gecko/gfx/layers/composite/ContentHost.h

/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* 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/. */

#ifndef GFX_CONTENTHOST_H
#define GFX_CONTENTHOST_H

#include "ThebesLayerBuffer.h"
#include "CompositableHost.h"

namespace mozilla {
namespace layers {

class ThebesBuffer;
class OptionalThebesBuffer;
struct TexturedEffect;

/**
 * ContentHosts are used for compositing Thebes layers, always matched by a
 * ContentClient of the same type.
 *
 * ContentHosts support only UpdateThebes(), not Update().
 */
class ContentHost : public CompositableHost
{
public:
  // Subclasses should implement this method if they support being used as a
  // tiling.
  virtual TiledLayerComposer* AsTiledLayerComposer() { return nullptr; }

  virtual void UpdateThebes(const ThebesBufferData& aData,
                            const nsIntRegion& aUpdated,
                            const nsIntRegion& aOldValidRegionBack,
                            nsIntRegion* aUpdatedRegionBack) = 0;

  virtual void SetPaintWillResample(bool aResample) { }

protected:
  ContentHost(const TextureInfo& aTextureInfo)
    : CompositableHost(aTextureInfo)
  {}
};

/**
 * Base class for non-tiled ContentHosts.
 *
 * Ownership of the SurfaceDescriptor and the resources it represents is passed
 * from the ContentClient to the ContentHost when the TextureClient/Hosts are
 * created, that is recevied here by SetTextureHosts which assigns one or two
 * texture hosts (for single and double buffering) to the ContentHost.
 *
 * It is the responsibility of the ContentHost to destroy its resources when
 * they are recreated or the ContentHost dies.
 */
class ContentHostBase : public ContentHost
{
public:
  typedef ThebesLayerBuffer::ContentType ContentType;
  typedef ThebesLayerBuffer::PaintState PaintState;

  ContentHostBase(const TextureInfo& aTextureInfo);
  ~ContentHostBase();

  virtual void Composite(EffectChain& aEffectChain,
                         float aOpacity,
                         const gfx::Matrix4x4& aTransform,
                         const gfx::Point& aOffset,
                         const gfx::Filter& aFilter,
                         const gfx::Rect& aClipRect,
                         const nsIntRegion* aVisibleRegion = nullptr,
                         TiledLayerProperties* aLayerProperties = nullptr);

  virtual PaintState BeginPaint(ContentType, uint32_t)
  {
    NS_RUNTIMEABORT("shouldn't BeginPaint for a shadow layer");
    return PaintState();
  }

  virtual LayerRenderState GetRenderState() MOZ_OVERRIDE
  {
    LayerRenderState result = mTextureHost->GetRenderState();

    if (mBufferRotation != nsIntPoint()) {
      result.mFlags |= LAYER_RENDER_STATE_BUFFER_ROTATION;
    }
    result.SetOffset(GetOriginOffset());
    return result;
  }

  virtual void SetCompositor(Compositor* aCompositor) MOZ_OVERRIDE;

#ifdef MOZ_DUMP_PAINTING
  virtual already_AddRefed<gfxImageSurface> GetAsSurface()
  {
    return mTextureHost->GetAsSurface();
  }
#endif

  virtual void Dump(FILE* aFile=NULL,
                    const char* aPrefix="",
                    bool aDumpHtml=false) MOZ_OVERRIDE;

  virtual TextureHost* GetTextureHost() MOZ_OVERRIDE;

  virtual void SetPaintWillResample(bool aResample) { mPaintWillResample = aResample; }
  // The client has destroyed its texture clients and we should destroy our
  // texture hosts and SurfaceDescriptors. Note that we don't immediately
  // destroy our front buffer so that we can continue to composite.
  virtual void DestroyTextures() = 0;

protected:
  virtual nsIntPoint GetOriginOffset()
  {
    return mBufferRect.TopLeft() - mBufferRotation;
  }

  bool PaintWillResample() { return mPaintWillResample; }

  // Destroy the front buffer's texture host. This should only happen when
  // we have a new front buffer to use or the ContentHost is going to die.
  void DestroyFrontHost();

  nsIntRect mBufferRect;
  nsIntPoint mBufferRotation;
  RefPtr<TextureHost> mTextureHost;
  RefPtr<TextureHost> mTextureHostOnWhite;
  // When we set a new front buffer TextureHost, we don't want to stomp on
  // the old one which might still be used for compositing. So we store it
  // here and move it to mTextureHost once we do the first buffer swap.
  RefPtr<TextureHost> mNewFrontHost;
  RefPtr<TextureHost> mNewFrontHostOnWhite;
  bool mPaintWillResample;
  bool mInitialised;
};

