libs/hwui/ClipArea.cpp - platform/frameworks/base - Gitiles

 /*
  * Copyright (C) 2015 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */
 #include "ClipArea.h"

 #include "utils/LinearAllocator.h"

 #include <SkPath.h>
 #include <limits>
 #include <type_traits>

 namespace android {
 namespace uirenderer {

 static void handlePoint(Rect& transformedBounds, const Matrix4& transform, float x, float y) {
     Vertex v = {x, y};
     transform.mapPoint(v.x, v.y);
     transformedBounds.expandToCover(v.x, v.y);
 }

 Rect transformAndCalculateBounds(const Rect& r, const Matrix4& transform) {
     const float kMinFloat = std::numeric_limits<float>::lowest();
     const float kMaxFloat = std::numeric_limits<float>::max();
     Rect transformedBounds = {kMaxFloat, kMaxFloat, kMinFloat, kMinFloat};
     handlePoint(transformedBounds, transform, r.left, r.top);
     handlePoint(transformedBounds, transform, r.right, r.top);
     handlePoint(transformedBounds, transform, r.left, r.bottom);
     handlePoint(transformedBounds, transform, r.right, r.bottom);
     return transformedBounds;
 }

 void ClipBase::dump() const {
     ALOGD("mode %d" RECT_STRING, mode, RECT_ARGS(rect));
 }

 /*
  * TransformedRectangle
  */

 TransformedRectangle::TransformedRectangle() {}

 TransformedRectangle::TransformedRectangle(const Rect& bounds, const Matrix4& transform)
         : mBounds(bounds), mTransform(transform) {}

 bool TransformedRectangle::canSimplyIntersectWith(const TransformedRectangle& other) const {
     return mTransform == other.mTransform;
 }

 void TransformedRectangle::intersectWith(const TransformedRectangle& other) {
     mBounds.doIntersect(other.mBounds);
 }

 bool TransformedRectangle::isEmpty() const {
     return mBounds.isEmpty();
 }

 /*
  * RectangleList
  */

 RectangleList::RectangleList() : mTransformedRectanglesCount(0) {}

 bool RectangleList::isEmpty() const {
     if (mTransformedRectanglesCount < 1) {
         return true;
     }

     for (int i = 0; i < mTransformedRectanglesCount; i++) {
         if (mTransformedRectangles[i].isEmpty()) {
             return true;
         }
     }
     return false;
 }

 int RectangleList::getTransformedRectanglesCount() const {
     return mTransformedRectanglesCount;
 }

 const TransformedRectangle& RectangleList::getTransformedRectangle(int i) const {
     return mTransformedRectangles[i];
 }

 void RectangleList::setEmpty() {
     mTransformedRectanglesCount = 0;
 }

 void RectangleList::set(const Rect& bounds, const Matrix4& transform) {
     mTransformedRectanglesCount = 1;
     mTransformedRectangles[0] = TransformedRectangle(bounds, transform);
 }

 bool RectangleList::intersectWith(const Rect& bounds, const Matrix4& transform) {
     TransformedRectangle newRectangle(bounds, transform);

     // Try to find a rectangle with a compatible transformation
     int index = 0;
     for (; index < mTransformedRectanglesCount; index++) {
         TransformedRectangle& tr(mTransformedRectangles[index]);
         if (tr.canSimplyIntersectWith(newRectangle)) {
             tr.intersectWith(newRectangle);
             return true;
         }
     }

     // Add it to the list if there is room
     if (index < kMaxTransformedRectangles) {
         mTransformedRectangles[index] = newRectangle;
         mTransformedRectanglesCount += 1;
         return true;
     }

     // This rectangle list is full
     return false;
 }

 Rect RectangleList::calculateBounds() const {
     Rect bounds;
     for (int index = 0; index < mTransformedRectanglesCount; index++) {
         const TransformedRectangle& tr(mTransformedRectangles[index]);
         if (index == 0) {
             bounds = tr.transformedBounds();
         } else {
             bounds.doIntersect(tr.transformedBounds());
         }
     }
     return bounds;
 }

 static SkPath pathFromTransformedRectangle(const Rect& bounds, const Matrix4& transform) {
     SkPath rectPath;
     SkPath rectPathTransformed;
     rectPath.addRect(bounds.left, bounds.top, bounds.right, bounds.bottom);
     SkMatrix skTransform;
     transform.copyTo(skTransform);
     rectPath.transform(skTransform, &rectPathTransformed);
     return rectPathTransformed;
 }

