/// The cofree comonad over `Syntax`. /// /// This is “free” in the sense of “unconstrained” rather than “zero-cost”; it’s the comonad obtained by taking a functor (in this case `Syntax`) and adding the minimum necessary details (the `B` paired with it) to satisfy the comonad laws. /// /// This type is dual to `Free`. Where `Free` is inhabited by syntax trees where some terms are replaced with `B`s, `Cofree` is inhabited by syntax trees where all terms are annotated with `B`s. In Doubt, this allows us to e.g. annotate terms with source range information, categorization, etc. public enum Cofree { case Unroll(B, () -> Syntax) public var unwrap: Syntax { switch self { case let .Unroll(_, rest): return rest() } } public init(_ annotation: B, @autoclosure(escaping) _ syntax: () -> Syntax) { self = .Unroll(annotation, syntax) } /// Constructs a cofree by coiteration. /// /// The initial seed is used as the annotation of the returned value. The continuation of the structure is unpacked by applying `annotate` to the seed and mapping the resulting syntax’s values recursively. In this manner, the structure is unfolded bottom-up, starting with `seed` and ending at the leaves. /// /// As this is the dual of `Free.iterate`, it’s unsurprising that we have a similar guarantee: coiteration is linear in the size of the constructed tree. public static func coiterate(annotate: B -> Syntax)(_ seed: B) -> Cofree { return .Unroll(seed, { annotate(seed).map(coiterate(annotate)) }) } } // MARK: - CustomDebugStringConvertible extension Cofree: CustomDebugStringConvertible { public var debugDescription: String { return "(\(String(reflecting: extract)), \(String(reflecting: unwrap)))" } } // MARK: - Functor extension Cofree { public func map(transform: B -> Other) -> Cofree { return .Unroll(transform(extract), { self.unwrap.map { $0.map(transform) } }) } } // MARK: - Comonad extension Cofree { /// Returns the value annotating the syntax tree at this node. public var extract: B { switch self { case let .Unroll(b, _): return b } } /// Returns a new `Cofree` by recursively applying `transform` to each node, producing the annotations for the copy. public func extend(transform: Cofree -> Other) -> Cofree { return .Unroll(transform(self), { self.unwrap.map { $0.extend(transform) } }) } /// Returns a new `Cofree` constructed by recursively annotating each subtree with itself. public var duplicate: Cofree> { return extend(id) } } // MARK: - Equality extension Cofree { public static func equals(annotation annotation: (B, B) -> Bool, leaf: (A, A) -> Bool)(_ left: Cofree, _ right: Cofree) -> Bool { return annotation(left.extract, right.extract) && Syntax.equals(ifLeaf: leaf, ifRecur: Cofree.equals(annotation: annotation, leaf: leaf))(left.unwrap, right.unwrap) } } public func == (left: Cofree, right: Cofree) -> Bool { return Cofree.equals(annotation: ==, leaf: ==)(left, right) } // MARK: - JSON extension Cofree { public func JSON(annotation annotation: B -> Doubt.JSON, leaf: A -> Doubt.JSON) -> Doubt.JSON { return [ "extract": annotation(extract), "unwrap": unwrap.JSON(ifLeaf: leaf, ifRecur: { $0.JSON(annotation: annotation, leaf: leaf) }) ] } } extension Cofree where A: CustomJSONConvertible, B: CustomJSONConvertible { public var JSON: Doubt.JSON { return JSON(annotation: { $0.JSON }, leaf: { $0.JSON }) } } // MARK: - Categorizable extension Cofree where B: Categorizable { var categories: Set { return extract.categories } } import Prelude