public static RenderTarget CreateRenderTarget(DrawSystem.D3DData d3d, string name, int width, int height)
{
var backBuffer = new Texture2D(d3d.Device, new Texture2DDescription()
{
Format = DrawSystem.GetRenderTargetFormat(),
ArraySize = 1,
MipLevels = 1,
Width = width,
Height = height,
SampleDescription = new SampleDescription(1, 0),
Usage = ResourceUsage.Default,
BindFlags = BindFlags.RenderTarget | BindFlags.ShaderResource,
CpuAccessFlags = CpuAccessFlags.None,
OptionFlags = ResourceOptionFlags.None
});
var depthBuffer = _CreateDepthBuffer(d3d, width, height);
var res = new RenderTarget(name);
res.ShaderResourceView = new ShaderResourceView(d3d.Device, backBuffer);
res.TargetTexture = backBuffer;
res.TargetView = new RenderTargetView(d3d.Device, backBuffer);
res.DepthStencilView = _CreateDepthStencilView(d3d, depthBuffer);
res._AddDisposable(backBuffer);
res._AddDisposable(depthBuffer);
res._AddDisposable(res.ShaderResourceView);
res._AddDisposable(res.TargetView);
res._AddDisposable(res.DepthStencilView);
return(res);
}
public static TextureView FromFile(string uid, DrawSystem.D3DData d3d, string filePath)
{
var result = new TextureView(uid);
var texRes = Texture2D.FromFile <Texture2D>(d3d.Device, filePath);
result.View = new ShaderResourceView(d3d.Device, texRes);
var desc = new SamplerStateDescription()
{
Filter = Filter.MinMagMipLinear,
AddressU = TextureAddressMode.Wrap,
AddressV = TextureAddressMode.Wrap,
AddressW = TextureAddressMode.Wrap,
BorderColor = Color.Black,
ComparisonFunction = Comparison.Never,
MaximumAnisotropy = 16,
MipLodBias = 0,
MinimumLod = 0,
MaximumLod = 16,
};
result.SamplerState = new SamplerState(d3d.Device, desc);
result._AddDisposable(texRes);
result._AddDisposable(result.View);
result._AddDisposable(result.SamplerState);
return(result);
}
public DrawPassCtrl(DrawSystem.D3DData d3d, DrawResourceRepository repository, HmdDevice hmd, bool bStereoRendering, int multiThreadCount)
{
m_d3d = d3d;
m_repository = repository;
m_bStereoRendering = bStereoRendering;
m_hmd = hmd;
m_factory = new DrawContext.Factory(d3d, repository);
if (bStereoRendering)
{
m_stereoContext = new StereoDrawContext(d3d, repository, hmd, m_factory.CreateDeferredDrawContext());
}
else
{
m_monoralContext = new MonoralDrawContext(d3d, repository, m_factory.CreateImmediateDrawContext());
}
// Init settings
m_d3d.Device.QueryInterface <Device1>().MaximumFrameLatency = 1;
m_subThreadCtxList = new List <_SubThreadContextData>();
for (int index = 0; index < multiThreadCount; ++index)
{
var drawContext = m_factory.CreateDeferredDrawContext();
m_subThreadCtxList.Add(new _SubThreadContextData()
{
DrawContext = drawContext
});
}
}
public static Buffer CreateConstantBuffer <Type>(DrawSystem.D3DData d3d, int length) where Type : struct
{
int size = Utilities.SizeOf <Type>();
Debug.Assert(size % 16 == 0, "size of constant buffer must be aligned to 16 byte");
return(CreateConstantBuffer(d3d, size * length));
}
public static RenderTarget[] FromSwapTextureSet(DrawSystem.D3DData d3d, String name, HmdSwapTextureSet swapTextureSet)
{
int width = swapTextureSet.Resolution.Width;
int height = swapTextureSet.Resolution.Height;
var depthBuffer = _CreateDepthBuffer(d3d, width, height);
var depthStencilView = _CreateDepthStencilView(d3d, depthBuffer);
var resultList = new List <RenderTarget>();
int texCount = swapTextureSet.Textures.Count();
for (int texIndex = 0; texIndex < texCount; ++texIndex)
{
var texture = swapTextureSet.Textures[texIndex];
var res = new RenderTarget(name + texIndex);
res.ShaderResourceView = new ShaderResourceView(d3d.Device, texture);
res.TargetTexture = texture;
res.TargetView = swapTextureSet.RenderTargetView[texIndex];
res.DepthStencilView = depthStencilView;
res._AddDisposable(res.ShaderResourceView);
if (texIndex == 0)
{
// depth buffer and view are shared by each render targets
res._AddDisposable(depthBuffer);
res._AddDisposable(res.DepthStencilView);
}
resultList.Add(res);
}
return(resultList.ToArray());
}
private static BlendState _CreateBlendState(DrawSystem.D3DData d3d, DrawSystem.RenderMode mode)
{
switch (mode)
{
case DrawSystem.RenderMode.Opaque:
{
var blendDesc = BlendStateDescription.Default();
return(new BlendState(d3d.Device, blendDesc));
}
case DrawSystem.RenderMode.Transparency:
{
var blendDesc = new BlendStateDescription()
{
AlphaToCoverageEnable = false,
IndependentBlendEnable = false,
};
blendDesc.RenderTarget[0] = new RenderTargetBlendDescription(true, BlendOption.SourceAlpha, BlendOption.InverseSourceAlpha, BlendOperation.Add, BlendOption.One, BlendOption.Zero, BlendOperation.Add, ColorWriteMaskFlags.All);
return(new BlendState(d3d.Device, blendDesc));
}
default:
return(null);
}
}
/// <summary>
/// create a mesh data from vertex array
/// </summary>
/// <typeparam name="Type">type of vertex</typeparam>
/// <param name="d3d">d3d data</param>
/// <param name="topology">primitive topology</param>
/// <param name="vertices">vertex array1</param>
/// <returns>mesh data</returns>
public static DrawSystem.MeshData CreateMeshData <Type1>(DrawSystem.D3DData d3d, PrimitiveTopology topology, Type1[] vertices1)
where Type1 : struct
{
var data = DrawSystem.MeshData.Create(1);
data.VertexCount = vertices1.Length;
data.Buffers[0] = new VertexBufferBinding(CreateVertexBuffer <Type1>(d3d, vertices1), Utilities.SizeOf <Type1>(), 0);
data.Topology = topology;
return(data);
}
public DrawResourceRepository(DrawSystem.D3DData d3d)
{
m_renderTargetMap = new ResourceMap <RenderTarget>();
m_shaderMap = new ResourceMap <Effect>();
//m_modelMap = new ResourceMap<DrawModel>();
m_texMap = new ResourceMap <TextureView>();
// get a default render target
var renderTarget = RenderTarget.CreateDefaultRenderTarget(d3d);
AddResource(renderTarget);
}
public static DrawSystem.MeshData CreateMeshData <Type1, Type2>(DrawSystem.D3DData d3d, PrimitiveTopology topology, Type1[] vertices1, Type2[] vertices2)
where Type1 : struct
where Type2 : struct
{
Debug.Assert(vertices1.Length == vertices2.Length, "the lengths of vertex buffer are unmatched");
var data = DrawSystem.MeshData.Create(2);
data.VertexCount = vertices1.Length;
data.Buffers[0] = new VertexBufferBinding(CreateVertexBuffer <Type1>(d3d, vertices1), Utilities.SizeOf <Type1>(), 0);
data.Buffers[1] = new VertexBufferBinding(CreateVertexBuffer <Type2>(d3d, vertices2), Utilities.SizeOf <Type2>(), 0);
data.Topology = topology;
return(data);
}
public static Buffer CreateVertexBuffer <Type>(DrawSystem.D3DData d3d, Type[] vertices) where Type : struct
{
var desc = new BufferDescription
{
BindFlags = BindFlags.VertexBuffer,
CpuAccessFlags = CpuAccessFlags.None,
OptionFlags = ResourceOptionFlags.None,
SizeInBytes = Utilities.SizeOf <Type>() * vertices.Length,
StructureByteStride = Utilities.SizeOf <Type>(),
Usage = ResourceUsage.Default,
};
return(Buffer.Create(d3d.Device, vertices, desc));
}
public static DepthStencilView _CreateDepthStencilView(DrawSystem.D3DData d3d, Texture2D depthBuffer)
{
var dsvDesc = new DepthStencilViewDescription
{
Dimension = DepthStencilViewDimension.Texture2D,
Flags = DepthStencilViewFlags.None,
Format = depthBuffer.Description.Format,
Texture2D = new DepthStencilViewDescription.Texture2DResource()
{
MipSlice = 0
}
};
return(new DepthStencilView(d3d.Device, depthBuffer, dsvDesc));
}
public Effect(String uid, DrawSystem.D3DData d3d, InputElement[] inputElements, String vertexShader, String pixelShader)
: this(uid)
{
var include = new _IncludeImpl("Shader");
var vertexByteCode = ShaderBytecode.CompileFromFile(vertexShader, "main", "vs_4_0", ShaderFlags.Debug, EffectFlags.None, null, include);
var pixelByteCode = ShaderBytecode.CompileFromFile(pixelShader, "main", "ps_4_0", ShaderFlags.Debug, EffectFlags.None, null, include);
VertexShader = new VertexShader(d3d.Device, vertexByteCode);
PixelShader = new PixelShader(d3d.Device, pixelByteCode);
Layout = new InputLayout(d3d.Device, ShaderSignature.GetInputSignature(vertexByteCode), inputElements);
_AddDisposable(VertexShader);
_AddDisposable(PixelShader);
_AddDisposable(Layout);
}
public static Texture2D _CreateDepthBuffer(DrawSystem.D3DData d3d, int width, int height)
{
return(new Texture2D(d3d.Device, new Texture2DDescription()
{
Format = Format.D32_Float,
ArraySize = 1,
MipLevels = 1,
Width = width,
Height = height,
SampleDescription = new SampleDescription(1, 0),
Usage = ResourceUsage.Default,
BindFlags = BindFlags.DepthStencil,
CpuAccessFlags = CpuAccessFlags.None,
OptionFlags = ResourceOptionFlags.None
}));
}
/// <summary>
/// create a default render target as ResourceBase
/// </summary>
/// <param name="d3d">Direct3D data</param>
/// <returns>render target</returns>
public static RenderTarget CreateDefaultRenderTarget(DrawSystem.D3DData d3d)
{
var res = new RenderTarget("Default");
var backBuffer = Texture2D.FromSwapChain <Texture2D>(d3d.SwapChain, 0);
var depthBuffer = _CreateDepthBuffer(d3d, backBuffer.Description.Width, backBuffer.Description.Height);
res.TargetView = new RenderTargetView(d3d.Device, backBuffer);
res.DepthStencilView = _CreateDepthStencilView(d3d, depthBuffer);
res.ShaderResourceView = null;
res.TargetTexture = backBuffer;
res._AddDisposable(res.TargetView);
res._AddDisposable(depthBuffer);
res._AddDisposable(res.DepthStencilView);
return(res);
}
/// <summary>
/// set up device
/// </summary>
/// <param name="d3d">d3d data</param>
/// <param name="renderTarget">render target of back buffer</param>
public void Setup(DrawSystem.D3DData d3d, RenderTarget renderTarget)
{
uint hmdCaps =
(uint)LibOVR.ovrHmdCaps.LowPersistence
| (uint)LibOVR.ovrHmdCaps.DynamicPrediction;
LibOVR.ovrHmd_SetEnabledCaps(m_handle.Ptr, hmdCaps);
uint trackingCaps = (uint)LibOVR.ovrTrackingCaps.Orientation | (uint)LibOVR.ovrTrackingCaps.MagYawCorrection
| (uint)LibOVR.ovrTrackingCaps.Position;
if (LibOVR.ovrHmd_ConfigureTracking(m_handle.Ptr, trackingCaps, 0) != 0)
{
MessageBox.Show("Failed to ConfigureTracking()");
Application.Exit();
}
m_eyeDescArray = new LibOVR.ovrEyeRenderDesc[2];
m_eyeDescArray[0] = LibOVR.ovrHmd_GetRenderDesc(m_handle.Ptr, LibOVR.ovrEyeType.Left, m_handle.Value.DefaultEyeFov[0]);
m_eyeDescArray[1] = LibOVR.ovrHmd_GetRenderDesc(m_handle.Ptr, LibOVR.ovrEyeType.Right, m_handle.Value.DefaultEyeFov[1]);
}
public StereoDrawContext(DrawSystem.D3DData d3d, DrawResourceRepository repository, HmdDevice hmd, DrawContext context)
{
m_d3d = d3d;
m_repository = repository;
m_context = context;
m_hmd = hmd;
// Create render targets for each HMD eye
m_textureSets = new HmdSwapTextureSet[2];
var eyeResolution = hmd.EyeResolution;
var resNames = new string[] { "OVRLeftEye", "OVRRightEye" };
for (int index = 0; index < 2; ++index)
{
var textureSet = m_hmd.CreateSwapTextureSet(d3d.Device, eyeResolution.Width, eyeResolution.Height);
m_textureSets[index] = textureSet;
var renderTargetList = RenderTarget.FromSwapTextureSet(m_d3d, resNames[index], textureSet);
foreach (var renderTarget in renderTargetList)
{
m_repository.AddResource(renderTarget);
}
}
// Create temporaly render target
var tmpRt = RenderTarget.CreateRenderTarget(d3d, "Temp", eyeResolution.Width, eyeResolution.Height);
m_repository.AddResource(tmpRt);
// Create texture for Mirroring
Size defaultRenderTargetSize = m_repository.GetDefaultRenderTarget().Resolution;
m_mirrorTexture = m_hmd.CreateMirrorTexture(m_d3d.Device, defaultRenderTargetSize.Width, defaultRenderTargetSize.Height);
m_commandListTable = new List <CommandList>();
}
public MonoralDrawContext(DrawSystem.D3DData d3d, DrawResourceRepository repository, DrawContext context)
{
m_d3d = d3d;
m_repository = repository;
m_context = context;
}
public static Buffer CreateConstantBuffer(DrawSystem.D3DData d3d, int size)
{
return(new Buffer(d3d.Device, size, ResourceUsage.Default, BindFlags.ConstantBuffer, CpuAccessFlags.None, ResourceOptionFlags.None, 0));
}
public Factory(DrawSystem.D3DData d3d, DrawResourceRepository repository)
{
m_initParam.D3D = d3d;
m_initParam.Repository = repository;
m_initParam.WorldVtxConst = DrawUtil.CreateConstantBuffer <_VertexShaderConst_World>(d3d, 1);
m_initParam.WorldPixConst = DrawUtil.CreateConstantBuffer <_PixelShaderConst_World>(d3d, 1);
m_initParam.RasterizerState = new RasterizerState(d3d.Device, new RasterizerStateDescription()
{
CullMode = CullMode.Back,
FillMode = FillMode.Solid,
IsAntialiasedLineEnabled = false, // we do not use wireframe
IsDepthClipEnabled = true,
IsMultisampleEnabled = false,
});
var renderModes = new[] { DrawSystem.RenderMode.Opaque, DrawSystem.RenderMode.Transparency };
m_initParam.BlendStates = new BlendState[renderModes.Length];
foreach (DrawSystem.RenderMode mode in renderModes)
{
int index = (int)mode;
m_initParam.BlendStates[index] = _CreateBlendState(d3d, mode);
}
m_initParam.DepthStencilStates = new DepthStencilState[renderModes.Length];
foreach (DrawSystem.RenderMode mode in renderModes)
{
int index = (int)mode;
m_initParam.DepthStencilStates[index] = _CreateDepthStencilState(d3d, mode);
