module Sequel extension :blank module Plugins # Sequel's built-in validation_class_methods plugin adds backwards compatibility # for the legacy class-level validation methods (e.g. validates_presence_of :column). # # It is recommended to use the validation_helpers plugin instead of this one, # as it is less complex and more flexible. However, this plugin provides reflection # support, since it is class-level, while the instance-level validation_helpers # plugin does not. # # Usage: # # # Add the validation class methods to all model subclasses (called before loading subclasses) # Sequel::Model.plugin :validation_class_methods # # # Add the validation class methods to the Album class # Album.plugin :validation_class_methods module ValidationClassMethods # Setup the validations hash for the given model. def self.apply(model) model.class_eval do @validation_mutex = Mutex.new @validations = {} @validation_reflections = {} end end module ClassMethods # A hash of validations for this model class. Keys are column symbols, # values are arrays of validation procs. attr_reader :validations # A hash of validation reflections for this model class. Keys are column # symbols, values are an array of two element arrays, with the first element # being the validation type symbol and the second being a hash of validation # options. attr_reader :validation_reflections # The Generator class is used to generate validation definitions using # the validates {} idiom. class Generator # Initializes a new generator. def initialize(receiver ,&block) @receiver = receiver instance_eval(&block) end # Delegates method calls to the receiver by calling receiver.validates_xxx. def method_missing(m, *args, &block) @receiver.send(:"validates_#{m}", *args, &block) end end # Returns true if validations are defined. def has_validations? !validations.empty? end # Setup the validations and validation_reflections hash in the subclass. def inherited(subclass) vr = @validation_reflections subclass.class_eval do @validation_mutex = Mutex.new @validations = {} h = {} vr.each{|k,v| h[k] = v.dup} @validation_reflections = h end super end # Instructs the model to skip validations defined in superclasses def skip_superclass_validations @skip_superclass_validations = true end # Instructs the model to skip validations defined in superclasses def skip_superclass_validations? defined?(@skip_superclass_validations) && @skip_superclass_validations end # Defines validations by converting a longhand block into a series of # shorthand definitions. For example: # # class MyClass < Sequel::Model # validates do # length_of :name, :minimum => 6 # length_of :password, :minimum => 8 # end # end # # is equivalent to: # class MyClass < Sequel::Model # validates_length_of :name, :minimum => 6 # validates_length_of :password, :minimum => 8 # end def validates(&block) Generator.new(self, &block) end # Validates the given instance. def validate(o) superclass.validate(o) if superclass.respond_to?(:validate) && !skip_superclass_validations? validations.each do |att, procs| v = case att when Array att.collect{|a| o.send(a)} else o.send(att) end procs.each {|tag, p| p.call(o, att, v)} end end # Validates acceptance of an attribute. Just checks that the value # is equal to the :accept option. This method is unique in that # :allow_nil is assumed to be true instead of false. # # Possible Options: # * :accept - The value required for the object to be valid (default: '1') # * :message - The message to use (default: 'is not accepted') def validates_acceptance_of(*atts) opts = { :message => 'is not accepted', :allow_nil => true, :accept => '1', :tag => :acceptance, }.merge!(extract_options!(atts)) reflect_validation(:acceptance, opts, atts) atts << opts validates_each(*atts) do |o, a, v| o.errors.add(a, opts[:message]) unless v == opts[:accept] end end # Validates confirmation of an attribute. Checks that the object has # a _confirmation value matching the current value. For example: # # validates_confirmation_of :blah # # Just makes sure that object.blah = object.blah_confirmation. Often used for passwords # or email addresses on web forms. # # Possible Options: # * :message - The message to use (default: 'is not confirmed') def validates_confirmation_of(*atts) opts = { :message => 'is not confirmed', :tag => :confirmation, }.merge!(extract_options!