advancedskrald/ChessAR/Assets/OpenCVForUnity/org/opencv/objdetect/CascadeClassifier.cs

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using OpenCVForUnity.CoreModule;
using OpenCVForUnity.UtilsModule;
using System;
using System.Collections.Generic;
using System.Runtime.InteropServices;
namespace OpenCVForUnity.ObjdetectModule
{
// C++: class CascadeClassifier
//javadoc: CascadeClassifier
public class CascadeClassifier : DisposableOpenCVObject
{
protected override void Dispose (bool disposing)
{
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
try {
if (disposing) {
}
if (IsEnabledDispose) {
if (nativeObj != IntPtr.Zero)
objdetect_CascadeClassifier_delete(nativeObj);
nativeObj = IntPtr.Zero;
}
} finally {
base.Dispose (disposing);
}
#else
return;
#endif
}
protected internal CascadeClassifier (IntPtr addr) : base (addr) { }
public IntPtr getNativeObjAddr () { return nativeObj; }
// internal usage only
public static CascadeClassifier __fromPtr__ (IntPtr addr) { return new CascadeClassifier (addr); }
//
// C++: cv::CascadeClassifier::CascadeClassifier(String filename)
//
//javadoc: CascadeClassifier::CascadeClassifier(filename)
public CascadeClassifier (string filename)
{
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
nativeObj = objdetect_CascadeClassifier_CascadeClassifier_10(filename);
return;
#else
return null;
#endif
}
//
// C++: cv::CascadeClassifier::CascadeClassifier()
//
//javadoc: CascadeClassifier::CascadeClassifier()
public CascadeClassifier ()
{
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
nativeObj = objdetect_CascadeClassifier_CascadeClassifier_11();
return;
#else
return null;
#endif
}
//
// C++: Size cv::CascadeClassifier::getOriginalWindowSize()
//
//javadoc: CascadeClassifier::getOriginalWindowSize()
public Size getOriginalWindowSize ()
{
ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
double[] tmpArray = new double[2];
objdetect_CascadeClassifier_getOriginalWindowSize_10(nativeObj, tmpArray);
Size retVal = new Size (tmpArray);
return retVal;
#else
return null;
#endif
}
//
// C++: static bool cv::CascadeClassifier::convert(String oldcascade, String newcascade)
//
//javadoc: CascadeClassifier::convert(oldcascade, newcascade)
public static bool convert (string oldcascade, string newcascade)
{
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
bool retVal = objdetect_CascadeClassifier_convert_10(oldcascade, newcascade);
return retVal;
#else
return false;
#endif
}
//
// C++: bool cv::CascadeClassifier::empty()
//
//javadoc: CascadeClassifier::empty()
public bool empty ()
{
ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
bool retVal = objdetect_CascadeClassifier_empty_10(nativeObj);
return retVal;
#else
return false;
#endif
}
//
// C++: bool cv::CascadeClassifier::isOldFormatCascade()
//
//javadoc: CascadeClassifier::isOldFormatCascade()
public bool isOldFormatCascade ()
{
ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
bool retVal = objdetect_CascadeClassifier_isOldFormatCascade_10(nativeObj);
return retVal;
#else
return false;
#endif
}
//
// C++: bool cv::CascadeClassifier::load(String filename)
//
//javadoc: CascadeClassifier::load(filename)
public bool load (string filename)
{
ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
bool retVal = objdetect_CascadeClassifier_load_10(nativeObj, filename);
return retVal;
#else
return false;
#endif
}
//
// C++: bool cv::CascadeClassifier::read(FileNode node)
//
// Unknown type 'FileNode' (I), skipping the function
//
// C++: int cv::CascadeClassifier::getFeatureType()
//
//javadoc: CascadeClassifier::getFeatureType()
public int getFeatureType ()
{
ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
int retVal = objdetect_CascadeClassifier_getFeatureType_10(nativeObj);
return retVal;
#else
return -1;
#endif
}
//
// C++: void cv::CascadeClassifier::detectMultiScale(Mat image, vector_Rect& objects, double scaleFactor = 1.1, int minNeighbors = 3, int flags = 0, Size minSize = Size(), Size maxSize = Size())
//
//javadoc: CascadeClassifier::detectMultiScale(image, objects, scaleFactor, minNeighbors, flags, minSize, maxSize)
public void detectMultiScale (Mat image, MatOfRect objects, double scaleFactor, int minNeighbors, int flags, Size minSize, Size maxSize)
{
ThrowIfDisposed ();
if (image != null) image.ThrowIfDisposed ();
if (objects != null) objects.ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat objects_mat = objects;
objdetect_CascadeClassifier_detectMultiScale_10(nativeObj, image.nativeObj, objects_mat.nativeObj, scaleFactor, minNeighbors, flags, minSize.width, minSize.height, maxSize.width, maxSize.height);
return;
#else
return;
#endif
}
//javadoc: CascadeClassifier::detectMultiScale(image, objects, scaleFactor, minNeighbors, flags, minSize)
public void detectMultiScale (Mat image, MatOfRect objects, double scaleFactor, int minNeighbors, int flags, Size minSize)
{
ThrowIfDisposed ();
if (image != null) image.ThrowIfDisposed ();
if (objects != null) objects.ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat objects_mat = objects;
objdetect_CascadeClassifier_detectMultiScale_11(nativeObj, image.nativeObj, objects_mat.nativeObj, scaleFactor, minNeighbors, flags, minSize.width, minSize.height);
return;
#else
return;
#endif
}
//javadoc: CascadeClassifier::detectMultiScale(image, objects, scaleFactor, minNeighbors, flags)
public void detectMultiScale (Mat image, MatOfRect objects, double scaleFactor, int minNeighbors, int flags)
{
ThrowIfDisposed ();
if (image != null) image.ThrowIfDisposed ();
if (objects != null) objects.ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat objects_mat = objects;
objdetect_CascadeClassifier_detectMultiScale_12(nativeObj, image.nativeObj, objects_mat.nativeObj, scaleFactor, minNeighbors, flags);
return;
#else
return;
#endif
}
//javadoc: CascadeClassifier::detectMultiScale(image, objects, scaleFactor, minNeighbors)
public void detectMultiScale (Mat image, MatOfRect objects, double scaleFactor, int minNeighbors)
{
ThrowIfDisposed ();
if (image != null) image.ThrowIfDisposed ();
if (objects != null) objects.ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat objects_mat = objects;
objdetect_CascadeClassifier_detectMultiScale_13(nativeObj, image.nativeObj, objects_mat.nativeObj, scaleFactor, minNeighbors);
return;
#else
return;
#endif
}
//javadoc: CascadeClassifier::detectMultiScale(image, objects, scaleFactor)
public void detectMultiScale (Mat image, MatOfRect objects, double scaleFactor)
{
ThrowIfDisposed ();
if (image != null) image.ThrowIfDisposed ();
if (objects != null) objects.ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat objects_mat = objects;
objdetect_CascadeClassifier_detectMultiScale_14(nativeObj, image.nativeObj, objects_mat.nativeObj, scaleFactor);
return;
#else
return;
#endif
}
//javadoc: CascadeClassifier::detectMultiScale(image, objects)
public void detectMultiScale (Mat image, MatOfRect objects)
{
ThrowIfDisposed ();
if (image != null) image.ThrowIfDisposed ();
if (objects != null) objects.ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat objects_mat = objects;
objdetect_CascadeClassifier_detectMultiScale_15(nativeObj, image.nativeObj, objects_mat.nativeObj);
return;
#else
return;
#endif
}
//
