/* * Copyright (c) 2020-2021 Huawei Device Co., Ltd. * 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 "components/root_view.h" #include "common/screen.h" #include "core/render_manager.h" #include "draw/draw_utils.h" #include "gfx_utils/graphic_log.h" #if ENABLE_WINDOW #include "window/window_impl.h" #endif #include "securec.h" namespace OHOS { namespace { #if LOCAL_RENDER const constexpr uint8_t MAX_SPLIT_NUM = 32; // split at most 32 parts // view along with its parents and siblings are at most 128 const constexpr uint8_t VIEW_STACK_DEPTH = COMPONENT_NESTING_DEPTH * 2; #else const constexpr uint8_t VIEW_STACK_DEPTH = COMPONENT_NESTING_DEPTH; const constexpr uint8_t MAX_INVALIDATE_SIZE = 24; #endif static Rect g_maskStack[COMPONENT_NESTING_DEPTH]; static UIView* g_viewStack[VIEW_STACK_DEPTH]; } // namespace RootView::RootView() { #if defined __linux__ || defined __LITEOS__ || defined __APPLE__ pthread_mutex_init(&lock_, nullptr); #endif InitDrawContext(); } RootView* RootView::GetInstance() { static RootView instance; return &instance; } RootView::~RootView() { DestroyDrawContext(); #if defined __linux__ || defined __LITEOS__ || defined __APPLE__ pthread_mutex_destroy(&lock_); #endif } #if ENABLE_WINDOW Window* RootView::GetBoundWindow() const { return boundWindow_; } #endif Rect RootView::GetScreenRect() { #if ENABLE_WINDOW Rect screenRect = GetRect(); #else Rect screenRect(0, 0, Screen::GetInstance().GetWidth() - 1, Screen::GetInstance().GetHeight() - 1); #endif return screenRect; } #if LOCAL_RENDER using namespace Graphic; static void DivideInvalidateRect(const Rect& originRect, Rect& leftoverRect, Vector& splitRects) { Rect mask; if (!mask.Intersect(originRect, leftoverRect)) { splitRects.PushBack(leftoverRect); return; } /* * +---+---+---+ * | | A | | originRect :A+B * | +---+ | leftoverRect :A->0 * | B | mask :A * +-----------+ */ if (originRect.IsContains(leftoverRect)) { return; } int16_t reserveCnt = MAX_SPLIT_NUM - splitRects.Size(); if (reserveCnt <= 0) { splitRects.PushBack(leftoverRect); return; } if (mask.GetWidth() == leftoverRect.GetWidth()) { /* * +---+ * | A | originRect :B+C * +-----------+ leftoverRect :A+B->A * | | B | | mask :B * | +---+ | * | C | * +-----------+ */ if (mask.GetBottom() == leftoverRect.GetBottom()) { leftoverRect.SetBottom(mask.GetTop() - 1); } else if (mask.GetTop() == leftoverRect.GetTop()) { leftoverRect.SetTop(mask.GetBottom() + 1); } else { splitRects.PushBack(leftoverRect); splitRects.Back().SetBottom(mask.GetTop() - 1); leftoverRect.SetTop(mask.GetBottom() + 1); } splitRects.PushBack(leftoverRect); return; } if (mask.GetHeight() == leftoverRect.GetHeight()) { /* * +---------+ originRect :B+C * +-------+ | leftoverRect :A+B->A * | A | B | C | mask :B * +-------+ | * +---------+ */ if (mask.GetLeft() == leftoverRect.GetLeft()) { leftoverRect.SetLeft(mask.GetRight() + 1); } else if (mask.GetRight() == leftoverRect.GetRight()) { leftoverRect.SetRight(mask.GetLeft() - 1); } else { splitRects.PushBack(leftoverRect); splitRects.Back().SetRight(mask.GetLeft() - 1); leftoverRect.SetLeft(mask.GetRight() + 1); } splitRects.PushBack(leftoverRect); return; } Vector