Bug #18021
closedMixins in Refinements: possibly multiple bugs, workarounds are awkward
Description
Maybe bug 1¶
Refinements must be created after methods are defined.
# This one seems buggy
module M1
refine(Object) { include M1 }
def m() = M1
using M1
m rescue $! # => #<NameError: undefined local variable or method `m' for M1:Module>
end
# It works if you refine it after the method is defined
module M2
def m() = M2
refine(Object) { include M2 }
using M2
m # => M2
end
# If it wasn't in a refinement, it would work
module M3
Object.class_eval { include M3 }
def m() = M3
m # => M3
end
Maybe bug 2¶
Here, a module can't delegate to another method it defines, while using a refinement. Presumably this is because the refinement is lexically scoped and where the method is defined, it is not within that scope.
module M
def a() = 1
def b() = a # ~> NameError: undefined local variable or method `a' for main:Object
refine(Object) { include M }
end
using M
a # => 1
b # =>
Maybe bug 3¶
Refinements declared after methods are defined are not available to those methods, even when they use the refinement. We try to use the module to address #2, but because of #1, the refine
must go after the definitions.
module M
using M # <-- this line is added to the example from #2
def a() = 1
def b() = a # ~> NameError: undefined local variable or method `a' for main:Object
refine(Object) { include M }
end
using M
a # => 1
b # =>
Awkward workarounds:¶
So, refine
depends on def
, which depends on using
, which depends on refine
, which is where we started.
Here are several ways I found to break the cycle of dependance:
1. "declare" methods by predefining them¶
module M
# Predefine method stubs
def a() = nil
def b() = nil
# Now the refinement can see them, define the refinement
refine(Object) { include M }
# Now that the refinement exists, `using` will make it available
using M
# Now method definitions can see each other,
# so overwrite the stubs with the real implementations
def a() = 1
def b() = a
end
# And now things work as expected
using M
a # => 1
b # => 1
2. Put the module body in a loop¶
First iteration defines them without visibility to each other, because the refinement hasn't been made yet. On the second iteration, the refinement has been made, so the second time they're defined, they can see each other.
module M
2.times do
using M # this can go either here or after `refine` below
def a() = 1
def b() = a
refine(Object) { include M }
end
end
# And now things work as expected
using M
a # => 1
b # => 1
3. Define the methods in a block and call it before and after refining¶
module M
methods = lambda do
using M
def a() 1 end
def b() a end
end
methods.call
refine(Object) { include M }
methods.call
end
using M
b # => 1
4. (this does not work) Include the refinement into the module¶
Including this one, b/c it feels like maybe some sort of combination refinement/mixin might be what is needed. Like generally, methods defined in a refinement can see other methods, even across other blocks, if they're all on the same module. The problem is there isn't an obvious way to get them back out so that they're visible in the module outside of the refinement.
module M
include refine(M) { # ~> ArgumentError: refinement module is not allowed
def a() = 1
def b() = a
}
refine(Object) { include M }
end
The problem with the obvious workaround¶
There is an obvious workaround: don't put them in a module, just refine directly:
module M
refine Object do
def a() = 1
def b() = a
end
end
using M
b # => 1
However, then that behaviour isn't available for mixing into other classes and objects. So if I want both (which I often find I do), then there don't seem to be any good options available.
For example, can anyone come up with a better way to write the example below? (without moving to_type
to Object
, as that can't be expected to work for the next helper method).
module Types
2.times do
using Types
private def to_type(o) = (Symbol === o ? RespondTo.new(o) : o)
def |(type) = Or.new(to_type(self), to_type(type))
refine(Module) { include Types }
refine(Symbol) { include Types }
end
RespondTo = Struct.new(:name) {
def ===(o) o.respond_to? name end
def inspect() = ".respond_to?(#{name.inspect})"
}.include(Types)
Or = Struct.new(:left, :right) {
def ===(o) left === o || right === o end
def inspect() = "(#{left.inspect} | #{right.inspect})"
}.include(Types)
end
using Types
Integer | String | (:to_int | :to_str)
# => ((Integer | String) | (.respond_to?(:to_int) | .respond_to?(:to_str)))