pub struct AdaptiveManifoldFilter { /* private fields */ }
Expand description
Interface for Adaptive Manifold Filter realizations.
For more details about this filter see Gastal12 and References_.
Below listed optional parameters which may be set up with Algorithm::set function.
- member double sigma_s = 16.0 Spatial standard deviation.
- member double sigma_r = 0.2 Color space standard deviation.
- member int tree_height = -1 Height of the manifold tree (default = -1 : automatically computed).
- member int num_pca_iterations = 1 Number of iterations to computed the eigenvector.
- member bool adjust_outliers = false Specify adjust outliers using Eq. 9 or not.
- member bool use_RNG = true Specify use random number generator to compute eigenvector or not.
Implementations§
Source§impl AdaptiveManifoldFilter
impl AdaptiveManifoldFilter
pub fn create() -> Result<Ptr<AdaptiveManifoldFilter>>
Trait Implementations§
Source§impl AdaptiveManifoldFilterTrait for AdaptiveManifoldFilter
impl AdaptiveManifoldFilterTrait for AdaptiveManifoldFilter
fn as_raw_mut_AdaptiveManifoldFilter(&mut self) -> *mut c_void
Source§fn filter(
&mut self,
src: &impl ToInputArray,
dst: &mut impl ToOutputArray,
joint: &impl ToInputArray,
) -> Result<()>
fn filter( &mut self, src: &impl ToInputArray, dst: &mut impl ToOutputArray, joint: &impl ToInputArray, ) -> Result<()>
Apply high-dimensional filtering using adaptive manifolds. Read more
Source§fn filter_def(
&mut self,
src: &impl ToInputArray,
dst: &mut impl ToOutputArray,
) -> Result<()>
fn filter_def( &mut self, src: &impl ToInputArray, dst: &mut impl ToOutputArray, ) -> Result<()>
Apply high-dimensional filtering using adaptive manifolds. Read more
fn collect_garbage(&mut self) -> Result<()>
Source§impl AdaptiveManifoldFilterTraitConst for AdaptiveManifoldFilter
impl AdaptiveManifoldFilterTraitConst for AdaptiveManifoldFilter
fn as_raw_AdaptiveManifoldFilter(&self) -> *const c_void
Source§impl AlgorithmTraitConst for AdaptiveManifoldFilter
impl AlgorithmTraitConst for AdaptiveManifoldFilter
fn as_raw_Algorithm(&self) -> *const c_void
Source§fn write(&self, fs: &mut impl FileStorageTrait) -> Result<()>
fn write(&self, fs: &mut impl FileStorageTrait) -> Result<()>
Stores algorithm parameters in a file storage
Source§fn write_1(&self, fs: &mut impl FileStorageTrait, name: &str) -> Result<()>
fn write_1(&self, fs: &mut impl FileStorageTrait, name: &str) -> Result<()>
Stores algorithm parameters in a file storage Read more
Source§fn write_with_name(&self, fs: &Ptr<FileStorage>, name: &str) -> Result<()>
fn write_with_name(&self, fs: &Ptr<FileStorage>, name: &str) -> Result<()>
@deprecated Read more
Source§fn write_with_name_def(&self, fs: &Ptr<FileStorage>) -> Result<()>
fn write_with_name_def(&self, fs: &Ptr<FileStorage>) -> Result<()>
👎Deprecated:
§Note
Deprecated: ## Note
This alternative version of AlgorithmTraitConst::write_with_name function uses the following default values for its arguments: Read more
Source§fn empty(&self) -> Result<bool>
fn empty(&self) -> Result<bool>
Returns true if the Algorithm is empty (e.g. in the very beginning or after unsuccessful read
Source§fn save(&self, filename: &str) -> Result<()>
fn save(&self, filename: &str) -> Result<()>
Saves the algorithm to a file.
In order to make this method work, the derived class must implement Algorithm::write(FileStorage& fs).
Source§fn get_default_name(&self) -> Result<String>
fn get_default_name(&self) -> Result<String>
Returns the algorithm string identifier.
This string is used as top level xml/yml node tag when the object is saved to a file or string.
Source§impl Boxed for AdaptiveManifoldFilter
impl Boxed for AdaptiveManifoldFilter
Source§unsafe fn from_raw(
ptr: <AdaptiveManifoldFilter as OpenCVFromExtern>::ExternReceive,
) -> Self
unsafe fn from_raw( ptr: <AdaptiveManifoldFilter as OpenCVFromExtern>::ExternReceive, ) -> Self
Wrap the specified raw pointer Read more
Source§fn into_raw(
self,
) -> <AdaptiveManifoldFilter as OpenCVTypeExternContainer>::ExternSendMut
fn into_raw( self, ) -> <AdaptiveManifoldFilter as OpenCVTypeExternContainer>::ExternSendMut
Return the underlying raw pointer while consuming this wrapper. Read more
Source§fn as_raw(
&self,
) -> <AdaptiveManifoldFilter as OpenCVTypeExternContainer>::ExternSend
fn as_raw( &self, ) -> <AdaptiveManifoldFilter as OpenCVTypeExternContainer>::ExternSend
Return the underlying raw pointer. Read more
Source§fn as_raw_mut(
&mut self,
) -> <AdaptiveManifoldFilter as OpenCVTypeExternContainer>::ExternSendMut
fn as_raw_mut( &mut self, ) -> <AdaptiveManifoldFilter as OpenCVTypeExternContainer>::ExternSendMut
Return the underlying mutable raw pointer Read more
Source§impl Debug for AdaptiveManifoldFilter
impl Debug for AdaptiveManifoldFilter
Source§impl Drop for AdaptiveManifoldFilter
impl Drop for AdaptiveManifoldFilter
Source§impl From<AdaptiveManifoldFilter> for Algorithm
impl From<AdaptiveManifoldFilter> for Algorithm
Source§fn from(s: AdaptiveManifoldFilter) -> Self
fn from(s: AdaptiveManifoldFilter) -> Self
Converts to this type from the input type.
impl Send for AdaptiveManifoldFilter
Auto Trait Implementations§
impl Freeze for AdaptiveManifoldFilter
impl RefUnwindSafe for AdaptiveManifoldFilter
impl !Sync for AdaptiveManifoldFilter
impl Unpin for AdaptiveManifoldFilter
impl UnwindSafe for AdaptiveManifoldFilter
Blanket Implementations§
Source§impl<T> BorrowMut<T> for Twhere
T: ?Sized,
impl<T> BorrowMut<T> for Twhere
T: ?Sized,
Source§fn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
Mutably borrows from an owned value. Read more
Source§impl<Mat> ModifyInplace for Matwhere
Mat: Boxed,
impl<Mat> ModifyInplace for Matwhere
Mat: Boxed,
Source§unsafe fn modify_inplace<Res>(
&mut self,
f: impl FnOnce(&Mat, &mut Mat) -> Res,
) -> Res
unsafe fn modify_inplace<Res>( &mut self, f: impl FnOnce(&Mat, &mut Mat) -> Res, ) -> Res
Helper function to call OpenCV functions that allow in-place modification of a
Mat
or another similar object. By passing
a mutable reference to the Mat
to this function your closure will get called with the read reference and a write references
to the same Mat
. This is unsafe in a general case as it leads to having non-exclusive mutable access to the internal data,
but it can be useful for some performance sensitive operations. One example of an OpenCV function that allows such in-place
modification is imgproc::threshold
. Read more