public QuadShaderDeviceData(DX11RenderContext context)
{
string basepath = "VVVV.DX11.Nodes.effects.quad.fx";
DX11Effect effect = DX11Effect.FromResource(Assembly.GetExecutingAssembly(), basepath);
quadshader = new DX11ShaderInstance(context, effect);
texturevariable = quadshader.Effect.GetVariableBySemantic("INPUTTEXTURE").AsResource();
samplervariable = quadshader.Effect.GetVariableBySemantic("SAMPLERSTATE").AsSampler();
Quad quad = new Quad();
quad.Size = new Vector2(1.0f);
quadgeometry = context.Primitives.QuadNormals(quad);
quadlayouts = new List <InputLayout>();
for (int i = 0; i < 4; i++)
{
InputLayout layout;
quadshader.SelectTechnique(i);
bool res = quadgeometry.ValidateLayout(quadshader.GetPass(0), out layout);
quadlayouts.Add(layout);
}
}
public ShaderDeviceData(DX11RenderContext context)
{
string basepath = "VVVV.DX11.Nodes.effects.DrawFullScreen.fx";
using (DX11Effect effect = DX11Effect.FromResource(Assembly.GetExecutingAssembly(), basepath))
{
shaderInstance = new DX11ShaderInstance(context, effect);
inputTextureVariable = shaderInstance.Effect.GetVariableBySemantic("INPUTTEXTURE").AsResource();
colorVariable = shaderInstance.Effect.GetVariableBySemantic("COLOR").AsVector();
samplerVariable = shaderInstance.Effect.GetVariableBySemantic("TEXTURESAMPLER").AsSampler();
texTransformVariable = shaderInstance.Effect.GetVariableBySemantic("TEXTUREMATRIX").AsMatrix();
pass = shaderInstance.CurrentTechnique.GetPassByIndex(0);
}
}
public void Update(IPluginIO pin, DX11RenderContext context)
{
Device device = context.Device;
DeviceContext ctx = context.CurrentDeviceContext;
if (!this.FOutPointcloudBuffer[0].Contains(context) || !this.FOutIndexBuffer[0].Contains(context) || this.FInEleCount.IsChanged)
{
this.FOutPointcloudBuffer[0].Dispose(context);
this.FOutIndexBuffer[0].Dispose(context);
DX11RWStructuredBuffer pcBuffer = new DX11RWStructuredBuffer(device, FInEleCount[0], FInStride[0], eDX11BufferMode.Counter);
DX11RWStructuredBuffer idBuffer = new DX11RWStructuredBuffer(device, FInEleCount[0], 4, eDX11BufferMode.Counter);
this.FOutPointcloudBuffer[0][context] = pcBuffer;
this.FOutIndexBuffer[0][context] = idBuffer;
}
// clear offsetbuffer
int[] mask = new int[4] {
-1, -1, -1, -1
};
ctx.ClearUnorderedAccessView(FOutIndexBuffer[0][context].UAV, mask);
// load shader
if (this.shader == null)
{
string basepath = "RingBufferIndexing.effects.RingBufferIndexing.fx";
DX11Effect effect = DX11Effect.FromResource(Assembly.GetExecutingAssembly(), basepath);
this.shader = new DX11ShaderInstance(context, effect);
}
if (this.FInPointcloudBuffer.PluginIO.IsConnected /* && currentFrame != FHDEHost.FrameTime*/)
{
currentFrame = FHDEHost.FrameTime; // prevents to execute this a second time
shader.SelectTechnique("BuildHash");
shader.SetBySemantic("POINTCLOUDBUFFERIN", FInPointcloudBuffer[0][context].SRV);
shader.SetBySemantic("POINTCLOUDBUFFEROUT", FOutPointcloudBuffer[0][context].UAV, 0);
shader.SetBySemantic("INDEXBUFFER", FOutIndexBuffer[0][context].UAV);
shader.ApplyPass(0);
ctx.Dispatch((FInEleCount[0] + 63) / 64, 1, 1);
context.CleanUp();
context.CleanUpCS();
}
}
public void Update(IPluginIO pin, DX11RenderContext context)
{
Device device = context.Device;
DeviceContext ctx = context.CurrentDeviceContext;
if (!this.FOutLinkBuffer[0].Contains(context) || !this.FOutOffsetBuffer[0].Contains(context) || FInGridcellCount.IsChanged)
{
this.FOutLinkBuffer[0].Dispose(context);
this.FOutOffsetBuffer[0].Dispose(context);
DX11RWStructuredBuffer lb = new DX11RWStructuredBuffer(device, FInEleCount[0], 8, eDX11BufferMode.Counter);
DX11RWStructuredBuffer ob = new DX11RWStructuredBuffer(device, FInGridcellCount[0] * FInGridcellCount[0] * FInGridcellCount[0], 4, eDX11BufferMode.Counter);
