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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 "DamageAccumulator.h"
20 #include "Debug.h"
21 #include "TreeInfo.h"
22 #include "VectorDrawable.h"
23 #include "renderstate/RenderState.h"
24 #include "renderthread/CanvasContext.h"
25 #include "utils/FatVector.h"
26 #include "utils/MathUtils.h"
27 #include "utils/StringUtils.h"
28 #include "utils/TraceUtils.h"
29 
30 #include <SkPathOps.h>
31 #include <algorithm>
32 #include <atomic>
33 #include <sstream>
34 #include <string>
35 
36 namespace android {
37 namespace uirenderer {
38 
39 // Used for tree mutations that are purely destructive.
40 // Generic tree mutations should use MarkAndSweepObserver instead
41 class ImmediateRemoved : public TreeObserver {
42 public:
ImmediateRemoved(TreeInfo * info)43     explicit ImmediateRemoved(TreeInfo* info) : mTreeInfo(info) {}
44 
onMaybeRemovedFromTree(RenderNode * node)45     void onMaybeRemovedFromTree(RenderNode* node) override { node->onRemovedFromTree(mTreeInfo); }
46 
47 private:
48     TreeInfo* mTreeInfo;
49 };
50 
generateId()51 static int64_t generateId() {
52     static std::atomic<int64_t> sNextId{1};
53     return sNextId++;
54 }
55 
RenderNode()56 RenderNode::RenderNode()
57         : mUniqueId(generateId())
58         , mDirtyPropertyFields(0)
59         , mNeedsDisplayListSync(false)
60         , mDisplayList(nullptr)
61         , mStagingDisplayList(nullptr)
62         , mAnimatorManager(*this)
63         , mParentCount(0) {}
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" : "") << ")" << std::endl;
96 
97     properties().debugOutputProperties(output, level + 1);
98 
99     if (mDisplayList) {
100         mDisplayList->output(output, level);
101     }
102     output << std::string(level * 2, ' ') << "/RenderNode(" << getName() << " " << this << ")";
103     output << std::endl;
104 }
105 
getDebugSize()106 int RenderNode::getDebugSize() {
107     int size = sizeof(RenderNode);
108     if (mStagingDisplayList) {
109         size += mStagingDisplayList->getUsedSize();
110     }
111     if (mDisplayList && mDisplayList != mStagingDisplayList) {
112         size += mDisplayList->getUsedSize();
113     }
114     return size;
115 }
116 
prepareTree(TreeInfo & info)117 void RenderNode::prepareTree(TreeInfo& info) {
118     ATRACE_CALL();
119     LOG_ALWAYS_FATAL_IF(!info.damageAccumulator, "DamageAccumulator missing");
120     MarkAndSweepRemoved observer(&info);
121 
122     const int before = info.disableForceDark;
123     prepareTreeImpl(observer, info, false);
124     LOG_ALWAYS_FATAL_IF(before != info.disableForceDark, "Mis-matched force dark");
125 }
126 
addAnimator(const sp<BaseRenderNodeAnimator> & animator)127 void RenderNode::addAnimator(const sp<BaseRenderNodeAnimator>& animator) {
128     mAnimatorManager.addAnimator(animator);
129 }
130 
removeAnimator(const sp<BaseRenderNodeAnimator> & animator)131 void RenderNode::removeAnimator(const sp<BaseRenderNodeAnimator>& animator) {
132     mAnimatorManager.removeAnimator(animator);
133 }
134 
damageSelf(TreeInfo & info)135 void RenderNode::damageSelf(TreeInfo& info) {
136     if (isRenderable()) {
137         mDamageGenerationId = info.damageGenerationId;
138         if (properties().getClipDamageToBounds()) {
139             info.damageAccumulator->dirty(0, 0, properties().getWidth(), properties().getHeight());
140         } else {
141             // Hope this is big enough?
142             // TODO: Get this from the display list ops or something
143             info.damageAccumulator->dirty(DIRTY_MIN, DIRTY_MIN, DIRTY_MAX, DIRTY_MAX);
144         }
145     }
146 }
147 
prepareLayer(TreeInfo & info,uint32_t dirtyMask)148 void RenderNode::prepareLayer(TreeInfo& info, uint32_t dirtyMask) {
149     LayerType layerType = properties().effectiveLayerType();
150     if (CC_UNLIKELY(layerType == LayerType::RenderLayer)) {
151         // Damage applied so far needs to affect our parent, but does not require
152         // the layer to be updated. So we pop/push here to clear out the current
153         // damage and get a clean state for display list or children updates to
154         // affect, which will require the layer to be updated
155         info.damageAccumulator->popTransform();
156         info.damageAccumulator->pushTransform(this);
157         if (dirtyMask & DISPLAY_LIST) {
158             damageSelf(info);
159         }
160     }
161 }
162 
pushLayerUpdate(TreeInfo & info)163 void RenderNode::pushLayerUpdate(TreeInfo& info) {
164     LayerType layerType = properties().effectiveLayerType();
165     // If we are not a layer OR we cannot be rendered (eg, view was detached)
166     // we need to destroy any Layers we may have had previously
167     if (CC_LIKELY(layerType != LayerType::RenderLayer) || CC_UNLIKELY(!isRenderable()) ||
168         CC_UNLIKELY(properties().getWidth() == 0) || CC_UNLIKELY(properties().getHeight() == 0) ||
169         CC_UNLIKELY(!properties().fitsOnLayer())) {
170         if (CC_UNLIKELY(hasLayer())) {
171             this->setLayerSurface(nullptr);
172         }
173         return;
174     }
175 
176     if (info.canvasContext.createOrUpdateLayer(this, *info.damageAccumulator, info.errorHandler)) {
177         damageSelf(info);
178     }
179 
180     if (!hasLayer()) {
181         return;
182     }
183 
184     SkRect dirty;
185     info.damageAccumulator->peekAtDirty(&dirty);
186     info.layerUpdateQueue->enqueueLayerWithDamage(this, dirty);
187 
188     // There might be prefetched layers that need to be accounted for.
189     // That might be us, so tell CanvasContext that this layer is in the
190     // tree and should not be destroyed.
191     info.canvasContext.markLayerInUse(this);
192 }
193 
194 /**
195  * Traverse down the the draw tree to prepare for a frame.
196  *
197  * MODE_FULL = UI Thread-driven (thus properties must be synced), otherwise RT driven
198  *
199  * While traversing down the tree, functorsNeedLayer flag is set to true if anything that uses the
200  * stencil buffer may be needed. Views that use a functor to draw will be forced onto a layer.
201  */
prepareTreeImpl(TreeObserver & observer,TreeInfo & info,bool functorsNeedLayer)202 void RenderNode::prepareTreeImpl(TreeObserver& observer, TreeInfo& info, bool functorsNeedLayer) {
203     if (mDamageGenerationId == info.damageGenerationId) {
204         // We hit the same node a second time in the same tree. We don't know the minimal
205         // damage rect anymore, so just push the biggest we can onto our parent's transform
206         // We push directly onto parent in case we are clipped to bounds but have moved position.
