blob: cea1ae69fe58136b6d09dbdfcbd06d8eccb4d0d9 [file] [log] [blame]
/*
* 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 "SkCanvas.h"
#include "SkDOM.h"
#include "SkParsePath.h"
#include "SkString.h"
#include "SkSVGAttributeParser.h"
#include "SkSVGCircle.h"
#include "SkSVGClipPath.h"
#include "SkSVGDefs.h"
#include "SkSVGDOM.h"
#include "SkSVGEllipse.h"
#include "SkSVGG.h"
#include "SkSVGLine.h"
#include "SkSVGLinearGradient.h"
#include "SkSVGNode.h"
#include "SkSVGPath.h"
#include "SkSVGPoly.h"
#include "SkSVGRect.h"
#include "SkSVGRenderContext.h"
#include "SkSVGStop.h"
#include "SkSVGSVG.h"
#include "SkSVGTypes.h"
#include "SkSVGValue.h"
#include "SkTSearch.h"
namespace {
bool SetPaintAttribute(const sk_sp<SkSVGNode>& node, SkSVGAttribute attr,
const char* stringValue) {
SkSVGPaint paint;
SkSVGAttributeParser parser(stringValue);
if (!parser.parsePaint(&paint)) {
return false;
}
node->setAttribute(attr, SkSVGPaintValue(paint));
return true;
}
bool SetColorAttribute(const sk_sp<SkSVGNode>& node, SkSVGAttribute attr,
const char* stringValue) {
SkSVGColorType color;
SkSVGAttributeParser parser(stringValue);
if (!parser.parseColor(&color)) {
return false;
}
node->setAttribute(attr, SkSVGColorValue(color));
return true;
}
bool SetIRIAttribute(const sk_sp<SkSVGNode>& node, SkSVGAttribute attr,
const char* stringValue) {
SkSVGStringType iri;
SkSVGAttributeParser parser(stringValue);
if (!parser.parseIRI(&iri)) {
return false;
}
node->setAttribute(attr, SkSVGStringValue(iri));
return true;
}
bool SetClipPathAttribute(const sk_sp<SkSVGNode>& node, SkSVGAttribute attr,
const char* stringValue) {
SkSVGClip clip;
SkSVGAttributeParser parser(stringValue);
if (!parser.parseClipPath(&clip)) {
return false;
}
node->setAttribute(attr, SkSVGClipValue(clip));
return true;
}
bool SetPathDataAttribute(const sk_sp<SkSVGNode>& node, SkSVGAttribute attr,
const char* stringValue) {
SkPath path;
if (!SkParsePath::FromSVGString(stringValue, &path)) {
return false;
}
node->setAttribute(attr, SkSVGPathValue(path));
return true;
}
bool SetTransformAttribute(const sk_sp<SkSVGNode>& node, SkSVGAttribute attr,
const char* stringValue) {
SkSVGTransformType transform;
SkSVGAttributeParser parser(stringValue);
if (!parser.parseTransform(&transform)) {
return false;
}
node->setAttribute(attr, SkSVGTransformValue(transform));
return true;
}
bool SetLengthAttribute(const sk_sp<SkSVGNode>& node, SkSVGAttribute attr,
const char* stringValue) {
SkSVGLength length;
SkSVGAttributeParser parser(stringValue);
if (!parser.parseLength(&length)) {
return false;
}
node->setAttribute(attr, SkSVGLengthValue(length));
return true;
}
bool SetNumberAttribute(const sk_sp<SkSVGNode>& node, SkSVGAttribute attr,
const char* stringValue) {
SkSVGNumberType number;
SkSVGAttributeParser parser(stringValue);
if (!parser.parseNumber(&number)) {
return false;
}
node->setAttribute(attr, SkSVGNumberValue(number));
return true;
}
bool SetViewBoxAttribute(const sk_sp<SkSVGNode>& node, SkSVGAttribute attr,
const char* stringValue) {
SkSVGViewBoxType viewBox;
SkSVGAttributeParser parser(stringValue);
if (!parser.parseViewBox(&viewBox)) {
return false;
}
node->setAttribute(attr, SkSVGViewBoxValue(viewBox));
return true;
}
bool SetLineCapAttribute(const sk_sp<SkSVGNode>& node, SkSVGAttribute attr,
const char* stringValue) {
SkSVGLineCap lineCap;
SkSVGAttributeParser parser(stringValue);
if (!parser.parseLineCap(&lineCap)) {
return false;
}
node->setAttribute(attr, SkSVGLineCapValue(lineCap));
return true;
}
bool SetLineJoinAttribute(const sk_sp<SkSVGNode>& node, SkSVGAttribute attr,
const char* stringValue) {
SkSVGLineJoin lineJoin;