copyRect(splitRects); if (mask.GetLeft() != leftoverRect.GetLeft()) { /* * | * +-------+ * | +---+ mask :A * | B | A | leftoverRect :A+B * | +---+ * +-------+ * | */ if (reserveCnt-- <= 0) { splitRects.Swap(copyRect); splitRects.PushBack(leftoverRect); return; } splitRects.PushBack(leftoverRect); splitRects.Back().SetRight(mask.GetLeft() - 1); leftoverRect.SetLeft(mask.GetLeft()); } if (mask.GetTop() != leftoverRect.GetTop()) { /* * +-------+ * | B | mask :A * ---+---+--- leftoverRect :A+B * | | A | | * +-+---+-+ */ if (reserveCnt-- <= 0) { splitRects.Swap(copyRect); splitRects.PushBack(leftoverRect); return; } splitRects.PushBack(leftoverRect); splitRects.Back().SetBottom(mask.GetTop() - 1); leftoverRect.SetTop(mask.GetTop()); } if (mask.GetRight() != leftoverRect.GetRight()) { /* * | * +-------+ * +---+ | mask :A * | A | B | leftoverRect :A+B * +---+ | * +-------+ * | */ if (reserveCnt-- <= 0) { splitRects.Swap(copyRect); splitRects.PushBack(leftoverRect); return; } splitRects.PushBack(leftoverRect); splitRects.Back().SetLeft(mask.GetRight() + 1); leftoverRect.SetRight(mask.GetRight()); } if (mask.GetBottom() != leftoverRect.GetBottom()) { /* * +-+---+-+ * | | A | | mask :A * ---+---+--- leftoverRect :A+B * | B | * +-------+ */ if (reserveCnt-- <= 0) { splitRects.Swap(copyRect); splitRects.PushBack(leftoverRect); return; } splitRects.PushBack(leftoverRect); splitRects.Back().SetTop(mask.GetBottom() + 1); leftoverRect.SetBottom(mask.GetBottom()); } return; } static void AddRenderedRects(Rect& rect, List& renderedRects, ListNode* iter) { /* Elements at front have larger area and more relevance */ for (; iter != renderedRects.End(); iter = iter->next_) { Rect& curRect = iter->data_; if (!curRect.IsIntersect(rect)) { continue; } if (curRect.IsContains(rect)) { return; } /* Merge two rects */ if (rect.IsContains(curRect)) { } else if (((curRect.GetLeft() == rect.GetLeft()) && (curRect.GetRight() == rect.GetRight())) || ((curRect.GetTop() == rect.GetTop()) && (curRect.GetBottom() == rect.GetBottom()))) { rect.Join(curRect, rect); } else { continue; } iter = renderedRects.Remove(iter)->prev_; break; } if (iter == renderedRects.End()) { // No merge rises if (renderedRects.Size() == 128) { // record 128 rendered rects at most renderedRects.PopBack(); } renderedRects.PushFront(rect); } else { // merge rises, go over the rest nodes AddRenderedRects(rect, renderedRects, iter); } } void RootView::RemoveViewFromInvalidMap(UIView* view) { #if defined __linux__ || defined __LITEOS__ || defined __APPLE__ pthread_mutex_lock(&lock_); #endif int16_t stackCount = 0; do { while (view != nullptr) { /* delete node itself */ auto entry = invalidateMap_.find(view); if (entry != invalidateMap_.end()) { invalidateMap_.erase(entry); } /* delete node's children */ if (view->IsViewGroup() && stackCount < COMPONENT_NESTING_DEPTH) { g_viewStack[stackCount++] = view; view = static_cast(view)->GetChildrenHead(); continue; } /* only go to child's sibling */ view = view->GetNextSibling(); } if (--stackCount >= 0) { view = g_viewStack[stackCount]->GetNextSibling(); } } while (stackCount >= 0); #if defined __linux__ || defined __LITEOS__ || defined __APPLE__ pthread_mutex_unlock(&lock_); #endif } void RootView::OptimizeInvalidView(UIView* curview, UIView* background, List& renderedRects) { if (curview == nullptr) { return; } auto mapEntry = invalidateMap_.find(curview); if (mapEntry == invalidateMap_.end()) { return; } Rect& invalidRect = mapEntry->second.Front(); /* Transparent views should draw from background */ if (((curview->GetStyleConst().bgOpa_ != OPA_OPAQUE) || (curview->GetOpaScale() != OPA_OPAQUE) || (!curview->IsTransInvalid())) && (curview != this)) { AddInvalidateRect(invalidRect, background); invalidateMap_.erase(mapEntry); return; } /* Remove the rendered parts and split the origin rect into splitInvalidRects * For performance reason, split numbers are strictly restrained. */ Vector splitInvalidRects(MAX_SPLIT_NUM << 1); Rect invalidRectCopy(invalidRect); /* Using forward order because entries at the front are closer to the current view and have larger Size */ for (auto iter = renderedRects.Begin(); iter != renderedRects.End(); iter = iter->next_) { for (int8_t i = 0; i < mapEntry->second.Size(); i++) { DivideInvalidateRect(iter->data_, mapEntry->second[i], splitInvalidRects); } mapEntry->second.Swap(splitInvalidRects); splitInvalidRects.Clear(); } /* Add new opaque rects */ Rect preDrawRect(invalidRectCopy); if (!curview->OnPreDraw(preDrawRect)) { AddInvalidateRect(invalidRectCopy, background); } AddRenderedRects(preDrawRect, renderedRects, renderedRects.Begin()); } void RootView::OptimizeInvalidMap() { UIView* curview = this; int16_t stackCount = 0; int16_t opaStackCount = 0; UIView* background[VIEW_STACK_DEPTH]; bool flags[VIEW_STACK_DEPTH]; // indicate whether stack go back from child List renderedRects; // Record rendered areas to avoid rerendering do { /* push stack */ if (curview != nullptr) { if (stackCount >= VIEW_STACK_DEPTH) { return; } g_viewStack[stackCount] = curview; flags[stackCount++] = false; curview = curview->GetNextSibling(); continue; } curview = g_viewStack[--stackCount]; Rect rect; if (!curview->IsVisible() || !rect.Intersect(curview->GetRect(), GetScreenRect())) { curview = nullptr; continue; } if (!flags[stackCount]) { // Back from sibling if (curview->IsViewGroup()) { /* Set background/topview */ if (((curview->GetStyleConst().bgOpa_ == OPA_OPAQUE) && (curview->GetOpaScale() == OPA_OPAQUE) && curview->IsTransInvalid()) || (curview == this)) { background[opaStackCount] = curview; } else { background[opaStackCount] = background[opaStackCount - 1]; } ++opaStackCount; if (opaStackCount >= VIEW_STACK_DEPTH) { return; } flags[stackCount++] = true; curview = static_cast(curview)->GetChildrenHead(); continue; } } else { // Back from child opaStackCount--; } OptimizeInvalidView(curview, background[opaStackCount - 1], renderedRects); curview = nullptr; } while (stackCount > 0); renderedRects.Clear(); } void RootView::DrawInvalidMap(const Rect& buffRect) { OptimizeInvalidMap(); Rect rect; for (auto& viewEntry : invalidateMap_) { Vector& viewRenderRect = viewEntry.second; for (uint16_t i = 0; i < viewRenderRect.Size(); i++) { rect.Intersect(viewRenderRect[i], buffRect); DrawTop(viewEntry.first, rect); } } } #else void