@kitware/vtk.js
Version:
Visualization Toolkit for the Web
111 lines (96 loc) • 4.03 kB
JavaScript
import { m as macro } from '../../macros2.js';
import vtkImageData from '../../Common/DataModel/ImageData.js';
import vtkDataArray from '../../Common/Core/DataArray.js';
// ----------------------------------------------------------------------------
function vtkRTAnalyticSource(publicAPI, model) {
// Set our className
model.classHierarchy.push('vtkRTAnalyticSource');
publicAPI.requestData = (inData, outData) => {
const state = {};
const dataset = {
type: 'vtkImageData',
mtime: model.mtime,
metadata: {
source: 'vtkRTAnalyticSource',
state
}
};
// Add parameter used to create dataset as metadata.state[*]
['standardDeviation', 'center', 'frequency', 'magnitude', 'maximum'].forEach(field => {
state[field] = [].concat(model[field]);
});
const id = vtkImageData.newInstance(dataset);
id.setSpacing(1.0, 1.0, 1.0);
id.setExtent.apply(this, model.wholeExtent);
id.setOrigin(0.0, 0.0, 0.0);
id.setDirection(model.dataDirection);
let dims = [0, 0, 0];
dims = dims.map((_, i) => model.wholeExtent[i * 2 + 1] - model.wholeExtent[i * 2] + 1);
const newArray = new Uint8Array(dims[0] * dims[1] * dims[2]);
const temp2 = 1.0 / (2.0 * model.standardDeviation * model.standardDeviation);
let xval = 0;
let yval = 0;
let zval = 0;
const scale = [1.0 / (model.wholeExtent[1] - model.wholeExtent[0]), 1.0 / (model.wholeExtent[3] - model.wholeExtent[2]), 1.0 / (model.wholeExtent[5] - model.wholeExtent[4])];
let i = 0;
for (let z = model.wholeExtent[4]; z <= model.wholeExtent[5]; z++) {
zval = (model.center[2] - z) * scale[2];
const zfactor = model.magnitude[2] * Math.cos(model.frequency[2] * zval);
zval *= zval;
for (let y = model.wholeExtent[2]; y <= model.wholeExtent[3]; y++) {
yval = (model.center[1] - y) * scale[1];
const yfactor = model.magnitude[1] * Math.sin(model.frequency[1] * yval);
yval *= yval;
for (let x = model.wholeExtent[0]; x <= model.wholeExtent[1]; x++) {
xval = (model.center[0] - x) * scale[0];
const sum = zval + yval + xval * xval;
const xfactor = model.magnitude[0] * Math.sin(model.frequency[0] * xval);
newArray[i] = model.maximum * Math.exp(-sum * temp2) + xfactor + yfactor + zfactor + model.offset;
i++;
}
}
}
const da = vtkDataArray.newInstance({
numberOfComponents: 1,
values: newArray
});
da.setName('scalars');
const cpd = id.getPointData();
cpd.setScalars(da);
// Update output
outData[0] = id;
};
}
// ----------------------------------------------------------------------------
// Object factory
// ----------------------------------------------------------------------------
const DEFAULT_VALUES = {
offset: 40,
maximum: 120,
center: [0, 0, 0],
frequency: [60, 30, 40],
magnitude: [10, 18, 5],
standardDeviation: 0.5,
wholeExtent: [-10, 10, -10, 10, -10, 10],
dataDirection: [1, 0, 0, 0, 1, 0, 0, 0, 1]
};
// ----------------------------------------------------------------------------
function extend(publicAPI, model, initialValues = {}) {
Object.assign(model, DEFAULT_VALUES, initialValues);
// Build VTK API
macro.obj(publicAPI, model);
macro.setGet(publicAPI, model, ['offset', 'maximum', 'standardDeviation']);
macro.setGetArray(publicAPI, model, ['center', 'frequency', 'magnitude'], 3);
macro.setGetArray(publicAPI, model, ['wholeExtent'], 6);
macro.setGetArray(publicAPI, model, ['dataDirection'], 9);
macro.algo(publicAPI, model, 0, 1);
vtkRTAnalyticSource(publicAPI, model);
}
// ----------------------------------------------------------------------------
const newInstance = macro.newInstance(extend, 'vtkRTAnalyticSource');
// ----------------------------------------------------------------------------
var vtkRTAnalyticSource$1 = {
newInstance,
extend
};
export { vtkRTAnalyticSource$1 as default, extend, newInstance };