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mirror of https://github.com/exyte/Macaw.git synced 2024-11-11 01:42:35 +03:00
Macaw/Source/svg/SVGParser.swift
2018-05-08 14:12:14 +07:00

1537 lines
61 KiB
Swift

import Foundation
import CoreGraphics
#if !CARTHAGE
import SWXMLHash
#endif
///
/// This class used to parse SVG file and build corresponding Macaw scene
///
open class SVGParser {
/// Parse an SVG file identified by the specified bundle, name and file extension.
/// - returns: Root node of the corresponding Macaw scene.
open class func parse(bundle: Bundle, path: String, ofType: String = "svg") throws -> Node {
guard let fullPath = bundle.path(forResource: path, ofType: ofType) else {
throw SVGParserError.noSuchFile(path: "\(path).\(ofType)")
}
let text = try String(contentsOfFile: fullPath, encoding: String.Encoding.utf8)
return try SVGParser.parse(text: text)
}
/// Parse an SVG file identified by the specified name and file extension.
/// - returns: Root node of the corresponding Macaw scene.
open class func parse(path: String, ofType: String = "svg") throws -> Node {
return try SVGParser.parse(bundle: Bundle.main, path: path, ofType: ofType)
}
/// Parse the specified content of an SVG file.
/// - returns: Root node of the corresponding Macaw scene.
open class func parse(text: String) throws -> Node {
return SVGParser(text).parse()
}
let availableStyleAttributes = ["stroke", "stroke-width", "stroke-opacity", "stroke-dasharray", "stroke-dashoffset", "stroke-linecap", "stroke-linejoin",
"fill", "fill-rule", "text-anchor", "clip-path", "fill-opacity",
"stop-color", "stop-opacity",
"font-family", "font-size",
"font-weight", "opacity", "color", "visibility"]
fileprivate let xmlString: String
fileprivate let initialPosition: Transform
fileprivate var nodes = [Node]()
fileprivate var defNodes = [String: XMLIndexer]()
fileprivate var defFills = [String: Fill]()
fileprivate var defMasks = [String: Shape]()
fileprivate var defClip = [String: Locus]()
fileprivate enum PathCommandType {
case moveTo
case lineTo
case lineV
case lineH
case curveTo
case smoothCurveTo
case closePath
case none
}
fileprivate typealias PathCommand = (type: PathCommandType, expression: String, absolute: Bool)
fileprivate init(_ string: String, pos: Transform = Transform()) {
self.xmlString = string
self.initialPosition = pos
}
fileprivate func parse() -> Group {
let parsedXml = SWXMLHash.parse(xmlString)
var layout: NodeLayout?
for child in parsedXml.children {
if let element = child.element {
if element.name == "svg" {
layout = parseViewBox(element)
prepareSvg(child.children)
break
}
}
}
parseSvg(parsedXml.children)
if let layout = layout {
return SVGCanvas(layout: layout, contents: nodes)
}
return Group(contents: nodes)
}
fileprivate func prepareSvg(_ children: [XMLIndexer]) {
children.forEach { child in
prepareSvg(child)
}
}
fileprivate func prepareSvg(_ node: XMLIndexer) {
if let element = node.element {
if (element.name == "defs") {
parseDefinitions(node)
} else if (element.name == "style") {
parseStyle(node)
} else if (element.name == "g") {
node.children.forEach { child in
prepareSvg(child)
}
}
}
}
fileprivate func parseSvg(_ children: [XMLIndexer]) {
children.forEach { child in
if let element = child.element {
if element.name == "svg" {
parseSvg(child.children)
} else if let node = parseNode(child) {
self.nodes.append(node)
}
}
}
}
fileprivate func parseViewBox(_ element: SWXMLHash.XMLElement) -> SvgNodeLayout? {
var svgDimensions: Dimensions?
if let w = getDimensionValue(element, attribute: "width"), let h = getDimensionValue(element, attribute: "height") {
svgDimensions = Dimensions(width: w, height: h)
}
var viewBox: Rect?
if let viewBoxString = element.allAttributes["viewBox"]?.text {
let nums = viewBoxString.components(separatedBy: .whitespaces).map{ Double($0) }
if nums.count == 4, let x = nums[0], let y = nums[1], let w = nums[2], let h = nums[3] {
viewBox = Rect(x: x, y: y, w: w, h: h)
}
}
if svgDimensions == nil && viewBox == nil {
return .none
}
var xAligningMode, yAligningMode: Align?
var scalingMode: AspectRatio?
if let contentModeString = element.allAttributes["preserveAspectRatio"]?.text {
let strings = contentModeString.components(separatedBy: CharacterSet(charactersIn: " "))
if strings.count == 1 { // none
scalingMode = parseAspectRatio(strings[0])
return SvgNodeLayout(svgDimensions: svgDimensions, viewBox: viewBox, scalingMode: scalingMode)
}
guard strings.count == 2 else { fatalError("Invalid content mode") }
let alignString = strings[0]
var xAlign = alignString.prefix(4).lowercased()
xAlign.remove(at: xAlign.startIndex)
xAligningMode = parseAlign(xAlign)
var yAlign = alignString.suffix(4).lowercased()
yAlign.remove(at: yAlign.startIndex)
yAligningMode = parseAlign(yAlign)
scalingMode = parseAspectRatio(strings[1])
}
return SvgNodeLayout(svgDimensions: svgDimensions, viewBox: viewBox, scalingMode: scalingMode, xAligningMode: xAligningMode, yAligningMode: yAligningMode)
}
fileprivate func parseNode(_ node: XMLIndexer, groupStyle: [String: String] = [:]) -> Node? {
if let element = node.element {
switch(element.name) {
case "g":
return parseGroup(node, groupStyle: groupStyle)
case "clipPath":
if let id = element.allAttributes["id"]?.text, let clip = parseClip(node) {
self.defClip[id] = clip
}
case "style", "defs":
// do nothing - it was parsed on first iteration
return .none
default:
return parseElement(node, groupStyle: groupStyle)
}
}
return .none
}
fileprivate var styleTable: [String: [String: String]] = [:]
fileprivate func parseStyle(_ styleNode: XMLIndexer) {
if let rawStyle = styleNode.element?.text {
var styleAttributes: [String: String] = [:]
let parts = rawStyle.trimmingCharacters(in: .whitespacesAndNewlines).split(separator: "{")
if parts.count == 2 {
let className = String(parts[0].dropFirst())
if !className.isEmpty {
let style = String(parts[1].dropLast())
let styleParts = style.replacingOccurrences(of: " ", with: "").components(separatedBy: ";")
styleParts.forEach { styleAttribute in
let currentStyle = styleAttribute.components(separatedBy: ":")
if currentStyle.count == 2 {
styleAttributes.updateValue(currentStyle[1], forKey: currentStyle[0])
}
}
styleTable[className] = styleAttributes
}
}
}
}
fileprivate func parseDefinitions(_ defs: XMLIndexer, groupStyle: [String: String] = [:]) {
for child in defs.children {
guard let id = child.element?.allAttributes["id"]?.text else {
continue
}
if let fill = parseFill(child) {
self.defFills[id] = fill
continue
}
if let _ = parseNode(child) {