this.FOutLinkBuffer[0][context] = lb;
this.FOutOffsetBuffer[0][context] = ob;
}
// clear offsetbuffer
int[] mask = new int[4] {
-1, -1, -1, -1
};
ctx.ClearUnorderedAccessView(FOutOffsetBuffer[0][context].UAV, mask);
// load shader
if (this.shader == null)
{
string basepath = "LinkedList.effects.LinkedList.fx";
DX11Effect effect = DX11Effect.FromResource(Assembly.GetExecutingAssembly(), basepath);
this.shader = new DX11ShaderInstance(context, effect);
}
if (this.FInPcBuffer.PluginIO.IsConnected)
{
shader.SelectTechnique("BuildHash");
shader.SetBySemantic("POINTCLOUDBUFFER", FInPcBuffer[0][context].SRV);
shader.SetBySemantic("POINTTRANSFORM", FInTransform[0]);
shader.SetBySemantic("RWLINKBUFFER", FOutLinkBuffer[0][context].UAV, 0);
shader.SetBySemantic("RWOFFSETBUFFER", FOutOffsetBuffer[0][context].UAV);
shader.SetBySemantic("GRIDCELLSIZE", FInGridcellCount[0]);
shader.ApplyPass(0);
ctx.Dispatch((FInEleCount[0] + 63) / 64, 1, 1);
context.CleanUp();
context.CleanUpCS();
}
}
public SolidColorTransformed(DX11RenderContext context)
{
if (context == null)
{
throw new ArgumentNullException("context");
}
this.context = context;
using (var cef = DX11Effect.FromResource(Assembly.GetExecutingAssembly(), "FeralTic.Effects.TransformColor.fx"))
{
this.effect = new Effect(context.Device, cef.ByteCode);
this.pass = this.effect.GetTechniqueByIndex(0).GetPassByIndex(0);
this.viewProjVariable = this.effect.GetVariableByName("tVP").AsMatrix();
this.worldVariable = this.effect.GetVariableByName("tW").AsMatrix();
this.colorVariable = this.effect.GetVariableByName("objectColor").AsVector();
}
}
public void Update(IPluginIO pin, DX11RenderContext context)
{
if (quadshader == null)
{
string basepath = "VVVV.DX11.Nodes.effects.quad.fx";
DX11Effect effect = DX11Effect.FromResource(Assembly.GetExecutingAssembly(), basepath);
quadshader = new DX11ShaderInstance(context, effect);
texturevariable = quadshader.Effect.GetVariableBySemantic("INPUTTEXTURE").AsResource();
samplervariable = quadshader.Effect.GetVariableBySemantic("SAMPLERSTATE").AsSampler();
Quad quad = new Quad();
quad.Size = new Vector2(1.0f);
quadgeometry = context.Primitives.QuadNormals(quad);
quadlayouts = new List <InputLayout>();
for (int i = 0; i < 4; i++)
{
InputLayout layout;
quadshader.SelectTechnique(i);
bool res = quadgeometry.ValidateLayout(quadshader.GetPass(0), out layout);
quadlayouts.Add(layout);
}
}
if (this.spmax > 0)
{
if (!this.FOutLayer[0].Contains(context))
{
this.FOutLayer[0][context] = new DX11Layer();
this.FOutLayer[0][context].Render = this.Render;
}
}
}
public void Update(DX11RenderContext context)
{
for (int i = 0; i < framePool.Count; i++)
{
framePool[i].UnLock();
}
framePool.Clear();
if (this.textureOutput.SliceCount == 0)
{
return;
}
//
//Compile shader if necessary
if (shader == null)
{
using (DX11Effect effect = DX11Effect.FromResource(Assembly.GetExecutingAssembly(), Consts.EffectPath + ".ExtractChannel.fx"))
{
shader = new DX11ShaderInstance(context, effect);
}
}
if (shaderExpand == null)
{
using (DX11Effect effect = DX11Effect.FromResource(Assembly.GetExecutingAssembly(), Consts.EffectPath + ".ExtractChannelExpand.fx"))
{
shaderExpand = new DX11ShaderInstance(context, effect);
}
}
for (int i = 0; i < this.textureOutput.SliceCount; i++)
{
if (this.textureInput[i] == null)
{
this.SetDefault(context, i);
}
else if (this.textureInput[i].Contains(context))
{
var instance = this.singleChannelOut[i] ? shader : shaderExpand;
var input = this.textureInput[i][context];
string prefix = "Float";
var inputFormat = input.SRV.Description.Format;
inputFormat = inputFormat.DefaultOutputForCompressed();
if (inputFormat.IsSignedInt())
{