 SkRegion RectangleList::convertToRegion(const SkRegion& clip) const {
     SkRegion rectangleListAsRegion;
     for (int index = 0; index < mTransformedRectanglesCount; index++) {
         const TransformedRectangle& tr(mTransformedRectangles[index]);
         SkPath rectPathTransformed =
                 pathFromTransformedRectangle(tr.getBounds(), tr.getTransform());
         if (index == 0) {
             rectangleListAsRegion.setPath(rectPathTransformed, clip);
         } else {
             SkRegion rectRegion;
             rectRegion.setPath(rectPathTransformed, clip);
             rectangleListAsRegion.op(rectRegion, SkRegion::kIntersect_Op);
         }
     }
     return rectangleListAsRegion;
 }

 void RectangleList::transform(const Matrix4& transform) {
     for (int index = 0; index < mTransformedRectanglesCount; index++) {
         mTransformedRectangles[index].transform(transform);
     }
 }

 /*
  * ClipArea
  */

 ClipArea::ClipArea() : mMode(ClipMode::Rectangle) {}

 /*
  * Interface
  */

 void ClipArea::setViewportDimensions(int width, int height) {
     mPostViewportClipObserved = false;
     mViewportBounds.set(0, 0, width, height);
     mClipRect = mViewportBounds;
 }

 void ClipArea::setEmpty() {
     onClipUpdated();
     mMode = ClipMode::Rectangle;
     mClipRect.setEmpty();
     mClipRegion.setEmpty();
     mRectangleList.setEmpty();
 }

 void ClipArea::setClip(float left, float top, float right, float bottom) {
     onClipUpdated();
     mMode = ClipMode::Rectangle;
     mClipRect.set(left, top, right, bottom);
     mClipRegion.setEmpty();
 }

 void ClipArea::clipRectWithTransform(const Rect& r, const mat4* transform, SkRegion::Op op) {
     if (op == SkRegion::kReplace_Op) mReplaceOpObserved = true;
     if (!mPostViewportClipObserved && op == SkRegion::kIntersect_Op) op = SkRegion::kReplace_Op;
     onClipUpdated();
     switch (mMode) {
         case ClipMode::Rectangle:
             rectangleModeClipRectWithTransform(r, transform, op);
             break;
         case ClipMode::RectangleList:
             rectangleListModeClipRectWithTransform(r, transform, op);
             break;
         case ClipMode::Region:
             regionModeClipRectWithTransform(r, transform, op);
             break;
     }
 }

 void ClipArea::clipRegion(const SkRegion& region, SkRegion::Op op) {
     if (op == SkRegion::kReplace_Op) mReplaceOpObserved = true;
     if (!mPostViewportClipObserved && op == SkRegion::kIntersect_Op) op = SkRegion::kReplace_Op;
     onClipUpdated();
     enterRegionMode();
     mClipRegion.op(region, op);
     onClipRegionUpdated();
 }

 void ClipArea::clipPathWithTransform(const SkPath& path, const mat4* transform, SkRegion::Op op) {
     if (op == SkRegion::kReplace_Op) mReplaceOpObserved = true;
     if (!mPostViewportClipObserved && op == SkRegion::kIntersect_Op) op = SkRegion::kReplace_Op;
     onClipUpdated();
     SkMatrix skTransform;
     transform->copyTo(skTransform);
     SkPath transformed;
     path.transform(skTransform, &transformed);
     SkRegion region;
     regionFromPath(transformed, region);
     enterRegionMode();
     mClipRegion.op(region, op);
     onClipRegionUpdated();
 }

 /*
  * Rectangle mode
  */

 void ClipArea::enterRectangleMode() {
     // Entering rectangle mode discards any
     // existing clipping information from the other modes.
     // The only way this occurs is by a clip setting operation.
     mMode = ClipMode::Rectangle;
 }

 void ClipArea::rectangleModeClipRectWithTransform(const Rect& r, const mat4* transform,
                                                   SkRegion::Op op) {
     if (op == SkRegion::kReplace_Op && transform->rectToRect()) {
         mClipRect = r;
         transform->mapRect(mClipRect);
         return;
     } else if (op != SkRegion::kIntersect_Op) {
         enterRegionMode();
         regionModeClipRectWithTransform(r, transform, op);
         return;
     }

     if (transform->rectToRect()) {
         Rect transformed(r);
         transform->mapRect(transformed);
         mClipRect.doIntersect(transformed);
         return;
     }

     enterRectangleListMode();
     rectangleListModeClipRectWithTransform(r, transform, op);
 }

 /*
  * RectangleList mode implementation
  */

 void ClipArea::enterRectangleListMode() {
     // Is is only legal to enter rectangle list mode from
     // rectangle mode, since rectangle list mode cannot represent
     // all clip areas that can be represented by a region.
     ALOG_ASSERT(mMode == ClipMode::Rectangle);
     mMode = ClipMode::RectangleList;
     mRectangleList.set(mClipRect, Matrix4::identity());
 }

 void ClipArea::rectangleListModeClipRectWithTransform(const Rect& r, const mat4* transform,
                                                       SkRegion::Op op) {
     if (op != SkRegion::kIntersect_Op || !mRectangleList.intersectWith(r, *transform)) {
         enterRegionMode();
         regionModeClipRectWithTransform(r, transform, op);
     }
 }

