需求:这个需求是个刚需啊!在一个地铁场景里展示逃生路线,这个路线肯定是要有指示箭头的,为了画这个箭头,我花了不少于十几个小时,总算做出来了,但始终有点问题。我对这个箭头的要求是,无论场景拉近还是拉远,这个箭头不能太大,也不能太小看不清,形状不能变化,否则就不像箭头了。
使用到了 three.js 的 Line2.js 和一个开源库MeshLine.js
部分代码:
DrawPath.js:
/**
* 绘制路线
*/
import * as THREE from '../build/three.module.js';
import { MeshLine, MeshLineMaterial, MeshLineRaycast } from '../js.my/MeshLine.js';
import { Line2 } from '../js/lines/Line2.js';
import { LineMaterial } from '../js/lines/LineMaterial.js';
import { LineGeometry } from '../js/lines/LineGeometry.js';
import { GeometryUtils } from '../js/utils/GeometryUtils.js';
import { CanvasDraw } from '../js.my/CanvasDraw.js';
import { Utils } from '../js.my/Utils.js';
import { Msg } from '../js.my/Msg.js';
let DrawPath = function () {
let _self = this;
let _canvasDraw = new CanvasDraw();
let utils = new Utils();
let msg = new Msg();
this._isDrawing = false;
this._path = [];
this._lines = [];
this._arrows = [];
this.color = '#00F300';
this._depthTest = true;
this._hide = false;
this._lastRefreshTime = new Date().getTime();
let _side = 0;
let viewerContainerId = '#threeCanvas';
let viewerContainer = $(viewerContainerId)[0];
let objects;
let camera;
let turn;
let scene;
let canvasTexture;
let material;
this.config = function (objects_, camera_, scene_, turn_) {
objects = objects_;
camera = camera_;
turn = turn_;
scene = scene_;
this._oldDistance = 1;
this._oldCameraPos = { x: camera.position.x, y: camera.position.y, z: camera.position.z }
canvasTexture = _canvasDraw.drawArrow(THREE, renderer, 300, 100); //箭头
material = new MeshLineMaterial({
useMap: true,
map: canvasTexture,
color: new THREE.Color(_self.color),
opacity: 1,
resolution: new THREE.Vector2($(viewerContainerId).width(), $(viewerContainerId).height()),
lineWidth: 50,
depthTest: _self._depthTest,
side: _side,
repeat: new THREE.Vector2(1, 1),
transparent: true,
sizeAttenuation: 0
});
}
this.start = function () {
if (!this._isDrawing) {
this._isDrawing = true;
viewerContainer.addEventListener('click', ray);
viewerContainer.addEventListener('mousedown', mousedown);
viewerContainer.addEventListener('mouseup', mouseup);
}
}
this.stop = function () {
if (this._isDrawing) {
this._isDrawing = false;
viewerContainer.removeEventListener('click', ray);
viewerContainer.removeEventListener('mousedown', mousedown);
viewerContainer.removeEventListener('mouseup', mouseup);
}
}
function mousedown(params) {
this._mousedownPosition = { x: camera.position.x, y: camera.position.y, z: camera.position.z }
}
function mouseup(params) {
this._mouseupPosition = { x: camera.position.x, y: camera.position.y, z: camera.position.z }
}
function ray(e) {
turn.unFocusButton();
let raycaster = createRaycaster(e.clientX, e.clientY);
let objs = [];
objects.all.map(object => {
if (object.material.visible) {
objs.push(object);
}
});
let intersects = raycaster.intersectObjects(objs);
if (intersects.length > 0) {
let point = intersects[0].point;
let distance = utils.distance(this._mousedownPosition.x, this._mousedownPosition.y, this._mousedownPosition.z, this._mouseupPosition.x, this._mouseupPosition.y, this._mouseupPosition.z);
if (distance < 5) {
_self._path.push({ x: point.x, y: point.y + 50, z: point.z });
if (_self._path.length > 1) {
let point1 = _self._path[_self._path.length - 2];
let point2 = _self._path[_self._path.length - 1];
drawLine(point1, point2);
