今天讲一个比较简单的东西自定义绘制Marker 其实就是自定义view, 跟轨迹没太多关联,还有轨迹源码在文末分享出来,对您有帮助的话给个star呗。
如下面的gif中的轨迹中的LocationMarker
自定义View LocationMarker
主要包括绘制水滴状,绘制圆、绘制文字,绘制底部椭圆阴影,主要是绘制水滴状,这里用的贝塞尔三阶绘制,首先直接看代码:
public class LocationMarker extends View { private Path mPath; private Paint mFillCirclePaint; private Paint mTextPaint; private VPoint p2; private VPoint p4; private HPoint p1; private HPoint p3; private Context mContext; private float c; private float blackMagic = 0.551915024494f; private int wrapperColor; private int circleColor; private int radius = DisplayUtil.dip2px(20); private String mMilePost; private int textSize = 13; private boolean drawBottomShader; public LocationMarker(Context context, int radius, String milePost, int textSize) { this(context, null); this.mContext = context; this.radius = radius; this.mMilePost = milePost; this.textSize = textSize; init(); } public LocationMarker(Context context, AttributeSet attrs) { this(context, attrs, 0); this.mContext = context; init(); } public LocationMarker(Context context, AttributeSet attrs, int defStyleAttr) { super(context, attrs, defStyleAttr); this.mContext = context; init(); } /** * 初始化操作 */ private void init() { mFillCirclePaint = new Paint(); mFillCirclePaint.setColor(0xFFFFFFFF); mFillCirclePaint.setStyle(Paint.Style.FILL); mFillCirclePaint.setStrokeWidth(1); mFillCirclePaint.setAntiAlias(true); mPath = new Path(); p2 = new VPoint(); p4 = new VPoint(); p1 = new HPoint(); p3 = new HPoint(); c = radius * blackMagic; initTextPain(); wrapperColor = R.color.location_wrapper; circleColor = R.color.location_inner_circle; } public void setColors(int wrapperColorResource, int circleColorResource){ this.wrapperColor = wrapperColorResource; this.circleColor = circleColorResource; } private void initTextPain() { mTextPaint = new Paint(); mTextPaint.setColor(0xFFFFFFFF); mTextPaint.setStyle(Paint.Style.FILL); mTextPaint.setStrokeWidth(1); mTextPaint.setAntiAlias(true); mTextPaint.setTypeface(Typeface.DEFAULT_BOLD); mTextPaint.setTextSize(DisplayUtil.sp2px(mContext, textSize)); } @Override protected void onDraw(Canvas canvas) { mPath.reset(); canvas.translate(getWidth() / 2, getHeight() / 2); drawWaterDrop(canvas, radius); } private void drawWaterDrop(Canvas canvas, int radius) { canvas.save(); Path path = getPath(radius); //内部圆的path Path circle = new Path(); circle.addCircle(p3.x, p3.y + radius, radius - radius / 5, Path.Direction.CCW); //去锯齿 canvas.setDrawFilter(new PaintFlagsDrawFilter(0, Paint.ANTI_ALIAS_FLAG | Paint.FILTER_BITMAP_FLAG)); drawBottomOval(canvas); //绘制外部的水滴状 drawBezierPath(canvas, ColorUtil.getResourcesColor(mContext, wrapperColor), path); //绘制内部的圆 drawBezierPath(canvas, ColorUtil.getResourcesColor(mContext, circleColor), circle); drawText(canvas, mMilePost); canvas.restore(); } //绘制底部的阴影,drawBottomShader控制是否显示阴影 private void drawBottomOval(Canvas canvas){ if (drawBottomShader){ RectF rectF = new RectF(); float width = DisplayUtil.dip2px(12); float height = DisplayUtil.dip2px(4); rectF.set(p1.x - width/2, p1.y - height/2, p1.x + width/2, p1.y + height/2); int color = mFillCirclePaint.getColor(); mFillCirclePaint.setColor(ColorUtil.getResourcesColor(mContext, R.color.location_bottom_shader)); canvas.drawOval(rectF, mFillCirclePaint); mFillCirclePaint.setColor(color); } } //绘制Marker中心的文字 private void drawText(Canvas canvas, String mileStr) { RectF rectF = new RectF(); float width = mTextPaint.measureText(mileStr); float rectFLeft = p3.x - width / 2 ; float rectFRight = p3.x + width / 2 ; float rectHeight = TextUtil.getTxtHeight1(mTextPaint); float rectTop = p2.y + DisplayUtil.dip2px(2);//调整位置,看起来居中 float rectBottom = p2.y + rectHeight; rectF.set(rectFLeft, rectTop, rectFRight, rectBottom); Paint.FontMetrics fontMetrics = mTextPaint.getFontMetrics(); float top = fontMetrics.top;//为基线到字体上边框的距离,即上图中的top float bottom = fontMetrics.bottom;//为基线到字体下边框的距离,即上图中的bottom int baseLineY = (int) (rectF.centerY() + (top + bottom) / 2);//基线中间点的y轴计算公式 canvas.drawText(mileStr, rectF.left, baseLineY, mTextPaint); } /** * 画圆 */ private Path getPath(int radius) { CircleModel(radius); Path path = new Path(); p1.setY(p1.y + radius * 0.2f * 1.05f); //设置 p1 底部左右两个点的y值 p1.y += radius * 0.2f * 1.05f;//设置 p1 自己的y值 path.moveTo(p1.x, p1.y); path.cubicTo(p1.right.x, p1.right.y, p2.bottom.x, p2.bottom.y, p2.x, p2.y); path.cubicTo(p2.top.x, p2.top.y, p3.right.x, p3.right.y, p3.x, p3.y); path.cubicTo(p3.left.x, p3.left.y, p4.top.x, p4.top.y, p4.x, p4.y); path.cubicTo(p4.bottom.x, p4.bottom.y, p1.left.x, p1.left.y, p1.x, p1.y); path.close(); return path; } private void drawBezierPath(Canvas canvas, int color, Path path) { int colorOrigin = mFillCirclePaint.getColor(); mFillCirclePaint.setColor(color); canvas.drawPath(path, mFillCirclePaint); mFillCirclePaint.setColor(colorOrigin); } private void CircleModel(int radius) { c = radius * blackMagic; p1.setY(radius);//右边 p3.setY(-radius);// 左边 p3.x = p1.x = 0;//圆心 p3.left.x = -c; p3.right.x = c; p1.left.x = -c * 0.36f; p1.right.x = c * 0.36f; //p1.p3属于圆的上下两点 p2.setX(radius); // 下边 p4.setX(-radius);// 上边 p2.y = p4.y = 0;// 圆心 p2.top.y = p4.top.y = -c; p2.bottom.y = p4.bottom.y = c; } public void setDrawBottomShader(boolean drawBottomShader) { this.drawBottomShader = drawBottomShader; } }
简单的讲一下,主要通过三阶贝塞尔曲线来绘制圆,在圆的基础上,对Bottom方向的P1(包含 p1本身以及left、right两个control点)拉升,类似行星跟卫星的潮汐引力在朝下拉升的方向形成水滴形的尖角。
这里left、top、right、bottom四个方向,每个方向共三个点,共同确定这个圆。
VPoint 代表垂直方向的 left、right,这里是 p2跟p4 分表包含三个点,三点成线跟圆的左边、右边相切。
public class VPoint { public float x; public float y; public PointF top = new PointF(); public PointF bottom = new PointF(); public void setX(float x) { this.x = x; top.x = x; bottom.x = x; } public void adjustY(float offset) { top.y -= offset; bottom.y += offset; } public void adjustAllX(float offset) { this.x += offset; top.x += offset; bottom.x += offset; } public void adjustAllY(float offset) { this.y += offset; top.y += offset; bottom.y += offset; } public void adjustAllXY(float x, float y) { adjustAllX(x); adjustAllY(y); } }
同样, HPoint 代表水边方向圆的切线,p1跟p3代表Bottom、Top上的三个点。
public class HPoint { public float x; public float y; public PointF left = new PointF(); public PointF right = new PointF(); public void setY(float y) { this.y = y; left.y = y; right.y = y; } public void adjustAllX(float offset) { this.x += offset; left.x += offset; right.x += offset; } public void adjustAllY(float offset) { this.y += offset; left.y += offset; right.y += offset; } public void adjustAllXY(float x, float y) { adjustAllX(x); adjustAllY(y); } }
其它的见代码注释。
应用自定义View到AMapView中
这里就直接参考高德的demo,需要注意一点的是,在加载自定义的LocationMarker时,我在LocationMarker的外层包了两层父View,试过了一层显示不出来
private void addMarker(LatLng position, String displayStr,int radius, int textSize, int wrapperColor, int circleColor, boolean showBottomShader){ View view = View.inflate(RecordCorrectShowActivity.this, R.layout.custom_location_view, null); RelativeLayout locationContainer = view.findViewById(R.id.locationContainer); LocationMarker locationMarker = new LocationMarker(mMapView.getContext(), DisplayUtil.dip2px(radius), displayStr, textSize); locationMarker.setColors(wrapperColor, circleColor); locationMarker.setDrawBottomShader(showBottomShader); locationContainer.addView(locationMarker); BitmapDescriptor markerIcon = BitmapDescriptorFactory.fromView(view); MarkerOptions optionPosition = new MarkerOptions() .position(position) .icon(markerIcon); Marker marker = mAMap.addMarker(optionPosition); Animation markerAnimation = new ScaleAnimation(0, 1, 0, 1); //初始化生长效果动画 markerAnimation.setDuration(1000); //设置动画时间 单位毫秒 marker.setAnimation(markerAnimation); marker.startAnimation(); }
两层父view的
下次讲优化轨迹路径,从采集时到最后的优化。
代码请前往 运动轨迹, 代码包含了很多图表Chart的代码没有分开,有空对这个库做个系列,因为MAAndroidChart没法满足需求做的库, 代码中需要自己去高德平台上注册Key。
以上就是Android自定义LocationMarker的实现详解的详细内容,更多关于Android自定义LocationMarker的资料请关注脚本之家其它相关文章!