 /*
  * Region mode implementation
  */

 void ClipArea::enterRegionMode() {
     ClipMode oldMode = mMode;
     mMode = ClipMode::Region;
     if (oldMode != ClipMode::Region) {
         if (oldMode == ClipMode::Rectangle) {
             mClipRegion.setRect(mClipRect.toSkIRect());
         } else {
             mClipRegion = mRectangleList.convertToRegion(createViewportRegion());
             onClipRegionUpdated();
         }
     }
 }

 void ClipArea::regionModeClipRectWithTransform(const Rect& r, const mat4* transform,
                                                SkRegion::Op op) {
     SkPath transformedRect = pathFromTransformedRectangle(r, *transform);
     SkRegion transformedRectRegion;
     regionFromPath(transformedRect, transformedRectRegion);
     mClipRegion.op(transformedRectRegion, op);
     onClipRegionUpdated();
 }

 void ClipArea::onClipRegionUpdated() {
     if (!mClipRegion.isEmpty()) {
         mClipRect.set(mClipRegion.getBounds());

         if (mClipRegion.isRect()) {
             mClipRegion.setEmpty();
             enterRectangleMode();
         }
     } else {
         mClipRect.setEmpty();
     }
 }

 /**
  * Clip serialization
  */

 const ClipBase* ClipArea::serializeClip(LinearAllocator& allocator) {
     if (!mPostViewportClipObserved) {
         // Only initial clip-to-viewport observed, so no serialization of clip necessary
         return nullptr;
     }

     static_assert(std::is_trivially_destructible<Rect>::value,
                   "expect Rect to be trivially destructible");
     static_assert(std::is_trivially_destructible<RectangleList>::value,
                   "expect RectangleList to be trivially destructible");

     if (mLastSerialization == nullptr) {
         ClipBase* serialization = nullptr;
         switch (mMode) {
             case ClipMode::Rectangle:
                 serialization = allocator.create<ClipRect>(mClipRect);
                 break;
             case ClipMode::RectangleList:
                 serialization = allocator.create<ClipRectList>(mRectangleList);
                 serialization->rect = mRectangleList.calculateBounds();
                 break;
             case ClipMode::Region:
                 serialization = allocator.create<ClipRegion>(mClipRegion);
                 serialization->rect.set(mClipRegion.getBounds());
                 break;
         }
         serialization->intersectWithRoot = mReplaceOpObserved;
         // TODO: this is only done for draw time, should eventually avoid for record time
         serialization->rect.snapToPixelBoundaries();
         mLastSerialization = serialization;
     }
     return mLastSerialization;
 }

 inline static const RectangleList& getRectList(const ClipBase* scb) {
     return reinterpret_cast<const ClipRectList*>(scb)->rectList;
 }

 inline static const SkRegion& getRegion(const ClipBase* scb) {
     return reinterpret_cast<const ClipRegion*>(scb)->region;
 }

 // Conservative check for too many rectangles to fit in rectangle list.
 // For simplicity, doesn't account for rect merging
 static bool cannotFitInRectangleList(const ClipArea& clipArea, const ClipBase* scb) {
     int currentRectCount = clipArea.isRectangleList()
                                    ? clipArea.getRectangleList().getTransformedRectanglesCount()
                                    : 1;
     int recordedRectCount = (scb->mode == ClipMode::RectangleList)
                                     ? getRectList(scb).getTransformedRectanglesCount()
                                     : 1;
     return currentRectCount + recordedRectCount > RectangleList::kMaxTransformedRectangles;
 }

 static const ClipRect sEmptyClipRect(Rect(0, 0));

 const ClipBase* ClipArea::serializeIntersectedClip(LinearAllocator& allocator,
                                                    const ClipBase* recordedClip,
                                                    const Matrix4& recordedClipTransform) {
     // if no recordedClip passed, just serialize current state
     if (!recordedClip) return serializeClip(allocator);

     // if either is empty, clip is empty
     if (CC_UNLIKELY(recordedClip->rect.isEmpty()) || mClipRect.isEmpty()) return &sEmptyClipRect;

     if (!mLastResolutionResult || recordedClip != mLastResolutionClip ||
         recordedClipTransform != mLastResolutionTransform) {
         mLastResolutionClip = recordedClip;
         mLastResolutionTransform = recordedClipTransform;