207         info.damageAccumulator->dirty(DIRTY_MIN, DIRTY_MIN, DIRTY_MAX, DIRTY_MAX);
208     }
209     info.damageAccumulator->pushTransform(this);
210 
211     if (info.mode == TreeInfo::MODE_FULL) {
212         pushStagingPropertiesChanges(info);
213     }
214 
215     if (!mProperties.getAllowForceDark()) {
216         info.disableForceDark++;
217     }
218 
219     uint32_t animatorDirtyMask = 0;
220     if (CC_LIKELY(info.runAnimations)) {
221         animatorDirtyMask = mAnimatorManager.animate(info);
222     }
223 
224     bool willHaveFunctor = false;
225     if (info.mode == TreeInfo::MODE_FULL && mStagingDisplayList) {
226         willHaveFunctor = mStagingDisplayList->hasFunctor();
227     } else if (mDisplayList) {
228         willHaveFunctor = mDisplayList->hasFunctor();
229     }
230     bool childFunctorsNeedLayer =
231             mProperties.prepareForFunctorPresence(willHaveFunctor, functorsNeedLayer);
232 
233     if (CC_UNLIKELY(mPositionListener.get())) {
234         mPositionListener->onPositionUpdated(*this, info);
235     }
236 
237     prepareLayer(info, animatorDirtyMask);
238     if (info.mode == TreeInfo::MODE_FULL) {
239         pushStagingDisplayListChanges(observer, info);
240     }
241 
242     if (mDisplayList) {
243         info.out.hasFunctors |= mDisplayList->hasFunctor();
244         bool isDirty = mDisplayList->prepareListAndChildren(
245                 observer, info, childFunctorsNeedLayer,
246                 [](RenderNode* child, TreeObserver& observer, TreeInfo& info,
247                    bool functorsNeedLayer) {
248                     child->prepareTreeImpl(observer, info, functorsNeedLayer);
249                 });
250         if (isDirty) {
251             damageSelf(info);
252         }
253     }
254     pushLayerUpdate(info);
255 
256     if (!mProperties.getAllowForceDark()) {
257         info.disableForceDark--;
258     }
259     info.damageAccumulator->popTransform();
260 }
261 
syncProperties()262 void RenderNode::syncProperties() {
263     mProperties = mStagingProperties;
264 }
265 
pushStagingPropertiesChanges(TreeInfo & info)266 void RenderNode::pushStagingPropertiesChanges(TreeInfo& info) {
267     if (mPositionListenerDirty) {
268         mPositionListener = std::move(mStagingPositionListener);
269         mStagingPositionListener = nullptr;
270         mPositionListenerDirty = false;
271     }
272 
273     // Push the animators first so that setupStartValueIfNecessary() is called
274     // before properties() is trampled by stagingProperties(), as they are
275     // required by some animators.
276     if (CC_LIKELY(info.runAnimations)) {
277         mAnimatorManager.pushStaging();
278     }
279     if (mDirtyPropertyFields) {
280         mDirtyPropertyFields = 0;
281         damageSelf(info);
282         info.damageAccumulator->popTransform();
283         syncProperties();
284         // We could try to be clever and only re-damage if the matrix changed.
285         // However, we don't need to worry about that. The cost of over-damaging
286         // here is only going to be a single additional map rect of this node
287         // plus a rect join(). The parent's transform (and up) will only be
288         // performed once.
289         info.damageAccumulator->pushTransform(this);
290         damageSelf(info);
291     }
292 }
293 
syncDisplayList(TreeObserver & observer,TreeInfo * info)294 void RenderNode::syncDisplayList(TreeObserver& observer, TreeInfo* info) {
295     // Make sure we inc first so that we don't fluctuate between 0 and 1,
296     // which would thrash the layer cache
297     if (mStagingDisplayList) {
298         mStagingDisplayList->updateChildren([](RenderNode* child) { child->incParentRefCount(); });
299     }
300     deleteDisplayList(observer, info);
301     mDisplayList = mStagingDisplayList;
302     mStagingDisplayList = nullptr;
303     if (mDisplayList) {
304         WebViewSyncData syncData {
305             .applyForceDark = info && !info->disableForceDark
306         };
307         mDisplayList->syncContents(syncData);
308         handleForceDark(info);
309     }
310 }
311 
handleForceDark(android::uirenderer::TreeInfo * info)312 void RenderNode::handleForceDark(android::uirenderer::TreeInfo *info) {
