Data::Domain - Data description and validation
use Data::Domain qw/:all/; # some basic domains my $int_dom = Int(-min => 3, -max => 18); my $nat_dom = Nat(-max => 100); # natural numbers my $num_dom = Num(-min => 3.33, -max => 18.5); my $string_dom = String(-min_length => 2, -optional => 1); my $handle_dom = Handle; my $enum_dom = Enum(qw/foo bar buz/); my $int_list_dom = List(-min_size => 1, -all => Int); my $mixed_list = List(String, Int(-min => 0), Date, True, Defined); my $struct_dom = Struct(foo => String, bar => Int(-optional => 1)); my $obj_dom = Obj(-can => 'print'); my $class_dom = Class(-can => 'print'); # using the domain to check data my $error_messages = $domain->inspect($some_data); reject_form($error_messages) if $error_messages; # custom name and custom messages (2 different ways) $domain = Int(-name => 'age', -min => 3, -max => 18, -messages => "only for people aged 3-18"); $domain = Int(-name => 'age', -min => 3, -max => 18, -messages => { TOO_BIG => "not for old people over %d", TOO_SMALL => "not for babies under %d", }); # examples of subroutines for specialized domains sub Phone { String(-regex => qr/^\+?[0-9() ]+$/, -messages => "Invalid phone number", @_) } sub Email { String(-regex => qr/^[-.\w]+\@[\w.]+$/, -messages => "Invalid email", @_) } sub Contact { Struct(-fields => [name => String, phone => Phone, mobile => Phone(-name => 'Mobile', -optional => 1), emails => List(-all => Email) ], @_) } # lazy subdomain $domain = Struct( date_begin => Date(-max => 'today'), date_end => sub {my $context = shift; Date(-min => $context->{flat}{date_begin})}, ); # recursive domain my $expr_domain; $expr_domain = One_of(Num, Struct(operator => String(qr(^[-+*/]$)), left => sub {$expr_domain}, right => sub {$expr_domain})); # constants in deep datastructures $domain = Struct( foo => 123, # 123 becomes a domain bar => List(Int, 'buz', Int) ); # 'buz' becomes a domain # list with repetitive structure (here : triples) my $domain = List(-all => [String, Int, Obj(-can => 'print')]);
A data domain is a description of a set of values, either scalar or structured (arrays or hashes). The description can include many constraints, like minimal or maximal values, regular expressions, required fields, forbidden fields, and also contextual dependencies. From that description, one can then invoke the domain's inspect method to check if a given value belongs to the domain or not. In case of mismatch, a structured set of error messages is returned, giving detailed explanations about what was wrong.
inspect
The motivation for writing this package was to be able to express in a compact way some possibly complex constraints about structured data. Typically the data is a Perl tree (nested hashrefs or arrayrefs) that may come from XML, JSON, from a database through DBIx::DataModel, or from postprocessing an HTML form through CGI::Expand. Data::Domain is a kind of tree parser on that structure, with some facilities for dealing with dependencies within the structure, and with several options to finely tune the error messages returned to the user.
Data::Domain
The main usage for Data::Domain is to check input from forms in interactive applications : structured error messages give detailed information about which fields were rejected and why; this can be used to display a form again, highlighting the wrong fields. Another usage is for writing automatic tests, with the help of the companion module Test::InDomain.
There are several other packages in CPAN doing data validation; these are briefly listed in the "SEE ALSO" section.
use Data::Domain qw/:all/; # or use Data::Domain qw/:constructors/; # or use Data::Domain qw/Whatever Empty Num Int Nat Date Time String Enum List Struct One_of All_of/;
Internally, domains are represented as Perl objects; however, it would be tedious to write
my $domain = Data::Domain::Struct->new( anInt => Data::Domain::Int->new(-min => 3, -max => 18), aDate => Data::Domain::Date->new(-max => 'today'), ... );
so for each of its builtin domain constructors, Data::Domain exports a plain function that just calls new on the appropriate subclass; these functions are all exported in in a group called :constructors, and allow us to write more compact code :
new
:constructors
my $domain = Struct( anInt => Int(-min => 3, -max => 18), aDate => Date(-max => 'today'), ... );
The list of available domain constructors is expanded below in "BUILTIN DOMAIN CONSTRUCTORS".
