#include "parser.h" #include "parserutils.h" #include "layoutcontext.h" #include "clippathelement.h" #include "defselement.h" #include "gelement.h" #include "geometryelement.h" #include "markerelement.h" #include "maskelement.h" #include "paintelement.h" #include "stopelement.h" #include "svgelement.h" #include "symbolelement.h" #include "useelement.h" #include "styleelement.h" namespace lunasvg { Length Parser::parseLength(const std::string& string, LengthNegativeValuesMode mode, const Length& defaultValue) { if(string.empty()) return defaultValue; auto ptr = string.data(); auto end = ptr + string.size(); double value; LengthUnits units; if(!parseLength(ptr, end, value, units, mode)) return defaultValue; return Length{value, units}; } LengthList Parser::parseLengthList(const std::string& string, LengthNegativeValuesMode mode) { if(string.empty()) return LengthList{}; auto ptr = string.data(); auto end = ptr + string.size(); double value; LengthUnits units; LengthList values; while(ptr < end) { if(!parseLength(ptr, end, value, units, mode)) break; values.emplace_back(value, units); Utils::skipWsComma(ptr, end); } return values; } double Parser::parseNumber(const std::string& string, double defaultValue) { if(string.empty()) return defaultValue; auto ptr = string.data(); auto end = ptr + string.size(); double value; if(!Utils::parseNumber(ptr, end, value)) return defaultValue; return value; } double Parser::parseNumberPercentage(const std::string& string, double defaultValue) { if(string.empty()) return defaultValue; auto ptr = string.data(); auto end = ptr + string.size(); double value; if(!Utils::parseNumber(ptr, end, value)) return defaultValue; if(Utils::skipDesc(ptr, end, '%')) value /= 100.0; return value < 0.0 ? 0.0 : value > 1.0 ? 1.0 : value; } PointList Parser::parsePointList(const std::string& string) { if(string.empty()) return PointList{}; auto ptr = string.data(); auto end = ptr + string.size(); double x; double y; PointList values; while(ptr < end) { if(!Utils::parseNumber(ptr, end, x) || !Utils::skipWsComma(ptr, end) || !Utils::parseNumber(ptr, end, y)) break; values.emplace_back(x, y); Utils::skipWsComma(ptr, end); } return values; } Transform Parser::parseTransform(const std::string& string) { if(string.empty()) return Transform{}; auto ptr = string.data(); auto end = ptr + string.size(); TransformType type; double values[6]; int count; Transform transform; while(ptr < end) { if(!parseTransform(ptr, end, type, values, count)) break; Utils::skipWsComma(ptr, end); switch(type) { case TransformType::Matrix: transform.transform(values[0], values[1], values[2], values[3], values[4], values[5]); break; case TransformType::Rotate: if(count == 1) transform.rotate(values[0], 0, 0); else transform.rotate(values[0], values[1], values[2]); break; case TransformType::Scale: if(count == 1) transform.scale(values[0], values[0]); else transform.scale(values[0], values[1]); break; case TransformType::SkewX: transform.shear(values[0], 0); break; case TransformType::SkewY: transform.shear(0, values[0]); break; case TransformType::Translate: if(count == 1) transform.translate(values[0], 0); else transform.translate(values[0], values[1]); break; } } return transform; } Path Parser::parsePath(const std::string& string) { auto ptr = string.data(); auto end = ptr + string.size(); if(ptr >= end || !(*ptr == 'M' || *ptr == 'm')) return Path{}; auto command = *ptr++; double c[6]; bool f[2]; int lastCommand = 0; Point startPoint; Point currentPoint; Point controlPoint; Path path; while(true) { Utils::skipWs(ptr, end); switch(command) { case 'M': case 'm': if(!parseNumberList(ptr, end, c, 2)) return path; if(command == 'm') { c[0] += currentPoint.x; c[1] += currentPoint.y; } path.moveTo(c[0], c[1]); startPoint.x = currentPoint.x = controlPoint.x = c[0]; startPoint.y = currentPoint.y = controlPoint.y = c[1]; command = command == 'm' ? 'l' : 'L'; break; case 'L': case 'l': if(!parseNumberList(ptr, end, c, 2)) return path; if(command == 'l') { c[0] += currentPoint.x; c[1] += currentPoint.y; } path.lineTo(c[0], c[1]); currentPoint.x = controlPoint.x = c[0]; currentPoint.y = controlPoint.y = c[1]; break; case 'Q': case 'q': if(!parseNumberList(ptr, end, c, 4)) return path; if(command == 'q') { c[0] += currentPoint.x; c[1] += currentPoint.y; c[2] += currentPoint.x; c[3] += currentPoint.y; } path.quadTo(currentPoint.x, currentPoint.y, c[0], c[1], c[2], c[3]); controlPoint.x = c[0]; controlPoint.y = c[1]; currentPoint.x = c[2]; currentPoint.y = c[3]; break; case 'C': case 'c': if(!parseNumberList(ptr, end, c, 6)) return path; if(command == 'c') { c[0] += currentPoint.x; c[1] += currentPoint.y; c[2] += currentPoint.x; c[3] += currentPoint.y; c[4] += currentPoint.x; c[5] += currentPoint.y; } path.cubicTo(c[0], c[1], c[2], c[3], c[4], c[5]); controlPoint.x = c[2]; controlPoint.y = c[3]; currentPoint.x = c[4]; currentPoint.y = c[5]; break; case 'T': case 't': if(lastCommand != 'Q' && lastCommand != 'q' && lastCommand != 'T' && lastCommand != 't') controlPoint = currentPoint; c[0] = 2 * currentPoint.x - controlPoint.x; c[1] = 2 * currentPoint.y - controlPoint.y; if(!parseNumberList(ptr, end, c + 2, 2)) return path; if(command == 't') { c[2] += currentPoint.x; c[3] += currentPoint.y; } path.quadTo(currentPoint.x, currentPoint.y, c[0], c[1], c[2], c[3]); controlPoint.x = c[0]; controlPoint.y = c[1]; currentPoint.x = c[2]; currentPoint.y = c[3]; break; case 'S': case 's': if(lastCommand != 'C' && lastCommand != 'c' && lastCommand != 'S' && lastCommand != 's') controlPoint = currentPoint; c[0] = 2 * currentPoint.x - controlPoint.x; c[1] = 2 * currentPoint.y - controlPoint.y; if(!parseNumberList(ptr, end, c + 2, 4)) return path; if(command == 's') { c[2] += currentPoint.x; c[3] += currentPoint.y; c[4] += currentPoint.x; c[5] += currentPoint.y; } path.cubicTo(c[0], c[1], c[2], c[3], c[4], c[5]); controlPoint.x = c[2]; controlPoint.y = c[3]; currentPoint.x = c[4]; currentPoint.y = c[5]; break; case 'H': case 'h': if(!parseNumberList(ptr, end, c, 1)) return path; if(command == 'h') c[0] += currentPoint.x; path.lineTo(c[0], currentPoint.y); currentPoint.x = controlPoint.x = c[0]; break; case 'V': case 'v': if(!parseNumberList(ptr, end, c + 1, 1)) return path; if(command == 'v') c[1] += currentPoint.y; path.lineTo(currentPoint.x, c[1]); currentPoint.y = controlPoint.y = c[1]; break; case 'A': case 'a': if(!parseNumberList(ptr, end, c, 3) || !parseArcFlag(ptr, end, f[0]) || !parseArcFlag(ptr, end, f[1]) || !parseNumberList(ptr, end, c + 3, 2)) return path; if(command == 'a') { c[3] += currentPoint.x; c[4] += currentPoint.y; } path.arcTo(currentPoint.x, currentPoint.y, c[0], c[1], c[2], f[0], f[1], c[3], c[4]); currentPoint.x = controlPoint.x = c[3]; currentPoint.y = controlPoint.y = c[4]; break; case 'Z': case 'z': path.close(); currentPoint.x = controlPoint.x = startPoint.x; currentPoint.y = controlPoint.y = startPoint.y; break; default: return path; } Utils::skipWsComma(ptr, end); if(ptr >= end) break; if(IS_ALPHA(*ptr)) { lastCommand = command; command = *ptr++; } } return path; } std::string Parser::parseUrl(const std::string& string) { if(string.empty()) return std::string{}; auto ptr = string.data(); auto end = ptr + string.size(); std::string value; parseUrlFragment(ptr, end, value); return value; } std::string Parser::parseHref(const std::string& string) { if(string.size() > 1 && string.front() == '#') return string.substr(1); return std::string{}; } Rect Parser::parseViewBox(const std::string& string) { if(string.empty()) return Rect::Invalid; auto ptr = string.data(); auto end = ptr + string.size(); double x; double y; double w; double h; if(!Utils::parseNumber(ptr, end, x) || !Utils::skipWsComma(ptr, end) || !Utils::parseNumber(ptr, end, y) || !Utils::skipWsComma(ptr, end) || !Utils::parseNumber(ptr, end, w) || !Utils::skipWsComma(ptr, end) || !Utils::parseNumber(ptr, end, h)) return Rect::Invalid; if(w < 0.0 || h < 0.0) return Rect::Invalid; return Rect{x, y, w, h}; } PreserveAspectRatio Parser::parsePreserveAspectRatio(const std::string& string) { if(string.empty()) return PreserveAspectRatio{}; auto ptr = string.data(); auto end = ptr + string.size(); Align align{Align::xMidYMid}; MeetOrSlice scale{MeetOrSlice::Meet}; if(Utils::skipDesc(ptr, end, "none")) align = Align::None; else if(Utils::skipDesc(ptr, end, "xMinYMin")) align = Align::xMinYMin; else if(Utils::skipDesc(ptr, end, "xMidYMin")) align = Align::xMidYMin; else if(Utils::skipDesc(ptr, end, "xMaxYMin")) align = Align::xMaxYMin; else if(Utils::skipDesc(ptr, end, "xMinYMid")) align = Align::xMinYMid; else if(Utils::skipDesc(ptr, end, "xMidYMid")) align = Align::xMidYMid; else if(Utils::skipDesc(ptr, end, "xMaxYMid")) align = Align::xMaxYMid; else if(Utils::skipDesc(ptr, end, "xMinYMax")) align = Align::xMinYMax; else if(Utils::skipDesc(ptr, end, "xMidYMax")) align = Align::xMidYMax; else if(Utils::skipDesc(ptr, end, "xMaxYMax")) align = Align::xMaxYMax; else return PreserveAspectRatio{}; Utils::skipWs(ptr, end); if(Utils::skipDesc(ptr, end, "slice")) scale = MeetOrSlice::Slice; else scale = MeetOrSlice::Meet; return PreserveAspectRatio{align, scale}; } static const double pi = 3.14159265358979323846; Angle Parser::parseAngle(const std::string& string) { if(string.empty()) return Angle{}; auto ptr = string.data(); auto end = ptr + string.size(); if(Utils::skipDesc(ptr, end, "auto")) return MarkerOrient::Auto; double value; if(!Utils::parseNumber(ptr, end, value)) return Angle{}; if(Utils::skipDesc(ptr, end, "rad")) value *= 180.0 / pi; else if(Utils::skipDesc(ptr, end, "grad")) value *= 360.0 / 400.0; return Angle{value, MarkerOrient::Angle}; } MarkerUnits Parser::parseMarkerUnits(const std::string& string) { if(string.empty()) return MarkerUnits::StrokeWidth; if(string.compare("userSpaceOnUse") == 0) return MarkerUnits::UserSpaceOnUse; return MarkerUnits::StrokeWidth; } SpreadMethod Parser::parseSpreadMethod(const std::string& string) { if(string.empty()) return SpreadMethod::Pad; if(string.compare("repeat") == 0) return SpreadMethod::Repeat; if(string.compare("reflect") == 0) return SpreadMethod::Reflect; return SpreadMethod::Pad; } Units Parser::parseUnits(const std::string& string, Units defaultValue) { if(string.empty()) return defaultValue; if(string.compare("userSpaceOnUse") == 0) return Units::UserSpaceOnUse; if(string.compare("objectBoundingBox") == 0) return Units::ObjectBoundingBox; return defaultValue; } static const std::map colormap = { {"aliceblue", 0xF0F8FF}, {"antiquewhite", 0xFAEBD7}, {"aqua", 0x00FFFF}, {"aquamarine", 0x7FFFD4}, {"azure", 0xF0FFFF}, {"beige", 0xF5F5DC}, {"bisque", 0xFFE4C4}, {"black", 0x000000}, {"blanchedalmond", 0xFFEBCD}, {"blue", 0x0000FF}, {"blueviolet", 0x8A2BE2}, {"brown", 0xA52A2A}, {"burlywood", 0xDEB887}, {"cadetblue", 0x5F9EA0}, {"chartreuse", 0x7FFF00}, {"chocolate", 0xD2691E}, {"coral", 0xFF7F50}, {"cornflowerblue", 0x6495ED}, {"cornsilk", 0xFFF8DC}, {"crimson", 0xDC143C}, {"cyan", 0x00FFFF}, {"darkblue", 0x00008B}, {"darkcyan", 0x008B8B}, {"darkgoldenrod", 0xB8860B}, {"darkgray", 0xA9A9A9}, {"darkgreen", 0x006400}, {"darkgrey", 0xA9A9A9}, {"darkkhaki", 0xBDB76B}, {"darkmagenta", 0x8B008B}, {"darkolivegreen", 0x556B2F}, {"darkorange", 0xFF8C00}, {"darkorchid", 0x9932CC}, {"darkred", 0x8B0000}, {"darksalmon", 0xE9967A}, {"darkseagreen", 0x8FBC8F}, {"darkslateblue", 0x483D8B}, {"darkslategray", 0x2F4F4F}, {"darkslategrey", 0x2F4F4F}, {"darkturquoise", 0x00CED1}, {"darkviolet", 0x9400D3}, {"deeppink", 0xFF1493}, {"deepskyblue", 0x00BFFF}, {"dimgray", 0x696969}, {"dimgrey", 0x696969}, {"dodgerblue", 0x1E90FF}, {"firebrick", 0xB22222}, {"floralwhite", 0xFFFAF0}, {"forestgreen", 0x228B22}, {"fuchsia", 0xFF00FF}, {"gainsboro", 0xDCDCDC}, {"ghostwhite", 0xF8F8FF}, {"gold", 0xFFD700}, {"goldenrod", 0xDAA520}, {"gray", 0x808080}, {"green", 0x008000}, {"greenyellow", 0xADFF2F}, {"grey", 0x808080}, {"honeydew", 0xF0FFF0}, {"hotpink", 0xFF69B4}, {"indianred", 0xCD5C5C}, {"indigo", 0x4B0082}, {"ivory", 0xFFFFF0}, {"khaki", 0xF0E68C}, {"lavender", 0xE6E6FA}, {"lavenderblush", 0xFFF0F5}, {"lawngreen", 0x7CFC00}, {"lemonchiffon", 0xFFFACD}, {"lightblue", 0xADD8E6}, {"lightcoral", 0xF08080}, {"lightcyan", 0xE0FFFF}, {"lightgoldenrodyellow", 0xFAFAD2}, {"lightgray", 0xD3D3D3}, {"lightgreen", 0x90EE90}, {"lightgrey", 0xD3D3D3}, {"lightpink", 0xFFB6C1}, {"lightsalmon", 0xFFA07A}, {"lightseagreen", 0x20B2AA}, {"lightskyblue", 0x87CEFA}, {"lightslategray", 0x778899}, {"lightslategrey", 0x778899}, {"lightsteelblue", 0xB0C4DE}, {"lightyellow", 0xFFFFE0}, {"lime", 0x00FF00}, {"limegreen", 0x32CD32}, {"linen", 0xFAF0E6}, {"magenta", 0xFF00FF}, {"maroon", 0x800000}, {"mediumaquamarine", 0x66CDAA}, {"mediumblue", 0x0000CD}, {"mediumorchid", 0xBA55D3}, {"mediumpurple", 0x9370DB}, {"mediumseagreen", 0x3CB371}, {"mediumslateblue", 0x7B68EE}, {"mediumspringgreen", 0x00FA9A}, {"mediumturquoise", 0x48D1CC}, {"mediumvioletred", 0xC71585}, {"midnightblue", 0x191970}, {"mintcream", 0xF5FFFA}, {"mistyrose", 0xFFE4E1}, {"moccasin", 0xFFE4B5}, {"navajowhite", 0xFFDEAD}, {"navy", 0x000080}, {"oldlace", 0xFDF5E6}, {"olive", 0x808000}, {"olivedrab", 0x6B8E23}, {"orange", 0xFFA500}, {"orangered", 0xFF4500}, {"orchid", 0xDA70D6}, {"palegoldenrod", 0xEEE8AA}, {"palegreen", 0x98FB98}, {"paleturquoise", 0xAFEEEE}, {"palevioletred", 0xDB7093}, {"papayawhip", 0xFFEFD5}, {"peachpuff", 0xFFDAB9}, {"peru", 0xCD853F}, {"pink", 0xFFC0CB}, {"plum", 0xDDA0DD}, {"powderblue", 0xB0E0E6}, {"purple", 0x800080}, {"rebeccapurple", 0x663399}, {"red", 0xFF0000}, {"rosybrown", 0xBC8F8F}, {"royalblue", 0x4169E1}, {"saddlebrown", 0x8B4513}, {"salmon", 0xFA8072}, {"sandybrown", 0xF4A460}, {"seagreen", 0x2E8B57}, {"seashell", 0xFFF5EE}, {"sienna", 0xA0522D}, {"silver", 0xC0C0C0}, {"skyblue", 0x87CEEB}, {"slateblue", 0x6A5ACD}, {"slategray", 0x708090}, {"slategrey", 0x708090}, {"snow", 0xFFFAFA}, {"springgreen", 0x00FF7F}, {"steelblue", 0x4682B4}, {"tan", 0xD2B48C}, {"teal", 0x008080}, {"thistle", 0xD8BFD8}, {"tomato", 0xFF6347}, {"turquoise", 0x40E0D0}, {"violet", 0xEE82EE}, {"wheat", 0xF5DEB3}, {"white", 0xFFFFFF}, {"whitesmoke", 0xF5F5F5}, {"yellow", 0xFFFF00}, {"yellowgreen", 0x9ACD32} }; Color Parser::parseColor(const std::string& string, const StyledElement* element, const Color& defaultValue) { if(string.empty()) return defaultValue; auto ptr = string.data(); auto end = ptr + string.size(); if(Utils::skipDesc(ptr, end, '#')) { auto start = ptr; unsigned int value; if(!Utils::parseInteger(ptr, end, value, 16)) return defaultValue; auto n = ptr - start; if(n != 3 && n != 6) return defaultValue; if(n == 3) { value = ((value&0xf00) << 8) | ((value&0x0f0) << 4) | (value&0x00f); value |= value << 4; } auto r = (value&0xff0000)>>16; auto g = (value&0x00ff00)>>8; auto b = (value&0x0000ff)>>0; return Color{r / 255.0, g / 255.0, b / 255.0}; } if(Utils::skipDesc(ptr, end, "rgb(")) { double r, g, b; if(!Utils::skipWs(ptr, end) || !parseColorComponent(ptr, end, r) || !Utils::skipWsComma(ptr, end) || !parseColorComponent(ptr, end, g) || !Utils::skipWsComma(ptr, end) || !parseColorComponent(ptr, end, b) || !Utils::skipWs(ptr, end) || !Utils::skipDesc(ptr, end, ')')) return defaultValue; return Color{r / 255.0, g / 255.0, b / 255.0}; } if(Utils::skipDesc(ptr, end, "none")) return Color::Transparent; if(Utils::skipDesc(ptr, end, "currentColor")) return element->color(); auto it = colormap.find(string); if(it == colormap.end()) return defaultValue; auto value = it->second; auto r = (value&0xff0000)>>16; auto g = (value&0x00ff00)>>8; auto b = (value&0x0000ff)>>0; return Color{r / 255.0, g / 255.0, b / 255.0}; } Paint Parser::parsePaint(const std::string& string, const StyledElement* element, const Color& defaultValue) { if(string.empty()) return defaultValue; auto ptr = string.data(); auto end = ptr + string.size(); std::string ref; if(!parseUrlFragment(ptr, end, ref)) return parseColor(string, element, defaultValue); std::string fallback{ptr, end}; if(fallback.empty()) return Paint{ref, Color::Transparent}; return Paint{ref, parseColor(fallback, element, defaultValue)}; } WindRule Parser::parseWindRule(const std::string& string) { if(string.empty()) return WindRule::NonZero; if(string.compare("evenodd") == 0) return WindRule::EvenOdd; return WindRule::NonZero; } LineCap Parser::parseLineCap(const std::string& string) { if(string.empty()) return LineCap::Butt; if(string.compare("round") == 0) return LineCap::Round; if(string.compare("square") == 