RootView::OptimizeAddRect(Rect& rect) { Rect joinRect; for (ListNode* iter = invalidateRects_.Begin(); iter != invalidateRects_.End(); iter = iter->next_) { if (iter->data_.IsContains(rect)) { return; } if (iter->data_.IsIntersect(rect)) { joinRect.Join(iter->data_, rect); if (joinRect.GetSize() < iter->data_.GetSize() + rect.GetSize()) { iter->data_ = joinRect; return; } } } if (invalidateRects_.Size() < MAX_INVALIDATE_SIZE) { invalidateRects_.PushBack(rect); } else { invalidateRects_.Clear(); invalidateRects_.PushBack(GetScreenRect()); } } void RootView::OptimizeInvalidateRects() { Rect joinRect; for (ListNode* iter1 = invalidateRects_.Begin(); iter1 != invalidateRects_.End(); iter1 = iter1->next_) { for (ListNode* iter2 = invalidateRects_.Begin(); iter2 != invalidateRects_.End(); iter2 = iter2->next_) { if (iter1 == iter2) { continue; } if (iter2->data_.IsIntersect(iter1->data_)) { joinRect.Join(iter1->data_, iter2->data_); if (joinRect.GetSize() < (iter1->data_.GetSize() + iter2->data_.GetSize())) { iter2->data_ = joinRect; iter1 = invalidateRects_.Remove(iter1)->prev_; break; } } } } } #endif void RootView::AddInvalidateRect(Rect& rect, UIView* view) { Rect commonRect; if (commonRect.Intersect(rect, GetScreenRect())) { #if LOCAL_RENDER Vector& invalidRects = invalidateMap_[view]; if (invalidRects.IsEmpty()) { invalidRects.PushBack(commonRect); } else { invalidRects[0].Join(invalidRects[0], commonRect); } #else OptimizeAddRect(commonRect); #endif } } void RootView::AddInvalidateRectWithLock(Rect& rect, UIView* view) { #if defined __linux__ || defined __LITEOS__ || defined __APPLE__ pthread_mutex_lock(&lock_); #endif AddInvalidateRect(rect, view); #if defined __linux__ || defined __LITEOS__ || defined __APPLE__ pthread_mutex_unlock(&lock_); #endif } void RootView::Measure() { #if LOCAL_RENDER if (!invalidateMap_.empty()) { MeasureView(childrenHead_); } #else if (invalidateRects_.Size() > 0) { MeasureView(childrenHead_); } #endif } void RootView::MeasureView(UIView* view) { int16_t stackCount = 0; UIView* curView = view; while (stackCount >= 0) { while (curView != nullptr) { if (curView->IsVisible()) { curView->ReMeasure(); if (curView->IsViewGroup() && stackCount < COMPONENT_NESTING_DEPTH) { g_viewStack[stackCount++] = curView; curView = static_cast(curView)->GetChildrenHead(); continue; } } curView = curView->GetNextSibling(); } if (--stackCount >= 0) { curView = (g_viewStack[stackCount])->GetNextSibling(); } } } void RootView::Render() { #if defined __linux__ || defined __LITEOS__ || defined __APPLE__ pthread_mutex_lock(&lock_); #endif #if !LOCAL_RENDER OptimizeInvalidateRects(); #endif #if defined __linux__ || defined __LITEOS__ || defined __APPLE__ pthread_mutex_unlock(&lock_); #endif #if LOCAL_RENDER if (!invalidateMap_.empty()) { RenderManager::RenderRect(GetRect(), this); invalidateMap_.clear(); #else if ( invalidateRects_.Size() > 0) { for (ListNode* iter = invalidateRects_.Begin(); iter != invalidateRects_.End(); iter = iter->next_) { RenderManager::RenderRect(iter->data_, this); } invalidateRects_.Clear(); #endif #if ENABLE_WINDOW if (boundWindow_) { boundWindow_->Flush(); boundWindow_->Update(); } #endif