use Data::Domain qw/:all/; # or use Data::Domain qw/:shortcuts/; # or use Data::Domain qw/True False Defined Undef Blessed Unblessed Regexp Obj Class/;
The :shortcuts export group contains a number of convenience functions that call the "Whatever" domain constructor with various pre-built options. Precise definitions for each of these functions will be given below in "BUILTIN SHORTCUTS".
:shortcuts
Short function names like Int, String, List, Obj, True, etc. are convenient but may cause name clashes with other modules. Thanks to the powerful features of Sub::Exporter, these functions can be renamed in various ways. Here is an example :
Int
String
List
Obj
True
use Data::Domain -all => { -prefix => 'dom_' }; my $domain = dom_Struct( anInt => dom_Int(-min => 3, -max => 18), aDate => dom_Date(-max => 'today'), ... );
There are a number of other ways to rename imported functions; see Sub::Exporter and Sub::Exporter::Tutorial.
To preserve backwards compatibility with Exporter, the present module also supports exclamation marks to exclude some specific symbols from the import list. For example
use Data::Domain qw/:all !Date/;
will import everything except the Date function.
Date
The new method creates a new domain object, from one of the domain constructors listed below (Num, Int, Date, etc.). The Data::Domain class itself has no new method, because it is an abstract class.
Num
This method is seldom called explicitly; it is usually more convenient to use the wrapper subroutines introduced above, i.e. to write Int(@args) instead of Data::Domain::Int->new(@args). All examples below will use this shorter notation.
Int(@args)
Data::Domain::Int->new(@args)
Arguments to the new method may specify various options for the domain to be constructed. Option names always start with a dash. If no option name is given, parameters to the new method are passed to the default option defined in each constructor subclass. For example the default option in Data::Domain::List is -items, so
Data::Domain::List
-items
my $domain = List(Int, String, Int);
is equivalent to
my $domain = List(-items => [Int, String, Int]);
So in short, the "default option" is syntactic sugar for using positional parameters instead of named parameters.
Each domain constructor has its own list of available options; these will be presented below, together with each subclass (for example options for setting minimal/maximal values, regular expressions, string length, etc.). However, there are also some generic options, available in every domain constructor; these are listed here, in several categories.
-optional
If true, the domain will accept undef, without generating an error message.
undef
-name
Defines a name for the domain, that will be printed in error messages instead of the subclass name.
-messages
Defines ad hoc messages for that domain, instead of the builtin messages. The argument can be a string, a hashref or a coderef, as explained in the "CUSTOMIZING ERROR MESSAGES" section.
Options in this category check if the data possesses, or does not possess, a given property; hence, the argument to each option must be a boolean. For example, here is a domain that accepts all blessed objects that are not weak references and are not readonly :
$domain = Whatever(-blessed => 1, -weak => 0, -readonly => 0);
Boolean property options are :
-true
Checks if the data is true.
-blessed
Checks if the data is blessed, according to "blessed" in Scalar::Util.
-package
Checks if the data is a package. This is considered true whenever the data is not a reference and satisfies $data->isa($data).
$data->isa($data)
-ref
Checks if the data is a reference.
-isweak
Checks if the data is a weak reference, according to "isweak" in Scalar::Util.
-readonly
Checks if the data is readonly, according to "readonly" in Scalar::Util.
-tainted
Checks if the data is tainted, according to "tainted" in Scalar::Util.
Options in this category do not take a boolean argument, but a class name, method name, role or smart match operand.
-isa
Checks if the data is an object or a subclass of the specified class; this is checked through eval {$data->isa($class)}.
eval {$data->isa($class)}
-can
Checks if the data implements the listed methods, supplied either as an arrayref (several methods) or as a scalar (just one method); this is checked through eval {$data->can($method)}.
eval {$data->can($method)}
-does
Checks if the data does the supplied role; this is checked through Scalar::Does.
