OpenCV 5.0.0-pre
Open Source Computer Vision
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cv::SparseMatConstIterator Class Reference

Read-Only Sparse Matrix Iterator. More...

#include <opencv2/core/mat.hpp>

Collaboration diagram for cv::SparseMatConstIterator:

Public Member Functions

 SparseMatConstIterator ()
 the default constructor
 
 SparseMatConstIterator (const SparseMat *_m)
 the full constructor setting the iterator to the first sparse matrix element
 
 SparseMatConstIterator (const SparseMatConstIterator &it)
 the copy constructor
 
const SparseMat::Nodenode () const
 returns the current node of the sparse matrix. it.node->idx is the current element index
 
SparseMatConstIteratoroperator++ ()
 moves iterator to the next element
 
SparseMatConstIterator operator++ (int)
 moves iterator to the next element
 
SparseMatConstIteratoroperator-- ()
 moves iterator to the previous element
 
SparseMatConstIterator operator-- (int)
 moves iterator to the previous element
 
SparseMatConstIteratoroperator= (const SparseMatConstIterator &it)
 the assignment operator
 
void seekEnd ()
 moves iterator to the element after the last element
 
template<typename _Tp >
const _Tpvalue () const
 template method returning the current matrix element
 

Public Attributes

size_t hashidx
 
const SparseMatm
 
ucharptr
 

Detailed Description

Read-Only Sparse Matrix Iterator.

Here is how to use the iterator to compute the sum of floating-point sparse matrix elements:

SparseMatConstIterator it = m.begin(), it_end = m.end();
double s = 0;
for( ; it != it_end; ++it )
s += it.value<float>();
Read-Only Sparse Matrix Iterator.
Definition mat.hpp:3555
const _Tp & value() const
template method returning the current matrix element
const SparseMat * m
Definition mat.hpp:3584
int type() const
returns type of sparse matrix elements
SparseMatIterator end()
returns the sparse matrix iterator at the matrix end
SparseMatIterator begin()
returns the sparse matrix iterator at the matrix beginning
#define CV_32F
Definition interface.h:59
#define CV_Assert(expr)
Checks a condition at runtime and throws exception if it fails.
Definition exception.hpp:198

Constructor & Destructor Documentation

◆ SparseMatConstIterator() [1/3]

cv::SparseMatConstIterator::SparseMatConstIterator ( )

the default constructor

◆ SparseMatConstIterator() [2/3]

cv::SparseMatConstIterator::SparseMatConstIterator ( const SparseMat * _m)

the full constructor setting the iterator to the first sparse matrix element

◆ SparseMatConstIterator() [3/3]

cv::SparseMatConstIterator::SparseMatConstIterator ( const SparseMatConstIterator & it)

the copy constructor

Member Function Documentation

◆ node()

const SparseMat::Node * cv::SparseMatConstIterator::node ( ) const

returns the current node of the sparse matrix. it.node->idx is the current element index

◆ operator++() [1/2]

SparseMatConstIterator & cv::SparseMatConstIterator::operator++ ( )

moves iterator to the next element

◆ operator++() [2/2]

SparseMatConstIterator cv::SparseMatConstIterator::operator++ ( int )

moves iterator to the next element

◆ operator--() [1/2]

SparseMatConstIterator & cv::SparseMatConstIterator::operator-- ( )

moves iterator to the previous element

◆ operator--() [2/2]

SparseMatConstIterator cv::SparseMatConstIterator::operator-- ( int )

moves iterator to the previous element

◆ operator=()

SparseMatConstIterator & cv::SparseMatConstIterator::operator= ( const SparseMatConstIterator & it)

the assignment operator

◆ seekEnd()

void cv::SparseMatConstIterator::seekEnd ( )

moves iterator to the element after the last element

◆ value()

template<typename _Tp >
const _Tp & cv::SparseMatConstIterator::value ( ) const

template method returning the current matrix element

Member Data Documentation

◆ hashidx

size_t cv::SparseMatConstIterator::hashidx

◆ m

const SparseMat* cv::SparseMatConstIterator::m

◆ ptr

uchar* cv::SparseMatConstIterator::ptr

The documentation for this class was generated from the following file: