That issues are caused by using only the model's cast types on the
relation.
To fix that issues, use the attribute's type caster takes precedence
over the model's cast types on the relation.
Fixes#35232.
Fixes#36042.
Fixes#37484.
If `AR::Enum` is used for boolean field, it would be not expected
behavior for us.
fixes#38075
Problem:
In case of using boolean for enum, we can set with string (hash key)
to instance, but we cannot set with actual value (hash value).
```ruby
class Post < ActiveRecord::Base
enum status: { enabled: true, disabled: false }
end
post.status = 'enabled'
post.status # 'enabled'
post.status = true
post.status # 'enabled'
post.status = 'disabled'
post.status # 'disabled'
post.status = false
post.status # nil (This is not expected behavior)
```
After looking into `AR::Enum::EnumType#cast`, I found that `blank?`
method converts from false value to nil (it seems it may not intentional behavior).
In this patch, I improved that if it defines enum with boolean,
it returns reasonable behavior.
After 908cfef was introduced fixtures that did not set an enum would
return nil instead of the default enum value.
The fixtures should assume the default if a different enum is not
defined.
The change checks first if the enum is defined in the fixture before
setting it based on the fixture.
Currently, values for columns backing Active Record enums must be
specified as integers in test fixtures:
awdr:
title: "Agile Web Development with Rails"
status: 2
rfr:
title: "Ruby for Rails"
status: <%= Book.statuses[:proposed] %>
This is potentially confusing, since enum values are typically
specified as symbols or strings in application code. To resolve the
confusion, this change permits the use of symbols or strings to specify
enum values:
awdr:
status: :published
It is compatible with fixtures that specify enum values as integers.
* * *
This bug can be triggered when serializing record R (the instance) of type C
(the class), provided that the following conditions are met:
1. The name of one or more columns/attributes on C/R matches an existing private
method on C (e.g. those defined by `Kernel`, such as `format`).
2. The attribute methods have not yet been generated on C.
In this case, the matching private methods will be called by the serialization
code (with no arguments) and their return values will be serialized instead. If
the method requires one or more arguments, it will result in an `ArgumentError`.
This regression is introduced in d1316bb.
* * *
Attribute methods (e.g. `#name` and `#format`, assuming the class has columns
named `name` and `format` in its database table) are lazily defined. Instead of
defining them when a the class is defined (e.g. in the `inherited` hook on
`ActiveRecord::Base`), this operation is deferred until they are first accessed.
The reason behind this is that is defining those methods requires knowing what
columns are defined on the database table, which usually requires a round-trip
to the database. Deferring their definition until the last-possible moment helps
reducing unnessary work, especially in development mode where classes are
redefined and throw away between requests.
Typically, when an attribute is first accessed (e.g. `a_book.format`), it will
fire the `method_missing` hook on the class, which triggers the definition of
the attribute methods. This even works for methods like `format`, because
calling a private method with an explicit receiver will also trigger that hook.
Unfortunately, `read_attribute_for_serialization` is simply an alias to `send`,
which does not respect method visibility. As a result, when serializing a record
with those conflicting attributes, the `method_missing` is not fired, and as a
result the attribute methods are not defined one would expected.
Before d1316bb, this is negated by the fact that calling the `run_callbacks`
method will also trigger a call to `respond_to?`, which is another trigger point
for the class to define its attribute methods. Therefore, when Active Record
tries to run the `after_find` callbacks, it will also define all the attribute
methods thus masking the problem.
* * *
The proper fix for this problem is probably to restrict `read_attribute_for_serialization`
to call public methods only (i.e. alias `read_attribute_for_serialization` to
`public_send` instead of `send`). This however would be quite risky to change
in a patch release and would probably require a full deprecation cycle.
Another approach would be to override `read_attribute_for_serialization` inside
Active Record to force the definition of attribute methods:
def read_attribute_for_serialization(attribute)
self.class.define_attribute_methods
send(attribute)
end
Unfortunately, this is quite likely going to cause a performance degradation.
This patch therefore restores the behaviour from the 4-0-stable branch by
explicitly forcing the class to define its attribute methods in a similar spot
(when records are initialized). This should not cause any extra roundtrips to
the database because the `@columns` should already be cached on the class.
Fixes#15188.