations on currency values can lead to inaccurate results, if rounding is performed at each intermediate step. In order to preserve appropriate accuracy, the Math::Currency values are stored with an additional two places of accuracy internally and only rounded to the "correct" precision when the value is displayed (either by the default stringification or through the use of as_float or as_int).

All common mathematical operations are overloaded, so once you initialize a currency variable, you can treat it like any number and the module will do the right thing. This module is a thin layer over Math::BigFloat which is itself a layer over Math::BigInt.

Important Note on Input Values ^

Since the point of this module is to perform currency math and not floating point math, it is important to understand how the initial value passed to new() may have nasty side effects if done improperly. Most of the time, the following two objects are identical:

        $cur1 = new Math::Currency 1000.01;
        $cur2 = new Math::Currency "1000.01";

However, only the second is guaranteed to do what you think it should do. The reason for that lies in how Perl treats bare numbers as opposed to strings. The first new() will receive the Perl-stringified representation of the number 1000.01, whereas the second new() will receive the string "1000.01" instead. With most locale settings, this will be largely identical. However, with many European locales (like fr_FR), the first new() will receive the string "1 000,01" and this will cause Math::BigFloat to report this as NAN (Not A Number) because of the odd posix driven formatting.

For this reason, it is always recommended that input values be quoted at all times, even if your POSIX locale does not have this unfortunate side effect.

Output Formatting ^

Each currency value can have an individual format or the global currency format can be changed to reflect local usage. I used the suggestions in Tom Christiansen's PerlTootC to implement translucent attributes. If you have set your locale values correctly, this module will pick up your local settings or US standards if you haven't. You can also specify an output format using one of the predefined Locale formats or your own custom format.

Locale Support

This module uses the builtin locale support provided by your operating system to generate the appropriate currency formatting. Much of this support will happen automagically if you have your LANG environment setting correct. If you chose not to install multiple locales when you installed your operating system, you will only be able to use your default locale format or one of the "Predefined Locales" included in the distribution.

The automatic locale support will take effect if you request a locale by name in the for lc_CC (language/country code) like fr_CA (French Canadian) or en_NZ (English New Zealand). If you pregenerate your "Custom Locale", an alias class will be added so that you can refer to the currency by either the locale name or the INT_CURR_SYMBOL (e.g. USD or GBP).

IMPORTANT NOTE: there are multiple locales which implement the EUR (Euro) currency, each with slightly different formatting rules (aren't standards wonderful). If you use multiple currencies that represent EUR, the last one loaded will be available as the INT_CURR_SYMBOL shortcut. You should always use the locale name to refer to these currencies, if you are mixing them in a single program.

Predefined Locales

There are currently four predefined Locale formats:

    en_US = United States dollars (the default if no locale)
    en_GB = British Pounds Sterling
    ja_JP = Japanese Yen 
    de_DE = German Euro

These currency formats are implemented using subclasses for easy extension (see "Custom Locales" for details on creating new subclasses for unsupported locales). If you are using a locale in a country that uses the Euro, you should create your own local format file using your default LANG setting, since the Euro formatting rules are country specific.

IMPORTANT NOTE: the predefined locales have been generated using non-UTF-8 locales (since all of the above currencies have a native ASCII character available). If you use a UTF-8 locale (common with more modern Linux distros), then the non-UTF-8 version will be used if found. Some locales require the use of UTF-8 to represent their local currency, so you must generate your own "Custom Locale" to fully support that usage.

If you want to use any locale other than your default in a single script, there are two different ways to specify which currency format you wish to use, with somewhat subtle differences:

Currency Symbol

The locale definition includes two different Currency Symbol strings: one is the native character(s), like $ or £ or ¥; the other is the three character string defined by the ISO4217 specification followed by the normal currency separation character (frequently space). The default behavior is to always display the native CURRENCY_SYMBOL unless a global parameter is set:

    $Math::Currency::use_int = 1; # print the currency symbol text

where the INT_CURR_SYMBOL text will used instead.

Custom Locales

The included file, scripts/new_currency, will automatically create a new currency formatting subclass, based on your current locale, or any arbitrary locale supported by your operating system. For most unix-like O/S's, the following command will list the locale files installed:

    locale -a

and any of those installed locales can [potentially] be used to create a new locale formatting file.

It is not necessary to do this, since using the format command to switch to a locale which doesn't already have a subclass defined for it will attempt to generate a locale format on the fly. However, it should be noted that the automated generation method will merely look for the first locales that uses the requested INT_CURR_SYMBOL. There may be several locales which use that same currency symbol, with subtle differences (this is especially true of the EUR format), so it is best to pre-generate all of the POSIX currency subclasses you expect, based on the locales you wish to support, to utilize when installing this module, instead of relying on the autogeneration methods.

To create a new locale formatting subclass, change to the top level build directory for Math::Currency and run the following command:

    scripts/new_currency [xx_XX]

where xx_XX is the locale name obtained from the `locale -a` command. This will create a new locale subclass in the lib/Math/Currency/ directory, and this file will be installed when `./Build install` is next run.

If you run the script without any commandline option, it will take the contents of your LANG environment variable and generate your default locale. NOTE that if you are using a UTF-8 locale, the generated file will also be UTF-8 (which may not be what you want). You probably always want to specify the locale name when generating new classes.

The new_currency script will function from within the current build directory, and doesn't depend the current version of Math::Currency being already installed, so you can build all of your commonly used locale files and install them at once.

