flow/layers/physical_shape_layer.cc - external/github.com/flutter/engine - Git at Google

 // Copyright 2013 The Flutter Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "flutter/flow/layers/physical_shape_layer.h"

 #include "flutter/flow/paint_utils.h"
 #include "third_party/skia/include/utils/SkShadowUtils.h"

 namespace flutter {

 const SkScalar kLightHeight = 600;
 const SkScalar kLightRadius = 800;

 PhysicalShapeLayer::PhysicalShapeLayer(SkColor color,
                                        SkColor shadow_color,
                                        float elevation,
                                        const SkPath& path,
                                        Clip clip_behavior)
     : color_(color),
       shadow_color_(shadow_color),
       elevation_(elevation),
       path_(path),
       isRect_(false),
       clip_behavior_(clip_behavior) {
   SkRect rect;
   if (path.isRect(&rect)) {
     isRect_ = true;
     frameRRect_ = SkRRect::MakeRect(rect);
   } else if (path.isRRect(&frameRRect_)) {
     isRect_ = frameRRect_.isRect();
   } else if (path.isOval(&rect)) {
     // isRRect returns false for ovals, so we need to explicitly check isOval
     // as well.
     frameRRect_ = SkRRect::MakeOval(rect);
   } else {
     // Scenic currently doesn't provide an easy way to create shapes from
     // arbitrary paths.
     // For shapes that cannot be represented as a rounded rectangle we
     // default to use the bounding rectangle.
     // TODO(amirh): fix this once we have a way to create a Scenic shape from
     // an SkPath.
     frameRRect_ = SkRRect::MakeRect(path.getBounds());
   }
 }

 void PhysicalShapeLayer::Preroll(PrerollContext* context,
                                  const SkMatrix& matrix) {
   TRACE_EVENT0("flutter", "PhysicalShapeLayer::Preroll");
   Layer::AutoPrerollSaveLayerState save =
       Layer::AutoPrerollSaveLayerState::Create(context, UsesSaveLayer());

   context->total_elevation += elevation_;
   total_elevation_ = context->total_elevation;

   SkRect child_paint_bounds;
   PrerollChildren(context, matrix, &child_paint_bounds);

   context->total_elevation -= elevation_;

   if (elevation_ == 0) {
     set_paint_bounds(path_.getBounds());
   } else {
     // We will draw the shadow in Paint(), so add some margin to the paint
     // bounds to leave space for the shadow. We fill this whole region and clip
     // children to it so we don't need to join the child paint bounds.
     set_paint_bounds(ComputeShadowBounds(path_.getBounds(), elevation_,
                                          context->frame_device_pixel_ratio));
   }
 }

 void PhysicalShapeLayer::Paint(PaintContext& context) const {
   TRACE_EVENT0("flutter", "PhysicalShapeLayer::Paint");
   FML_DCHECK(needs_painting());

   if (elevation_ != 0) {
     DrawShadow(context.leaf_nodes_canvas, path_, shadow_color_, elevation_,
                SkColorGetA(color_) != 0xff, context.frame_device_pixel_ratio);
   }

   // Call drawPath without clip if possible for better performance.
   SkPaint paint;
   paint.setColor(color_);
   paint.setAntiAlias(true);
   if (clip_behavior_ != Clip::antiAliasWithSaveLayer) {
     context.leaf_nodes_canvas->drawPath(path_, paint);
   }

   int saveCount = context.internal_nodes_canvas->save();
   switch (clip_behavior_) {
     case Clip::hardEdge:
       context.internal_nodes_canvas->clipPath(path_, false);
       break;
     case Clip::antiAlias:
       context.internal_nodes_canvas->clipPath(path_, true);
       break;
     case Clip::antiAliasWithSaveLayer:
       context.internal_nodes_canvas->clipPath(path_, true);
       context.internal_nodes_canvas->saveLayer(paint_bounds(), nullptr);
       break;
     case Clip::none:
       break;
   }

   if (UsesSaveLayer()) {
     // If we want to avoid the bleeding edge artifact
     // (https://github.com/flutter/flutter/issues/18057#issue-328003931)
     // using saveLayer, we have to call drawPaint instead of drawPath as
     // anti-aliased drawPath will always have such artifacts.
     context.leaf_nodes_canvas->drawPaint(paint);
   }

