gecko/gfx/layers/Layers.h

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/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* ***** BEGIN LICENSE BLOCK *****
* Version: MPL 1.1/GPL 2.0/LGPL 2.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (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.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is Mozilla Corporation code.
*
* The Initial Developer of the Original Code is Mozilla Foundation.
* Portions created by the Initial Developer are Copyright (C) 2009
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
* Robert O'Callahan <robert@ocallahan.org>
*
* Alternatively, the contents of this file may be used under the terms of
* either the GNU General Public License Version 2 or later (the "GPL"), or
* the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
* in which case the provisions of the GPL or the LGPL are applicable instead
* of those above. If you wish to allow use of your version of this file only
* under the terms of either the GPL or the LGPL, and not to allow others to
* use your version of this file under the terms of the MPL, indicate your
* decision by deleting the provisions above and replace them with the notice
* and other provisions required by the GPL or the LGPL. If you do not delete
* the provisions above, a recipient may use your version of this file under
* the terms of any one of the MPL, the GPL or the LGPL.
*
* ***** END LICENSE BLOCK ***** */
#ifndef GFX_LAYERS_H
#define GFX_LAYERS_H
#include "gfxTypes.h"
#include "gfxASurface.h"
#include "nsRegion.h"
#include "nsPoint.h"
#include "nsRect.h"
#include "nsISupportsImpl.h"
#include "nsAutoPtr.h"
#include "gfx3DMatrix.h"
#include "gfxColor.h"
#include "gfxPattern.h"
#if defined(DEBUG) || defined(PR_LOGGING)
# include <stdio.h> // FILE
# include "prlog.h"
# define MOZ_LAYERS_HAVE_LOG
# define MOZ_LAYERS_LOG(_args) \
PR_LOG(LayerManager::GetLog(), PR_LOG_DEBUG, _args)
#else
struct PRLogModuleInfo;
# define MOZ_LAYERS_LOG(_args)
#endif // if defined(DEBUG) || defined(PR_LOGGING)
class gfxContext;
class nsPaintEvent;
namespace mozilla {
namespace gl {
class GLContext;
}
namespace layers {
class Layer;
class ThebesLayer;
class ContainerLayer;
class ImageLayer;
class ColorLayer;
class ImageContainer;
class CanvasLayer;
class SpecificLayerAttributes;
#define MOZ_LAYER_DECL_NAME(n, e) \
virtual const char* Name() const { return n; } \
virtual LayerType GetType() const { return e; }
/*
* Motivation: For truly smooth animation and video playback, we need to
* be able to compose frames and render them on a dedicated thread (i.e.
* off the main thread where DOM manipulation, script execution and layout
* induce difficult-to-bound latency). This requires Gecko to construct
* some kind of persistent scene structure (graph or tree) that can be
* safely transmitted across threads. We have other scenarios (e.g. mobile
* browsing) where retaining some rendered data between paints is desired
* for performance, so again we need a retained scene structure.
*
* Our retained scene structure is a layer tree. Each layer represents
* content which can be composited onto a destination surface; the root
* layer is usually composited into a window, and non-root layers are
* composited into their parent layers. Layers have attributes (e.g.
* opacity and clipping) that influence their compositing.
*
* We want to support a variety of layer implementations, including
* a simple "immediate mode" implementation that doesn't retain any
* rendered data between paints (i.e. uses cairo in just the way that
* Gecko used it before layers were introduced). But we also don't want
* to have bifurcated "layers"/"non-layers" rendering paths in Gecko.
* Therefore the layers API is carefully designed to permit maximally
* efficient implementation in an "immediate mode" style. See the
* BasicLayerManager for such an implementation.
*/
/**
* A LayerManager controls a tree of layers. All layers in the tree
* must use the same LayerManager.
*
* All modifications to a layer tree must happen inside a transaction.