         if (CC_LIKELY(mMode == ClipMode::Rectangle && recordedClip->mode == ClipMode::Rectangle &&
                       recordedClipTransform.rectToRect())) {
             // common case - result is a single rectangle
             auto rectClip = allocator.create<ClipRect>(recordedClip->rect);
             recordedClipTransform.mapRect(rectClip->rect);
             rectClip->rect.doIntersect(mClipRect);
             rectClip->rect.snapToPixelBoundaries();
             mLastResolutionResult = rectClip;
         } else if (CC_UNLIKELY(mMode == ClipMode::Region ||
                                recordedClip->mode == ClipMode::Region ||
                                cannotFitInRectangleList(*this, recordedClip))) {
             // region case
             SkRegion other;
             switch (recordedClip->mode) {
                 case ClipMode::Rectangle:
                     if (CC_LIKELY(recordedClipTransform.rectToRect())) {
                         // simple transform, skip creating SkPath
                         Rect resultClip(recordedClip->rect);
                         recordedClipTransform.mapRect(resultClip);
                         other.setRect(resultClip.toSkIRect());
                     } else {
                         SkPath transformedRect = pathFromTransformedRectangle(
                                 recordedClip->rect, recordedClipTransform);
                         other.setPath(transformedRect, createViewportRegion());
                     }
                     break;
                 case ClipMode::RectangleList: {
                     RectangleList transformedList(getRectList(recordedClip));
                     transformedList.transform(recordedClipTransform);
                     other = transformedList.convertToRegion(createViewportRegion());
                     break;
                 }
                 case ClipMode::Region:
                     other = getRegion(recordedClip);
                     applyTransformToRegion(recordedClipTransform, &other);
             }

             ClipRegion* regionClip = allocator.create<ClipRegion>();
             switch (mMode) {
                 case ClipMode::Rectangle:
                     regionClip->region.op(mClipRect.toSkIRect(), other, SkRegion::kIntersect_Op);
                     break;
                 case ClipMode::RectangleList:
                     regionClip->region.op(mRectangleList.convertToRegion(createViewportRegion()),
                                           other, SkRegion::kIntersect_Op);
                     break;
                 case ClipMode::Region:
                     regionClip->region.op(mClipRegion, other, SkRegion::kIntersect_Op);
                     break;
             }
             // Don't need to snap, since region's in int bounds
             regionClip->rect.set(regionClip->region.getBounds());
             mLastResolutionResult = regionClip;
         } else {
             auto rectListClip = allocator.create<ClipRectList>(mRectangleList);
             auto&& rectList = rectListClip->rectList;
             if (mMode == ClipMode::Rectangle) {
                 rectList.set(mClipRect, Matrix4::identity());
             }

             if (recordedClip->mode == ClipMode::Rectangle) {
                 rectList.intersectWith(recordedClip->rect, recordedClipTransform);
             } else {
                 const RectangleList& other = getRectList(recordedClip);
                 for (int i = 0; i < other.getTransformedRectanglesCount(); i++) {
                     auto&& tr = other.getTransformedRectangle(i);
                     Matrix4 totalTransform(recordedClipTransform);
                     totalTransform.multiply(tr.getTransform());
                     rectList.intersectWith(tr.getBounds(), totalTransform);
                 }
             }
             rectListClip->rect = rectList.calculateBounds();
             rectListClip->rect.snapToPixelBoundaries();
             mLastResolutionResult = rectListClip;
         }
     }
     return mLastResolutionResult;
 }

 void ClipArea::applyClip(const ClipBase* clip, const Matrix4& transform) {
     if (!clip) return;  // nothing to do

     if (CC_LIKELY(clip->mode == ClipMode::Rectangle)) {
         clipRectWithTransform(clip->rect, &transform, SkRegion::kIntersect_Op);
     } else if (CC_LIKELY(clip->mode == ClipMode::RectangleList)) {
         auto&& rectList = getRectList(clip);
         for (int i = 0; i < rectList.getTransformedRectanglesCount(); i++) {
             auto&& tr = rectList.getTransformedRectangle(i);
             Matrix4 totalTransform(transform);
             totalTransform.multiply(tr.getTransform());
             clipRectWithTransform(tr.getBounds(), &totalTransform, SkRegion::kIntersect_Op);
         }
     } else {
         SkRegion region(getRegion(clip));
         applyTransformToRegion(transform, &region);
         clipRegion(region, SkRegion::kIntersect_Op);
     }
 }

 void ClipArea::applyTransformToRegion(const Matrix4& transform, SkRegion* region) {
     if (transform.rectToRect() && !transform.isPureTranslate()) {
         // handle matrices with scale manually by mapping each rect
         SkRegion other;
         SkRegion::Iterator it(*region);
         while (!it.done()) {
             Rect rect(it.rect());
             transform.mapRect(rect);
             rect.snapGeometryToPixelBoundaries(true);
             other.op(rect.left, rect.top, rect.right, rect.bottom, SkRegion::kUnion_Op);
             it.next();
         }
         region->swap(other);
     } else {
         // TODO: handle non-translate transforms properly!
         region->translate(transform.getTranslateX(), transform.getTranslateY());
     }
 }