   PaintChildren(context);

   context.internal_nodes_canvas->restoreToCount(saveCount);
 }

 SkRect PhysicalShapeLayer::ComputeShadowBounds(const SkRect& bounds,
                                                float elevation,
                                                float pixel_ratio) {
   // The shadow offset is calculated as follows:
   //                   .---                           (kLightRadius)
   //                -------/                          (light)
   //                   |  /
   //                   | /
   //                   |/
   //                   |O
   //                  /|                              (kLightHeight)
   //                 / |
   //                /  |
   //               /   |
   //              /    |
   //             -------------                        (layer)
   //            /|     |
   //           / |     |                              (elevation)
   //        A /  |     |B
   // ------------------------------------------------ (canvas)
   //          ---                                     (extent of shadow)
   //
   // E = lt        }           t = (r + w/2)/h
   //                } =>
   // r + w/2 = ht  }           E = (l/h)(r + w/2)
   //
   // Where: E = extent of shadow
   //        l = elevation of layer
   //        r = radius of the light source
   //        w = width of the layer
   //        h = light height
   //        t = tangent of AOB, i.e., multiplier for elevation to extent
   // tangent for x
   double tx =
       (kLightRadius * pixel_ratio + bounds.width() * 0.5) / kLightHeight;
   // tangent for y
   double ty =
       (kLightRadius * pixel_ratio + bounds.height() * 0.5) / kLightHeight;
   SkRect shadow_bounds(bounds);
   shadow_bounds.outset(elevation * tx, elevation * ty);

   return shadow_bounds;
 }

 void PhysicalShapeLayer::DrawShadow(SkCanvas* canvas,
                                     const SkPath& path,
                                     SkColor color,
                                     float elevation,
                                     bool transparentOccluder,
                                     SkScalar dpr) {
   const SkScalar kAmbientAlpha = 0.039f;
   const SkScalar kSpotAlpha = 0.25f;

   SkShadowFlags flags = transparentOccluder
                             ? SkShadowFlags::kTransparentOccluder_ShadowFlag
                             : SkShadowFlags::kNone_ShadowFlag;
   const SkRect& bounds = path.getBounds();
   SkScalar shadow_x = (bounds.left() + bounds.right()) / 2;
   SkScalar shadow_y = bounds.top() - 600.0f;
   SkColor inAmbient = SkColorSetA(color, kAmbientAlpha * SkColorGetA(color));
   SkColor inSpot = SkColorSetA(color, kSpotAlpha * SkColorGetA(color));
   SkColor ambientColor, spotColor;
   SkShadowUtils::ComputeTonalColors(inAmbient, inSpot, &ambientColor,
                                     &spotColor);
   SkShadowUtils::DrawShadow(
       canvas, path, SkPoint3::Make(0, 0, dpr * elevation),
       SkPoint3::Make(shadow_x, shadow_y, dpr * kLightHeight),
       dpr * kLightRadius, ambientColor, spotColor, flags);
 }

 }  // namespace flutter
	// Copyright 2013 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "flutter/flow/layers/physical_shape_layer.h"

	#include "flutter/flow/paint_utils.h"
	#include "third_party/skia/include/utils/SkShadowUtils.h"

	namespace flutter {

	const SkScalar kLightHeight = 600;
	const SkScalar kLightRadius = 800;

	PhysicalShapeLayer::PhysicalShapeLayer(SkColor color,
	SkColor shadow_color,
	float elevation,
	const SkPath& path,
	Clip clip_behavior)
	: color_(color),
	shadow_color_(shadow_color),
	elevation_(elevation),
	path_(path),
	isRect_(false),
	clip_behavior_(clip_behavior) {
	SkRect rect;
	if (path.isRect(&rect)) {
	isRect_ = true;
	frameRRect_ = SkRRect::MakeRect(rect);
	} else if (path.isRRect(&frameRRect_)) {
	isRect_ = frameRRect_.isRect();
	} else if (path.isOval(&rect)) {
	// isRRect returns false for ovals, so we need to explicitly check isOval
	// as well.
	frameRRect_ = SkRRect::MakeOval(rect);
	} else {
	// Scenic currently doesn't provide an easy way to create shapes from
	// arbitrary paths.
	// For shapes that cannot be represented as a rounded rectangle we
	// default to use the bounding rectangle.
	// TODO(amirh): fix this once we have a way to create a Scenic shape from
	// an SkPath.
	frameRRect_ = SkRRect::MakeRect(path.getBounds());
	}
	}

	void PhysicalShapeLayer::Preroll(PrerollContext* context,
	const SkMatrix& matrix) {
	TRACE_EVENT0("flutter", "PhysicalShapeLayer::Preroll");
	Layer::AutoPrerollSaveLayerState save =
	Layer::AutoPrerollSaveLayerState::Create(context, UsesSaveLayer());

	context->total_elevation += elevation_;
	total_elevation_ = context->total_elevation;