// C++: void cv::CascadeClassifier::detectMultiScale(Mat image, vector_Rect& objects, vector_int& numDetections, double scaleFactor = 1.1, int minNeighbors = 3, int flags = 0, Size minSize = Size(), Size maxSize = Size())
//
//javadoc: CascadeClassifier::detectMultiScale2(image, objects, numDetections, scaleFactor, minNeighbors, flags, minSize, maxSize)
public void detectMultiScale2 (Mat image, MatOfRect objects, MatOfInt numDetections, double scaleFactor, int minNeighbors, int flags, Size minSize, Size maxSize)
{
ThrowIfDisposed ();
if (image != null) image.ThrowIfDisposed ();
if (objects != null) objects.ThrowIfDisposed ();
if (numDetections != null) numDetections.ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat objects_mat = objects;
Mat numDetections_mat = numDetections;
objdetect_CascadeClassifier_detectMultiScale2_10(nativeObj, image.nativeObj, objects_mat.nativeObj, numDetections_mat.nativeObj, scaleFactor, minNeighbors, flags, minSize.width, minSize.height, maxSize.width, maxSize.height);
return;
#else
return;
#endif
}
//javadoc: CascadeClassifier::detectMultiScale2(image, objects, numDetections, scaleFactor, minNeighbors, flags, minSize)
public void detectMultiScale2 (Mat image, MatOfRect objects, MatOfInt numDetections, double scaleFactor, int minNeighbors, int flags, Size minSize)
{
ThrowIfDisposed ();
if (image != null) image.ThrowIfDisposed ();
if (objects != null) objects.ThrowIfDisposed ();
if (numDetections != null) numDetections.ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat objects_mat = objects;
Mat numDetections_mat = numDetections;
objdetect_CascadeClassifier_detectMultiScale2_11(nativeObj, image.nativeObj, objects_mat.nativeObj, numDetections_mat.nativeObj, scaleFactor, minNeighbors, flags, minSize.width, minSize.height);
return;
#else
return;
#endif
}
//javadoc: CascadeClassifier::detectMultiScale2(image, objects, numDetections, scaleFactor, minNeighbors, flags)
public void detectMultiScale2 (Mat image, MatOfRect objects, MatOfInt numDetections, double scaleFactor, int minNeighbors, int flags)
{
ThrowIfDisposed ();
if (image != null) image.ThrowIfDisposed ();
if (objects != null) objects.ThrowIfDisposed ();
if (numDetections != null) numDetections.ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat objects_mat = objects;
Mat numDetections_mat = numDetections;
objdetect_CascadeClassifier_detectMultiScale2_12(nativeObj, image.nativeObj, objects_mat.nativeObj, numDetections_mat.nativeObj, scaleFactor, minNeighbors, flags);
return;
#else
return;
#endif
}
//javadoc: CascadeClassifier::detectMultiScale2(image, objects, numDetections, scaleFactor, minNeighbors)
public void detectMultiScale2 (Mat image, MatOfRect objects, MatOfInt numDetections, double scaleFactor, int minNeighbors)
{
ThrowIfDisposed ();
if (image != null) image.ThrowIfDisposed ();
if (objects != null) objects.ThrowIfDisposed ();
if (numDetections != null) numDetections.ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat objects_mat = objects;
Mat numDetections_mat = numDetections;
objdetect_CascadeClassifier_detectMultiScale2_13(nativeObj, image.nativeObj, objects_mat.nativeObj, numDetections_mat.nativeObj, scaleFactor, minNeighbors);
return;
#else
return;
#endif
}
//javadoc: CascadeClassifier::detectMultiScale2(image, objects, numDetections, scaleFactor)
public void detectMultiScale2 (Mat image, MatOfRect objects, MatOfInt numDetections, double scaleFactor)
{
ThrowIfDisposed ();
if (image != null) image.ThrowIfDisposed ();
if (objects != null) objects.ThrowIfDisposed ();
if (numDetections != null) numDetections.ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat objects_mat = objects;