// TODO we don't really need to parse node
self.defNodes[id] = child
continue
}
if let mask = parseMask(child) {
self.defMasks[id] = mask
continue
}
if let clip = parseClip(child) {
self.defClip[id] = clip
}
}
}
fileprivate func parseElement(_ node: XMLIndexer, groupStyle: [String: String] = [:]) -> Node? {
guard let element = node.element else { return .none }
let styleAttributes = getStyleAttributes(groupStyle, element: element)
if styleAttributes["display"] == "none" {
return .none
}
if styleAttributes["visibility"] == "hidden" {
return .none
}
let position = getPosition(element)
switch element.name {
case "path":
if var path = parsePath(node) {
if let rule = getFillRule(styleAttributes) {
path = Path(segments: path.segments, fillRule: rule)
}
return Shape(form: path, fill: getFillColor(styleAttributes, groupStyle: styleAttributes), stroke: getStroke(styleAttributes, groupStyle: styleAttributes), place: position, opacity: getOpacity(styleAttributes), clip: getClipPath(styleAttributes), tag: getTag(element))
}
case "line":
if let line = parseLine(node) {
return Shape(form: line, fill: getFillColor(styleAttributes, groupStyle: styleAttributes), stroke: getStroke(styleAttributes, groupStyle: styleAttributes), place: position, opacity: getOpacity(styleAttributes), clip: getClipPath(styleAttributes), tag: getTag(element))
}
case "rect":
if let rect = parseRect(node) {
return Shape(form: rect, fill: getFillColor(styleAttributes, groupStyle: styleAttributes), stroke: getStroke(styleAttributes, groupStyle: styleAttributes), place: position, opacity: getOpacity(styleAttributes), clip: getClipPath(styleAttributes), tag: getTag(element))
}
case "circle":
if let circle = parseCircle(node) {
return Shape(form: circle, fill: getFillColor(styleAttributes, groupStyle: styleAttributes), stroke: getStroke(styleAttributes, groupStyle: styleAttributes), place: position, opacity: getOpacity(styleAttributes), clip: getClipPath(styleAttributes), tag: getTag(element))
}
case "ellipse":
if let ellipse = parseEllipse(node) {
return Shape(form: ellipse, fill: getFillColor(styleAttributes, groupStyle: styleAttributes), stroke: getStroke(styleAttributes, groupStyle: styleAttributes), place: position, opacity: getOpacity(styleAttributes), clip: getClipPath(styleAttributes), tag: getTag(element))
}
case "polygon":
if let polygon = parsePolygon(node) {
return Shape(form: polygon, fill: getFillColor(styleAttributes, groupStyle: styleAttributes), stroke: getStroke(styleAttributes, groupStyle: styleAttributes), place: position, opacity: getOpacity(styleAttributes), clip: getClipPath(styleAttributes), tag: getTag(element))
}
case "polyline":
if let polyline = parsePolyline(node) {
return Shape(form: polyline, fill: getFillColor(styleAttributes, groupStyle: styleAttributes), stroke: getStroke(styleAttributes, groupStyle: styleAttributes), place: position, opacity: getOpacity(styleAttributes), clip: getClipPath(styleAttributes), tag: getTag(element))
}
case "image":
return parseImage(node, opacity: getOpacity(styleAttributes), pos: position, clip: getClipPath(styleAttributes))
case "text":
return parseText(node, textAnchor: getTextAnchor(styleAttributes), fill: getFillColor(styleAttributes, groupStyle: styleAttributes),
stroke: getStroke(styleAttributes, groupStyle: styleAttributes), opacity: getOpacity(styleAttributes), fontName: getFontName(styleAttributes), fontSize: getFontSize(styleAttributes), fontWeight: getFontWeight(styleAttributes), pos: position)
case "use":
return parseUse(node, groupStyle: styleAttributes, place: position)
case "mask":
break
default:
print("SVG parsing error. Shape \(element.name) not supported")
return .none
}
return .none
}
fileprivate func parseFill(_ fill: XMLIndexer) -> Fill? {
guard let element = fill.element else {
return .none
}
let style = getStyleAttributes([:], element: element)
switch element.name {
case "linearGradient":
return parseLinearGradient(fill, groupStyle: style)
case "radialGradient":
return parseRadialGradient(fill, groupStyle: style)
default:
return .none
}
}
fileprivate func parseGroup(_ group: XMLIndexer, groupStyle: [String: String] = [:]) -> Group? {
guard let element = group.element else {
return .none
}
var groupNodes: [Node] = []
let style = getStyleAttributes(groupStyle, element: element)
let position = getPosition(element)
group.children.forEach { child in
if let node = parseNode(child, groupStyle: style) {
groupNodes.append(node)
}
}
return Group(contents: groupNodes, place: position, tag: getTag(element))
}
fileprivate func getMask(mask: String) -> Locus? {
if let maskIdenitifierMatcher = SVGParserRegexHelper.getMaskIdenitifierMatcher() {
let fullRange = NSRange(location: 0, length: mask.count)
if let match = maskIdenitifierMatcher.firstMatch(in: mask, options: .reportCompletion, range: fullRange), let maskReferenceNode = self.defMasks[(mask as NSString).substring(with: match.range(at: 1))] {
return maskReferenceNode.form
}
}
return .none
}
fileprivate func getPosition(_ element: SWXMLHash.XMLElement) -> Transform {
guard let transformAttribute = element.allAttributes["transform"]?.text else {
return Transform.identity
}
return parseTransformationAttribute(transformAttribute)
}
fileprivate func parseAlign(_ string: String) -> Align {
if string == "min" {
return .min
}
if string == "mid" {
return .mid
}
return .max
}
fileprivate func parseAspectRatio(_ string: String) -> AspectRatio {
if string == "meet" {
return .meet
}
if string == "slice" {
return .slice
}
return .none
}
var count = 0
fileprivate func parseTransformationAttribute(_ attributes: String, transform: Transform = Transform()) -> Transform {
guard let matcher = SVGParserRegexHelper.getTransformAttributeMatcher() else {
return transform
}
let attributes = attributes.replacingOccurrences(of: "\n", with: "")
var finalTransform = transform
let fullRange = NSRange(location: 0, length: attributes.count)
if let matchedAttribute = matcher.firstMatch(in: attributes, options: .reportCompletion, range: fullRange) {
let attributeName = (attributes as NSString).substring(with: matchedAttribute.range(at: 1))
let values = parseTransformValues((attributes as NSString).substring(with: matchedAttribute.range(at: 2)))
if values.isEmpty {
return transform
}
switch attributeName {
case "translate":
if let x = Double(values[0]) {
var y: Double = 0
if values.indices.contains(1) {
y = Double(values[1]) ?? 0
}
finalTransform = transform.move(dx: x, dy: y)
}
case "scale":
if let x = Double(values[0]) {
