标签:最大的 pack 原创 restore 曲线 and rect 建筑 参数
灵感来源于前些天捡到钱了,就想着是时候给自己买辆车了,工作这么多年了应该对自己好一点,在网上搜索了一下看到这个车型。其实几年前是买过一辆的,但是不到一个月就被人偷了,伤心了好久。这次一定锁好,上三把锁保证小偷再也偷不走了,于是我拿着钱去买了些益力多,跟同事分享了,心情还是比较愉悦的。—— @IT·平头哥联盟,我是首席填坑官
?苏南(South·Su) ^_^~
但想来作为一名程序(嗯,还是个菜鸟,专业首席填坑官哦),车基本是用不上的啦,为啥?因为有改不完的bug,记得刚毕业那时候最大的梦想是:“撩个妹子 携手仗剑天涯,惩奸除恶、劫富济贫,快意人生~”,无奈一入IT深似海,从此BUG改不完啊。所以还是多学习吧,这不就学着画了个车满足一下自己的心里安慰,在这里把大家一起分享一下,唉,有点扯偏了~,大家先来看一下最终的效果图吧!
效果已经看了到,有没有感觉很牛B??其实也就一般般啦~,接下来就让我带大家一起分解一下它的实现过程吧
canvas
中文名中:画布,它就跟我们在纸上画画一样,画某样东西之前,我们要先学会构思、拆解你要画的东西,就跟汽车、手机等东西一样,一个成品都是由很多零件组成的,当你拆解开来,一点点完成再组装的,就会变的容易的多。
车的速度
与周围的事物、建筑、人产生一个交差,那种感觉是很刺激的,那么我们也来加一点东西,让动画看起来更丰富一些,我选择了 三条线,线本身有个渐变过渡的效果,比纯色要灵动些动画看起来更逼真,而且初始它是不在画布范围内的,这个点要注意一下;所谓的动画
,也是由一张张静态图组成,然后快速过渡,让视觉形成了视差,最后欺骗了大脑,我看见动画了……lineTo
、strokeStyle
、stroke
、restore
等,这里不一一讲解了,如有不了解可自行查看 w3school API horizon(){
/**
* 轮子的底部,也称地平线:
1.清除画布
2.画一条直线,且高度6px
本文@IT·平头哥联盟-首席填坑官?苏南分享,非商业转载请注明原链接及出处
*/
this.wheelPos = [];
this.ctx.save();//首席填坑官?苏南的专栏 交流:912594095、公众号:honeyBadger8
this.ctx.clearRect(0, 0, this.canvasW, this.canvasH);
let horizonX = 0,horizonY = this.canvasH-100;
this.ctx.beginPath();
this.ctx.strokeStyle = this.color;
this.ctx.lineWidth=6;
this.ctx.moveTo(horizonX,horizonY);
this.ctx.lineTo(this.canvasW,horizonY);
this.ctx.closePath();
this.ctx.stroke();
Array.from({length:5}).map((k,v)=>{
let dotProportion = (this.canvasW*0.49)*v-this.oneCent;
this.wheelPos.push({x:dotProportion,y:horizonY-this.wheelRadius});
let startX = dotProportion-(this.animateNum*2); //用于动画滚动移动
this.ctx.beginPath();
this.ctx.strokeStyle = "#f9f8ef";
this.ctx.lineWidth=6;
this.ctx.moveTo(startX,horizonY);
this.ctx.lineTo(startX+5,horizonY);
this.ctx.closePath();
this.ctx.stroke();
});
this.ctx.restore();
this.shuttle();
// this.wheel();
}
shuttle(){
/**
* 画几根横线,有点视差,感觉骑车在飞速穿梭的感觉:
本文@IT·平头哥联盟-首席填坑官?苏南分享,非商业转载请注明原链接及出处
*/
let shuttleX = this.canvasW+100,
shuttleY = this.canvasH/6;
let shuttleW = shuttleX+100;
[0,40,0].map((k,v)=>{
let random = Math.random()+2;
let x = shuttleX+k-(this.animateNum*(2.2*random));
let y = shuttleY+v*24;
let w = shuttleW+k-(this.animateNum*(2.2*random));
let grd=this.ctx.createLinearGradient(x,y,w,y);
grd.addColorStop(0,"#30212c");
grd.addColorStop(1,"#fff");
this.ctx.beginPath();
this.ctx.lineCap="round";
this.ctx.strokeStyle = grd;
this.ctx.lineWidth=3;//首席填坑官?苏南的专栏 交流:912594095、公众号:honeyBadger8
this.ctx.moveTo(x,y);
this.ctx.lineTo(w,y);
this.ctx.stroke();
this.ctx.closePath();
});
}
绘制车轮 :
arc
、fill
console.log(this.wheelPos);
this.wheelPos = this.wheelPos.slice(1,3); //这里取1-3
console.log(this.wheelPos);
this.wheelPos.map((wheelItem,v)=>{
