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1 /*
2  * Copyright (C) 2014 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *      http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 #include "RenderNode.h"
18 
19 #include "BakedOpRenderer.h"
20 #include "DamageAccumulator.h"
21 #include "Debug.h"
22 #include "RecordedOp.h"
23 #include "TreeInfo.h"
24 #include "utils/FatVector.h"
25 #include "utils/MathUtils.h"
26 #include "utils/StringUtils.h"
27 #include "utils/TraceUtils.h"
28 #include "VectorDrawable.h"
29 #include "renderstate/RenderState.h"
30 #include "renderthread/CanvasContext.h"
31 
32 #include "protos/hwui.pb.h"
33 #include "protos/ProtoHelpers.h"
34 
35 #include <algorithm>
36 #include <sstream>
37 #include <string>
38 
39 namespace android {
40 namespace uirenderer {
41 
42 // Used for tree mutations that are purely destructive.
43 // Generic tree mutations should use MarkAndSweepObserver instead
44 class ImmediateRemoved : public TreeObserver {
45 public:
ImmediateRemoved(TreeInfo * info)46     explicit ImmediateRemoved(TreeInfo* info) : mTreeInfo(info) {}
47 
onMaybeRemovedFromTree(RenderNode * node)48     void onMaybeRemovedFromTree(RenderNode* node) override {
49         node->onRemovedFromTree(mTreeInfo);
50     }
51 
52 private:
53     TreeInfo* mTreeInfo;
54 };
55 
RenderNode()56 RenderNode::RenderNode()
57         : mDirtyPropertyFields(0)
58         , mNeedsDisplayListSync(false)
59         , mDisplayList(nullptr)
60         , mStagingDisplayList(nullptr)
61         , mAnimatorManager(*this)
62         , mParentCount(0) {
63 }
64 
~RenderNode()65 RenderNode::~RenderNode() {
66     ImmediateRemoved observer(nullptr);
67     deleteDisplayList(observer);
68     delete mStagingDisplayList;
69     LOG_ALWAYS_FATAL_IF(hasLayer(), "layer missed detachment!");
70 }
71 
setStagingDisplayList(DisplayList * displayList)72 void RenderNode::setStagingDisplayList(DisplayList* displayList) {
73     mValid = (displayList != nullptr);
74     mNeedsDisplayListSync = true;
75     delete mStagingDisplayList;
76     mStagingDisplayList = displayList;
77 }
78 
79 /**
80  * This function is a simplified version of replay(), where we simply retrieve and log the
81  * display list. This function should remain in sync with the replay() function.
82  */
output()83 void RenderNode::output() {
84     LogcatStream strout;
85     strout << "Root";
86     output(strout, 0);
87 }
88 
output(std::ostream & output,uint32_t level)89 void RenderNode::output(std::ostream& output, uint32_t level) {
90     output << "  (" << getName() << " " << this
91             << (MathUtils::isZero(properties().getAlpha()) ? ", zero alpha" : "")
92             << (properties().hasShadow() ? ", casting shadow" : "")
93             << (isRenderable() ? "" : ", empty")
94             << (properties().getProjectBackwards() ? ", projected" : "")
95             << (hasLayer() ? ", on HW Layer" : "")
96             << ")" << std::endl;
97 
98     properties().debugOutputProperties(output, level + 1);
99 
100     if (mDisplayList) {
101         mDisplayList->output(output, level);
102     }
103     output << std::string(level * 2, ' ') << "/RenderNode(" << getName() << " " << this << ")";
104     output << std::endl;
105 }
106 
copyTo(proto::RenderNode * pnode)107 void RenderNode::copyTo(proto::RenderNode *pnode) {
108     pnode->set_id(static_cast<uint64_t>(
109             reinterpret_cast<uintptr_t>(this)));
110     pnode->set_name(mName.string(), mName.length());
111 
112     proto::RenderProperties* pprops = pnode->mutable_properties();
113     pprops->set_left(properties().getLeft());
114     pprops->set_top(properties().getTop());
115     pprops->set_right(properties().getRight());
116     pprops->set_bottom(properties().getBottom());