	SkRect child_paint_bounds;
	PrerollChildren(context, matrix, &child_paint_bounds);

	context->total_elevation -= elevation_;

	if (elevation_ == 0) {
	set_paint_bounds(path_.getBounds());
	} else {
	// We will draw the shadow in Paint(), so add some margin to the paint
	// bounds to leave space for the shadow. We fill this whole region and clip
	// children to it so we don't need to join the child paint bounds.
	set_paint_bounds(ComputeShadowBounds(path_.getBounds(), elevation_,
	context->frame_device_pixel_ratio));
	}
	}

	void PhysicalShapeLayer::Paint(PaintContext& context) const {
	TRACE_EVENT0("flutter", "PhysicalShapeLayer::Paint");
	FML_DCHECK(needs_painting());

	if (elevation_ != 0) {
	DrawShadow(context.leaf_nodes_canvas, path_, shadow_color_, elevation_,
	SkColorGetA(color_) != 0xff, context.frame_device_pixel_ratio);
	}

	// Call drawPath without clip if possible for better performance.
	SkPaint paint;
	paint.setColor(color_);
	paint.setAntiAlias(true);
	if (clip_behavior_ != Clip::antiAliasWithSaveLayer) {
	context.leaf_nodes_canvas->drawPath(path_, paint);
	}

	int saveCount = context.internal_nodes_canvas->save();
	switch (clip_behavior_) {
	case Clip::hardEdge:
	context.internal_nodes_canvas->clipPath(path_, false);
	break;
	case Clip::antiAlias:
	context.internal_nodes_canvas->clipPath(path_, true);
	break;
	case Clip::antiAliasWithSaveLayer:
	context.internal_nodes_canvas->clipPath(path_, true);
	context.internal_nodes_canvas->saveLayer(paint_bounds(), nullptr);
	break;
	case Clip::none:
	break;
	}

	if (UsesSaveLayer()) {
	// If we want to avoid the bleeding edge artifact
	// (https://github.com/flutter/flutter/issues/18057#issue-328003931)
	// using saveLayer, we have to call drawPaint instead of drawPath as
	// anti-aliased drawPath will always have such artifacts.
	context.leaf_nodes_canvas->drawPaint(paint);
	}

	PaintChildren(context);

	context.internal_nodes_canvas->restoreToCount(saveCount);
	}

	SkRect PhysicalShapeLayer::ComputeShadowBounds(const SkRect& bounds,
	float elevation,
	float pixel_ratio) {
	// The shadow offset is calculated as follows:
	// .--- (kLightRadius)
	// -------/ (light)
	// \| /
	// \| /
	// \|/
	// \|O
	// /\| (kLightHeight)
	// / \|
	// / \|
	// / \|
	// / \|
	// ------------- (layer)
	// /\| \|
	// / \| \| (elevation)
	// A / \| \|B
	// ------------------------------------------------ (canvas)
	// --- (extent of shadow)
	//
	// E = lt } t = (r + w/2)/h
	// } =>
	// r + w/2 = ht } E = (l/h)(r + w/2)
	//
	// Where: E = extent of shadow
	// l = elevation of layer
	// r = radius of the light source
	// w = width of the layer
	// h = light height
	// t = tangent of AOB, i.e., multiplier for elevation to extent
	// tangent for x
	double tx =
	(kLightRadius * pixel_ratio + bounds.width() * 0.5) / kLightHeight;
	// tangent for y
	double ty =
	(kLightRadius * pixel_ratio + bounds.height() * 0.5) / kLightHeight;
	SkRect shadow_bounds(bounds);
	shadow_bounds.outset(elevation * tx, elevation * ty);

	return shadow_bounds;
	}

	void PhysicalShapeLayer::DrawShadow(SkCanvas* canvas,
	const SkPath& path,
	SkColor color,
	float elevation,
	bool transparentOccluder,
	SkScalar dpr) {
	const SkScalar kAmbientAlpha = 0.039f;
	const SkScalar kSpotAlpha = 0.25f;

	SkShadowFlags flags = transparentOccluder
	? SkShadowFlags::kTransparentOccluder_ShadowFlag
	: SkShadowFlags::kNone_ShadowFlag;
	const SkRect& bounds = path.getBounds();
	SkScalar shadow_x = (bounds.left() + bounds.right()) / 2;
	SkScalar shadow_y = bounds.top() - 600.0f;
	SkColor inAmbient = SkColorSetA(color, kAmbientAlpha * SkColorGetA(color));
	SkColor inSpot = SkColorSetA(color, kSpotAlpha * SkColorGetA(color));
	SkColor ambientColor, spotColor;
	SkShadowUtils::ComputeTonalColors(inAmbient, inSpot, &ambientColor,
	&spotColor);
	SkShadowUtils::DrawShadow(
	canvas, path, SkPoint3::Make(0, 0, dpr * elevation),
	SkPoint3::Make(shadow_x, shadow_y, dpr * kLightHeight),
	dpr * kLightRadius, ambientColor, spotColor, flags);
	}

	} // namespace flutter