drawArrow(point1, point2);
}
}
}
}
function createRaycaster(clientX, clientY) {
let x = (clientX / $(viewerContainerId).width()) * 2 - 1;
let y = -(clientY / $(viewerContainerId).height()) * 2 + 1;
let standardVector = new THREE.Vector3(x, y, 0.5);
let worldVector = standardVector.unproject(camera);
let ray = worldVector.sub(camera.position).normalize();
let raycaster = new THREE.Raycaster(camera.position, ray);
return raycaster;
}
this.refresh = function () {
if (new Date().getTime() - this._lastRefreshTime > 200) {
this._lastRefreshTime = new Date().getTime();
if (_self._path.length > 1) {
let distance = utils.distance(this._oldCameraPos.x, this._oldCameraPos.y, this._oldCameraPos.z, camera.position.x, camera.position.y, camera.position.z);
let ratio = 1;
if (this._oldDistance != 0) {
ratio = Math.abs((this._oldDistance - distance) / this._oldDistance)
}
if (distance > 5 && ratio > 0.1) {
//console.log("======== DrawPath 刷新 ====================================================")
for (let i = 0; i < _self._path.length - 1; i++) {
let arrow = _self._arrows[i];
let point1 = _self._path[i];
let point2 = _self._path[i + 1];
refreshArrow(point1, point2, arrow);
}
this._oldDistance = distance;
this._oldCameraPos = { x: camera.position.x, y: camera.position.y, z: camera.position.z }
}
}
}
}
function drawLine(point1, point2) {
const positions = [];
positions.push(point1.x / 50, point1.y / 50, point1.z / 50);
positions.push(point2.x / 50, point2.y / 50, point2.z / 50);
let geometry = new LineGeometry();
geometry.setPositions(positions);
geometry.setColors([
parseInt(_self.color.substr(1, 2), 16) / 256,
parseInt(_self.color.substr(3, 2), 16) / 256,
parseInt(_self.color.substr(5, 2), 16) / 256,
parseInt(_self.color.substr(1, 2), 16) / 256,
parseInt(_self.color.substr(3, 2), 16) / 256,
parseInt(_self.color.substr(5, 2), 16) / 256
]);
let matLine = new LineMaterial({
color: new THREE.Color(_self.color),
linewidth: 0.0015, // in world units with size attenuation, pixels otherwise
dashed: false,
depthTest: _self._depthTest,
side: _side,
vertexColors: THREE.VertexColors,
resolution: new THREE.Vector2(1, $(viewerContainerId).height() / $(viewerContainerId).width())
});
let line = new Line2(geometry, matLine);
line.computeLineDistances();
line.scale.set(50, 50, 50);
scene.add(line);
_self._lines.push(line);
}
function drawArrow(point1, point2) {
var meshLine = _self.createArrowLine(point1, point2);
var mesh = new THREE.Mesh(meshLine.geometry, material);
mesh.scale.set(50, 50, 50);
scene.add(mesh);
_self._arrows.push(mesh);
}
function refreshArrow(point1, point2, arrow) {
var meshLine = _self.createArrowLine(point1, point2);
arrow.geometry = meshLine.geometry;
arrow.material = material;
}
this.createArrowLine = function (point1, point2) {
let centerPoint = { x: (point1.x + point2.x) / 2, y: (point1.y + point2.y) / 2, z: (point1.z + point2.z) / 2 };
let distance = utils.distance(point1.x, point1.y, point1.z, point2.x, point2.y, point2.z);
var startPos = { x: (point1.x + point2.x) / 2 / 50, y: (point1.y + point2.y) / 2 / 50, z: (point1.z + point2.z) / 2 / 50 }
let d = utils.distance(centerPoint.x, centerPoint.y, centerPoint.z, camera.position.x, camera.position.y, camera.position.z);
//console.log("d=", d);
let sc = 0.035;
