/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- * vim: sw=2 ts=8 et : */ /* 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 "mozilla/layers/PLayers.h" #include "mozilla/layers/ShadowLayers.h" #include "ImageLayers.h" #include "ImageContainer.h" #include "Layers.h" #include "gfxPlatform.h" #include "ReadbackLayer.h" #include "gfxUtils.h" #include "nsPrintfCString.h" #include "mozilla/Util.h" #include "LayerSorter.h" #include "AnimationCommon.h" using namespace mozilla::layers; using namespace mozilla::gfx; typedef FrameMetrics::ViewID ViewID; const ViewID FrameMetrics::NULL_SCROLL_ID = 0; const ViewID FrameMetrics::ROOT_SCROLL_ID = 1; const ViewID FrameMetrics::START_SCROLL_ID = 2; #ifdef MOZ_LAYERS_HAVE_LOG FILE* FILEOrDefault(FILE* aFile) { return aFile ? aFile : stderr; } #endif // MOZ_LAYERS_HAVE_LOG namespace { // XXX pretty general utilities, could centralize nsACString& AppendToString(nsACString& s, const void* p, const char* pfx="", const char* sfx="") { s += pfx; s += nsPrintfCString("%p", p); return s += sfx; } nsACString& AppendToString(nsACString& s, const gfxPattern::GraphicsFilter& f, const char* pfx="", const char* sfx="") { s += pfx; switch (f) { case gfxPattern::FILTER_FAST: s += "fast"; break; case gfxPattern::FILTER_GOOD: s += "good"; break; case gfxPattern::FILTER_BEST: s += "best"; break; case gfxPattern::FILTER_NEAREST: s += "nearest"; break; case gfxPattern::FILTER_BILINEAR: s += "bilinear"; break; case gfxPattern::FILTER_GAUSSIAN: s += "gaussian"; break; default: NS_ERROR("unknown filter type"); s += "???"; } return s += sfx; } nsACString& AppendToString(nsACString& s, ViewID n, const char* pfx="", const char* sfx="") { s += pfx; s.AppendInt(n); return s += sfx; } nsACString& AppendToString(nsACString& s, const gfxRGBA& c, const char* pfx="", const char* sfx="") { s += pfx; s += nsPrintfCString( "rgba(%d, %d, %d, %g)", PRUint8(c.r*255.0), PRUint8(c.g*255.0), PRUint8(c.b*255.0), c.a); return s += sfx; } nsACString& AppendToString(nsACString& s, const gfx3DMatrix& m, const char* pfx="", const char* sfx="") { s += pfx; if (m.IsIdentity()) s += "[ I ]"; else { gfxMatrix matrix; if (m.Is2D(&matrix)) { s += nsPrintfCString( "[ %g %g; %g %g; %g %g; ]", matrix.xx, matrix.yx, matrix.xy, matrix.yy, matrix.x0, matrix.y0); } else { s += nsPrintfCString( "[ %g %g %g %g; %g %g %g %g; %g %g %g %g; %g %g %g %g; ]", m._11, m._12, m._13, m._14, m._21, m._22, m._23, m._24, m._31, m._32, m._33, m._34, m._41, m._42, m._43, m._44); } } return s += sfx; } nsACString& AppendToString(nsACString& s, const nsIntPoint& p, const char* pfx="", const char* sfx="") { s += pfx; s += nsPrintfCString("(x=%d, y=%d)", p.x, p.y); return s += sfx; } nsACString& AppendToString(nsACString& s, const nsIntRect& r, const char* pfx="", const char* sfx="") { s += pfx; s += nsPrintfCString( "(x=%d, y=%d, w=%d, h=%d)", r.x, r.y, r.width, r.height); return s += sfx; } nsACString& AppendToString(nsACString& s, const nsIntRegion& r, const char* pfx="", const char* sfx="") { s += pfx; nsIntRegionRectIterator it(r); s += "< "; while (const nsIntRect* sr = it.Next()) AppendToString(s, *sr) += "; "; s += ">"; return s += sfx; } nsACString& AppendToString(nsACString& s, const nsIntSize& sz, const char* pfx="", const char* sfx="") { s += pfx; s += nsPrintfCString("(w=%d, h=%d)", sz.width, sz.height); return s += sfx; } nsACString& AppendToString(nsACString& s, const FrameMetrics& m, const char* pfx="", const char* sfx="") { s += pfx; AppendToString(s, m.mViewport, "{ viewport="); AppendToString(s, m.mViewportScrollOffset, " viewportScroll="); AppendToString(s, m.mDisplayPort, " displayport="); AppendToString(s, m.mScrollId, " scrollId=", " }"); return s += sfx; } } // namespace namespace mozilla { namespace layers { //-------------------------------------------------- // LayerManager already_AddRefed LayerManager::CreateOptimalSurface(const