//===-- PrefixWhile.swift.gyb - Lazy views for prefix(while:) -*- swift -*-===// // // This source file is part of the Swift.org open source project // // Copyright (c) 2014 - 2016 Apple Inc. and the Swift project authors // Licensed under Apache License v2.0 with Runtime Library Exception // // See https://swift.org/LICENSE.txt for license information // See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors // //===----------------------------------------------------------------------===// %{ from gyb_stdlib_support import ( TRAVERSALS, collectionForTraversal ) }% //===--- Iterator & Sequence ----------------------------------------------===// /// An iterator over the initial elements traversed by a base iterator that /// satisfy a given predicate. /// /// This is the associated iterator for the `LazyPrefixWhileSequence`, /// `LazyPrefixWhileCollection`, and `LazyPrefixWhileBidirectionalCollection` /// types. public struct LazyPrefixWhileIterator : IteratorProtocol, Sequence { public mutating func next() -> Base.Element? { // Return elements from the base iterator until one fails the predicate. if !_predicateHasFailed, let nextElement = _base.next() { if _predicate(nextElement) { return nextElement } else { _predicateHasFailed = true } } return nil } internal init(_base: Base, predicate: @escaping (Base.Element) -> Bool) { self._base = _base self._predicate = predicate } internal var _predicateHasFailed = false internal var _base: Base internal let _predicate: (Base.Element) -> Bool } /// A sequence whose elements consist of the initial consecutive elements of /// some base sequence that satisfy a given predicate. public struct LazyPrefixWhileSequence : LazySequenceProtocol { public typealias Elements = LazyPrefixWhileSequence public func makeIterator() -> LazyPrefixWhileIterator { return LazyPrefixWhileIterator( _base: _base.makeIterator(), predicate: _predicate) } internal init(_base: Base, predicate: @escaping (Base.Iterator.Element) -> Bool) { self._base = _base self._predicate = predicate } internal var _base: Base internal let _predicate: (Base.Iterator.Element) -> Bool } extension LazySequenceProtocol { /// Returns a lazy sequence of the initial consecutive elements that satisfy /// `predicate`. /// /// - Parameter predicate: A closure that takes an element of the sequence as /// its argument and returns `true` if the element should be included or /// `false` otherwise. Once `predicate` returns `false` it will not be /// called again. public func prefix( while predicate: @escaping (Elements.Iterator.Element) -> Bool ) -> LazyPrefixWhileSequence { return LazyPrefixWhileSequence(_base: self.elements, predicate: predicate) } } //===--- Collections ------------------------------------------------------===// /// A position in the base collection of a `LazyPrefixWhileCollection` or the /// end of that collection. public enum _LazyPrefixWhileIndexRepresentation { case index(Base.Index) case pastEnd } /// A position in a `LazyPrefixWhileCollection` or /// `LazyPrefixWhileBidirectionalCollection` instance. public struct LazyPrefixWhileIndex : Comparable { /// The position corresponding to `self` in the underlying collection. internal let _value: _LazyPrefixWhileIndexRepresentation /// Creates a new index wrapper for `i`. internal init(_ i: Base.Index) { self._value = .index(i) } /// Creates a new index that can represent the `endIndex` of a /// `LazyPrefixWhileCollection`. This is not the same as a wrapper /// around `Base.endIndex`. internal init(endOf: Base) { self._value = .pastEnd } } public func == ( lhs: LazyPrefixWhileIndex, rhs: LazyPrefixWhileIndex ) -> Bool { switch (lhs._value, rhs._value) { case let (.index(l), .index(r)): return l == r case (.pastEnd, .pastEnd): return true default: return false } } public func < ( lhs: LazyPrefixWhileIndex, rhs: LazyPrefixWhileIndex ) -> Bool { switch (lhs._value, rhs._value) { case let (.index(l), .index(r)): return l < r case (.index, .pastEnd): return true default: return false } } % for Traversal in ['Forward', 'Bidirectional']: % Collection = collectionForTraversal(Traversal) % Self = "LazyPrefixWhile" + Collection /// A lazy `${Collection}` wrapper that includes the initial consecutive /// elements of an underlying collection that satisfy a predicate. /// /// - Note: The performance of accessing `endIndex`, `last`, any methods that /// depend on `endIndex`, or moving an index depends on how many elements /// satisfy the predicate at the start of the collection, and may not offer /// the usual performance given by the `Collection` protocol. Be aware, /// therefore, that general operations on `${Self}` instances may not have /// the documented complexity. public struct ${Self}< Base : ${Collection} > : LazyCollectionProtocol, ${Collection} { public typealias Index = LazyPrefixWhileIndex public var startIndex: Index { return LazyPrefixWhileIndex(_base.startIndex) } public var endIndex: Index { // If the first element of `_base` satisfies the predicate, there is at // least one element in the lazy collection: Use the explicit `.pastEnd` index. if let first = _base.first, _predicate(first) { return LazyPrefixWhileIndex(endOf: _base) } // `_base` is either empty or `_predicate(_base.first!) == false`. In either // case, the lazy collection is empty, so `endIndex == startIndex`. return startIndex } public func index(after i: Index) -> Index { _precondition(i != endIndex, "can't advance past endIndex") guard case .index(let i) = i._value else { _preconditionFailure("invalid index passed to index(after:)") } let nextIndex = _base.index(after: i) guard nextIndex != _base.endIndex && _predicate(_base[nextIndex]) else { return LazyPrefixWhileIndex(endOf: _base) } return LazyPrefixWhileIndex(nextIndex) } % if Traversal == 'Bidirectional': public func index(before i: Index) -> Index { switch i._value { case .index(let i): _precondition(i != _base.startIndex, "can't move before startIndex") return LazyPrefixWhileIndex(_base.index(before: i)) case .pastEnd: // Look for the position of the last element in a non-empty // prefix(while:) collection by searching forward for a predicate // failure. // Safe to assume that `_base.startIndex != _base.endIndex`; if they // were equal, `_base.startIndex` would be used as the `endIndex` of // this collection. _sanityCheck(!_base.isEmpty) var result = _base.startIndex while true { let next = _base.index(after: result) if next == _base.endIndex || !_predicate(_base[next]) { break } result = next } return LazyPrefixWhileIndex(result) } } % end public subscript(position: Index) -> Base.Iterator.Element { switch position._value { case .index(let i): return _base[i] case .pastEnd: _preconditionFailure("Index out of range") } } public func makeIterator() -> LazyPrefixWhileIterator { return LazyPrefixWhileIterator( _base: _base.makeIterator(), predicate: _predicate) } internal init(_base: Base, predicate: @escaping (Base.Iterator.Element) -> Bool) { self._base = _base self._predicate = predicate } internal var _base: Base internal let _predicate: (Base.Iterator.Element) -> Bool } extension LazyCollectionProtocol where Self : ${Collection}, Elements : ${Collection} { /// Returns a lazy collection of the initial consecutive elements that /// satisfy `predicate`. /// /// - Parameter predicate: A closure that takes an element of the collection /// as its argument and returns `true` if the element should be included /// or `false` otherwise. Once `predicate` returns `false` it will not be /// called again. public func prefix( while predicate: @escaping (Elements.Iterator.Element) -> Bool ) -> LazyPrefixWhile${Collection} { return LazyPrefixWhile${Collection}( _base: self.elements, predicate: predicate) } } % end // ${'Local Variables'}: // eval: (read-only-mode 1) // End: