/* * Copyright 2016 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkParse.h" #include "SkSVGAttributeParser.h" #include "SkSVGTypes.h" namespace { // TODO: these should be shared with SkParse.cpp inline bool is_between(char c, char min, char max) { SkASSERT(min <= max); return (unsigned)(c - min) <= (unsigned)(max - min); } inline bool is_eos(char c) { return !c; } inline bool is_ws(char c) { return is_between(c, 1, 32); } inline bool is_sep(char c) { return is_ws(c) || c == ',' || c == ';'; } } // anonymous ns SkSVGAttributeParser::SkSVGAttributeParser(const char attributeString[]) : fCurPos(attributeString) {} template <typename F> inline bool SkSVGAttributeParser::advanceWhile(F f) { auto initial = fCurPos; while (f(*fCurPos)) { fCurPos++; } return fCurPos != initial; } inline bool SkSVGAttributeParser::parseEOSToken() { return is_eos(*fCurPos); } inline bool SkSVGAttributeParser::parseSepToken() { return this->advanceWhile(is_sep); } inline bool SkSVGAttributeParser::parseWSToken() { return this->advanceWhile(is_ws); } inline bool SkSVGAttributeParser::parseExpectedStringToken(const char* expected) { const char* c = fCurPos; while (*c && *expected && *c == *expected) { c++; expected++; } if (*expected) { return false; } fCurPos = c; return true; } bool SkSVGAttributeParser::parseScalarToken(SkScalar* res) { if (const char* next = SkParse::FindScalar(fCurPos, res)) { fCurPos = next; return true; } return false; } bool SkSVGAttributeParser::parseHexToken(uint32_t* res) { if (const char* next = SkParse::FindHex(fCurPos, res)) { fCurPos = next; return true; } return false; } bool SkSVGAttributeParser::parseLengthUnitToken(SkSVGLength::Unit* unit) { static const struct { const char* fUnitName; SkSVGLength::Unit fUnit; } gUnitInfo[] = { { "%" , SkSVGLength::Unit::kPercentage }, { "em", SkSVGLength::Unit::kEMS }, { "ex", SkSVGLength::Unit::kEXS }, { "px", SkSVGLength::Unit::kPX }, { "cm", SkSVGLength::Unit::kCM }, { "mm", SkSVGLength::Unit::kMM }, { "in", SkSVGLength::Unit::kIN }, { "pt", SkSVGLength::Unit::kPT }, { "pc", SkSVGLength::Unit::kPC }, }; for (size_t i = 0; i < SK_ARRAY_COUNT(gUnitInfo); ++i) { if (this->parseExpectedStringToken(gUnitInfo[i].fUnitName)) { *unit = gUnitInfo[i].fUnit; return true; } } return false; } // https://www.w3.org/TR/SVG/types.html#DataTypeColor bool SkSVGAttributeParser::parseNamedColorToken(SkColor* c) { if (const char* next = SkParse::FindNamedColor(fCurPos, strlen(fCurPos), c)) { fCurPos = next; return true; } return false; } bool SkSVGAttributeParser::parseHexColorToken(SkColor* c) { uint32_t v; const char* initial = fCurPos; if (!this->parseExpectedStringToken("#") || !this->parseHexToken(&v)) { return false; } switch (fCurPos - initial) { case 7: // matched #xxxxxxx break; case 4: // matched '#xxx; v = ((v << 12) & 0x00f00000) | ((v << 8) & 0x000ff000) | ((v << 4) & 0x00000ff0) | ((v << 0) & 0x0000000f); break; default: return false; } *c = v | 0xff000000; return true; } bool SkSVGAttributeParser::parseColorComponentToken(int32_t* c) { fCurPos = SkParse::FindS32(fCurPos, c); if (!fCurPos) { return false; } if (*fCurPos == '%') { *c = SkScalarRoundToInt(*c * 255.0f / 100); fCurPos++; } return true; } bool SkSVGAttributeParser::parseRGBColorToken(SkColor* c) { return this->parseParenthesized("rgb", [this](SkColor* c) -> bool { int32_t r, g, b; if (this->parseColorComponentToken(&r) && this->parseSepToken() && this->parseColorComponentToken(&g) && this->parseSepToken() && this->parseColorComponentToken(&b)) { *c = SkColorSetRGB(static_cast<uint8_t>(r), static_cast<uint8_t>(g), static_cast<uint8_t>(b)); return true; } return false; }, c); } bool SkSVGAttributeParser::parseColor(SkSVGColorType* color) { SkColor c; // consume preceding whitespace this->parseWSToken(); // TODO: rgb(...) bool parsedValue = false; if (this->parseHexColorToken(&c) || this->parseNamedColorToken(&c) || this->parseRGBColorToken(&c)) { *color = SkSVGColorType(c); parsedValue = true; // consume trailing whitespace this->parseWSToken(); } return parsedValue && this->parseEOSToken(); } // https://www.w3.org/TR/SVG/linking.html#IRIReference bool SkSVGAttributeParser::parseIRI(SkSVGStringType* iri) { // consume preceding whitespace this->parseWSToken(); // we only support local fragments if (!this->parseExpectedStringToken("#")) { return false; } const auto* start = fCurPos; this->advanceWhile([](char c) -> bool { return !is_eos(c) && c != ')'; }); if (start == fCurPos) { return false; } *iri = SkString(start, fCurPos - start); return true; } // https://www.w3.org/TR/SVG/types.html#DataTypeFuncIRI bool SkSVGAttributeParser::parseFuncIRI(SkSVGStringType* iri) { return this->parseParenthesized("url", [this](SkSVGStringType* iri) -> bool { return this->parseIRI(iri); }, iri); } // https://www.w3.org/TR/SVG/types.html#DataTypeNumber bool SkSVGAttributeParser::parseNumber(SkSVGNumberType* number) { // consume WS this->parseWSToken(); SkScalar s; if (this->parseScalarToken(&s)) { *number = SkSVGNumberType(s); // consume trailing separators this->parseSepToken(); return true; } return false; } // https://www.w3.org/TR/SVG/types.html#DataTypeLength bool SkSVGAttributeParser::parseLength(SkSVGLength* length) { SkScalar s; SkSVGLength::Unit u = SkSVGLength::Unit::kNumber; if (this->parseScalarToken(&s) && (this->parseLengthUnitToken(&u) || this->parseSepToken() || this->parseEOSToken())) { *length = SkSVGLength(s, u); // consume trailing separators this->parseSepToken(); return true; } return false; } // https://www.w3.org/TR/SVG/coords.html#ViewBoxAttribute bool SkSVGAttributeParser::parseViewBox(SkSVGViewBoxType* vb) { SkScalar x, y, w, h; this->parseWSToken(); bool parsedValue = false; if (this->parseScalarToken(&x) && this->parseSepToken() && this->parseScalarToken(&y) && this->parseSepToken() && this->parseScalarToken(&w) && this->parseSepToken() && this->parseScalarToken(&h)) { *vb = SkSVGViewBoxType(SkRect::MakeXYWH(x, y, w, h)); parsedValue = true; // consume trailing whitespace this->parseWSToken(); } return parsedValue && this->parseEOSToken(); } template <typename Func, typename T> bool SkSVGAttributeParser::parseParenthesized(const char* prefix, Func f, T* result) { this->parseWSToken(); if (prefix && !this->parseExpectedStringToken(prefix)) { return false; } this->parseWSToken(); if (!this->parseExpectedStringToken("(")) { return false; } this->parseWSToken(); if (!f(result)) { return false; } this->parseWSToken(); return this->parseExpectedStringToken(")"); } bool SkSVGAttributeParser::parseMatrixToken(SkMatrix* matrix) { return this->parseParenthesized("matrix", [this](SkMatrix* m) -> bool { SkScalar scalars[6]; for (int i = 0; i < 6; ++i) { if (!