# ABSTRACT: Powerful Data Validation Framework
package Validation::Class;
use strict;
use warnings;
use Module::Find;
use Validation::Class::Util '!has';
use Module::Runtime 'use_module';
use Hash::Merge 'merge';
use Exporter ();
use Validation::Class::Prototype;
# VERSION
our @ISA = qw(Exporter);
our @EXPORT = qw(
attribute
bld
build
dir
directive
fld
field
flt
filter
has
load
msg
message
mth
method
mxn
mixin
obj
object
pro
profile
set
);
sub return_class_proto {
my $class = shift || caller(2);
return prototype_registry->get($class) || do {
# build new prototype class
my $proto = Validation::Class::Prototype->new(
package => $class
);
no strict 'refs';
no warnings 'redefine';
# respect foreign constructors (such as $class->new) if found
my $new = $class->can("new") ?
"initialize_validator" : "new"
;
# injected into every derived class (override if necessary)
*{"$class\::$new"} = sub { goto \&$new };
*{"$class\::proto"} = sub { goto \&prototype };
*{"$class\::prototype"} = sub { goto \&prototype };
# inject prototype class aliases unless exist
my @aliases = $proto->proxy_methods;
foreach my $alias (@aliases) {
next if $class->can($alias);
# slight-of-hand
$proto->set_method($alias, sub {
shift @_;
$proto->$alias(@_);
});
}
# inject wrapped prototype class aliases unless exist
my @wrapped_aliases = $proto->proxy_methods_wrapped;
foreach my $alias (@wrapped_aliases) {
next if $class->can($alias);
# slight-of-hand
$proto->set_method($alias, sub {
my $self = shift @_;
$proto->$alias($self, @_);
});
}
# cache prototype
prototype_registry->add($class => $proto);
$proto; # return-once
};
}
sub configure_class_proto {
my $configuration_routine = pop;
return unless "CODE" eq ref $configuration_routine;
no strict 'refs';
my $proto = return_class_proto shift;
$configuration_routine->($proto);
return $proto;
}
sub import {
my $caller = caller(0) || caller(1);
strict->import;
warnings->import;
__PACKAGE__->export_to_level(1, @_);
return return_class_proto $caller # provision prototype when used
}
sub initialize_validator {
my $self = shift;
my $proto = $self->prototype;
my $arguments = $proto->build_args(@_);
# provision a validation class configuration
$proto->snapshot;
# override prototype attributes if requested
if (defined($arguments->{fields})) {
my $fields = delete $arguments->{fields};
$proto->fields->clear->add($fields);
}
if (defined($arguments->{params})) {
my $params = delete $arguments->{params};
$proto->params->clear->add($params);
}
# process attribute assignments
while (my($name, $value) = each (%{$arguments})) {
my $ok = 0;
$ok++ if $proto->fields->has($name);
$ok++ if $proto->attributes->has($name);
$ok++ if grep { $name eq $_ } ($proto->proxy_methods);
$self->$name($value) if $self->can($name) && $ok;
}
# process builders
foreach my $builder ($proto->builders->list) {
$builder->($self, $arguments);
}
# initialize prototype
$proto->normalize;
# process plugins
foreach my $plugin ($proto->plugins->keys) {
$proto->plugins->add($plugin => $plugin->new($proto))
if $plugin->can('new')
;