-matches
Was originally designed for the smart match operator in perl 5.10. Is now implemented through match::simple.
These options call methods or coderefs within the data, and then check the results against the supplied domains. This is somehow contrary to the principle of "domains", because a function call or method call not only inspects the data : it might also alter the data. However, one could also argue that peeking into an object's internals is contrary to the principle of encapsulation, so in this sense, method calls are more appropriate. You decide ... but beware of side-effects in your data!
-has
$domain = Obj(-has => [ foo => String, # ->foo() must return a String foo => [-all => String], # ->foo() in list context must # return a list of Strings [bar => 123] => Obj(-can => 'print'), # ->bar(123) must return a printable obj ]);
The -has option takes an arrayref argument; that arrayref must contain pairs of ($method_spec => $expected_result), where
($method_spec => $expected_result)
$method_spec is either a method name, or an arrayref containing the method name followed by the list of arguments for calling the method.
$method_spec
$expected_result is either a domain, or an arrayref containing arguments for a List(...) domain. In the former case, the method call will be performed in scalar context; in the latter case, it will be performed in list context, and the resulting list will be checked against a List domain built from the given arguments.
$expected_result
List(...)
Note that this property can be invoked not only on Obj, but on any domain; hence, it is possible to simultaneously check if an object has some given internal structure, and also answers to some method calls :
$domain = Struct( # must be a hashref -fields => {foo => String} # must have a {foo} key with a String value -has => [foo => String], # must have a ->foo method that returns a String );
-returns
$domain = Whatever(-returns => [ [] => String, [123, 456] => Int, ]);
The -returns option treats the data as a coderef. It takes an arrayref argument; that arrayref must contain pairs of ($call_spec => $expected_result), where
($call_spec => $expected_result)
$call_spec is an arrayref containing the list of arguments for calling the subroutine.
$call_spec
$expected_result is either a domain, or an arrayref containing arguments for a List(...) domain. In the former case, the method call will be performed in scalar context; in the latter case, it will be performed in list context.
my $messages = $domain->inspect($some_data);
This method inspects the supplied data, and returns an error message (or a structured collection of messages) if anything is wrong. If the data successfully passed all domain tests, the method returns undef.
For scalar domains (Num, String, etc.), the error message is just a string. For structured domains (List, Struct), the return value is an arrayref or hashref of the same structure, like for example
Struct
{anInt => "smaller than mimimum 3", aDate => "not a valid date", aList => ["message for item 0", undef, undef, "message for item 3"]}
The client code can then exploit this structure to dispatch error messages to appropriate locations (like for example the form fields from which the data was gathered).
When printed, domains stringify to a compact Data::Dumper representation of their internal attributes; these details can be useful for debugging or logging purposes.
my $just_anything = Whatever; my $is_defined = Whatever(-defined => 1); my $is_undef = Whatever(-defined => 0); my $is_true = Whatever(-true => 1); my $is_false = Whatever(-true => 0); my $is_of_class = Whatever(-isa => 'Some::Class'); my $does_role = Whatever(-does => 'Some::Role'); my $has_methods = Whatever(-can => [qw/jump swim dance sing/]);
The Data::Domain::Whatever domain can contain any kind of Perl value, including undef (actually this is the only domain that contains undef). The only specific option is :
Data::Domain::Whatever
If true, the data must be defined. If false, the data must be undef.
The Whatever is mostly used together with some of the general options described above, like -true, -does, -can, etc.
Whatever
The Data::Domain::Empty domain always fails when inspecting any data. This is sometimes useful within lazy constructors, like in this example :
Data::Domain::Empty
Struct( foo => String, bar => sub { my $context = shift; if (some_condition($context)) { return Empty(-messages => 'your data is wrong') } else { ... } } )
The "LAZY CONSTRUCTORS" section gives more explanations about lazy domains.
my $domain = Num(-range =>[-3.33, 999], -not_in => [2, 3, 5, 7, 11]);
Domain for numbers (including floats). Numbers are recognized through "looks_like_number" in Scalar::Util. Options for the domain are :
The data must be greater or equal to the supplied value.
