org.opencv.core.Core.determinant_0()方法的使用及代码示例

x33g5p2x  于2022-01-18 转载在 其他  
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本文整理了Java中org.opencv.core.Core.determinant_0()方法的一些代码示例,展示了Core.determinant_0()的具体用法。这些代码示例主要来源于Github/Stackoverflow/Maven等平台,是从一些精选项目中提取出来的代码,具有较强的参考意义,能在一定程度帮忙到你。Core.determinant_0()方法的具体详情如下:
包路径:org.opencv.core.Core
类名称:Core
方法名:determinant_0

Core.determinant_0介绍

暂无

代码示例

代码示例来源:origin: SOFTPOWER1991/OpenCVCheck

public static double determinant(Mat mtx)
{
  
  double retVal = determinant_0(mtx.nativeObj);
  
  return retVal;
}

代码示例来源:origin: hschott/Camdroid

public static double determinant(Mat mtx)
{
  
  double retVal = determinant_0(mtx.nativeObj);
  
  return retVal;
}

代码示例来源:origin: raulh82vlc/Image-Detection-Samples

public static double determinant(Mat mtx)
{
  
  double retVal = determinant_0(mtx.nativeObj);
  
  return retVal;
}

代码示例来源:origin: kongqw/OpenCVForAndroid

public static double determinant(Mat mtx)
{
  
  double retVal = determinant_0(mtx.nativeObj);
  
  return retVal;
}

代码示例来源:origin: tz28/Chinese-number-gestures-recognition

public static double determinant(Mat mtx)
{
  
  double retVal = determinant_0(mtx.nativeObj);
  
  return retVal;
}

代码示例来源:origin: leadrien/opencv_native_androidstudio

public static double determinant(Mat mtx)
{
  
  double retVal = determinant_0(mtx.nativeObj);
  
  return retVal;
}

代码示例来源:origin: akshika47/OpencvAndroid

public static double determinant(Mat mtx)
{
  
  double retVal = determinant_0(mtx.nativeObj);
  
  return retVal;
}

代码示例来源:origin: farkam135/GoIV

public static double determinant(Mat mtx)
{
  
  double retVal = determinant_0(mtx.nativeObj);
  
  return retVal;
}

代码示例来源:origin: DuckDeck/AndroidDemo

public static double determinant(Mat mtx)
{
  
  double retVal = determinant_0(mtx.nativeObj);
  
  return retVal;
}

代码示例来源:origin: nroduit/Weasis

public static double determinant(Mat mtx)
{
  
  double retVal = determinant_0(mtx.nativeObj);
  
  return retVal;
}

代码示例来源:origin: imistyrain/EasyPR4Android

public static double determinant(Mat mtx)
{
  
  double retVal = determinant_0(mtx.nativeObj);
  
  return retVal;
}

代码示例来源:origin: ctodobom/OpenCV-3.1.0-Android

public static double determinant(Mat mtx)
{
  
  double retVal = determinant_0(mtx.nativeObj);
  
  return retVal;
}

代码示例来源:origin: SouvDc/face-detection

public static double determinant(Mat mtx)
{
  
  double retVal = determinant_0(mtx.nativeObj);
  
  return retVal;
}

代码示例来源:origin: InnoFang/Android-Code-Demos

public static double determinant(Mat mtx)
{
  
  double retVal = determinant_0(mtx.nativeObj);
  
  return retVal;
}

代码示例来源:origin: abhn/marvel

/**
 * <p>Returns the determinant of a square floating-point matrix.</p>
 *
 * <p>The function <code>determinant</code> calculates and returns the determinant
 * of the specified matrix. For small matrices (<code>mtx.cols=mtx.rows<=3</code>),
 * the direct method is used. For larger matrices, the function uses LU
 * factorization with partial pivoting.</p>
 *
 * <p>For symmetric positively-determined matrices, it is also possible to use
 * "eigen" decomposition to calculate the determinant.</p>
 *
 * @param mtx input matrix that must have <code>CV_32FC1</code> or
 * <code>CV_64FC1</code> type and square size.
 *
 * @see <a href="http://docs.opencv.org/modules/core/doc/operations_on_arrays.html#determinant">org.opencv.core.Core.determinant</a>
 * @see org.opencv.core.Core#invert
 * @see org.opencv.core.Core#solve
 * @see org.opencv.core.Core#eigen
 * @see org.opencv.core.Core#trace
 */
  public static double determinant(Mat mtx)
  {

    double retVal = determinant_0(mtx.nativeObj);