}
# ready-set-go !!!
return $self;
}
sub has { goto &attribute } sub attribute {
my $package = shift if @_ == 3;
my ($attributes, $default) = @_;
return unless $attributes;
$attributes = [$attributes] unless ref $attributes eq 'ARRAY';
return configure_class_proto $package => sub {
my ($proto) = @_;
$proto->register_attribute($_ => $default) for @$attributes;
return $proto;
};
}
sub bld { goto &build } sub build {
my $package = shift if @_ == 2;
my ($code) = @_;
return unless ("CODE" eq ref $code);
return configure_class_proto $package => sub {
my ($proto) = @_;
$proto->register_builder($code);
return $proto;
};
}
sub dir { goto &directive } sub directive {
my $package = shift if @_ == 3;
my ($name, $code) = @_;
return unless ($name && $code);
return configure_class_proto $package => sub {
my ($proto) = @_;
$proto->register_directive($name, $code);
return $proto;
};
}
sub fld { goto &field } sub field {
my $package = shift if @_ == 3;
my ($name, $data) = @_;
return unless ($name && $data);
return configure_class_proto $package => sub {
my ($proto) = @_;
$proto->register_field($name, $data);
return $proto;
};
}
sub flt { goto &filter } sub filter {
my $package = shift if @_ == 3;
my ($name, $code) = @_;
return unless ($name && $code);
return configure_class_proto $package => sub {
my ($proto) = @_;
$proto->register_filter($name, $code);
return $proto;
};
}
sub set { goto &load } sub load {
my $package;
my $data;
# handle different types of invocations
# 1 - load({})
# 2+ - load(a => b)
# 2+ - package->load({})
# 3+ - package->load(a => b)
# --
# load({})
if (@_ == 1) {
if ("HASH" eq ref $_[0]) {
$data = shift;
}
}
# load(a => b)
# package->load({})
elsif (@_ == 2) {
if ("HASH" eq ref $_[-1]) {
$package = shift;
$data = shift;
}
else {
$data = {@_};
}
}
# load(a => b)
# package->load(a => b)
elsif (@_ >= 3) {
if (@_ % 2) {
$package = shift;
$data = {@_};
}
else {
$data = {@_};
}
}
return configure_class_proto $package => sub {
my ($proto) = @_;
$proto->register_settings($data);
return $proto;
};
}
sub msg { goto &message } sub message {
my $package = shift if @_ == 3;
my ($name, $template) = @_;
return unless ($name && $template);
return configure_class_proto $package => sub {
my ($proto) = @_;
$proto->register_message($name, $template);
return $proto;
};
}
sub mth { goto &method } sub method {
my $package = shift if @_ == 3;
my ($name, $data) = @_;
return unless ($name && $data);
return configure_class_proto $package => sub {
my ($proto) = @_;
$proto->register_method($name, $data);
return $proto;
};
}
sub mxn { goto &mixin } sub mixin {
my $package = shift if @_ == 3;
my ($name, $data) = @_;
return unless ($name && $data);
return configure_class_proto $package => sub {
my ($proto) = @_;
$proto->register_mixin($name, $data);
return $proto;
};
}
sub new {
my $class = shift;
my $proto = return_class_proto $class;
my $self = bless {}, $class;
initialize_validator $self, @_;
return $self;
}
sub pro { goto &profile } sub profile {
my $package = shift if @_ == 3;
my ($name, $code) = @_;
return unless ($name && $code);
return configure_class_proto $package => sub {
my ($proto) = @_;
$proto->register_profile($name, $code);
return $proto;
};
}
sub proto { goto &prototype } sub prototype {
my ($self) = pop @_;
return return_class_proto ref $self || $self;
}
1;
__END__
=pod
=head1 NAME
Validation::Class - Powerful Data Validation Framework
=head1 VERSION
version 7.900002
=head1 SYNOPSIS
package MyApp::Person;
use Validation::Class;
# a data validation template
mixin basic => {
required => 1,
max_length => 255,
filters => [qw/trim strip/]
};
# data validation rules for the login parameter
field login => {
mixin => 'basic',
min_length => 5
};
# data validation rules for the password parameter
field password => {
mixin => 'basic',
min_length => 5,
min_symbols => 1
};
# ... elsewhere in your application
my $person = MyApp::Person->new(login => 'admin', password => 'secr3t');
unless ($person->validates) {
# handle the failures
}
1;
=head1 DESCRIPTION
Validation::Class is a robust data validation framework which aims provide an
extensible framework for developing clean yet sophisticated data validation
objects. The core feature-set consist of self-validating methods, validation
profiles, reusable validation rules and templates, pre and post input filtering,
class inheritance, automatic array handling, and extensibility (e.g. overriding
default error messages, creating custom validators, creating custom input
filters and much more).
=head1 QUICKSTART
If you are looking for a simple in-line data validation module built using the
same tenets and principles as Validation::Class, please review
L<Validation::Class::Simple>.
=head1 RATIONALE
If you are new to Validation::Class, or would like more information on the
underpinnings of this library and how it views and approaches data validation,
please review L<Validation::Class::Whitepaper>.
=head1 KEYWORDS
=head2 attribute
The attribute keyword (or has) registers a class attribute. This is only a
minimalistic variant of what you may have encountered in other object systems.
package MyApp::Person;
use Validate::Class;
attribute 'first_name' => 'Peter';
attribute 'last_name' => 'Venkman';
attribute 'full_name' => sub {
my ($self) = @_;
return join ', ', $self->last_name, $self->first_name;
};
1;
The attribute keyword takes two arguments, the attribute name and a constant or
coderef that will be used as its default value.
=head2 build
The build keyword (or bld) registers a coderef to be run at instantiation much
in the same way the common BUILD routine is used in modern OO frameworks.
package MyApp::Person;
use Validation::Class;
build sub {
my ($self, $args) = @_;
# run after instantiation in the order declared
};
The build keyword takes one argument, a coderef which is passed the instantiated
class object.
=head2 directive
The directive keyword (or dir) registers custom validator directives to be used
in your field definitions. It is a means of extending the core field directives
before instantiation. Please see L<Validation::Class::Directive> for insight into
creating your own installable directives.
package MyApp::Directives;
use Validation::Class 'directive';
use Data::Validate::Email;
directive 'isa_email_address' => sub {
my ($self, $proto, $field, $param) = @_;
my $validator = Data::Validate::Email->new;
unless ($validator->is_email($param)) {
my $handle = $field->label || $field->name;
$field->errors->add("$handle must be a valid email address");
return 0;
}
return 1;
};
package MyApp::Person;
use Validate::Class;
use MyApp::Directives;
field 'email_address' => {
isa_email_address => 1
};
1;
The directive keyword takes two arguments, the name of the directive and a
coderef which will be used to validate the associated field. The coderef is
passed four ordered parameters; a directive object, the class prototype object,
the current field object, and the matching parameter's value. The validator
(coderef) is evaluated by its return value as well as whether it altered any
error containers.
=head2 field
The field keyword (or fld) registers a data validation rule for reuse and
validation in code. The field name should correspond with the parameter name
expected to be passed to your validation class.
package MyApp::Person;
use Validation::Class;
field 'login' => {
required => 1,
min_length => 1,
max_length => 255
};
The field keyword takes two arguments, the field name and a hashref of
key/values pairs known as directives.
The field keyword also creates accessors which provide easy access to the
field's corresponding parameter value(s). Accessors will be created using the
field's name as a label having any special characters replaced with an
underscore.
# accessor will be created as send_reminders
field 'send-reminders' => {
length => 1
};
Protip: Field directives are used to validate scalar and array data. Don't use
fields to store and validate objects. Please see the *has* keyword instead or
use an object system with type constraints like L<Moose>.
=head2 filter
The filter keyword (or flt) registers custom filters to be used in your field
definitions. It is a means of extending the pre-existing filters declared by
the L<Validation::Class::Directive::Filters|"filters directive"> before
instantiation.
package MyApp::Directives;
use Validation::Class;
filter 'flatten' => sub {
$_[0] =~ s/[\t\r\n]+/ /g;
return $_[0];
};
package MyApp::Person;
use Validate::Class;
use MyApp::Directives;
field 'biography' => {
filters => ['trim', 'flatten']
};
1;
The filter keyword takes two arguments, the name of the filter and a
coderef which will be used to filter the value the associated field. The coderef
is passed the value of the field and that value MUST be operated on directly.
The coderef should also return the transformed value.
=head2 load
The load keyword (or set), which can also be used as a class method, provides
options for extending the current class by declaring roles, plugins, etc.
The process of applying roles to the current class mainly involves copying the
subject's methods and prototype configuration.
package MyApp::Person;
use Validation::Class;
load role => 'MyApp::User';
1;
The `classes` (or class) option, can be a constant or arrayref and uses
L<Module::Find> to load all child classes (in-all-subdirectories) for convenient
access through the L<Validation::Class::Prototype/class> method.
Existing parameters and configuration options are passed to the child class
constructor. All attributes can be easily overwritten using the attribute's
accessors on the child class. These child classes are often referred to as
relatives. This option accepts a constant or an arrayref of constants.
package MyApp;
use Validation::Class;
# load all child classes
load classes => [__PACKAGE__];
package main;
my $app = MyApp->new;
my $person = $app->class('person'); # return a new MyApp::Person object
1;
The `roles` (or role) option is used to load and inherit functionality from
other validation classes. These classes should be used and thought-of as roles
although they can also be fully-functioning validation classes. This option
accepts a constant or an arrayref of constants.
package MyApp::Person;
use Validation::Class;
load roles => ['MyApp::User', 'MyApp::Visitor'];
1;
=head2 message
The message keyword (or msg) registers a class-level error message template that
will be used in place of the error message defined in the corresponding directive
class if defined. Error messages can also be overriden at the individual
field-level as well. See the L<Validation::Class::Directive::Messages> for
instructions on how to override error messages at the field-level.
package MyApp::Person;
use Validation::Class;
field email_address => {
required => 1,
min_length => 3,
messages => {
# field-level error message override
min_length => '%s is not even close to being a valid email address'
}
};
# class-level error message overrides
message required => '%s is needed to proceed';
message min_length => '%s needs more characters';
1;
The message keyword takes two arguments, the name of the directive whose error
message you wish to override and a string which will be used to as a template
which is feed to sprintf to format the message.
