// // MultilineTextFieldSizer.swift // Evergreen // // Created by Brent Simmons on 2/19/18. // Copyright © 2018 Ranchero Software. All rights reserved. // import AppKit // Get the height of an NSTextField given a string, font, and width. // Uses a cache. Avoids actually measuring text as much as possible. // Main thread only. typealias WidthHeightCache = [Int: Int] // width: height private struct TextFieldSizerSpecifier: Hashable { let numberOfLines: Int let font: NSFont } struct TextFieldSizeInfo { let size: NSSize // Integral size (ceiled) let numberOfLinesUsed: Int // A two-line text field may only use one line, for instance. This would equal 1, then. } final class MultilineTextFieldSizer { private let numberOfLines: Int private let font: NSFont private let textField:NSTextField private let singleLineHeightEstimate: Int private let doubleLineHeightEstimate: Int private var cache = [String: WidthHeightCache]() // Each string has a cache. private static var sizers = [TextFieldSizerSpecifier: MultilineTextFieldSizer]() private init(numberOfLines: Int, font: NSFont) { self.numberOfLines = numberOfLines self.font = font self.textField = MultilineTextFieldSizer.createTextField(numberOfLines, font) self.singleLineHeightEstimate = MultilineTextFieldSizer.calculateHeight("AqLjJ0/y", 200, self.textField) self.doubleLineHeightEstimate = MultilineTextFieldSizer.calculateHeight("AqLjJ0/y\nAqLjJ0/y", 200, self.textField) } static func size(for string: String, font: NSFont, numberOfLines: Int, width: Int) -> TextFieldSizeInfo { return sizer(numberOfLines: numberOfLines, font: font).sizeInfo(for: string, width: width) } static func emptyCache() { sizers = [TextFieldSizerSpecifier: MultilineTextFieldSizer]() } } // MARK: - Private private extension MultilineTextFieldSizer { static func sizer(numberOfLines: Int, font: NSFont) -> MultilineTextFieldSizer { let specifier = TextFieldSizerSpecifier(numberOfLines: numberOfLines, font: font) if let cachedSizer = sizers[specifier] { return cachedSizer } let newSizer = MultilineTextFieldSizer(numberOfLines: numberOfLines, font: font) sizers[specifier] = newSizer return newSizer } func sizeInfo(for string: String, width: Int) -> TextFieldSizeInfo { let textFieldHeight = height(for: string, width: width) let numberOfLinesUsed = numberOfLines(for: textFieldHeight) let size = NSSize(width: width, height: textFieldHeight) let sizeInfo = TextFieldSizeInfo(size: size, numberOfLinesUsed: numberOfLinesUsed) return sizeInfo } func height(for string: String, width: Int) -> Int { if cache[string] == nil { cache[string] = WidthHeightCache() } if let height = cache[string]![width] { return height } if let height = heightConsideringNeighbors(cache[string]!, width) { return height } let height = calculateHeight(string, width) cache[string]![width] = height return height } static func createTextField(_ numberOfLines: Int, _ font: NSFont) -> NSTextField { let textField = NSTextField(wrappingLabelWithString: "") textField.usesSingleLineMode = false textField.maximumNumberOfLines = numberOfLines textField.isEditable = false textField.font = font textField.allowsDefaultTighteningForTruncation = false return textField } func calculateHeight(_ string: String, _ width: Int) -> Int { return MultilineTextFieldSizer.calculateHeight(string, width, textField) } static func calculateHeight(_ string: String, _ width: Int, _ textField: NSTextField) -> Int { textField.stringValue = string textField.preferredMaxLayoutWidth = CGFloat(width) let size = textField.fittingSize return Int(ceil(size.height)) } func numberOfLines(for height: Int) -> Int { // We’ll have to see if this really works reliably. let averageHeight = CGFloat(doubleLineHeightEstimate) / 2.0 let lines = Int(round(CGFloat(height) / averageHeight)) return lines } func heightIsProbablySingleLineHeight(_ height: Int) -> Bool { return heightIsProbablyEqualToEstimate(height, singleLineHeightEstimate) } func heightIsProbablyDoubleLineHeight(_ height: Int) -> Bool { return heightIsProbablyEqualToEstimate(height, doubleLineHeightEstimate) } func heightIsProbablyEqualToEstimate(_ height: Int, _ estimate: Int) -> Bool { let slop = 4 let minimum = estimate - slop let maximum = estimate + slop return height >= minimum && height <= maximum } func heightConsideringNeighbors(_ heightCache: WidthHeightCache, _ width: Int) -> Int? { // Given width, if the height at width - something and width + something is equal, // then that height must be correct for the given width. // Also: // If a narrower neighbor’s height is single line height, then this wider width must also be single-line height. // If a wider neighbor’s height is double line height, and numberOfLines == 2, then this narrower width must able be double-line height. var smallNeighbor = (width: 0, height: 0) var largeNeighbor = (width: 0, height: 0) for (oneWidth, oneHeight) in heightCache { if oneWidth < width && heightIsProbablySingleLineHeight(oneHeight) { return oneHeight } if numberOfLines == 2 && oneWidth > width && heightIsProbablyDoubleLineHeight(oneHeight) { return oneHeight } if oneWidth < width && (oneWidth > smallNeighbor.width || smallNeighbor.width == 0) { smallNeighbor = (oneWidth, oneHeight) } else if oneWidth > width && (oneWidth < largeNeighbor.width || largeNeighbor.width == 0) { largeNeighbor = (oneWidth, oneHeight) } if smallNeighbor.width != 0 && smallNeighbor.height == largeNeighbor.height { return smallNeighbor.height } } return nil } }