/**
 * Double buffering is implemented by swapping the front and back TextureHosts.
 */
class ContentHostDoubleBuffered : public ContentHostBase
{
public:
  ContentHostDoubleBuffered(const TextureInfo& aTextureInfo)
    : ContentHostBase(aTextureInfo)
  {}

  ~ContentHostDoubleBuffered();

  virtual CompositableType GetType() { return BUFFER_CONTENT_DIRECT; }

  virtual void UpdateThebes(const ThebesBufferData& aData,
                            const nsIntRegion& aUpdated,
                            const nsIntRegion& aOldValidRegionBack,
                            nsIntRegion* aUpdatedRegionBack);

  virtual void EnsureTextureHost(TextureIdentifier aTextureId,
                                 const SurfaceDescriptor& aSurface,
                                 ISurfaceAllocator* aAllocator,
                                 const TextureInfo& aTextureInfo) MOZ_OVERRIDE;
  virtual void DestroyTextures() MOZ_OVERRIDE;

  virtual void Dump(FILE* aFile=NULL,
                    const char* aPrefix="",
                    bool aDumpHtml=false) MOZ_OVERRIDE;

#ifdef MOZ_LAYERS_HAVE_LOG
  virtual void PrintInfo(nsACString& aTo, const char* aPrefix);
#endif
protected:
  nsIntRegion mValidRegionForNextBackBuffer;
  // Texture host for the back buffer. We never read or write this buffer. We
  // only swap it with the front buffer (mTextureHost) when we are told by the
  // content thread.
  RefPtr<TextureHost> mBackHost;
  RefPtr<TextureHost> mBackHostOnWhite;
};

/**
 * Single buffered, therefore we must synchronously upload the image from the
 * TextureHost in the layers transaction (i.e., in UpdateThebes).
 */
class ContentHostSingleBuffered : public ContentHostBase
{
public:
  ContentHostSingleBuffered(const TextureInfo& aTextureInfo)
    : ContentHostBase(aTextureInfo)
  {}
  virtual ~ContentHostSingleBuffered();

  virtual CompositableType GetType() { return BUFFER_CONTENT; }

  virtual void UpdateThebes(const ThebesBufferData& aData,
                            const nsIntRegion& aUpdated,
                            const nsIntRegion& aOldValidRegionBack,
                            nsIntRegion* aUpdatedRegionBack);

  virtual void EnsureTextureHost(TextureIdentifier aTextureId,
                                 const SurfaceDescriptor& aSurface,
                                 ISurfaceAllocator* aAllocator,
                                 const TextureInfo& aTextureInfo) MOZ_OVERRIDE;
  virtual void DestroyTextures() MOZ_OVERRIDE;

#ifdef MOZ_LAYERS_HAVE_LOG
  virtual void PrintInfo(nsACString& aTo, const char* aPrefix);
#endif
};

/**
 * Maintains a host-side only texture, and gets provided with
 * surfaces that only cover the changed pixels during an update.
 *
 * Takes ownership of the passed in update surfaces, and must
 * free them once texture upload is complete.
 *
 * Delays texture uploads until the next composite to
 * avoid blocking the main thread.
 */
class ContentHostIncremental : public ContentHostBase
{
public:
  ContentHostIncremental(const TextureInfo& aTextureInfo)
    : ContentHostBase(aTextureInfo)
    , mDeAllocator(nullptr)
  {}

  virtual CompositableType GetType() { return BUFFER_CONTENT; }

  virtual void EnsureTextureHostIncremental(ISurfaceAllocator* aAllocator,
                                            const TextureInfo& aTextureInfo,
                                            const nsIntRect& aBufferRect) MOZ_OVERRIDE;

