modules/svg/src/SkSVGNode.cpp - skia - Git at Google

 /*
  * 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 "include/core/SkCanvas.h"
 #include "include/core/SkMatrix.h"
 #include "include/pathops/SkPathOps.h"
 #include "include/private/SkTPin.h"
 #include "modules/svg/include/SkSVGNode.h"
 #include "modules/svg/include/SkSVGRenderContext.h"
 #include "modules/svg/include/SkSVGValue.h"
 #include "src/core/SkTLazy.h"

 SkSVGNode::SkSVGNode(SkSVGTag t) : fTag(t) {
     // Uninherited presentation attributes need a non-null default value.
     fPresentationAttributes.fStopColor.set(SkSVGColor(SK_ColorBLACK));
     fPresentationAttributes.fStopOpacity.set(SkSVGNumberType(1.0f));
     fPresentationAttributes.fFloodColor.set(SkSVGColor(SK_ColorBLACK));
     fPresentationAttributes.fFloodOpacity.set(SkSVGNumberType(1.0f));
     fPresentationAttributes.fLightingColor.set(SkSVGColor(SK_ColorWHITE));
 }

 SkSVGNode::~SkSVGNode() { }

 void SkSVGNode::render(const SkSVGRenderContext& ctx) const {
     SkSVGRenderContext localContext(ctx, this);

     if (this->onPrepareToRender(&localContext)) {
         this->onRender(localContext);
     }
 }

 bool SkSVGNode::asPaint(const SkSVGRenderContext& ctx, SkPaint* paint) const {
     SkSVGRenderContext localContext(ctx);

     return this->onPrepareToRender(&localContext) && this->onAsPaint(localContext, paint);
 }

 SkPath SkSVGNode::asPath(const SkSVGRenderContext& ctx) const {
     SkSVGRenderContext localContext(ctx);
     if (!this->onPrepareToRender(&localContext)) {
         return SkPath();
     }

     SkPath path = this->onAsPath(localContext);

     if (const auto* clipPath = localContext.clipPath()) {
         // There is a clip-path present on the current node.
         Op(path, *clipPath, kIntersect_SkPathOp, &path);
     }

     return path;
 }

 SkRect SkSVGNode::objectBoundingBox(const SkSVGRenderContext& ctx) const {
     return this->onObjectBoundingBox(ctx);
 }

 bool SkSVGNode::onPrepareToRender(SkSVGRenderContext* ctx) const {
     ctx->applyPresentationAttributes(fPresentationAttributes,
                                      this->hasChildren() ? 0 : SkSVGRenderContext::kLeaf);

     // visibility:hidden and display:none disable rendering.
     // TODO: if display is not a value (true when display="inherit"), we currently
     //   ignore it. Eventually we should be able to add SkASSERT(display.isValue()).
     const auto visibility = ctx->presentationContext().fInherited.fVisibility->type();
     const auto display = fPresentationAttributes.fDisplay;  // display is uninherited
     return visibility != SkSVGVisibility::Type::kHidden &&
            (!display.isValue() || *display != SkSVGDisplay::kNone);
 }

 void SkSVGNode::setAttribute(SkSVGAttribute attr, const SkSVGValue& v) {
     this->onSetAttribute(attr, v);
 }

 template <typename T>
 void SetInheritedByDefault(SkTLazy<T>& presentation_attribute, const T& value) {
     if (value.type() != T::Type::kInherit) {
         presentation_attribute.set(value);
     } else {
         // kInherited values are semantically equivalent to
         // the absence of a local presentation attribute.
         presentation_attribute.reset();
     }
 }

 bool SkSVGNode::parseAndSetAttribute(const char* n, const char* v) {
 #define PARSE_AND_SET(svgName, attrName)                                                        \
     this->set##attrName(                                                                        \
             SkSVGAttributeParser::parseProperty<decltype(fPresentationAttributes.f##attrName)>( \
                     svgName, n, v))