let wheelItemX = wheelItem.x,
wheelItemY= wheelItem.y-this.wheelBorder/1.5;
//外胎
this.ctx.beginPath();
this.ctx.lineWidth=this.wheelBorder;
this.ctx.fillStyle = "#f5f5f0";
this.ctx.strokeStyle = this.color;
this.ctx.arc(wheelItemX,wheelItemY,this.wheelRadius,0,Math.PI*2,false);
this.ctx.closePath();
this.ctx.stroke();
this.ctx.fill();
//最后两轮胎中心点圆轴承
this.axisDot(wheelItemX,wheelItemY);
this.ctx.restore();
});
this.ctx.restore();
createRadialGradient
-创建放射状/环形的渐变(用在画布内容上) context.createRadialGradient(x0,y0,r0,x1,y1,r1);
+ createRadialGradient API 说明:
x0 = 渐变的开始圆的 x 坐标
y0 = 渐变的开始圆的 y 坐标
r0 = 开始圆的半径
x1 = 渐变的结束圆的 x 坐标
y1 = 渐变的结束圆的 y 坐标
r1 = 结束圆的半径
详细使用请看下面代码的实例
let scaleMultiple = this.wheelRadius*.94;
let speed1 = this.animateNum*2; //外圈半圆速度
let speed2 = this.animateNum*3; //内小圈半圆速度
//后轮
if(v === 0){
//内圆
this.ctx.beginPath();
let circleGrd=this.ctx.createRadialGradient(wheelItemX,wheelItemY,18,wheelItemX,wheelItemY,scaleMultiple);
circleGrd.addColorStop(0,"#584a51");
circleGrd.addColorStop(1,"#11090d");
this.ctx.fillStyle = circleGrd;
this.ctx.arc(wheelItemX,wheelItemY,scaleMultiple,0,Math.PI*2,false);
this.ctx.fill();
this.ctx.closePath();
//两个半圆线
[
{lineW:2,radius:scaleMultiple*.6,sAngle:getRads(-135+speed1) , eAngle:getRads(110+speed1)},
{lineW:1.2,radius:scaleMultiple*.45,sAngle:getRads(45+speed2) , eAngle:getRads(-50+speed2)}
].map((k,v)=>{
this.ctx.beginPath();
this.ctx.lineCap="round";
this.ctx.strokeStyle ="#fff";
this.ctx.lineWidth=k.lineW;
this.ctx.arc(wheelItemX,wheelItemY,k.radius,k.sAngle,k.eAngle,true);
this.ctx.stroke();
this.ctx.closePath();
});
this.ctx.restore();
}
//两个圆,再缩小一圈,画线圆
Array.from({length:3}).map((k,v)=>{
let prevIndex = v-1 <= 0 ? 0 : v-1;
let eAngle = v*135, sAngle = -45+(prevIndex*45)+v*90;
let radius = scaleMultiple*.75;
let _color_ = "#120008";
this.ctx.beginPath();
this.ctx.lineCap="round";
this.ctx.strokeStyle = _color_;
this.ctx.lineWidth=3.5;
this.ctx.arc(wheelItemX,wheelItemY,radius,getRads(sAngle+speed1),getRads(eAngle+speed1),false);
this.ctx.stroke();
this.ctx.closePath();
if(v<2){
//再缩小一圈
let eAngleSmaller = 15+ v*210, sAngleSmaller = -30+v*90;
let radiusSmaller = scaleMultiple*.45;
this.ctx.beginPath();
this.ctx.lineCap="round";
this.ctx.strokeStyle = _color_;
this.ctx.lineWidth=3;
this.ctx.arc(wheelItemX,wheelItemY,radiusSmaller,getRads(sAngleSmaller+speed2),getRads(eAngleSmaller+speed2),false);
this.ctx.stroke();
this.ctx.closePath();
}
this.ctx.restore();
});
绘制车身车架 :
lineTO
、moveTo
、一根一根线的画,画到一半时发现画两个三角
或者一个菱形
即可,然后再把几根主轴重新画一下,于是两种方法都尝试了一下,lineTo
点对点的划线,结论 :使用
moveTo
把画布坐标从O
移动到A
点 x/y,lineTo
从A
开始画到B
结束,再从B