  virtual void EnsureTextureHost(TextureIdentifier aTextureId,
                                 const SurfaceDescriptor& aSurface,
                                 ISurfaceAllocator* aAllocator,
                                 const TextureInfo& aTextureInfo)
  {
    NS_RUNTIMEABORT("Shouldn't call this");
  }

  virtual void UpdateIncremental(TextureIdentifier aTextureId,
                                 SurfaceDescriptor& aSurface,
                                 const nsIntRegion& aUpdated,
                                 const nsIntRect& aBufferRect,
                                 const nsIntPoint& aBufferRotation) MOZ_OVERRIDE;

  virtual void UpdateThebes(const ThebesBufferData& aData,
                            const nsIntRegion& aUpdated,
                            const nsIntRegion& aOldValidRegionBack,
                            nsIntRegion* aUpdatedRegionBack)
  {
    NS_RUNTIMEABORT("Shouldn't call this");
  }

  virtual void Composite(EffectChain& aEffectChain,
                         float aOpacity,
                         const gfx::Matrix4x4& aTransform,
                         const gfx::Point& aOffset,
                         const gfx::Filter& aFilter,
                         const gfx::Rect& aClipRect,
                         const nsIntRegion* aVisibleRegion = nullptr,
                         TiledLayerProperties* aLayerProperties = nullptr)
  {
    ProcessTextureUpdates();

    ContentHostBase::Composite(aEffectChain, aOpacity,
                               aTransform, aOffset, aFilter,
                               aClipRect, aVisibleRegion,
                               aLayerProperties);
  }

  virtual void DestroyTextures()
  {
    mTextureHost = nullptr;
    mTextureHostOnWhite = nullptr;
    mUpdateList.Clear();
  }

private:

  void ProcessTextureUpdates();

  class Request
  {
  public:
    Request()
    {
      MOZ_COUNT_CTOR(ContentHostIncremental::Request);
    }

    virtual ~Request()
    {
      MOZ_COUNT_DTOR(ContentHostIncremental::Request);
    }

    virtual void Execute(ContentHostIncremental *aHost) = 0;
  };

  class TextureCreationRequest : public Request
  {
  public:
    TextureCreationRequest(const TextureInfo& aTextureInfo,
                           const nsIntRect& aBufferRect)
      : mTextureInfo(aTextureInfo)
      , mBufferRect(aBufferRect)
    {}

    virtual void Execute(ContentHostIncremental *aHost);

  private:
    TextureInfo mTextureInfo;
    nsIntRect mBufferRect;
  };

  class TextureUpdateRequest : public Request
  {
  public:
    TextureUpdateRequest(ISurfaceAllocator* aDeAllocator,
                         TextureIdentifier aTextureId,
                         SurfaceDescriptor& aDescriptor,
                         const nsIntRegion& aUpdated,
                         const nsIntRect& aBufferRect,
                         const nsIntPoint& aBufferRotation)
      : mDeAllocator(aDeAllocator)
      , mTextureId(aTextureId)
      , mDescriptor(aDescriptor)
      , mUpdated(aUpdated)
      , mBufferRect(aBufferRect)
      , mBufferRotation(aBufferRotation)
    {}

    ~TextureUpdateRequest()
    {
      //TODO: Recycle these?
      mDeAllocator->DestroySharedSurface(&mDescriptor);
    }

    virtual void Execute(ContentHostIncremental *aHost);

  private:
    enum XSide {
      LEFT, RIGHT
    };
    enum YSide {
      TOP, BOTTOM
    };

    nsIntRect GetQuadrantRectangle(XSide aXSide, YSide aYSide) const;

    ISurfaceAllocator* mDeAllocator;
    TextureIdentifier mTextureId;
    SurfaceDescriptor mDescriptor;
    nsIntRegion mUpdated;
    nsIntRect mBufferRect;
    nsIntPoint mBufferRotation;
  };

  nsTArray<nsAutoPtr<Request> > mUpdateList;

  ISurfaceAllocator* mDeAllocator;
};

}
}

#endif