mirror of
https://github.com/xibyte/jsketcher
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149 lines
3.9 KiB
JavaScript
149 lines
3.9 KiB
JavaScript
import Vector from 'math/vector';
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import {Styles} from '../styles'
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import * as fetch from '../fetchers'
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import * as math from '../../math/math'
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import {EndPoint} from '../shapes/point'
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import {Arc} from '../shapes/arc'
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import {Constraints} from '../parametric'
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import {Tool} from './tool'
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export class FilletTool extends Tool {
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constructor(viewer) {
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super('fillet', viewer);
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this.viewer = viewer;
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}
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restart() {
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for (let master of this.viewer.selected) {
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if (master instanceof EndPoint) {
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for (let slave of master.linked) {
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if (slave instanceof EndPoint) {
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if (this.breakLinkAndMakeFillet(master, slave)) {
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this.viewer.toolManager.releaseControl();
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}
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}
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}
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}
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}
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}
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makeFillet(point1, point2) {
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function shrink(point1) {
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var a, b;
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if (point1.id === point1.parent.a.id) {
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a = point1.parent.b;
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b = point1.parent.a;
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} else {
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a = point1.parent.a;
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b = point1.parent.b;
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}
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var d = math.distanceAB(a, b);
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var k = 4 / 5;
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b.x = a.x + (b.x - a.x) * k;
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b.y = a.y + (b.y - a.y) * k;
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return new Vector(a.x - b.x, a.y - b.y, 0);
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}
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var v1 = shrink(point1);
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var v2 = shrink(point2);
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if (v1.cross(v2).z > 0) {
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var _ = point1;
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point1 = point2;
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point2 = _;
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}
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var vec = new Vector();
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vec.setV(point2);
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vec._minus(point1);
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vec._multiply(0.5);
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vec._plus(point1);
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var arc = new Arc(
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new EndPoint(point1.x, point1.y),
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new EndPoint(point2.x, point2.y),
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new EndPoint(vec.x, vec.y));
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point1.parent.layer.add(arc);
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var pm = this.viewer.parametricManager;
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arc.stabilize(this.viewer);
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pm._add(new Constraints.Tangent( arc, point1.parent));
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pm._add(new Constraints.Tangent( arc, point2.parent));
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pm._add(new Constraints.Coincident( arc.a, point1));
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pm._add(new Constraints.Coincident( arc.b, point2));
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//function otherEnd(point) {
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// if (point.parent.a.id === point.id) {
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// return point.parent.b;
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// } else {
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// return point.parent.a;
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// }
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//}
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//
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//pm._add(new Constraints.LockConvex(arc.c, arc.a, otherEnd(point1)));
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//pm._add(new Constraints.LockConvex(otherEnd(point2), arc.b, arc.c));
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var solver = pm.solve();
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// var solver = pm.solve([point1._x, point1._y, point2._x, point2._y]);
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pm.notify();
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this.viewer.refresh();
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}
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mouseup(e) {
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var candi = this.getCandidate(e);
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if (candi == null) return;
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const point1 = candi[0];
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const point2 = candi[1];
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this.breakLinkAndMakeFillet(point1, point2)
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}
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breakLinkAndMakeFillet(point1, point2) {
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const pm = this.viewer.parametricManager;
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const coi = pm.findCoincidentConstraint(point1, point2);
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if (coi != null) {
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pm.remove(coi);
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this.makeFillet(point1, point2);
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this.viewer.deselectAll();
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return true;
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}
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return false;
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}
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static isLine(line) {
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return line != null && line._class === 'TCAD.TWO.Segment';
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}
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getCandidate(e) {
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var picked = this.viewer.pick(e);
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if (picked.length > 0) {
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var res = fetch.sketchObjects(picked, true, ['TCAD.TWO.EndPoint']);
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if (res == null) return null;
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var point1 = res[0];
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if (!FilletTool.isLine(point1.parent)) return;
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var line2 = null;
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for (var i = 0; i < point1.linked.length; i++) {
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var point2 = point1.linked[i];
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if (FilletTool.isLine(point2.parent)) {
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return [point1, point2];
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}
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}
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}
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return null;
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}
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mousemove(e) {
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var needRefresh = false;
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if (this.viewer.selected.length != 0) {
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this.viewer.deselectAll();
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needRefresh = true;
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}
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var candi = this.getCandidate(e);
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if (candi != null) {
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this.viewer.mark(candi[0], Styles.SNAP);
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needRefresh = true;
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}
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if (needRefresh) {
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this.viewer.refresh();
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}
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}
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}
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