313     if (CC_LIKELY(!info || info->disableForceDark)) {
314         return;
315     }
316     auto usage = usageHint();
317     const auto& children = mDisplayList->mChildNodes;
318     if (mDisplayList->hasText()) {
319         usage = UsageHint::Foreground;
320     }
321     if (usage == UsageHint::Unknown) {
322         if (children.size() > 1) {
323             usage = UsageHint::Background;
324         } else if (children.size() == 1 &&
325                 children.front().getRenderNode()->usageHint() !=
326                         UsageHint::Background) {
327             usage = UsageHint::Background;
328         }
329     }
330     if (children.size() > 1) {
331         // Crude overlap check
332         SkRect drawn = SkRect::MakeEmpty();
333         for (auto iter = children.rbegin(); iter != children.rend(); ++iter) {
334             const auto& child = iter->getRenderNode();
335             // We use stagingProperties here because we haven't yet sync'd the children
336             SkRect bounds = SkRect::MakeXYWH(child->stagingProperties().getX(), child->stagingProperties().getY(),
337                     child->stagingProperties().getWidth(), child->stagingProperties().getHeight());
338             if (bounds.contains(drawn)) {
339                 // This contains everything drawn after it, so make it a background
340                 child->setUsageHint(UsageHint::Background);
341             }
342             drawn.join(bounds);
343         }
344     }
345     mDisplayList->mDisplayList.applyColorTransform(
346             usage == UsageHint::Background ? ColorTransform::Dark : ColorTransform::Light);
347 }
348 
pushStagingDisplayListChanges(TreeObserver & observer,TreeInfo & info)349 void RenderNode::pushStagingDisplayListChanges(TreeObserver& observer, TreeInfo& info) {
350     if (mNeedsDisplayListSync) {
351         mNeedsDisplayListSync = false;
352         // Damage with the old display list first then the new one to catch any
353         // changes in isRenderable or, in the future, bounds
354         damageSelf(info);
355         syncDisplayList(observer, &info);
356         damageSelf(info);
357     }
358 }
359 
deleteDisplayList(TreeObserver & observer,TreeInfo * info)360 void RenderNode::deleteDisplayList(TreeObserver& observer, TreeInfo* info) {
361     if (mDisplayList) {
362         mDisplayList->updateChildren(
363                 [&observer, info](RenderNode* child) { child->decParentRefCount(observer, info); });
364         if (!mDisplayList->reuseDisplayList(this, info ? &info->canvasContext : nullptr)) {
365             delete mDisplayList;
366         }
367     }
368     mDisplayList = nullptr;
369 }
370 
destroyHardwareResources(TreeInfo * info)371 void RenderNode::destroyHardwareResources(TreeInfo* info) {
372     if (hasLayer()) {
373         this->setLayerSurface(nullptr);
374     }
375     setStagingDisplayList(nullptr);
376 
377     ImmediateRemoved observer(info);
378     deleteDisplayList(observer, info);
379 }
380 
destroyLayers()381 void RenderNode::destroyLayers() {
382     if (hasLayer()) {
383         this->setLayerSurface(nullptr);
384     }
385     if (mDisplayList) {
386         mDisplayList->updateChildren([](RenderNode* child) { child->destroyLayers(); });
387     }
388 }
389 
decParentRefCount(TreeObserver & observer,TreeInfo * info)390 void RenderNode::decParentRefCount(TreeObserver& observer, TreeInfo* info) {
391     LOG_ALWAYS_FATAL_IF(!mParentCount, "already 0!");
392     mParentCount--;
393     if (!mParentCount) {
394         observer.onMaybeRemovedFromTree(this);
395         if (CC_UNLIKELY(mPositionListener.get())) {
396             mPositionListener->onPositionLost(*this, info);
397         }
398     }
399 }
400 
onRemovedFromTree(TreeInfo * info)401 void RenderNode::onRemovedFromTree(TreeInfo* info) {
402     destroyHardwareResources(info);
403 }
404 
clearRoot()405 void RenderNode::clearRoot() {
406     ImmediateRemoved observer(nullptr);
407     decParentRefCount(observer);
408 }
409 
410 /**
411  * Apply property-based transformations to input matrix
412  *
413  * If true3dTransform is set to true, the transform applied to the input matrix will use true 4x4
414  * matrix computation instead of the Skia 3x3 matrix + camera hackery.
