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vtk-m/vtkm/rendering/ConnectivityProxy.cxx

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//============================================================================
// Copyright (c) Kitware, Inc.
// All rights reserved.
// See LICENSE.txt for details.
//
// This software is distributed WITHOUT ANY WARRANTY; without even
// the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
// PURPOSE. See the above copyright notice for more information.
//============================================================================
#include <vtkm/rendering/CanvasRayTracer.h>
#include <vtkm/rendering/ConnectivityProxy.h>
#include <vtkm/rendering/Mapper.h>
#include <vtkm/rendering/raytracing/ConnectivityTracer.h>
#include <vtkm/rendering/raytracing/Logger.h>
#include <vtkm/rendering/raytracing/RayOperations.h>
namespace vtkm
{
namespace rendering
{
struct ConnectivityProxy::InternalsType
{
protected:
using ColorMapType = vtkm::cont::ArrayHandle<vtkm::Vec4f_32>;
using TracerType = vtkm::rendering::raytracing::ConnectivityTracer;
TracerType Tracer;
vtkm::cont::Field ScalarField;
vtkm::cont::Field EmissionField;
vtkm::cont::DynamicCellSet Cells;
vtkm::cont::CoordinateSystem Coords;
RenderMode Mode;
vtkm::Bounds SpatialBounds;
ColorMapType ColorMap;
vtkm::cont::DataSet Dataset;
vtkm::Range ScalarRange;
bool CompositeBackground;
public:
InternalsType(vtkm::cont::DataSet& dataSet)
{
Dataset = dataSet;
Cells = dataSet.GetCellSet();
Coords = dataSet.GetCoordinateSystem();
Mode = VOLUME_MODE;
CompositeBackground = true;
//
// Just grab a default scalar field
//
if (Dataset.GetNumberOfFields() > 0)
{
this->SetScalarField(Dataset.GetField(0).GetName());
}
}
~InternalsType() {}
VTKM_CONT
void SetUnitScalar(vtkm::Float32 unitScalar) { Tracer.SetUnitScalar(unitScalar); }
void SetSampleDistance(const vtkm::Float32& distance)
{
if (Mode != VOLUME_MODE)
{
throw vtkm::cont::ErrorBadValue(
"Conn Proxy: volume mode must be set before sample distance set");
}
Tracer.SetSampleDistance(distance);
}
VTKM_CONT
void SetRenderMode(RenderMode mode) { Mode = mode; }
VTKM_CONT
RenderMode GetRenderMode() { return Mode; }
VTKM_CONT
void SetScalarField(const std::string& fieldName)
{
ScalarField = Dataset.GetField(fieldName);
const vtkm::cont::ArrayHandle<vtkm::Range> range = this->ScalarField.GetRange();
ScalarRange = range.ReadPortal().Get(0);
}
VTKM_CONT
void SetColorMap(vtkm::cont::ArrayHandle<vtkm::Vec4f_32>& colormap)
{
Tracer.SetColorMap(colormap);
}
VTKM_CONT
void SetCompositeBackground(bool on) { CompositeBackground = on; }
VTKM_CONT
void SetDebugPrints(bool on) { Tracer.SetDebugOn(on); }
VTKM_CONT
void SetEpsilon(vtkm::Float64 epsilon) { Tracer.SetEpsilon(epsilon); }
VTKM_CONT
void SetEmissionField(const std::string& fieldName)
{
if (Mode != ENERGY_MODE)
{
throw vtkm::cont::ErrorBadValue(
"Conn Proxy: energy mode must be set before setting emission field");
}
EmissionField = Dataset.GetField(fieldName);
}
VTKM_CONT
vtkm::Bounds GetSpatialBounds() const { return SpatialBounds; }
VTKM_CONT
vtkm::Range GetScalarFieldRange()
{
const vtkm::cont::ArrayHandle<vtkm::Range> range = this->ScalarField.GetRange();
ScalarRange = range.ReadPortal().Get(0);
return ScalarRange;
}
VTKM_CONT
void SetScalarRange(const vtkm::Range& range) { this->ScalarRange = range; }