* Only the state of the layer tree at the end of a transaction is
* rendered. Transactions cannot be nested
*
* Each transaction has two phases:
* 1) Construction: layers are created, inserted, removed and have
* properties set on them in this phase.
* BeginTransaction and BeginTransactionWithTarget start a transaction in
* the Construction phase. When the client has finished constructing the layer
* tree, it should call EndConstruction() to enter the drawing phase.
* 2) Drawing: ThebesLayers are rendered into in this phase, in tree
* order. When the client has finished drawing into the ThebesLayers, it should
* call EndTransaction to complete the transaction.
*
* All layer API calls happen on the main thread.
*
* Layers are refcounted. The layer manager holds a reference to the
* root layer, and each container layer holds a reference to its children.
*/
class THEBES_API LayerManager {
NS_INLINE_DECL_REFCOUNTING(LayerManager)
public:
enum LayersBackend {
LAYERS_BASIC = 0,
LAYERS_OPENGL,
LAYERS_D3D9
};
LayerManager() : mUserData(nsnull), mDestroyed(PR_FALSE)
{
InitLog();
}
virtual ~LayerManager() {}
/**
* Release layers and resources held by this layer manager, and mark
* it as destroyed. Should do any cleanup necessary in preparation
* for its widget going away. After this call, only user data calls
* are valid on the layer manager.
*/
virtual void Destroy() { mDestroyed = PR_TRUE; }
PRBool IsDestroyed() { return mDestroyed; }
/**
* Start a new transaction. Nested transactions are not allowed so
* there must be no transaction currently in progress.
* This transaction will update the state of the window from which
* this LayerManager was obtained.
*/
virtual void BeginTransaction() = 0;
/**
* Start a new transaction. Nested transactions are not allowed so
* there must be no transaction currently in progress.
* This transaction will render the contents of the layer tree to
* the given target context. The rendering will be complete when
* EndTransaction returns.
*/
virtual void BeginTransactionWithTarget(gfxContext* aTarget) = 0;
/**
* Function called to draw the contents of each ThebesLayer.
* aRegionToDraw contains the region that needs to be drawn.
* This would normally be a subregion of the visible region.
* The callee must draw all of aRegionToDraw. Drawing outside
* aRegionToDraw will be clipped out or ignored.
* The callee must draw all of aRegionToDraw.
* This region is relative to 0,0 in the ThebesLayer.
*
* aRegionToInvalidate contains a region whose contents have been
* changed by the layer manager and which must therefore be invalidated.
* For example, this could be non-empty if a retained layer internally
* switches from RGBA to RGB or back ... we might want to repaint it to
* consistently use subpixel-AA or not.
* This region is relative to 0,0 in the ThebesLayer.
* aRegionToInvalidate may contain areas that are outside
* aRegionToDraw; the callee must ensure that these areas are repainted
* in the current layer manager transaction or in a later layer
* manager transaction.
*
* aContext must not be used after the call has returned.
* We guarantee that buffered contents in the visible
* region are valid once drawing is complete.
*
* The origin of aContext is 0,0 in the ThebesLayer.
*/
typedef void (* DrawThebesLayerCallback)(ThebesLayer* aLayer,
gfxContext* aContext,
const nsIntRegion& aRegionToDraw,
const nsIntRegion& aRegionToInvalidate,
void* aCallbackData);
/**
* Finish the construction phase of the transaction, perform the
* drawing phase, and end the transaction.
* During the drawing phase, all ThebesLayers in the tree are
* drawn in tree order, exactly once each, except for those layers
* where it is known that the visible region is empty.
*/
virtual void EndTransaction(DrawThebesLayerCallback aCallback,
void* aCallbackData) = 0;
/**
* CONSTRUCTION PHASE ONLY
* Set the root layer.
*/
virtual void SetRoot(Layer* aLayer) = 0;
/**
* Can be called anytime
*/
Layer* GetRoot() { return mRoot; }
/**
* CONSTRUCTION PHASE ONLY
* Called when a managee has mutated.