     return PARSE_AND_SET(   "clip-path"                  , ClipPath)
            || PARSE_AND_SET("clip-rule"                  , ClipRule)
            || PARSE_AND_SET("color"                      , Color)
            || PARSE_AND_SET("color-interpolation"        , ColorInterpolation)
            || PARSE_AND_SET("color-interpolation-filters", ColorInterpolationFilters)
            || PARSE_AND_SET("display"                    , Display)
            || PARSE_AND_SET("fill"                       , Fill)
            || PARSE_AND_SET("fill-opacity"               , FillOpacity)
            || PARSE_AND_SET("fill-rule"                  , FillRule)
            || PARSE_AND_SET("filter"                     , Filter)
            || PARSE_AND_SET("flood-color"                , FloodColor)
            || PARSE_AND_SET("flood-opacity"              , FloodOpacity)
            || PARSE_AND_SET("font-family"                , FontFamily)
            || PARSE_AND_SET("font-size"                  , FontSize)
            || PARSE_AND_SET("font-style"                 , FontStyle)
            || PARSE_AND_SET("font-weight"                , FontWeight)
            || PARSE_AND_SET("lighting-color"             , LightingColor)
            || PARSE_AND_SET("mask"                       , Mask)
            || PARSE_AND_SET("opacity"                    , Opacity)
            || PARSE_AND_SET("stop-color"                 , StopColor)
            || PARSE_AND_SET("stop-opacity"               , StopOpacity)
            || PARSE_AND_SET("stroke"                     , Stroke)
            || PARSE_AND_SET("stroke-dasharray"           , StrokeDashArray)
            || PARSE_AND_SET("stroke-dashoffset"          , StrokeDashOffset)
            || PARSE_AND_SET("stroke-linecap"             , StrokeLineCap)
            || PARSE_AND_SET("stroke-linejoin"            , StrokeLineJoin)
            || PARSE_AND_SET("stroke-miterlimit"          , StrokeMiterLimit)
            || PARSE_AND_SET("stroke-opacity"             , StrokeOpacity)
            || PARSE_AND_SET("stroke-width"               , StrokeWidth)
            || PARSE_AND_SET("text-anchor"                , TextAnchor)
            || PARSE_AND_SET("visibility"                 , Visibility);

 #undef PARSE_AND_SET
 }

 // https://www.w3.org/TR/SVG11/coords.html#PreserveAspectRatioAttribute
 SkMatrix SkSVGNode::ComputeViewboxMatrix(const SkRect& viewBox,
                                          const SkRect& viewPort,
                                          SkSVGPreserveAspectRatio par) {
     SkASSERT(!viewBox.isEmpty());
     SkASSERT(!viewPort.isEmpty());

     auto compute_scale = [&]() -> SkV2 {
         const auto sx = viewPort.width()  / viewBox.width(),
                    sy = viewPort.height() / viewBox.height();

         if (par.fAlign == SkSVGPreserveAspectRatio::kNone) {
             // none -> anisotropic scaling, regardless of fScale
             return {sx, sy};
         }

         // isotropic scaling
         const auto s = par.fScale == SkSVGPreserveAspectRatio::kMeet
                             ? std::min(sx, sy)
                             : std::max(sx, sy);
         return {s, s};
     };

     auto compute_trans = [&](const SkV2& scale) -> SkV2 {
         static constexpr float gAlignCoeffs[] = {
                 0.0f, // Min
                 0.5f, // Mid
                 1.0f  // Max
         };

         const size_t x_coeff = par.fAlign >> 0 & 0x03,
                      y_coeff = par.fAlign >> 2 & 0x03;

         SkASSERT(x_coeff < SK_ARRAY_COUNT(gAlignCoeffs) &&
                  y_coeff < SK_ARRAY_COUNT(gAlignCoeffs));

         const auto tx = -viewBox.x() * scale.x,
                    ty = -viewBox.y() * scale.y,
                    dx = viewPort.width()  - viewBox.width() * scale.x,
                    dy = viewPort.height() - viewBox.height() * scale.y;

         return {
             tx + dx * gAlignCoeffs[x_coeff],
             ty + dy * gAlignCoeffs[y_coeff]
         };
     };

     const auto s = compute_scale(),
                t = compute_trans(s);

     return SkMatrix::Translate(t.x, t.y) *
            SkMatrix::Scale(s.x, s.y);
 }
	/*
	* 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 "include/core/SkCanvas.h"
	#include "include/core/SkMatrix.h"
	#include "include/pathops/SkPathOps.h"
	#include "include/private/SkTPin.h"
	#include "modules/svg/include/SkSVGNode.h"
	#include "modules/svg/include/SkSVGRenderContext.h"
	#include "modules/svg/include/SkSVGValue.h"
	#include "src/core/SkTLazy.h"