Global Format

Global formatting can be changed by setting the package global format like this:

    Math::Currency->format('USD');

POSIX Locale Global Formatting

In addition to the four predefined formats listed above, you can also use the POSIX monetary format for a locale which you are not currently running (e.g. for a web site). You can set the global monetary format in effect at any time by using:

    use POSIX qw( locale_h );
    setlocale(LC_ALL,"en_GB");   # some locale alias
    Math::Currency->localize;    # reinitialize global format

If you don't want to always have to remember to reinitialize the POSIX settings when you switch locales, you can set the global parameter:

    $Math::Currency::always_init = 1;

and every single time a M::C object is printed, the global $FORMAT will be updated to the locale current at that time. This may be a performance hit. It would be better if you followed the first method of manually updating the global format immediately after you reset the locale.

NOTE: This function will reset only the global format and will not have effect on objects created with their own overridden formats, even if they were originally based on the global format.

NOTE 2: You must have all the locale files in question already loaded; the list reported by `locale -a` is not always a reliable judge of what files you might actually have installed. If you try and set a nonexistant locale, or set the same locale as is already active, the module will silently retain the current locale settings.

Object Formats

Any object can have it's own format different from the current global format, like this:

    $pounds  = Math::Currency->new(1000, 'GBP');
    $dollars = Math::Currency->new(1000); # inherits default US format
    $dollars->format( 'USD' ); # explicit object format

Format Parameters

The format must contains all of the commonly configured LC_MONETARY Locale settings. For example, these are the values of the default US format (with comments): { INT_CURR_SYMBOL => 'USD', # ISO currency text CURRENCY_SYMBOL => '$', # Local currency character MON_DECIMAL_POINT => '.', # Decimal seperator MON_THOUSANDS_SEP => ',', # Thousands seperator MON_GROUPING => '3', # Grouping digits POSITIVE_SIGN => '', # Local positive sign NEGATIVE_SIGN => '-', # Local negative sign INT_FRAC_DIGITS => '2', # Default Intl. precision FRAC_DIGITS => '2', # Local precision P_CS_PRECEDES => '1', # Currency symbol location P_SEP_BY_SPACE => '0', # Space between Currency and value N_CS_PRECEDES => '1', # Negative version of above N_SEP_BY_SPACE => '0', # Negative version of above P_SIGN_POSN => '1', # Position of positive sign N_SIGN_POSN => '1', # Position of negative sign }

See chart below for how the various sign character and location settings interact.

Each of the formatting parameters can be individually changed at the object or class (global) level; if an object is currently sharing the global format, all the global parameters will be copied prior to setting the overrided parameters. For example:

    $dollars = Math::Currency->new(1000); # inherits default US format
    $dollars->format('CURRENCY_SYMBOL',' Bucks'); # now has its own format
    $dollars->format('P_CS_PRECEDES',0); # now has its own format
    print $dollars; # displays as "1000 Bucks"

Or you can also set individual elements of the current global format:

    Math::Currency->format('CURRENCY_SYMBOL',' Bucks'); # global changed

The [NP]_SIGN_POSN parameter determines how positive and negative signs are displayed. [NP]_CS_PRECEEDS determines where the currency symbol is shown. [NP]_SEP_BY_SPACE determines whether the currency symbol cuddles the value or not. The following table shows the relationship between these three parameters:

                                               p_sep_by_space
                                         0          1          2

 p_cs_precedes = 0   p_sign_posn = 0    (1.25$)    (1.25 $)   (1.25 $)
                     p_sign_posn = 1    +1.25$     +1.25 $    +1.25 $
                     p_sign_posn = 2     1.25$+     1.25 $+    1.25$ +
                     p_sign_posn = 3     1.25+$     1.25 +$    1.25+ $
                     p_sign_posn = 4     1.25$+     1.25 $+    1.25$ +

 p_cs_precedes = 1   p_sign_posn = 0   ($1.25)   ($ 1.25)   ($ 1.25)
                     p_sign_posn = 1   +$1.25    +$ 1.25    + $1.25
                     p_sign_posn = 2    $1.25+    $ 1.25+     $1.25 +
                     p_sign_posn = 3   +$1.25    +$ 1.25    + $1.25
                     p_sign_posn = 4   $+1.25    $+ 1.25    $ +1.25

(the negative variants are similar).

Additional Object Methods

There are times when you would like to take a Math::Currency object and use it with some other module or external agent which doesn't understand the currency formatting.

$m->as_float - bare floating point notation without currency formatting

When storing the value into a database, you often need a string which corresponds to the value of the currency as a floating point number, but without the special currency formatting. That is what this object method produces. Be sure and use e.g. DECIMAL(10,2) in MySQL, to ensure that you don't have any floating point rounding issues going from/to the database.

$m->as_int - bare integer number of "minimum value"

Some US credit card gateways require all transactions to be expressed in pennies (because their software isn't running Math::Currency!). This object method returns an integer value that corresponds to the currency value multiplied by 10 to the power of the number of decimal places of precision. Essentially, this expresses the currency amount in the smallest discrete value allowed with that currency, so for currency expressed in dollars, this method returns the same value in pennies.

BUGS ^

Please report any bugs or feature requests to bug-Math-Currency@rt.cpan.org, or through the web interface at http://rt.cpan.org.

AUTHOR ^

John Peacock <jpeacock@cpan.org>

SEE ALSO ^

 perl(1).
 perllocale
 Math::BigFloat
 Math::BigInt
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