(atts)) reflect_validation(:confirmation, opts, atts) atts << opts validates_each(*atts) do |o, a, v| o.errors.add(a, opts[:message]) unless v == o.send(:"#{a}_confirmation") end end # Adds a validation for each of the given attributes using the supplied # block. The block must accept three arguments: instance, attribute and # value, e.g.: # # validates_each :name, :password do |object, attribute, value| # object.errors.add(attribute, 'is not nice') unless value.nice? # end # # Possible Options: # * :allow_blank - Whether to skip the validation if the value is blank. # * :allow_missing - Whether to skip the validation if the attribute isn't a key in the # values hash. This is different from allow_nil, because Sequel only sends the attributes # in the values when doing an insert or update. If the attribute is not present, Sequel # doesn't specify it, so the database will use the table's default value. This is different # from having an attribute in values with a value of nil, which Sequel will send as NULL. # If your database table has a non NULL default, this may be a good option to use. You # don't want to use allow_nil, because if the attribute is in values but has a value nil, # Sequel will attempt to insert a NULL value into the database, instead of using the # database's default. # * :allow_nil - Whether to skip the validation if the value is nil. # * :if - A symbol (indicating an instance_method) or proc (which is instance_evaled) # skipping this validation if it returns nil or false. # * :tag - The tag to use for this validation. def validates_each(*atts, &block) opts = extract_options!(atts) blk = if (i = opts[:if]) || (am = opts[:allow_missing]) || (an = opts[:allow_nil]) || (ab = opts[:allow_blank]) proc do |o,a,v| next if i && !validation_if_proc(o, i) next if an && Array(v).all?{|x| x.nil?} next if ab && Array(v).all?{|x| x.blank?} next if am && Array(a).all?{|x| !o.values.has_key?(x)} block.call(o,a,v) end else block end tag = opts[:tag] atts.each do |a| a_vals = @validation_mutex.synchronize{validations[a] ||= []} if tag && (old = a_vals.find{|x| x[0] == tag}) old[1] = blk else a_vals << [tag, blk] end end end # Validates the format of an attribute, checking the string representation of the # value against the regular expression provided by the :with option. # # Possible Options: # * :message - The message to use (default: 'is invalid') # * :with - The regular expression to validate the value with (required). def validates_format_of(*atts) opts = { :message => 'is invalid', :tag => :format, }.merge!(extract_options!(atts)) unless opts[:with].is_a?(Regexp) raise ArgumentError, "A regular expression must be supplied as the :with option of the options hash" end reflect_validation(:format, opts, atts) atts << opts validates_each(*atts) do |o, a, v| o.errors.add(a, opts[:message]) unless v.to_s =~ opts[:with] end end # Validates the length of an attribute. # # Possible Options: # * :is - The exact size required for the value to be valid (no default) # * :maximum - The maximum size allowed for the value (no default) # * :message - The message to use (no default, overrides :nil_message, :too_long, :too_short, and :wrong_length # options if present) # * :minimum - The minimum size allowed for the value (no default) # * :nil_message - The message to use use if :maximum option is used and the value is nil (default: 'is not present') # * :too_long - The message to use use if it the value is too long (default: 'is too long') # * :too_short - The message to use use if it the value is too short (default: 'is too short') # * :within - The array/range that must include the size of the value for it to be valid (no default) # * :wrong_length - The message to use use if it the value is not valid (default: 'is the wrong length') def validates_length_of(*atts) opts = { :nil_message => 'is not present', :too_long => 'is too long', :too_short => 'is too short', :wrong_length => 'is the wrong length' }.merge!(extract_options!(atts)) opts[:tag] ||= ([:length] + [:maximum, :minimum, :is, :within].reject{|x| !opts.include?(x)}).join('-').to_sym reflect_validation(:length, opts, atts) atts << opts validates_each(*atts) do |o, a, v| if m = opts[:maximum] o.errors.add(a, opts[:message] || (v ? opts[:too_long] : opts[:nil_message])) unless v && v.size <= m end if m = opts[:minimum] o.errors.add(a, opts[:message] || opts[:too_short]) unless v && v.size >= m end if i = opts[:is] o.errors.add(a, opts[:message] || opts[:wrong_length]) unless v && v.size == i end if w = opts[:within] o.errors.add(a, opts[:message] || opts[:wrong_length]) unless v && w.send(w.respond_to?(:cover?) ? :cover? : :include?, v.size) end end end # Validates whether an attribute is not a string. This is generally useful # in conjunction with raise_on_typecast_failure = false, where you are # passing in string values for non-string attributes (such as numbers and dates). # If typecasting fails (invalid number or date), the value of the attribute will # be a string in an invalid format, and if typecasting succeeds, the value will # not be a string. # # Possible Options: # * :message - The message to use (default: 'is a string' or 'is not a valid (integer|datetime|etc.)' if the type is known) def validates_not_string(*atts) opts = { :tag => :not_string, }.merge!