到C
点,闭合,即一个三角完成
//方法二:三角形
…………此处省略N行代码
[
{
moveX:triangleX1,
moveY:triangleY1,
lineX1:coordinateX,
lineY1:triangleH1,
lineX2:discX,
lineY2:discY,
},
{
moveX:triangleX2+15,
moveY:triangleY2,
lineX1:triangleX1,
lineY1:triangleY1,
lineX2:discX,
lineY2:triangleH2,
},
].map((k,v)=>{
this.ctx.beginPath();
this.ctx.moveTo(k.moveX,k.moveY); //把坐标移动到A点,从A开始
this.ctx.strokeStyle = this.gearColor;
this.ctx.lineWidth=coordinateW;
this.ctx.lineTo(k.lineX1,k.lineY1);//从A开始,画到B点结束
this.ctx.lineTo(k.lineX2,k.lineY2); //再从B到C点,闭合
this.ctx.closePath();
this.ctx.stroke();
this.ctx.restore();
});
……
//方法一:菱形
…………此处省略N行代码
this.ctx.beginPath();
this.ctx.strokeStyle = this.gearColor;
this.ctx.lineWidth=coordinateW;
this.ctx.moveTo(polygon1X,polygon1Y);
this.ctx.lineTo(coordinateX,height);
this.ctx.lineTo(discX,discY);
this.ctx.lineTo(polygon2X,polygon1Y+5);
this.ctx.lineTo(polygon2X-5,polygon1Y);
this.ctx.lineTo(polygon1X,polygon1Y);
this.ctx.closePath();
this.ctx.stroke();
……
quadraticCurveTo
能满足这个需求,—— 二次贝塞尔曲线quadraticCurveTo
,半天也没画成功,后面尝试去找了它邻居bezierCurveTo
,—— 三次贝塞尔曲线quadraticCurveTo
、bezierCurveTo
、createLinearGradient
//坐位
this.ctx.restore();
let seatX = (discX-85),seatY=discY-140;
let curve1Cpx = [seatX-5,seatY+30,seatX+75,seatY+8];
let curve2Cpx =[seatX+85,seatY-5,seatX,seatY];
this.ctx.beginPath();
// this.ctx.fillStyle = this.gearColor;
let grd=this.ctx.createLinearGradient(seatX,seatY,seatX+10,seatY+60); //渐变的角度
grd.addColorStop(0,"#712450");
grd.addColorStop(1,"#11090d");
this.ctx.fillStyle = grd;
this.ctx.moveTo(seatX,seatY);
this.ctx.quadraticCurveTo(...curve1Cpx);
this.ctx.quadraticCurveTo(...curve2Cpx);
this.ctx.fill();
//车前轴上的手柄
let steeringX = lever1X-20,steeringY = lever1Y-45;
let steeringStep1 = [steeringX+40,steeringY-10,steeringX+40,steeringY-10,steeringX+35,steeringY+15]
let steeringStep2 = [steeringX+30,steeringY+25,steeringX+25,steeringY+23,steeringX+18,steeringY+23]
this.ctx.beginPath();
this.ctx.lineCap="round";
this.ctx.strokeStyle = "#712450";
this.ctx.lineWidth=coordinateW;
this.ctx.moveTo(steeringX,steeringY); //40 60;
this.ctx.bezierCurveTo(...steeringStep1);
this.ctx.bezierCurveTo(...steeringStep2);
this.ctx.stroke();
this.ctx.closePath();
lineTo
画两跟线,其中一根进行一个90度的旋转就ok了,但重点是它在动画过程中的一个过程呢,我的分析过程是这样:N* (Math.PI / 180)
转动;N* (Math.PI / 180)
的 rotate
角度旋转。
discGear(coordinateX,coordinateY,coordinateW){
//车中间齿××× disc
let discX = coordinateX,discY = coordinateY;
let discRadius = this.wheelRadius*.36;//车轮的3.6;
let discDotX = discX+discRadius+8,discDotY = discRadius/.98;
this.ctx.restore();
this.ctx.save();
this.ctx.translate(discX,discY);
