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vtk-m/vtkm/rendering/MapperPoint.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/MapperPoint.h>
#include <vtkm/cont/Timer.h>
#include <vtkm/rendering/CanvasRayTracer.h>
#include <vtkm/rendering/internal/RunTriangulator.h>
#include <vtkm/rendering/raytracing/Camera.h>
#include <vtkm/rendering/raytracing/Logger.h>
#include <vtkm/rendering/raytracing/RayOperations.h>
#include <vtkm/rendering/raytracing/RayTracer.h>
#include <vtkm/rendering/raytracing/SphereExtractor.h>
#include <vtkm/rendering/raytracing/SphereIntersector.h>
namespace vtkm
{
namespace rendering
{
struct MapperPoint::InternalsType
{
vtkm::rendering::CanvasRayTracer* Canvas;
vtkm::rendering::raytracing::RayTracer Tracer;
vtkm::rendering::raytracing::Camera RayCamera;
vtkm::rendering::raytracing::Ray<vtkm::Float32> Rays;
bool CompositeBackground;
vtkm::Float32 PointRadius;
bool UseNodes;
vtkm::Float32 PointDelta;
bool UseVariableRadius;
VTKM_CONT
InternalsType()
: Canvas(nullptr)
, CompositeBackground(true)
, PointRadius(-1.f)
, UseNodes(true)
, PointDelta(0.5f)
, UseVariableRadius(false)
{
}
};
MapperPoint::MapperPoint()
: Internals(new InternalsType)
{
}
MapperPoint::~MapperPoint() {}
void MapperPoint::SetCanvas(vtkm::rendering::Canvas* canvas)
{
if (canvas != nullptr)
{
this->Internals->Canvas = dynamic_cast<CanvasRayTracer*>(canvas);
if (this->Internals->Canvas == nullptr)
{
throw vtkm::cont::ErrorBadValue("MapperPoint: bad canvas type. Must be CanvasRayTracer");
}
}
else
{
this->Internals->Canvas = nullptr;
}
}
vtkm::rendering::Canvas* MapperPoint::GetCanvas() const
{
return this->Internals->Canvas;
}
void MapperPoint::UseCells()
{
this->Internals->UseNodes = false;
}
void MapperPoint::UseNodes()
{
this->Internals->UseNodes = true;
}
void MapperPoint::SetRadius(const vtkm::Float32& radius)
{
if (radius <= 0.f)
{
throw vtkm::cont::ErrorBadValue("MapperPoint: point radius must be positive");
}
this->Internals->PointRadius = radius;
}
void MapperPoint::SetRadiusDelta(const vtkm::Float32& delta)
{
this->Internals->PointDelta = delta;
}
void MapperPoint::UseVariableRadius(bool useVariableRadius)
{
this->Internals->UseVariableRadius = useVariableRadius;
}
void MapperPoint::RenderCells(const vtkm::cont::DynamicCellSet& cellset,
const vtkm::cont::CoordinateSystem& coords,
const vtkm::cont::Field& scalarField,
const vtkm::cont::ColorTable& vtkmNotUsed(colorTable),
const vtkm::rendering::Camera& camera,
const vtkm::Range& scalarRange)
{
raytracing::Logger* logger = raytracing::Logger::GetInstance();
// make sure we start fresh
this->Internals->Tracer.Clear();
logger->OpenLogEntry("mapper_ray_tracer");
vtkm::cont::Timer tot_timer;
tot_timer.Start();
vtkm::cont::Timer timer;
vtkm::Bounds coordBounds = coords.GetBounds();
vtkm::Float32 baseRadius = this->Internals->PointRadius;
if (baseRadius == -1.f)
{
// set a default radius
vtkm::Float64 lx = coordBounds.X.Length();
vtkm::Float64 ly = coordBounds.Y.Length();
vtkm::Float64 lz = coordBounds.Z.Length();
vtkm::Float64 mag = vtkm::Sqrt(lx * lx + ly * ly + lz * lz);
// same as used in vtk ospray
constexpr vtkm::Float64 heuristic = 500.;
baseRadius = static_cast<vtkm::Float32>(mag / heuristic);
}
vtkm::Bounds shapeBounds;
raytracing::SphereExtractor sphereExtractor;
if (this->Internals->UseVariableRadius)
{
vtkm::Float32 minRadius = baseRadius - baseRadius * this->Internals->PointDelta;
vtkm::Float32 maxRadius = baseRadius + baseRadius * this->Internals->PointDelta;
if (this->Internals->UseNodes)
{
sphereExtractor.ExtractCoordinates(coords, scalarField, minRadius, maxRadius);
}
else
{
sphereExtractor.ExtractCells(cellset, scalarField, minRadius, maxRadius);
}
}
else
{
if (this->Internals->UseNodes)
{
sphereExtractor.ExtractCoordinates(coords, baseRadius);
}
else
{
sphereExtractor.ExtractCells(cellset, baseRadius);
}
}
if (sphereExtractor.GetNumberOfSpheres() > 0)
{
auto sphereIntersector = std::make_shared<raytracing::SphereIntersector>();
sphereIntersector->SetData(coords, sphereExtractor.GetPointIds(), sphereExtractor.GetRadii());
this->Internals->Tracer.AddShapeIntersector(sphereIntersector);
shapeBounds.Include(sphereIntersector->GetShapeBounds());
}
//
// Create rays
//
vtkm::Int32 width = (vtkm::Int32)this->Internals->Canvas->GetWidth();
vtkm::Int32 height = (vtkm::Int32)this->Internals->Canvas->GetHeight();
this->Internals->RayCamera.SetParameters(camera, width, height);
this->Internals->RayCamera.CreateRays(this->Internals->Rays, shapeBounds);
this->Internals->Rays.Buffers.at(0).InitConst(0.f);
raytracing::RayOperations::MapCanvasToRays(
this->Internals->Rays, camera, *this->Internals->Canvas);
this->Internals->Tracer.SetField(scalarField, scalarRange);
this->Internals->Tracer.GetCamera() = this->Internals->RayCamera;
this->Internals->Tracer.SetColorMap(this->ColorMap);
this->Internals->Tracer.Render(this->Internals->Rays);
timer.Start();
this->Internals->Canvas->WriteToCanvas(
this->Internals->Rays, this->Internals->Rays.Buffers.at(0).Buffer, camera);
if (this->Internals->CompositeBackground)
{
this->Internals->Canvas->BlendBackground();
}
vtkm::Float64 time = timer.GetElapsedTime();
logger->AddLogData("write_to_canvas", time);
time = tot_timer.GetElapsedTime();
logger->CloseLogEntry(time);
}
void MapperPoint::SetCompositeBackground(bool on)
{
this->Internals->CompositeBackground = on;
}
vtkm::rendering::Mapper* MapperPoint::NewCopy() const
{
return new vtkm::rendering::MapperPoint(*this);
}
}
} // vtkm::rendering
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