 } /* namespace uirenderer */
 } /* namespace android */
	/*
	* Copyright (C) 2015 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/
	#include "ClipArea.h"

	#include "utils/LinearAllocator.h"

	#include <SkPath.h>
	#include <limits>
	#include <type_traits>

	namespace android {
	namespace uirenderer {

	static void handlePoint(Rect& transformedBounds, const Matrix4& transform, float x, float y) {
	Vertex v = {x, y};
	transform.mapPoint(v.x, v.y);
	transformedBounds.expandToCover(v.x, v.y);
	}

	Rect transformAndCalculateBounds(const Rect& r, const Matrix4& transform) {
	const float kMinFloat = std::numeric_limits<float>::lowest();
	const float kMaxFloat = std::numeric_limits<float>::max();
	Rect transformedBounds = {kMaxFloat, kMaxFloat, kMinFloat, kMinFloat};
	handlePoint(transformedBounds, transform, r.left, r.top);
	handlePoint(transformedBounds, transform, r.right, r.top);
	handlePoint(transformedBounds, transform, r.left, r.bottom);
	handlePoint(transformedBounds, transform, r.right, r.bottom);
	return transformedBounds;
	}

	void ClipBase::dump() const {
	ALOGD("mode %d" RECT_STRING, mode, RECT_ARGS(rect));
	}

	/*
	* TransformedRectangle
	*/

	TransformedRectangle::TransformedRectangle() {}

	TransformedRectangle::TransformedRectangle(const Rect& bounds, const Matrix4& transform)
	: mBounds(bounds), mTransform(transform) {}

	bool TransformedRectangle::canSimplyIntersectWith(const TransformedRectangle& other) const {
	return mTransform == other.mTransform;
	}

	void TransformedRectangle::intersectWith(const TransformedRectangle& other) {
	mBounds.doIntersect(other.mBounds);
	}

	bool TransformedRectangle::isEmpty() const {
	return mBounds.isEmpty();
	}

	/*
	* RectangleList
	*/

	RectangleList::RectangleList() : mTransformedRectanglesCount(0) {}

	bool RectangleList::isEmpty() const {
	if (mTransformedRectanglesCount < 1) {
	return true;
	}

	for (int i = 0; i < mTransformedRectanglesCount; i++) {
	if (mTransformedRectangles[i].isEmpty()) {
	return true;
	}
	}
	return false;
	}

	int RectangleList::getTransformedRectanglesCount() const {
	return mTransformedRectanglesCount;
	}

	const TransformedRectangle& RectangleList::getTransformedRectangle(int i) const {
	return mTransformedRectangles[i];
	}

	void RectangleList::setEmpty() {
	mTransformedRectanglesCount = 0;
	}

	void RectangleList::set(const Rect& bounds, const Matrix4& transform) {
	mTransformedRectanglesCount = 1;
	mTransformedRectangles[0] = TransformedRectangle(bounds, transform);
	}

	bool RectangleList::intersectWith(const Rect& bounds, const Matrix4& transform) {
	TransformedRectangle newRectangle(bounds, transform);

	// Try to find a rectangle with a compatible transformation
	int index = 0;
	for (; index < mTransformedRectanglesCount; index++) {
	TransformedRectangle& tr(mTransformedRectangles[index]);
	if (tr.canSimplyIntersectWith(newRectangle)) {
	tr.intersectWith(newRectangle);
	return true;
	}
	}

	// Add it to the list if there is room
	if (index < kMaxTransformedRectangles) {
	mTransformedRectangles[index] = newRectangle;
	mTransformedRectanglesCount += 1;
	return true;
	}

	// This rectangle list is full
	return false;
	}

	Rect RectangleList::calculateBounds() const {
	Rect bounds;
	for (int index = 0; index < mTransformedRectanglesCount; index++) {
	const TransformedRectangle& tr(mTransformedRectangles[index]);
	if (index == 0) {
	bounds = tr.transformedBounds();
	} else {
	bounds.doIntersect(tr.transformedBounds());
	}
	}
	return bounds;
	}

	static SkPath pathFromTransformedRectangle(const Rect& bounds, const Matrix4& transform) {
	SkPath rectPath;
	SkPath rectPathTransformed;
	rectPath.addRect(bounds.left, bounds.top, bounds.right, bounds.bottom);
	SkMatrix skTransform;
	transform.copyTo(skTransform);
	rectPath.transform(skTransform, &rectPathTransformed);
	return rectPathTransformed;
	}