The data must be smaller or equal to the supplied value.
-range => [$min, $max] is equivalent to -min => $min, -max => $max.
-range => [$min, $max]
-min => $min, -max => $max
The data must be different from all values in the exclusion set, supplied as an arrayref.
my $domain = Int(-min => -999, -max => 999, -not_in => [2, 3, 5, 7, 11]);
Domain for integers. Integers are recognized through the regular expression /^-?\d+$/. This domain accepts the same options as Num and returns the same error messages.
/^-?\d+$/
my $domain = Nat(-max => 999);
Domain for natural numbers (i.e. positive integers). Natural numbers are recognized through the regular expression /^\d+$/. This domain accepts the same options as Num and returns the same error messages.
/^\d+$/
Data::Domain::Date->parser('EU'); # default my $domain = Date(-min => '01.01.2001', -max => 'today', -not_in => ['02.02.2002', '03.03.2003', 'yesterday']);
Domain for dates, implemented via the Date::Calc module. By default, dates are parsed according to the European format, i.e. through the Decode_Date_EU method; this can be changed by setting
Data::Domain::Date->parser('US'); # will use Decode_Date_US
or
Data::Domain::Date->parser(\&your_own_date_parsing_function); # that func. should return an array ($year, $month, $day)
Options to this domain are:
The data must be greater or equal to the supplied value. That value can be either a regular date, or one of the special keywords today, yesterday or tomorrow; these will be replaced by the appropriate date when performing comparisons.
today
yesterday
tomorrow
The data must be smaller or equal to the supplied value. Of course the same special keywords (as for -min) are also admitted.
-min
When outputting error messages, dates will be printed according to Date::Calc's current language (english by default); see that module's documentation for changing the language.
my $domain = Time(-min => '08:00', -max => 'now');
Domain for times in format hh:mm:ss (minutes and seconds are optional).
hh:mm:ss
The data must be greater or equal to the supplied value. The special keyword now may be used as a value, and will be replaced by the current local time when performing comparisons.
now
The data must be smaller or equal to the supplied value. The special keyword now may also be used as a value.
my $domain = String(qr/^[A-Za-z0-9_\s]+$/); my $domain = String(-regex => qr/^[A-Za-z0-9_\s]+$/, -antiregex => qr/$RE{profanity}/, # see Regexp::Common -range => ['AA', 'zz'], -length => [1, 20], -not_in => [qw/foo bar/]);
Domain for strings. Things considered as strings are either scalar values, or objects with an overloaded stringification method; by contrast, a hash reference is not considered to be a string, even if it can stringify to something like "HASH(0x3f9fc4)" or "Some::Class=HASH(0x3f9fc4)" through Perl's internal rules.
The data must match the supplied compiled regular expression. Don't forget to put ^ and $ anchors if you want your regex to check the whole string.
^
$
-regex is the default option, so you may just pass the regex as a single unnamed argument to String().
-regex
String()
The data must not match the supplied regex.
The string length must be greater or equal to the supplied value.
The string length must be smaller or equal to the supplied value.
-length => [$min, $max] is equivalent to -min_length => $min, -max_length => $max.
-length => [$min, $max]
-min_length => $min, -max_length => $max
my $domain = Handle();
Domain for filehandles. This domain has no options. Domain membership is checked through "openhandle" in Scalar::Util.
my $domain = Enum(qw/foo bar buz/);
Domain for a finite set of scalar values. Options are:
Ref to an array of values admitted in the domain. This would be called as Enum(-values => [qw/foo bar buz/]), but since this it is the default option, it can be simply written as Enum(qw/foo bar buz/).