Mat numDetections_mat = numDetections;
objdetect_CascadeClassifier_detectMultiScale2_14(nativeObj, image.nativeObj, objects_mat.nativeObj, numDetections_mat.nativeObj, scaleFactor);
return;
#else
return;
#endif
}
//javadoc: CascadeClassifier::detectMultiScale2(image, objects, numDetections)
public void detectMultiScale2 (Mat image, MatOfRect objects, MatOfInt numDetections)
{
ThrowIfDisposed ();
if (image != null) image.ThrowIfDisposed ();
if (objects != null) objects.ThrowIfDisposed ();
if (numDetections != null) numDetections.ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat objects_mat = objects;
Mat numDetections_mat = numDetections;
objdetect_CascadeClassifier_detectMultiScale2_15(nativeObj, image.nativeObj, objects_mat.nativeObj, numDetections_mat.nativeObj);
return;
#else
return;
#endif
}
//
// C++: void cv::CascadeClassifier::detectMultiScale(Mat image, vector_Rect& objects, vector_int& rejectLevels, vector_double& levelWeights, double scaleFactor = 1.1, int minNeighbors = 3, int flags = 0, Size minSize = Size(), Size maxSize = Size(), bool outputRejectLevels = false)
//
//javadoc: CascadeClassifier::detectMultiScale3(image, objects, rejectLevels, levelWeights, scaleFactor, minNeighbors, flags, minSize, maxSize, outputRejectLevels)
public void detectMultiScale3 (Mat image, MatOfRect objects, MatOfInt rejectLevels, MatOfDouble levelWeights, double scaleFactor, int minNeighbors, int flags, Size minSize, Size maxSize, bool outputRejectLevels)
{
ThrowIfDisposed ();
if (image != null) image.ThrowIfDisposed ();
if (objects != null) objects.ThrowIfDisposed ();
if (rejectLevels != null) rejectLevels.ThrowIfDisposed ();
if (levelWeights != null) levelWeights.ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat objects_mat = objects;
Mat rejectLevels_mat = rejectLevels;
Mat levelWeights_mat = levelWeights;
objdetect_CascadeClassifier_detectMultiScale3_10(nativeObj, image.nativeObj, objects_mat.nativeObj, rejectLevels_mat.nativeObj, levelWeights_mat.nativeObj, scaleFactor, minNeighbors, flags, minSize.width, minSize.height, maxSize.width, maxSize.height, outputRejectLevels);
return;
#else
return;
#endif
}
//javadoc: CascadeClassifier::detectMultiScale3(image, objects, rejectLevels, levelWeights, scaleFactor, minNeighbors, flags, minSize, maxSize)
public void detectMultiScale3 (Mat image, MatOfRect objects, MatOfInt rejectLevels, MatOfDouble levelWeights, double scaleFactor, int minNeighbors, int flags, Size minSize, Size maxSize)
{
ThrowIfDisposed ();
if (image != null) image.ThrowIfDisposed ();
if (objects != null) objects.ThrowIfDisposed ();
if (rejectLevels != null) rejectLevels.ThrowIfDisposed ();
if (levelWeights != null) levelWeights.ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat objects_mat = objects;
Mat rejectLevels_mat = rejectLevels;
Mat levelWeights_mat = levelWeights;
objdetect_CascadeClassifier_detectMultiScale3_11(nativeObj, image.nativeObj, objects_mat.nativeObj, rejectLevels_mat.nativeObj, levelWeights_mat.nativeObj, scaleFactor, minNeighbors, flags, minSize.width, minSize.height, maxSize.width, maxSize.height);
return;
#else
return;
#endif
}
//javadoc: CascadeClassifier::detectMultiScale3(image, objects, rejectLevels, levelWeights, scaleFactor, minNeighbors, flags, minSize)
public void detectMultiScale3 (Mat image, MatOfRect objects, MatOfInt rejectLevels, MatOfDouble levelWeights, double scaleFactor, int minNeighbors, int flags, Size minSize)
{
ThrowIfDisposed ();
if (image != null) image.ThrowIfDisposed ();
if (objects != null) objects.ThrowIfDisposed ();
if (rejectLevels != null) rejectLevels.ThrowIfDisposed ();