117     pprops->set_clip_flags(properties().getClippingFlags());
118     pprops->set_alpha(properties().getAlpha());
119     pprops->set_translation_x(properties().getTranslationX());
120     pprops->set_translation_y(properties().getTranslationY());
121     pprops->set_translation_z(properties().getTranslationZ());
122     pprops->set_elevation(properties().getElevation());
123     pprops->set_rotation(properties().getRotation());
124     pprops->set_rotation_x(properties().getRotationX());
125     pprops->set_rotation_y(properties().getRotationY());
126     pprops->set_scale_x(properties().getScaleX());
127     pprops->set_scale_y(properties().getScaleY());
128     pprops->set_pivot_x(properties().getPivotX());
129     pprops->set_pivot_y(properties().getPivotY());
130     pprops->set_has_overlapping_rendering(properties().getHasOverlappingRendering());
131     pprops->set_pivot_explicitly_set(properties().isPivotExplicitlySet());
132     pprops->set_project_backwards(properties().getProjectBackwards());
133     pprops->set_projection_receiver(properties().isProjectionReceiver());
134     set(pprops->mutable_clip_bounds(), properties().getClipBounds());
135 
136     const Outline& outline = properties().getOutline();
137     if (outline.getType() != Outline::Type::None) {
138         proto::Outline* poutline = pprops->mutable_outline();
139         poutline->clear_path();
140         if (outline.getType() == Outline::Type::Empty) {
141             poutline->set_type(proto::Outline_Type_Empty);
142         } else if (outline.getType() == Outline::Type::ConvexPath) {
143             poutline->set_type(proto::Outline_Type_ConvexPath);
144             if (const SkPath* path = outline.getPath()) {
145                 set(poutline->mutable_path(), *path);
146             }
147         } else if (outline.getType() == Outline::Type::RoundRect) {
148             poutline->set_type(proto::Outline_Type_RoundRect);
149         } else {
150             ALOGW("Uknown outline type! %d", static_cast<int>(outline.getType()));
151             poutline->set_type(proto::Outline_Type_None);
152         }
153         poutline->set_should_clip(outline.getShouldClip());
154         poutline->set_alpha(outline.getAlpha());
155         poutline->set_radius(outline.getRadius());
156         set(poutline->mutable_bounds(), outline.getBounds());
157     } else {
158         pprops->clear_outline();
159     }
160 
161     const RevealClip& revealClip = properties().getRevealClip();
162     if (revealClip.willClip()) {
163         proto::RevealClip* prevealClip = pprops->mutable_reveal_clip();
164         prevealClip->set_x(revealClip.getX());
165         prevealClip->set_y(revealClip.getY());
166         prevealClip->set_radius(revealClip.getRadius());
167     } else {
168         pprops->clear_reveal_clip();
169     }
170 
171     pnode->clear_children();
172     if (mDisplayList) {
173         for (auto&& child : mDisplayList->getChildren()) {
174             child->renderNode->copyTo(pnode->add_children());
175         }
176     }
177 }
178 
getDebugSize()179 int RenderNode::getDebugSize() {
180     int size = sizeof(RenderNode);
181     if (mStagingDisplayList) {
182         size += mStagingDisplayList->getUsedSize();
183     }
184     if (mDisplayList && mDisplayList != mStagingDisplayList) {
185         size += mDisplayList->getUsedSize();
186     }
187     return size;
188 }
189 
prepareTree(TreeInfo & info)190 void RenderNode::prepareTree(TreeInfo& info) {
191     ATRACE_CALL();
192     LOG_ALWAYS_FATAL_IF(!info.damageAccumulator, "DamageAccumulator missing");
193     MarkAndSweepRemoved observer(&info);
194 
195     // The OpenGL renderer reserves the stencil buffer for overdraw debugging.  Functors
196     // will need to be drawn in a layer.