Enum(-values => [qw/foo bar buz/])
Enum(qw/foo bar buz/)
Undefined values are not allowed in the list (use the -optional argument instead).
my $domain = List(String, Int, String, Num); my $domain = List(-items => [String, Int, String, Num]); # same as above my $domain = List(-all => String(qr/^[A-Z]+$/), -any => String(-min_length => 3), -size => [3, 10]); my $domain = List(-all => [String, Int, Whatever(-can => 'print')]);
Domain for lists of values (stored as Perl arrayrefs). Options are:
Ref to an array of domains; then the first n items in the data must match those domains, in the same order.
This is the default option, so item domains may be passed directly to the new method, without the -items keyword.
The data must be a ref to an array with at least that number of entries.
The data must be a ref to an array with at most that number of entries.
-size => [$min, $max] is equivalent to -min_size => $min, -max_size => $max.
-size => [$min, $max]
-min_size => $min, -max_size => $max
All remaining entries in the array, after the first n entries as specified by the -items option (if any), must satisfy the -all specification. That specification can be
-all
a single domain : in that case, all remaining items in the data must belong to that domain
an arrayref of domains : in that case, remaining items in the data are grouped into tuples, and each tuple must satisfy the specification. So the last example above says that the list must contain triples where the first item is a string, the second item is an integer and the third item is an object with a print method.
print
At least one remaining entry in the array, after the first n entries as specified by the -items option (if any), must satisfy that domain specification. A list domain can have both an -all and an -any constraint.
-any
The argument to -any can also be an arrayref of domains, as in
List(-any => [String(qr/^foo/), Num(-range => [1, 10]) ])
This means that one member of the list must be a string starting with foo, and one member of the list must be a number between 1 and 10. Note that this is different from
foo
List(-any => One_of(String(qr/^foo/), Num(-range => [1, 10]))
which says that one member of the list must be either a string starting with foo or a number between 1 and 10.
my $domain = Struct(foo => Int, bar => String); my $domain = Struct(-fields => {foo => Int, bar => String}); # same as above my $domain = Struct(-fields => [foo => Int, bar => String], -exclude => '*'); # only 'foo' and 'bar', nothing else my $domain = Struct(-keys => List(-all => String(qr/^[abc])), -values => List(-all => Int));
Domain for associative structures (stored as Perl hashrefs). Options are:
Supplies a list of keys with their associated domains. The list might be given either as a hashref or as an arrayref. Specifying it as an arrayref is useful for controlling the order in which field checks will be performed; this may make a difference when there are context dependencies (see "LAZY CONSTRUCTORS" below ).
Specifies which keys are not allowed in the structure. The exclusion may be specified as an arrayref of key names, as a compiled regular expression, or as the string constant '*' or 'all' (meaning that no key will be allowed except those explicitly listed in the -fields option.
*
all
-fields
Specifies a List domain, for inspecting the list of keys in the hash.
Specifies a List domain, for inspecting the list of values in the hash.
In case of errors, the inspect() method returns a hashref. Errors with specific fields are reported under that field's name; errors with the -exclude, -keys or -values constraints are reported under the constraint's name. So for example in
inspect()
-exclude
-keys
-values
my $dom = Struct(-fields => [age => Int], -exclude => '*'); my $err = $dom->inspect({age => 'canonical', foo => 123, bar => 456});
$err will contain :
$err
{ age => "Int: invalid number", -exclude => "Struct: contains forbidden field(s): 'bar', 'foo'", }
my $domain = One_of($domain1, $domain2, ...);
Union of domains : successively checks the member domains, until one of them succeeds. Options are:
List of domains to be checked. This is the default option, so the keyword may be omitted.
my $domain = All_of($domain1, $domain2, ...);
Intersection of domains : checks all member domains, and requires that all of them succeed. Options are:
Below are the precise definition for the shortcut functions exported in the :shortcuts group. Each of these functions sets some initial options, but also accepts further options as arguments, so for example it is possible to write something like Obj(-does => 'Storable', -optional => 1), which is equivalent to Whatever(-blessed => 1, -does => 'Storable', -optional => 1).
