标签:coder 步骤 middle awb paint targe int() 效果 ret
多个点可以连成一个折线,如何将折线的拟合处变为曲线,使得整个线看上去更加平滑呢?
分下来有以下三种实现方法:
方法1:
Paint.setStrokeJoin(Paint.Join.ROUND)
这个方法可以将path中所有线段的Join方式设置为ROUND,实际效果就是拟合处变成了更加平滑的曲线;
方法2:
CornerPathEffect cornerPathEffect = new CornerPathEffect(200);
Paint.setPathEffect(cornerPathEffect);
此处的200就是平滑的度数;
方法3:
自己去实现,原理很简单,就是在两条线段相连的地方
原始做法:
moveTo(x1,y1);
lineTo(x2,y2);
lineTo(x3,y3);
此时就是两条线段相连;
平滑做法:
moveTo(x1,y1);
lineTo(x21,y21);(x21,y21)是(x1,y1)--(x2,y2)上的一个点,很接近(x2,y2);
quadTo(x31,y31);(x31,y31)是(x2,y2)--(x3,y3)上的一个点,很接近(x2,y2);
lineTo(x3,y3);
具体实现上还要考虑很多,例如两条线段的长度啊,形成的角度等等;
这里推荐使用第一种,实现简单,而且不需要像方法2那样设置一个固定的角度(设置固定角度的效果不是很适用于所有角度的折线);
下面例子中,我们使用ARGB(255,0,0,0)也就是黑色替换bitmap中的0x616161,容忍度为50范围的颜色:
private Bitmap handleCrossImageBack(Bitmap crossimage){
// start with a Bitmap bmp
Bitmap newBmp = crossimage.copy(Bitmap.Config.ARGB_8888, true);
Canvas c = new Canvas(newBmp);
// get the int for the colour which needs to be removed
Paint paint = new Paint();// 去锯齿
paint.setAntiAlias(true);// 防抖动
paint.setDither(true);// 图像过滤
paint.setFilterBitmap(true);
paint.setARGB(255, 0, 0, 0); // ARGB for the color to replace,black replace gray
paint.setXfermode(new AvoidXfermode(0x616161, 50, AvoidXfermode.Mode.TARGET));
c.drawPaint(paint);
return newBmp;
}
通过一张现有的Bitmap,画出一张同样的但是大小使我们指定的Bitmap;
直接createBitmap的话不允许生成的bitmap的宽高大于原始的,因此需要特定方法来将一张Bitmap的大小进行调整;
//crossImage为一张现有的bitmap
Bitmap target = Bitmap.createBitmap(MIDDLE_LINE_WIDTH, MIDDLE_LINE_WIDTH, crossImage.getConfig());
Canvas temp_canvas = new Canvas(target);
temp_canvas.drawBitmap(crossImage, null, new Rect(0, 0, target.getWidth(), target.getHeight()), null);
//此时的target就是一张指定大小,但是内容和crossImage一样的bitmap了
方法1:
//mRectPath为一条现有的path
Path bitmap_path = new Path();
bitmap_path.moveTo(mPoints.get(0).x-width/2+LINE_WIDTH/2,mPoints.get(0).y-height+LINE_WIDTH/2);
bitmap_path.lineTo(mPoints.get(0).x+width/2-LINE_WIDTH/2,mPoints.get(0).y-height+LINE_WIDTH/2);
bitmap_path.lineTo(mPoints.get(0).x+width/2-LINE_WIDTH/2,mPoints.get(0).y-LINE_WIDTH/2);
bitmap_path.lineTo(mPoints.get(0).x-width/2+LINE_WIDTH/2,mPoints.get(0).y-LINE_WIDTH/2);
bitmap_path.close();
if(bitmap_path.op(mRectPath,Op.INTERSECT)){
paint.setStyle(Paint.Style.FILL);
bmpCanvas.drawPath(bitmap_path, paint);
paint.setXfermode(new PorterDuffXfermode(PorterDuff.Mode.SRC_IN));
bmpCanvas.drawBitmap(target, mPoints.get(0).x-width/2,mPoints.get(0).y-height, paint);
}else{
bmpCanvas.drawBitmap(target, mPoints.get(0).x-width/2,mPoints.get(0).y-height, paint);
}
问题:在同一个画布上绘制原本的图形以及截取后的bitmap,需要先对bitmap进行截取绘制,然后再绘制原本的图形,否则使用setXfermode操作会出错;