// this.ctx.rotate(-(Math.PI/2));
Array.from({length:30}).map((v,index)=>{
let radian = (Math.PI / 15) ;
this.ctx.beginPath();
this.ctx.lineCap="round";
this.ctx.strokeStyle = this.color;
this.ctx.rotate(radian);
this.ctx.lineWidth=3;
this.ctx.moveTo(0,discDotY);
this.ctx.lineTo(1.5,discDotY);
// ctx.arc(discDotX,discDotY,6,0,Math.PI*2,false);
this.ctx.closePath();
this.ctx.stroke();
});
this.pedal(discX,discY,discRadius);
this.pedal(discX,discY,discRadius,1);
this.ctx.restore();
}
pedal(coordinateX,coordinateY,discRadius,turnAngle=0){
//脚踏板,分两次初始化,一次在中心齿轮绘制之前,一次在之后,
//本文由@IT·平头哥联盟-首席填坑官?苏南分享
let pedalX = coordinateX, pedalY = coordinateY - discRadius*.7;
let pedalW = 6,
pedalH = discRadius*1.9;
let radian = (this.animateNum)*(Math.PI / 180) ;
let radianHor = (this.animateNum)*(Math.PI / 180) ;
let turnAngleNum = 1;
let moveY = 28;
if(turnAngle !== 0){
this.ctx.rotate(-180*(Math.PI/180));
turnAngleNum = (Math.PI/180);
};
this.ctx.beginPath();
this.ctx.rotate(radian*turnAngleNum);
this.ctx.lineCap="round";
this.ctx.strokeStyle = this.gearColor;
this.ctx.lineWidth=pedalW;
this.ctx.moveTo(-1,moveY);
this.ctx.lineTo(0,pedalH);
this.ctx.closePath();
this.ctx.stroke();
this.ctx.save();
let pedalHorW = pedalH/1.5,pedalHorH=pedalW;
this.ctx.translate(0,pedalH);
this.ctx.beginPath();
this.ctx.rotate(-radianHor);
this.ctx.lineCap="round";//首席填坑官?苏南的专栏 交流:912594095、公众号:honeyBadger8
this.ctx.fillStyle = "#fff";
this.ctx.strokeStyle = this.gearColor;
this.ctx.lineWidth =2;
this.ctx.roundRect(-pedalHorW/2,-2,pedalHorW,pedalHorH,5);
this.ctx.closePath();
this.ctx.fill();
this.ctx.stroke();
this.ctx.restore();
}
bezierCurveTo
,cp1x,cp1y,cp2x,cp2y,x,y等参数画出来的,具体看下面代码吧,其实就是两个半椭圆的拼接…… //链条
let chainW = ( coordinateX+discRadius - this.wheelPos[0].x) / 2;
let chainX = this.wheelPos[0].x +chainW-5 ;
let chainY = coordinateY;
this.ctx.save();
this.ctx.translate(chainX,chainY+4.8);
this.ctx.rotate(-2*(Math.PI/180));
let r = chainW+chainW*.06,h = discRadius/2;
this.ctx.beginPath();
this.ctx.moveTo(-r, -1);
this.ctx.lineWidth=3;
this.ctx.strokeStyle = "#1e0c1a";
this.ctx.bezierCurveTo(-r,h*1.5,r,h*4,r,0);
this.ctx.bezierCurveTo(r,-h*4,-r,-h*1.5,-r,0);
this.ctx.closePath();
this.ctx.stroke();
this.ctx.restore();
以上就是今天@IT·平头哥联盟-首席填坑官
?苏南给你带来的分享,整个车的绘制过程,感觉车架部分应该还有更好的做法,如果您有更好的建议及想法,欢迎斧正,最后送上完整的示例图!
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,有惊喜哦。
作者:苏南 - 首席填坑官
链接:https://segmentfault.com/a/1190000016969897
交流:912594095、公众号:
honeyBadger8
本文原创,著作权归作者所有。商业转载请联系
@IT·平头哥联盟
获得授权,非商业转载请注明原链接及出处。
标签:最大的 pack 原创 restore 曲线 and rect 建筑 参数
原文地址:http://blog.51cto.com/9081815/2319590