gfxIntSize &aSize, gfxASurface::gfxImageFormat aFormat) { return gfxPlatform::GetPlatform()-> CreateOffscreenSurface(aSize, gfxASurface::ContentFromFormat(aFormat)); } already_AddRefed LayerManager::CreateOptimalMaskSurface(const gfxIntSize &aSize) { return CreateOptimalSurface(aSize, gfxASurface::ImageFormatA8); } TemporaryRef LayerManager::CreateDrawTarget(const IntSize &aSize, SurfaceFormat aFormat) { return gfxPlatform::GetPlatform()-> CreateOffscreenDrawTarget(aSize, aFormat); } #ifdef DEBUG void LayerManager::Mutated(Layer* aLayer) { } #endif // DEBUG already_AddRefed LayerManager::CreateImageContainer() { nsRefPtr container = new ImageContainer(ImageContainer::DISABLE_ASYNC); return container.forget(); } already_AddRefed LayerManager::CreateAsynchronousImageContainer() { nsRefPtr container = new ImageContainer(ImageContainer::ENABLE_ASYNC); return container.forget(); } //-------------------------------------------------- // Layer Layer::Layer(LayerManager* aManager, void* aImplData) : mManager(aManager), mParent(nullptr), mNextSibling(nullptr), mPrevSibling(nullptr), mImplData(aImplData), mMaskLayer(nullptr), mPostXScale(1.0f), mPostYScale(1.0f), mOpacity(1.0), mContentFlags(0), mUseClipRect(false), mUseTileSourceRect(false), mIsFixedPosition(false), mDebugColorIndex(0) {} Layer::~Layer() {} Animation* Layer::AddAnimation(TimeStamp aStart, TimeDuration aDuration, float aIterations, int aDirection, nsCSSProperty aProperty, const AnimationData& aData) { Animation* anim = mAnimations.AppendElement(); anim->startTime() = aStart; anim->duration() = aDuration; anim->numIterations() = aIterations; anim->direction() = aDirection; anim->property() = aProperty; anim->data() = aData; Mutated(); return anim; } void Layer::ClearAnimations() { mAnimations.Clear(); mAnimationData.Clear(); Mutated(); } static nsCSSValueList* CreateCSSValueList(const InfallibleTArray& aFunctions) { nsAutoPtr result; nsCSSValueList** resultTail = getter_Transfers(result); for (PRUint32 i = 0; i < aFunctions.Length(); i++) { nsRefPtr arr; switch (aFunctions[i].type()) { case TransformFunction::TRotationX: { float theta = aFunctions[i].get_RotationX().radians(); arr = nsStyleAnimation::AppendTransformFunction(eCSSKeyword_rotatex, resultTail); arr->Item(1).SetFloatValue(theta, eCSSUnit_Radian); break; } case TransformFunction::TRotationY: { float theta = aFunctions[i].get_RotationY().radians(); arr = nsStyleAnimation::AppendTransformFunction(eCSSKeyword_rotatey, resultTail); arr->Item(1).SetFloatValue(theta, eCSSUnit_Radian); break; } case TransformFunction::TRotationZ: { float theta = aFunctions[i].get_RotationZ().radians(); arr = nsStyleAnimation::AppendTransformFunction(eCSSKeyword_rotatez, resultTail); arr->Item(1).SetFloatValue(theta, eCSSUnit_Radian); break; } case TransformFunction::TRotation: { float theta = aFunctions[i].get_Rotation().radians(); arr = nsStyleAnimation::AppendTransformFunction(eCSSKeyword_rotate, resultTail); arr->Item(1).SetFloatValue(theta, eCSSUnit_Radian); break; } case TransformFunction::TRotation3D: { float x = aFunctions[i].get_Rotation3D().x(); float y = aFunctions[i].get_Rotation3D().y(); float z = aFunctions[i].get_Rotation3D().z(); float theta = aFunctions[i].get_Rotation3D().radians(); arr = nsStyleAnimation::AppendTransformFunction(eCSSKeyword_rotate3d, resultTail); arr->Item(1).SetFloatValue(x, eCSSUnit_Number); arr->Item(2).SetFloatValue(y, eCSSUnit_Number); arr->Item(3).SetFloatValue(z, eCSSUnit_Number); arr->Item(4).SetFloatValue(theta, eCSSUnit_Radian); break; } case TransformFunction::TScale: { arr = nsStyleAnimation::AppendTransformFunction(eCSSKeyword_scale3d, resultTail); arr->Item(1).SetFloatValue(aFunctions[i].get_Scale().x(), eCSSUnit_Number); arr->Item(2).SetFloatValue(aFunctions[i].get_Scale().y(), eCSSUnit_Number); arr->Item(3).SetFloatValue(aFunctions[i].get_Scale().z(), eCSSUnit_Number); break; } case TransformFunction::TTranslation: { arr = nsStyleAnimation::AppendTransformFunction(eCSSKeyword_translate3d, resultTail); arr->Item(1).SetFloatValue(aFunctions[i].get_Translation().x(), eCSSUnit_Pixel); arr->Item(2).SetFloatValue(aFunctions[i].get_Translation().y(), eCSSUnit_Pixel); arr->Item(3).SetFloatValue(aFunctions[i].get_Translation().z(), eCSSUnit_Pixel); break; } case TransformFunction::TSkewX: { float x = aFunctions[i].get_SkewX().x(); arr = nsStyleAnimation::AppendTransformFunction(eCSSKeyword_skewx, resultTail); arr->Item(1).SetFloatValue(x, eCSSUnit_Number); break; } case TransformFunction::TSkewY: { float y = aFunctions[i].get_SkewY().y(); arr = nsStyleAnimation::AppendTransformFunction(eCSSKeyword_skewy, resultTail); arr->Item(1).SetFloatValue(y, eCSSUnit_Number); break; } case TransformFunction::TTransformMatrix: { arr = nsStyleAnimation::AppendTransformFunction(eCSSKeyword_matrix3d, resultTail); const gfx3DMatrix& matrix = aFunctions[i].get_TransformMatrix().value(); arr->Item(1).SetFloatValue(matrix._11, eCSSUnit_Number); arr->Item(2).SetFloatValue(matrix._12, eCSSUnit_Number); arr->Item(3).SetFloatValue(matrix._13, eCSSUnit_Number); arr->Item(4).SetFloatValue(matrix._14, eCSSUnit_Number); arr->Item(5).SetFloatValue(matrix._21, eCSSUnit_Number); arr->Item(6).SetFloatValue(matrix._22, eCSSUnit_Number); arr->Item(7).SetFloatValue(matrix._23, eCSSUnit_Number); arr->Item(8).SetFloatValue(matrix._24, eCSSUnit_Number); arr->Item(9).SetFloatValue(matrix._31, eCSSUnit_Number); arr->Item(10).SetFloatValue(matrix._32, eCSSUnit_Number); arr->Item(11).SetFloatValue(matrix._33, eCSSUnit_Number); arr->Item(12).SetFloatValue(matrix._34, eCSSUnit_Number); arr->Item(13).SetFloatValue(matrix._41, eCSSUnit_Number); arr->Item(14).SetFloatValue(matrix._42, eCSSUnit_Number); arr->Item(15).SetFloatValue(matrix._43, eCSSUnit_Number); arr->Item(16).SetFloatValue(matrix._44, eCSSUnit_Number); break; } case TransformFunction::TPerspective: { float perspective = aFunctions[i].get_Perspective().value(); arr = nsStyleAnimation::AppendTransformFunction(eCSSKeyword_perspective, resultTail); arr->Item(1).SetFloatValue(perspective, eCSSUnit_Pixel); break; } default: NS_ASSERTION(false, "All functions should be implemented?"); } } return result.forget(); } void Layer::SetAnimations(const AnimationArray& aAnimations) { mAnimations = aAnimations; mAnimationData.Clear(); for (PRUint32 i = 0; i < mAnimations.Length(); i++) { AnimData data; InfallibleTArray* functions = &data.mFunctions; nsTArray segments = mAnimations.ElementAt(i).segments(); for (PRUint32 j = 0; j < segments.Length(); j++) { TimingFunction tf = segments.ElementAt(j).sampleFn(); css::ComputedTimingFunction* ctf = new css::ComputedTimingFunction(); switch (tf.type()) { case TimingFunction::TCubicBezierFunction: { CubicBezierFunction cbf = tf.get_CubicBezierFunction(); ctf->Init(nsTimingFunction(cbf.x1(), cbf.y1(), cbf.x2(), cbf.y2())); break; } default: { NS_ASSERTION(tf.type() == TimingFunction::TStepFunction, "Function must be bezier or step"); StepFunction sf = tf.get_StepFunction(); nsTimingFunction::Type type = sf.type() == 1 ? nsTimingFunction::StepStart : nsTimingFunction::StepEnd; ctf->Init(nsTimingFunction(type, sf.steps())); break; } } functions->AppendElement(ctf); } // Precompute the nsStyleAnimation::Values that we need if this is a transform // animation. InfallibleTArray* startValues = &data.mStartValues; InfallibleTArray* endValues = &data.mEndValues; for (PRUint32 j = 0; j < mAnimations[i].segments().Length(); j++) { const AnimationSegment& segment = mAnimations[i].segments()[j]; if (segment.endState().type() == Animatable::TArrayOfTransformFunction) { const InfallibleTArray& startFunctions = segment.startState().get_ArrayOfTransformFunction(); nsStyleAnimation::Value startValue; nsCSSValueList* startList; if (startFunctions.Length() > 0) { startList = CreateCSSValueList(startFunctions); } else { startList = new nsCSSValueList(); startList->mValue.SetNoneValue(); } startValue.SetAndAdoptCSSValueListValue(startList, nsStyleAnimation::eUnit_Transform); startValues->AppendElement(startValue); const InfallibleTArray& endFunctions = segment.endState().get_ArrayOfTransformFunction(); nsStyleAnimation::Value endValue; nsCSSValueList* endList; if (endFunctions.Length() > 0) { endList = CreateCSSValueList(endFunctions); } else { endList = new nsCSSValueList(); endList->mValue.SetNoneValue(); } endValue.SetAndAdoptCSSValueListValue(endList, nsStyleAnimation::eUnit_Transform); endValues->AppendElement(endValue); } else { NS_ASSERTION(segment.endState().type() == Animatable::Tfloat, "Unknown Animatable type"); nsStyleAnimation::Value startValue; startValue.SetFloatValue(segment.startState().get_float()); startValues->AppendElement(startValue); nsStyleAnimation::Value endValue; endValue.SetFloatValue(segment.endState().get_float()); endValues->AppendElement(endValue); } } mAnimationData.AppendElement(data); } Mutated(); } bool Layer::CanUseOpaqueSurface() { // If the visible content in the layer is opaque, there is no need // for an alpha channel. if (GetContentFlags() & CONTENT_OPAQUE) return true; // Also, if this layer is the bottommost layer in a container which // doesn't need an alpha channel, we can use an opaque surface for this // layer too. Any transparent areas must be covered by something else // in the container. ContainerLayer* parent = GetParent(); return parent && parent->GetFirstChild() == this && parent->CanUseOpaqueSurface(); } // NB: eventually these methods will be defined unconditionally, and // can be moved into Layers.h const nsIntRect* Layer::GetEffectiveClipRect() { if (ShadowLayer* shadow = AsShadowLayer()) { return shadow->GetShadowClipRect(); } return GetClipRect(); } const nsIntRegion& Layer::GetEffectiveVisibleRegion() { if (ShadowLayer* shadow = AsShadowLayer()) { return shadow->GetShadowVisibleRegion(); } return GetVisibleRegion(); } gfx3DMatrix Layer::SnapTransform(const gfx3DMatrix& aTransform, const gfxRect& aSnapRect, gfxMatrix* aResidualTransform) { if (aResidualTransform) { *aResidualTransform = gfxMatrix(); } gfxMatrix matrix2D; gfx3DMatrix result; if (mManager->IsSnappingEffectiveTransforms() && aTransform.Is2D(&matrix2D) && matrix2D.HasNonIntegerTranslation() && !matrix2D.IsSingular() && !matrix2D.HasNonAxisAlignedTransform()) { gfxMatrix snappedMatrix; gfxPoint topLeft = matrix2D.Transform(aSnapRect.TopLeft()); topLeft.Round(); // first compute scale factors that scale aSnapRect to the snapped rect if (aSnapRect.IsEmpty()) { snappedMatrix.xx = matrix2D.xx; snappedMatrix.yy = matrix2D.yy; } else { gfxPoint bottomRight = matrix2D.Transform(aSnapRect.BottomRight()); bottomRight.Round(); snappedMatrix.xx = (bottomRight.x - topLeft.x)/aSnapRect.Width(); snappedMatrix.yy = (bottomRight.y - topLeft.y)/aSnapRect.Height(); } // compute translation factors that will move aSnapRect to the snapped rect // given those scale factors snappedMatrix.x0 = topLeft.x - aSnapRect.X()*snappedMatrix.xx; snappedMatrix.y0 = topLeft.y - aSnapRect.Y()*snappedMatrix.yy; result = gfx3DMatrix::From2D(snappedMatrix); if (aResidualTransform && !snappedMatrix.IsSingular()) { // set aResidualTransform so that aResidual * snappedMatrix == matrix2D. // (i.e., appying snappedMatrix after aResidualTransform gives the // ideal transform. gfxMatrix snappedMatrixInverse = snappedMatrix; snappedMatrixInverse.Invert(); *aResidualTransform = matrix2D * snappedMatrixInverse; } } else { result = aTransform; } return result; } nsIntRect Layer::CalculateScissorRect(const nsIntRect& aCurrentScissorRect, const gfxMatrix* aWorldTransform) { ContainerLayer* container = GetParent(); NS_ASSERTION(container, "This can't be called on the root!"); // Establish