VTKM_CONT
vtkm::Range GetScalarRange() { return this->ScalarRange; }
VTKM_CONT
void Trace(vtkm::rendering::raytracing::Ray<vtkm::Float64>& rays)
{
if (Mode == VOLUME_MODE)
{
Tracer.SetVolumeData(this->ScalarField, this->ScalarRange, this->Cells, this->Coords);
}
else
{
Tracer.SetEnergyData(this->ScalarField,
rays.Buffers.at(0).GetNumChannels(),
this->Cells,
this->Coords,
this->EmissionField);
}
Tracer.FullTrace(rays);
}
VTKM_CONT
void Trace(vtkm::rendering::raytracing::Ray<vtkm::Float32>& rays)
{
if (Mode == VOLUME_MODE)
{
Tracer.SetVolumeData(this->ScalarField, this->ScalarRange, this->Cells, this->Coords);
}
else
{
Tracer.SetEnergyData(this->ScalarField,
rays.Buffers.at(0).GetNumChannels(),
this->Cells,
this->Coords,
this->EmissionField);
}
Tracer.FullTrace(rays);
}
VTKM_CONT
PartialVector64 PartialTrace(vtkm::rendering::raytracing::Ray<vtkm::Float64>& rays)
{
if (Mode == VOLUME_MODE)
{
Tracer.SetVolumeData(this->ScalarField, this->ScalarRange, this->Cells, this->Coords);
}
else
{
Tracer.SetEnergyData(this->ScalarField,
rays.Buffers.at(0).GetNumChannels(),
this->Cells,
this->Coords,
this->EmissionField);
}
return Tracer.PartialTrace(rays);
}
VTKM_CONT
PartialVector32 PartialTrace(vtkm::rendering::raytracing::Ray<vtkm::Float32>& rays)
{
if (Mode == VOLUME_MODE)
{
Tracer.SetVolumeData(this->ScalarField, this->ScalarRange, this->Cells, this->Coords);
}
else
{
Tracer.SetEnergyData(this->ScalarField,
rays.Buffers.at(0).GetNumChannels(),
this->Cells,
this->Coords,
this->EmissionField);
}
return Tracer.PartialTrace(rays);
}
VTKM_CONT
void Trace(const vtkm::rendering::Camera& camera, vtkm::rendering::CanvasRayTracer* canvas)
{
if (canvas == nullptr)
{
throw vtkm::cont::ErrorBadValue("Conn Proxy: null canvas");
}
vtkm::rendering::raytracing::Camera rayCamera;
rayCamera.SetParameters(
camera, (vtkm::Int32)canvas->GetWidth(), (vtkm::Int32)canvas->GetHeight());
vtkm::rendering::raytracing::Ray<vtkm::Float32> rays;
rayCamera.CreateRays(rays, this->Coords.GetBounds());
rays.Buffers.at(0).InitConst(0.f);
raytracing::RayOperations::MapCanvasToRays(rays, camera, *canvas);
if (Mode == VOLUME_MODE)
{
Tracer.SetVolumeData(this->ScalarField, this->ScalarRange, this->Cells, this->Coords);
}
else
{
throw vtkm::cont::ErrorBadValue("ENERGY MODE Not implemented for this use case\n");
}
Tracer.FullTrace(rays);
canvas->WriteToCanvas(rays, rays.Buffers.at(0).Buffer, camera);
if (CompositeBackground)
{
canvas->BlendBackground();
}
}
};
VTKM_CONT
ConnectivityProxy::ConnectivityProxy(vtkm::cont::DataSet& dataSet)
: Internals(new InternalsType(dataSet))
{
}
VTKM_CONT
ConnectivityProxy::ConnectivityProxy(const vtkm::cont::DynamicCellSet& cellset,
const vtkm::cont::CoordinateSystem& coords,
const vtkm::cont::Field& scalarField)
{
vtkm::cont::DataSet dataset;
dataset.SetCellSet(cellset);
dataset.AddCoordinateSystem(coords);
dataset.AddField(scalarField);
Internals = std::shared_ptr<InternalsType>(new InternalsType(dataset));
}
VTKM_CONT
ConnectivityProxy::~ConnectivityProxy() {}
VTKM_CONT
void ConnectivityProxy::SetSampleDistance(const vtkm::Float32& distance)
{
Internals->SetSampleDistance(distance);
}
VTKM_CONT
void ConnectivityProxy::SetRenderMode(RenderMode mode)
{
Internals->SetRenderMode(mode);
}
VTKM_CONT
void ConnectivityProxy::SetScalarField(const std::string& fieldName)
{
