Android如何实现一个带粘连效果的LoadingBar
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前言
我们平时在开发的时候,发起网络请求前,会需要显示一个Loading,一般的做法都是在xml布局上添加好Loading,然后在Activity中,setVisibility来控制Loading的显示和隐藏,这样使用起来就很不方便,因为每一个xml都得引入一个Loading布局。
而LoadingBar就更好的解决了这个问题
最近设计师在外国的一个网站上挑了一个Loading的效果图,尝试实现之后,虽然和原图有点不太一样,但是效果还是不错的。难点就是粘连效果的实现,贝塞尔曲线的点点们简直要把我折磨死了。
先上效果图:
实例代码
然后是源码,就是一个简单VIew,可以直接放在xml中使用。
package top.greendami.greendami; import android.content.Context; import android.graphics.Canvas; import android.graphics.Paint; import android.graphics.Path; import android.support.annotation.Nullable; import android.util.AttributeSet; import android.view.View; /** * Created by GreendaMi on 2017/3/17. */ public class PPView extends View { String TAG = "PPView"; //动画开关 boolean isLoading = true; Context mContext; private int mWidth = 100; private int mheight = 100; public int mColor; public Paint mPaint = new Paint(); float time = 0; //小球与中间打球的最远距离 float distance = 100; public PPView(Context context) { super(context); mContext = context; } public PPView(Context context, @Nullable AttributeSet attrs) { super(context, attrs); mContext = context; mColor = context.getResources().getColor(R.color.colorPrimary); init(); } private void init() { mPaint.setAntiAlias(true); mPaint.setColor(mColor); } @Override protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) { super.onMeasure(widthMeasureSpec, heightMeasureSpec); int widthSpecSize = MeasureSpec.getSize(widthMeasureSpec); int heightSpecSize = MeasureSpec.getSize(heightMeasureSpec); //宽度至少是高度的4倍 if (widthSpecSize < 4 * heightSpecSize) { widthSpecSize = 4 * heightSpecSize; } mWidth = widthSpecSize; mheight = heightSpecSize; distance = 1.2f * mheight; setMeasuredDimension(widthSpecSize, heightSpecSize); } @Override protected void onDraw(Canvas canvas) { super.onDraw(canvas); if (isLoading) { //大圆半径 float bigR = mheight * 0.32f + mheight * 0.03f * Math.abs((float) Math.sin(Math.toRadians(time))); float smallR = mheight * 0.22f + mheight * 0.03f * Math.abs((float) Math.cos(Math.toRadians(time))); float bigx = (getWidth()) / 2; //画中间大圆 canvas.drawCircle(bigx, mheight / 2, bigR, mPaint); float smalx = getSmallCenterX(); //画小圆 canvas.drawCircle(smalx, mheight / 2, smallR, mPaint); //画链接 //小球在右侧 if (smalx > bigx) { Path path = new Path(); //上面的贝塞尔曲线的第一个点,在大圆身上 float x1 = bigx + bigR * (float) Math.cos(Math.toRadians(time)); float y1 = mheight / 2 - bigR * (float) Math.sin(Math.toRadians(time)); if (y1 > mheight / 2 - smallR) { y1 = mheight / 2 - smallR; x1 = bigx + (float) (Math.sqrt(bigR * bigR - smallR * smallR)); } //上面的贝塞尔曲线的第三个点,在小圆身上 float x2 = smalx - smallR * (float) Math.cos(Math.toRadians(time)); float y2 = mheight / 2 - smallR * (float) Math.sin(Math.toRadians(time)); if (y2 > mheight / 2 - smallR * 0.8) { y2 = mheight / 2 - smallR * 0.8f; x2 = smalx - smallR * (float) (Math.sqrt(1-0.64f)); } //下面的贝塞尔曲线的第三个点,在小圆身上 float x3 = smalx - smallR * (float) Math.cos(Math.toRadians(time)); float y3 = mheight / 2 + smallR * (float) Math.sin(Math.toRadians(time)); if (y3 < mheight / 2 + smallR * 0.8) { y3 = mheight / 2 + smallR * 0.8f; x3 = smalx - smallR * (float) (Math.sqrt(1-0.64f)); } //下面的贝塞尔曲线的第一个点,在大圆身上 float x4 = bigx + bigR * (float) Math.cos(Math.toRadians(time)); float y4 = mheight / 2 + bigR * (float) Math.sin(Math.toRadians(time)); if (y4 < mheight / 2 + smallR) { y4 = mheight / 2 + smallR; x4 = bigx + (float) (Math.sqrt(bigR * bigR - smallR * smallR)); } path.moveTo(x1, y1); path.quadTo((bigx + smalx) / 2, mheight / 2, x2, y2); // 绘制贝赛尔曲线(Path) path.lineTo(x3, y3); path.quadTo((bigx + smalx) / 2, mheight / 2, x4, y4); canvas.drawPath(path, mPaint); } //小球在左侧 if (smalx < bigx) { Path path = new Path(); float x1 = bigx + bigR * (float) Math.cos(Math.toRadians(time)); float y1 = mheight / 2 - bigR * (float) Math.sin(Math.toRadians(time)); if (y1 > mheight / 2 - smallR) { y1 = mheight / 2 - smallR; x1 = bigx - (float) (Math.sqrt(bigR * bigR - smallR * smallR)); } float x2 = smalx - smallR * (float) Math.cos(Math.toRadians(time)); float y2 = mheight / 2 - smallR * (float) Math.sin(Math.toRadians(time)); if (y2 > mheight / 2 - smallR * 0.8) { y2 = mheight / 2 - smallR * 0.8f; x2 = smalx + smallR * (float) (Math.sqrt(1-0.64f)); } float x3 = smalx - smallR * (float) Math.cos(Math.toRadians(time)); float y3 = mheight / 2 + smallR * (float) Math.sin(Math.toRadians(time)); if (y3 < mheight / 2 + smallR * 0.8) { y3 = mheight / 2 + smallR * 0.8f; x3 = smalx + smallR * (float) (Math.sqrt(1-0.64f)); } float x4 = bigx + bigR * (float) Math.cos(Math.toRadians(time)); float y4 = mheight / 2 + bigR * (float) Math.sin(Math.toRadians(time)); if (y4 < mheight / 2 + smallR) { y4 = mheight / 2 + smallR; x4 = bigx - (float) (Math.sqrt(bigR * bigR - smallR * smallR)); } path.moveTo(x1, y1); path.quadTo((bigx + smalx) / 2, mheight / 2, x2, y2); // 绘制贝赛尔曲线(Path) path.lineTo(x3, y3); path.quadTo((bigx + smalx) / 2, mheight / 2, x4, y4); canvas.drawPath(path, mPaint); } postInvalidate(); } } //计算小球的X坐标 private float getSmallCenterX() { //此处控制速度 time = time + 2.5f; return mWidth / 2 + distance * (float) Math.cos(Math.toRadians(time)); } }
“精心”画了一张图,对代码做了说明。
在代码中使用
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