prefix = "UInt";
}
if (inputFormat.IsUnsignedInt())
{
prefix = "Int";
}
prefix += this.channel[i].ToString();
instance.SelectTechnique(prefix);
instance.SetByName("InputTexture", input.SRV);
var outputFormat = inputFormat;
if (this.singleChannelOut[i])
{
var singleFormat = outputFormat.GetSingleChannelEquivalent();
if (singleFormat == SlimDX.DXGI.Format.Unknown)
{
this.message[i] = "Could not find a single channel format suitable for : " + outputFormat.ToString();
this.SetDefault(context, i);
continue;
}
else
{
outputFormat = singleFormat;
}
}
var output = context.ResourcePool.LockRenderTarget(input.Width, input.Height, outputFormat, false, 1, false);
context.RenderTargetStack.Push(output.Element);
context.Primitives.ApplyFullTriVSPosition();
instance.ApplyPass(0);
context.CurrentDeviceContext.Draw(3, 0);
context.RenderTargetStack.Pop();
this.framePool.Add(output);
this.textureOutput[i][context] = output.Element;
this.message[i] = "ok";
}
else
{
this.SetDefault(context, i);
}
}
if (this.BeginQuery != null)
{
this.BeginQuery(context);
}
if (this.EndQuery != null)
{
this.EndQuery(context);
}
}
public void Update(IPluginIO pin, DX11RenderContext context)
{
Device device = context.Device;
DeviceContext ctx = context.CurrentDeviceContext;
if ( !this.FOutPointcloudRingBuffer[0].Contains(context) || !this.FOutUpdatedBuffer[0].Contains(context) || !this.bCounter.Contains(context) || !this.bOffset.Contains(context) || this.FInPointcloudRingBufferSize.IsChanged || this.FInEleCount.IsChanged)
{
this.FOutPointcloudRingBuffer[0].Dispose(context);
DX11RWStructuredBuffer brPointcloud = new DX11RWStructuredBuffer(device, FInPointcloudRingBufferSize[0], FInStride[0], eDX11BufferMode.Counter);
this.FOutPointcloudRingBuffer[0][context] = brPointcloud;
this.FOutUpdatedBuffer[0].Dispose(context);
DX11RWStructuredBuffer brUpdated = new DX11RWStructuredBuffer(device, FInPointcloudRingBufferSize[0], 4, eDX11BufferMode.Counter);
this.FOutUpdatedBuffer[0][context] = brUpdated;
this.bOffset.Dispose(context);
this.bOffset[context] = new DX11RawBuffer(device, 16);
this.bCounter.Dispose(context);
this.bCounter[context] = new DX11RWStructuredBuffer(device, FInEleCount[0], 4, eDX11BufferMode.Counter);
}
// load shader
if (this.shader == null)
{
string basepath = "RingBuffer.effects.RingBuffer.fx";
DX11Effect effect = DX11Effect.FromResource(Assembly.GetExecutingAssembly(), basepath);
this.shader = new DX11ShaderInstance(context, effect);
}
if (this.FInPointcloudBuffer.PluginIO.IsConnected && FInSet[0] && currentFrame != FHDEHost.FrameTime)
{
currentFrame = FHDEHost.FrameTime; // prevents to execute this a second time
int[] mask = new int[4] { 0, 0, 0, 0 };
ctx.ClearUnorderedAccessView(FOutUpdatedBuffer[0][context].UAV, mask);
shader.SelectTechnique("AddPoints");
shader.SetBySemantic("POINTCLOUDBUFFER", FInPointcloudBuffer[0][context].SRV);
shader.SetBySemantic("POINTCLOUDCOUNTBUFFER", FInCountBuffer[0][context].SRV);
shader.SetBySemantic("POINTCLOUDRINGBUFFER", FOutPointcloudRingBuffer[0][context].UAV, FInPointcloudRingBufferSize[0]);
shader.SetBySemantic("UPDATEDRINGBUFFER", FOutUpdatedBuffer[0][context].UAV, FInPointcloudRingBufferSize[0]);
shader.SetBySemantic("POINTCLOUDRINGBUFFERSIZE", FInPointcloudRingBufferSize[0]);
shader.SetBySemantic("OFFSETBUFFER", this.bOffset[context].SRV);
shader.SetBySemantic("COUNTERBUFFER", this.bCounter[context].UAV, 0);
shader.ApplyPass(0);
ctx.Dispatch((FInEleCount[0] + 63) / 64, 1, 1);
ctx.CopyStructureCount(this.bCounter[context].UAV, this.bOffset[context].Buffer, 0);
shader.SelectTechnique("CalcOffset");
shader.ApplyPass(0);
ctx.Dispatch(1, 1, 1);
context.CleanUp();
context.CleanUpCS();
}
}
public void OnImportsSatisfied()
{
