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uni-Identify-quality/tm-vuetify/tool/function/signBoard.js

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/**
* 签名版钢笔效果
* 源参考https://www.cnblogs.com/fangsmile/p/14324460.html
*/
class Point {
constructor(x, y, time) {
this.x = x;
this.y = y;
this.isControl = false;
this.time = Date.now();
this.lineWidth = 0;
this.isAdd = false;
}
}
class Line {
constructor() {
this.points = new Array();
this.changeWidthCount = 0;
this.lineWidth = 10;
}
}
class HandwritingSelf {
constructor(canvas,w,h,line_w=8,line_color='#ff0000') {
this.canvas = {width:w,height:h};
this.ctx = canvas
var context = this.ctx;
this.ctx.ellipse = function( x, y, a, b){
// ----
}
// this.points = new Array();
this.line = new Line();
this.pointLines = new Array();//Line数组
this.k = 0.5;
this.begin = null;
this.middle = null;
this.end = null;
this.preTime = null;
this.lineWidth = line_w;
this.lineColor = line_color;
this.isDown = false;
}
down(x, y) {
this.isDown = true;
this.line = new Line();
this.line.lineWidth = this.lineWidth;
let currentPoint = new Point(x, y, Date.now());
this.addPoint(currentPoint);
this.preTime = Date.now();
}
move(x, y) {
// console.log("move:",x,y)
if (this.isDown) {
let currentPoint = new Point(x, y, Date.now())
this.addPoint(currentPoint);
this.draw();
}
}
up(x, y) {
// if (e.touches.length > 0) {
let currentPoint = new Point(x, y, Date.now())
this.addPoint(currentPoint);
// }
this.draw(true);
this.pointLines.push(this.line);
this.begin = null;
this.middle = null;
this.end = null;
this.isDown = false;
}
draw(isUp = false) {
// this.ctx.clearRect(0, 0, this.canvas.width, this.canvas.height);
this.ctx.setStrokeStyle(this.lineColor)
//绘制不包含this.line的线条
this.pointLines.forEach((line, index) => {
let points = line.points;
this.ctx.beginPath();
this.ctx.ellipse(points[0].x - 1.5, points[0].y, 6, 3, Math.PI / 4, 0, Math.PI * 2);
this.ctx.fill();
this.ctx.beginPath();
this.ctx.moveTo(points[0].x, points[0].y);
let lastW = line.lineWidth;
this.ctx.setLineWidth(line.lineWidth);
this.ctx.setLineJoin("round");
this.ctx.setLineCap( "round");
let minLineW = line.lineWidth / 4;
let isChangeW = false;
let changeWidthCount = line.changeWidthCount;
for (let i = 1; i <= points.length; i++) {
if (i == points.length) {
this.ctx.stroke();
break;
}
if (i > points.length - changeWidthCount) {
if (!isChangeW) {
this.ctx.stroke();//将之前的线条不变的path绘制完
isChangeW = true;
if (i > 1 && points[i - 1].isControl)
continue;
}
let w = (lastW - minLineW) / changeWidthCount * (points.length - i) + minLineW;
points[i - 1].lineWidth = w;
this.ctx.beginPath();//为了开启新的路径 否则每次stroke 都会把之前的路径在描一遍
// this.ctx.strokeStyle = "rgba("+Math.random()*255+","+Math.random()*255+","+Math.random()*255+",1)";
this.ctx.setLineWidth(w);
this.ctx.moveTo(points[i - 1].x, points[i - 1].y);//移动到之前的点
this.ctx.lineTo(points[i].x, points[i].y);
this.ctx.stroke();//将之前的线条不变的path绘制完
} else {
if (points[i].isControl && points[i + 1]) {
this.ctx.quadraticCurveTo(points[i].x, points[i].y, points[i + 1].x, points[i + 1].y);
} else if (i >= 1 && points[i - 1].isControl) {//上一个是控制点 当前点已经被绘制
} else
this.ctx.lineTo(points[i].x, points[i].y);
}
}
})
//绘制this.line线条
let points;
if (isUp)
points = this.line.points;
else
points = [...this.line.points];
//当前绘制的线条最后几个补点 贝塞尔方式增加点
let count = 0;
let insertCount = 0;
let i = points.length - 1;
let endPoint = points[i];
let controlPoint;
let startPoint;
while (i >= 0) {
if (points[i].isControl == true) {
controlPoint = points[i];
count++;
} else {
startPoint = points[i];
}
if (startPoint && controlPoint && endPoint) {//使用贝塞尔计算补点
let dis = this.z_distance(startPoint, controlPoint) + this.z_distance(controlPoint, endPoint);
let insertPoints = this.BezierCalculate([startPoint, controlPoint, endPoint], Math.floor(dis / 6) + 1);
insertCount += insertPoints.length;
var index = i;//插入位置
// 把insertPoints 变成一个适合splice的数组包含splice前2个参数的数组
insertPoints.unshift(index, 1);
Array.prototype.splice.apply(points, insertPoints);
//补完点后
endPoint = startPoint;
startPoint = null;
}
if (count >= 6)
break;
i--;
}
//确定最后线宽变化的点数
let changeWidthCount = count + insertCount;
if (isUp)
this.line.changeWidthCount = changeWidthCount;
//制造椭圆头
this.ctx.fillStyle = "rgba(255,20,87,1)"
this.ctx.beginPath();
this.ctx.ellipse(points[0].x - 1.5, points[0].y, 6, 3, Math.PI / 4, 0, Math.PI * 2);
this.ctx.fill();
this.ctx.draw(true);
this.ctx.beginPath();
this.ctx.moveTo(points[0].x, points[0].y);
let lastW = this.line.lineWidth;
this.ctx.setLineWidth(this.line.lineWidth);
this.ctx.setLineJoin("round");
this.ctx.setLineCap( "round");
let minLineW = this.line.lineWidth / 4;
let isChangeW = false;
for (let i = 1; i <= points.length; i++) {
if (i == points.length) {
this.ctx.stroke();
break;
}
//最后的一些点线宽变细
if (i > points.length - changeWidthCount) {
if (!isChangeW) {
this.ctx.stroke();//将之前的线条不变的path绘制完
isChangeW = true;
if (i > 1 && points[i - 1].isControl)
continue;
}
//计算线宽
let w = (lastW - minLineW) / changeWidthCount * (points.length - i) + minLineW;
points[i - 1].lineWidth = w;
this.ctx.beginPath();//为了开启新的路径 否则每次stroke 都会把之前的路径在描一遍
// this.ctx.strokeStyle = "rgba(" + Math.random() * 255 + "," + Math.random() * 255 + "," + Math.random() * 255 + ",0.5)";
this.ctx.setLineWidth(w);
this.ctx.moveTo(points[i - 1].x, points[i - 1].y);//移动到之前的点
this.ctx.lineTo(points[i].x, points[i].y);
this.ctx.stroke();//将之前的线条不变的path绘制完
} else {
if (points[i].isControl && points[i + 1]) {
this.ctx.quadraticCurveTo(points[i].x, points[i].y, points[i + 1].x, points[i + 1].y);
} else if (i >= 1 && points[i - 1].isControl) {//上一个是控制点 当前点已经被绘制
} else
this.ctx.lineTo(points[i].x, points[i].y);
}
}
this.ctx.draw(true);
}
addPoint(p) {
if (this.line.points.length >= 1) {
let last_point = this.line.points[this.line.points.length - 1]
let distance = this.z_distance(p, last_point);
if (distance < 10) {
return;
}
}
if (this.line.points.length == 0) {
this.begin = p;
p.isControl = true;
this.pushPoint(p);
} else {
this.middle = p;
let controlPs = this.computeControlPoints(this.k, this.begin, this.middle, null);
this.pushPoint(controlPs.first);
this.pushPoint(p);
p.isControl = true;
this.begin = this.middle;
}
}
addOtherPoint(p1, p2, w1, w2) {
let otherPoints = new Array();
let dis = this.z_distance(p1, p2);
if (dis >= 25) {
otherPoints.push(p1);
let insertPCount = Math.floor(dis / 20);
for (let j = 0; j < insertPCount; j++) {
let insertP = new Point(p1.x + (j + 1) / (insertPCount + 1) * (p2.x - p1.x), p1.y + (j + 1) / (insertPCount + 1) * (p2.y - p1.y))
