‘Iacta alea est’
In previous posts I covered model validations with Scrivener and looked at how validations are neatly composed from a single primitive. In this post I want to build a custom validation and discuss different ways they could be integrated with your Scrivener validation objects.
The first validation will be validating the format of a BIC. A BIC is a Bank Identifier Code, also known as a SWIFT code, which is used to identify banks and financial institutions globally. A little like an international bank ID.
It is an 8–11 character code that identifies the country, city, bank and branch code of a given bank. It has the following format:
AAAA # bank code (A-Z) [4]
BB # country code (A-Z) [2]
CC # location code (0-9 A-Z) [2]
123 # branch code (0-9 A-Z) [3]
My bank has the BIC RABONL2UXXX.
To validate a BIC we must validate the format of the string that is passed in as an attribute. So we can lean on Scrivener’s built in assert_format validator. To follow the pattern established with validate_decimal we’ll define the regular expression in a constant:
BIC = /\A[A-Z]{6,6}[A-Z2-9][A-NP-Z0-9]([A-Z0-9]{3,3}){0,1}\z/
def assert_bic(att, error = [att, :not_bic])
assert_format att, BIC, error
end
Note that we provide a default error symbol of :not_bic in the parameters, which will allow a caller to customise if desired.
Now we are free to use this validator in our validate function within our Scrivener object:
class CreateBank < Scrivener
attr_accessor :name
attr_accessor :bic
def validate
assert_present :name
assert_bic :bic
end
end
This raises the question of where we place our validation method. I see a few possibilities.
If this is a one-off validation, and we don’t need to use it anywhere else, then we can simply include it in the class itself:
class CreateBank < Scrivener
…
def validate
…
end
BIC = /\A[A-Z]{6,6}[A-Z2-9][A-NP-Z0-9]([A-Z0-9]{3,3}){0,1}\z/
def assert_bic(att, error = [att, :not_bic]
assert_format att, BIC, error
end
end
If the validation will be used across multiple validators then I see two options. One is to create a sub-class of Scrivener which we can then use as a super-class of all of our validators:
class Validator < Scrivener
BIC = /\A[A-Z]{6,6}[A-Z2-9][A-NP-Z0-9]([A-Z0-9]{3,3}){0,1}\z/
def assert_bic(att, error = [att, :not_bic]
assert_format att, BIC, error
end
end
class CreateBank < Validator
…
end
The other is to use a module and include it as necessary:
module CustomValidations
BIC = /\A[A-Z]{6,6}[A-Z2-9][A-NP-Z0-9]([A-Z0-9]{3,3}){0,1}\z/
def assert_bic(att, error = [att, :not_bic]
assert_format att, BIC, error
end
end
class CreateBank < Scrivener
include CustomValidations
…
end
The module include is actually how Scrivener does it internally.
We can go further and ensure that the BIC that is provided comes from a country in the Single Euro Payments Area (SEPA).
SEPA_COUNTRY_CODES = %w(
AT BE BG CH CY CZ DE DK EE ES FI
FR GB GR HR HU IE IS IT LI LT LU
LV MC MT NL NO PL PT RO SE SK SI)
def assert_sepa(att, error = [att, :not_sepa])
sepa_code = send(att)[4,2]
assert_member sepa_code, SEPA_COUNTRY_CODES
end
And if we wanted to tidy things up a little and lift this up to a higher-level (business logic) validation we could combine the BIC and SEPA validations together easily. We’ll prefer to delegate the error handling to the lower-level methods.
def assert_supported_bic(att)
if assert_bic(att)
assert_sepa(att)
end
end
Since the errors hash is being modified by the validation methods the appropriate validations will be added automatically.
def validate
assert_present :name
assert_supported_bic :bic
end
This is purely a convenience but it does demonstrate the composability of these validations and the ability, as is common with Ruby, to bring the code in line with the language of your domain.
Scrivener therefore does what it says on the tin. It separates concerns, pulling out validations and filtering into a tidy, transparent Ruby object with wonderfully composable validations.
—Saturday 27th February 2021.