Obj(-does => 'Storable', -optional => 1)
Whatever(-blessed => 1, -does => 'Storable', -optional => 1)
Whatever(-true => 1)
Whatever(-true => 0)
Whatever(-defined => 1)
Whatever(-defined => 0)
Whatever(-blessed => 1)
Whatever(-blessed => 0)
Whatever(-does => 'Regexp')
Whatever(-blessed => 1) (synonym to Blessed)
Blessed
Whatever(-blessed => 0, -isa => 'UNIVERSAL')
If an element of a structured domain (List or Struct) depends on another element, then we need to lazily construct that subdomain. Consider for example a struct in which the value of field date_end must be greater than date_begin : the subdomain for date_end can only be constructed when the argument to -min is known, namely when the domain inspects an actual data structure.
date_end
date_begin
Lazy domain construction is achieved by supplying a subroutine reference instead of a domain object. That subroutine will be called with some context information, and should return the domain object. So our example becomes :
my $domain = Struct( date_begin => Date, date_end => sub {my $context = shift; Date(-min => $context->{flat}{date_begin})} );
The supplied context is a hashref containing the following information:
the overall root of the inspected data
the sequence of keys or array indices that led to the current data node. With that information, the subdomain is able to jump to other ancestor or sibling data nodes within the tree (Data::Reach is your friend for doing that).
a flat hash containing an entry for any hash key met so far while traversing the tree. In case of name clashes, most recent keys (down in the tree) override previous keys.
a reference to the last list (arrayref) encountered while traversing the tree.
To illustrate this, the following code :
my $domain = Struct( foo => List(Whatever, Whatever, Struct(bar => sub {my $context = shift; print Dumper($context); String;}) ) ); my $data = {foo => [undef, 99, {bar => "hello, world"}]}; $domain->inspect($data);
will print :
$VAR1 = { 'root' => {'foo' => [undef, 99, {'bar' => 'hello, world'}]}, 'path' => ['foo', 2, 'bar'], 'list' => $VAR1->{'root'}{'foo'}, 'flat' => { 'bar' => 'hello, world', 'foo' => $VAR1->{'root'}{'foo'} } };
The domain below accepts hashrefs with a country and a city, but also checks that the city actually belongs to the given country :
country
city
%SOME_CITIES = { Switzerland => [qw/Genève Lausanne Bern Zurich Bellinzona/], France => [qw/Paris Lyon Marseille Lille Strasbourg/], Italy => [qw/Milano Genova Livorno Roma Venezia/], }; my $domain = Struct( country => Enum(keys %SOME_CITIES), city => sub { my $context = shift; Enum(-values => $SOME_CITIES{$context->{flat}{country}}); });
A domain for ordered lists of integers:
my $domain = List(-all => sub { my $context = shift; my $index = $context->{path}[-1]; return $index == 0 ? Int : Int(-min => $context->{list}[$index-1]); });
The subdomain for the first item in the list has no specific constraint; but the next subdomains have a minimal bound that comes from the previous list item.
A domain for expression trees, where leaves are numbers, and intermediate nodes are binary operators on subtrees :
my $expr_domain; $expr_domain = One_of(Num, Struct(operator => String(qr(^[-+*/]$)), left => sub {$expr_domain}, right => sub {$expr_domain}));
Observe that recursive calls to the domain are encapsulated within sub {...} so that they are treated as lazy domains.
sub {...}
Implementing new domain constructors is fairly simple : create a subclass of Data::Domain and implement a new method and an _inspect method. See the source code of Data::Domain::Num or Data::Domain::String for short examples.
