本文小编为大家详细介绍“如何用Android的opencv实现多通道分离与合并”,内容详细,步骤清晰,细节处理妥当,希望这篇“如何用Android的opencv实现多通道分离与合并”文章能帮助大家解决疑惑,下面跟着小编的思路慢慢深入,一起来学习新知识吧。
多通道分离
API
public static void split(Mat m, List<Mat> mv)
参数一:m,待分离的多通道图像
参数二:mv,分离后的单通道图像
操作
override fun onCreate(savedInstanceState: Bundle?) {
super.onCreate(savedInstanceState)
mBinding = DataBindingUtil.setContentView(this, R.layout.activity_channel_split_merge)
mBgr = Utils.loadResource(this, R.drawable.test)
val imgList = mutableListOf<Mat>()
Core.split(mBgr, imgList)
mChannelB = imgList[0]
mChannelG = imgList[1]
mChannelR = imgList[2]
}通道合并
API
public static void merge(List<Mat> mv, Mat dst)
操作
private fun showBGZero() {
val zero = Mat.zeros(mBgr.rows(), mBgr.cols(), CvType.CV_8UC1)
val list = mutableListOf<Mat>()
list.add(zero)
list.add(zero)
list.add(mChannelR)
val result = Mat()
Core.merge(list, result)
showMat(result)
result.release()
}
private fun showBRZero() {
val zero = Mat.zeros(mBgr.rows(), mBgr.cols(), CvType.CV_8UC1)
val list = mutableListOf<Mat>()
list.add(zero)
list.add(mChannelG)
list.add(zero)
val result = Mat()
Core.merge(list, result)
showMat(result)
result.release()
}
private fun showGRZero() {
val zero = Mat.zeros(mBgr.rows(), mBgr.cols(), CvType.CV_8UC1)
val list = mutableListOf<Mat>()
list.add(mChannelB)
list.add(zero)
list.add(zero)
val result = Mat()
Core.merge(list, result)
showMat(result)
result.release()
}
private fun showSwitchBR() {
val zero = Mat.zeros(mBgr.rows(), mBgr.cols(), CvType.CV_8UC1)
val list = mutableListOf<Mat>()
list.add(mChannelR)
list.add(mChannelG)
list.add(mChannelB)
val result = Mat()
Core.merge(list, result)
showMat(result)
result.release()
}结果
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