*/
virtual void Mutated(Layer* aLayer) { }
/**
* CONSTRUCTION PHASE ONLY
* Create a ThebesLayer for this manager's layer tree.
*/
virtual already_AddRefed<ThebesLayer> CreateThebesLayer() = 0;
/**
* CONSTRUCTION PHASE ONLY
* Create a ContainerLayer for this manager's layer tree.
*/
virtual already_AddRefed<ContainerLayer> CreateContainerLayer() = 0;
/**
* CONSTRUCTION PHASE ONLY
* Create an ImageLayer for this manager's layer tree.
*/
virtual already_AddRefed<ImageLayer> CreateImageLayer() = 0;
/**
* CONSTRUCTION PHASE ONLY
* Create a ColorLayer for this manager's layer tree.
*/
virtual already_AddRefed<ColorLayer> CreateColorLayer() = 0;
/**
* CONSTRUCTION PHASE ONLY
* Create a CanvasLayer for this manager's layer tree.
*/
virtual already_AddRefed<CanvasLayer> CreateCanvasLayer() = 0;
/**
* Can be called anytime
*/
virtual already_AddRefed<ImageContainer> CreateImageContainer() = 0;
/**
* Type of layer manager his is. This is to be used sparsely in order to
* avoid a lot of Layers backend specific code. It should be used only when
* Layers backend specific functionality is necessary.
*/
virtual LayersBackend GetBackendType() = 0;
// This setter and getter can be used anytime. The user data is initially
// null.
void SetUserData(void* aData) { mUserData = aData; }
void* GetUserData() { return mUserData; }
// We always declare the following logging symbols, because it's
// extremely tricky to conditionally declare them. However, for
// ifndef MOZ_LAYERS_HAVE_LOG builds, they only have trivial
// definitions in Layers.cpp.
virtual const char* Name() const { return "???"; }
/**
* Dump information about this layer manager and its managed tree to
* aFile, which defaults to stderr.
*/
void Dump(FILE* aFile=NULL, const char* aPrefix="");
/**
* Dump information about just this layer manager itself to aFile,
* which defaults to stderr.
*/
void DumpSelf(FILE* aFile=NULL, const char* aPrefix="");
/**
* Log information about this layer manager and its managed tree to
* the NSPR log (if enabled for "Layers").
*/
void Log(const char* aPrefix="");
/**
* Log information about just this layer manager itself to the NSPR
* log (if enabled for "Layers").
*/
void LogSelf(const char* aPrefix="");
static bool IsLogEnabled();
static PRLogModuleInfo* GetLog() { return sLog; }
protected:
nsRefPtr<Layer> mRoot;
void* mUserData;
PRPackedBool mDestroyed;
// Print interesting information about this into aTo. Internally
// used to implement Dump*() and Log*().
virtual nsACString& PrintInfo(nsACString& aTo, const char* aPrefix);
static void InitLog();
static PRLogModuleInfo* sLog;
};
class ThebesLayer;
/**
* A Layer represents anything that can be rendered onto a destination
* surface.
*/
class THEBES_API Layer {
NS_INLINE_DECL_REFCOUNTING(Layer)
public:
enum LayerType {
TYPE_THEBES,
TYPE_CONTAINER,
TYPE_IMAGE,
TYPE_COLOR,
TYPE_CANVAS,
TYPE_SHADOW
};
virtual ~Layer() {}
/**
* Returns the LayerManager this Layer belongs to. Note that the layer
* manager might be in a destroyed state, at which point it's only
* valid to set/get user data from it.
*/
LayerManager* Manager() { return mManager; }
/**
* CONSTRUCTION PHASE ONLY
* If this is called with aOpaque set to true, the caller is promising
* that by the end of this transaction the entire visible region
* (as specified by SetVisibleRegion) will be filled with opaque
* content. This enables some internal quality and performance
* optimizations.