SkSVGAttributeParser parser(stringValue);
if (!parser.parseLineJoin(&lineJoin)) {
return false;
}
node->setAttribute(attr, SkSVGLineJoinValue(lineJoin));
return true;
}
bool SetSpreadMethodAttribute(const sk_sp<SkSVGNode>& node, SkSVGAttribute attr,
const char* stringValue) {
SkSVGSpreadMethod spread;
SkSVGAttributeParser parser(stringValue);
if (!parser.parseSpreadMethod(&spread)) {
return false;
}
node->setAttribute(attr, SkSVGSpreadMethodValue(spread));
return true;
}
bool SetPointsAttribute(const sk_sp<SkSVGNode>& node, SkSVGAttribute attr,
const char* stringValue) {
SkSVGPointsType points;
SkSVGAttributeParser parser(stringValue);
if (!parser.parsePoints(&points)) {
return false;
}
node->setAttribute(attr, SkSVGPointsValue(points));
return true;
}
bool SetFillRuleAttribute(const sk_sp<SkSVGNode>& node, SkSVGAttribute attr,
const char* stringValue) {
SkSVGFillRule fillRule;
SkSVGAttributeParser parser(stringValue);
if (!parser.parseFillRule(&fillRule)) {
return false;
}
node->setAttribute(attr, SkSVGFillRuleValue(fillRule));
return true;
}
SkString TrimmedString(const char* first, const char* last) {
SkASSERT(first);
SkASSERT(last);
SkASSERT(first <= last);
while (first <= last && *first <= ' ') { first++; }
while (first <= last && *last <= ' ') { last--; }
SkASSERT(last - first + 1 >= 0);
return SkString(first, SkTo<size_t>(last - first + 1));
}
// Breaks a "foo: bar; baz: ..." string into key:value pairs.
class StyleIterator {
public:
StyleIterator(const char* str) : fPos(str) { }
std::tuple<SkString, SkString> next() {
SkString name, value;
if (fPos) {
const char* sep = this->nextSeparator();
SkASSERT(*sep == ';' || *sep == '\0');
const char* valueSep = strchr(fPos, ':');
if (valueSep && valueSep < sep) {
name = TrimmedString(fPos, valueSep - 1);
value = TrimmedString(valueSep + 1, sep - 1);
}
fPos = *sep ? sep + 1 : nullptr;
}
return std::make_tuple(name, value);
}
private:
const char* nextSeparator() const {
const char* sep = fPos;
while (*sep != ';' && *sep != '\0') {
sep++;
}
return sep;
}
const char* fPos;
};
void set_string_attribute(const sk_sp<SkSVGNode>& node, const char* name, const char* value);
bool SetStyleAttributes(const sk_sp<SkSVGNode>& node, SkSVGAttribute,
const char* stringValue) {
SkString name, value;
StyleIterator iter(stringValue);
for (;;) {
std::tie(name, value) = iter.next();
if (name.isEmpty()) {
break;
}
set_string_attribute(node, name.c_str(), value.c_str());
}
return true;
}
template<typename T>
struct SortedDictionaryEntry {
const char* fKey;
const T fValue;
};
struct AttrParseInfo {
SkSVGAttribute fAttr;
bool (*fSetter)(const sk_sp<SkSVGNode>& node, SkSVGAttribute attr, const char* stringValue);
};
SortedDictionaryEntry<AttrParseInfo> gAttributeParseInfo[] = {
{ "clip-path" , { SkSVGAttribute::kClipPath , SetClipPathAttribute }},
{ "cx" , { SkSVGAttribute::kCx , SetLengthAttribute }},
{ "cy" , { SkSVGAttribute::kCy , SetLengthAttribute }},
{ "d" , { SkSVGAttribute::kD , SetPathDataAttribute }},
{ "fill" , { SkSVGAttribute::kFill , SetPaintAttribute }},
{ "fill-opacity" , { SkSVGAttribute::kFillOpacity , SetNumberAttribute }},
{ "fill-rule" , { SkSVGAttribute::kFillRule , SetFillRuleAttribute }},
{ "gradientTransform", { SkSVGAttribute::kGradientTransform, SetTransformAttribute }},
{ "height" , { SkSVGAttribute::kHeight , SetLengthAttribute }},
{ "offset" , { SkSVGAttribute::kOffset , SetLengthAttribute }},
{ "opacity" , { SkSVGAttribute::kOpacity , SetNumberAttribute }},
{ "points" , { SkSVGAttribute::kPoints , SetPointsAttribute }},
{ "r" , { SkSVGAttribute::kR , SetLengthAttribute }},
{ "rx" , { SkSVGAttribute::kRx , SetLengthAttribute }},
