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60 lines
1.8 KiB
Swift
60 lines
1.8 KiB
Swift
/// The type of terms.
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public protocol TermType {
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typealias Leaf
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var unwrap: Syntax<Self, Leaf> { get }
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}
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extension TermType {
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public static func unwrap(term: Self) -> Syntax<Self, Leaf> {
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return term.unwrap
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}
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/// Catamorphism over `TermType`s.
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///
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/// Folds the tree encoded by the receiver into a single value by recurring top-down through the tree, applying `transform` to leaves, then to branches, and so forth.
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public func cata<Result>(transform: Syntax<Result, Leaf> throws -> Result) rethrows -> Result {
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return try transform(unwrap.map { try $0.cata(transform) })
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}
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/// Paramorphism over `TermType`s.
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///
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/// Folds the tree encoded by the receiver into a single value by recurring top-down through the tree, applying `transform` to leaves, then to branches, and so forth. Each recursive instance is made available in the `Syntax` alongside the result value at that node.
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public func para<Result>(transform: Syntax<(Self, Result), Leaf> throws -> Result) rethrows -> Result {
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return try transform(unwrap.map { try ($0, $0.para(transform)) })
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}
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/// The count of nodes in the receiver.
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///
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/// This is used to compute the cost of patches, such that a patch inserting a very large tree will be charged approximately the same as a very large tree consisting of many small patches.
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public var size: Int {
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func size(term: Self) -> Int {
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switch term.unwrap {
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case .Leaf:
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return 1
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case let .Indexed(a):
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return a.reduce(0) { $0 + size($1) }
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case let .Fixed(a):
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return a.reduce(0) { $0 + size($1) }
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case let .Keyed(a):
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return a.reduce(0) { $0 + size($1.1) }
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}
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}
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return size(self)
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}
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}
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// MARK: - Equality
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extension TermType {
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public static func equals(leaf: (Leaf, Leaf) -> Bool)(_ a: Self, _ b: Self) -> Bool {
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return Syntax.equals(leaf: leaf, recur: equals(leaf))(a.unwrap, b.unwrap)
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}
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}
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import Prelude
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