initial clip rect: it's either the one passed in, or // if the parent has an intermediate surface, it's the extents of that surface. nsIntRect currentClip; if (container->UseIntermediateSurface()) { currentClip.SizeTo(container->GetIntermediateSurfaceRect().Size()); } else { currentClip = aCurrentScissorRect; } const nsIntRect *clipRect = GetEffectiveClipRect(); if (!clipRect) return currentClip; if (clipRect->IsEmpty()) { // We might have a non-translation transform in the container so we can't // use the code path below. return nsIntRect(currentClip.TopLeft(), nsIntSize(0, 0)); } nsIntRect scissor = *clipRect; if (!container->UseIntermediateSurface()) { gfxMatrix matrix; DebugOnly is2D = container->GetEffectiveTransform().Is2D(&matrix); // See DefaultComputeEffectiveTransforms below NS_ASSERTION(is2D && matrix.PreservesAxisAlignedRectangles(), "Non preserves axis aligned transform with clipped child should have forced intermediate surface"); gfxRect r(scissor.x, scissor.y, scissor.width, scissor.height); gfxRect trScissor = matrix.TransformBounds(r); trScissor.Round(); if (!gfxUtils::GfxRectToIntRect(trScissor, &scissor)) { return nsIntRect(currentClip.TopLeft(), nsIntSize(0, 0)); } // Find the nearest ancestor with an intermediate surface do { container = container->GetParent(); } while (container && !container->UseIntermediateSurface()); } if (container) { scissor.MoveBy(-container->GetIntermediateSurfaceRect().TopLeft()); } else if (aWorldTransform) { gfxRect r(scissor.x, scissor.y, scissor.width, scissor.height); gfxRect trScissor = aWorldTransform->TransformBounds(r); trScissor.Round(); if (!gfxUtils::GfxRectToIntRect(trScissor, &scissor)) return nsIntRect(currentClip.TopLeft(), nsIntSize(0, 0)); } return currentClip.Intersect(scissor); } const gfx3DMatrix Layer::GetTransform() { gfx3DMatrix transform = mTransform; if (ContainerLayer* c = AsContainerLayer()) { transform.Scale(c->GetPreXScale(), c->GetPreYScale(), 1.0f); } transform.ScalePost(mPostXScale, mPostYScale, 1.0f); return transform; } const gfx3DMatrix Layer::GetLocalTransform() { gfx3DMatrix transform; if (ShadowLayer* shadow = AsShadowLayer()) transform = shadow->GetShadowTransform(); else transform = mTransform; if (ContainerLayer* c = AsContainerLayer()) { transform.Scale(c->GetPreXScale(), c->GetPreYScale(), 1.0f); } transform.ScalePost(mPostXScale, mPostYScale, 1.0f); return transform; } const float Layer::GetLocalOpacity() { if (ShadowLayer* shadow = AsShadowLayer()) return shadow->GetShadowOpacity(); return mOpacity; } float Layer::GetEffectiveOpacity() { float opacity = GetLocalOpacity(); for (ContainerLayer* c = GetParent(); c && !c->UseIntermediateSurface(); c = c->GetParent()) { opacity *= c->GetLocalOpacity(); } return opacity; } void Layer::ComputeEffectiveTransformForMaskLayer(const gfx3DMatrix& aTransformToSurface) { if (mMaskLayer) { mMaskLayer->mEffectiveTransform = aTransformToSurface; #ifdef DEBUG gfxMatrix maskTranslation; bool maskIs2D = mMaskLayer->GetTransform().CanDraw2D(&maskTranslation); NS_ASSERTION(maskIs2D, "How did we end up with a 3D transform here?!"); #endif mMaskLayer->mEffectiveTransform.PreMultiply(mMaskLayer->GetTransform()); } } void ContainerLayer::FillSpecificAttributes(SpecificLayerAttributes& aAttrs) { aAttrs = ContainerLayerAttributes(GetFrameMetrics(), mPreXScale, mPreYScale); } bool ContainerLayer::HasMultipleChildren() { PRUint32 count = 0; for (Layer* child = GetFirstChild(); child; child = child->GetNextSibling()) { const nsIntRect *clipRect = child->GetEffectiveClipRect(); if (clipRect && clipRect->IsEmpty()) continue; if (child->GetVisibleRegion().IsEmpty()) continue; ++count; if (count > 1) return true; } return false; } void ContainerLayer::SortChildrenBy3DZOrder(nsTArray& aArray) { nsAutoTArray toSort; for (Layer* l = GetFirstChild(); l; l = l->GetNextSibling()) { ContainerLayer* container = l->AsContainerLayer(); if (container && container->GetContentFlags() & CONTENT_PRESERVE_3D) { toSort.AppendElement(l); } else { if (toSort.Length() > 0) { SortLayersBy3DZOrder(toSort); aArray.MoveElementsFrom(toSort); } aArray.AppendElement(l); } } if (toSort.Length() > 0) { SortLayersBy3DZOrder(toSort); aArray.MoveElementsFrom(toSort); } } void ContainerLayer::DefaultComputeEffectiveTransforms(const gfx3DMatrix& aTransformToSurface) { gfxMatrix residual; gfx3DMatrix idealTransform = GetLocalTransform()*aTransformToSurface; idealTransform.ProjectTo2D(); mEffectiveTransform = SnapTransform(idealTransform, gfxRect(0, 0, 0, 0), &residual); bool useIntermediateSurface; if (GetMaskLayer()) { useIntermediateSurface = true; #ifdef MOZ_DUMP_PAINTING } else if (gfxUtils::sDumpPainting) { useIntermediateSurface = true; #endif } else { float opacity = GetEffectiveOpacity(); if (opacity != 1.0f && HasMultipleChildren()) { useIntermediateSurface = true; } else { useIntermediateSurface = false; gfxMatrix contTransform; if (!mEffectiveTransform.Is2D(&contTransform) || #ifdef MOZ_GFX_OPTIMIZE_MOBILE !contTransform.PreservesAxisAlignedRectangles()) { #else contTransform.HasNonIntegerTranslation()) { #endif for (Layer* child = GetFirstChild(); child; child = child->GetNextSibling()) { const nsIntRect *clipRect = child->GetEffectiveClipRect(); /* We can't (easily) forward our transform to children with a non-empty clip * rect since it would need to be adjusted for the transform. See * the calculations performed by CalculateScissorRect above. * Nor for a child with a mask layer. */ if ((clipRect && !clipRect->IsEmpty() && !child->GetVisibleRegion().IsEmpty()) || child->GetMaskLayer()) { useIntermediateSurface = true; break; } } } } } mUseIntermediateSurface = useIntermediateSurface; if (useIntermediateSurface) { ComputeEffectiveTransformsForChildren(gfx3DMatrix::From2D(residual)); } else { ComputeEffectiveTransformsForChildren(idealTransform); } if (idealTransform.CanDraw2D()) { ComputeEffectiveTransformForMaskLayer(aTransformToSurface); } else { ComputeEffectiveTransformForMaskLayer(gfx3DMatrix()); } } void ContainerLayer::ComputeEffectiveTransformsForChildren(const gfx3DMatrix& aTransformToSurface) { for (Layer* l = mFirstChild; l; l = l->GetNextSibling()) { l->ComputeEffectiveTransforms(aTransformToSurface); } } void ContainerLayer::DidRemoveChild(Layer* aLayer) { ThebesLayer* tl = aLayer->AsThebesLayer(); if (tl && tl->UsedForReadback()) { for (Layer* l = mFirstChild; l; l = l->GetNextSibling()) { if (l->GetType() == TYPE_READBACK) { static_cast(l)->NotifyThebesLayerRemoved(tl); } } } if (aLayer->GetType() == TYPE_READBACK) { static_cast(aLayer)->NotifyRemoved(); } } void ContainerLayer::DidInsertChild(Layer* aLayer) { if (aLayer->GetType() == TYPE_READBACK) { mMayHaveReadbackChild = true; } } void RefLayer::FillSpecificAttributes(SpecificLayerAttributes& aAttrs) { aAttrs = RefLayerAttributes(GetReferentId()); } void LayerManager::StartFrameTimeRecording() { mLastFrameTime = TimeStamp::Now(); } void LayerManager::PostPresent() { if (!mLastFrameTime.IsNull()) { TimeStamp now = TimeStamp::Now(); mFrameTimes.AppendElement((now - mLastFrameTime).ToMilliseconds()); mLastFrameTime = now; } } nsTArray LayerManager::StopFrameTimeRecording() { mLastFrameTime = TimeStamp(); nsTArray result = mFrameTimes; mFrameTimes.Clear(); return result; } #ifdef MOZ_LAYERS_HAVE_LOG static nsACString& PrintInfo(nsACString& aTo, ShadowLayer* aShadowLayer); #ifdef MOZ_DUMP_PAINTING template void WriteSnapshotLinkToDumpFile(T* aObj, FILE* aFile) { nsCString string(aObj->Name()); string.Append("-"); string.AppendInt((PRUint64)aObj); fprintf(aFile, "href=\"javascript:ViewImage('%s')\"", string.BeginReading()); } template void WriteSnapshotToDumpFile_internal(T* aObj, gfxASurface* aSurf) { nsCString string(aObj->Name()); string.Append("-"); string.AppendInt((PRUint64)aObj); if (gfxUtils::sDumpPaintFile) fprintf(gfxUtils::sDumpPaintFile, "array[\"%s\"]=\"", string.BeginReading()); aSurf->DumpAsDataURL(gfxUtils::sDumpPaintFile); if (gfxUtils::sDumpPaintFile) fprintf(gfxUtils::sDumpPaintFile, "\";"); } void WriteSnapshotToDumpFile(Layer* aLayer, gfxASurface* aSurf) { WriteSnapshotToDumpFile_internal(aLayer, aSurf); } void WriteSnapshotToDumpFile(LayerManager* aManager, gfxASurface* aSurf) { WriteSnapshotToDumpFile_internal(aManager, aSurf); } #endif void Layer::Dump(FILE* aFile, const char* aPrefix, bool aDumpHtml) { if (aDumpHtml) { fprintf(aFile, "
  • "); } DumpSelf(aFile, aPrefix); if (aDumpHtml) { fprintf(aFile, ""); } if (Layer* mask = GetMaskLayer()) { nsCAutoString pfx(aPrefix); pfx += " Mask layer: "; mask->Dump(aFile, pfx.get()); } if (Layer* kid = GetFirstChild()) { nsCAutoString pfx(aPrefix); pfx += " "; if (aDumpHtml) { fprintf(aFile, "
      "); } kid->Dump(aFile, pfx.get()); if (aDumpHtml) { fprintf(aFile, "
    "); } } if (aDumpHtml) { fprintf(aFile, "
  • "); } if (Layer* next = GetNextSibling()) next->Dump(aFile, aPrefix, aDumpHtml); } void Layer::DumpSelf(FILE* aFile, const char* aPrefix) { nsCAutoString str; PrintInfo(str, aPrefix); fprintf(FILEOrDefault(aFile), "%s\n", str.get()); } void Layer::Log(const char* aPrefix) { if (!IsLogEnabled()) return; LogSelf(aPrefix); if (Layer* kid = GetFirstChild()) { nsCAutoString pfx(aPrefix); pfx += " "; kid->Log(pfx.get()); } if (Layer* next = GetNextSibling()) next->Log(aPrefix); } void Layer::LogSelf(const char* aPrefix) { if (!IsLogEnabled()) return; nsCAutoString str; PrintInfo(str, aPrefix); MOZ_LAYERS_LOG(("%s", str.get())); } nsACString& Layer::PrintInfo(nsACString& aTo, const char* aPrefix) { aTo += aPrefix; aTo += nsPrintfCString("%s%s (0x%p)", mManager->Name(), Name(), this); ::PrintInfo(aTo, AsShadowLayer()); if (mUseClipRect) { AppendToString(aTo, mClipRect, " [clip=", "]"); } if (1.0 != mPostXScale || 1.0 != mPostYScale) { aTo.AppendPrintf(" [postScale=%g, %g]", mPostXScale, mPostYScale); } if (!mTransform.IsIdentity()) { AppendToString(aTo, mTransform, " [transform=", "]"); } if (!mVisibleRegion.IsEmpty()) { AppendToString(aTo, mVisibleRegion, " [visible=", "]"); } if (1.0 != mOpacity) { aTo.AppendPrintf(" [opacity=%g]", mOpacity); } if (GetContentFlags() & CONTENT_OPAQUE) { aTo += " [opaqueContent]"; } if (GetContentFlags() & CONTENT_COMPONENT_ALPHA) { aTo += " [componentAlpha]"; } if (GetIsFixedPosition()) { aTo += " [isFixedPosition]"; } return aTo; } nsACString& ThebesLayer::PrintInfo(nsACString& aTo, const char* aPrefix) { Layer::PrintInfo(aTo, aPrefix); if (!mValidRegion.IsEmpty()) { AppendToString(aTo, mValidRegion, " [valid=", "]"); } return aTo; } nsACString& ContainerLayer::PrintInfo(nsACString& aTo, const char* aPrefix) { Layer::PrintInfo(aTo, aPrefix); if (!mFrameMetrics.IsDefault()) { AppendToString(aTo, mFrameMetrics, " [metrics=", "]"); } if (UseIntermediateSurface()) { aTo += " [usesTmpSurf]"; } if (1.0 != mPreXScale || 1.0 != mPreYScale) { aTo.AppendPrintf(" [preScale=%g, %g]", mPreXScale, mPreYScale); } return aTo; } nsACString& ColorLayer::PrintInfo(nsACString& aTo, const char* aPrefix) { Layer::PrintInfo(aTo, aPrefix); AppendToString(aTo, mColor, " [color=", "]"); return aTo; } nsACString& CanvasLayer::PrintInfo(nsACString& aTo, const char* aPrefix) { Layer::PrintInfo(aTo, aPrefix); if (mFilter != gfxPattern::FILTER_GOOD) { AppendToString(aTo, mFilter, " [filter=", "]"); } return aTo; } nsACString& ImageLayer::PrintInfo(nsACString& aTo, const char* aPrefix) { Layer::PrintInfo(aTo, aPrefix); if (mFilter != gfxPattern::FILTER_GOOD) { AppendToString(aTo, mFilter, " [filter=", "]"); } return aTo; } nsACString& RefLayer::PrintInfo(nsACString& aTo, const char* aPrefix) { ContainerLayer::PrintInfo(aTo, aPrefix); if (-1 != mId) { AppendToString(aTo, mId, " [id=", "]"); } return