import Cartesian2 from "./Cartesian2.js"; import Cartesian3 from "./Cartesian3.js"; import Check from "./Check.js"; import Matrix3 from "./Matrix3.js"; import OrientedBoundingBox from "./OrientedBoundingBox.js"; /** * @private */ const CoplanarPolygonGeometryLibrary = {}; const scratchIntersectionPoint = new Cartesian3(); const scratchXAxis = new Cartesian3(); const scratchYAxis = new Cartesian3(); const scratchZAxis = new Cartesian3(); const obbScratch = new OrientedBoundingBox(); CoplanarPolygonGeometryLibrary.validOutline = function (positions) { //>>includeStart('debug', pragmas.debug); Check.defined("positions", positions); //>>includeEnd('debug'); const orientedBoundingBox = OrientedBoundingBox.fromPoints( positions, obbScratch ); const halfAxes = orientedBoundingBox.halfAxes; const xAxis = Matrix3.getColumn(halfAxes, 0, scratchXAxis); const yAxis = Matrix3.getColumn(halfAxes, 1, scratchYAxis); const zAxis = Matrix3.getColumn(halfAxes, 2, scratchZAxis); const xMag = Cartesian3.magnitude(xAxis); const yMag = Cartesian3.magnitude(yAxis); const zMag = Cartesian3.magnitude(zAxis); // If all the points are on a line return undefined because we can't draw a polygon return !( (xMag === 0 && (yMag === 0 || zMag === 0)) || (yMag === 0 && zMag === 0) ); }; // call after removeDuplicates CoplanarPolygonGeometryLibrary.computeProjectTo2DArguments = function ( positions, centerResult, planeAxis1Result, planeAxis2Result ) { //>>includeStart('debug', pragmas.debug); Check.defined("positions", positions); Check.defined("centerResult", centerResult); Check.defined("planeAxis1Result", planeAxis1Result); Check.defined("planeAxis2Result", planeAxis2Result); //>>includeEnd('debug'); const orientedBoundingBox = OrientedBoundingBox.fromPoints( positions, obbScratch ); const halfAxes = orientedBoundingBox.halfAxes; const xAxis = Matrix3.getColumn(halfAxes, 0, scratchXAxis); const yAxis = Matrix3.getColumn(halfAxes, 1, scratchYAxis); const zAxis = Matrix3.getColumn(halfAxes, 2, scratchZAxis); const xMag = Cartesian3.magnitude(xAxis); const yMag = Cartesian3.magnitude(yAxis); const zMag = Cartesian3.magnitude(zAxis); const min = Math.min(xMag, yMag, zMag); // If all the points are on a line return undefined because we can't draw a polygon if ( (xMag === 0 && (yMag === 0 || zMag === 0)) || (yMag === 0 && zMag === 0) ) { return false; } let planeAxis1; let planeAxis2; if (min === yMag || min === zMag) { planeAxis1 = xAxis; } if (min === xMag) { planeAxis1 = yAxis; } else if (min === zMag) { planeAxis2 = yAxis; } if (min === xMag || min === yMag) { planeAxis2 = zAxis; } Cartesian3.normalize(planeAxis1, planeAxis1Result); Cartesian3.normalize(planeAxis2, planeAxis2Result); Cartesian3.clone(orientedBoundingBox.center, centerResult); return true; }; function projectTo2D(position, center, axis1, axis2, result) { const v = Cartesian3.subtract(position, center, scratchIntersectionPoint); const x = Cartesian3.dot(axis1, v); const y = Cartesian3.dot(axis2, v); return Cartesian2.fromElements(x, y, result); } CoplanarPolygonGeometryLibrary.createProjectPointsTo2DFunction = function ( center, axis1, axis2 ) { return function (positions) { const positionResults = new Array(positions.length); for (let i = 0; i < positions.length; i++) { positionResults[i] = projectTo2D(positions[i], center, axis1, axis2); } return positionResults; }; }; CoplanarPolygonGeometryLibrary.createProjectPointTo2DFunction = function ( center, axis1, axis2 ) { return function (position, result) { return projectTo2D(position, center, axis1, axis2, result); }; }; export default CoplanarPolygonGeometryLibrary;