pub struct MatOp { /* private fields */ }Expand description
////////////////////////////// Matrix Expressions /////////////////////////////////
Trait Implementations§
Source§impl Boxed for MatOp
impl Boxed for MatOp
Source§unsafe fn from_raw(ptr: <MatOp as OpenCVFromExtern>::ExternReceive) -> Self
unsafe fn from_raw(ptr: <MatOp as OpenCVFromExtern>::ExternReceive) -> Self
Wrap the specified raw pointer Read more
Source§fn into_raw(self) -> <MatOp as OpenCVTypeExternContainer>::ExternSendMut
fn into_raw(self) -> <MatOp as OpenCVTypeExternContainer>::ExternSendMut
Return the underlying raw pointer while consuming this wrapper. Read more
Source§fn as_raw(&self) -> <MatOp as OpenCVTypeExternContainer>::ExternSend
fn as_raw(&self) -> <MatOp as OpenCVTypeExternContainer>::ExternSend
Return the underlying raw pointer. Read more
Source§fn as_raw_mut(&mut self) -> <MatOp as OpenCVTypeExternContainer>::ExternSendMut
fn as_raw_mut(&mut self) -> <MatOp as OpenCVTypeExternContainer>::ExternSendMut
Return the underlying mutable raw pointer Read more
Source§impl MatOpTrait for MatOp
impl MatOpTrait for MatOp
fn as_raw_mut_MatOp(&mut self) -> *mut c_void
Source§impl MatOpTraitConst for MatOp
impl MatOpTraitConst for MatOp
fn as_raw_MatOp(&self) -> *const c_void
fn element_wise(&self, expr: &impl MatExprTraitConst) -> Result<bool>
Source§fn assign(
&self,
expr: &impl MatExprTraitConst,
m: &mut impl MatTrait,
typ: i32,
) -> Result<()>
fn assign( &self, expr: &impl MatExprTraitConst, m: &mut impl MatTrait, typ: i32, ) -> Result<()>
C++ default parameters Read more
Source§fn assign_def(
&self,
expr: &impl MatExprTraitConst,
m: &mut impl MatTrait,
) -> Result<()>
fn assign_def( &self, expr: &impl MatExprTraitConst, m: &mut impl MatTrait, ) -> Result<()>
Note Read more
fn roi( &self, expr: &impl MatExprTraitConst, row_range: &impl RangeTraitConst, col_range: &impl RangeTraitConst, res: &mut impl MatExprTrait, ) -> Result<()>
fn diag( &self, expr: &impl MatExprTraitConst, d: i32, res: &mut impl MatExprTrait, ) -> Result<()>
fn aug_assign_add( &self, expr: &impl MatExprTraitConst, m: &mut impl MatTrait, ) -> Result<()>
fn aug_assign_subtract( &self, expr: &impl MatExprTraitConst, m: &mut impl MatTrait, ) -> Result<()>
fn aug_assign_multiply( &self, expr: &impl MatExprTraitConst, m: &mut impl MatTrait, ) -> Result<()>
fn aug_assign_divide( &self, expr: &impl MatExprTraitConst, m: &mut impl MatTrait, ) -> Result<()>
fn aug_assign_and( &self, expr: &impl MatExprTraitConst, m: &mut impl MatTrait, ) -> Result<()>
fn aug_assign_or( &self, expr: &impl MatExprTraitConst, m: &mut impl MatTrait, ) -> Result<()>
fn aug_assign_xor( &self, expr: &impl MatExprTraitConst, m: &mut impl MatTrait, ) -> Result<()>
fn add( &self, expr1: &impl MatExprTraitConst, expr2: &impl MatExprTraitConst, res: &mut impl MatExprTrait, ) -> Result<()>
fn add_scalar( &self, expr1: &impl MatExprTraitConst, s: Scalar, res: &mut impl MatExprTrait, ) -> Result<()>
fn subtract( &self, expr1: &impl MatExprTraitConst, expr2: &impl MatExprTraitConst, res: &mut impl MatExprTrait, ) -> Result<()>
fn subtract_scalar( &self, s: Scalar, expr: &impl MatExprTraitConst, res: &mut impl MatExprTrait, ) -> Result<()>
Source§fn multiply(
&self,
expr1: &impl MatExprTraitConst,
expr2: &impl MatExprTraitConst,
res: &mut impl MatExprTrait,
scale: f64,
) -> Result<()>
fn multiply( &self, expr1: &impl MatExprTraitConst, expr2: &impl MatExprTraitConst, res: &mut impl MatExprTrait, scale: f64, ) -> Result<()>
C++ default parameters Read more
Source§fn multiply_def(
&self,
expr1: &impl MatExprTraitConst,
expr2: &impl MatExprTraitConst,
res: &mut impl MatExprTrait,
) -> Result<()>
fn multiply_def( &self, expr1: &impl MatExprTraitConst, expr2: &impl MatExprTraitConst, res: &mut impl MatExprTrait, ) -> Result<()>
Note Read more
fn multiply_f64( &self, expr1: &impl MatExprTraitConst, s: f64, res: &mut impl MatExprTrait, ) -> Result<()>
Source§fn divide(
&self,
expr1: &impl MatExprTraitConst,
expr2: &impl MatExprTraitConst,
res: &mut impl MatExprTrait,
scale: f64,
) -> Result<()>
fn divide( &self, expr1: &impl MatExprTraitConst, expr2: &impl MatExprTraitConst, res: &mut impl MatExprTrait, scale: f64, ) -> Result<()>
C++ default parameters Read more
Source§fn divide_def(
&self,
expr1: &impl MatExprTraitConst,
expr2: &impl MatExprTraitConst,
res: &mut impl MatExprTrait,
) -> Result<()>
fn divide_def( &self, expr1: &impl MatExprTraitConst, expr2: &impl MatExprTraitConst, res: &mut impl MatExprTrait, ) -> Result<()>
Note Read more
fn divide_f64( &self, s: f64, expr: &impl MatExprTraitConst, res: &mut impl MatExprTrait, ) -> Result<()>
fn abs( &self, expr: &impl MatExprTraitConst, res: &mut impl MatExprTrait, ) -> Result<()>
fn transpose( &self, expr: &impl MatExprTraitConst, res: &mut impl MatExprTrait, ) -> Result<()>
fn matmul( &self, expr1: &impl MatExprTraitConst, expr2: &impl MatExprTraitConst, res: &mut impl MatExprTrait, ) -> Result<()>
fn invert( &self, expr: &impl MatExprTraitConst, method: i32, res: &mut impl MatExprTrait, ) -> Result<()>
fn size(&self, expr: &impl MatExprTraitConst) -> Result<Size>
fn typ(&self, expr: &impl MatExprTraitConst) -> Result<i32>
impl Send for MatOp
Auto Trait Implementations§
impl Freeze for MatOp
impl RefUnwindSafe for MatOp
impl !Sync for MatOp
impl Unpin for MatOp
impl UnwindSafe for MatOp
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