/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "ContainerLayerMLGPU.h" #include "gfxPrefs.h" #include "LayersLogging.h" #include "LayerManagerMLGPU.h" #include "MLGDevice.h" #include "mozilla/gfx/Rect.h" #include "mozilla/gfx/Types.h" #include "UnitTransforms.h" #include "UtilityMLGPU.h" namespace mozilla { namespace layers { using namespace gfx; ContainerLayerMLGPU::ContainerLayerMLGPU(LayerManagerMLGPU* aManager) : ContainerLayer(aManager, nullptr), LayerMLGPU(aManager), mInvalidateEntireSurface(false), mSurfaceCopyNeeded(false) { } ContainerLayerMLGPU::~ContainerLayerMLGPU() { while (mFirstChild) { RemoveChild(mFirstChild); } } bool ContainerLayerMLGPU::OnPrepareToRender(FrameBuilder* aBuilder) { mView = nullptr; if (!UseIntermediateSurface()) { // Set this so we invalidate the entire cached render target (if any) // if our container uses an intermediate surface again later. mInvalidateEntireSurface = true; return true; } if ((!mRenderTarget || mChildrenChanged) && gfxPrefs::AdvancedLayersEnableContainerResizing()) { // Try to compute a more accurate visible region. AL_LOG("Computing new surface size for container %p:\n", GetLayer()); Maybe bounds = ComputeIntermediateSurfaceBounds(); if (bounds) { LayerIntRegion region = Move(GetShadowVisibleRegion()); region.AndWith(LayerIntRect::FromUnknownRect(bounds.value())); AL_LOG(" computed bounds: %s\n", Stringify(bounds.value()).c_str()); AL_LOG(" new visible: %s\n", Stringify(region).c_str()); SetShadowVisibleRegion(Move(region)); } } mChildrenChanged = false; mTargetOffset = GetIntermediateSurfaceRect().TopLeft().ToUnknownPoint(); mTargetSize = GetIntermediateSurfaceRect().Size().ToUnknownSize(); if (mRenderTarget && mRenderTarget->GetSize() != mTargetSize) { mRenderTarget = nullptr; } // Note that if a surface copy is needed, we always redraw the // whole surface (on-demand). This is a rare case - the old // Compositor already does this - and it saves us having to // do much more complicated invalidation. bool surfaceCopyNeeded = false; DefaultComputeSupportsComponentAlphaChildren(&surfaceCopyNeeded); if (surfaceCopyNeeded != mSurfaceCopyNeeded || surfaceCopyNeeded) { mInvalidateEntireSurface = true; } mSurfaceCopyNeeded = surfaceCopyNeeded; gfx::IntRect viewport(gfx::IntPoint(0, 0), mTargetSize); if (!mRenderTarget || !gfxPrefs::AdvancedLayersUseInvalidation() || mInvalidateEntireSurface) { // Fine-grained invalidation is disabled, invalidate everything. mInvalidRect = viewport; } else { // Clamp the invalid rect to the viewport. mInvalidRect -= mTargetOffset; mInvalidRect = mInvalidRect.Intersect(viewport); } mInvalidateEntireSurface = false; return true; } static IntRect GetTransformedBounds(Layer* aLayer) { IntRect bounds = aLayer->GetLocalVisibleRegion().GetBounds().ToUnknownRect(); if (bounds.IsEmpty()) { return bounds; } const Matrix4x4& transform = aLayer->GetEffectiveTransform(); Rect rect = transform.TransformAndClipBounds(Rect(bounds), Rect::MaxIntRect()); rect.RoundOut(); rect.ToIntRect(&bounds); return bounds; } static Maybe FindVisibleBounds(Layer* aLayer, const Maybe& aClip) { AL_LOG(" visiting child %p\n", aLayer); AL_LOG_IF(aClip, " parent clip: %s\n", Stringify(aClip.value()).c_str()); ContainerLayer* container = aLayer->AsContainerLayer(); if (container && !container->UseIntermediateSurface()) { Maybe accumulated = Some(IntRect()); // Traverse children. for (Layer* child = container->GetFirstChild(); child; child = child->GetNextSibling()) { Maybe clip = aClip; if (const Maybe& childClip = child->AsHostLayer()->GetShadowClipRect()) { RenderTargetIntRect rtChildClip = TransformBy(ViewAs( aLayer->GetEffectiveTransform(), PixelCastJustification::RenderTargetIsParentLayerForRoot), childClip.value()); clip = IntersectMaybeRects(clip, Some(rtChildClip)); AL_LOG(" target clip: %s\n", Stringify(rtChildClip).c_str()); AL_LOG_IF(clip, " full clip: %s\n", Stringify(clip.value()).c_str()); } Maybe childBounds = FindVisibleBounds(child, clip); if (!childBounds) { return Nothing(); } accumulated = accumulated->SafeUnion(childBounds.value()); if (!accumulated) { return Nothing(); } } return accumulated; } IntRect bounds = GetTransformedBounds(aLayer); AL_LOG(" layer bounds: %s\n", Stringify(bounds).c_str()); if (aClip) { bounds = bounds.Intersect(aClip.value().ToUnknownRect()); AL_LOG(" clipped bounds: %s\n", Stringify(bounds).c_str()); } return Some(bounds); } Maybe ContainerLayerMLGPU::ComputeIntermediateSurfaceBounds() { Maybe bounds = Some(IntRect()); for (Layer* child = GetFirstChild(); child; child = child->GetNextSibling()) { Maybe clip = ViewAs(child->AsHostLayer()->GetShadowClipRect(), PixelCastJustification::RenderTargetIsParentLayerForRoot); Maybe childBounds = FindVisibleBounds(child, clip); if (!childBounds) { return Nothing(); } bounds = bounds->SafeUnion(childBounds.value()); if (!bounds) { return Nothing(); } } return bounds; } void ContainerLayerMLGPU::OnLayerManagerChange(LayerManagerMLGPU* aManager) { ClearCachedResources(); } RefPtr ContainerLayerMLGPU::UpdateRenderTarget(MLGDevice* aDevice, MLGRenderTargetFlags aFlags) { if (mRenderTarget) { return mRenderTarget; } mRenderTarget = aDevice->CreateRenderTarget(mTargetSize, aFlags); if (!mRenderTarget) { gfxWarning() << "Failed to create an intermediate render target for ContainerLayer"; return nullptr; } return mRenderTarget; } void ContainerLayerMLGPU::SetInvalidCompositeRect(const gfx::IntRect* aRect) { // For simplicity we only track the bounds of the invalid area, since regions // are expensive. // // Note we add the bounds to the invalid rect from the last frame, since we // only clear the area that we actually paint. If this overflows we use the // last render target size, since if that changes we'll invalidate everything // anyway. if (aRect) { if (Maybe result = mInvalidRect.SafeUnion(*aRect)) { mInvalidRect = result.value(); } else { mInvalidateEntireSurface = true; } } else { mInvalidateEntireSurface = true; } } void ContainerLayerMLGPU::ClearCachedResources() { mRenderTarget = nullptr; } bool ContainerLayerMLGPU::IsContentOpaque() { if (GetMixBlendMode() != gfx::CompositionOp::OP_OVER) { // We need to read from what's underneath us, so we consider our content to // be not opaque. return false; } return LayerMLGPU::IsContentOpaque(); } } // namespace layers } // namespace mozilla