var y: Double = x
if values.indices.contains(1) {
y = Double(values[1]) ?? x
}
finalTransform = transform.scale(sx: x, sy: y)
}
case "rotate":
if let angle = Double(values[0]) {
if values.count == 1 {
finalTransform = transform.rotate(angle: degreesToRadians(angle))
} else if values.count == 3 {
if let x = Double(values[1]), let y = Double(values[2]) {
finalTransform = transform.move(dx: x, dy: y).rotate(angle: degreesToRadians(angle)).move(dx: -x, dy: -y)
}
}
}
case "skewX":
if let x = Double(values[0]) {
let v = tan((x * Double.pi) / 180.0)
finalTransform = transform.shear(shx: v, shy: 0)
}
case "skewY":
if let y = Double(values[0]) {
let y = tan((y * Double.pi) / 180.0)
finalTransform = transform.shear(shx: 0, shy: y)
}
case "matrix":
if values.count != 6 {
return transform
}
if let m11 = Double(values[0]), let m12 = Double(values[1]),
let m21 = Double(values[2]), let m22 = Double(values[3]),
let dx = Double(values[4]), let dy = Double(values[5]) {
let transformMatrix = Transform(m11: m11, m12: m12, m21: m21, m22: m22, dx: dx, dy: dy)
finalTransform = GeomUtils.concat(t1: transform, t2: transformMatrix)
}
default:
break
}
let rangeToRemove = NSRange(location: 0, length: matchedAttribute.range.location + matchedAttribute.range.length)
let newAttributeString = (attributes as NSString).replacingCharacters(in: rangeToRemove, with: "")
return parseTransformationAttribute(newAttributeString, transform: finalTransform)
} else {
return transform
}
}
/// Parse an RGB
/// - returns: Color for the corresponding SVG color string in RGB notation.
fileprivate func parseRGBNotation(colorString: String) -> Color {
let from = colorString.index(colorString.startIndex, offsetBy: 4)
let inPercentage = colorString.contains("%")
let sp = String(colorString.suffix(from: from))
.replacingOccurrences(of: "%", with: "")
.replacingOccurrences(of: ")", with: "")
.replacingOccurrences(of: " ", with: "")
let x = sp.components(separatedBy: ",")
var red = 0.0
var green = 0.0
var blue = 0.0
if x.count == 3 {
if let r = Double(x[0]), let g = Double(x[1]), let b = Double(x[2]) {
blue = b
green = g
red = r
}
}
if inPercentage {
red *= 2.55
green *= 2.55
blue *= 2.55
}
return Color.rgb(r: Int(red.rounded(.up)),
g: Int(green.rounded(.up)),
b: Int(blue.rounded(.up)))
}
fileprivate func parseTransformValues(_ values: String, collectedValues: [String] = []) -> [String] {
guard let matcher = SVGParserRegexHelper.getTransformMatcher() else {
return collectedValues
}
var updatedValues: [String] = collectedValues
let fullRange = NSRange(location: 0, length: values.count)
if let matchedValue = matcher.firstMatch(in: values, options: .reportCompletion, range: fullRange) {
let value = (values as NSString).substring(with: matchedValue.range)
updatedValues.append(value)
let rangeToRemove = NSRange(location: 0, length: matchedValue.range.location + matchedValue.range.length)
let newValues = (values as NSString).replacingCharacters(in: rangeToRemove, with: "")
return parseTransformValues(newValues, collectedValues: updatedValues)
}
return updatedValues
}
fileprivate func getStyleAttributes(_ groupAttributes: [String: String], element: SWXMLHash.XMLElement) -> [String: String] {
var styleAttributes: [String: String] = groupAttributes
if let className = element.allAttributes["class"]?.text, let styleAttributesFromTable = styleTable[className] {
for (att, val) in styleAttributesFromTable {
if styleAttributes.index(forKey: att) == nil {
styleAttributes.updateValue(val, forKey: att)
}
}
}
if let style = element.allAttributes["style"]?.text {
let styleParts = style.replacingOccurrences(of: " ", with: "").components(separatedBy: ";")
styleParts.forEach { styleAttribute in
let currentStyle = styleAttribute.components(separatedBy: ":")
if currentStyle.count == 2 {
styleAttributes.updateValue(currentStyle[1], forKey: currentStyle[0])
}
}
}
self.availableStyleAttributes.forEach { availableAttribute in
if let styleAttribute = element.allAttributes[availableAttribute]?.text, styleAttribute != "inherit" {
styleAttributes.updateValue(styleAttribute, forKey: availableAttribute)
}
}
return styleAttributes
}
fileprivate func createColor(_ hexString: String, opacity: Double = 1) -> Color {
let opacity = min(max(opacity, 0), 1)
var cleanedHexString = hexString
if hexString.hasPrefix("#") {
cleanedHexString = hexString.replacingOccurrences(of: "#", with: "")
}
if cleanedHexString.count == 3 {
let x = Array(cleanedHexString)
cleanedHexString = "\(x[0])\(x[0])\(x[1])\(x[1])\(x[2])\(x[2])"
}
var rgbValue: UInt32 = 0
Scanner(string: cleanedHexString).scanHexInt32(&rgbValue)
let red = CGFloat((rgbValue >> 16) & 0xff)
let green = CGFloat((rgbValue >> 08) & 0xff)
let blue = CGFloat((rgbValue >> 00) & 0xff)
return Color.rgba(r: Int(red), g: Int(green), b: Int(blue), a: opacity)
}
fileprivate func getFillColor(_ styleParts: [String: String], groupStyle: [String: String] = [:]) -> Fill? {
guard var fillColor = styleParts["fill"] else {
return Color.black
}
if fillColor == "none" || fillColor == "transparent" {
return .none
}
if fillColor == "currentColor", let currentColor = groupStyle["color"] {
fillColor = currentColor
}
var opacity: Double = 1
var hasFillOpacity = false
if let fillOpacity = styleParts["fill-opacity"] {
opacity = Double(fillOpacity.replacingOccurrences(of: " ", with: "")) ?? 1
hasFillOpacity = true
}
if let defaultColor = SVGConstants.colorList[fillColor] {
let color = Color(val: defaultColor)
return hasFillOpacity ? color.with(a: opacity) : color
}
if fillColor.hasPrefix("rgb") {
let color = parseRGBNotation(colorString: fillColor)
return hasFillOpacity ? color.with(a: opacity) : color
} else if fillColor.hasPrefix("url") {
let index = fillColor.index(fillColor.startIndex, offsetBy: 4)
let id = String(fillColor.suffix(from: index))
.replacingOccurrences(of: "(", with: "")
.replacingOccurrences(of: ")", with: "")
.replacingOccurrences(of: "#", with: "")
return defFills[id]
} else {
return createColor(fillColor.replacingOccurrences(of: " ", with: ""), opacity: opacity)
}
}
fileprivate func getStroke(_ styleParts: [String: String], groupStyle: [String: String] = [:]) -> Stroke? {
guard var strokeColor = styleParts["stroke"] else {
return .none
}
if strokeColor == "none" {
return .none
}
if strokeColor == "currentColor", let currentColor = groupStyle["color"] {
strokeColor = currentColor
}
var opacity: Double = 1
if let strokeOpacity = styleParts["stroke-opacity"] {
opacity = Double(strokeOpacity.replacingOccurrences(of: " ", with: "")) ?? 1
}
var fill: Fill?
if let defaultColor = SVGConstants.colorList[strokeColor] {
let color = Color(val: defaultColor)
fill = color.with(a: opacity)
} else if strokeColor.hasPrefix("rgb") {
fill = parseRGBNotation(colorString: strokeColor)
} else if strokeColor.hasPrefix("url") {
let index = strokeColor.index(strokeColor.startIndex, offsetBy: 4)
let id = String(strokeColor.suffix(from: index))
.replacingOccurrences(of: "(", with: "")
.replacingOccurrences(of: ")", with: "")
.replacingOccurrences(of: "#", with: "")
fill = defFills[id]
} else {
fill = createColor(strokeColor.replacingOccurrences(of: " ", with: ""), opacity: opacity)
}
if let strokeFill = fill {
return Stroke(fill: strokeFill,
width: getStrokeWidth(styleParts),
cap: getStrokeCap(styleParts),
join: getStrokeJoin(styleParts),
dashes: getStrokeDashes(styleParts),
offset: getStrokeOffset(styleParts))
}
return .none
}
fileprivate func getStrokeWidth(_ styleParts: [String: String]) -> Double {
if let strokeWidth = styleParts["stroke-width"], let value = doubleFromString(strokeWidth) {
return value
}
return 1
}
fileprivate func getStrokeCap(_ styleParts: [String: String]) -> LineCap {
var cap = LineCap.butt
if let strokeCap = styleParts["stroke-linecap"] {
switch strokeCap {
case "round":
cap = .round
case "butt":
cap = .butt
case "square":
cap = .square
default:
break
}
}
return cap
}
fileprivate func getStrokeJoin(_ styleParts: [String: String]) -> LineJoin {
var join = LineJoin.miter
if let strokeJoin = styleParts["stroke-linejoin"] {
switch strokeJoin {
case "round":
join = .round
case "miter":
join = .miter
case "bevel":
join = .bevel
default:
break
}
}
return join
}
fileprivate func getStrokeDashes(_ styleParts: [String: String]) -> [Double] {
var dashes = [Double]()
if let strokeDashes = styleParts["stroke-dasharray"] {
var characterSet = CharacterSet()
characterSet.insert(" ")
characterSet.insert(",")
let separatedValues = strokeDashes.components(separatedBy: characterSet)
separatedValues.forEach { value in
if let doubleValue = doubleFromString(value) {
dashes.append(doubleValue)
}
}
}
return dashes
}
fileprivate func getStrokeOffset(_ styleParts: [String: String]) -> Double {
if let strokeOffset = styleParts["stroke-dashoffset"], let offset = Double(strokeOffset) { // TODO use doubleFromString once it's merged
return offset
}
return 0
}
fileprivate func getTag(_ element: SWXMLHash.XMLElement) -> [String] {
let id = element.allAttributes["id"]?.text
return id != nil ? [id!] : []
}
fileprivate func getOpacity(_ styleParts: [String: String]) -> Double {
if let opacityAttr = styleParts["opacity"] {
return Double(opacityAttr.replacingOccurrences(of: " ", with: "")) ?? 1
}
return 1
}
fileprivate func parseLine(_ line: XMLIndexer) -> Line? {
guard let element = line.element else {
return .none
}
return Line(x1: getDoubleValue(element, attribute: "x1") ?? 0,
y1: getDoubleValue(element, attribute: "y1") ?? 0,
x2: getDoubleValue(element, attribute: "x2") ?? 0,
y2: getDoubleValue(element, attribute: "y2") ?? 0)
}
fileprivate func parseRect(_ rect: XMLIndexer) -> Locus? {
guard let element = rect.element,
let width = getDoubleValue(element, attribute: "width"),
let height = getDoubleValue(element, attribute: "height"), width > 0 && height > 0 else {
return .none
}
let resultRect = Rect(x: getDoubleValue(element, attribute: "x") ?? 0, y: getDoubleValue(element, attribute: "y") ?? 0, w: width, h: height)
let rxOpt = getDoubleValue(element, attribute: "rx")
let ryOpt = getDoubleValue(element, attribute: "ry")
if let rx = rxOpt, let ry = ryOpt {
return RoundRect(rect: resultRect, rx: rx, ry: ry)
}
let rOpt = rxOpt ?? ryOpt
if let r = rOpt, r >= 0 {
return RoundRect(rect: resultRect, rx: r, ry: r)
}
return resultRect
}
fileprivate func parseCircle(_ circle: XMLIndexer) -> Circle? {
guard let element = circle.element, let r = getDoubleValue(element, attribute: "r"), r > 0 else {
return .none
}
return Circle(cx: getDoubleValue(element, attribute: "cx") ?? 0, cy: getDoubleValue(element, attribute: "cy") ?? 0, r: r)
}
fileprivate func parseEllipse(_ ellipse: XMLIndexer) -> Arc? {
guard let element = ellipse.element,
let rx = getDoubleValue(element, attribute: "rx"),
let ry = getDoubleValue(element, attribute: "ry"), rx > 0 && ry > 0 else {
return .none
}
return Arc(
ellipse: Ellipse(cx: getDoubleValue(element, attribute: "cx") ?? 0, cy: getDoubleValue(element, attribute: "cy") ?? 0, rx: rx, ry: ry),
shift: 0,
extent: degreesToRadians(360)
)
}
fileprivate func parsePolygon(_ polygon: XMLIndexer) -> Polygon? {
guard let element = polygon.element else {
return .none
}
if let points = element.allAttributes["points"]?.text {
return Polygon(points: parsePoints(points))
}
return .none
}
fileprivate func parsePolyline(_ polyline: XMLIndexer) -> Polyline? {
guard let element = polyline.element else {
return .none
}
if let points = element.allAttributes["points"]?.text {
return Polyline(points: parsePoints(points))
}
return .none
}
fileprivate func parsePoints(_ pointsString: String) -> [Double] {
var resultPoints: [Double] = []
let pointPairs = pointsString.components(separatedBy: " ")
pointPairs.forEach { pointPair in
let points = pointPair.components(separatedBy: ",")
points.forEach { point in
if let resultPoint = Double(point) {
resultPoints.append(resultPoint)
}
}
}
return resultPoints
}
fileprivate func parseImage(_ image: XMLIndexer, opacity: Double, pos: Transform = Transform(), clip: Locus?) -> Image? {
guard let element = image.element, let link = element.allAttributes["xlink:href"]?.text else {
return .none
}
let position = pos.move(dx: getDoubleValue(element, attribute: "x") ?? 0, dy: getDoubleValue(element, attribute: "y") ?? 0)
return Image(src: link, w: getIntValue(element, attribute: "width") ?? 0, h: getIntValue(element, attribute: "height") ?? 0, place: position, clip: clip, tag: getTag(element))
}
fileprivate func parseText(_ text: XMLIndexer, textAnchor: String?, fill: Fill?, stroke: Stroke?, opacity: Double, fontName: String?, fontSize: Int?, fontWeight: String?, pos: Transform = Transform()) -> Node? {
guard let element = text.element else {
return .none
}
if text.children.isEmpty {
return parseSimpleText(element, textAnchor: textAnchor, fill: fill, stroke: stroke, opacity: opacity, fontName: fontName, fontSize: fontSize, fontWeight: fontWeight)
} else {
guard let matcher = SVGParserRegexHelper.getTextElementMatcher() else {
return .none
}
let elementString = element.description
let fullRange = NSRange(location: 0, length: elementString.count)
if let match = matcher.firstMatch(in: elementString, options: .reportCompletion, range: fullRange) {
let tspans = (elementString as NSString).substring(with: match.range(at: 1))
return Group(contents: collectTspans(tspans, textAnchor: textAnchor, fill: fill, stroke: stroke, opacity: opacity, fontName: fontName, fontSize: fontSize, fontWeight: fontWeight, bounds: Rect(x: getDoubleValue(element, attribute: "x") ?? 0, y: getDoubleValue(element, attribute: "y") ?? 0)),
place: pos, tag: getTag(element))
}
}
return .none
}
fileprivate func anchorToAlign(_ textAnchor: String?) -> Align {
if let anchor = textAnchor {
if anchor == "middle" {
return .mid
} else if anchor == "end" {
return .max
}
}
return Align.min
}
fileprivate func parseSimpleText(_ text: SWXMLHash.XMLElement, textAnchor: String?, fill: Fill?, stroke: Stroke?, opacity: Double, fontName: String?, fontSize: Int?, fontWeight: String?, pos: Transform = Transform()) -> Text? {
let string = text.text
let position = pos.move(dx: getDoubleValue(text, attribute: "x") ?? 0, dy: getDoubleValue(text, attribute: "y") ?? 0)
return Text(text: string, font: getFont(fontName: fontName, fontWeight: fontWeight, fontSize: fontSize), fill: fill ?? Color.black, stroke: stroke, align: anchorToAlign(textAnchor), baseline: .bottom, place: position, opacity: opacity, tag: getTag(text))
}
// REFACTOR
fileprivate func collectTspans(_ tspan: String, collectedTspans: [Node] = [], withWhitespace: Bool = false, textAnchor: String?, fill: Fill?, stroke: Stroke?, opacity: Double, fontName: String?, fontSize: Int?, fontWeight: String?, bounds: Rect) -> [Node] {
let fullString = tspan.trimmingCharacters(in: CharacterSet.whitespacesAndNewlines) as NSString
// exit recursion
if fullString.isEqual(to: "") {
return collectedTspans
}
var collection = collectedTspans
let tagRange = fullString.range(of: "<tspan".lowercased())
if tagRange.location == 0 {
// parse as <tspan> element
let closingTagRange = fullString.range(of: "</tspan>".lowercased())
let tspanString = fullString.substring(to: closingTagRange.location + closingTagRange.length)
let tspanXml = SWXMLHash.parse(tspanString)
guard let indexer = tspanXml.children.first,
let text = parseTspan(indexer, withWhitespace: withWhitespace, textAnchor: textAnchor, fill: fill, stroke: stroke, opacity: opacity, fontName: fontName, fontSize: fontSize, fontWeight: fontWeight, bounds: bounds) else {
// skip this element if it can't be parsed
return collectTspans(fullString.substring(from: closingTagRange.location + closingTagRange.length), collectedTspans: collectedTspans, textAnchor: textAnchor, fill: fill, stroke: stroke, opacity: opacity,
fontName: fontName, fontSize: fontSize, fontWeight: fontWeight, bounds: bounds)
}
collection.append(text)
let nextString = fullString.substring(from: closingTagRange.location + closingTagRange.length) as NSString
var withWhitespace = false
if nextString.rangeOfCharacter(from: CharacterSet.whitespacesAndNewlines).location == 0 {
withWhitespace = true
}
return collectTspans(fullString.substring(from: closingTagRange.location + closingTagRange.length), collectedTspans: collection, withWhitespace: withWhitespace, textAnchor: textAnchor, fill: fill, stroke: stroke, opacity: opacity, fontName: fontName, fontSize: fontSize, fontWeight: fontWeight, bounds: text.bounds())
}
// parse as regular text element
var textString: NSString
if tagRange.location >= fullString.length {
textString = fullString
} else {
textString = fullString.substring(to: tagRange.location) as NSString
}
var nextStringWhitespace = false
var trimmedString = textString.trimmingCharacters(in: CharacterSet.whitespacesAndNewlines)
if trimmedString.count != textString.length {
nextStringWhitespace = true
}
trimmedString = withWhitespace ? " \(trimmedString)" : trimmedString
let text = Text(text: trimmedString, font: getFont(fontName: fontName, fontWeight: fontWeight, fontSize: fontSize),
fill: fill ?? Color.black, stroke: stroke, align: anchorToAlign(textAnchor), baseline: .alphabetic,
place: Transform().move(dx: bounds.x + bounds.w, dy: bounds.y), opacity: opacity)
collection.append(text)
return collectTspans(fullString.substring(from: tagRange.location), collectedTspans: collection,
withWhitespace: nextStringWhitespace, textAnchor: textAnchor, fill: fill, stroke: stroke,
opacity: opacity, fontName: fontName, fontSize: fontSize, fontWeight: fontWeight, bounds: text.bounds())
}
fileprivate func parseTspan(_ tspan: XMLIndexer, withWhitespace: Bool = false, textAnchor: String?, fill: Fill?, stroke: Stroke?, opacity: Double, fontName: String?, fontSize: Int?, fontWeight: String?, bounds: Rect) -> Text? {
guard let element = tspan.element else {
return .none
}
let string = element.text
var shouldAddWhitespace = withWhitespace
let pos = getTspanPosition(element, bounds: bounds, withWhitespace: &shouldAddWhitespace)
let text = shouldAddWhitespace ? " \(string)" : string
let attributes = getStyleAttributes([:], element: element)
return Text(text: text, font: getFont(attributes, fontName: fontName, fontWeight: fontWeight, fontSize: fontSize),
fill: fill ?? getFillColor(attributes) ?? Color.black, stroke: stroke ?? getStroke(attributes),
align: anchorToAlign(textAnchor ?? getTextAnchor(attributes)), baseline: .alphabetic,
place: pos, opacity: getOpacity(attributes), tag: getTag(element))
}
fileprivate func getFont(_ attributes: [String: String] = [:], fontName: String?, fontWeight: String?, fontSize: Int?) -> Font {
return Font(
name: getFontName(attributes) ?? fontName ?? "Serif",
size: getFontSize(attributes) ?? fontSize ?? 12,
weight: getFontWeight(attributes) ?? fontWeight ?? "normal")
}
fileprivate func getTspanPosition(_ element: SWXMLHash.XMLElement, bounds: Rect, withWhitespace: inout Bool) -> Transform {
var xPos: Double
var yPos: Double
if let absX = getDoubleValue(element, attribute: "x") {
xPos = absX
withWhitespace = false
} else if let relX = getDoubleValue(element, attribute: "dx") {
xPos = bounds.x + bounds.w + relX
} else {
xPos = bounds.x + bounds.w
}
if let absY = getDoubleValue(element, attribute: "y") {
yPos = absY
} else if let relY = getDoubleValue(element, attribute: "dy") {
yPos = bounds.y + relY
} else {
yPos = bounds.y
}
return Transform.move(dx: xPos, dy: yPos)
}
fileprivate func parseUse(_ use: XMLIndexer, groupStyle: [String: String] = [:], place: Transform = .identity) -> Node? {
guard let element = use.element, let link = element.allAttributes["xlink:href"]?.text else {
return .none
}
var id = link
if id.hasPrefix("#") {
id = id.replacingOccurrences(of: "#", with: "")
}
if let referenceNode = self.defNodes[id] {
if let node = parseNode(referenceNode, groupStyle: groupStyle) {
let place = place.move(dx: getDoubleValue(element, attribute: "x") ?? 0, dy: getDoubleValue(element, attribute: "y") ?? 0)
return Group(contents: [node], place: place)
}
}
return .none
}
fileprivate func parseUseNode(node: Node, fill: Fill?, stroke: Stroke?, mask: String) -> Node {
if let shape = node as? Shape {
if let color = fill {
shape.fill = color
}
if let line = stroke {
shape.stroke = line
}
if let maskIdenitifierMatcher = SVGParserRegexHelper.getMaskIdenitifierMatcher() {
let fullRange = NSRange(location: 0, length: mask.count)
if let match = maskIdenitifierMatcher.firstMatch(in: mask, options: .reportCompletion, range: fullRange), let maskReferenceNode = self.defMasks[(mask as NSString).substring(with: match.range(at: 1))] {
shape.clip = maskReferenceNode.form
shape.fill = .none
}
}
return shape
}
if let text = node as? Text {
if let color = fill {
text.fill = color
}
return text
}
if let group = node as? Group {
group.contents.forEach { node in
_ = parseUseNode(node: node, fill: fill, stroke: stroke, mask: mask)
}
return group
}
return node
}
fileprivate func parseClip(_ clip: XMLIndexer) -> Locus? {
var path: Path? = .none
clip.children.forEach { indexer in
if let shape = parseNode(indexer) as? Shape {
if let p = path {
path = Path(segments: p.segments + shape.form.toPath() .segments)
} else {
path = shape.form.toPath()
}
}
}
return path
}
fileprivate func parseMask(_ mask: XMLIndexer) -> Shape? {
guard let element = mask.element else {
return .none
}
var node: Node?
mask.children.forEach { indexer in
if let useNode = parseUse(indexer) {
node = useNode
} else if let contentNode = parseNode(indexer) {
node = contentNode
}
}
guard let shape = node as? Shape else {
return .none
}
let maskShape: Shape
if let circle = shape.form as? Circle {
maskShape = Shape(form: circle.arc(shift: 0, extent: degreesToRadians(360)), tag: getTag(element))
} else {
maskShape = Shape(form: shape.form, tag: getTag(element))
}
let maskStyleAttributes = getStyleAttributes([:], element: element)
maskShape.fill = getFillColor(maskStyleAttributes)
return maskShape
}
fileprivate func parseLinearGradient(_ gradient: XMLIndexer, groupStyle: [String: String] = [:]) -> Fill? {
guard let element = gradient.element else {
return .none
}
var parentGradient: Gradient?
if let link = element.allAttributes["xlink:href"]?.text.replacingOccurrences(of: " ", with: ""), link.hasPrefix("#") {
let id = link.replacingOccurrences(of: "#", with: "")
parentGradient = defFills[id] as? Gradient
}
var stopsArray: [Stop]?
if gradient.children.isEmpty {
stopsArray = parentGradient?.stops
} else {
stopsArray = parseStops(gradient.children, groupStyle: groupStyle)
}
guard let stops = stopsArray else {
return .none
}
switch stops.count {
case 0:
return .none
case 1:
return stops.first?.color
default:
break
}
let parentLinearGradient = parentGradient as? LinearGradient
var x1 = getDoubleValueFromPercentage(element, attribute: "x1") ?? parentLinearGradient?.x1 ?? 0
var y1 = getDoubleValueFromPercentage(element, attribute: "y1") ?? parentLinearGradient?.y1 ?? 0
var x2 = getDoubleValueFromPercentage(element, attribute: "x2") ?? parentLinearGradient?.x2 ?? 1
var y2 = getDoubleValueFromPercentage(element, attribute: "y2") ?? parentLinearGradient?.y2 ?? 0
var userSpace = false
if let gradientUnits = element.allAttributes["gradientUnits"]?.text, gradientUnits == "userSpaceOnUse" {
userSpace = true
} else if let parent = parentGradient {
userSpace = parent.userSpace
}
if let gradientTransform = element.allAttributes["gradientTransform"]?.text {
let transform = parseTransformationAttribute(gradientTransform)
let cgTransform = RenderUtils.mapTransform(transform)
let point1 = CGPoint(x: x1, y: y1).applying(cgTransform)
x1 = point1.x.doubleValue
y1 = point1.y.doubleValue
let point2 = CGPoint(x: x2, y: y2).applying(cgTransform)
x2 = point2.x.doubleValue
y2 = point2.y.doubleValue
}
return LinearGradient(x1: x1, y1: y1, x2: x2, y2: y2, userSpace: userSpace, stops: stops)
}
fileprivate func parseRadialGradient(_ gradient: XMLIndexer, groupStyle: [String: String] = [:]) -> Fill? {
guard let element = gradient.element else {
return .none
}
var parentGradient: Gradient?
if let link = element.allAttributes["xlink:href"]?.text.replacingOccurrences(of: " ", with: ""), link.hasPrefix("#") {
let id = link.replacingOccurrences(of: "#", with: "")
parentGradient = defFills[id] as? Gradient
}
var stopsArray: [Stop]?
if gradient.children.isEmpty {
stopsArray = parentGradient?.stops
} else {
stopsArray = parseStops(gradient.children, groupStyle: groupStyle)
}
guard let stops = stopsArray else {
return .none
}
switch stops.count {
case 0:
return .none
case 1:
return stops.first?.color
default:
break
}
let parentRadialGradient = parentGradient as? RadialGradient
var cx = getDoubleValueFromPercentage(element, attribute: "cx") ?? parentRadialGradient?.cx ?? 0.5
var cy = getDoubleValueFromPercentage(element, attribute: "cy") ?? parentRadialGradient?.cy ?? 0.5
var fx = getDoubleValueFromPercentage(element, attribute: "fx") ?? parentRadialGradient?.fx ?? cx
var fy = getDoubleValueFromPercentage(element, attribute: "fy") ?? parentRadialGradient?.fy ?? cy
let r = getDoubleValueFromPercentage(element, attribute: "r") ?? parentRadialGradient?.r ?? 0.5
var userSpace = false
if let gradientUnits = element.allAttributes["gradientUnits"]?.text, gradientUnits == "userSpaceOnUse" {
userSpace = true
} else if let parent = parentGradient {
userSpace = parent.userSpace
}
if let gradientTransform = element.allAttributes["gradientTransform"]?.text {
let transform = parseTransformationAttribute(gradientTransform)
let cgTransform = RenderUtils.mapTransform(transform)
let point1 = CGPoint(x: cx, y: cy).applying(cgTransform)
cx = point1.x.doubleValue
cy = point1.y.doubleValue
let point2 = CGPoint(x: fx, y: fy).applying(cgTransform)
fx = point2.x.doubleValue
fy = point2.y.doubleValue
}
return RadialGradient(cx: cx, cy: cy, fx: fx, fy: fy, r: r, userSpace: userSpace, stops: stops)
}
fileprivate func parseStops(_ stops: [XMLIndexer], groupStyle: [String: String] = [:]) -> [Stop] {
var result = [Stop]()
stops.forEach { stopXML in
if let stop = parseStop(stopXML, groupStyle: groupStyle) {
result.append(stop)
}
}
return result
}
fileprivate func parseStop(_ stop: XMLIndexer, groupStyle: [String: String] = [:]) -> Stop? {
guard let element = stop.element else {
return .none
}
guard let offset = getDoubleValueFromPercentage(element, attribute: "offset") else {
return .none
}
var opacity: Double = 1
if let stopOpacity = getStyleAttributes([:], element: element)["stop-opacity"], let doubleValue = Double(stopOpacity) {
opacity = doubleValue
}
var color = Color.black
if var stopColor = getStyleAttributes([:], element: element)["stop-color"] {
if stopColor == "currentColor", let currentColor = groupStyle["color"] {
stopColor = currentColor
}
if let defaultColor = SVGConstants.colorList[stopColor] {
color = Color(val: defaultColor).with(a: opacity)
} else {
color = createColor(stopColor.replacingOccurrences(of: " ", with: ""), opacity: opacity)
}
}
return Stop(offset: offset, color: color)
}
fileprivate func parsePath(_ path: XMLIndexer) -> Path? {
if let d = path.element?.allAttributes["d"]?.text {
return Path(segments: PathDataReader(input: d).read())
}
return .none
}
fileprivate func getDoubleValue(_ element: SWXMLHash.XMLElement, attribute: String) -> Double? {
guard let attributeValue = element.allAttributes[attribute]?.text else {
return .none
}
return doubleFromString(attributeValue)
}
fileprivate func getDimensionValue(_ element: SWXMLHash.XMLElement, attribute: String) -> Dimension? {
guard let attributeValue = element.allAttributes[attribute]?.text else {
return .none
}
return dimensionFromString(attributeValue)
}
fileprivate func dimensionFromString(_ string: String) -> Dimension? {
if let value = doubleFromString(string) {
return Dimension(pixels: value)
}
if string.hasSuffix("%") {
return Dimension(percent: Double(string.dropLast())!)
}
return .none
}
fileprivate func doubleFromString(_ string: String) -> Double? {
if let doubleValue = Double(string) {
return doubleValue
}
guard let matcher = SVGParserRegexHelper.getUnitsIdenitifierMatcher() else { return .none }
let fullRange = NSRange(location: 0, length: string.count)
if let match = matcher.firstMatch(in: string, options: .reportCompletion, range: fullRange) {
let unitString = (string as NSString).substring(with: match.range(at: 1))
let numberString = String(string.dropLast(unitString.count))
let value = Double(numberString)!
switch unitString {
case "px" :
return value
default:
print("SVG parsing error. Unit \(unitString) not supported")
return value
}
}
return .none
}
fileprivate func getDoubleValueFromPercentage(_ element: SWXMLHash.XMLElement, attribute: String) -> Double? {
guard let attributeValue = element.allAttributes[attribute]?.text else {
return .none
}
if !attributeValue.contains("%") {
return self.getDoubleValue(element, attribute: attribute)
} else {
let value = attributeValue.replacingOccurrences(of: "%", with: "")
if let doubleValue = Double(value) {
return doubleValue / 100
}
}
return .none
}
fileprivate func getIntValue(_ element: SWXMLHash.XMLElement, attribute: String) -> Int? {
if let attributeValue = element.allAttributes[attribute]?.text {
if let doubleValue = Double(attributeValue) {
return Int(doubleValue)
}
}
return .none
}
fileprivate func getFontName(_ attributes: [String: String]) -> String? {
return attributes["font-family"]?.trimmingCharacters(in: .whitespacesAndNewlines)
}
fileprivate func getFontSize(_ attributes: [String: String]) -> Int? {
guard let fontSize = attributes["font-size"], let size = doubleFromString(fontSize) else {
return .none
}
return Int(round(size))
}
fileprivate func getFontStyle(_ attributes: [String: String], style: String) -> Bool? {
guard let fontStyle = attributes["font-style"] else {
return .none
}
if fontStyle.lowercased() == style {
return true
}
return false
}
fileprivate func getFontWeight(_ attributes: [String: String]) -> String? {
guard let fontWeight = attributes["font-weight"] else {
return .none
}
return fontWeight
}
fileprivate func getFontWeight(_ attributes: [String: String], style: String) -> Bool? {
guard let fontWeight = attributes["font-weight"] else {
return .none
}
if fontWeight.lowercased() == style {
return true
}
return false
}
fileprivate func getClipPath(_ attributes: [String: String]) -> Locus? {
if let clipPath = attributes["clip-path"] {
let index = clipPath.index(clipPath.startIndex, offsetBy: 4)
let id = String(clipPath.suffix(from: index))
.replacingOccurrences(of: "(", with: "")
.replacingOccurrences(of: ")", with: "")
.replacingOccurrences(of: "#", with: "")
if let locus = defClip[id] {
return locus
}
}
return .none
}
fileprivate func getTextAnchor(_ attributes: [String: String]) -> String? {
guard let textAnchor = attributes["text-anchor"] else {
return .none
}
return textAnchor
}
fileprivate func getTextDecoration(_ attributes: [String: String], decoration: String) -> Bool? {
guard let textDecoration = attributes["text-decoration"] else {
return .none
}
if textDecoration.contains(decoration) {
return true
}
return false
}
fileprivate func getFillRule(_ attributes: [String: String]) -> FillRule? {
if let rule = attributes["fill-rule"] {
switch rule {
case "nonzero":
return .nonzero
case "evenodd":
return .evenodd
default:
return .none
}
}
return .none
}
fileprivate func copyNode(_ referenceNode: Node) -> Node? {
let pos = referenceNode.place
let opaque = referenceNode.opaque
let visible = referenceNode.visible
let clip = referenceNode.clip
let tag = referenceNode.tag
if let shape = referenceNode as? Shape {
return Shape(form: shape.form, fill: shape.fill, stroke: shape.stroke, place: pos, opaque: opaque, clip: clip, visible: visible, tag: tag)
}
if let text = referenceNode as? Text {
return Text(text: text.text, font: text.font, fill: text.fill, stroke: text.stroke, align: text.align, baseline: text.baseline, place: pos, opaque: opaque, clip: clip, visible: visible, tag: tag)
}
if let image = referenceNode as? Image {
return Image(src: image.src, xAlign: image.xAlign, yAlign: image.yAlign, aspectRatio: image.aspectRatio, w: image.w, h: image.h, place: pos, opaque: opaque, clip: clip, visible: visible, tag: tag)
}
if let group = referenceNode as? Group {
var contents = [Node]()
group.contents.forEach { node in
if let copy = copyNode(node) {
contents.append(copy)
}
}
return Group(contents: contents, place: pos, opaque: opaque, clip: clip, visible: visible, tag: tag)
}
return .none
}
fileprivate func degreesToRadians(_ degrees: Double) -> Double {
return degrees * .pi / 180
}
}
private class PathDataReader {
private let input: String
private var current: UnicodeScalar?
private var previous: UnicodeScalar?
private var iterator: String.UnicodeScalarView.Iterator
init(input: String) {
self.input = input
self.iterator = input.unicodeScalars.makeIterator()
}
public func read() -> [PathSegment] {
_ = readNext()
var segments = [PathSegment]()
while let array = readSegments() {
segments.append(contentsOf: array)
}
return segments
}
private func readSegments() -> [PathSegment]? {
if let type = readSegmentType() {
let count = getArgCount(segment: type)
if (count == 0) {
return [PathSegment(type: type)]
}
var result = [PathSegment]()
let data = readData()
var index = 0
while (index < data.count) {
let end = index + count
if (end > data.count) {
// TODO need to generate error:
// "Path '\(type)' has invalid number of arguments: \(data.count)"
break
}
result.append(PathSegment(type: type, data: Array(data[index..<end])))
index = end
}
return result
}
return nil
}
private func readData() -> [Double] {
var data = [Double]()
while(true) {
while(!isNumStart()) {
if (getPathSegmentType() != nil || readNext() == nil) {
return data
}
}
if let double = Double(readNum()) {
data.append(double)
}
}
}
fileprivate func readNum() -> String {
var chars = [current!]
var hasDot = current == "."
while let ch = readDigit(&hasDot) {
chars.append(ch)
}
var buf = ""
buf.unicodeScalars.append(contentsOf: chars)
return buf
}
fileprivate func readDigit(_ hasDot: inout Bool) -> UnicodeScalar? {
if let ch = readNext() {
if ((ch >= "0" && ch <= "9") || ch == "e" || (previous == "e" && ch == "-") ) {
return ch
} else if (ch == "." && !hasDot) {
hasDot = true
return ch
}
}
return nil
}
fileprivate func isNum(ch: UnicodeScalar, hasDot: inout Bool) -> Bool {
switch(ch) {
case "0"..."9": return true
case ".":
if hasDot {
return false
}
hasDot = true
default:
return true
}
return false
}
private func readNext() -> UnicodeScalar? {
previous = current
current = iterator.next()
return current
}
private func readSegmentType() -> PathSegmentType? {
while(true) {
if let type = getPathSegmentType() {
_ = readNext()
return type
}
if (readNext() == nil) {
return nil
}
}
}
fileprivate func getPathSegmentType() -> PathSegmentType? {
if let ch = current {
switch(ch) {
case "M": return .M
case "m": return .m
case "L": return .L
case "l": return .l
case "C": return .C
case "c": return .c
case "Q": return .Q
case "q": return .q
case "A": return .A
case "a": return .a
case "z", "Z": return .z
case "H": return .H
case "h": return .h
case "V": return .V
case "v": return .v
case "S": return .S
case "s": return .s
case "T": return .T
case "t": return .t
default: break
}
}
return nil
}
fileprivate func getArgCount(segment: PathSegmentType) -> Int {
switch(segment) {
case .H, .h, .V, .v: return 1
case .M, .m, .L, .l, .T, .t: return 2
case .S, .s, .Q, .q: return 4
case .C, .c: return 6
case .A, .a: return 7
default: return 0
}
}
fileprivate func isNumStart() -> Bool {
if let ch = current {
return (ch >= "0" && ch <= "9") || ch == "." || ch == "-"
}
return false
}
}