gecko-dev/gfx/layers/d3d10/LayerManagerD3D10.h

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/* -*- 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_LAYERMANAGERD3D10_H
#define GFX_LAYERMANAGERD3D10_H
#include "mozilla/layers/PLayers.h"
#include "mozilla/layers/ShadowLayers.h"
#include "Layers.h"
#include <windows.h>
#include <d3d10_1.h>
#include "gfxContext.h"
#include "nsIWidget.h"
#include "ReadbackManagerD3D10.h"
namespace mozilla {
namespace layers {
class DummyRoot;
class Nv3DVUtils;
/**
* This structure is used to pass rectangles to our shader constant. We can use
* this for passing rectangular areas to SetVertexShaderConstant. In the format
* of a 4 component float(x,y,width,height). Our vertex shader can then use
* this to construct rectangular positions from the 0,0-1,1 quad that we source
* it with.
*/
struct ShaderConstantRectD3D10
{
float mX, mY, mWidth, mHeight;
ShaderConstantRectD3D10(float aX, float aY, float aWidth, float aHeight)
: mX(aX), mY(aY), mWidth(aWidth), mHeight(aHeight)
{ }
// For easy passing to SetVertexShaderConstantF.
operator float* () { return &mX; }
};
extern cairo_user_data_key_t gKeyD3D10Texture;
/*
* This is the LayerManager used for Direct3D 10. For now this will
* render on the main thread.
*
* For the time being, LayerManagerD3D10 both forwards layers
* transactions and receives forwarded transactions. In the Azure
* future, it will only be a ShadowLayerManager.
*/
class THEBES_API LayerManagerD3D10 : public ShadowLayerManager,
public ShadowLayerForwarder {
public:
LayerManagerD3D10(nsIWidget *aWidget);
virtual ~LayerManagerD3D10();
/*
* Initializes the layer manager, this is when the layer manager will
* actually access the device and attempt to create the swap chain used
* to draw to the window. If this method fails the device cannot be used.
* This function is not threadsafe.
*
* \return True is initialization was succesful, false when it was not.
*/
bool Initialize(bool force = false);
/*
* LayerManager implementation.
*/
virtual void Destroy();
virtual ShadowLayerForwarder* AsShadowForwarder()
{ return this; }
virtual ShadowLayerManager* AsShadowManager()
{ return this; }
virtual void SetRoot(Layer *aLayer);
virtual void BeginTransaction();
virtual void BeginTransactionWithTarget(gfxContext* aTarget);
virtual bool EndEmptyTransaction(EndTransactionFlags aFlags = END_DEFAULT);
struct CallbackInfo {
DrawThebesLayerCallback Callback;
void *CallbackData;
};
virtual void EndTransaction(DrawThebesLayerCallback aCallback,
void* aCallbackData,
EndTransactionFlags aFlags = END_DEFAULT);
const CallbackInfo &GetCallbackInfo() { return mCurrentCallbackInfo; }
// D3D10 guarantees textures can be at least this size
enum {
MAX_TEXTURE_SIZE = 8192
};
virtual bool CanUseCanvasLayerForSize(const gfxIntSize &aSize)
{
return aSize <= gfxIntSize(MAX_TEXTURE_SIZE, MAX_TEXTURE_SIZE);
}
virtual PRInt32 GetMaxTextureSize() const
{
return MAX_TEXTURE_SIZE;
}
virtual already_AddRefed<ThebesLayer> CreateThebesLayer();
virtual already_AddRefed<ShadowThebesLayer> CreateShadowThebesLayer();
virtual already_AddRefed<ContainerLayer> CreateContainerLayer();
virtual already_AddRefed<ShadowContainerLayer> CreateShadowContainerLayer();
virtual already_AddRefed<ImageLayer> CreateImageLayer();
virtual already_AddRefed<ShadowImageLayer> CreateShadowImageLayer()
{ return nullptr; }
virtual already_AddRefed<ColorLayer> CreateColorLayer();
virtual already_AddRefed<ShadowColorLayer> CreateShadowColorLayer()
{ return nullptr; }
virtual already_AddRefed<CanvasLayer> CreateCanvasLayer();
virtual already_AddRefed<ShadowCanvasLayer> CreateShadowCanvasLayer()