	SkRegion RectangleList::convertToRegion(const SkRegion& clip) const {
	SkRegion rectangleListAsRegion;
	for (int index = 0; index < mTransformedRectanglesCount; index++) {
	const TransformedRectangle& tr(mTransformedRectangles[index]);
	SkPath rectPathTransformed =
	pathFromTransformedRectangle(tr.getBounds(), tr.getTransform());
	if (index == 0) {
	rectangleListAsRegion.setPath(rectPathTransformed, clip);
	} else {
	SkRegion rectRegion;
	rectRegion.setPath(rectPathTransformed, clip);
	rectangleListAsRegion.op(rectRegion, SkRegion::kIntersect_Op);
	}
	}
	return rectangleListAsRegion;
	}

	void RectangleList::transform(const Matrix4& transform) {
	for (int index = 0; index < mTransformedRectanglesCount; index++) {
	mTransformedRectangles[index].transform(transform);
	}
	}

	/*
	* ClipArea
	*/

	ClipArea::ClipArea() : mMode(ClipMode::Rectangle) {}

	/*
	* Interface
	*/

	void ClipArea::setViewportDimensions(int width, int height) {
	mPostViewportClipObserved = false;
	mViewportBounds.set(0, 0, width, height);
	mClipRect = mViewportBounds;
	}

	void ClipArea::setEmpty() {
	onClipUpdated();
	mMode = ClipMode::Rectangle;
	mClipRect.setEmpty();
	mClipRegion.setEmpty();
	mRectangleList.setEmpty();
	}

	void ClipArea::setClip(float left, float top, float right, float bottom) {
	onClipUpdated();
	mMode = ClipMode::Rectangle;
	mClipRect.set(left, top, right, bottom);
	mClipRegion.setEmpty();
	}

	void ClipArea::clipRectWithTransform(const Rect& r, const mat4* transform, SkRegion::Op op) {
	if (op == SkRegion::kReplace_Op) mReplaceOpObserved = true;
	if (!mPostViewportClipObserved && op == SkRegion::kIntersect_Op) op = SkRegion::kReplace_Op;
	onClipUpdated();
	switch (mMode) {
	case ClipMode::Rectangle:
	rectangleModeClipRectWithTransform(r, transform, op);
	break;
	case ClipMode::RectangleList:
	rectangleListModeClipRectWithTransform(r, transform, op);
	break;
	case ClipMode::Region:
	regionModeClipRectWithTransform(r, transform, op);
	break;
	}
	}

	void ClipArea::clipRegion(const SkRegion& region, SkRegion::Op op) {
	if (op == SkRegion::kReplace_Op) mReplaceOpObserved = true;
	if (!mPostViewportClipObserved && op == SkRegion::kIntersect_Op) op = SkRegion::kReplace_Op;
	onClipUpdated();
	enterRegionMode();
	mClipRegion.op(region, op);
	onClipRegionUpdated();
	}

	void ClipArea::clipPathWithTransform(const SkPath& path, const mat4* transform, SkRegion::Op op) {
	if (op == SkRegion::kReplace_Op) mReplaceOpObserved = true;
	if (!mPostViewportClipObserved && op == SkRegion::kIntersect_Op) op = SkRegion::kReplace_Op;
	onClipUpdated();
	SkMatrix skTransform;
	transform->copyTo(skTransform);
	SkPath transformed;
	path.transform(skTransform, &transformed);
	SkRegion region;
	regionFromPath(transformed, region);
	enterRegionMode();
	mClipRegion.op(region, op);
	onClipRegionUpdated();
	}

	/*
	* Rectangle mode
	*/

	void ClipArea::enterRectangleMode() {
	// Entering rectangle mode discards any
	// existing clipping information from the other modes.
	// The only way this occurs is by a clip setting operation.
	mMode = ClipMode::Rectangle;
	}

	void ClipArea::rectangleModeClipRectWithTransform(const Rect& r, const mat4* transform,
	SkRegion::Op op) {
	if (op == SkRegion::kReplace_Op && transform->rectToRect()) {
	mClipRect = r;
	transform->mapRect(mClipRect);
	return;
	} else if (op != SkRegion::kIntersect_Op) {
	enterRegionMode();
	regionModeClipRectWithTransform(r, transform, op);
	return;
	}

	if (transform->rectToRect()) {
	Rect transformed(r);
	transform->mapRect(transformed);
	mClipRect.doIntersect(transformed);
	return;
	}

	enterRectangleListMode();
	rectangleListModeClipRectWithTransform(r, transform, op);
	}

	/*
	* RectangleList mode implementation
	*/

	void ClipArea::enterRectangleListMode() {
	// Is is only legal to enter rectangle list mode from
	// rectangle mode, since rectangle list mode cannot represent
	// all clip areas that can be represented by a region.
	ALOG_ASSERT(mMode == ClipMode::Rectangle);
	mMode = ClipMode::RectangleList;
	mRectangleList.set(mClipRect, Matrix4::identity());
	}

	void ClipArea::rectangleListModeClipRectWithTransform(const Rect& r, const mat4* transform,
	SkRegion::Op op) {
	if (op != SkRegion::kIntersect_Op \|\| !mRectangleList.intersectWith(r, *transform)) {
	enterRegionMode();
	regionModeClipRectWithTransform(r, transform, op);
	}
	}