insertP.isAdd = true;
otherPoints.push(insertP);
}
otherPoints.push(p2);
}
let count = otherPoints.length;
if (count > 0) {
console.log("addOtherPoint")
debugger
let diffW = (w2 - w1) / (count - 1);
for (let i = 1; i < count; i++) {
let w = w1 + diffW * i;
this.ctx.beginPath();
this.ctx.setLineWidth(w);
this.ctx.moveTo(otherPoints[i - 1].x, otherPoints[i - 1].y);
this.ctx.lineTo(otherPoints[i].x, otherPoints[i].y)
this.ctx.stroke();
}
}
return otherPoints
}
pushPoint(p) {
//排除重复点
if (this.line.points.length >= 1 && this.line.points[this.line.points.length - 1].x == p.x && this.line.points[this.line.points.length - 1].y == p.y)
return;
this.line.points.push(p);
}
computeControlPoints(k, begin, middle, end) {
if (k > 0.5 || k <= 0)
return;
let diff1 = new Point(middle.x - begin.x, middle.y - begin.y)
let diff2 = null;
if (end)
diff2 = new Point(end.x - middle.x, end.y - middle.y)
// let l1 = (diff1.x ** 2 + diff1.y ** 2) ** (1 / 2)
// let l2 = (diff2.x ** 2 + diff2.y ** 2) ** (1 / 2)
let first = new Point(middle.x - (k * diff1.x), middle.y - (k * diff1.y))
let second = null;
if (diff2)
second = new Point(middle.x + (k * diff2.x), middle.y + (k * diff2.y))
return { first: first, second: second }
}
// W_current =
//   W_previous + min( abs(k*s - W_previous), distance * K_width_unit_change) (k * s-W_previous) >= 0
//   W_previous - min( abs(k*s - W_previous), distance * K_width_unit_change) (k * s-W_previous) < 0
//   W_current      当前线段的宽度
//   W_previous    与当前线条相邻的前一条线段的宽度
//   distance       当前线条的长度
//   w_k         设定的一个固定阈值,表示:单位距离内, 笔迹的线条宽度可以变化的最大量.
//   distance * w_k    即为当前线段的长度内, 笔宽可以相对于前一条线段笔宽的基础上, 最多能够变宽或者可以变窄多少.
z_linewidth(b, e, bwidth, step) {
if (e.time == b.time)
return bwidth;
let max_speed = 2.0;
let d = this.z_distance(b, e);
let s = d / (e.time - b.time);//计算速度
console.log("s", e.time - b.time, s)
s = s > max_speed ? max_speed : s;
// let w = (max_speed - s) / max_speed;
let w = 0.5 / s;
let max_dif = d * step;
console.log(w, bwidth, max_dif)
if (w < 0.05) w = 0.05;
if (Math.abs(w - bwidth) > max_dif) {
if (w > bwidth)
w = bwidth + max_dif;
else
w = bwidth - max_dif;
}
// printf("d:%.4f, time_diff:%lld, speed:%.4f, width:%.4f\n", d, e.t-b.t, s, w);
return w;
}
z_distance(b, e) {
return Math.sqrt(Math.pow(e.x - b.x, 2) + Math.pow(e.y - b.y, 2));
}
BezierCalculate(poss, precision) {
//维度,坐标轴数(二维坐标,三维坐标...
let dimersion = 2;
//贝塞尔曲线控制点数(阶数)
let number = poss.length;
//控制点数不小于 2 ,至少为二维坐标系
if (number < 2 || dimersion < 2)
return null;
let result = new Array();
//计算杨辉三角
let mi = new Array();
mi[0] = mi[1] = 1;
for (let i = 3; i <= number; i++) {
let t = new Array();
for (let j = 0; j < i - 1; j++) {
t[j] = mi[j];
}
mi[0] = mi[i - 1] = 1;
for (let j = 0; j < i - 2; j++) {
mi[j + 1] = t[j] + t[j + 1];
}
}
//计算坐标点
for (let i = 0; i < precision; i++) {
let t = i / precision;
let p = new Point(0, 0);
p.isAdd = true;
result.push(p);
for (let j = 0; j < dimersion; j++) {
let temp = 0.0;
for (let k = 0; k < number; k++) {
temp += Math.pow(1 - t, number - k - 1) * (j == 0 ? poss[k].x : poss[k].y) * Math.pow(t, k) * mi[k];
}
j == 0 ? p.x = temp : p.y = temp;
}
}
return result;
}
}
export default HandwritingSelf;