{ "ry" , { SkSVGAttribute::kRy , SetLengthAttribute }},
{ "spreadMethod" , { SkSVGAttribute::kSpreadMethod , SetSpreadMethodAttribute }},
{ "stop-color" , { SkSVGAttribute::kStopColor , SetColorAttribute }},
{ "stop-opacity" , { SkSVGAttribute::kStopOpacity , SetNumberAttribute }},
{ "stroke" , { SkSVGAttribute::kStroke , SetPaintAttribute }},
{ "stroke-linecap" , { SkSVGAttribute::kStrokeLineCap , SetLineCapAttribute }},
{ "stroke-linejoin" , { SkSVGAttribute::kStrokeLineJoin , SetLineJoinAttribute }},
{ "stroke-opacity" , { SkSVGAttribute::kStrokeOpacity , SetNumberAttribute }},
{ "stroke-width" , { SkSVGAttribute::kStrokeWidth , SetLengthAttribute }},
{ "style" , { SkSVGAttribute::kUnknown , SetStyleAttributes }},
{ "transform" , { SkSVGAttribute::kTransform , SetTransformAttribute }},
{ "viewBox" , { SkSVGAttribute::kViewBox , SetViewBoxAttribute }},
{ "width" , { SkSVGAttribute::kWidth , SetLengthAttribute }},
{ "x" , { SkSVGAttribute::kX , SetLengthAttribute }},
{ "x1" , { SkSVGAttribute::kX1 , SetLengthAttribute }},
{ "x2" , { SkSVGAttribute::kX2 , SetLengthAttribute }},
{ "xlink:href" , { SkSVGAttribute::kHref , SetIRIAttribute }},
{ "y" , { SkSVGAttribute::kY , SetLengthAttribute }},
{ "y1" , { SkSVGAttribute::kY1 , SetLengthAttribute }},
{ "y2" , { SkSVGAttribute::kY2 , SetLengthAttribute }},
};
SortedDictionaryEntry<sk_sp<SkSVGNode>(*)()> gTagFactories[] = {
{ "circle" , []() -> sk_sp<SkSVGNode> { return SkSVGCircle::Make(); }},
{ "clipPath" , []() -> sk_sp<SkSVGNode> { return SkSVGClipPath::Make(); }},
{ "defs" , []() -> sk_sp<SkSVGNode> { return SkSVGDefs::Make(); }},
{ "ellipse" , []() -> sk_sp<SkSVGNode> { return SkSVGEllipse::Make(); }},
{ "g" , []() -> sk_sp<SkSVGNode> { return SkSVGG::Make(); }},
{ "line" , []() -> sk_sp<SkSVGNode> { return SkSVGLine::Make(); }},
{ "linearGradient", []() -> sk_sp<SkSVGNode> { return SkSVGLinearGradient::Make(); }},
{ "path" , []() -> sk_sp<SkSVGNode> { return SkSVGPath::Make(); }},
{ "polygon" , []() -> sk_sp<SkSVGNode> { return SkSVGPoly::MakePolygon(); }},
{ "polyline" , []() -> sk_sp<SkSVGNode> { return SkSVGPoly::MakePolyline(); }},
{ "rect" , []() -> sk_sp<SkSVGNode> { return SkSVGRect::Make(); }},
{ "stop" , []() -> sk_sp<SkSVGNode> { return SkSVGStop::Make(); }},
{ "svg" , []() -> sk_sp<SkSVGNode> { return SkSVGSVG::Make(); }},
};
struct ConstructionContext {
ConstructionContext(SkSVGIDMapper* mapper) : fParent(nullptr), fIDMapper(mapper) {}
ConstructionContext(const ConstructionContext& other, const sk_sp<SkSVGNode>& newParent)
: fParent(newParent.get()), fIDMapper(other.fIDMapper) {}
const SkSVGNode* fParent;
SkSVGIDMapper* fIDMapper;
};
void set_string_attribute(const sk_sp<SkSVGNode>& node, const char* name, const char* value) {
const int attrIndex = SkStrSearch(&gAttributeParseInfo[0].fKey,
SkTo<int>(SK_ARRAY_COUNT(gAttributeParseInfo)),
name, sizeof(gAttributeParseInfo[0]));
if (attrIndex < 0) {
#if defined(SK_VERBOSE_SVG_PARSING)
SkDebugf("unhandled attribute: %s\n", name);
#endif
return;
}
SkASSERT(SkTo<size_t>(attrIndex) < SK_ARRAY_COUNT(gAttributeParseInfo));
const auto& attrInfo = gAttributeParseInfo[attrIndex].fValue;
if (!attrInfo.fSetter(node, attrInfo.fAttr, value)) {
#if defined(SK_VERBOSE_SVG_PARSING)
SkDebugf("could not parse attribute: '%s=\"%s\"'\n", name, value);
#endif
}
}
void parse_node_attributes(const SkDOM& xmlDom, const SkDOM::Node* xmlNode,
const sk_sp<SkSVGNode>& svgNode, SkSVGIDMapper* mapper) {
const char* name, *value;
SkDOM::AttrIter attrIter(xmlDom, xmlNode);
while ((name = attrIter.next(&value))) {
// We're handling id attributes out of band for now.
if (!strcmp(name, "id")) {
mapper->set(SkString(value), svgNode);
continue;
}
set_string_attribute(svgNode, name, value);
}
}
sk_sp<SkSVGNode> construct_svg_node(const SkDOM& dom, const ConstructionContext& ctx,
const SkDOM::Node* xmlNode) {
const char* elem = dom.getName(xmlNode);
const SkDOM::Type elemType = dom.getType(xmlNode);
if (elemType == SkDOM::kText_Type) {
SkASSERT(dom.countChildren(xmlNode) == 0);
// TODO: text handling
return nullptr;
}
SkASSERT(elemType == SkDOM::kElement_Type);
const int tagIndex = SkStrSearch(&gTagFactories[0].fKey,
SkTo<int>(SK_ARRAY_COUNT(gTagFactories)),
elem, sizeof(gTagFactories[0]));
if (tagIndex < 0) {
#if defined(SK_VERBOSE_SVG_PARSING)
SkDebugf("unhandled element: <%s>\n", elem);
#endif
return nullptr;
}
SkASSERT(SkTo<size_t>(tagIndex) < SK_ARRAY_COUNT(gTagFactories));
sk_sp<SkSVGNode> node = gTagFactories[tagIndex].fValue();
parse_node_attributes(dom, xmlNode, node, ctx.fIDMapper);
ConstructionContext localCtx(ctx, node);
for (auto* child = dom.getFirstChild(xmlNode, nullptr); child;
child = dom.getNextSibling(child)) {
sk_sp<SkSVGNode> childNode = construct_svg_node(dom, localCtx, child);
if (childNode) {
node->appendChild(std::move(childNode));
}
}
return node;
}
} // anonymous namespace
SkSVGDOM::SkSVGDOM()
: fContainerSize(SkSize::Make(0, 0)) {
}
sk_sp<SkSVGDOM> SkSVGDOM::MakeFromDOM(const SkDOM& xmlDom) {
sk_sp<SkSVGDOM> dom = sk_make_sp<SkSVGDOM>();
ConstructionContext ctx(&dom->fIDMapper);
dom->fRoot = construct_svg_node(xmlDom, ctx, xmlDom.getRootNode());
// Reset the default container size to match the intrinsic SVG size.
dom->setContainerSize(dom->intrinsicSize());
return dom;
}
sk_sp<SkSVGDOM> SkSVGDOM::MakeFromStream(SkStream& svgStream) {
SkDOM xmlDom;
if (!xmlDom.build(svgStream)) {
return nullptr;
}
return MakeFromDOM(xmlDom);
}
void SkSVGDOM::render(SkCanvas* canvas) const {
if (fRoot) {
SkSVGRenderContext ctx(canvas,
fIDMapper,
SkSVGLengthContext(fContainerSize),
SkSVGPresentationContext());
fRoot->render(ctx);
}
}
SkSize SkSVGDOM::intrinsicSize() const {
if (!fRoot || fRoot->tag() != SkSVGTag::kSvg) {
return SkSize::Make(0, 0);
}
// Intrinsic sizes are never relative, so the viewport size is irrelevant.
const SkSVGLengthContext lctx(SkSize::Make(0, 0));
return static_cast<const SkSVGSVG*>(fRoot.get())->intrinsicSize(lctx);
}
const SkSize& SkSVGDOM::containerSize() const {
return fContainerSize;
}
void SkSVGDOM::setContainerSize(const SkSize& containerSize) {
// TODO: inval
fContainerSize = containerSize;
}
void SkSVGDOM::setRoot(sk_sp<SkSVGNode> root) {
fRoot = std::move(root);
}