	/*
	* Region mode implementation
	*/

	void ClipArea::enterRegionMode() {
	ClipMode oldMode = mMode;
	mMode = ClipMode::Region;
	if (oldMode != ClipMode::Region) {
	if (oldMode == ClipMode::Rectangle) {
	mClipRegion.setRect(mClipRect.toSkIRect());
	} else {
	mClipRegion = mRectangleList.convertToRegion(createViewportRegion());
	onClipRegionUpdated();
	}
	}
	}

	void ClipArea::regionModeClipRectWithTransform(const Rect& r, const mat4* transform,
	SkRegion::Op op) {
	SkPath transformedRect = pathFromTransformedRectangle(r, *transform);
	SkRegion transformedRectRegion;
	regionFromPath(transformedRect, transformedRectRegion);
	mClipRegion.op(transformedRectRegion, op);
	onClipRegionUpdated();
	}

	void ClipArea::onClipRegionUpdated() {
	if (!mClipRegion.isEmpty()) {
	mClipRect.set(mClipRegion.getBounds());

	if (mClipRegion.isRect()) {
	mClipRegion.setEmpty();
	enterRectangleMode();
	}
	} else {
	mClipRect.setEmpty();
	}
	}

	/**
	* Clip serialization
	*/

	const ClipBase* ClipArea::serializeClip(LinearAllocator& allocator) {
	if (!mPostViewportClipObserved) {
	// Only initial clip-to-viewport observed, so no serialization of clip necessary
	return nullptr;
	}

	static_assert(std::is_trivially_destructible<Rect>::value,
	"expect Rect to be trivially destructible");
	static_assert(std::is_trivially_destructible<RectangleList>::value,
	"expect RectangleList to be trivially destructible");

	if (mLastSerialization == nullptr) {
	ClipBase* serialization = nullptr;
	switch (mMode) {
	case ClipMode::Rectangle:
	serialization = allocator.create<ClipRect>(mClipRect);
	break;
	case ClipMode::RectangleList:
	serialization = allocator.create<ClipRectList>(mRectangleList);
	serialization->rect = mRectangleList.calculateBounds();
	break;
	case ClipMode::Region:
	serialization = allocator.create<ClipRegion>(mClipRegion);
	serialization->rect.set(mClipRegion.getBounds());
	break;
	}
	serialization->intersectWithRoot = mReplaceOpObserved;
	// TODO: this is only done for draw time, should eventually avoid for record time
	serialization->rect.snapToPixelBoundaries();
	mLastSerialization = serialization;
	}
	return mLastSerialization;
	}

	inline static const RectangleList& getRectList(const ClipBase* scb) {
	return reinterpret_cast<const ClipRectList*>(scb)->rectList;
	}

	inline static const SkRegion& getRegion(const ClipBase* scb) {
	return reinterpret_cast<const ClipRegion*>(scb)->region;
	}

	// Conservative check for too many rectangles to fit in rectangle list.
	// For simplicity, doesn't account for rect merging
	static bool cannotFitInRectangleList(const ClipArea& clipArea, const ClipBase* scb) {
	int currentRectCount = clipArea.isRectangleList()
	? clipArea.getRectangleList().getTransformedRectanglesCount()
	: 1;
	int recordedRectCount = (scb->mode == ClipMode::RectangleList)
	? getRectList(scb).getTransformedRectanglesCount()
	: 1;
	return currentRectCount + recordedRectCount > RectangleList::kMaxTransformedRectangles;
	}

	static const ClipRect sEmptyClipRect(Rect(0, 0));

	const ClipBase* ClipArea::serializeIntersectedClip(LinearAllocator& allocator,
	const ClipBase* recordedClip,
	const Matrix4& recordedClipTransform) {
	// if no recordedClip passed, just serialize current state
	if (!recordedClip) return serializeClip(allocator);

	// if either is empty, clip is empty
	if (CC_UNLIKELY(recordedClip->rect.isEmpty()) \|\| mClipRect.isEmpty()) return &sEmptyClipRect;

	if (!mLastResolutionResult \|\| recordedClip != mLastResolutionClip \|\|
	recordedClipTransform != mLastResolutionTransform) {
	mLastResolutionClip = recordedClip;
	mLastResolutionTransform = recordedClipTransform;