197     bool functorsNeedLayer = Properties::debugOverdraw && !Properties::isSkiaEnabled();
198 
199     prepareTreeImpl(observer, info, functorsNeedLayer);
200 }
201 
addAnimator(const sp<BaseRenderNodeAnimator> & animator)202 void RenderNode::addAnimator(const sp<BaseRenderNodeAnimator>& animator) {
203     mAnimatorManager.addAnimator(animator);
204 }
205 
removeAnimator(const sp<BaseRenderNodeAnimator> & animator)206 void RenderNode::removeAnimator(const sp<BaseRenderNodeAnimator>& animator) {
207     mAnimatorManager.removeAnimator(animator);
208 }
209 
damageSelf(TreeInfo & info)210 void RenderNode::damageSelf(TreeInfo& info) {
211     if (isRenderable()) {
212         if (properties().getClipDamageToBounds()) {
213             info.damageAccumulator->dirty(0, 0, properties().getWidth(), properties().getHeight());
214         } else {
215             // Hope this is big enough?
216             // TODO: Get this from the display list ops or something
217             info.damageAccumulator->dirty(DIRTY_MIN, DIRTY_MIN, DIRTY_MAX, DIRTY_MAX);
218         }
219     }
220 }
221 
prepareLayer(TreeInfo & info,uint32_t dirtyMask)222 void RenderNode::prepareLayer(TreeInfo& info, uint32_t dirtyMask) {
223     LayerType layerType = properties().effectiveLayerType();
224     if (CC_UNLIKELY(layerType == LayerType::RenderLayer)) {
225         // Damage applied so far needs to affect our parent, but does not require
226         // the layer to be updated. So we pop/push here to clear out the current
227         // damage and get a clean state for display list or children updates to
228         // affect, which will require the layer to be updated
229         info.damageAccumulator->popTransform();
230         info.damageAccumulator->pushTransform(this);
231         if (dirtyMask & DISPLAY_LIST) {
232             damageSelf(info);
233         }
234     }
235 }
236 
pushLayerUpdate(TreeInfo & info)237 void RenderNode::pushLayerUpdate(TreeInfo& info) {
238     LayerType layerType = properties().effectiveLayerType();
239     // If we are not a layer OR we cannot be rendered (eg, view was detached)
240     // we need to destroy any Layers we may have had previously
241     if (CC_LIKELY(layerType != LayerType::RenderLayer)
242             || CC_UNLIKELY(!isRenderable())
243             || CC_UNLIKELY(properties().getWidth() == 0)
244             || CC_UNLIKELY(properties().getHeight() == 0)
245             || CC_UNLIKELY(!properties().fitsOnLayer())) {
246         if (CC_UNLIKELY(hasLayer())) {
247             renderthread::CanvasContext::destroyLayer(this);
248         }
249         return;
250     }
251 
252     if(info.canvasContext.createOrUpdateLayer(this, *info.damageAccumulator)) {
253         damageSelf(info);
254     }
255 
256     if (!hasLayer()) {
257         Caches::getInstance().dumpMemoryUsage();
258         if (info.errorHandler) {
259             std::ostringstream err;
260             err << "Unable to create layer for " << getName();
261             const int maxTextureSize = Caches::getInstance().maxTextureSize;
262             if (getWidth() > maxTextureSize || getHeight() > maxTextureSize) {
263                 err << ", size " << getWidth() << "x" << getHeight()
264                         << " exceeds max size " << maxTextureSize;
265             } else {
266                 err << ", see logcat for more info";
267             }
268             info.errorHandler->onError(err.str());
269         }
270         return;
271     }
272 
273     SkRect dirty;
274     info.damageAccumulator->peekAtDirty(&dirty);
275     info.layerUpdateQueue->enqueueLayerWithDamage(this, dirty);
276 
277     // There might be prefetched layers that need to be accounted for.
278     // That might be us, so tell CanvasContext that this layer is in the
279     // tree and should not be destroyed.
280     info.canvasContext.markLayerInUse(this);
281 }
282 
283 /**
284  * Traverse down the the draw tree to prepare for a frame.
285  *
286  * MODE_FULL = UI Thread-driven (thus properties must be synced), otherwise RT driven
287  *
288  * While traversing down the tree, functorsNeedLayer flag is set to true if anything that uses the
289  * stencil buffer may be needed. Views that use a functor to draw will be forced onto a layer.
