//javadoc: StereoBM::create()
public static StereoBM create()
{
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
StereoBM retVal = StereoBM.__fromPtr__(calib3d_StereoBM_create_12());
return(retVal);
#else
return(null);
#endif
}
//
// C++: static Ptr_StereoBM cv::StereoBM::create(int numDisparities = 0, int blockSize = 21)
//
//javadoc: StereoBM::create(numDisparities, blockSize)
public static StereoBM create(int numDisparities, int blockSize)
{
#if ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
StereoBM retVal = StereoBM.__fromPtr__(calib3d_StereoBM_create_10(numDisparities, blockSize));
return(retVal);
#else
return(null);
#endif
}
void DoProcess()
{
if (!(owner.Value is OpenCVForUnityPlayMakerActions.StereoBM))
{
LogError("owner is not initialized. Add Action \"newStereoBM\".");
return;
}
OpenCVForUnity.Calib3dModule.StereoBM wrapped_owner = OpenCVForUnityPlayMakerActionsUtils.GetWrappedObject <OpenCVForUnityPlayMakerActions.StereoBM, OpenCVForUnity.Calib3dModule.StereoBM>(owner);
wrapped_owner.setPreFilterCap(preFilterCap.Value);
}
void DoProcess()
{
if (!(owner.Value is OpenCVForUnityPlayMakerActions.StereoBM))
{
LogError("owner is not initialized. Add Action \"newStereoBM\".");
return;
}
OpenCVForUnity.Calib3dModule.StereoBM wrapped_owner = OpenCVForUnityPlayMakerActionsUtils.GetWrappedObject <OpenCVForUnityPlayMakerActions.StereoBM, OpenCVForUnity.Calib3dModule.StereoBM>(owner);
wrapped_owner.setROI2(new OpenCVForUnity.CoreModule.Rect((int)roi2_x.Value, (int)roi2_y.Value, (int)roi2_width.Value, (int)roi2_height.Value));
}
void DoProcess()
{
if (!(owner.Value is OpenCVForUnityPlayMakerActions.StereoBM))
{
LogError("owner is not initialized. Add Action \"newStereoBM\".");
return;
}
OpenCVForUnity.Calib3dModule.StereoBM wrapped_owner = OpenCVForUnityPlayMakerActionsUtils.GetWrappedObject <OpenCVForUnityPlayMakerActions.StereoBM, OpenCVForUnity.Calib3dModule.StereoBM>(owner);
storeResult.Value = wrapped_owner.getUniquenessRatio();
}
void DoProcess()
{
if (!(owner.Value is OpenCVForUnityPlayMakerActions.StereoBM))
{
LogError("owner is not initialized. Add Action \"newStereoBM\".");
return;
}
OpenCVForUnity.Calib3dModule.StereoBM wrapped_owner = OpenCVForUnityPlayMakerActionsUtils.GetWrappedObject <OpenCVForUnityPlayMakerActions.StereoBM, OpenCVForUnity.Calib3dModule.StereoBM>(owner);
if (!(storeResult.Value is OpenCVForUnityPlayMakerActions.Rect))
{
storeResult.Value = new OpenCVForUnityPlayMakerActions.Rect();
}
((OpenCVForUnityPlayMakerActions.Rect)storeResult.Value).wrappedObject = wrapped_owner.getROI1();
}
void DoProcess()
{
if (!(owner.Value is OpenCVForUnityPlayMakerActions.StereoBM))
{
LogError("owner is not initialized. Add Action \"newStereoBM\".");
return;
}
OpenCVForUnity.Calib3dModule.StereoBM wrapped_owner = OpenCVForUnityPlayMakerActionsUtils.GetWrappedObject <OpenCVForUnityPlayMakerActions.StereoBM, OpenCVForUnity.Calib3dModule.StereoBM>(owner);
if (!(roi2.Value is OpenCVForUnityPlayMakerActions.Rect))
{
LogError("roi2 is not initialized. Add Action \"newRect\".");
return;
}
OpenCVForUnity.CoreModule.Rect wrapped_roi2 = OpenCVForUnityPlayMakerActionsUtils.GetWrappedObject <OpenCVForUnityPlayMakerActions.Rect, OpenCVForUnity.CoreModule.Rect>(roi2);
wrapped_owner.setROI2(wrapped_roi2);
}
/**
* Creates StereoBM object
*
* param numDisparities the disparity search range. For each pixel algorithm will find the best
* disparity from 0 (default minimum disparity) to numDisparities. The search range can then be
* shifted by changing the minimum disparity.
* (as the block is centered at the current pixel). Larger block size implies smoother, though less
* accurate disparity map. Smaller block size gives more detailed disparity map, but there is higher
* chance for algorithm to find a wrong correspondence.
*
* The function create StereoBM object. You can then call StereoBM::compute() to compute disparity for
* a specific stereo pair.
* return automatically generated
*/
public static StereoBM create(int numDisparities)
{
return(StereoBM.__fromPtr__(calib3d_StereoBM_create_11(numDisparities)));
}
//
// C++: static Ptr_StereoBM cv::StereoBM::create(int numDisparities = 0, int blockSize = 21)
//
/**
* Creates StereoBM object
*
* param numDisparities the disparity search range. For each pixel algorithm will find the best
* disparity from 0 (default minimum disparity) to numDisparities. The search range can then be
* shifted by changing the minimum disparity.
* param blockSize the linear size of the blocks compared by the algorithm. The size should be odd
* (as the block is centered at the current pixel). Larger block size implies smoother, though less
* accurate disparity map. Smaller block size gives more detailed disparity map, but there is higher
* chance for algorithm to find a wrong correspondence.
*
* The function create StereoBM object. You can then call StereoBM::compute() to compute disparity for
* a specific stereo pair.
* return automatically generated
*/
public static StereoBM create(int numDisparities, int blockSize)
{
return(StereoBM.__fromPtr__(calib3d_StereoBM_create_10(numDisparities, blockSize)));
}
/**
* Creates StereoBM object
*
* disparity from 0 (default minimum disparity) to numDisparities. The search range can then be
* shifted by changing the minimum disparity.
* (as the block is centered at the current pixel). Larger block size implies smoother, though less
* accurate disparity map. Smaller block size gives more detailed disparity map, but there is higher
* chance for algorithm to find a wrong correspondence.
*
* The function create StereoBM object. You can then call StereoBM::compute() to compute disparity for
* a specific stereo pair.
* return automatically generated
*/
public static StereoBM create()
{
return(StereoBM.__fromPtr__(calib3d_StereoBM_create_12()));
}
public StereoBM(OpenCVForUnity.Calib3dModule.StereoBM nativeObj) : base(nativeObj)
{
}