_inspect
Data::Domain::Num
Data::Domain::String
However, before writing such a class, consider whether the existing mechanisms are not enough for your needs. For example, many domains could be expressed as a String constrained by a regular expression; therefore it is just a matter of writing a subroutine that wraps a call to the domain constructor, while supplying some of its arguments :
sub Phone { String(-regex => qr/^\+?[0-9() ]+$/, -messages => "Invalid phone number", @_) } sub Email { String(-regex => qr/^[-.\w]+\@[\w.]+$/, -messages => "Invalid email", @_) } sub Contact { Struct(-fields => [name => String, phone => Phone, mobile => Phone(-optional => 1), emails => List(-all => Email) ], @_) }
Observe that these examples always pass @_ to the domain call : this is so that the client can still add its own arguments to the call, like
@_
$domain = Phone(-name => 'private phone', -optional => 1, -not_in => [ 1234567, 9999999 ]);
For convenience, elements of List() or Struct() may be plain scalar constants, and are automatically translated into constant domains :
List()
Struct()
$domain = Struct(foo => 123, bar => List(Int, 'buz', Int));
This is exactly equivalent to
$domain = Struct(foo => Int(-min => 123, -max => 123), bar => List(Int, String(-min => 'buz', -max => 'buz'), Int));
Messages returned by validation rules have default values, but can be customized in several ways.
Each error message has an internal string identifier, like TOO_SHORT, NOT_A_HASH, etc. The section "Message identifiers" below tells which message identifiers may be generated by each domain constructor.
TOO_SHORT
NOT_A_HASH
Message identifiers are then associated with user-friendly strings, either within the domain itself, or via a global table. Such strings are actually sprintf format strings, with placeholders for printing some specific details about the validation rule : for example the String domain defines default messages such as
TOO_SHORT => "less than %d characters", SHOULD_MATCH => "should match '%s'",
Any domain constructor may receive a -messages option to locally override the messages for that domain. The argument may be
a plain string : that string will be returned for any kind of validation error within the domain
a hashref : keys of the hash should be message identifiers, and values should be the associated error strings.
a coderef : the referenced subroutine is called, and should return the error string. The called subroutine receives the message identifier as argument.
Here is an example :
sub Phone { String(-regex => qr/^\+?[0-9() ]+$/, -min_length => 7, -messages => { TOO_SHORT => "phone number should have at least %d digits", SHOULD_MATCH => "invalid chars in phone number", }, @_); }
messages
Default strings associated with message identifiers are stored in a global table. The Data::Domain distribution contains builtin tables for english (the default) and for french : these can be chosen through the messages class method :
Data::Domain->messages('english'); # the default Data::Domain->messages('français');
The same method can also receive a custom table.
my $custom_table = {...}; Data::Domain->messages($custom_table);
This should be a two-level hashref : first-level entries in the hash correspond to Data::Domain subclasses (i.e Num => {...}, String => {...}), or to the constant Generic; for each of those, the second-level entries should correspond to message identifiers as specified in the doc for each subclass (for example TOO_SHORT, NOT_A_HASH, etc.). Values should be strings suitable to be fed to sprintf. Look at $builtin_msgs in the source code to see an example.
Num => {...}
String => {...}
Generic
$builtin_msgs
Finally, it is also possible to write your own message generation handler :
Data::Domain->messages(sub {my ($msg_id, @args) = @_; return "you just got it wrong ($msg_id)"});
What is received in @args depends on which validation rule is involved; it can be for example the minimal or maximal bounds, or the regular expression being checked.
@args
The name of the domain is prepended in front of error messages. The default name is the subclass of Data::Domain, so a typical error message for a string would be
String: less than 7 characters
However, if a -name is supplied to the domain constructor, that name will be printed instead;
my $dom = String(-min_length => 7, -name => 'Phone'); # now error would be: "Phone: less than 7 characters"
This section lists all possible message identifiers generated by the builtin constructors.
MATCH_DEFINED, MATCH_TRUE, MATCH_ISA, MATCH_CAN, MATCH_DOES, MATCH_BLESSED, MATCH_SMART.
MATCH_DEFINED
MATCH_TRUE
MATCH_ISA
MATCH_CAN
MATCH_DOES
MATCH_BLESSED
MATCH_SMART
INVALID, TOO_SMALL, TOO_BIG, EXCLUSION_SET.