	if (CC_LIKELY(mMode == ClipMode::Rectangle && recordedClip->mode == ClipMode::Rectangle &&
	recordedClipTransform.rectToRect())) {
	// common case - result is a single rectangle
	auto rectClip = allocator.create<ClipRect>(recordedClip->rect);
	recordedClipTransform.mapRect(rectClip->rect);
	rectClip->rect.doIntersect(mClipRect);
	rectClip->rect.snapToPixelBoundaries();
	mLastResolutionResult = rectClip;
	} else if (CC_UNLIKELY(mMode == ClipMode::Region \|\|
	recordedClip->mode == ClipMode::Region \|\|
	cannotFitInRectangleList(*this, recordedClip))) {
	// region case
	SkRegion other;
	switch (recordedClip->mode) {
	case ClipMode::Rectangle:
	if (CC_LIKELY(recordedClipTransform.rectToRect())) {
	// simple transform, skip creating SkPath
	Rect resultClip(recordedClip->rect);
	recordedClipTransform.mapRect(resultClip);
	other.setRect(resultClip.toSkIRect());
	} else {
	SkPath transformedRect = pathFromTransformedRectangle(
	recordedClip->rect, recordedClipTransform);
	other.setPath(transformedRect, createViewportRegion());
	}
	break;
	case ClipMode::RectangleList: {
	RectangleList transformedList(getRectList(recordedClip));
	transformedList.transform(recordedClipTransform);
	other = transformedList.convertToRegion(createViewportRegion());
	break;
	}
	case ClipMode::Region:
	other = getRegion(recordedClip);
	applyTransformToRegion(recordedClipTransform, &other);
	}

	ClipRegion* regionClip = allocator.create<ClipRegion>();
	switch (mMode) {
	case ClipMode::Rectangle:
	regionClip->region.op(mClipRect.toSkIRect(), other, SkRegion::kIntersect_Op);
	break;
	case ClipMode::RectangleList:
	regionClip->region.op(mRectangleList.convertToRegion(createViewportRegion()),
	other, SkRegion::kIntersect_Op);
	break;
	case ClipMode::Region:
	regionClip->region.op(mClipRegion, other, SkRegion::kIntersect_Op);
	break;
	}
	// Don't need to snap, since region's in int bounds
	regionClip->rect.set(regionClip->region.getBounds());
	mLastResolutionResult = regionClip;
	} else {
	auto rectListClip = allocator.create<ClipRectList>(mRectangleList);
	auto&& rectList = rectListClip->rectList;
	if (mMode == ClipMode::Rectangle) {
	rectList.set(mClipRect, Matrix4::identity());
	}

	if (recordedClip->mode == ClipMode::Rectangle) {
	rectList.intersectWith(recordedClip->rect, recordedClipTransform);
	} else {
	const RectangleList& other = getRectList(recordedClip);
	for (int i = 0; i < other.getTransformedRectanglesCount(); i++) {
	auto&& tr = other.getTransformedRectangle(i);
	Matrix4 totalTransform(recordedClipTransform);
	totalTransform.multiply(tr.getTransform());
	rectList.intersectWith(tr.getBounds(), totalTransform);
	}
	}
	rectListClip->rect = rectList.calculateBounds();
	rectListClip->rect.snapToPixelBoundaries();
	mLastResolutionResult = rectListClip;
	}
	}
	return mLastResolutionResult;
	}

	void ClipArea::applyClip(const ClipBase* clip, const Matrix4& transform) {
	if (!clip) return; // nothing to do

	if (CC_LIKELY(clip->mode == ClipMode::Rectangle)) {
	clipRectWithTransform(clip->rect, &transform, SkRegion::kIntersect_Op);
	} else if (CC_LIKELY(clip->mode == ClipMode::RectangleList)) {
	auto&& rectList = getRectList(clip);
	for (int i = 0; i < rectList.getTransformedRectanglesCount(); i++) {
	auto&& tr = rectList.getTransformedRectangle(i);
	Matrix4 totalTransform(transform);
	totalTransform.multiply(tr.getTransform());
	clipRectWithTransform(tr.getBounds(), &totalTransform, SkRegion::kIntersect_Op);
	}
	} else {
	SkRegion region(getRegion(clip));
	applyTransformToRegion(transform, &region);
	clipRegion(region, SkRegion::kIntersect_Op);
	}
	}

	void ClipArea::applyTransformToRegion(const Matrix4& transform, SkRegion* region) {
	if (transform.rectToRect() && !transform.isPureTranslate()) {
	// handle matrices with scale manually by mapping each rect
	SkRegion other;
	SkRegion::Iterator it(*region);
	while (!it.done()) {
	Rect rect(it.rect());
	transform.mapRect(rect);
	rect.snapGeometryToPixelBoundaries(true);
	other.op(rect.left, rect.top, rect.right, rect.bottom, SkRegion::kUnion_Op);
	it.next();
	}
	region->swap(other);
	} else {
	// TODO: handle non-translate transforms properly!
	region->translate(transform.getTranslateX(), transform.getTranslateY());
	}
	}

	} /* namespace uirenderer */
	} /* namespace android */