0) return LineCap::Square; return LineCap::Butt; } LineJoin Parser::parseLineJoin(const std::string& string) { if(string.empty()) return LineJoin::Miter; if(string.compare("bevel") == 0) return LineJoin::Bevel; if(string.compare("round") == 0) return LineJoin::Round; return LineJoin::Miter; } Display Parser::parseDisplay(const std::string& string) { if(string.empty()) return Display::Inline; if(string.compare("none") == 0) return Display::None; return Display::Inline; } Visibility Parser::parseVisibility(const std::string& string) { if(string.empty()) return Visibility::Visible; if(string.compare("visible") == 0) return Visibility::Visible; return Visibility::Hidden; } Overflow Parser::parseOverflow(const std::string& string, Overflow defaultValue) { if(string.empty()) return defaultValue; if(string.compare("visible") == 0) return Overflow::Visible; if(string.compare("hidden") == 0) return Overflow::Hidden; return defaultValue; } bool Parser::parseLength(const char*& ptr, const char* end, double& value, LengthUnits& units, LengthNegativeValuesMode mode) { if(!Utils::parseNumber(ptr, end, value)) return false; if(mode == ForbidNegativeLengths && value < 0.0) return false; char c[2] = {0, 0}; if(ptr + 0 < end) c[0] = ptr[0]; if(ptr + 1 < end) c[1] = ptr[1]; switch(c[0]) { case '%': units = LengthUnits::Percent; ptr += 1; break; case 'p': if(c[1] == 'x') units = LengthUnits::Px; else if(c[1] == 'c') units = LengthUnits::Pc; else if(ptr[1] == 't') units = LengthUnits::Pt; else return false; ptr += 2; break; case 'i': if(c[1] == 'n') units = LengthUnits::In; else return false; ptr += 2; break; case 'c': if(c[1] == 'm') units = LengthUnits::Cm; else return false; ptr += 2; break; case 'm': if(c[1] == 'm') units = LengthUnits::Mm; else return false; ptr += 2; break; case 'e': if(c[1] == 'm') units = LengthUnits::Em; else if(c[1] == 'x') units = LengthUnits::Ex; else return false; ptr += 2; break; default: units = LengthUnits::Number; break; } return true; } bool Parser::parseNumberList(const char*& ptr, const char* end, double* values, int count) { for(int i = 0;i < count;i++) { if(!Utils::parseNumber(ptr, end, values[i])) return false; Utils::skipWsComma(ptr, end); } return true; } bool Parser::parseArcFlag(const char*& ptr, const char* end, bool& flag) { if(ptr < end && *ptr == '0') flag = false; else if(ptr < end && *ptr == '1') flag = true; else return false; ++ptr; Utils::skipWsComma(ptr, end); return true; } bool Parser::parseColorComponent(const char*& ptr, const char* end, double& value) { if(!Utils::parseNumber(ptr, end, value)) return false; if(Utils::skipDesc(ptr, end, '%')) value *= 2.55; value = (value < 0.0) ? 0.0 : (value > 255.0) ? 255.0 : std::round(value); return true; } bool Parser::parseUrlFragment(const char*& ptr, const char* end, std::string& ref) { if(!Utils::skipDesc(ptr, end, "url(") || !Utils::skipWs(ptr, end)) { return false; } switch(*ptr) { case '\'': case '"': { auto delim = *ptr; ++ptr; // delim if(!Utils::skipWs(ptr, end) || *ptr != '#') return false; ++ptr; // # if(!Utils::readUntil(ptr, end, delim, ref)) return false; ++ptr; // delim break; } case '#': ++ptr; // # Utils::readUntil(ptr, end, ')', ref); break; default: return false; } if(ptr >= end || *ptr != ')') return false; ++ptr; // ) Utils::skipWs(ptr, end); return true; } bool Parser::parseTransform(const char*& ptr, const char* end, TransformType& type, double* values, int& count) { int required = 0; int optional = 0; if(Utils::skipDesc(ptr, end, "matrix")) { type = TransformType::Matrix; required = 6; optional = 0; } else if(Utils::skipDesc(ptr, end, "rotate")) { type = TransformType::Rotate; required = 1; optional = 2; } else if(Utils::skipDesc(ptr, end, "scale")) { type = TransformType::Scale; required = 1; optional = 1; } else if(Utils::skipDesc(ptr, end, "skewX")) { type = TransformType::SkewX; required = 1; optional = 0; } else if(Utils::skipDesc(ptr, end, "skewY")) { type = TransformType::SkewY; required = 1; optional = 0; } else if(Utils::skipDesc(ptr, end, "translate")) { type = TransformType::Translate; required = 1; optional = 1; } else { return false; } Utils::skipWs(ptr, end); if(ptr >= end || *ptr != '(') return false; ++ptr; int maxCount = required + optional; count = 0; Utils::skipWs(ptr, end); while(count < maxCount) { if(!Utils::parseNumber(ptr, end, values[count])) break; ++count; Utils::skipWsComma(ptr, end); } if(ptr >= end || *ptr != ')' || !(count == required || count == maxCount)) return false; ++ptr; return true; } static const std::map elementmap = { {"circle", ElementId::Circle}, {"clipPath", ElementId::ClipPath}, {"defs", ElementId::Defs}, {"ellipse", ElementId::Ellipse}, {"g", ElementId::G}, {"line", ElementId::Line}, {"linearGradient", ElementId::LinearGradient}, {"marker", ElementId::Marker}, {"mask", ElementId::Mask}, {"path", ElementId::Path}, {"pattern", ElementId::Pattern}, {"polygon", ElementId::Polygon}, {"polyline", ElementId::Polyline}, {"radialGradient", ElementId::RadialGradient}, {"rect", ElementId::Rect}, {"stop", ElementId::Stop}, {"style", ElementId::Style}, {"solidColor", ElementId::SolidColor}, {"svg", ElementId::Svg}, {"symbol", ElementId::Symbol}, {"use", ElementId::Use} }; static const std::map propertymap = { {"class", PropertyId::Class}, {"clipPathUnits", PropertyId::ClipPathUnits}, {"cx", PropertyId::Cx}, {"cy", PropertyId::Cy}, {"d", PropertyId::D}, {"fx", PropertyId::Fx}, {"fy", PropertyId::Fy}, {"gradientTransform", PropertyId::GradientTransform}, {"gradientUnits", PropertyId::GradientUnits}, {"height", PropertyId::Height}, {"href", PropertyId::Href}, {"id", PropertyId::Id}, {"markerHeight", PropertyId::MarkerHeight}, {"markerUnits", PropertyId::MarkerUnits}, {"markerWidth", PropertyId::MarkerWidth}, {"maskContentUnits", PropertyId::MaskContentUnits}, {"maskUnits", PropertyId::MaskUnits}, {"offset", PropertyId::Offset}, {"orient", PropertyId::Orient}, {"patternContentUnits", PropertyId::PatternContentUnits}, {"patternTransform", PropertyId::PatternTransform}, {"patternUnits", PropertyId::PatternUnits}, {"points", PropertyId::Points}, {"preserveAspectRatio", PropertyId::PreserveAspectRatio}, {"r", PropertyId::R}, {"refX", PropertyId::RefX}, {"refY", PropertyId::RefY}, {"rx", PropertyId::Rx}, {"ry", PropertyId::Ry}, {"spreadMethod", PropertyId::SpreadMethod}, {"style", PropertyId::Style}, {"transform", PropertyId::Transform}, {"viewBox", PropertyId::ViewBox}, {"width", PropertyId::Width}, {"x", PropertyId::X}, {"x1", PropertyId::X1}, {"x2", PropertyId::X2}, {"xlink:href", PropertyId::Href}, {"y", PropertyId::Y}, {"y1", PropertyId::Y1}, {"y2", PropertyId::Y2} }; static const std::map csspropertymap = { {"clip-path", PropertyId::Clip_Path}, {"clip-rule", PropertyId::Clip_Rule}, {"color", PropertyId::Color}, {"display", PropertyId::Display}, {"fill", PropertyId::Fill}, {"fill-opacity", PropertyId::Fill_Opacity}, {"fill-rule", PropertyId::Fill_Rule}, {"marker-end", PropertyId::Marker_End}, {"marker-mid", PropertyId::Marker_Mid}, {"marker-start", PropertyId::Marker_Start}, {"mask", PropertyId::Mask}, {"opacity", PropertyId::Opacity}, {"overflow", PropertyId::Overflow}, {"solid-color", PropertyId::Solid_Color}, {"solid-opacity", PropertyId::Solid_Opacity}, {"stop-color", PropertyId::Stop_Color}, {"stop-opacity", PropertyId::Stop_Opacity}, {"stroke", PropertyId::Stroke}, {"stroke-dasharray", PropertyId::Stroke_Dasharray}, {"stroke-dashoffset", PropertyId::Stroke_Dashoffset}, {"stroke-linecap", PropertyId::Stroke_Linecap}, {"stroke-linejoin", PropertyId::Stroke_Linejoin}, {"stroke-miterlimit", PropertyId::Stroke_Miterlimit}, {"stroke-opacity", PropertyId::Stroke_Opacity}, {"stroke-width", PropertyId::Stroke_Width}, {"visibility", PropertyId::Visibility} }; static inline ElementId elementId(const std::string& name) { auto it = elementmap.find(name); if(it == elementmap.end()) return ElementId::Unknown; return it->second; } static inline PropertyId cssPropertyId(const std::string& name) { auto it = csspropertymap.find(name); if(it == csspropertymap.end()) return PropertyId::Unknown; return it->second; } static inline PropertyId propertyId(const std::string& name) { auto it = propertymap.find(name); if(it == propertymap.end()) return cssPropertyId(name); return it->second; } #define IS_STARTNAMECHAR(c) (IS_ALPHA(c) || (c) == '_' || (c) == ':') #define IS_NAMECHAR(c) (IS_STARTNAMECHAR(c) || IS_NUM(c) || (c) == '-' || (c) == '.') static inline bool readIdentifier(const char*& ptr, const char* end, std::string& value) { if(ptr >= end || !IS_STARTNAMECHAR(*ptr)) return false; auto start = ptr; ++ptr; while(ptr < end && IS_NAMECHAR(*ptr)) ++ptr; value.assign(start, ptr); return true; } #define IS_CSS_STARTNAMECHAR(c) (IS_ALPHA(c) || (c) == '_') #define IS_CSS_NAMECHAR(c) (IS_CSS_STARTNAMECHAR(c) || IS_NUM(c) || (c) == '-') static inline bool readCSSIdentifier(const char*& ptr, const char* end, std::string& value) { if(ptr >= end || !IS_CSS_STARTNAMECHAR(*ptr)) return false; auto start = ptr; ++ptr; while(ptr < end && IS_CSS_NAMECHAR(*ptr)) ++ptr; value.assign(start, ptr); return true; } bool CSSParser::parseMore(const std::string& value) { auto ptr = value.data(); auto end = ptr + value.size(); while(ptr < end) { Utils::skipWs(ptr, end); if(Utils::skipDesc(ptr, end, '@')) { if(!parseAtRule(ptr, end)) return false; continue; } Rule rule; if(!parseRule(ptr, end, rule)) return false; m_rules.push_back(rule); } return true; } bool CSSParser::parseAtRule(const char*& ptr, const char* end) const { int depth = 0; while(ptr < end) { auto ch = *ptr; ++ptr; if(ch == ';' && depth == 0) break; if(ch == '{') ++depth; else if(ch == '}' && depth > 0) { if(depth == 1) break; --depth; } } return true; } bool CSSParser::parseRule(const char*& ptr, const char* end, Rule& rule) const { if(!parseSelectors(ptr, end, rule.selectors)) return false; if(!parseDeclarations(ptr, end, rule.declarations)) return false; return true; } bool CSSParser::parseSelectors(const char*& ptr, const char* end, SelectorList& selectors) const { Selector selector; if(!parseSelector(ptr, end, selector)) return false; selectors.push_back(selector); while(Utils::skipDesc(ptr, end, ',')) { Utils::skipWs(ptr, end); Selector selector; if(!parseSelector(ptr, end, selector)) return false; selectors.push_back(selector); } return true; } bool CSSParser::parseDeclarations(const char*& ptr, const char* end, PropertyList& declarations) const { if(!Utils::skipDesc(ptr, end, '{')) return false; std::string name; std::string value; Utils::skipWs(ptr, end); do { if(!readCSSIdentifier(ptr, end, name)) return false; Utils::skipWs(ptr, end); if(!Utils::skipDesc(ptr, end, ':')) return false; Utils::skipWs(ptr, end); auto start = ptr; while(ptr < end && !