290  */
prepareTreeImpl(TreeObserver & observer,TreeInfo & info,bool functorsNeedLayer)291 void RenderNode::prepareTreeImpl(TreeObserver& observer, TreeInfo& info, bool functorsNeedLayer) {
292     info.damageAccumulator->pushTransform(this);
293 
294     if (info.mode == TreeInfo::MODE_FULL) {
295         pushStagingPropertiesChanges(info);
296     }
297     uint32_t animatorDirtyMask = 0;
298     if (CC_LIKELY(info.runAnimations)) {
299         animatorDirtyMask = mAnimatorManager.animate(info);
300     }
301 
302     bool willHaveFunctor = false;
303     if (info.mode == TreeInfo::MODE_FULL && mStagingDisplayList) {
304         willHaveFunctor = mStagingDisplayList->hasFunctor();
305     } else if (mDisplayList) {
306         willHaveFunctor = mDisplayList->hasFunctor();
307     }
308     bool childFunctorsNeedLayer = mProperties.prepareForFunctorPresence(
309             willHaveFunctor, functorsNeedLayer);
310 
311     if (CC_UNLIKELY(mPositionListener.get())) {
312         mPositionListener->onPositionUpdated(*this, info);
313     }
314 
315     prepareLayer(info, animatorDirtyMask);
316     if (info.mode == TreeInfo::MODE_FULL) {
317         pushStagingDisplayListChanges(observer, info);
318     }
319 
320     if (mDisplayList) {
321         info.out.hasFunctors |= mDisplayList->hasFunctor();
322         bool isDirty = mDisplayList->prepareListAndChildren(observer, info, childFunctorsNeedLayer,
323                 [](RenderNode* child, TreeObserver& observer, TreeInfo& info, bool functorsNeedLayer) {
324             child->prepareTreeImpl(observer, info, functorsNeedLayer);
325         });
326         if (isDirty) {
327             damageSelf(info);
328         }
329     }
330     pushLayerUpdate(info);
331 
332     info.damageAccumulator->popTransform();
333 }
334 
syncProperties()335 void RenderNode::syncProperties() {
336     mProperties = mStagingProperties;
337 }
338 
pushStagingPropertiesChanges(TreeInfo & info)339 void RenderNode::pushStagingPropertiesChanges(TreeInfo& info) {
340     // Push the animators first so that setupStartValueIfNecessary() is called
341     // before properties() is trampled by stagingProperties(), as they are
342     // required by some animators.
343     if (CC_LIKELY(info.runAnimations)) {
344         mAnimatorManager.pushStaging();
345     }
346     if (mDirtyPropertyFields) {
347         mDirtyPropertyFields = 0;
348         damageSelf(info);
349         info.damageAccumulator->popTransform();
350         syncProperties();
351         // We could try to be clever and only re-damage if the matrix changed.
352         // However, we don't need to worry about that. The cost of over-damaging
353         // here is only going to be a single additional map rect of this node
354         // plus a rect join(). The parent's transform (and up) will only be
355         // performed once.