if (levelWeights != null) levelWeights.ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat objects_mat = objects;
Mat rejectLevels_mat = rejectLevels;
Mat levelWeights_mat = levelWeights;
objdetect_CascadeClassifier_detectMultiScale3_12(nativeObj, image.nativeObj, objects_mat.nativeObj, rejectLevels_mat.nativeObj, levelWeights_mat.nativeObj, scaleFactor, minNeighbors, flags, minSize.width, minSize.height);
return;
#else
return;
#endif
}
//javadoc: CascadeClassifier::detectMultiScale3(image, objects, rejectLevels, levelWeights, scaleFactor, minNeighbors, flags)
public void detectMultiScale3 (Mat image, MatOfRect objects, MatOfInt rejectLevels, MatOfDouble levelWeights, double scaleFactor, int minNeighbors, int flags)
{
ThrowIfDisposed ();
if (image != null) image.ThrowIfDisposed ();
if (objects != null) objects.ThrowIfDisposed ();
if (rejectLevels != null) rejectLevels.ThrowIfDisposed ();
if (levelWeights != null) levelWeights.ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat objects_mat = objects;
Mat rejectLevels_mat = rejectLevels;
Mat levelWeights_mat = levelWeights;
objdetect_CascadeClassifier_detectMultiScale3_13(nativeObj, image.nativeObj, objects_mat.nativeObj, rejectLevels_mat.nativeObj, levelWeights_mat.nativeObj, scaleFactor, minNeighbors, flags);
return;
#else
return;
#endif
}
//javadoc: CascadeClassifier::detectMultiScale3(image, objects, rejectLevels, levelWeights, scaleFactor, minNeighbors)
public void detectMultiScale3 (Mat image, MatOfRect objects, MatOfInt rejectLevels, MatOfDouble levelWeights, double scaleFactor, int minNeighbors)
{
ThrowIfDisposed ();
if (image != null) image.ThrowIfDisposed ();
if (objects != null) objects.ThrowIfDisposed ();
if (rejectLevels != null) rejectLevels.ThrowIfDisposed ();
if (levelWeights != null) levelWeights.ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat objects_mat = objects;
Mat rejectLevels_mat = rejectLevels;
Mat levelWeights_mat = levelWeights;
objdetect_CascadeClassifier_detectMultiScale3_14(nativeObj, image.nativeObj, objects_mat.nativeObj, rejectLevels_mat.nativeObj, levelWeights_mat.nativeObj, scaleFactor, minNeighbors);
return;
#else
return;
#endif
}
//javadoc: CascadeClassifier::detectMultiScale3(image, objects, rejectLevels, levelWeights, scaleFactor)
public void detectMultiScale3 (Mat image, MatOfRect objects, MatOfInt rejectLevels, MatOfDouble levelWeights, double scaleFactor)
{
ThrowIfDisposed ();
if (image != null) image.ThrowIfDisposed ();
if (objects != null) objects.ThrowIfDisposed ();
if (rejectLevels != null) rejectLevels.ThrowIfDisposed ();
if (levelWeights != null) levelWeights.ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat objects_mat = objects;
Mat rejectLevels_mat = rejectLevels;
Mat levelWeights_mat = levelWeights;
objdetect_CascadeClassifier_detectMultiScale3_15(nativeObj, image.nativeObj, objects_mat.nativeObj, rejectLevels_mat.nativeObj, levelWeights_mat.nativeObj, scaleFactor);
return;
#else
return;
#endif
}
//javadoc: CascadeClassifier::detectMultiScale3(image, objects, rejectLevels, levelWeights)
public void detectMultiScale3 (Mat image, MatOfRect objects, MatOfInt rejectLevels, MatOfDouble levelWeights)
{
ThrowIfDisposed ();
if (image != null) image.ThrowIfDisposed ();
if (objects != null) objects.ThrowIfDisposed ();
if (rejectLevels != null) rejectLevels.ThrowIfDisposed ();
if (levelWeights != null) levelWeights.ThrowIfDisposed ();
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat objects_mat = objects;
Mat rejectLevels_mat = rejectLevels;
Mat levelWeights_mat = levelWeights;