}
{
var shader = new Effect(
"Std",
d3d,
new InputElement[]
{
new InputElement("POSITION", 0, Format.R32G32B32A32_Float, 0, 0),
new InputElement("NORMAL", 0, Format.R32G32B32_Float, 16, 0),
new InputElement("TEXCOORD", 0, Format.R32G32_Float, 28, 0),
new InputElement("TANGENT", 0, Format.R32G32B32_Float, 0, 1),
new InputElement("BONEINDEX", 0, Format.R32G32B32A32_UInt, 0, 2),
new InputElement("BONEWEIGHT", 0, Format.R32G32B32A32_Float, 16, 2),
},
"Shader/VS_Std.fx",
"Shader/PS_Std.fx");
repository.AddResource(shader);
}
{
var shader = new Effect(
"Minimap",
d3d,
new InputElement[]
{
new InputElement("POSITION", 0, Format.R32G32B32A32_Float, 0, 0),
new InputElement("NORMAL", 0, Format.R32G32B32_Float, 16, 0),
new InputElement("TEXCOORD", 0, Format.R32G32_Float, 28, 0),
new InputElement("TANGENT", 0, Format.R32G32B32_Float, 0, 1),
new InputElement("BONEINDEX", 0, Format.R32G32B32A32_UInt, 0, 2),
new InputElement("BONEWEIGHT", 0, Format.R32G32B32A32_Float, 16, 2),
},
"Shader/VS_Std.fx",
"Shader/PS_Minimap.fx");
repository.AddResource(shader);
}
{
var shader = new Effect(
"Debug",
d3d,
new InputElement[]
{
new InputElement("POSITION", 0, Format.R32G32B32A32_Float, 0, 0),
new InputElement("COLOR", 0, Format.R32G32B32A32_Float, 16, 0),
},
"Shader/VS_Debug.fx",
"Shader/PS_Debug.fx");
repository.AddResource(shader);
}
}
private static DepthStencilState _CreateDepthStencilState(DrawSystem.D3DData d3d, DrawSystem.RenderMode mode)
{
switch (mode)
{
case DrawSystem.RenderMode.Opaque:
{
return(new DepthStencilState(d3d.Device, new DepthStencilStateDescription()
{
BackFace = new DepthStencilOperationDescription()
{
// Stencil operations if pixel is back-facing
DepthFailOperation = StencilOperation.Decrement,
FailOperation = StencilOperation.Keep,
PassOperation = StencilOperation.Keep,
Comparison = SharpDX.Direct3D11.Comparison.Always,
},
FrontFace = new DepthStencilOperationDescription()
{
// Stencil operations if pixel is front-facing
DepthFailOperation = StencilOperation.Increment,
FailOperation = StencilOperation.Keep,
PassOperation = StencilOperation.Keep,
Comparison = SharpDX.Direct3D11.Comparison.Always,
},
IsDepthEnabled = true,
IsStencilEnabled = false,
StencilReadMask = 0xff,
StencilWriteMask = 0xff,
DepthComparison = Comparison.Less,
DepthWriteMask = DepthWriteMask.All,
}));
}
case DrawSystem.RenderMode.Transparency:
{
return(new DepthStencilState(d3d.Device, new DepthStencilStateDescription()
{
BackFace = new DepthStencilOperationDescription()
{
// Stencil operations if pixel is back-facing
DepthFailOperation = StencilOperation.Decrement,
FailOperation = StencilOperation.Keep,
PassOperation = StencilOperation.Keep,
Comparison = SharpDX.Direct3D11.Comparison.Always,
},
FrontFace = new DepthStencilOperationDescription()
{
// Stencil operations if pixel is front-facing
DepthFailOperation = StencilOperation.Increment,
FailOperation = StencilOperation.Keep,
PassOperation = StencilOperation.Keep,
Comparison = SharpDX.Direct3D11.Comparison.Always,
},
IsDepthEnabled = false, // disable depth
IsStencilEnabled = false,
StencilReadMask = 0xff,
StencilWriteMask = 0xff,
DepthComparison = Comparison.Less,
DepthWriteMask = DepthWriteMask.All,
}));
}
default:
return(null);
}
}