{ return nullptr; }
virtual already_AddRefed<ReadbackLayer> CreateReadbackLayer();
virtual already_AddRefed<gfxASurface>
CreateOptimalSurface(const gfxIntSize &aSize,
gfxASurface::gfxImageFormat imageFormat);
virtual already_AddRefed<gfxASurface>
CreateOptimalMaskSurface(const gfxIntSize &aSize);
virtual TemporaryRef<mozilla::gfx::DrawTarget>
CreateDrawTarget(const mozilla::gfx::IntSize &aSize,
mozilla::gfx::SurfaceFormat aFormat);
virtual LayersBackend GetBackendType() { return LAYERS_D3D10; }
virtual void GetBackendName(nsAString& name) { name.AssignLiteral("Direct3D 10"); }
#ifdef MOZ_LAYERS_HAVE_LOG
virtual const char* Name() const { return "D3D10"; }
#endif // MOZ_LAYERS_HAVE_LOG
// Public helpers
ID3D10Device1 *device() const { return mDevice; }
ID3D10Effect *effect() const { return mEffect; }
IDXGISwapChain *SwapChain() const
{
return mSwapChain;
}
ReadbackManagerD3D10 *readbackManager();
void SetupInputAssembler();
void SetViewport(const nsIntSize &aViewport);
const nsIntSize &GetViewport() { return mViewport; }
/**
* Return pointer to the Nv3DVUtils instance
*/
Nv3DVUtils *GetNv3DVUtils() { return mNv3DVUtils; }
static void ReportFailure(const nsACString &aMsg, HRESULT aCode);
private:
void SetupPipeline();
void UpdateRenderTarget();
void VerifyBufferSize();
void EnsureReadbackManager();
void Render(EndTransactionFlags aFlags);
nsRefPtr<ID3D10Device1> mDevice;
nsRefPtr<ID3D10Effect> mEffect;
nsRefPtr<ID3D10InputLayout> mInputLayout;
nsRefPtr<ID3D10Buffer> mVertexBuffer;
nsRefPtr<ReadbackManagerD3D10> mReadbackManager;
nsRefPtr<ID3D10RenderTargetView> mRTView;
nsRefPtr<IDXGISwapChain> mSwapChain;
nsIWidget *mWidget;
CallbackInfo mCurrentCallbackInfo;
nsIntSize mViewport;
/* Nv3DVUtils instance */
nsAutoPtr<Nv3DVUtils> mNv3DVUtils;
/*
* Context target, NULL when drawing directly to our swap chain.
*/
nsRefPtr<gfxContext> mTarget;
/*
* We use a double-buffered "window surface" to display our content
* in the compositor process, if we're remote. The textures act
* like the backing store for an OS window --- we render the layer
* tree into the back texture and send it to the compositor, then
* swap back/front textures. This means, obviously, that we've lost
* all layer tree information after rendering.
*
* The remote front buffer is the texture currently being displayed
* by chrome. We keep a reference to it to simplify resource
* management; if we didn't, then there can be periods during IPC
* transport when neither process holds a "real" ref. That's
* solvable but not worth the complexity.
*/
nsRefPtr<ID3D10Texture2D> mBackBuffer;
nsRefPtr<ID3D10Texture2D> mRemoteFrontBuffer;
/*
* If we're remote content, this is the root of the shadowable tree
* we send to the compositor.
*/
nsRefPtr<DummyRoot> mRootForShadowTree;
/*
* Copies the content of our backbuffer to the set transaction target.
*/
void PaintToTarget();
};
/*
* General information and tree management for OGL layers.
*/
class LayerD3D10
{
public:
LayerD3D10(LayerManagerD3D10 *aManager);
virtual LayerD3D10 *GetFirstChildD3D10() { return nullptr; }
void SetFirstChild(LayerD3D10 *aParent);
virtual Layer* GetLayer() = 0;
/**
* This will render a child layer to whatever render target is currently
* active.
*/
virtual void RenderLayer() = 0;
virtual void Validate() {}
ID3D10Device1 *device() const { return mD3DManager->device(); }
ID3D10Effect *effect() const { return mD3DManager->effect(); }
/* Called by the layer manager when it's destroyed */
virtual void LayerManagerDestroyed() {}
/**
* Return pointer to the Nv3DVUtils instance. Calls equivalent method in LayerManager.
