Android自定义View仿IOS圆盘时间选择器
作者:Android_gjw
这篇文章主要介绍了Android自定义View仿IOS圆盘时间选择器,代码简单易懂,非常不错,具有参考借鉴价值,需要的朋友可以参考下
通过自定义view实现仿iOS实现滑动两端的点选择时间的效果
效果图
自定义的view代码
public class Ring_Slide2 extends View { private static final double RADIAN = 180 / Math.PI; private int max_progress; // 设置最大进度 private int cur_progress; //设置锚点1当前进度 private int cur_progress2; //设置锚点2进度 private int bottom_color;//设置底色 private int circle_color; //设置圆的颜色(锚点) private int slide_color; //设置滑动过的颜色 private float ring_width; //圆环的宽度 private double cur_Angle; //当前锚点1旋转角度 private double cur_Angle2; //当前锚点2的旋转角度 private float ring_Radius;//圆环的半径 private final int[] arrColorCircle = new int[]{0xFFFFde37, 0xFFFFa400}; private int main_width; //圆的宽度 private float mWheelCurX, mWheelCurY; //圆的位置 private float mWheelCurX2, mWheelCurY2; //圆2的位置 private Paint circle_Paint; //圆环的画笔 private Paint select_Paint;//选中的画笔 private Paint dot1; //圆点1 private Paint dot2; //圆点2 private Context context; private OnSeekBarChangeListener changeListener,changeListener2; public Ring_Slide2(Context context) { this(context,null); } public Ring_Slide2(Context context, AttributeSet attrs) { this(context, attrs,0); } public Ring_Slide2(Context context, AttributeSet attrs, int defStyleAttr) { super(context, attrs, defStyleAttr); this.context=context; initAttrs(attrs,defStyleAttr); initPadding(); //初始化画笔 initPaints(); } //初始化属性 private void initAttrs(AttributeSet attrs, int defStyle){ TypedArray typedArray = getContext().obtainStyledAttributes(attrs, R.styleable.Cricle_slide, defStyle, 0); max_progress=typedArray.getInt(R.styleable.Cricle_slide_max_progress,720); cur_progress=typedArray.getInt(R.styleable.Cricle_slide_cur_progress,420); cur_progress2=typedArray.getInt(R.styleable.Cricle_slide_cur_progress2,540); if (cur_progress > max_progress) cur_progress = max_progress; if (cur_progress2 > max_progress) cur_progress2 = max_progress; Bitmap bitmap = BitmapFactory.decodeResource(context.getResources(), R.mipmap.select_sun_bg2); main_width= bitmap.getWidth(); ring_width=typedArray.getFloat(R.styleable.Cricle_slide_Ring_Width,main_width); bottom_color=typedArray.getColor(R.styleable.Cricle_slide_bottom_color,getColor(R.color.select_main_bg_color)); circle_color=typedArray.getColor(R.styleable.Cricle_slide_circle_color,getColor(R.color.duration)); slide_color=typedArray.getColor(R.styleable.Cricle_slide_slide_color,getColor(R.color.time)); typedArray.recycle(); } //初始化边距 private void initPadding(){ int paddingLeft = getPaddingLeft(); int paddingTop = getPaddingTop(); int paddingRight = getPaddingRight(); int paddingBottom = getPaddingBottom(); int paddingStart = 0, paddingEnd = 0; if (Build.VERSION.SDK_INT >= 17) { paddingStart = getPaddingStart(); paddingEnd = getPaddingEnd(); } int maxPadding = Math.max(paddingLeft, Math.max(paddingTop, Math.max(paddingRight, Math.max(paddingBottom, Math.max(paddingStart, paddingEnd))))); setPadding(maxPadding, maxPadding, maxPadding, maxPadding); } private void initPaints(){ /* 圆环的画笔 */ circle_Paint=new Paint(Paint.ANTI_ALIAS_FLAG); circle_Paint.setAntiAlias(true); circle_Paint.setColor(bottom_color); circle_Paint.setStyle(Paint.Style.STROKE); circle_Paint.setStrokeWidth(ring_width); /* 选中区域的画笔 */ select_Paint=new Paint(Paint.ANTI_ALIAS_FLAG); select_Paint.setShader(new SweepGradient(0, 0, arrColorCircle, null)); /*select_Paint.setColor(circle_color);*/ select_Paint.setAntiAlias(true); select_Paint.setStyle(Paint.Style.STROKE); select_Paint.setStrokeWidth(ring_width); // 画锚点 dot1 = new Paint(Paint.ANTI_ALIAS_FLAG); dot1.setColor(circle_color); dot1.setAntiAlias(true); dot1.setStyle(Paint.Style.FILL); // 画锚点2 dot2 = new Paint(Paint.ANTI_ALIAS_FLAG); dot2.setColor(slide_color); dot2.setAntiAlias(true); dot2.setStyle(Paint.Style.FILL); } //获取宽度 private float getDimen(int dimenId) { return getResources().getDimension(dimenId); } //获取颜色 @TargetApi(Build.VERSION_CODES.M) private int getColor(int colorId) { final int version = Build.VERSION.SDK_INT; if (version >= 23) { return getContext().getColor(colorId); } else { return ContextCompat.getColor(getContext(), colorId); } } @Override protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) { super.onMeasure(widthMeasureSpec, heightMeasureSpec); Bitmap bitmap = BitmapFactory.decodeResource(context.getResources(), R.mipmap.setalarm_colock_bg); int height = bitmap.getHeight()+main_width*2; int width = bitmap.getWidth()+main_width*2; int min = Math.min(height, width); setMeasuredDimension(min,min); initposition(); } private void initposition(){ //转换为360度 cur_Angle=(double) cur_progress / max_progress*360.0; cur_Angle2=(double)cur_progress2 / max_progress*360.0; //计算初始化旋转的角度 double cos = -Math.cos(Math.toRadians(cur_Angle)); double cos2 = -Math.cos(Math.toRadians(cur_Angle2)); //根据旋转的角度来确定位置 MakeCurPosition(cos); MakeCurPosition2(cos2); //确定圆环的半径 ring_Radius=(getMeasuredWidth() - getPaddingLeft() - getPaddingRight() - ring_width) / 2; } private void MakeCurPosition(double cos){ //根据旋转的角度来确定圆的位置 //确定x点的坐标 mWheelCurX = calcXLocationInWheel(cur_Angle, cos); //确定y点的坐标 mWheelCurY=calcYLocationInWheel(cos); } private void MakeCurPosition2(double cos2){ //根据旋转的角度来确定圆的位置 //确定x点的坐标 mWheelCurX2 = calcXLocationInWheel(cur_Angle2, cos2); //确定y点的坐标 mWheelCurY2=calcYLocationInWheel(cos2); } //确定x点的坐标 private float calcXLocationInWheel(double angle,double cos){ if (angle < 180) { return (float) (getMeasuredWidth() / 2 + Math.sqrt(1 - cos * cos) * ring_Radius); //Math.sqrt正平分根 9-3 } else { return (float) (getMeasuredWidth() / 2 - Math.sqrt(1 - cos * cos) * ring_Radius); } } //确定y点的坐标 private float calcYLocationInWheel(double cos) { return getMeasuredWidth() / 2 + ring_Radius * (float) cos; } @Override protected void onDraw(Canvas canvas) { super.onDraw(canvas); float left = getPaddingLeft() + ring_width / 2; float top = getPaddingTop() + ring_width / 2; float right = canvas.getWidth() - getPaddingRight() - ring_width / 2; float bottom = canvas.getHeight() - getPaddingBottom() - ring_width / 2; float centerX = (left + right) / 2; float centerY = (top + bottom) / 2; float wheelRadius = (canvas.getWidth() - getPaddingLeft() - getPaddingRight()) / 2 - ring_width / 2; canvas.drawCircle(centerX, centerY, wheelRadius, circle_Paint); //画选中区域 // canvas.drawArc(new RectF(left, top, right, bottom), (float) (Math.PI * RADIAN + Math.acos(cur_Angle) * RADIAN), (float) (Math.abs(cur_Angle-cur_Angle2)), false, select_Paint); Log.i("TAG","第一个的角度="+cur_Angle); Log.i("TAG","第一个的角度2="+cur_Angle2); float begin=0; //圆弧的起点位置 float stop=0; if(cur_Angle>180 && cur_Angle>cur_Angle2 ){ //180 -- 360 begin=(float) (-Math.abs(cur_Angle-360)-90); stop=(float) Math.abs(Math.abs(cur_Angle-360)+cur_Angle2); Log.i("TAG","begin="+begin); Log.i("TAG","stop="+stop); }else if(cur_Angle>cur_Angle2){ begin=(float) cur_Angle-90; stop=(float)(360-(cur_Angle-cur_Angle2)); }else { begin=(float) cur_Angle-90; stop=(float) Math.abs(cur_Angle-cur_Angle2); } canvas.drawArc(new RectF(left, top, right, bottom), begin,stop, false, select_Paint); //画锚点 画圆 canvas.drawCircle(mWheelCurX, mWheelCurY, ring_width/2, dot1); //画锚点 画圆 canvas.drawCircle(mWheelCurX2, mWheelCurY2, ring_width/2, dot2); Log.i("TAG","锚点1Y"+mWheelCurY+"锚点1X"+mWheelCurX); Log.i("TAG","锚点2Y"+mWheelCurY2+"锚点1X"+mWheelCurX2); } @Override public boolean onTouchEvent(MotionEvent event) { float x = event.getX(); float y = event.getY(); int flag=0; //判断是否触控到两个点中的其中某个点 if(isMovedot2(x,y)){ flag=2; }else if(isMovedot1(x,y)){ flag=1; } /* if(isMovedot1(x,y)){ flag=1; }else if(isMovedot2(x,y)){ flag=2; }*/ if(event.getAction()==MotionEvent.ACTION_MOVE || isMovedot1(x,y) ==true || isMovedot2(x,y)==true ){ Log.i("TAG","进入X="+x+"进入Y="+y); //通过触摸点算出cos角度值 float cos = calculateCos(x, y); // 通过反三角函数获得角度值 double angle; //获取滑动的角度 if (x < getWidth() / 2) { // 滑动超过180度 angle = Math.PI * RADIAN + Math.acos(cos) * RADIAN; //通过计算得到滑动的角度值 } else { // 没有超过180度 angle = Math.PI * RADIAN - Math.acos(cos) * RADIAN; //PI 周长比直径 返回弧角度的余弦值 } if(flag==1){ cur_Angle=angle; cur_progress=getSelectedValue(cur_Angle); MakeCurPosition(cos); if (changeListener != null) { changeListener.onChanged(this, cur_progress); } }else if(flag==2){ cur_Angle2=angle; cur_progress2=getSelectedValue(cur_Angle2); MakeCurPosition2(cos); if (changeListener2 != null) { changeListener2.onChanged(this, cur_progress2); } } invalidate(); return true; }else { return super.onTouchEvent(event); } } private boolean isMovedot1(float x,float y){ float dot1x = Math.abs(mWheelCurX - x); float dot1y = Math.abs(mWheelCurY - y); if(dot1x<30 && dot1y<30){ return true; }else{ return false; } } private boolean isMovedot2(float x,float y){ float dot1x = Math.abs(mWheelCurX2 - x); float dot1y = Math.abs(mWheelCurY2 - y); if(dot1x<30 && dot1y<30){ return true; }else{ return false; } } //拿到切斜角的cos值 private float calculateCos(float x, float y){ float width = x - getWidth() / 2; float height = y - getHeight() / 2; float slope = (float) Math.sqrt(width * width + height * height); return height / slope; } private int getSelectedValue(double mCurAngle) { //角度转进度 return Math.round(max_progress * ((float) mCurAngle / 360)); //四舍五入 } public void setOnSeekBarChangeListener(OnSeekBarChangeListener listener) { changeListener = listener; } public void setOnSeekBarChangeListener2(OnSeekBarChangeListener listener) { changeListener2 = listener; } public void initRadian(int pro1,int pro2){ this.cur_progress=pro1; this.cur_progress2=pro2; invalidate(); } public interface OnSeekBarChangeListener { void onChanged(Ring_Slide2 seekbar, int curValue); } }
自定义stayle样式,在values下新建sttrs.xml文件
<declare-styleable name="Cricle_slide"> //设置最大进度 <attr name="max_progress" format="integer"></attr> //设置当前进度 <attr name="cur_progress" format="integer"></attr> //设置当前进度 <attr name="cur_progress2" format="integer"></attr> //设置底色 <attr name="bottom_color" format="color"></attr> //设置圆的颜色 <attr name="circle_color" format="color"></attr> //设置滑动的颜色 <attr name="slide_color" format="color"></attr> //圆环的宽度 (dimension是代表尺寸值) <attr name="Ring_Width" format="dimension"></attr> </declare-styleable>
以上所述是小编给大家介绍的Android自定义View仿IOS圆盘时间选择器,希望对大家有所帮助,如果大家有任何疑问请给我留言,小编会及时回复大家的。在此也非常感谢大家对脚本之家网站的支持!