356         info.damageAccumulator->pushTransform(this);
357         damageSelf(info);
358     }
359 }
360 
syncDisplayList(TreeObserver & observer,TreeInfo * info)361 void RenderNode::syncDisplayList(TreeObserver& observer, TreeInfo* info) {
362     // Make sure we inc first so that we don't fluctuate between 0 and 1,
363     // which would thrash the layer cache
364     if (mStagingDisplayList) {
365         mStagingDisplayList->updateChildren([](RenderNode* child) {
366             child->incParentRefCount();
367         });
368     }
369     deleteDisplayList(observer, info);
370     mDisplayList = mStagingDisplayList;
371     mStagingDisplayList = nullptr;
372     if (mDisplayList) {
373         mDisplayList->syncContents();
374     }
375 }
376 
pushStagingDisplayListChanges(TreeObserver & observer,TreeInfo & info)377 void RenderNode::pushStagingDisplayListChanges(TreeObserver& observer, TreeInfo& info) {
378     if (mNeedsDisplayListSync) {
379         mNeedsDisplayListSync = false;
380         // Damage with the old display list first then the new one to catch any
381         // changes in isRenderable or, in the future, bounds
382         damageSelf(info);
383         syncDisplayList(observer, &info);
384         damageSelf(info);
385     }
386 }
387 
deleteDisplayList(TreeObserver & observer,TreeInfo * info)388 void RenderNode::deleteDisplayList(TreeObserver& observer, TreeInfo* info) {
389     if (mDisplayList) {
390         mDisplayList->updateChildren([&observer, info](RenderNode* child) {
391             child->decParentRefCount(observer, info);
392         });
393         if (!mDisplayList->reuseDisplayList(this, info ? &info->canvasContext : nullptr)) {
394             delete mDisplayList;
395         }
396     }
397     mDisplayList = nullptr;
398 }
399 
destroyHardwareResources(TreeInfo * info)400 void RenderNode::destroyHardwareResources(TreeInfo* info) {
401     if (hasLayer()) {
402         renderthread::CanvasContext::destroyLayer(this);
403     }
404     setStagingDisplayList(nullptr);
405 
406     ImmediateRemoved observer(info);
407     deleteDisplayList(observer, info);
408 }
409 
destroyLayers()410 void RenderNode::destroyLayers() {
411     if (hasLayer()) {
412         renderthread::CanvasContext::destroyLayer(this);
413     }
414     if (mDisplayList) {
415         mDisplayList->updateChildren([](RenderNode* child) {
416             child->destroyLayers();
417         });
418     }
419 }
420 
decParentRefCount(TreeObserver & observer,TreeInfo * info)421 void RenderNode::decParentRefCount(TreeObserver& observer, TreeInfo* info) {
422     LOG_ALWAYS_FATAL_IF(!mParentCount, "already 0!");
423     mParentCount--;
424     if (!mParentCount) {
425         observer.onMaybeRemovedFromTree(this);
426         if (CC_UNLIKELY(mPositionListener.get())) {
427             mPositionListener->onPositionLost(*this, info);
428         }
429     }
430 }
431 
onRemovedFromTree(TreeInfo * info)432 void RenderNode::onRemovedFromTree(TreeInfo* info) {
433     destroyHardwareResources(info);
434 }
435 
clearRoot()436 void RenderNode::clearRoot() {
437     ImmediateRemoved observer(nullptr);
438     decParentRefCount(observer);
439 }
440 
441 /**
442  * Apply property-based transformations to input matrix
443  *
444  * If true3dTransform is set to true, the transform applied to the input matrix will use true 4x4
445  * matrix computation instead of the Skia 3x3 matrix + camera hackery.
446  */
applyViewPropertyTransforms(mat4 & matrix,bool true3dTransform) const447 void RenderNode::applyViewPropertyTransforms(mat4& matrix, bool true3dTransform) const {
448     if (properties().getLeft() != 0 || properties().getTop() != 0) {
449         matrix.translate(properties().getLeft(), properties().getTop());
450     }
451     if (properties().getStaticMatrix()) {
452         mat4 stat(*properties().getStaticMatrix());
453         matrix.multiply(stat);
454     } else if (properties().getAnimationMatrix()) {
455         mat4 anim(*properties().getAnimationMatrix());
456         matrix.multiply(anim);
457     }
458 
459     bool applyTranslationZ = true3dTransform && !MathUtils::isZero(properties().getZ());
460     if (properties().hasTransformMatrix() || applyTranslationZ) {
461         if (properties().isTransformTranslateOnly()) {
462             matrix.translate(properties().getTranslationX(), properties().getTranslationY(),
463                     true3dTransform ? properties().getZ() : 0.0f);
464         } else {
465             if (!true3dTransform) {
466                 matrix.multiply(*properties().getTransformMatrix());
467             } else {
468                 mat4 true3dMat;
469                 true3dMat.loadTranslate(
470                         properties().getPivotX() + properties().getTranslationX(),
471                         properties().getPivotY() + properties().getTranslationY(),
472                         properties().getZ());
473                 true3dMat.rotate(properties().getRotationX(), 1, 0, 0);
474                 true3dMat.rotate(properties().getRotationY(), 0, 1, 0);
475                 true3dMat.rotate(properties().getRotation(), 0, 0, 1);
476                 true3dMat.scale(properties().getScaleX(), properties().getScaleY(), 1);
477                 true3dMat.translate(-properties().getPivotX(), -properties().getPivotY());
478 
479                 matrix.multiply(true3dMat);
480             }
481         }
482     }
483 }
484 
485 /**
486  * Organizes the DisplayList hierarchy to prepare for background projection reordering.