*/
void SetIsOpaqueContent(PRBool aOpaque)
{
mIsOpaqueContent = aOpaque;
Mutated();
}
/**
* CONSTRUCTION PHASE ONLY
* Tell this layer which region will be visible. It is the responsibility
* of the caller to ensure that content outside this region does not
* contribute to the final visible window. This can be an
* overapproximation to the true visible region.
*/
virtual void SetVisibleRegion(const nsIntRegion& aRegion)
{
mVisibleRegion = aRegion;
Mutated();
}
/**
* CONSTRUCTION PHASE ONLY
* Set the opacity which will be applied to this layer as it
* is composited to the destination.
*/
void SetOpacity(float aOpacity)
{
mOpacity = aOpacity;
Mutated();
}
/**
* CONSTRUCTION PHASE ONLY
* Set a clip rect which will be applied to this layer as it is
* composited to the destination. The coordinates are relative to
* the parent layer (i.e. the contents of this layer
* are transformed before this clip rect is applied).
* For the root layer, the coordinates are relative to the widget,
* in device pixels.
* If aRect is null no clipping will be performed.
*/
void SetClipRect(const nsIntRect* aRect)
{
mUseClipRect = aRect != nsnull;
if (aRect) {
mClipRect = *aRect;
}
Mutated();
}
/**
* CONSTRUCTION PHASE ONLY
* Set a clip rect which will be applied to this layer as it is
* composited to the destination. The coordinates are relative to
* the parent layer (i.e. the contents of this layer
* are transformed before this clip rect is applied).
* For the root layer, the coordinates are relative to the widget,
* in device pixels.
* The provided rect is intersected with any existing clip rect.
*/
void IntersectClipRect(const nsIntRect& aRect)
{
if (mUseClipRect) {
mClipRect.IntersectRect(mClipRect, aRect);
} else {
mUseClipRect = PR_TRUE;
mClipRect = aRect;
}
Mutated();
}
/**
* CONSTRUCTION PHASE ONLY
* Tell this layer what its transform should be. The transformation
* is applied when compositing the layer into its parent container.
* XXX Currently only transformations corresponding to 2D affine transforms
* are supported.
*/
void SetTransform(const gfx3DMatrix& aMatrix)
{
mTransform = aMatrix;
Mutated();
}
// These getters can be used anytime.
float GetOpacity() { return mOpacity; }
const nsIntRect* GetClipRect() { return mUseClipRect ? &mClipRect : nsnull; }
PRBool IsOpaqueContent() { return mIsOpaqueContent; }
const nsIntRegion& GetVisibleRegion() { return mVisibleRegion; }
ContainerLayer* GetParent() { return mParent; }
Layer* GetNextSibling() { return mNextSibling; }
Layer* GetPrevSibling() { return mPrevSibling; }
virtual Layer* GetFirstChild() { return nsnull; }
const gfx3DMatrix& GetTransform() { return mTransform; }
/**
* DRAWING PHASE ONLY
*
* Write layer-subtype-specific attributes into aAttrs. Used to
* synchronize layer attributes to their shadows'.
*/
virtual void FillSpecificAttributes(SpecificLayerAttributes& aAttrs) { }
// Returns true if it's OK to save the contents of aLayer in an
// opaque surface (a surface without an alpha channel).
// If we can use a surface without an alpha channel, we should, because
// it will often make painting of antialiased text faster and higher
// quality.
PRBool CanUseOpaqueSurface();
// This setter and getter can be used anytime. The user data is initially
// null.
void SetUserData(void* aData) { mUserData = aData; }
void* GetUserData() { return mUserData; }
/**
* Dynamic downcast to a Thebes layer. Returns null if this is not
* a ThebesLayer.
*/
virtual ThebesLayer* AsThebesLayer() { return nsnull; }
virtual const char* Name() const =0;
virtual LayerType GetType() const =0;
/**
* Only the implementation should call this. This is per-implementation
* private data. Normally, all layers with a given layer manager
* use the same type of ImplData.