objdetect_CascadeClassifier_detectMultiScale3_16(nativeObj, image.nativeObj, objects_mat.nativeObj, rejectLevels_mat.nativeObj, levelWeights_mat.nativeObj);
return;
#else
return;
#endif
}
#if (UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR
const string LIBNAME = "__Internal";
#else
const string LIBNAME = "opencvforunity";
#endif
// C++: cv::CascadeClassifier::CascadeClassifier(String filename)
[DllImport (LIBNAME)]
private static extern IntPtr objdetect_CascadeClassifier_CascadeClassifier_10 (string filename);
// C++: cv::CascadeClassifier::CascadeClassifier()
[DllImport (LIBNAME)]
private static extern IntPtr objdetect_CascadeClassifier_CascadeClassifier_11 ();
// C++: Size cv::CascadeClassifier::getOriginalWindowSize()
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_getOriginalWindowSize_10 (IntPtr nativeObj, double[] retVal);
// C++: static bool cv::CascadeClassifier::convert(String oldcascade, String newcascade)
[DllImport (LIBNAME)]
private static extern bool objdetect_CascadeClassifier_convert_10 (string oldcascade, string newcascade);
// C++: bool cv::CascadeClassifier::empty()
[DllImport (LIBNAME)]
private static extern bool objdetect_CascadeClassifier_empty_10 (IntPtr nativeObj);
// C++: bool cv::CascadeClassifier::isOldFormatCascade()
[DllImport (LIBNAME)]
private static extern bool objdetect_CascadeClassifier_isOldFormatCascade_10 (IntPtr nativeObj);
// C++: bool cv::CascadeClassifier::load(String filename)
[DllImport (LIBNAME)]
private static extern bool objdetect_CascadeClassifier_load_10 (IntPtr nativeObj, string filename);
// C++: int cv::CascadeClassifier::getFeatureType()
[DllImport (LIBNAME)]
private static extern int objdetect_CascadeClassifier_getFeatureType_10 (IntPtr nativeObj);
// C++: void cv::CascadeClassifier::detectMultiScale(Mat image, vector_Rect& objects, double scaleFactor = 1.1, int minNeighbors = 3, int flags = 0, Size minSize = Size(), Size maxSize = Size())
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_detectMultiScale_10 (IntPtr nativeObj, IntPtr image_nativeObj, IntPtr objects_mat_nativeObj, double scaleFactor, int minNeighbors, int flags, double minSize_width, double minSize_height, double maxSize_width, double maxSize_height);
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_detectMultiScale_11 (IntPtr nativeObj, IntPtr image_nativeObj, IntPtr objects_mat_nativeObj, double scaleFactor, int minNeighbors, int flags, double minSize_width, double minSize_height);
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_detectMultiScale_12 (IntPtr nativeObj, IntPtr image_nativeObj, IntPtr objects_mat_nativeObj, double scaleFactor, int minNeighbors, int flags);
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_detectMultiScale_13 (IntPtr nativeObj, IntPtr image_nativeObj, IntPtr objects_mat_nativeObj, double scaleFactor, int minNeighbors);
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_detectMultiScale_14 (IntPtr nativeObj, IntPtr image_nativeObj, IntPtr objects_mat_nativeObj, double scaleFactor);
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_detectMultiScale_15 (IntPtr nativeObj, IntPtr image_nativeObj, IntPtr objects_mat_nativeObj);
// C++: void cv::CascadeClassifier::detectMultiScale(Mat image, vector_Rect& objects, vector_int& numDetections, double scaleFactor = 1.1, int minNeighbors = 3, int flags = 0, Size minSize = Size(), Size maxSize = Size())
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_detectMultiScale2_10 (IntPtr nativeObj, IntPtr image_nativeObj, IntPtr objects_mat_nativeObj, IntPtr numDetections_mat_nativeObj, double scaleFactor, int minNeighbors, int flags, double minSize_width, double minSize_height, double maxSize_width, double maxSize_height);