Internals->SetScalarField(fieldName);
}
VTKM_CONT
void ConnectivityProxy::SetColorMap(vtkm::cont::ArrayHandle<vtkm::Vec4f_32>& colormap)
{
Internals->SetColorMap(colormap);
}
VTKM_CONT
void ConnectivityProxy::SetEmissionField(const std::string& fieldName)
{
Internals->SetEmissionField(fieldName);
}
VTKM_CONT
vtkm::Bounds ConnectivityProxy::GetSpatialBounds()
{
return Internals->GetSpatialBounds();
}
VTKM_CONT
vtkm::Range ConnectivityProxy::GetScalarFieldRange()
{
return Internals->GetScalarFieldRange();
}
VTKM_CONT
void ConnectivityProxy::SetCompositeBackground(bool on)
{
return Internals->SetCompositeBackground(on);
}
VTKM_CONT
void ConnectivityProxy::SetScalarRange(const vtkm::Range& range)
{
Internals->SetScalarRange(range);
}
VTKM_CONT
vtkm::Range ConnectivityProxy::GetScalarRange()
{
return Internals->GetScalarRange();
}
VTKM_CONT
void ConnectivityProxy::Trace(vtkm::rendering::raytracing::Ray<vtkm::Float64>& rays)
{
raytracing::Logger* logger = raytracing::Logger::GetInstance();
logger->OpenLogEntry("connectivity_trace_64");
if (Internals->GetRenderMode() == VOLUME_MODE)
{
logger->AddLogData("volume_mode", "true");
}
else
{
logger->AddLogData("volume_mode", "false");
}
Internals->Trace(rays);
logger->CloseLogEntry(-1.0);
}
VTKM_CONT
PartialVector32 ConnectivityProxy::PartialTrace(
vtkm::rendering::raytracing::Ray<vtkm::Float32>& rays)
{
raytracing::Logger* logger = raytracing::Logger::GetInstance();
logger->OpenLogEntry("connectivity_trace_32");
if (Internals->GetRenderMode() == VOLUME_MODE)
{
logger->AddLogData("volume_mode", "true");
}
else
{
logger->AddLogData("volume_mode", "false");
}
PartialVector32 res = Internals->PartialTrace(rays);
logger->CloseLogEntry(-1.0);
return res;
}
VTKM_CONT
void ConnectivityProxy::Trace(vtkm::rendering::raytracing::Ray<vtkm::Float32>& rays)
{
raytracing::Logger* logger = raytracing::Logger::GetInstance();
logger->OpenLogEntry("connectivity_trace_32");
if (Internals->GetRenderMode() == VOLUME_MODE)
{
logger->AddLogData("volume_mode", "true");
}
else
{
logger->AddLogData("volume_mode", "false");
}
Internals->Trace(rays);
logger->CloseLogEntry(-1.0);
}
VTKM_CONT
PartialVector64 ConnectivityProxy::PartialTrace(
vtkm::rendering::raytracing::Ray<vtkm::Float64>& rays)
{
raytracing::Logger* logger = raytracing::Logger::GetInstance();
logger->OpenLogEntry("connectivity_trace_64");
if (Internals->GetRenderMode() == VOLUME_MODE)
{
logger->AddLogData("volume_mode", "true");
}
else
{
logger->AddLogData("volume_mode", "false");
}
PartialVector64 res = Internals->PartialTrace(rays);
logger->CloseLogEntry(-1.0);
return res;
}
VTKM_CONT
void ConnectivityProxy::Trace(const vtkm::rendering::Camera& camera,
vtkm::rendering::CanvasRayTracer* canvas)
{
raytracing::Logger* logger = raytracing::Logger::GetInstance();
logger->OpenLogEntry("connectivity_trace_32");
logger->AddLogData("volume_mode", "true");
Internals->Trace(camera, canvas);
logger->CloseLogEntry(-1.0);
}
VTKM_CONT
void ConnectivityProxy::SetDebugPrints(bool on)
{
Internals->SetDebugPrints(on);
}
VTKM_CONT
void ConnectivityProxy::SetEpsilon(vtkm::Float64 epsilon)
{
Internals->SetEpsilon(epsilon);
}
VTKM_CONT
void ConnectivityProxy::SetUnitScalar(vtkm::Float32 unitScalar)
{
Internals->SetUnitScalar(unitScalar);
}
}
} // namespace vtkm::rendering
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