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@acransac/vtk.js

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Visualization Toolkit for the Web

github.com/kitware/vtk-js

kitware/vtk-js

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import 'vtk.js/Sources/favicon'; import Constants from 'vtk.js/Sources/Rendering/Core/ImageMapper/Constants'; import vtkFullScreenRenderWindow from 'vtk.js/Sources/Rendering/Misc/FullScreenRenderWindow'; import vtkRTAnalyticSource from 'vtk.js/Sources/Filters/Sources/RTAnalyticSource'; import vtkImageMapper from 'vtk.js/Sources/Rendering/Core/ImageMapper'; import vtkImageSlice from 'vtk.js/Sources/Rendering/Core/ImageSlice'; import vtkInteractorStyleImage from 'vtk.js/Sources/Interaction/Style/InteractorStyleImage'; import vtkColorTransferFunction from 'vtk.js/Sources/Rendering/Core/ColorTransferFunction'; import vtkPiecewiseFunction from 'vtk.js/Sources/Common/DataModel/PiecewiseFunction'; const { SlicingMode } = Constants; // ---------------------------------------------------------------------------- // Standard rendering code setup // ---------------------------------------------------------------------------- const fullScreenRenderer = vtkFullScreenRenderWindow.newInstance(); const renderer = fullScreenRenderer.getRenderer(); const renderWindow = fullScreenRenderer.getRenderWindow(); // ---------------------------------------------------------------------------- // Example code // ---------------------------------------------------------------------------- const rtSource = vtkRTAnalyticSource.newInstance(); rtSource.setWholeExtent(0, 200, 0, 200, 0, 200); rtSource.setCenter(100, 100, 100); rtSource.setStandardDeviation(0.3); const mapper = vtkImageMapper.newInstance(); mapper.setInputConnection(rtSource.getOutputPort()); mapper.setSliceAtFocalPoint(true); mapper.setSlicingMode(SlicingMode.Z); // mapper.setZSlice(5); const rgb = vtkColorTransferFunction.newInstance(); global.rgb = rgb; rgb.addRGBPoint(0, 0, 0, 0); rgb.addRGBPoint(255, 1, 1, 1); const ofun = vtkPiecewiseFunction.newInstance(); global.ofun = ofun; ofun.addPoint(0, 1); ofun.addPoint(150, 1); ofun.addPoint(180, 0); ofun.addPoint(255, 0); const actor = vtkImageSlice.newInstance(); actor.getProperty().setColorWindow(255); actor.getProperty().setColorLevel(127); // Uncomment this if you want to use a fixed colorwindow/level // actor.getProperty().setRGBTransferFunction(rgb); actor.getProperty().setPiecewiseFunction(ofun); actor.setMapper(mapper); renderer.addActor(actor); const iStyle = vtkInteractorStyleImage.newInstance(); iStyle.setInteractionMode('IMAGE_SLICING'); renderWindow.getInteractor().setInteractorStyle(iStyle); const camera = renderer.getActiveCamera(); const position = camera.getFocalPoint(); // offset along the slicing axis const normal = mapper.getSlicingModeNormal(); position[0] += normal[0]; position[1] += normal[1]; position[2] += normal[2]; camera.setPosition(...position); switch (mapper.getSlicingMode()) { case SlicingMode.X: camera.setViewUp([0, 1, 0]); break; case SlicingMode.Y: camera.setViewUp([1, 0, 0]); break; case SlicingMode.Z: camera.setViewUp([0, 1, 0]); break; default: } camera.setParallelProjection(true); renderer.resetCamera(); renderWindow.render(); // ----------------------------------------------------------- // Make some variables global so that you can inspect and // modify objects in your browser's developer console: // ----------------------------------------------------------- global.source = rtSource; global.mapper = mapper; global.actor = actor; global.renderer = renderer; global.renderWindow = renderWindow;