INVALID
TOO_SMALL
TOO_BIG
EXCLUSION_SET
Time
INVALID, TOO_SMALL, TOO_BIG.
TOO_SHORT, TOO_LONG, TOO_SMALL, TOO_BIG, EXCLUSION_SET, SHOULD_MATCH, SHOULD_NOT_MATCH.
TOO_LONG
SHOULD_MATCH
SHOULD_NOT_MATCH
Enum
NOT_IN_LIST.
NOT_IN_LIST
The domain will first check if the supplied array is of appropriate shape; in case of of failure, it will return one of the following scalar messages : NOT_A_LIST, TOO_SHORT, TOO_LONG.
NOT_A_LIST
Then it will check all items in the supplied array according to the -items and -all specifications; in case of failure, an arrayref of messages is returned, where message positions correspond to the positions of offending data items.
Finally, the domain will check the -any constraint; in case of failure, it returns an ANY scalar message. Since that message contains the name of the missing domain, it is a good idea to use the -name option so that the message is easily comprehensible, as for example in
ANY
List(-any => String(-name => "uppercase word", -regex => qr/^[A-Z]$/))
Here the error message would be : should have at least one uppercase word.
The domain will first check if the supplied hash is of appropriate shape; in case of of failure, it will return one of the following scalar messages : NOT_A_HASH, FORBIDDEN_FIELD.
FORBIDDEN_FIELD
Then it will check all entries in the supplied hash according to the -fields specification, and return a hashref of messages, where keys correspond to the keys of offending data items.
One_of
If all member domains failed to accept the data, an arrayref or error messages is returned, where the order of messages corresponds to the order of the checked domains.
All_of
If any member domain failed to accept the data, an arrayref or error messages from all failing subdomains is returned, where the order of messages corresponds to the order of the checked domains.
In order to avoid infinite loops, the "inspect" method will raise an exception if $MAX_DEEP recursive calls were exceeded. The default limit is 100, but it can be changed like this :
$MAX_DEEP
local $Data::Domain::MAX_DEEP = 999;
my $node = node_from_path($root, @path);
Convenience function to find a given node in a data tree, starting from the root and following a path (a sequence of hash keys or array indices). Returns undef if no such path exists in the tree. Mainly useful for contextual constraints in lazy constructors. Now superseded by Data::Reach.
Internal utility method for generating an error message.
Method that returns the short name of the subclass of Data::Domain (i.e. returns 'Int' for Data::Domain::Int).
Data::Domain::Int
Internal utility method for converting a "range" parameter into "min" and "max" parameters.
Internal utility method for dynamically converting lazy domains (coderefs) into domains.
Doc and tutorials on complex Perl data structures: perlref, perldsc, perllol.
Other CPAN modules doing data validation : Data::FormValidator, CGI::FormBuilder, HTML::Widget::Constraint, Jifty::DBI, Data::Constraint, Declare::Constraints::Simple, Moose::Manual::Types, Smart::Match, Test::Deep, Params::Validate, Validation::Class.
Among those, Declare::Constraints::Simple is the closest to Data::Domain, because it is also designed to deal with substructures; yet it has a different approach to combinations of constraints and scope dependencies.
Declare::Constraints::Simple
Some inspiration for Data::Domain came from the wonderful Parse::RecDescent module, especially the idea of passing a context where individual rules can grab information about neighbour nodes. Ideas for some features were borrowed from Test::Deep and from Moose::Manual::Types.
Thanks to David Cantrell and Gabor Szabo for their help on issues related to smartmatch deprecation.
Laurent Dami, <dami at cpan.org>
Copyright 2006, 2007, 2012, 2023 by Laurent Dami.
This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself.
To install Data::Domain, copy and paste the appropriate command in to your terminal.
cpanm
cpanm Data::Domain
CPAN shell
perl -MCPAN -e shell install Data::Domain
For more information on module installation, please visit the detailed CPAN module installation guide.