(this->parseScalarToken(scalars + i) && (i > 4 || this->parseSepToken()))) { return false; } } m->setAll(scalars[0], scalars[2], scalars[4], scalars[1], scalars[3], scalars[5], 0, 0, 1); return true; }, matrix); } bool SkSVGAttributeParser::parseTranslateToken(SkMatrix* matrix) { return this->parseParenthesized("translate", [this](SkMatrix* m) -> bool { SkScalar tx, ty; this->parseWSToken(); if (!this->parseScalarToken(&tx)) { return false; } if (!(this->parseSepToken() && this->parseScalarToken(&ty))) { ty = tx; } m->setTranslate(tx, ty); return true; }, matrix); } bool SkSVGAttributeParser::parseScaleToken(SkMatrix* matrix) { return this->parseParenthesized("scale", [this](SkMatrix* m) -> bool { SkScalar sx, sy; if (!this->parseScalarToken(&sx)) { return false; } if (!(this->parseSepToken() && this->parseScalarToken(&sy))) { sy = sx; } m->setScale(sx, sy); return true; }, matrix); } bool SkSVGAttributeParser::parseRotateToken(SkMatrix* matrix) { return this->parseParenthesized("rotate", [this](SkMatrix* m) -> bool { SkScalar angle; if (!this->parseScalarToken(&angle)) { return false; } SkScalar cx = 0; SkScalar cy = 0; // optional [<cx> <cy>] if (this->parseSepToken() && this->parseScalarToken(&cx)) { if (!(this->parseSepToken() && this->parseScalarToken(&cy))) { return false; } } m->setRotate(angle, cx, cy); return true; }, matrix); } bool SkSVGAttributeParser::parseSkewXToken(SkMatrix* matrix) { return this->parseParenthesized("skewX", [this](SkMatrix* m) -> bool { SkScalar angle; if (!this->parseScalarToken(&angle)) { return false; } m->setSkewX(angle); return true; }, matrix); } bool SkSVGAttributeParser::parseSkewYToken(SkMatrix* matrix) { return this->parseParenthesized("skewY", [this](SkMatrix* m) -> bool { SkScalar angle; if (!this->parseScalarToken(&angle)) { return false; } m->setSkewY(angle); return true; }, matrix); } // https://www.w3.org/TR/SVG/coords.html#TransformAttribute bool SkSVGAttributeParser::parseTransform(SkSVGTransformType* t) { SkMatrix matrix = SkMatrix::I(); bool parsed = false; while (true) { SkMatrix m; if (!( this->parseMatrixToken(&m) || this->parseTranslateToken(&m) || this->parseScaleToken(&m) || this->parseRotateToken(&m) || this->parseSkewXToken(&m) || this->parseSkewYToken(&m))) { break; } matrix.preConcat(m); parsed = true; } this->parseWSToken(); if (!parsed || !this->parseEOSToken()) { return false; } *t = SkSVGTransformType(matrix); return true; } // https://www.w3.org/TR/SVG/painting.html#SpecifyingPaint bool SkSVGAttributeParser::parsePaint(SkSVGPaint* paint) { SkSVGColorType c; SkSVGStringType iri; bool parsedValue = false; if (this->parseColor(&c)) { *paint = SkSVGPaint(c); parsedValue = true; } else if (this->parseExpectedStringToken("none")) { *paint = SkSVGPaint(SkSVGPaint::Type::kNone); parsedValue = true; } else if (this->parseExpectedStringToken("currentColor")) { *paint = SkSVGPaint(SkSVGPaint::Type::kCurrentColor); parsedValue = true; } else if (this->parseExpectedStringToken("inherit")) { *paint = SkSVGPaint(SkSVGPaint::Type::kInherit); parsedValue = true; } else if (this->parseFuncIRI(&iri)) { *paint = SkSVGPaint(iri.value()); parsedValue = true; } return parsedValue && this->parseEOSToken(); } // https://www.w3.org/TR/SVG/masking.html#ClipPathProperty bool SkSVGAttributeParser::parseClipPath(SkSVGClip* clip) { SkSVGStringType iri; bool parsedValue = false; if (this->parseExpectedStringToken("none")) { *clip = SkSVGClip(SkSVGClip::Type::kNone); parsedValue = true; } else if (this->parseExpectedStringToken("inherit")) { *clip = SkSVGClip(SkSVGClip::Type::kInherit); parsedValue = true; } else if (this->parseFuncIRI(&iri)) { *clip = SkSVGClip(iri.value()); parsedValue = true; } return parsedValue && this->parseEOSToken(); } // https://www.w3.org/TR/SVG/painting.html#StrokeLinecapProperty bool SkSVGAttributeParser::parseLineCap(SkSVGLineCap* cap) { static const struct { SkSVGLineCap::Type fType; const char* fName; } gCapInfo[] = { { SkSVGLineCap::Type::kButt , "butt" }, { SkSVGLineCap::Type::kRound , "round" }, { SkSVGLineCap::Type::kSquare , "square" }, { SkSVGLineCap::Type::kInherit, "inherit" }, }; bool parsedValue = false; for (size_t i = 0; i < SK_ARRAY_COUNT(gCapInfo); ++i) { if (this->parseExpectedStringToken(gCapInfo[i].fName)) { *cap = SkSVGLineCap(gCapInfo[i].fType); parsedValue = true; break; } } return parsedValue && this->parseEOSToken(); } // https://www.w3.org/TR/SVG/painting.html#StrokeLinejoinProperty bool SkSVGAttributeParser::parseLineJoin(SkSVGLineJoin* join) { static const struct { SkSVGLineJoin::Type fType; const char* fName; } gJoinInfo[] = { { SkSVGLineJoin::Type::kMiter , "miter" }, { SkSVGLineJoin::Type::kRound , "round" }, { SkSVGLineJoin::Type::kBevel , "bevel" }, { SkSVGLineJoin::Type::kInherit, "inherit" }, }; bool parsedValue = false; for (size_t i = 0; i < SK_ARRAY_COUNT(gJoinInfo); ++i) { if (this->parseExpectedStringToken(gJoinInfo[i].fName)) { *join = SkSVGLineJoin(gJoinInfo[i].fType); parsedValue = true; break; } } return parsedValue && this->parseEOSToken(); } // https://www.w3.org/TR/SVG/pservers.html#LinearGradientElementSpreadMethodAttribute bool SkSVGAttributeParser::parseSpreadMethod(SkSVGSpreadMethod* spread) { static const struct { SkSVGSpreadMethod::Type fType; const char* fName; } gSpreadInfo[] = { { SkSVGSpreadMethod::Type::kPad , "pad" }, { SkSVGSpreadMethod::Type::kReflect, "reflect" }, { SkSVGSpreadMethod::Type::kRepeat , "repeat" }, }; bool parsedValue = false; for (size_t i = 0; i < SK_ARRAY_COUNT(gSpreadInfo); ++i) { if (this->parseExpectedStringToken(gSpreadInfo[i].fName)) { *spread = SkSVGSpreadMethod(gSpreadInfo[i].fType); parsedValue = true; break; } } return parsedValue && this->parseEOSToken(); } // https://www.w3.org/TR/SVG/shapes.html#PolygonElementPointsAttribute bool SkSVGAttributeParser::parsePoints(SkSVGPointsType* points) { SkTDArray<SkPoint> pts; bool parsedValue = false; for (;;) { this->parseWSToken(); SkScalar x, y; if (!this->parseScalarToken(&x)) { break; } // comma-wsp: // (wsp+ comma? wsp*) | (comma wsp*) bool wsp = this->parseWSToken(); bool comma = this->parseExpectedStringToken(","); if (!(wsp || comma)) { break; } this->parseWSToken(); if (!this->parseScalarToken(&y)) { break; } pts.push(SkPoint::Make(x, y)); parsedValue = true; } if (parsedValue && this->parseEOSToken()) { *points = pts; return true; } return false; } // https://www.w3.org/TR/SVG/painting.html#FillRuleProperty bool SkSVGAttributeParser::parseFillRule(SkSVGFillRule* fillRule) { static const struct { SkSVGFillRule::Type fType; const char* fName; } gFillRuleInfo[] = { { SkSVGFillRule::Type::kNonZero, "nonzero" }, { SkSVGFillRule::Type::kEvenOdd, "evenodd" }, { SkSVGFillRule::Type::kInherit, "inherit" }, }; bool parsedValue = false; for (size_t i = 0; i < SK_ARRAY_COUNT(gFillRuleInfo); ++i) { if (this->parseExpectedStringToken(gFillRuleInfo[i].fName)) { *fillRule = SkSVGFillRule(gFillRuleInfo[i].fType); parsedValue = true; break; } } return parsedValue && this->parseEOSToken(); }