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_detectMultiScale2_11 (IntPtr nativeObj, IntPtr image_nativeObj, IntPtr objects_mat_nativeObj, IntPtr numDetections_mat_nativeObj, double scaleFactor, int minNeighbors, int flags, double minSize_width, double minSize_height);
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_detectMultiScale2_12 (IntPtr nativeObj, IntPtr image_nativeObj, IntPtr objects_mat_nativeObj, IntPtr numDetections_mat_nativeObj, double scaleFactor, int minNeighbors, int flags);
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_detectMultiScale2_13 (IntPtr nativeObj, IntPtr image_nativeObj, IntPtr objects_mat_nativeObj, IntPtr numDetections_mat_nativeObj, double scaleFactor, int minNeighbors);
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_detectMultiScale2_14 (IntPtr nativeObj, IntPtr image_nativeObj, IntPtr objects_mat_nativeObj, IntPtr numDetections_mat_nativeObj, double scaleFactor);
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_detectMultiScale2_15 (IntPtr nativeObj, IntPtr image_nativeObj, IntPtr objects_mat_nativeObj, IntPtr numDetections_mat_nativeObj);
// C++: void cv::CascadeClassifier::detectMultiScale(Mat image, vector_Rect& objects, vector_int& rejectLevels, vector_double& levelWeights, double scaleFactor = 1.1, int minNeighbors = 3, int flags = 0, Size minSize = Size(), Size maxSize = Size(), bool outputRejectLevels = false)
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_detectMultiScale3_10 (IntPtr nativeObj, IntPtr image_nativeObj, IntPtr objects_mat_nativeObj, IntPtr rejectLevels_mat_nativeObj, IntPtr levelWeights_mat_nativeObj, double scaleFactor, int minNeighbors, int flags, double minSize_width, double minSize_height, double maxSize_width, double maxSize_height, bool outputRejectLevels);
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_detectMultiScale3_11 (IntPtr nativeObj, IntPtr image_nativeObj, IntPtr objects_mat_nativeObj, IntPtr rejectLevels_mat_nativeObj, IntPtr levelWeights_mat_nativeObj, double scaleFactor, int minNeighbors, int flags, double minSize_width, double minSize_height, double maxSize_width, double maxSize_height);
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_detectMultiScale3_12 (IntPtr nativeObj, IntPtr image_nativeObj, IntPtr objects_mat_nativeObj, IntPtr rejectLevels_mat_nativeObj, IntPtr levelWeights_mat_nativeObj, double scaleFactor, int minNeighbors, int flags, double minSize_width, double minSize_height);
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_detectMultiScale3_13 (IntPtr nativeObj, IntPtr image_nativeObj, IntPtr objects_mat_nativeObj, IntPtr rejectLevels_mat_nativeObj, IntPtr levelWeights_mat_nativeObj, double scaleFactor, int minNeighbors, int flags);
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_detectMultiScale3_14 (IntPtr nativeObj, IntPtr image_nativeObj, IntPtr objects_mat_nativeObj, IntPtr rejectLevels_mat_nativeObj, IntPtr levelWeights_mat_nativeObj, double scaleFactor, int minNeighbors);
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_detectMultiScale3_15 (IntPtr nativeObj, IntPtr image_nativeObj, IntPtr objects_mat_nativeObj, IntPtr rejectLevels_mat_nativeObj, IntPtr levelWeights_mat_nativeObj, double scaleFactor);
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_detectMultiScale3_16 (IntPtr nativeObj, IntPtr image_nativeObj, IntPtr objects_mat_nativeObj, IntPtr rejectLevels_mat_nativeObj, IntPtr levelWeights_mat_nativeObj);
// native support for java finalize()
[DllImport (LIBNAME)]
private static extern void objdetect_CascadeClassifier_delete (IntPtr nativeObj);
}
}