方法2:
//绘制路线
bmpCanvas.drawPath(mRectPath,paint);
//create 100,100 bitmap
Bitmap bitmap = BitmapFactory.decodeResource(getResources(), R.drawable.ic_launcher);
int width = mBufferBmpRect.width();
int height = mBufferBmpRect.height();
Bitmap target = Bitmap.createBitmap(width, height, bitmap.getConfig());
Canvas temp_canvas = new Canvas(target);
//TODO 做截取操作
Path bitmap_path = new Path();
bitmap_path.moveTo(mPoints.get(0).x-bitmap.getWidth()/2+LINE_WIDTH/2,mPoints.get(0).y-bitmap.getHeight()+LINE_WIDTH/2);
bitmap_path.lineTo(mPoints.get(0).x+bitmap.getWidth()/2-LINE_WIDTH/2,mPoints.get(0).y-bitmap.getHeight()+LINE_WIDTH/2);
bitmap_path.lineTo(mPoints.get(0).x+bitmap.getWidth()/2-LINE_WIDTH/2,mPoints.get(0).y-LINE_WIDTH/2);
bitmap_path.lineTo(mPoints.get(0).x-bitmap.getWidth()/2+LINE_WIDTH/2,mPoints.get(0).y-LINE_WIDTH/2);
bitmap_path.close();
if(bitmap_path.op(mRectPath,Op.INTERSECT)){
paint.setStyle(Paint.Style.FILL);
temp_canvas.drawPath(bitmap_path, paint);
paint.setXfermode(new PorterDuffXfermode(PorterDuff.Mode.SRC_IN));
temp_canvas.drawBitmap(bitmap,mPoints.get(0).x-bitmap.getWidth()/2,mPoints.get(0).y-bitmap.getHeight(), paint);
// bmpCanvas.drawPath(bitmap_path, paint);
// bmpCanvas.drawBitmap(target, mPoints.get(0).x-width/2,mPoints.get(0).y-height, paint);
}else{
temp_canvas.drawBitmap(bitmap,mPoints.get(0).x-bitmap.getWidth()/2,mPoints.get(0).y-bitmap.getHeight(), null);
// bmpCanvas.drawBitmap(target, mPoints.get(0).x-width/2,mPoints.get(0).y-height, paint);
}
//去除Xfermode
paint.setXfermode(null);
bmpCanvas.drawBitmap(target, 0,0, paint);
思路:
实现步骤:
优点:最终得到的bitmap就是一个等大的bitmap,且该bitmap上只有被截取后剩余的一部分bitmap;
private void points2path() {
/**
*A(a,b) B(m,n) BC = L
*
*x1= m - (b-n) /√[(a-m)^2+(b-n)^2]
*x2= m + (b-n) /√[(a-m)^2+(b-n)^2]
*y1 = n + L(a-m) /√[(a-m)^2+(b-n)^2]
*y2 = n - L(a-m) /√[(a-m)^2+(b-n)^2]
*/
//获取所有计算后的点的集合
int path_width = 30;
//获取一侧点的集合
mLeftPoints.clear();
for(int i=0;i<mPoints.size();i++){
Point currentPoint = mPoints.get(i);
Point secondPoint;
int m = currentPoint.x;
int n = currentPoint.y;
if(i==mPoints.size()-1){
secondPoint= mPoints.get(i-1);
}else{
secondPoint= mPoints.get(i+1);
}
int a;
int b;
a = secondPoint.x;
b = secondPoint.y;
int x;
int y;
/**
*C1(x,y) c2(x3,y3) A(x2,y2) B(x1,y1) BC=a
*
*x=x1-a*sin{arctan[(y2-y1)/(x2-x1)]}
*y=y1+a*cos{arctan[(y2-y1)/(x2-x1)]}
*x3=x1+a*sin{arctan[(y2-y1)/(x2-x1)]}
*y3=y1- a*cos{arctan[(y2-y1)/(x2-x1)]}
*/
//m,n为B,a,b为A
int x1=m,y1=n;
int x2=a,y2=b;
if(y2==y1){
x = (int) (m - (b-n) / Math.sqrt(Math.pow((a-m),2)+Math.pow((b-n),2)));
y = (int) (n + (path_width/2)*(a-m) /Math.sqrt(Math.pow((a-m),2)+Math.pow((b-n),2)));
