using OpenCVForUnity.CoreModule; using OpenCVForUnity.UtilsModule; using System; using System.Collections.Generic; using System.Runtime.InteropServices; namespace OpenCVForUnity.PhotoModule { // C++: class CalibrateDebevec //javadoc: CalibrateDebevec public class CalibrateDebevec : CalibrateCRF { protected override void Dispose(bool disposing) { #if (UNITY_ANDROID && !UNITY_EDITOR) try { if (disposing) { } if (IsEnabledDispose) { if (nativeObj != IntPtr.Zero) photo_CalibrateDebevec_delete(nativeObj); nativeObj = IntPtr.Zero; } } finally { base.Dispose(disposing); } #else return; #endif } protected internal CalibrateDebevec(IntPtr addr) : base(addr) { } // internal usage only public static new CalibrateDebevec __fromPtr__(IntPtr addr) { return new CalibrateDebevec(addr); } // // C++: bool cv::CalibrateDebevec::getRandom() // //javadoc: CalibrateDebevec::getRandom() public bool getRandom() { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) bool retVal = photo_CalibrateDebevec_getRandom_10(nativeObj); return retVal; #else return false; #endif } // // C++: float cv::CalibrateDebevec::getLambda() // //javadoc: CalibrateDebevec::getLambda() public float getLambda() { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) float retVal = photo_CalibrateDebevec_getLambda_10(nativeObj); return retVal; #else return -1; #endif } // // C++: int cv::CalibrateDebevec::getSamples() // //javadoc: CalibrateDebevec::getSamples() public int getSamples() { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) int retVal = photo_CalibrateDebevec_getSamples_10(nativeObj); return retVal; #else return -1; #endif } // // C++: void cv::CalibrateDebevec::setLambda(float lambda) // //javadoc: CalibrateDebevec::setLambda(lambda) public void setLambda(float lambda) { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) photo_CalibrateDebevec_setLambda_10(nativeObj, lambda); return; #else return; #endif } // // C++: void cv::CalibrateDebevec::setRandom(bool random) // //javadoc: CalibrateDebevec::setRandom(random) public void setRandom(bool random) { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) photo_CalibrateDebevec_setRandom_10(nativeObj, random); return; #else return; #endif } // // C++: void cv::CalibrateDebevec::setSamples(int samples) // //javadoc: CalibrateDebevec::setSamples(samples) public void setSamples(int samples) { ThrowIfDisposed(); #if (UNITY_ANDROID && !UNITY_EDITOR) photo_CalibrateDebevec_setSamples_10(nativeObj, samples); return; #else return; #endif } #if (UNITY_ANDROID && !UNITY_EDITOR) const string LIBNAME = "opencvforunity"; // C++: bool cv::CalibrateDebevec::getRandom() [DllImport(LIBNAME)] private static extern bool photo_CalibrateDebevec_getRandom_10(IntPtr nativeObj); // C++: float cv::CalibrateDebevec::getLambda() [DllImport(LIBNAME)] private static extern float photo_CalibrateDebevec_getLambda_10(IntPtr nativeObj); // C++: int cv::CalibrateDebevec::getSamples() [DllImport(LIBNAME)] private static extern int photo_CalibrateDebevec_getSamples_10(IntPtr nativeObj); // C++: void cv::CalibrateDebevec::setLambda(float lambda) [DllImport(LIBNAME)] private static extern void photo_CalibrateDebevec_setLambda_10(IntPtr nativeObj, float lambda); // C++: void cv::CalibrateDebevec::setRandom(bool random) [DllImport(LIBNAME)] private static extern void photo_CalibrateDebevec_setRandom_10(IntPtr nativeObj, bool random); // C++: void cv::CalibrateDebevec::setSamples(int samples) [DllImport(LIBNAME)] private static extern void photo_CalibrateDebevec_setSamples_10(IntPtr nativeObj, int samples); // native support for java finalize() [DllImport(LIBNAME)] private static extern void photo_CalibrateDebevec_delete(IntPtr nativeObj); #endif } }