*/
void* ImplData() { return mImplData; }
/**
* Only the implementation should use these methods.
*/
void SetParent(ContainerLayer* aParent) { mParent = aParent; }
void SetNextSibling(Layer* aSibling) { mNextSibling = aSibling; }
void SetPrevSibling(Layer* aSibling) { mPrevSibling = aSibling; }
/**
* Dump information about this layer manager and its managed tree to
* aFile, which defaults to stderr.
*/
void Dump(FILE* aFile=NULL, const char* aPrefix="");
/**
* Dump information about just this layer manager itself to aFile,
* which defaults to stderr.
*/
void DumpSelf(FILE* aFile=NULL, const char* aPrefix="");
/**
* Log information about this layer manager and its managed tree to
* the NSPR log (if enabled for "Layers").
*/
void Log(const char* aPrefix="");
/**
* Log information about just this layer manager itself to the NSPR
* log (if enabled for "Layers").
*/
void LogSelf(const char* aPrefix="");
static bool IsLogEnabled() { return LayerManager::IsLogEnabled(); }
protected:
Layer(LayerManager* aManager, void* aImplData) :
mManager(aManager),
mParent(nsnull),
mNextSibling(nsnull),
mPrevSibling(nsnull),
mImplData(aImplData),
mUserData(nsnull),
mOpacity(1.0),
mUseClipRect(PR_FALSE),
mIsOpaqueContent(PR_FALSE)
{}
void Mutated() { mManager->Mutated(this); }
// Print interesting information about this into aTo. Internally
// used to implement Dump*() and Log*(). If subclasses have
// additional interesting properties, they should override this with
// an implementation that first calls the base implementation then
// appends additional info to aTo.
virtual nsACString& PrintInfo(nsACString& aTo, const char* aPrefix);
LayerManager* mManager;
ContainerLayer* mParent;
Layer* mNextSibling;
Layer* mPrevSibling;
void* mImplData;
void* mUserData;
nsIntRegion mVisibleRegion;
gfx3DMatrix mTransform;
float mOpacity;
nsIntRect mClipRect;
PRPackedBool mUseClipRect;
PRPackedBool mIsOpaqueContent;
};
/**
* A Layer which we can draw into using Thebes. It is a conceptually
* infinite surface, but each ThebesLayer has an associated "valid region"
* of contents that it is currently storing, which is finite. ThebesLayer
* implementations can store content between paints.
*
* ThebesLayers are rendered into during the drawing phase of a transaction.
*
* Currently the contents of a ThebesLayer are in the device output color
* space.
*/
class THEBES_API ThebesLayer : public Layer {
public:
/**
* CONSTRUCTION PHASE ONLY
* Tell this layer that the content in some region has changed and
* will need to be repainted. This area is removed from the valid
* region.
*/
virtual void InvalidateRegion(const nsIntRegion& aRegion) = 0;
/**
* Can be used anytime
*/
const nsIntRegion& GetValidRegion() { return mValidRegion; }
virtual ThebesLayer* AsThebesLayer() { return this; }
MOZ_LAYER_DECL_NAME("ThebesLayer", TYPE_THEBES)
protected:
ThebesLayer(LayerManager* aManager, void* aImplData)
: Layer(aManager, aImplData) {}
virtual nsACString& PrintInfo(nsACString& aTo, const char* aPrefix);
nsIntRegion mValidRegion;
};
/**
* A Layer which other layers render into. It holds references to its
* children.
*/
class THEBES_API ContainerLayer : public Layer {
public:
/**
* CONSTRUCTION PHASE ONLY
* Insert aChild into the child list of this container. aChild must
* not be currently in any child list or the root for the layer manager.
* If aAfter is non-null, it must be a child of this container and
* we insert after that layer. If it's null we insert at the start.