}else if(x2==x1){
x = x1+(path_width/2);
y = y1;
}else if(x2<x1 && y2>y1){
x=(int) (x1+(path_width/2)*Math.sin(Math.atan((y2-y1)/(x2-x1))));
y=(int) (y1-(path_width/2)*Math.cos(Math.atan((y2-y1)/(x2-x1))));
}else{
x=(int) (x1-(path_width/2)*Math.sin(Math.atan((y2-y1)/(x2-x1))));
y=(int) (y1+(path_width/2)*Math.cos(Math.atan((y2-y1)/(x2-x1))));
}
mLeftPoints.add(new Point(x, y));
}
//获取另一侧点的集合
mRightPoints.clear();
for(int i=0;i<mPoints.size();i++){
Point currentPoint = mPoints.get(i);
Point secondPoint;
int m = currentPoint.x;
int n = currentPoint.y;
if(i==mPoints.size()-1){
secondPoint= mPoints.get(i-1);
}else{
secondPoint= mPoints.get(i+1);
}
int a;
int b;
a = secondPoint.x;
b = secondPoint.y;
int x;
int y;
int x1=m,y1=n;
int x2=a,y2=b;
if(y2==y1){
x = (int) (m + (b-n) / Math.sqrt(Math.pow((a-m),2)+Math.pow((b-n),2)));
y = (int) (n - (path_width/2)*(a-m) /Math.sqrt(Math.pow((a-m),2)+Math.pow((b-n),2)));
}else if(x2==x1){
x = x1-(path_width/2);
y = y1;
}else if(x2<x1 && y2>y1){
x=(int) (x1-(path_width/2)*Math.sin(Math.atan((y2-y1)/(x2-x1))));
y=(int) (y1+(path_width/2)*Math.cos(Math.atan((y2-y1)/(x2-x1))));
}else{
x=(int) (x1+(path_width/2)*Math.sin(Math.atan((y2-y1)/(x2-x1))));
y=(int) (y1-(path_width/2)*Math.cos(Math.atan((y2-y1)/(x2-x1))));
}
mRightPoints.add(new Point(x, y));
}
//由于最后一个点的坐标是反向计算出来的,因此它的left和right是反的,在此做交换处理
Point temp = mLeftPoints.remove(mLeftPoints.size()-1);
mLeftPoints.add(mRightPoints.remove(mRightPoints.size()-1));
mRightPoints.add(temp);
mPointsPath.clear();
mPointsPath.addAll(mLeftPoints);
mPointsPath.addAll(mRightPoints);
//将点集合转成成矩形Path
mRectPath.reset();
Point point = mPointsPath.get(0);
mRectPath.moveTo(point.x,point.y);
for(int i=1;i<mPointsPath.size();i++){
if(i<mLeftPoints.size()){
point = mLeftPoints.get(i);
}else{
point = mRightPoints.get(mRightPoints.size()-(i-mLeftPoints.size()+1));
}
mRectPath.lineTo(point.x, point.y);
}
//将点集合转换成Path集合,Path集合个数为原始点的个数减一(此处可表示为left或者right集合长度减一)
mPaths.clear();
for(int i=0;i<mLeftPoints.size()-1;i++){
Path path = new Path();
Point leftCurrentPoint = mLeftPoints.get(i);
Point leftNextPoint = mLeftPoints.get(i+1);
Point rightCurrentPoint = mRightPoints.get(i);
Point rightNextPoint = mRightPoints.get(i+1);
path.moveTo(leftCurrentPoint.x,leftCurrentPoint.y);
path.lineTo(leftNextPoint.x,leftNextPoint.y);
path.lineTo(rightNextPoint.x,rightNextPoint.y);
path.lineTo(rightCurrentPoint.x,rightCurrentPoint.y);
path.close();
mPaths.add(path);
}
}
标签:coder 步骤 middle awb paint targe int() 效果 ret
原文地址:https://www.cnblogs.com/helongBlog/p/13086971.html