aTo; } nsACString& ReadbackLayer::PrintInfo(nsACString& aTo, const char* aPrefix) { Layer::PrintInfo(aTo, aPrefix); AppendToString(aTo, mSize, " [size=", "]"); if (mBackgroundLayer) { AppendToString(aTo, mBackgroundLayer, " [backgroundLayer=", "]"); AppendToString(aTo, mBackgroundLayerOffset, " [backgroundOffset=", "]"); } else if (mBackgroundColor.a == 1.0) { AppendToString(aTo, mBackgroundColor, " [backgroundColor=", "]"); } else { aTo += " [nobackground]"; } return aTo; } //-------------------------------------------------- // LayerManager void LayerManager::Dump(FILE* aFile, const char* aPrefix, bool aDumpHtml) { FILE* file = FILEOrDefault(aFile); #ifdef MOZ_DUMP_PAINTING if (aDumpHtml) { fprintf(file, ""); } return; } if (aDumpHtml) { fprintf(file, "
      "); } GetRoot()->Dump(file, pfx.get(), aDumpHtml); if (aDumpHtml) { fprintf(file, "
    "); } fputc('\n', file); } void LayerManager::DumpSelf(FILE* aFile, const char* aPrefix) { nsCAutoString str; PrintInfo(str, aPrefix); fprintf(FILEOrDefault(aFile), "%s\n", str.get()); } void LayerManager::Log(const char* aPrefix) { if (!IsLogEnabled()) return; LogSelf(aPrefix); nsCAutoString pfx(aPrefix); pfx += " "; if (!GetRoot()) { MOZ_LAYERS_LOG(("%s(null)", pfx.get())); return; } GetRoot()->Log(pfx.get()); } void LayerManager::LogSelf(const char* aPrefix) { nsCAutoString str; PrintInfo(str, aPrefix); MOZ_LAYERS_LOG(("%s", str.get())); } nsACString& LayerManager::PrintInfo(nsACString& aTo, const char* aPrefix) { aTo += aPrefix; return aTo += nsPrintfCString("%sLayerManager (0x%p)", Name(), this); } /*static*/ void LayerManager::InitLog() { if (!sLog) sLog = PR_NewLogModule("Layers"); } /*static*/ bool LayerManager::IsLogEnabled() { NS_ABORT_IF_FALSE(!!sLog, "layer manager must be created before logging is allowed"); return PR_LOG_TEST(sLog, PR_LOG_DEBUG); } static nsACString& PrintInfo(nsACString& aTo, ShadowLayer* aShadowLayer) { if (!aShadowLayer) { return aTo; } if (const nsIntRect* clipRect = aShadowLayer->GetShadowClipRect()) { AppendToString(aTo, *clipRect, " [shadow-clip=", "]"); } if (!aShadowLayer->GetShadowTransform().IsIdentity()) { AppendToString(aTo, aShadowLayer->GetShadowTransform(), " [shadow-transform=", "]"); } if (!aShadowLayer->GetShadowVisibleRegion().IsEmpty()) { AppendToString(aTo, aShadowLayer->GetShadowVisibleRegion(), " [shadow-visible=", "]"); } return aTo; } #else // !MOZ_LAYERS_HAVE_LOG void Layer::Dump(FILE* aFile, const char* aPrefix, bool aDumpHtml) {} void Layer::DumpSelf(FILE* aFile, const char* aPrefix) {} void Layer::Log(const char* aPrefix) {} void Layer::LogSelf(const char* aPrefix) {} nsACString& Layer::PrintInfo(nsACString& aTo, const char* aPrefix) { return aTo; } nsACString& ThebesLayer::PrintInfo(nsACString& aTo, const char* aPrefix) { return aTo; } nsACString& ContainerLayer::PrintInfo(nsACString& aTo, const char* aPrefix) { return aTo; } nsACString& ColorLayer::PrintInfo(nsACString& aTo, const char* aPrefix) { return aTo; } nsACString& CanvasLayer::PrintInfo(nsACString& aTo, const char* aPrefix) { return aTo; } nsACString& ImageLayer::PrintInfo(nsACString& aTo, const char* aPrefix) { return aTo; } nsACString& RefLayer::PrintInfo(nsACString& aTo, const char* aPrefix) { return aTo; } nsACString& ReadbackLayer::PrintInfo(nsACString& aTo, const char* aPrefix) { return aTo; } void LayerManager::Dump(FILE* aFile, const char* aPrefix, bool aDumpHtml) {} void LayerManager::DumpSelf(FILE* aFile, const char* aPrefix) {} void LayerManager::Log(const char* aPrefix) {} void LayerManager::LogSelf(const char* aPrefix) {} nsACString& LayerManager::PrintInfo(nsACString& aTo, const char* aPrefix) { return aTo; } /*static*/ void LayerManager::InitLog() {} /*static*/ bool LayerManager::IsLogEnabled() { return false; } #endif // MOZ_LAYERS_HAVE_LOG PRLogModuleInfo* LayerManager::sLog; } // namespace layers } // namespace mozilla