*/
Nv3DVUtils *GetNv3DVUtils() { return mD3DManager->GetNv3DVUtils(); }
/*
* Returns a shader resource view of a texture containing the contents of this
* layer. Will try to return an existing texture if possible, or a temporary
* one if not. It is the callee's responsibility to release the shader
* resource view. Will return null if a texture could not be constructed.
* The texture will not be transformed, i.e., it will be in the same coord
* space as this.
* Any layer that can be used as a mask layer should override this method.
* If aSize is non-null, it will contain the size of the texture.
*/
virtual already_AddRefed<ID3D10ShaderResourceView> GetAsTexture(gfxIntSize* aSize)
{
return nullptr;
}
void SetEffectTransformAndOpacity()
{
Layer* layer = GetLayer();
const gfx3DMatrix& transform = layer->GetEffectiveTransform();
void* raw = &const_cast<gfx3DMatrix&>(transform)._11;
effect()->GetVariableByName("mLayerTransform")->SetRawValue(raw, 0, 64);
effect()->GetVariableByName("fLayerOpacity")->AsScalar()->SetFloat(layer->GetEffectiveOpacity());
}
protected:
/*
* Finds a texture for this layer's mask layer (if it has one) and sets it
* as an input to the shaders.
* Returns SHADER_MASK if a texture is loaded, SHADER_NO_MASK if there was no
* mask layer, or a texture for the mask layer could not be loaded.
*/
PRUint8 LoadMaskTexture();
/**
* Select a shader technique using a combination of the following flags.
* Not all combinations of flags are supported, and might cause an error,
* check the fx file to see which shaders exist. In particular, aFlags should
* include any combination of the 0x20 bit = 0 flags OR one of the 0x20 bit = 1
* flags. Mask flags can be used in either case.
*/
ID3D10EffectTechnique* SelectShader(PRUint8 aFlags);
const static PRUint8 SHADER_NO_MASK = 0;
const static PRUint8 SHADER_MASK = 0x1;
const static PRUint8 SHADER_MASK_3D = 0x2;
// 0x20 bit = 0
const static PRUint8 SHADER_RGB = 0;
const static PRUint8 SHADER_RGBA = 0x4;
const static PRUint8 SHADER_NON_PREMUL = 0;
const static PRUint8 SHADER_PREMUL = 0x8;
const static PRUint8 SHADER_LINEAR = 0;
const static PRUint8 SHADER_POINT = 0x10;
// 0x20 bit = 1
const static PRUint8 SHADER_YCBCR = 0x20;
const static PRUint8 SHADER_COMPONENT_ALPHA = 0x24;
const static PRUint8 SHADER_SOLID = 0x28;
LayerManagerD3D10 *mD3DManager;
};
/**
* WindowLayer is a simple, special kinds of shadowable layer into
* which layer trees are rendered. It represents something like an OS
* window. It exists only to allow sharing textures with the
* compositor while reusing existing shadow-layer machinery.
*
* WindowLayer being implemented as a thebes layer isn't an important
* detail; other layer types could have been used.
*/
class WindowLayer : public ThebesLayer, public ShadowableLayer {
public:
WindowLayer(LayerManagerD3D10* aManager);
virtual ~WindowLayer();
void InvalidateRegion(const nsIntRegion&) {}
Layer* AsLayer() { return this; }
void SetShadow(PLayerChild* aChild) { mShadow = aChild; }
};
/**
* DummyRoot is the root of the shadowable layer tree created by
* remote content. It exists only to contain WindowLayers. It always
* has exactly one child WindowLayer.
*/
class DummyRoot : public ContainerLayer, public ShadowableLayer {
public:
DummyRoot(LayerManagerD3D10* aManager);
virtual ~DummyRoot();
void ComputeEffectiveTransforms(const gfx3DMatrix&) {}
void InsertAfter(Layer*, Layer*);
void RemoveChild(Layer*);
Layer* AsLayer() { return this; }
void SetShadow(PLayerChild* aChild) { mShadow = aChild; }
};
} /* layers */
} /* mozilla */
#endif /* GFX_LAYERMANAGERD3D9_H */