(*ptr == '!' || *ptr == ';' || *ptr == '}')) ++ptr; value.assign(start, Utils::rtrim(start, ptr)); int specificity = 0x10; if(Utils::skipDesc(ptr, end, '!')) { if(!Utils::skipDesc(ptr, end, "important")) return false; specificity = 0x1000; } auto id = cssPropertyId(name); if(id != PropertyId::Unknown) declarations.set(id, value, specificity); Utils::skipWsDelimiter(ptr, end, ';'); } while(ptr < end && *ptr != '}'); return Utils::skipDesc(ptr, end, '}'); } #define IS_SELECTOR_STARTNAMECHAR(c) (IS_CSS_STARTNAMECHAR(c) || (c) == '*' || (c) == '#' || (c) == '.' || (c) == '[' || (c) == ':') bool CSSParser::parseSelector(const char*& ptr, const char* end, Selector& selector) const { do { SimpleSelector simpleSelector; if(!parseSimpleSelector(ptr, end, simpleSelector)) return false; selector.specificity += (simpleSelector.id == ElementId::Star) ? 0x0 : 0x1; for(auto& attributeSelector : simpleSelector.attributeSelectors) selector.specificity += (attributeSelector.id == PropertyId::Id) ? 0x10000 : 0x100; selector.simpleSelectors.push_back(simpleSelector); Utils::skipWs(ptr, end); } while(ptr < end && IS_SELECTOR_STARTNAMECHAR(*ptr)); return true; } bool CSSParser::parseSimpleSelector(const char*& ptr, const char* end, SimpleSelector& simpleSelector) const { std::string name; if(Utils::skipDesc(ptr, end, '*')) simpleSelector.id = ElementId::Star; else if(readCSSIdentifier(ptr, end, name)) simpleSelector.id = elementId(name); while(ptr < end) { if(Utils::skipDesc(ptr, end, '#')) { AttributeSelector a; a.id = PropertyId::Id; a.matchType = AttributeSelector::MatchType::Equal; if(!readCSSIdentifier(ptr, end, a.value)) return false; simpleSelector.attributeSelectors.push_back(a); continue; } if(Utils::skipDesc(ptr, end, '.')) { AttributeSelector a; a.id = PropertyId::Class; a.matchType = AttributeSelector::MatchType::Includes; if(!readCSSIdentifier(ptr, end, a.value)) return false; simpleSelector.attributeSelectors.push_back(a); continue; } if(Utils::skipDesc(ptr, end, '[')) { Utils::skipWs(ptr, end); if(!readCSSIdentifier(ptr, end, name)) return false; AttributeSelector a; a.id = propertyId(name); if(Utils::skipDesc(ptr, end, '=')) a.matchType = AttributeSelector::MatchType::Equal; else if(Utils::skipDesc(ptr, end, "~=")) a.matchType = AttributeSelector::MatchType::Includes; else if(Utils::skipDesc(ptr, end, "|=")) a.matchType = AttributeSelector::MatchType::DashMatch; else if(Utils::skipDesc(ptr, end, "^=")) a.matchType = AttributeSelector::MatchType::StartsWith; else if(Utils::skipDesc(ptr, end, "$=")) a.matchType = AttributeSelector::MatchType::EndsWith; else if(Utils::skipDesc(ptr, end, "*=")) a.matchType = AttributeSelector::MatchType::Contains; if(a.matchType != AttributeSelector::MatchType::None) { Utils::skipWs(ptr, end); if(!readCSSIdentifier(ptr, end, a.value)) { if(ptr >= end || !(*ptr == '\"' || *ptr == '\'')) return false; auto quote = *ptr; ++ptr; if(!Utils::readUntil(ptr, end, quote, a.value)) return false; ++ptr; } } Utils::skipWs(ptr, end); if(!Utils::skipDesc(ptr, end, ']')) return false; simpleSelector.attributeSelectors.push_back(a); continue; } if(Utils::skipDesc(ptr, end, ':')) { if(!readCSSIdentifier(ptr, end, name)) return false; PseudoClass pseudo; if(name.compare("empty") == 0) pseudo.type = PseudoClass::Type::Empty; else if(name.compare("root") == 0) pseudo.type = PseudoClass::Type::Root; else if(name.compare("not") == 0) pseudo.type = PseudoClass::Type::Not; else if(name.compare("first-child") == 0) pseudo.type = PseudoClass::Type::FirstChild; else if(name.compare("last-child") == 0) pseudo.type = PseudoClass::Type::LastChild; else if(name.compare("only-child") == 0) pseudo.type = PseudoClass::Type::OnlyChild; else if(name.compare("first-of-type") == 0) pseudo.type = PseudoClass::Type::FirstOfType; else if(name.compare("last-of-type") == 0) pseudo.type = PseudoClass::Type::LastOfType; else if(name.compare("only-of-type") == 0) pseudo.type = PseudoClass::Type::OnlyOfType; if(pseudo.type == PseudoClass::Type::Not) { if(!Utils::skipDesc(ptr, end, '(')) return false; Utils::skipWs(ptr, end); if(!parseSelectors(ptr, end, pseudo.notSelectors)) return false; Utils::skipWs(ptr, end); if(!Utils::skipDesc(ptr, end, ')')) return false; } simpleSelector.pseudoClasses.push_back(pseudo); continue; } break; } Utils::skipWs(ptr, end); if(Utils::skipDesc(ptr, end, '>')) simpleSelector.combinator = SimpleSelector::Combinator::Child; else if(Utils::skipDesc(ptr, end, '+')) simpleSelector.combinator = SimpleSelector::Combinator::DirectAdjacent; else if(Utils::skipDesc(ptr, end, '~')) simpleSelector.combinator = SimpleSelector::Combinator::InDirectAdjacent; return true; } RuleMatchContext::RuleMatchContext(const std::vector& rules) { for(auto& rule : rules) for(auto& selector : rule.selectors) m_selectors.emplace(selector.specificity, std::make_pair(&selector, &rule.declarations)); } std::vector RuleMatchContext::match(const Element* element) const { std::vector declarations; auto it = m_selectors.begin(); auto end = m_selectors.end(); for(;it != end;++it) { auto& value = it->second; if(!selectorMatch(std::get<0>(value), element)) continue; declarations.push_back(std::get<1>(value)); } return declarations; } bool RuleMatchContext::selectorMatch(const Selector* selector, const Element* element) const { if(selector->simpleSelectors.empty()) return false; if(selector->simpleSelectors.size() == 1) return simpleSelectorMatch(selector->simpleSelectors.front(), element); auto it = selector->simpleSelectors.rbegin(); auto end = selector->simpleSelectors.rend(); if(!simpleSelectorMatch(*it, element)) return false; ++it; while(it != end) { switch(it->combinator) { case SimpleSelector::Combinator::Child: case SimpleSelector::Combinator::Descendant: element = element->parent; break; case SimpleSelector::Combinator::DirectAdjacent: case SimpleSelector::Combinator::InDirectAdjacent: element = element->previousSibling(); break; } if(element == nullptr) return false; auto match = simpleSelectorMatch(*it, element); if(!match && (it->combinator != SimpleSelector::Combinator::Descendant && it->combinator != SimpleSelector::Combinator::InDirectAdjacent)) return false; if(match || (it->combinator != SimpleSelector::Combinator::Descendant && it->combinator != SimpleSelector::Combinator::InDirectAdjacent)) ++it; } return true; } bool RuleMatchContext::simpleSelectorMatch(const SimpleSelector& selector, const Element* element) const { if(selector.id != ElementId::Star && selector.id != element->id) return false; for(auto& attributeSelector : selector.attributeSelectors) if(!attributeSelectorMatch(attributeSelector, element)) return false; for(auto& pseudoClass : selector.pseudoClasses) if(!pseudoClassMatch(pseudoClass, element)) return false; return true; } bool RuleMatchContext::attributeSelectorMatch(const AttributeSelector& selector, const Element* element) const { auto& value = element->get(selector.id); if(value.empty()) return false; if(selector.matchType == AttributeSelector::MatchType::None) return true; if(selector.matchType == AttributeSelector::MatchType::Equal) return selector.value == value; if(selector.matchType == AttributeSelector::MatchType::Includes) { auto ptr = value.data(); auto end = ptr + value.size(); while(ptr < end) { auto start = ptr; while(ptr < end && !IS_WS(*ptr)) ++ptr; if(selector.value == std::string(start, ptr)) return true; Utils::skipWs(ptr, end); } return false; } auto starts_with = [](const std::string& string, const std::string& prefix) { if(prefix.empty() || prefix.size() > string.size()) return false; return string.compare(0, prefix.size(), prefix) == 0; }; auto ends_with = [](const std::string& string, const std::string& suffix) { if(suffix.empty() || suffix.size() > string.size()) return false; return string.compare(string.size() - suffix.size(), suffix.size(), suffix) == 0; }; if(selector.matchType == AttributeSelector::MatchType::DashMatch) { if(selector.value == value) return true; return starts_with(value, selector.value + '-'); } if(selector.matchType == AttributeSelector::MatchType::StartsWith) return starts_with(value, selector.value); if(selector.matchType == AttributeSelector::MatchType::EndsWith) return ends_with(value, selector.value); if(selector.matchType == AttributeSelector::MatchType::Contains) return value.find(selector.value) != std::string::npos; return false; } bool RuleMatchContext::pseudoClassMatch(const PseudoClass& pseudo, const Element* element) const { if(pseudo.type == PseudoClass::Type::Empty) return element->children.empty(); if(pseudo.type == PseudoClass::Type::Root) return element->parent == nullptr; if(pseudo.type == PseudoClass::Type::Not) { for(auto& selector : pseudo.notSelectors) if(selectorMatch(&selector, element)) return false; return true; } if(pseudo.type == PseudoClass::Type::FirstChild) return !element->previousSibling(); if(pseudo.type == PseudoClass::Type::LastChild) return !element->nextSibling(); if(pseudo.type == PseudoClass::Type::OnlyChild) return !(element->previousSibling() || element->nextSibling()); if(pseudo.type == PseudoClass::Type::FirstOfType) { auto sibling = element->previousSibling(); while(sibling) { if(sibling->id == element->id) return false; sibling = element->previousSibling(); } return true; } if(pseudo.type == PseudoClass::Type::LastOfType) { auto sibling = element->nextSibling(); while(sibling) { if(sibling->id == element->id) return false; sibling = element->nextSibling(); } return true; } return false; } static inline std::unique_ptr createElement(ElementId id) { switch(id) { case ElementId::Svg: return std::make_unique(); case ElementId::Path: return std::make_unique(); case ElementId::G: return std::make_unique(); case ElementId::Rect: return std::make_unique(); case ElementId::Circle: return std::make_unique(); case ElementId::Ellipse: return std::make_unique(); case ElementId::Line: return std::make_unique(); case ElementId::Defs: return std::make_unique(); case ElementId::Polygon: return std::make_unique(); case ElementId::Polyline: return std::make_unique(); case ElementId::Stop: return std::make_unique(); case ElementId::LinearGradient: return std::make_unique(); case ElementId::RadialGradient: return std::make_unique(); case ElementId::Symbol: return std::make_unique(); case ElementId::Use: return std::make_unique(); case ElementId::Pattern: return std::make_unique(); case ElementId::Mask: return std::make_unique(); case ElementId::ClipPath: return std::make_unique(); case ElementId::SolidColor: return std::make_unique(); case ElementId::Marker: return std::make_unique(); case ElementId::Style: return std::make_unique(); default: break; } return nullptr; } static inline bool decodeText(const char* ptr, const char* end, std::string& value) { value.clear(); while(ptr < end) { auto ch = *ptr; ++ptr; if(ch != '&') { value.push_back(ch); continue; } if(Utils::skipDesc(ptr, end, '#')) { int base = 10; if(Utils::skipDesc(ptr, end, 'x')) base = 16; unsigned int cp; if(!Utils::parseInteger(ptr, end, cp, base)) return false; char c[5] = {0, 0, 0, 0, 0}; if(cp < 0x80) { c[1] = 0; c[0] = cp; } else if(cp < 0x800) { c[2] = 0; c[1] = (cp & 0x3F) | 0x80; cp >>= 6; c[0] = cp | 0xC0; } else if(cp < 0x10000) { c[3] = 0; c[2] = (cp & 0x3F) | 0x80; cp >>= 6; c[1] = (cp & 0x3F) | 0x80; cp >>= 6; c[0] = cp | 0xE0; } else if(cp < 0x200000) { c[4] = 0; c[3] = (cp & 0x3F) | 0x80; cp >>= 6; c[2] = (cp & 0x3F) | 0x80; cp >>= 6; c[1] = (cp & 0x3F) | 0x80; cp >>= 6; c[0] = cp | 0xF0; } value.append(c); } else { if(Utils::skipDesc(ptr, end, "amp")) value.push_back('&'); else if(Utils::skipDesc(ptr, end, "lt")) value.push_back('<'); else if(Utils::skipDesc(ptr, end, "gt")) value.push_back('>'); else if(Utils::skipDesc(ptr, end, "quot")) value.push_back('\"'); else if(Utils::skipDesc(ptr, end, "apos")) value.push_back('\''); else return false; } if(!Utils::skipDesc(ptr, end, ';')) return false; } return true; } static inline void parseStyle(const std::string& string, Element* element) { auto ptr = string.data(); auto end = ptr + string.size(); std::string name; std::string value; Utils::skipWs(ptr, end); while(ptr < end && readCSSIdentifier(ptr, end, name)) { Utils::skipWs(ptr, end); if(!Utils::skipDesc(ptr, end, ':')) return; Utils::skipWs(ptr, end); auto start = ptr; while(ptr < end && *ptr != ';') ++ptr; value.assign(start, Utils::rtrim(start, ptr)); auto id = cssPropertyId(name); if(id != PropertyId::Unknown) element->set(id, value, 0x100); Utils::skipWsDelimiter(ptr, end, ';'); } } ParseDocument::ParseDocument() { } ParseDocument::~ParseDocument() { } bool ParseDocument::parse(const char* data, std::size_t size) { auto ptr = data; auto end = ptr + size; CSSParser cssparser; Element* current = nullptr; std::string name; std::string value; int ignoring = 0; auto remove_comments = [](std::string& value) { auto start = value.find("/*"); while(start != std::string::npos) { auto end = value.find("*/", start + 2); value.erase(start, end - start + 2); start = value.find("/*"); } }; auto handle_text = [&](const char* start, const char* end, bool in_cdata) { if(ignoring > 0 || current == nullptr || current->id != ElementId::Style) return; if(in_cdata) value.assign(start, end); else decodeText(start, end, value); remove_comments(value); cssparser.parseMore(value); }; while(ptr < end) { auto start = ptr; if(!Utils::skipUntil(ptr, end, '<')) break; handle_text(start, ptr, false); ptr += 1; if(ptr < end && *ptr == '/') { if(current == nullptr && ignoring == 0) return false; ++ptr; if(!readIdentifier(ptr, end, name)) return false; Utils::skipWs(ptr, end); if(ptr >= end || *ptr != '>') return false; if(ignoring > 0) --ignoring; else current = current->parent; ++ptr; continue; } if(ptr < end && *ptr == '?') { ++ptr; if(!readIdentifier(ptr, end, name)) return false; if(!Utils::skipUntil(ptr, end, "?>")) return false; ptr += 2; continue; } if(ptr < end && *ptr == '!') { ++ptr; if(Utils::skipDesc(ptr, end, "--")) { start = ptr; if(!Utils::skipUntil(ptr, end, "-->")) return false; handle_text(start, ptr, false); ptr += 3; continue; } if(Utils::skipDesc(ptr, end, "[CDATA[")) { start = ptr; if(!Utils::skipUntil(ptr, end, "]]>")) return false; handle_text(start, ptr, true); ptr += 3; continue; } if(Utils::skipDesc(ptr, end, "DOCTYPE")) { while(ptr < end && *ptr != '>') { if(*ptr == '[') { ++ptr; int depth = 1; while(ptr < end && depth > 0) { if(*ptr == '[') ++depth; else if(*ptr == ']') --depth; ++ptr; } } else { ++ptr; } } if(ptr >= end || *ptr != '>') return false; ptr += 1; continue; } return false; } if(!readIdentifier(ptr, end, name)) return false; auto id = ignoring == 0 ? elementId(name) : ElementId::Unknown; if(id == ElementId::Unknown) ++ignoring; Element* element = nullptr; if(ignoring == 0) { if(m_rootElement && current == nullptr) return false; if(m_rootElement == nullptr) { if(id != ElementId::Svg) return false; m_rootElement = std::make_unique(); element = m_rootElement.get(); } else { auto child = createElement(id); element = child.get(); current->addChild(std::move(child)); } } Utils::skipWs(ptr, end); while(ptr < end && readIdentifier(ptr, end, name)) { Utils::skipWs(ptr, end); if(ptr >= end || *ptr != '=') return false; ++ptr; Utils::skipWs(ptr, end); if(ptr >= end || !(*ptr == '\"' || *ptr == '\'')) return false; auto quote = *ptr; ++ptr; Utils::skipWs(ptr, end); start = ptr; while(ptr < end && *ptr != quote) ++ptr; if(ptr >= end || *ptr != quote) return false; auto id = element ? propertyId(name) : PropertyId::Unknown; if(id != PropertyId::Unknown) { decodeText(start, Utils::rtrim(start, ptr), value); if(id == PropertyId::Style) { remove_comments(value); parseStyle(value, element); } else { if(id == PropertyId::Id) m_idCache.emplace(value, element); element->set(id, value, 0x1); } } ++ptr; Utils::skipWs(ptr, end); } if(ptr < end && *ptr == '>') { if(element != nullptr) current = element; ++ptr; continue; } if(ptr < end && *ptr == '/') { ++ptr; if(ptr >= end || *ptr != '>') return false; if(ignoring > 0) --ignoring; ++ptr; continue; } return false; } if(!m_rootElement || ptr < end || ignoring > 0) return false; const auto& rules = cssparser.rules(); if(!rules.empty()) { RuleMatchContext context(rules); m_rootElement->transverse([&context](Node* node) { if(node->isText()) return false; auto element = static_cast(node); auto declarations = context.match(element); for(auto& declaration : declarations) element->properties.add(*declaration); return false; }); } return true; } Element* ParseDocument::getElementById(const std::string& id) const { auto it = m_idCache.find(id); if(it == m_idCache.end()) return nullptr; return it->second; } std::unique_ptr ParseDocument::layout() const { return m_rootElement->layoutDocument(this); } } // namespace lunasvg