415  */
applyViewPropertyTransforms(mat4 & matrix,bool true3dTransform) const416 void RenderNode::applyViewPropertyTransforms(mat4& matrix, bool true3dTransform) const {
417     if (properties().getLeft() != 0 || properties().getTop() != 0) {
418         matrix.translate(properties().getLeft(), properties().getTop());
419     }
420     if (properties().getStaticMatrix()) {
421         mat4 stat(*properties().getStaticMatrix());
422         matrix.multiply(stat);
423     } else if (properties().getAnimationMatrix()) {
424         mat4 anim(*properties().getAnimationMatrix());
425         matrix.multiply(anim);
426     }
427 
428     bool applyTranslationZ = true3dTransform && !MathUtils::isZero(properties().getZ());
429     if (properties().hasTransformMatrix() || applyTranslationZ) {
430         if (properties().isTransformTranslateOnly()) {
431             matrix.translate(properties().getTranslationX(), properties().getTranslationY(),
432                              true3dTransform ? properties().getZ() : 0.0f);
433         } else {
434             if (!true3dTransform) {
435                 matrix.multiply(*properties().getTransformMatrix());
436             } else {
437                 mat4 true3dMat;
438                 true3dMat.loadTranslate(properties().getPivotX() + properties().getTranslationX(),
439                                         properties().getPivotY() + properties().getTranslationY(),
440                                         properties().getZ());
441                 true3dMat.rotate(properties().getRotationX(), 1, 0, 0);
442                 true3dMat.rotate(properties().getRotationY(), 0, 1, 0);
443                 true3dMat.rotate(properties().getRotation(), 0, 0, 1);
444                 true3dMat.scale(properties().getScaleX(), properties().getScaleY(), 1);
445                 true3dMat.translate(-properties().getPivotX(), -properties().getPivotY());
446 
447                 matrix.multiply(true3dMat);
448             }
449         }
450     }
451 }
452 
getClippedOutline(const SkRect & clipRect) const453 const SkPath* RenderNode::getClippedOutline(const SkRect& clipRect) const {
454     const SkPath* outlinePath = properties().getOutline().getPath();
455     const uint32_t outlineID = outlinePath->getGenerationID();
456 
457     if (outlineID != mClippedOutlineCache.outlineID || clipRect != mClippedOutlineCache.clipRect) {
458         // update the cache keys
459         mClippedOutlineCache.outlineID = outlineID;
460         mClippedOutlineCache.clipRect = clipRect;
461 
462         // update the cache value by recomputing a new path
463         SkPath clipPath;
464         clipPath.addRect(clipRect);
465         Op(*outlinePath, clipPath, kIntersect_SkPathOp, &mClippedOutlineCache.clippedOutline);
466     }
467     return &mClippedOutlineCache.clippedOutline;
468 }
469 
470 using StringBuffer = FatVector<char, 128>;
471 
472 template <typename... T>
473 // TODO:__printflike(2, 3)
474 // Doesn't work because the warning doesn't understand string_view and doesn't like that
475 // it's not a C-style variadic function.
format(StringBuffer & buffer,const std::string_view & format,T...args)476 static void format(StringBuffer& buffer, const std::string_view& format, T... args) {
477     buffer.resize(buffer.capacity());
478     while (1) {
479         int needed = snprintf(buffer.data(), buffer.size(),
480                 format.data(), std::forward<T>(args)...);
481         if (needed < 0) {
482             buffer[0] = '\0';
483             buffer.resize(1);
484             return;
485         }
486         if (needed < buffer.size()) {
487             buffer.resize(needed + 1);
488             return;
489         }
490         // If we're doing a heap alloc anyway might as well give it some slop
491         buffer.resize(needed + 100);
492     }
493 }
494 
markDrawStart(SkCanvas & canvas)495 void RenderNode::markDrawStart(SkCanvas& canvas) {
496     StringBuffer buffer;
497     format(buffer, "RenderNode(id=%" PRId64 ", name='%s')", uniqueId(), getName());
498     canvas.drawAnnotation(SkRect::MakeWH(getWidth(), getHeight()), buffer.data(), nullptr);
499 }
500 
markDrawEnd(SkCanvas & canvas)501 void RenderNode::markDrawEnd(SkCanvas& canvas) {
502     StringBuffer buffer;
503     format(buffer, "/RenderNode(id=%" PRId64 ", name='%s')", uniqueId(), getName());
504     canvas.drawAnnotation(SkRect::MakeWH(getWidth(), getHeight()), buffer.data(), nullptr);
505 }
506 
507 } /* namespace uirenderer */
508 } /* namespace android */
509