effect = DX11Effect.FromResource(System.Reflection.Assembly.GetExecutingAssembly(), Consts.EffectPath + ".Composite.fx");
vertexShadersEffect = DX11Effect.FromResource(System.Reflection.Assembly.GetExecutingAssembly(), Consts.EffectPath + ".VSFullTriDualTexTransform.fx");
}
public void OnImportsSatisfied()
{
effectSample = DX11Effect.FromResource(System.Reflection.Assembly.GetExecutingAssembly(), Consts.EffectPath + ".Pipet_Sample.fx");
effectLoad = DX11Effect.FromResource(System.Reflection.Assembly.GetExecutingAssembly(), Consts.EffectPath + ".Pipet_Load.fx");
}
public static DX11ShaderInstance GetShader(DX11RenderContext context, string shadername)
{
DX11Effect effect = DX11Effect.FromResource(Assembly.GetExecutingAssembly(), "VVVV.DX11.Nodes.effects." + shadername + ".fx");
return(new DX11ShaderInstance(context, effect));
}
public void Update(DX11RenderContext context)
{
for (int i = 0; i < framePool.Count; i++)
{
framePool[i].UnLock();
}
framePool.Clear();
if (this.textureHueOutput.SliceCount == 0)
{
return;
}
//
//Compile shader if necessary
if (shader == null)
{
using (DX11Effect effect = DX11Effect.FromResource(Assembly.GetExecutingAssembly(), Consts.EffectPath + ".HSLSplit.fx"))
{
shader = new DX11ShaderInstance(context, effect);
}
}
for (int i = 0; i < this.textureHueOutput.SliceCount; i++)
{
if (this.textureInput[i] == null)
{
this.SetDefault(context, i);
}
else if (this.textureInput[i].Contains(context))
{
var input = this.textureInput[i][context];
var inputFormat = input.SRV.Description.Format;
inputFormat = inputFormat.DefaultOutputForCompressed();
if (inputFormat.IsSignedInt() || inputFormat.IsUnsignedInt())
{
this.message[i] = "Integer type textures are not supported for color conversion : " + inputFormat.ToString();
this.SetDefault(context, i);
continue;
}
var outputFormat = inputFormat;
if (this.singleChannelOut[i])
{
var singleFormat = outputFormat.GetSingleChannelEquivalent();
if (singleFormat == SlimDX.DXGI.Format.Unknown)
{
this.message[i] = "Could not find a single channel format suitable for : " + outputFormat.ToString();
this.SetDefault(context, i);
continue;
}
else
{
outputFormat = singleFormat;
}
}
string tech = "";
if (this.colorSpace[i] == HSLOrHSVSpace.HSL)
{
tech = this.singleChannelOut[i] ? "HSLSingle" : "HSLExpand";
}
else
{
tech = this.singleChannelOut[i] ? "HSVSingle" : "HSVExpand";
}
shader.SelectTechnique(tech);
shader.SetByName("InputTexture", input.SRV);
var outputRed = context.ResourcePool.LockRenderTarget(input.Width, input.Height, outputFormat, false, 1, false);
var outputGreen = context.ResourcePool.LockRenderTarget(input.Width, input.Height, outputFormat, false, 1, false);
var outputBlue = context.ResourcePool.LockRenderTarget(input.Width, input.Height, outputFormat, false, 1, false);
var outputAlpha = context.ResourcePool.LockRenderTarget(input.Width, input.Height, outputFormat, false, 1, false);
context.RenderTargetStack.Push(outputRed.Element, outputGreen.Element, outputBlue.Element, outputAlpha.Element);
context.Primitives.ApplyFullTriVSPosition();
shader.ApplyPass(0);
context.CurrentDeviceContext.Draw(3, 0);
context.RenderTargetStack.Pop();
this.framePool.Add(outputRed);
this.framePool.Add(outputGreen);
this.framePool.Add(outputBlue);
this.framePool.Add(outputAlpha);
this.textureHueOutput[i][context] = outputRed.Element;
this.textureSaturationOutput[i][context] = outputGreen.Element;
this.textureBrightnessOutput[i][context] = outputBlue.Element;
this.textureAlphaOutput[i][context] = outputAlpha.Element;
this.message[i] = "ok";
}
else
{
this.SetDefault(context, i);
}
}
if (this.BeginQuery != null)
{
this.BeginQuery(context);
}
if (this.EndQuery != null)
{
this.EndQuery(context);
}
}