=head2 method
The method keyword (or mth) is used to register an auto-validating method.
Similar to method signatures, an auto-validating method can leverage pre-existing
validation rules and profiles to ensure a method has the required data necessary
for execution.
package MyApp::Person;
use Validation::Class;
method 'register' => {
input => ['name', '+email', 'login', '+password', '+password2'],
output => ['+id'], # optional output validation, dies on failure
using => sub {
my ($self, @args) = @_;
# do something registrationy
$self->id(...); # set the ID field for output validation
return $self;
}
};
package main;
my $person = MyApp::Person->new(params => $params);
if ($person->register) {
# handle the successful registration
}
1;
The method keyword takes two arguments, the name of the method to be created
and a hashref of required key/value pairs. The hashref must have an `input`
key whose value is either an arrayref of fields to be validated, or a constant
value which matches a validation profile name. The hashref must also have a
`using` key whose value is a coderef which will be executed upon successfully
validating the input. Whether and what the method returns is yours to decide.
Optionally the required hashref can have an `output` key whose value is either
an arrayref of fields to be validated, or a constant value which matches
a validation profile name which will be used to perform data validation B<after>
the aforementioned coderef has been executed.
Please note that output validation failure will cause the program to die,
the premise behind this decision is based on the assumption that given
successfully validated input a routine's output should be predictable and if an
error occurs it is most-likely a program error as opposed to a user error.
See the ignore_failure and report_failure switch to control how method input
validation failures are handled.
=head2 mixin
The mixin keyword (or mxn) registers a validation rule template that can be
applied (or "mixed-in") to any field by specifying the mixin directive. Mixin
directives are processed first so existing field directives will override any
directives created by the mixin directive.
package MyApp::Person;
use Validation::Class;
mixin 'boilerplate' => {
required => 1,
min_length => 1,
max_length => 255
};
# min_length, max_length, but not required
field 'login' => {
mixin => 'boilerplate',
required => 0
};
The mixin keyword takes two arguments, the mixin name and a hashref of key/values
pairs known as directives.
=head2 profile
The profile keyword (or pro) registers a validation profile (coderef) which as
in the traditional use of the term is a sequence of validation routines that
validates data relevant to a specific action.
package MyApp::Person;
use Validation::Class;
profile 'check_email' => sub {
my ($self, @args) = @_;
if ($self->email_exists) {
my $email = $self->fields->get('email');
$email->errors->add('Email already exists');
return 0;
}
return 1;
};
package main;
my $user = MyApp::Person->new(params => $params);
unless ($user->validate_profile('check_email')) {
# handle failures
}
The profile keyword takes two arguments, a profile name and coderef which will
be used to execute a sequence of actions for validation purposes.
=head1 METHODS
=head2 new
The new method instantiates a new class object, it performs a series of actions
(magic) required for the class function properly, and for that reason, this
method should never be overridden. Use the build keyword for hooking into the
instantiation process.
In the event a foreign `new` method is detected, an `initialize_validator`
method will be injected into the class containing the code (magic) necessary to
normalize your environment.
package MyApp::Person;
use Validation::Class;
# hook
build sub {
my ($self, @args) = @_; # on instantiation
};
sub new {
# rolled my own
my $self = bless {}, shift;
# execute magic
$self->initialize_validator;
}
=head2 prototype
The prototype method (or proto) returns an instance of the associated class
prototype. The class prototype is responsible for manipulating and validating
the data model (the class). It is not likely that you'll need to access
this method directly, see L<Validation::Class::Prototype>.
package MyApp::Person;
use Validation::Class;
package main;
my $person = MyApp::Person->new;
my $prototype = $person->prototype;
=head1 PROXY METHODS
=head2 class
$self->class;
See L<Validation::Class::Prototype/class> for full documentation.
=head2 clear_queue
$self->clear_queue;
See L<Validation::Class::Prototype/clear_queue> for full documentation.
=head2 error_count
$self->error_count;
See L<Validation::Class::Prototype/error_count> for full documentation.
=head2 error_fields
$self->error_fields;
See L<Validation::Class::Prototype/error_fields> for full documentation.
=head2 errors
$self->errors;
See L<Validation::Class::Prototype/errors> for full documentation.
head2 errors_to_string
$self->errors_to_string;
See L<Validation::Class::Prototype/errors_to_string> for full
documentation.