*/
virtual void InsertAfter(Layer* aChild, Layer* aAfter) = 0;
/**
* CONSTRUCTION PHASE ONLY
* Remove aChild from the child list of this container. aChild must
* be a child of this container.
*/
virtual void RemoveChild(Layer* aChild) = 0;
// This getter can be used anytime.
virtual Layer* GetFirstChild() { return mFirstChild; }
MOZ_LAYER_DECL_NAME("ContainerLayer", TYPE_CONTAINER)
protected:
ContainerLayer(LayerManager* aManager, void* aImplData)
: Layer(aManager, aImplData),
mFirstChild(nsnull)
{}
Layer* mFirstChild;
};
/**
* A Layer which just renders a solid color in its visible region. It actually
* can fill any area that contains the visible region, so if you need to
* restrict the area filled, set a clip region on this layer.
*/
class THEBES_API ColorLayer : public Layer {
public:
/**
* CONSTRUCTION PHASE ONLY
* Set the color of the layer.
*/
virtual void SetColor(const gfxRGBA& aColor)
{
mColor = aColor;
}
// This getter can be used anytime.
virtual const gfxRGBA& GetColor() { return mColor; }
MOZ_LAYER_DECL_NAME("ColorLayer", TYPE_COLOR)
protected:
ColorLayer(LayerManager* aManager, void* aImplData)
: Layer(aManager, aImplData),
mColor(0.0, 0.0, 0.0, 0.0)
{}
virtual nsACString& PrintInfo(nsACString& aTo, const char* aPrefix);
gfxRGBA mColor;
};
/**
* A Layer for HTML Canvas elements. It's backed by either a
* gfxASurface or a GLContext (for WebGL layers), and has some control
* for intelligent updating from the source if necessary (for example,
* if hardware compositing is not available, for reading from the GL
* buffer into an image surface that we can layer composite.)
*
* After Initialize is called, the underlying canvas Surface/GLContext
* must not be modified during a layer transaction.
*/
class THEBES_API CanvasLayer : public Layer {
public:
struct Data {
Data()
: mSurface(nsnull), mGLContext(nsnull),
mGLBufferIsPremultiplied(PR_FALSE)
{ }
/* One of these two must be specified, but never both */
gfxASurface* mSurface; // a gfx Surface for the canvas contents
mozilla::gl::GLContext* mGLContext; // a GL PBuffer Context
/* The size of the canvas content */
nsIntSize mSize;
/* Whether the GLContext contains premultiplied alpha
* values in the framebuffer or not. Defaults to FALSE.
*/
PRPackedBool mGLBufferIsPremultiplied;
};
/**
* CONSTRUCTION PHASE ONLY
* Initialize this CanvasLayer with the given data. The data must
* have either mSurface or mGLContext initialized (but not both), as
* well as mSize.
*
* This must only be called once.
*/
virtual void Initialize(const Data& aData) = 0;
/**
* CONSTRUCTION PHASE ONLY
* Notify this CanvasLayer that the rectangle given by aRect
* has been updated, and any work that needs to be done
* to bring the contents from the Surface/GLContext to the
* Layer in preparation for compositing should be performed.
*/
virtual void Updated(const nsIntRect& aRect) = 0;
/**
* CONSTRUCTION PHASE ONLY
* Set the filter used to resample this image (if necessary).
*/
void SetFilter(gfxPattern::GraphicsFilter aFilter) { mFilter = aFilter; }
gfxPattern::GraphicsFilter GetFilter() const { return mFilter; }
MOZ_LAYER_DECL_NAME("CanvasLayer", TYPE_CANVAS)
protected:
CanvasLayer(LayerManager* aManager, void* aImplData)
: Layer(aManager, aImplData), mFilter(gfxPattern::FILTER_GOOD) {}
virtual nsACString& PrintInfo(nsACString& aTo, const char* aPrefix);
gfxPattern::GraphicsFilter mFilter;
};
}
}
#endif /* GFX_LAYERS_H */