(extract_options!(atts)) reflect_validation(:not_string, opts, atts) atts << opts validates_each(*atts) do |o, a, v| if v.is_a?(String) unless message = opts[:message] message = if sch = o.db_schema[a] and typ = sch[:type] "is not a valid #{typ}" else "is a string" end end o.errors.add(a, message) end end end # Validates whether an attribute is a number. # # Possible Options: # * :message - The message to use (default: 'is not a number') # * :only_integer - Whether only integers are valid values (default: false) def validates_numericality_of(*atts) opts = { :message => 'is not a number', :tag => :numericality, }.merge!(extract_options!(atts)) reflect_validation(:numericality, opts, atts) atts << opts validates_each(*atts) do |o, a, v| begin if opts[:only_integer] Kernel.Integer(v.to_s) else Kernel.Float(v.to_s) end rescue o.errors.add(a, opts[:message]) end end end # Validates the presence of an attribute. Requires the value not be blank, # with false considered present instead of absent. # # Possible Options: # * :message - The message to use (default: 'is not present') def validates_presence_of(*atts) opts = { :message => 'is not present', :tag => :presence, }.merge!(extract_options!(atts)) reflect_validation(:presence, opts, atts) atts << opts validates_each(*atts) do |o, a, v| o.errors.add(a, opts[:message]) if v.blank? && v != false end end # Validates that an attribute is within a specified range or set of values. # # Possible Options: # * :in - An array or range of values to check for validity (required) # * :message - The message to use (default: 'is not in range or set: ') def validates_inclusion_of(*atts) opts = extract_options!(atts) n = opts[:in] unless n && (n.respond_to?(:cover?) || n.respond_to?(:include?)) raise ArgumentError, "The :in parameter is required, and must respond to cover? or include?" end opts[:message] ||= "is not in range or set: #{n.inspect}" reflect_validation(:inclusion, opts, atts) atts << opts validates_each(*atts) do |o, a, v| o.errors.add(a, opts[:message]) unless n.send(n.respond_to?(:cover?) ? :cover? : :include?, v) end end # Validates only if the fields in the model (specified by atts) are # unique in the database. Pass an array of fields instead of multiple # fields to specify that the combination of fields must be unique, # instead of that each field should have a unique value. # # This means that the code: # validates_uniqueness_of([:column1, :column2]) # validates the grouping of column1 and column2 while # validates_uniqueness_of(:column1, :column2) # validates them separately. # # You should also add a unique index in the # database, as this suffers from a fairly obvious race condition. # # Possible Options: # * :message - The message to use (default: 'is already taken') def validates_uniqueness_of(*atts) opts = { :message => 'is already taken', :tag => :uniqueness, }.merge!(extract_options!(atts)) reflect_validation(:uniqueness, opts, atts) atts << opts validates_each(*atts) do |o, a, v| error_field = a a = Array(a) v = Array(v) ds = o.class.filter(a.zip(v)) num_dups = ds.count allow = if num_dups == 0 # No unique value in the database true elsif num_dups > 1 # Multiple "unique" values in the database!! # Someone didn't add a unique index false elsif o.new? # New record, but unique value already exists in the database false elsif ds.first === o # Unique value exists in database, but for the same record, so the update won't cause a duplicate record true else false end o.errors.add(error_field, opts[:message]) unless allow end end private # Removes and returns the last member of the array if it is a hash. Otherwise, # an empty hash is returned This method is useful when writing methods that # take an options hash as the last parameter. def extract_options!(array) array.last.is_a?(Hash) ? array.pop : {} end # Add the validation reflection to the class's validations. def reflect_validation(type, opts, atts) atts.each do |att| (validation_reflections[att] ||= []) << [type, opts] end end # Handle the :if option for validations def validation_if_proc(o, i) case i when Symbol then o.send(i) when Proc then o.instance_eval(&i) when nil then true else raise(::Sequel::Error, "invalid value for :if validation option") end end end module InstanceMethods # Validates the object. def validate model.validate(self) end end end end end