487  *
488  * This should be called before a call to defer() or drawDisplayList()
489  *
490  * Each DisplayList that serves as a 3d root builds its list of composited children,
491  * which are flagged to not draw in the standard draw loop.
492  */
computeOrdering()493 void RenderNode::computeOrdering() {
494     ATRACE_CALL();
495     mProjectedNodes.clear();
496 
497     // TODO: create temporary DDLOp and call computeOrderingImpl on top DisplayList so that
498     // transform properties are applied correctly to top level children
499     if (mDisplayList == nullptr) return;
500     for (unsigned int i = 0; i < mDisplayList->getChildren().size(); i++) {
501         RenderNodeOp* childOp = mDisplayList->getChildren()[i];
502         childOp->renderNode->computeOrderingImpl(childOp, &mProjectedNodes, &mat4::identity());
503     }
504 }
505 
computeOrderingImpl(RenderNodeOp * opState,std::vector<RenderNodeOp * > * compositedChildrenOfProjectionSurface,const mat4 * transformFromProjectionSurface)506 void RenderNode::computeOrderingImpl(
507         RenderNodeOp* opState,
508         std::vector<RenderNodeOp*>* compositedChildrenOfProjectionSurface,
509         const mat4* transformFromProjectionSurface) {
510     mProjectedNodes.clear();
511     if (mDisplayList == nullptr || mDisplayList->isEmpty()) return;
512 
513     // TODO: should avoid this calculation in most cases
514     // TODO: just calculate single matrix, down to all leaf composited elements
515     Matrix4 localTransformFromProjectionSurface(*transformFromProjectionSurface);
516     localTransformFromProjectionSurface.multiply(opState->localMatrix);
517 
518     if (properties().getProjectBackwards()) {
519         // composited projectee, flag for out of order draw, save matrix, and store in proj surface
520         opState->skipInOrderDraw = true;
521         opState->transformFromCompositingAncestor = localTransformFromProjectionSurface;
522         compositedChildrenOfProjectionSurface->push_back(opState);
523     } else {
524         // standard in order draw
525         opState->skipInOrderDraw = false;
526     }
527 
528     if (mDisplayList->getChildren().size() > 0) {
529         const bool isProjectionReceiver = mDisplayList->projectionReceiveIndex >= 0;
530         bool haveAppliedPropertiesToProjection = false;
531         for (unsigned int i = 0; i < mDisplayList->getChildren().size(); i++) {
532             RenderNodeOp* childOp = mDisplayList->getChildren()[i];
533             RenderNode* child = childOp->renderNode;
534 
535             std::vector<RenderNodeOp*>* projectionChildren = nullptr;
536             const mat4* projectionTransform = nullptr;
537             if (isProjectionReceiver && !child->properties().getProjectBackwards()) {
538                 // if receiving projections, collect projecting descendant
539 
540                 // Note that if a direct descendant is projecting backwards, we pass its
541                 // grandparent projection collection, since it shouldn't project onto its
542                 // parent, where it will already be drawing.
543                 projectionChildren = &mProjectedNodes;
544                 projectionTransform = &mat4::identity();
545             } else {
546                 if (!haveAppliedPropertiesToProjection) {
547                     applyViewPropertyTransforms(localTransformFromProjectionSurface);
548                     haveAppliedPropertiesToProjection = true;
549                 }
550                 projectionChildren = compositedChildrenOfProjectionSurface;
551                 projectionTransform = &localTransformFromProjectionSurface;
552             }
553             child->computeOrderingImpl(childOp, projectionChildren, projectionTransform);
554         }
555     }
556 }
557 
558 } /* namespace uirenderer */
559 } /* namespace android */
560