using OpenCVForUnity.CoreModule; using OpenCVForUnity.UtilsModule; using System; using System.Collections.Generic; using System.Runtime.InteropServices; namespace OpenCVForUnity.MlModule { // C++: class DTrees //javadoc: DTrees public class DTrees : StatModel { protected override void Dispose(bool disposing) { #if (UNITY_ANDROID && !UNITY_EDITOR) try { if (disposing) { } if (IsEnabledDispose) { if (nativeObj != IntPtr.Zero) ml_DTrees_delete(nativeObj); nativeObj = IntPtr.Zero; } } finally { base.Dispose(disposing); } #else return; #endif } protected internal DTrees(IntPtr addr) : base(addr) { } // internal usage only public static new DTrees __fromPtr__(IntPtr addr) { return new DTrees(addr); } // C++: enum Flags public const int PREDICT_AUTO = 0; public const int PREDICT_SUM = (1 << 8); public const int PREDICT_MAX_VOTE = (2 << 8); public const int PREDICT_MASK = (3 << 8); // // C++: Mat cv::ml::DTrees::getPriors() // //javadoc: DTrees::getPriors() public Mat getPriors() { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) Mat retVal = new Mat(ml_DTrees_getPriors_10(nativeObj)); return retVal; #else return null; #endif } // // C++: static Ptr_DTrees cv::ml::DTrees::create() // //javadoc: DTrees::create() public static DTrees create() { #if (UNITY_ANDROID && !UNITY_EDITOR) DTrees retVal = DTrees.__fromPtr__(ml_DTrees_create_10()); return retVal; #else return null; #endif } // // C++: static Ptr_DTrees cv::ml::DTrees::load(String filepath, String nodeName = String()) // //javadoc: DTrees::load(filepath, nodeName) public static DTrees load(string filepath, string nodeName) { #if (UNITY_ANDROID && !UNITY_EDITOR) DTrees retVal = DTrees.__fromPtr__(ml_DTrees_load_10(filepath, nodeName)); return retVal; #else return null; #endif } //javadoc: DTrees::load(filepath) public static DTrees load(string filepath) { #if (UNITY_ANDROID && !UNITY_EDITOR) DTrees retVal = DTrees.__fromPtr__(ml_DTrees_load_11(filepath)); return retVal; #else return null; #endif } // // C++: bool cv::ml::DTrees::getTruncatePrunedTree() // //javadoc: DTrees::getTruncatePrunedTree() public bool getTruncatePrunedTree() { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) bool retVal = ml_DTrees_getTruncatePrunedTree_10(nativeObj); return retVal; #else return false; #endif } // // C++: bool cv::ml::DTrees::getUse1SERule() // //javadoc: DTrees::getUse1SERule() public bool getUse1SERule() { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) bool retVal = ml_DTrees_getUse1SERule_10(nativeObj); return retVal; #else return false; #endif } // // C++: bool cv::ml::DTrees::getUseSurrogates() // //javadoc: DTrees::getUseSurrogates() public bool getUseSurrogates() { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) bool retVal = ml_DTrees_getUseSurrogates_10(nativeObj); return retVal; #else return false; #endif } // // C++: float cv::ml::DTrees::getRegressionAccuracy() // //javadoc: DTrees::getRegressionAccuracy() public float getRegressionAccuracy() { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) float retVal = ml_DTrees_getRegressionAccuracy_10(nativeObj); return retVal; #else return -1; #endif } // // C++: int cv::ml::DTrees::getCVFolds() // //javadoc: DTrees::getCVFolds() public int getCVFolds() { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) int retVal = ml_DTrees_getCVFolds_10(nativeObj); return retVal; #else return -1; #endif } // // C++: int cv::ml::DTrees::getMaxCategories() // //javadoc: DTrees::getMaxCategories() public int getMaxCategories() { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) int retVal = ml_DTrees_getMaxCategories_10(nativeObj); return retVal; #else return -1; #endif } // // C++: int cv::ml::DTrees::getMaxDepth() // //javadoc: DTrees::getMaxDepth() public int getMaxDepth() { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) int retVal = ml_DTrees_getMaxDepth_10(nativeObj); return retVal; #else return -1; #endif } // // C++: int cv::ml::DTrees::getMinSampleCount() // //javadoc: DTrees::getMinSampleCount() public int getMinSampleCount() { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) int retVal = ml_DTrees_getMinSampleCount_10(nativeObj); return retVal; #else return -1; #endif } // // C++: void cv::ml::DTrees::setCVFolds(int val) // //javadoc: DTrees::setCVFolds(val) public void setCVFolds(int val) { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) ml_DTrees_setCVFolds_10(nativeObj, val); return; #else return; #endif } // // C++: void cv::ml::DTrees::setMaxCategories(int val) // //javadoc: DTrees::setMaxCategories(val) public void setMaxCategories(int val) { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) ml_DTrees_setMaxCategories_10(nativeObj, val); return; #else return; #endif } // // C++: void cv::ml::DTrees::setMaxDepth(int val) // //javadoc: DTrees::setMaxDepth(val) public void setMaxDepth(int val) { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) ml_DTrees_setMaxDepth_10(nativeObj, val); return; #else return; #endif } // // C++: void cv::ml::DTrees::setMinSampleCount(int val) // //javadoc: DTrees::setMinSampleCount(val) public void setMinSampleCount(int val) { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) ml_DTrees_setMinSampleCount_10(nativeObj, val); return; #else return; #endif } // // C++: void cv::ml::DTrees::setPriors(Mat val) // //javadoc: DTrees::setPriors(val) public void setPriors(Mat val) { ThrowIfDisposed(); if (val != null) val.ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) ml_DTrees_setPriors_10(nativeObj, val.nativeObj); return; #else return; #endif } // // C++: void cv::ml::DTrees::setRegressionAccuracy(float val) // //javadoc: DTrees::setRegressionAccuracy(val) public void setRegressionAccuracy(float val) { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) ml_DTrees_setRegressionAccuracy_10(nativeObj, val); return; #else return; #endif } // // C++: void cv::ml::DTrees::setTruncatePrunedTree(bool val) // //javadoc: DTrees::setTruncatePrunedTree(val) public void setTruncatePrunedTree(bool val) { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) ml_DTrees_setTruncatePrunedTree_10(nativeObj, val); return; #else return; #endif } // // C++: void cv::ml::DTrees::setUse1SERule(bool val) // //javadoc: DTrees::setUse1SERule(val) public void setUse1SERule(bool val) { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) ml_DTrees_setUse1SERule_10(nativeObj, val); return; #else return; #endif } // // C++: void cv::ml::DTrees::setUseSurrogates(bool val) // //javadoc: DTrees::setUseSurrogates(val) public void setUseSurrogates(bool val) { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) ml_DTrees_setUseSurrogates_10(nativeObj, val); return; #else return; #endif } #if (UNITY_ANDROID && !UNITY_EDITOR) const string LIBNAME = "opencvforunity"; // C++: Mat cv::ml::DTrees::getPriors() [DllImport(LIBNAME)] private static extern IntPtr ml_DTrees_getPriors_10(IntPtr nativeObj); // C++: static Ptr_DTrees cv::ml::DTrees::create() [DllImport(LIBNAME)] private static extern IntPtr ml_DTrees_create_10(); // C++: static Ptr_DTrees cv::ml::DTrees::load(String filepath, String nodeName = String()) [DllImport(LIBNAME)] private static extern IntPtr ml_DTrees_load_10(string filepath, string nodeName); [DllImport(LIBNAME)] private static extern IntPtr ml_DTrees_load_11(string filepath); // C++: bool cv::ml::DTrees::getTruncatePrunedTree() [DllImport(LIBNAME)] private static extern bool ml_DTrees_getTruncatePrunedTree_10(IntPtr nativeObj); // C++: bool cv::ml::DTrees::getUse1SERule() [DllImport(LIBNAME)] private static extern bool ml_DTrees_getUse1SERule_10(IntPtr nativeObj); // C++: bool cv::ml::DTrees::getUseSurrogates() [DllImport(LIBNAME)] private static extern bool ml_DTrees_getUseSurrogates_10(IntPtr nativeObj); // C++: float cv::ml::DTrees::getRegressionAccuracy() [DllImport(LIBNAME)] private static extern float ml_DTrees_getRegressionAccuracy_10(IntPtr nativeObj); // C++: int cv::ml::DTrees::getCVFolds() [DllImport(LIBNAME)] private static extern int ml_DTrees_getCVFolds_10(IntPtr nativeObj); // C++: int cv::ml::DTrees::getMaxCategories() [DllImport(LIBNAME)] private static extern int ml_DTrees_getMaxCategories_10(IntPtr nativeObj); // C++: int cv::ml::DTrees::getMaxDepth() [DllImport(LIBNAME)] private static extern int ml_DTrees_getMaxDepth_10(IntPtr nativeObj); // C++: int cv::ml::DTrees::getMinSampleCount() [DllImport(LIBNAME)] private static extern int ml_DTrees_getMinSampleCount_10(IntPtr nativeObj); // C++: void cv::ml::DTrees::setCVFolds(int val) [DllImport(LIBNAME)] private static extern void ml_DTrees_setCVFolds_10(IntPtr nativeObj, int val); // C++: void cv::ml::DTrees::setMaxCategories(int val) [DllImport(LIBNAME)] private static extern void ml_DTrees_setMaxCategories_10(IntPtr nativeObj, int val); // C++: void cv::ml::DTrees::setMaxDepth(int val) [DllImport(LIBNAME)] private static extern void ml_DTrees_setMaxDepth_10(IntPtr nativeObj, int val); // C++: void cv::ml::DTrees::setMinSampleCount(int val) [DllImport(LIBNAME)] private static extern void ml_DTrees_setMinSampleCount_10(IntPtr nativeObj, int val); // C++: void cv::ml::DTrees::setPriors(Mat val) [DllImport(LIBNAME)] private static extern void ml_DTrees_setPriors_10(IntPtr nativeObj, IntPtr val_nativeObj); // C++: void cv::ml::DTrees::setRegressionAccuracy(float val) [DllImport(LIBNAME)] private static extern void ml_DTrees_setRegressionAccuracy_10(IntPtr nativeObj, float val); // C++: void cv::ml::DTrees::setTruncatePrunedTree(bool val) [DllImport(LIBNAME)] private static extern void ml_DTrees_setTruncatePrunedTree_10(IntPtr nativeObj, bool val); // C++: void cv::ml::DTrees::setUse1SERule(bool val) [DllImport(LIBNAME)] private static extern void ml_DTrees_setUse1SERule_10(IntPtr nativeObj, bool val); // C++: void cv::ml::DTrees::setUseSurrogates(bool val) [DllImport(LIBNAME)] private static extern void ml_DTrees_setUseSurrogates_10(IntPtr nativeObj, bool val); // native support for java finalize() [DllImport(LIBNAME)] private static extern void ml_DTrees_delete(IntPtr nativeObj); #endif } }