    return retVal;
  }

代码示例来源:origin: jtsky/EasyPR_Android

/**
 * <p>Returns the determinant of a square floating-point matrix.</p>
 *
 * <p>The function <code>determinant</code> calculates and returns the determinant
 * of the specified matrix. For small matrices (<code>mtx.cols=mtx.rows<=3</code>),
 * the direct method is used. For larger matrices, the function uses LU
 * factorization with partial pivoting.</p>
 *
 * <p>For symmetric positively-determined matrices, it is also possible to use
 * "eigen" decomposition to calculate the determinant.</p>
 *
 * @param mtx input matrix that must have <code>CV_32FC1</code> or
 * <code>CV_64FC1</code> type and square size.
 *
 * @see <a href="http://docs.opencv.org/modules/core/doc/operations_on_arrays.html#determinant">org.opencv.core.Core.determinant</a>
 * @see org.opencv.core.Core#invert
 * @see org.opencv.core.Core#solve
 * @see org.opencv.core.Core#eigen
 * @see org.opencv.core.Core#trace
 */
  public static double determinant(Mat mtx)
  {

    double retVal = determinant_0(mtx.nativeObj);

    return retVal;
  }

代码示例来源:origin: com.sikulix/sikulixapi

/**
 * <p>Returns the determinant of a square floating-point matrix.</p>
 *
 * <p>The function <code>determinant</code> calculates and returns the determinant
 * of the specified matrix. For small matrices (<code>mtx.cols=mtx.rows<=3</code>),
 * the direct method is used. For larger matrices, the function uses LU
 * factorization with partial pivoting.</p>
 *
 * <p>For symmetric positively-determined matrices, it is also possible to use
 * "eigen" decomposition to calculate the determinant.</p>
 *
 * @param mtx input matrix that must have <code>CV_32FC1</code> or
 * <code>CV_64FC1</code> type and square size.
 *
 * @see <a href="http://docs.opencv.org/modules/core/doc/operations_on_arrays.html#determinant">org.opencv.core.Core.determinant</a>
 * @see org.opencv.core.Core#invert
 * @see org.opencv.core.Core#solve
 * @see org.opencv.core.Core#eigen
 * @see org.opencv.core.Core#trace
 */
  public static double determinant(Mat mtx)
  {

    double retVal = determinant_0(mtx.nativeObj);

    return retVal;
  }

代码示例来源:origin: nu.pattern/opencv

/**
 * <p>Returns the determinant of a square floating-point matrix.</p>
 *
 * <p>The function <code>determinant</code> calculates and returns the determinant
 * of the specified matrix. For small matrices (<code>mtx.cols=mtx.rows<=3</code>),
 * the direct method is used. For larger matrices, the function uses LU
 * factorization with partial pivoting.</p>
 *
 * <p>For symmetric positively-determined matrices, it is also possible to use
 * "eigen" decomposition to calculate the determinant.</p>
 *
 * @param mtx input matrix that must have <code>CV_32FC1</code> or
 * <code>CV_64FC1</code> type and square size.
 *
 * @see <a href="http://docs.opencv.org/modules/core/doc/operations_on_arrays.html#determinant">org.opencv.core.Core.determinant</a>
 * @see org.opencv.core.Core#invert
 * @see org.opencv.core.Core#solve
 * @see org.opencv.core.Core#eigen
 * @see org.opencv.core.Core#trace
 */
  public static double determinant(Mat mtx)
  {

    double retVal = determinant_0(mtx.nativeObj);

    return retVal;
  }

代码示例来源:origin: ytai/IOIOPlotter

/**
 * <p>Returns the determinant of a square floating-point matrix.</p>
 *
 * <p>The function <code>determinant</code> calculates and returns the determinant
 * of the specified matrix. For small matrices (<code>mtx.cols=mtx.rows<=3</code>),
 * the direct method is used. For larger matrices, the function uses LU
 * factorization with partial pivoting.</p>
 *
 * <p>For symmetric positively-determined matrices, it is also possible to use
 * "eigen" decomposition to calculate the determinant.</p>
 *
 * @param mtx input matrix that must have <code>CV_32FC1</code> or
 * <code>CV_64FC1</code> type and square size.
 *
 * @see <a href="http://docs.opencv.org/modules/core/doc/operations_on_arrays.html#determinant">org.opencv.core.Core.determinant</a>
 * @see org.opencv.core.Core#invert
 * @see org.opencv.core.Core#solve
 * @see org.opencv.core.Core#eigen
 * @see org.opencv.core.Core#trace
 */
  public static double determinant(Mat mtx)
  {

    double retVal = determinant_0(mtx.nativeObj);

    return retVal;
  }

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