var endPos = { x: startPos.x + (point2.x - point1.x) * sc * d / distance / 50, y: startPos.y + (point2.y - point1.y) * sc * d / distance / 50, z: startPos.z + (point2.z - point1.z) * sc * d / distance / 50 }
var arrowLinePoints = [];
arrowLinePoints.push(startPos.x, startPos.y, startPos.z);
arrowLinePoints.push(endPos.x, endPos.y, endPos.z);
let meshLine = new MeshLine();
meshLine.setGeometry(arrowLinePoints);
return meshLine;
}
this.setDepthTest = function (bl) {
if (bl) {
_self._depthTest = true;
this._lines.map(line => {
line.material.depthTest = true;
line.material.side = 0;
});
this._arrows.map(arrow => {
arrow.material.depthTest = true;
arrow.material.side = 0;
});
} else {
_self._depthTest = false;
this._lines.map(line => {
line.material.depthTest = false;
line.material.side = THREE.DoubleSide;
});
this._arrows.map(arrow => {
arrow.material.depthTest = false;
arrow.material.side = THREE.DoubleSide;
});
}
}
this.getPath = function () {
return this._path;
}
this.hide = function () {
this._lines.map(line => scene.remove(line));
this._arrows.map(arrow => scene.remove(arrow));
this._hide = true;
}
this.show = function () {
this._lines.map(line => scene.add(line));
this._arrows.map(arrow => scene.add(arrow));
this._hide = false;
}
this.isShow = function () {
return !this._hide;
}
this.create = function (path, color) {
_self.color = color;
_self._path = path;
material = new MeshLineMaterial({
useMap: true,
map: canvasTexture,
color: new THREE.Color(_self.color),
opacity: 1,
resolution: new THREE.Vector2($(viewerContainerId).width(), $(viewerContainerId).height()),
lineWidth: 50,
depthTest: _self._depthTest,
side: _side,
repeat: new THREE.Vector2(1, 1),
transparent: true,
sizeAttenuation: 0
});
if (_self._path.length > 1) {
for (let i = 0; i < _self._path.length - 1; i++) {
let point1 = _self._path[i];
let point2 = _self._path[i + 1];
drawLine(point1, point2);
drawArrow(point1, point2);
}
}
}
this.getDepthTest = function () {
return _self._depthTest;
}
/**
* 撤销
*/
this.undo = function () {
scene.remove(this._lines[this._lines.length - 1]);
scene.remove(this._arrows[this._arrows.length - 1]);
_self._path.splice(this._path.length - 1, 1);
_self._lines.splice(this._lines.length - 1, 1);
_self._arrows.splice(this._arrows.length - 1, 1);
}
}
DrawPath.prototype.constructor = DrawPath;
export { DrawPath }
View Code
CanvasDraw.js:
/**
* canvas绘图
*/
let CanvasDraw = function () {
/**
* 画文本和气泡
*/
this.drawText = function (THREE, renderer, text, width) {
let canvas = document.createElement("canvas");
let ctx = canvas.getContext('2d');
canvas.width = width * 2;
canvas.height = width * 2;
this.drawBubble(ctx, width - 10, width - 65, width, 45, 6, "#00c864");
//设置文字
ctx.fillStyle = "#ffffff";
ctx.font = '32px 宋体';
ctx.fillText(text, width - 10 + 12, width - 65 + 34);
let canvasTexture = new THREE.CanvasTexture(canvas);
canvasTexture.magFilter = THREE.NearestFilter;
canvasTexture.minFilter = THREE.NearestFilter;
let maxAnisotropy = renderer.capabilities.getMaxAnisotropy();
canvasTexture.anisotropy = maxAnisotropy;
return canvasTexture;
}
/**
* 画箭头
*/
this.drawArrow = function (THREE, renderer, width, height) {
let canvas = document.createElement("canvas");
let ctx = canvas.getContext('2d');
canvas.width = width;
canvas.height = height;
ctx.save();
ctx.translate(0, 0);
//this.drawRoundRectPath(ctx, width, height, 0);
//ctx.fillStyle = "#ffff00";
