1
1
mirror of https://github.com/github/semantic.git synced 2024-12-29 18:06:14 +03:00
semantic/prototype/Doubt/Doc.swift
2015-10-01 15:17:07 -04:00

188 lines
4.4 KiB
Swift

public enum Doc: CustomDocConvertible, Equatable {
case Empty
indirect case Concat(Doc, Doc)
indirect case Union(Doc, Doc)
case Text(String)
indirect case Nest(Int, Doc)
case Line
public init<T>(_ value: T) {
self = (value as? CustomDocConvertible)?.doc ?? .Text(String(value))
}
public func group() -> Doc {
return Union(self.flattened, self)
}
public func bracket(left: String, _ right: String) -> Doc {
return (Text(left)
<> Nest(2, Line <> self)
<> Line
<> Text(right)).group()
}
public var flattened: Doc {
switch self {
case .Empty, .Text:
return self
case let .Concat(a, b):
return .Concat(a.flattened, b.flattened)
case let .Union(a, _):
return a.flattened
case let .Nest(_, Doc):
return Doc.flattened
case .Line:
return .Text(" ")
}
}
public func pretty(width: Int) -> String {
return best(width).description
}
private func best(width: Int, placed: Int = 0) -> Layout {
return Layout(width: width, placed: placed, alternatives: .pure((0, self)))
}
public var doc: Doc {
return self
}
}
public func == (left: Doc, right: Doc) -> Bool {
switch (left, right) {
case (.Empty, .Empty), (.Line, .Line):
return true
case let (.Text(a), .Text(b)):
return a == b
case let (.Nest(i, a), .Nest(j, b)):
return i == j && a == b
case let (.Concat(l1, r1), .Concat(l2, r2)):
return l1 == l2 && r1 == r2
case let (.Union(l1, r1), .Union(l2, r2)):
return l1 == l2 && r1 == r2
default:
return false
}
}
extension SequenceType where Generator.Element == Doc {
public func fold(combine: (Doc, Doc) -> Doc) -> Doc {
func fold(docs: Stream<Doc>) -> Doc {
switch docs {
case .Nil:
return .Empty
case let .Cons(x, rest) where rest.value.isEmpty:
return x
case let .Cons(x, rest):
return combine(x, fold(rest.value))
}
}
return fold(Stream(sequence: self))
}
public func spread() -> Doc {
return fold(<+>)
}
public func stack() -> Doc {
return fold(</>)
}
public func joinWithSeparator(separator: String) -> Doc {
return fold {
$0 <> .Text(separator) <+> $1
}
}
}
public protocol CustomDocConvertible: CustomStringConvertible {
var doc: Doc { get }
}
extension CustomDocConvertible {
public var description: String {
return doc.pretty(70)
}
}
public func <> (left: Doc, right: Doc) -> Doc {
return .Concat(left, right)
}
public func <+> (left: Doc, right: Doc) -> Doc {
return left <> .Text(" ") <> right
}
public func </> (left: Doc, right: Doc) -> Doc {
return left <> .Line <> right
}
private enum Layout: CustomStringConvertible, Equatable {
case Empty
indirect case Text(String, Layout)
indirect case Line(Int, Layout)
init(width: Int, placed: Int, alternatives: Stream<(Int, Doc)>) {
switch alternatives {
case .Nil:
self = .Empty
case let .Cons((_, .Empty), rest):
self = Layout(width: width, placed: placed, alternatives: rest.value)
case let .Cons((i, .Concat(x, y)), rest):
self = Layout(width: width, placed: placed, alternatives: .Cons((i, x), Memo(evaluated: .Cons((i, y), rest))))
case let .Cons((i, .Nest(j, x)), rest):
self = Layout(width: width, placed: placed, alternatives: .Cons((i + j, x), rest))
case let .Cons((_, .Text(s)), rest):
self = .Text(s, Layout(width: width, placed: placed + Int(s.characters.count), alternatives: rest.value))
case let .Cons((i, .Line), rest):
self = .Line(i, Layout(width: width, placed: i, alternatives: rest.value))
case let .Cons((i, .Union(x, y)), z):
self = .better(width, placed, Layout(width: width, placed: placed, alternatives: .Cons((i, x), z)), Layout(width: width, placed: placed, alternatives: .Cons((i, y), z)))
}
}
var description: String {
switch self {
case .Empty:
return ""
case let .Text(s, doc):
return s + doc.description
case let .Line(n, doc):
return "\n" + String(count: n, repeatedValue: " " as Character) + doc.description
}
}
func fits(width: Int) -> Bool {
guard width >= 0 else { return false }
switch self {
case .Empty, .Line:
return true
case let .Text(s, x):
return x.fits(width - Int(s.characters.count))
}
}
static func better(width: Int, _ placed: Int, _ x: Layout, _ y: Layout) -> Layout {
return x.fits(width - placed) ? x : y
}
}
private func == (left: Layout, right: Layout) -> Bool {
switch (left, right) {
case (.Empty, .Empty):
return true
case let (.Text(a, x), .Text(b, y)):
return a == b && x == y
case let (.Line(i, x), .Line(j, y)):
return i == j && x == y
default:
return false
}
}