BaseGfxEngine::GetInstance()->Flush(); } } void RootView::BlitMapBuffer(Rect& curViewRect, TransformMap& transMap, const Rect& invalidatedArea) { Rect invalidRect = curViewRect; transMap.SetTransMapRect(curViewRect); invalidRect.Join(invalidRect, transMap.GetBoxRect()); if (invalidRect.Intersect(invalidRect, invalidatedArea)) { uint8_t pxSize = DrawUtils::GetPxSizeByColorMode(dc_.mapBufferInfo->mode); ImageInfo imageInfo; imageInfo.header.colorMode = dc_.mapBufferInfo->mode; imageInfo.dataSize = dc_.mapBufferInfo->width * dc_.mapBufferInfo->height * (pxSize >> 3); imageInfo.header.width = dc_.mapBufferInfo->width; imageInfo.header.height = dc_.mapBufferInfo->height; imageInfo.header.reserved = 0; imageInfo.data = reinterpret_cast(dc_.mapBufferInfo->virAddr); TransformDataInfo imageTranDataInfo = {imageInfo.header, imageInfo.data, pxSize, LEVEL0, BILINEAR}; BaseGfxEngine::GetInstance()->DrawTransform(*dc_.bufferInfo, invalidRect, {0, 0}, Color::Black(), OPA_OPAQUE, transMap, imageTranDataInfo); } } void RootView::ClearMapBuffer() { uint8_t pxSize = DrawUtils::GetPxSizeByColorMode(dc_.mapBufferInfo->mode); uint32_t dataSize = dc_.mapBufferInfo->width * dc_.mapBufferInfo->height * (pxSize >> 3); if (memset_s(dc_.mapBufferInfo->virAddr, dataSize, 0, dataSize) != EOK) { GRAPHIC_LOGE("animator buffer memset failed."); } } void RootView::UpdateMapBufferInfo(Rect& invalidatedArea) { int16_t width = invalidatedArea.GetWidth(); int16_t height = invalidatedArea.GetHeight(); invalidatedArea.SetWidth(height); invalidatedArea.SetHeight(width); dc_.mapBufferInfo->width = height; dc_.mapBufferInfo->height = width; dc_.mapBufferInfo->stride = dc_.mapBufferInfo->width * (DrawUtils::GetPxSizeByColorMode(dc_.mapBufferInfo->mode) >> 3); // 3: Shift 3 bits } void RootView::RestoreMapBufferInfo() { dc_.mapBufferInfo->width = dc_.bufferInfo->width; dc_.mapBufferInfo->height = dc_.bufferInfo->height; dc_.mapBufferInfo->stride = dc_.mapBufferInfo->width * (DrawUtils::GetPxSizeByColorMode(dc_.mapBufferInfo->mode) >> 3); // 3: Shift 3 bits } void RootView::DrawTop(UIView* view, const Rect& rect) { if (view == nullptr) { return; } int16_t stackCount = 0; UIView* par = view->GetParent(); if (par == nullptr) { par = view; } UIView* curView = view; UIView* transViewGroup = nullptr; Rect curViewRect; Rect mask = rect; Rect origRect; Rect relativeRect; bool enableAnimator = false; TransformMap curTransMap; bool updateMapBufferInfo = false; #if ENABLE_WINDOW WindowImpl* boundWin = static_cast(GetBoundWindow()); BufferInfo* gfxDstBuffer = boundWin->GetBufferInfo(); UpdateBufferInfo(gfxDstBuffer); #endif while (par != nullptr) { if (curView != nullptr) { if (curView->IsVisible()) { if (curViewRect.Intersect(curView->GetMaskedRect(), mask) || enableAnimator) { if ((curView->GetViewType() != UI_IMAGE_VIEW) && (curView->GetViewType() != UI_TEXTURE_MAPPER) && !curView->IsTransInvalid() && !enableAnimator) { origRect = curView->GetOrigRect(); relativeRect = curView->GetRelativeRect(); curView->GetTransformMap().SetInvalid(true); curView->SetPosition( relativeRect.GetX() - origRect.GetX() - curView->GetStyle(STYLE_MARGIN_LEFT), relativeRect.GetY() - origRect.GetY() - curView->GetStyle(STYLE_MARGIN_TOP)); ClearMapBuffer(); curTransMap = curView->GetTransformMap(); enableAnimator = true; } if (enableAnimator) { Rect invalidatedArea; invalidatedArea.SetWidth(dc_.mapBufferInfo->width); invalidatedArea.SetHeight(dc_.mapBufferInfo->height); if (invalidatedArea.GetWidth() < curView->GetWidth()) { UpdateMapBufferInfo(invalidatedArea); updateMapBufferInfo = true; } curView->OnDraw(*dc_.mapBufferInfo, invalidatedArea); curViewRect = invalidatedArea; } else { curView->OnDraw(*dc_.bufferInfo, curViewRect); } if ((curView->IsViewGroup()) && (stackCount < COMPONENT_NESTING_DEPTH)) { if (enableAnimator && (transViewGroup == nullptr)) { transViewGroup = curView; } par = curView; g_viewStack[stackCount] = curView; g_maskStack[stackCount] = mask; stackCount++; curView = static_cast(curView)->GetChildrenHead(); mask = par->GetContentRect(); mask.Intersect(mask, curViewRect); continue; } if (enableAnimator) { curView->OnPostDraw(*dc_.mapBufferInfo, curViewRect); } else { curView->OnPostDraw(*dc_.bufferInfo, curViewRect); } if (enableAnimator && (transViewGroup == nullptr)) { BlitMapBuffer(origRect, curTransMap, mask); if (updateMapBufferInfo) { RestoreMapBufferInfo(); updateMapBufferInfo = false; } curView->GetTransformMap().SetInvalid(false); enableAnimator = false; curView->SetPosition(relativeRect.GetX() - curView->GetStyle(STYLE_MARGIN_LEFT), relativeRect.GetY() - curView->GetStyle(STYLE_MARGIN_TOP)); } } } curView = curView->GetNextSibling(); continue; } if (--stackCount >= 0) { curViewRect = par->GetMaskedRect(); mask = g_maskStack[stackCount]; if (enableAnimator) { par->OnPostDraw(*dc_.mapBufferInfo, curViewRect); } else if (curViewRect.Intersect(curViewRect, mask)) { par->OnPostDraw(*dc_.bufferInfo, curViewRect); } if (enableAnimator && transViewGroup == g_viewStack[stackCount]) { BlitMapBuffer(origRect, curTransMap, mask); if (updateMapBufferInfo) { RestoreMapBufferInfo(); updateMapBufferInfo = false; } transViewGroup->GetTransformMap().SetInvalid(false); enableAnimator = false; transViewGroup->SetPosition(relativeRect.GetX() - transViewGroup->GetStyle(STYLE_MARGIN_LEFT), relativeRect.GetY() - transViewGroup->GetStyle(STYLE_MARGIN_TOP)); transViewGroup = nullptr; } curView = g_viewStack[stackCount]->GetNextSibling(); par = par->GetParent(); continue; } stackCount = 0; curView = par->GetNextSibling(); if (enableAnimator) { par->OnPostDraw(*dc_.mapBufferInfo, curViewRect); } else { par->OnPostDraw(*dc_.bufferInfo, curViewRect); } par = par->GetParent(); } } UIView* RootView::GetTopUIView(const Rect& rect) { int16_t stackCount = 0; UIView* currentView = this; UIView* topView = currentView; Rect copyRect(rect); while (stackCount >= 0) { while (currentView != nullptr) { if (currentView->GetOrigRect().IsContains(rect) && currentView->IsVisible()) { if (currentView->GetStyle(STYLE_BACKGROUND_OPA) == OPA_OPAQUE && currentView->OnPreDraw(copyRect) && currentView->GetOpaScale() == OPA_OPAQUE) { topView = currentView; } if (currentView->IsViewGroup() && stackCount < COMPONENT_NESTING_DEPTH) { g_viewStack[stackCount++] = currentView; currentView = static_cast(currentView)->GetChildrenHead(); continue; } } currentView = currentView->GetNextSibling(); } if (--stackCount >= 0) { currentView = (g_viewStack[stackCount])->GetNextSibling(); } } UIView* parentView = topView; while (parentView->GetParent() != nullptr) { UIView* tempView = parentView; parentView = parentView->GetParent(); if (!tempView->IsTransInvalid()) { topView = parentView; } } return topView; } bool RootView::FindSubView(const UIView& parentView, const UIView* subView) { const UIView* root = &parentView; if (root == subView) { return true; } else if (!root->IsViewGroup() || (subView == nullptr)) { return false; } UIView* currentView = static_cast(root)->GetChildrenHead(); const UIView* parent = root; int8_t deep = 1; while (deep > 0) { if (currentView == subView) { return true; } if (currentView == nullptr) { currentView = parent->GetNextSibling(); parent = parent->GetParent(); deep--; } else if (currentView->IsViewGroup()) { parent = currentView; currentView = static_cast(currentView)->GetChildrenHead(); deep++; } else { currentView = currentView->GetNextSibling(); } } return false; } void RootView::InitMapBufferInfo(BufferInfo* bufferInfo) { dc_.mapBufferInfo = new BufferInfo(); if (dc_.mapBufferInfo == nullptr) { return; } if (memcpy_s(dc_.mapBufferInfo, sizeof(BufferInfo), bufferInfo, sizeof(BufferInfo)) != EOK) { delete dc_.mapBufferInfo; dc_.mapBufferInfo = nullptr; return; } dc_.mapBufferInfo->mode = ARGB8888; dc_.mapBufferInfo->stride = dc_.mapBufferInfo->width * (DrawUtils::GetPxSizeByColorMode(dc_.mapBufferInfo->mode) >> 3); // 3: Shift right 3 bits uint32_t bufferSize = dc_.mapBufferInfo->stride * dc_.mapBufferInfo->height; dc_.mapBufferInfo->virAddr = dc_.mapBufferInfo->phyAddr = BaseGfxEngine::GetInstance()->AllocBuffer(bufferSize, BUFFER_MAP_SURFACE); } void RootView::DestroyMapBufferInfo() { if (dc_.mapBufferInfo != nullptr) { BaseGfxEngine::GetInstance()->FreeBuffer(static_cast(dc_.mapBufferInfo->virAddr)); dc_.mapBufferInfo->virAddr = dc_.mapBufferInfo->phyAddr = nullptr; delete dc_.mapBufferInfo; dc_.mapBufferInfo = nullptr; } } void RootView::InitDrawContext() { dc_.bufferInfo = BaseGfxEngine::GetInstance()->GetFBBufferInfo(); if (dc_.bufferInfo != nullptr) { InitMapBufferInfo(dc_.bufferInfo); } bakDc_.bufferInfo = nullptr; bakDc_.mapBufferInfo = nullptr; } void RootView::DestroyDrawContext() { DestroyMapBufferInfo(); } void RootView::UpdateBufferInfo(BufferInfo* fbBufferInfo) { if (dc_.bufferInfo == nullptr) { dc_.bufferInfo = fbBufferInfo; InitMapBufferInfo(fbBufferInfo); } else { if (dc_.bufferInfo->width != fbBufferInfo->width || dc_.bufferInfo->height != fbBufferInfo->height || dc_.bufferInfo->mode != fbBufferInfo->mode) { DestroyMapBufferInfo(); InitMapBufferInfo(fbBufferInfo); } dc_.bufferInfo = fbBufferInfo; } } void RootView::SaveDrawContext() { bakDc_.bufferInfo = dc_.bufferInfo; dc_.bufferInfo = nullptr; bakDc_.mapBufferInfo = dc_.mapBufferInfo; dc_.mapBufferInfo = nullptr; } void RootView::RestoreDrawContext() { DestroyDrawContext(); dc_.bufferInfo = bakDc_.bufferInfo; bakDc_.bufferInfo = nullptr; dc_.mapBufferInfo = bakDc_.mapBufferInfo; bakDc_.mapBufferInfo = nullptr; } } // namespace OHOS