=head2 get_errors
$self->get_errors;
See L<Validation::Class::Prototype/get_errors> for full documentation.
=head2 get_fields
$self->get_fields;
See L<Validation::Class::Prototype/get_fields> for full documentation.
=head2 get_params
$self->get_params;
See L<Validation::Class::Prototype/get_params> for full documentation.
=head2 fields
$self->fields;
See L<Validation::Class::Prototype/fields> for full documentation.
=head2 filtering
$self->filtering;
See L<Validation::Class::Prototype/filtering> for full documentation.
=head2 ignore_failure
$self->ignore_failure;
See L<Validation::Class::Prototype/ignore_failure> for full
documentation.
=head2 ignore_unknown
$self->ignore_unknown;
See L<Validation::Class::Prototype/ignore_unknown> for full
documentation.
=head2 param
$self->param;
See L<Validation::Class::Prototype/param> for full documentation.
=head2 params
$self->params;
See L<Validation::Class::Prototype/params> for full documentation.
=head2 queue
$self->queue;
See L<Validation::Class::Prototype/queue> for full documentation.
=head2 report_failure
$self->report_failure;
See L<Validation::Class::Prototype/report_failure> for full
documentation.
=head2 report_unknown
$self->report_unknown;
See L<Validation::Class::Prototype/report_unknown> for full documentation.
=head2 reset_errors
$self->reset_errors;
See L<Validation::Class::Prototype/reset_errors> for full documentation.
=head2 reset_fields
$self->reset_fields;
See L<Validation::Class::Prototype/reset_fields> for full documentation.
=head2 reset_params
$self->reset_params;
See L<Validation::Class::Prototype/reset_params> for full documentation.
=head2 set_errors
$self->set_errors;
See L<Validation::Class::Prototype/set_errors> for full documentation.
=head2 set_fields
$self->set_fields;
See L<Validation::Class::Prototype/set_fields> for full documentation.
=head2 set_params
$self->set_params;
See L<Validation::Class::Prototype/set_params> for full documentation.
=head2 set_method
$self->set_method;
See L<Validation::Class::Prototype/set_method> for full documentation.
=head2 stash
$self->stash;
See L<Validation::Class::Prototype/stash> for full documentation.
=head2 validate
$self->validate;
See L<Validation::Class::Prototype/validate> for full documentation.
=head2 validate_method
$self->validate_method;
See L<Validation::Class::Prototype/validate_method> for full documentation.
=head2 validate_profile
$self->validate_profile;
See L<Validation::Class::Prototype/validate_profile> for full documentation.
=head1 VALIDATE BY PROXY
Validation::Class mostly provides sugar functions for modeling your data
validation requirements. Each class you create is associated with a *prototype*
class which provides the data validation engine and keeps your class namespace
free from pollution, please see L<Validation::Class::Prototype> for more
information on specific methods and attributes.
Validation::Class injects a few proxy methods into your class which are
basically aliases to the corresponding prototype class methods, however it is
possible to access the prototype directly using the proto/prototype methods.
=head1 EXTENDING VALIDATION::CLASS
Validation::Class does NOT provide method modifiers but can be easily extended
with L<Class::Method::Modifiers>.
=head2 before
before foo => sub { ... };
See L<< Class::Method::Modifiers/before method(s) => sub { ... } >> for full
documentation.
=head2 around
around foo => sub { ... };
See L<< Class::Method::Modifiers/around method(s) => sub { ... } >> for full
documentation.
=head2 after
after foo => sub { ... };
See L<< Class::Method::Modifiers/after method(s) => sub { ... } >> for full
documentation.
=head1 SEE ALSO
B<If you have simple data validation needs, please review:>
=over
=item L<Validation::Class::Simple>
=back
Additionally you may want to look elsewhere for your data validation needs so
the following is a list of other validation libraries/frameworks you might be
interested in. If I've missed a really cool new validation library please let
me know.
=over
=item L<HTML::FormHandler>
This library seems to be the defacto standard for designing Moose classes with
HTML-centric data validation rules.
=item L<Data::Verifier>
This library is a great approach towards adding robust validation logic to
your existing Moose-based codebase.
=item L<Validate::Tiny>
This library is nice for simple use-cases, it has virtually no dependencies
and solid test coverage.
=back
=head1 AUTHOR
Al Newkirk <anewkirk@ana.io>
=head1 COPYRIGHT AND LICENSE
This software is copyright (c) 2011 by Al Newkirk.
This is free software; you can redistribute it and/or modify it under
the same terms as the Perl 5 programming language system itself.
=cut