	SkSVGNode::SkSVGNode(SkSVGTag t) : fTag(t) {
	// Uninherited presentation attributes need a non-null default value.
	fPresentationAttributes.fStopColor.set(SkSVGColor(SK_ColorBLACK));
	fPresentationAttributes.fStopOpacity.set(SkSVGNumberType(1.0f));
	fPresentationAttributes.fFloodColor.set(SkSVGColor(SK_ColorBLACK));
	fPresentationAttributes.fFloodOpacity.set(SkSVGNumberType(1.0f));
	fPresentationAttributes.fLightingColor.set(SkSVGColor(SK_ColorWHITE));
	}

	SkSVGNode::~SkSVGNode() { }

	void SkSVGNode::render(const SkSVGRenderContext& ctx) const {
	SkSVGRenderContext localContext(ctx, this);

	if (this->onPrepareToRender(&localContext)) {
	this->onRender(localContext);
	}
	}

	bool SkSVGNode::asPaint(const SkSVGRenderContext& ctx, SkPaint* paint) const {
	SkSVGRenderContext localContext(ctx);

	return this->onPrepareToRender(&localContext) && this->onAsPaint(localContext, paint);
	}

	SkPath SkSVGNode::asPath(const SkSVGRenderContext& ctx) const {
	SkSVGRenderContext localContext(ctx);
	if (!this->onPrepareToRender(&localContext)) {
	return SkPath();
	}

	SkPath path = this->onAsPath(localContext);

	if (const auto* clipPath = localContext.clipPath()) {
	// There is a clip-path present on the current node.
	Op(path, *clipPath, kIntersect_SkPathOp, &path);
	}

	return path;
	}

	SkRect SkSVGNode::objectBoundingBox(const SkSVGRenderContext& ctx) const {
	return this->onObjectBoundingBox(ctx);
	}

	bool SkSVGNode::onPrepareToRender(SkSVGRenderContext* ctx) const {
	ctx->applyPresentationAttributes(fPresentationAttributes,
	this->hasChildren() ? 0 : SkSVGRenderContext::kLeaf);

	// visibility:hidden and display:none disable rendering.
	// TODO: if display is not a value (true when display="inherit"), we currently
	// ignore it. Eventually we should be able to add SkASSERT(display.isValue()).
	const auto visibility = ctx->presentationContext().fInherited.fVisibility->type();
	const auto display = fPresentationAttributes.fDisplay; // display is uninherited
	return visibility != SkSVGVisibility::Type::kHidden &&
	(!display.isValue() \|\| *display != SkSVGDisplay::kNone);
	}

	void SkSVGNode::setAttribute(SkSVGAttribute attr, const SkSVGValue& v) {
	this->onSetAttribute(attr, v);
	}

	template <typename T>
	void SetInheritedByDefault(SkTLazy<T>& presentation_attribute, const T& value) {
	if (value.type() != T::Type::kInherit) {
	presentation_attribute.set(value);
	} else {
	// kInherited values are semantically equivalent to
	// the absence of a local presentation attribute.
	presentation_attribute.reset();
	}
	}

	bool SkSVGNode::parseAndSetAttribute(const char* n, const char* v) {
	#define PARSE_AND_SET(svgName, attrName) \
	this->set##attrName( \
	SkSVGAttributeParser::parseProperty<decltype(fPresentationAttributes.f##attrName)>( \
	svgName, n, v))

	return PARSE_AND_SET( "clip-path" , ClipPath)
	\|\| PARSE_AND_SET("clip-rule" , ClipRule)
	\|\| PARSE_AND_SET("color" , Color)
	\|\| PARSE_AND_SET("color-interpolation" , ColorInterpolation)
	\|\| PARSE_AND_SET("color-interpolation-filters", ColorInterpolationFilters)
	\|\| PARSE_AND_SET("display" , Display)
	\|\| PARSE_AND_SET("fill" , Fill)
	\|\| PARSE_AND_SET("fill-opacity" , FillOpacity)
	\|\| PARSE_AND_SET("fill-rule" , FillRule)
	\|\| PARSE_AND_SET("filter" , Filter)
	\|\| PARSE_AND_SET("flood-color" , FloodColor)
	\|\| PARSE_AND_SET("flood-opacity" , FloodOpacity)
	\|\| PARSE_AND_SET("font-family" , FontFamily)
	\|\| PARSE_AND_SET("font-size" , FontSize)
	\|\| PARSE_AND_SET("font-style" , FontStyle)
	\|\| PARSE_AND_SET("font-weight" , FontWeight)
	\|\| PARSE_AND_SET("lighting-color" , LightingColor)
	\|\| PARSE_AND_SET("mask" , Mask)
	\|\| PARSE_AND_SET("opacity" , Opacity)
	\|\| PARSE_AND_SET("stop-color" , StopColor)
	\|\| PARSE_AND_SET("stop-opacity" , StopOpacity)
	\|\| PARSE_AND_SET("stroke" , Stroke)
	\|\| PARSE_AND_SET("stroke-dasharray" , StrokeDashArray)
	\|\| PARSE_AND_SET("stroke-dashoffset" , StrokeDashOffset)
	\|\| PARSE_AND_SET("stroke-linecap" , StrokeLineCap)
	\|\| PARSE_AND_SET("stroke-linejoin" , StrokeLineJoin)
	\|\| PARSE_AND_SET("stroke-miterlimit" , StrokeMiterLimit)
	\|\| PARSE_AND_SET("stroke-opacity" , StrokeOpacity)
	\|\| PARSE_AND_SET("stroke-width" , StrokeWidth)
	\|\| PARSE_AND_SET("text-anchor" , TextAnchor)
	\|\| PARSE_AND_SET("visibility" , Visibility);

	#undef PARSE_AND_SET
	}

	// https://www.w3.org/TR/SVG11/coords.html#PreserveAspectRatioAttribute
	SkMatrix SkSVGNode::ComputeViewboxMatrix(const SkRect& viewBox,
	const SkRect& viewPort,
	SkSVGPreserveAspectRatio par) {
	SkASSERT(!viewBox.isEmpty());
	SkASSERT(!viewPort.isEmpty());

	auto compute_scale = [&]() -> SkV2 {
	const auto sx = viewPort.width() / viewBox.width(),
	sy = viewPort.height() / viewBox.height();

	if (par.fAlign == SkSVGPreserveAspectRatio::kNone) {
	// none -> anisotropic scaling, regardless of fScale
	return {sx, sy};
	}

	// isotropic scaling
	const auto s = par.fScale == SkSVGPreserveAspectRatio::kMeet
	? std::min(sx, sy)
	: std::max(sx, sy);
	return {s, s};
	};

	auto compute_trans = [&](const SkV2& scale) -> SkV2 {
	static constexpr float gAlignCoeffs[] = {
	0.0f, // Min
	0.5f, // Mid
	1.0f // Max
	};

	const size_t x_coeff = par.fAlign >> 0 & 0x03,
	y_coeff = par.fAlign >> 2 & 0x03;

	SkASSERT(x_coeff < SK_ARRAY_COUNT(gAlignCoeffs) &&
	y_coeff < SK_ARRAY_COUNT(gAlignCoeffs));

	const auto tx = -viewBox.x() * scale.x,
	ty = -viewBox.y() * scale.y,
	dx = viewPort.width() - viewBox.width() * scale.x,
	dy = viewPort.height() - viewBox.height() * scale.y;

	return {
	tx + dx * gAlignCoeffs[x_coeff],
	ty + dy * gAlignCoeffs[y_coeff]
	};
	};

	const auto s = compute_scale(),
	t = compute_trans(s);

	return SkMatrix::Translate(t.x, t.y) *
	SkMatrix::Scale(s.x, s.y);
	}