import Vector from 'math/vector'; import {EDGE_AUX, FACE_CHUNK} from '../../../brep/stitching' import {normalOfCCWSeq} from '../../cad-utils' import {TriangulateFace} from '../../tess/triangulation' import {SceneSolid, SceneFace, WIREFRAME_MATERIAL} from './sceneObject' import brepTess from '../../tess/brep-tess' import tessellateSurface from '../../../brep/geom/surfaces/surfaceTess'; const SMOOTH_RENDERING = false //true; export class BREPSceneSolid extends SceneSolid { constructor(shell, type, skin) { super(type, undefined, skin); this.shell = shell; this.createGeometry(); } createGeometry() { const geometry = new THREE.Geometry(); geometry.dynamic = true; this.mesh = new THREE.Mesh(geometry, this.material); this.cadGroup.add(this.mesh); this.createFaces(); this.createEdges(); this.createVertices(); } createFaces() { const geom = this.mesh.geometry; const groups = triangulateToThree(this.shell, geom); for (let g of groups) { const sceneFace = new BREPSceneFace(g.brepFace, this); this.sceneFaces.push(sceneFace); for (let i = g.groupStart; i < g.groupEnd; i++) { const face = geom.faces[i]; sceneFace.registerMeshFace(face); } } //geom.mergeVertices(); } createEdges() { const visited = new Set(); for (let edge of this.shell.edges) { if (edge.data[EDGE_AUX] === undefined) { const line = new THREE.Line(new THREE.Geometry(), WIREFRAME_MATERIAL); const contour = edge.curve.tessellate(); for (let p of contour) { line.geometry.vertices.push(p.three()); } this.wireframeGroup.add(line); line.__TCAD_EDGE = edge; edge.data['scene.edge'] = line; } } } createVertices() { } } class BREPSceneFace extends SceneFace { constructor(brepFace, solid) { super(solid, brepFace.id); brepFace.id = this.id; this.brepFace = brepFace; brepFace.data['scene.face'] = this; } normal() { return this.brepFace.surface.normalInMiddle(); } depth() { return this.brepFace.surface.tangentPlaneInMiddle().w; } surface() { return this.brepFace.surface; } getBounds() { const bounds = []; for (let loop of this.brepFace.loops) { bounds.push(loop.asPolygon().map(p => new Vector().setV(p))); } return bounds; } } export function triangulateToThree(shell, geom) { const result = []; let gIdx = 0; function addFace(face) { geom.faces.push(face); } for (let brepFace of shell.faces) { const groupStart = geom.faces.length; const polygons = brepTess(brepFace); const stitchedSurface = brepFace.data[FACE_CHUNK]; const nurbs = stitchedSurface ? stitchedSurface.origin : undefined; const isPlane = brepFace.simpleSurface && brepFace.simpleSurface.isPlane; let normalOrNormals; if (isPlane) { normalOrNormals = threeV(brepFace.surface.normalInMiddle()); } for (let p = 0; p < polygons.length; ++p) { const off = geom.vertices.length; const poly = polygons[p]; const vLength = poly.length; if (vLength < 3) continue; const firstVertex = poly[0]; geom.vertices.push(firstVertex.three()); geom.vertices.push(poly[1].three()); for (let i = 2; i < vLength; i++) { geom.vertices.push(poly[i].three()); const a = off; const b = i - 1 + off; const c = i + off; if (!isPlane) { normalOrNormals = [firstVertex, poly[i - 1], poly[i]].map(v => brepFace.surface.normal(v)); } const face = new THREE.Face3(a, b, c, normalOrNormals); addFace(face); } //view.setFaceColor(sceneFace, utils.isSmoothPiece(group.shared) ? 0xFF0000 : null); } result.push(new FaceGroup(brepFace, groupStart, geom.faces.length)); } return result; } export function surfaceToThreeGeom(srf, geom) { const off = geom.vertices.length; const tess = tessellateSurface(srf); tess.points.forEach(p => geom.vertices.push(new THREE.Vector3().fromArray(p))); for (let faceIndices of tess.faces) { const face = new THREE.Face3(faceIndices[0] + off, faceIndices[1] + off, faceIndices[2] + off); geom.faces.push(face); } } class FaceGroup { constructor(brepFace, groupStart, groupEnd) { this.brepFace = brepFace; this.groupStart = groupStart; this.groupEnd = groupEnd; } } function threeV(v) { return new THREE.Vector3(v.x, v.y, v.z) }