//ctx.fill();
this.drawArrowBorder(ctx, 2, 0, 0, 4, 100, 50, 0, 96, 2, 100, 300, 50);
ctx.fillStyle = "#ffffff";
ctx.fill();
ctx.restore();
let canvasTexture = new THREE.CanvasTexture(canvas);
canvasTexture.magFilter = THREE.NearestFilter;
canvasTexture.minFilter = THREE.NearestFilter;
let maxAnisotropy = renderer.capabilities.getMaxAnisotropy();
canvasTexture.anisotropy = maxAnisotropy;
return canvasTexture;
}
/**
* 画气泡
*/
this.drawBubble = function (ctx, x, y, width, height, radius, fillColor) {
ctx.save();
ctx.translate(x, y);
this.drawRoundRectPath(ctx, width, height, radius);
ctx.fillStyle = fillColor || "#000";
ctx.fill();
this.drawTriangle(ctx, 20, height, 40, height, 10, 65);
ctx.fillStyle = fillColor || "#000";
ctx.fill();
ctx.restore();
}
/**
* 画三角形
*/
this.drawTriangle = function (ctx, x1, y1, x2, y2, x3, y3) {
ctx.beginPath();
ctx.moveTo(x1, y1);
ctx.lineTo(x2, y2);
ctx.lineTo(x3, y3);
ctx.closePath();
}
/**
* 画箭头边框
*/
this.drawArrowBorder = function (ctx, x1, y1, x2, y2, x3, y3, x4, y4, x5, y5, x6, y6) {
ctx.beginPath();
ctx.moveTo(x1, y1);
ctx.lineTo(x2, y2);
ctx.lineTo(x3, y3);
ctx.lineTo(x4, y4);
ctx.lineTo(x5, y5);
ctx.lineTo(x6, y6);
ctx.closePath();
}
/**
* 画圆角矩形
*/
this.drawRoundRectPath = function (ctx, width, height, radius) {
ctx.beginPath(0);
//从右下角顺时针绘制,弧度从0到1/2PI
ctx.arc(width - radius, height - radius, radius, 0, Math.PI / 2);
//矩形下边线
ctx.lineTo(radius, height);
//左下角圆弧,弧度从1/2PI到PI
ctx.arc(radius, height - radius, radius, Math.PI / 2, Math.PI);
//矩形左边线
ctx.lineTo(0, radius);
//左上角圆弧,弧度从PI到3/2PI
ctx.arc(radius, radius, radius, Math.PI, Math.PI * 3 / 2);
//上边线
ctx.lineTo(width - radius, 0);
//右上角圆弧
ctx.arc(width - radius, radius, radius, Math.PI * 3 / 2, Math.PI * 2);
//右边线
ctx.lineTo(width, height - radius);
ctx.closePath();
}
/**
* 画圆
*/
this.drawCircle = function (THREE, renderer, width, height, radius, fillColor) {
let canvas = document.createElement("canvas");
let ctx = canvas.getContext('2d');
canvas.width = width;
canvas.height = height;
ctx.save();
ctx.beginPath(0);
ctx.arc(width / 2, height / 2, radius, 0, 2 * Math.PI);
ctx.closePath();
ctx.fillStyle = fillColor || "#000";
ctx.fill();
ctx.restore();
let texture = new THREE.CanvasTexture(canvas);
texture.needsUpdate = true;
texture.magFilter = THREE.NearestFilter;
texture.minFilter = THREE.NearestFilter;
let maxAnisotropy = renderer.capabilities.getMaxAnisotropy();
texture.anisotropy = maxAnisotropy;
return texture;
}
}
CanvasDraw.prototype.constructor = CanvasDraw;
export { CanvasDraw }
View Code
show.js中的部分代码:
let drawPath;
//绘制线路
drawPath = new DrawPath();
drawPath.config(
objects,
camera,
scene,
turn
);
$("#rightContainer").show();
$("#line-start").on("click", function (event) {
drawPath.start();
});
$("#line-stop").on("click", function (event) {
drawPath.stop();
});
$("#line-undo").on("click", function (event) {
drawPath.undo();
});
$("#line-show").on("click", function (event) {
drawPath.refresh();
});
let depthTest = true;
$("#line-depthTest").on("click", function (event) {
if (depthTest) {
drawPath.setDepthTest(false);
depthTest = false;
} else {
drawPath.setDepthTest(true);
depthTest = true;
}
});
setInterval(() => {
drawPath && drawPath.refresh();
}, 100);
View Code
效果图:
还是有点问题:
虽然这个效果图中,场景拉近,箭头有点大,但是最大大小还是做了控制的,就是这个形状有点问题,可能是视角的问题。
我期望的效果应该是这样的,就是无论从什么角度看,箭头不要变形:
