OpenCV  3.2.0
Open Source Computer Vision
Public Types | List of all members
cv::DataType< _Tp > Class Template Reference

Template "trait" class for OpenCV primitive data types. More...

#include "traits.hpp"

Public Types

enum  {
  generic_type = 1,
  depth = -1,
  channels = 1,
  fmt = 0,
  type = CV_MAKETYPE(depth, channels)
typedef value_type channel_type
typedef _Tp value_type
typedef value_type vec_type
typedef value_type work_type

Detailed Description

template<typename _Tp>
class cv::DataType< _Tp >

Template "trait" class for OpenCV primitive data types.

A primitive OpenCV data type is one of unsigned char, bool, signed char, unsigned short, signed short, int, float, double, or a tuple of values of one of these types, where all the values in the tuple have the same type. Any primitive type from the list can be defined by an identifier in the form CV_<bit-depth>{U|S|F}C(<number_of_channels>), for example: uchar CV_8UC1, 3-element floating-point tuple CV_32FC3, and so on. A universal OpenCV structure that is able to store a single instance of such a primitive data type is Vec. Multiple instances of such a type can be stored in a std::vector, Mat, Mat_, SparseMat, SparseMat_, or any other container that is able to store Vec instances.

The DataType class is basically used to provide a description of such primitive data types without adding any fields or methods to the corresponding classes (and it is actually impossible to add anything to primitive C/C++ data types). This technique is known in C++ as class traits. It is not DataType itself that is used but its specialized versions, such as:

template<> class DataType<uchar>
typedef uchar value_type;
typedef int work_type;
enum { channel_type = CV_8U, channels = 1, fmt='u', type = CV_8U };
template<typename _Tp> DataType<std::complex<_Tp> >
typedef std::complex<_Tp> value_type;
typedef std::complex<_Tp> work_type;
typedef _Tp channel_type;
// DataDepth is another helper trait class
type=CV_MAKETYPE(depth, channels) };

The main purpose of this class is to convert compilation-time type information to an OpenCV-compatible data type identifier, for example:

// allocates a 30x40 floating-point matrix
Mat A(30, 40, DataType<float>::type);
Mat B = Mat_<std::complex<double> >(3, 3);
// the statement below will print 6, 2 , that is depth == CV_64F, channels == 2
cout << B.depth() << ", " << B.channels() << endl;

So, such traits are used to tell OpenCV which data type you are working with, even if such a type is not native to OpenCV. For example, the matrix B initialization above is compiled because OpenCV defines the proper specialized template class DataType<complex<_Tp> > . This mechanism is also useful (and used in OpenCV this way) for generic algorithms implementations.

Member Typedef Documentation

§ channel_type

template<typename _Tp>
typedef value_type cv::DataType< _Tp >::channel_type

§ value_type

template<typename _Tp>
typedef _Tp cv::DataType< _Tp >::value_type

§ vec_type

template<typename _Tp>
typedef value_type cv::DataType< _Tp >::vec_type

§ work_type

template<typename _Tp>
typedef value_type cv::DataType< _Tp >::work_type

Member Enumeration Documentation

§ anonymous enum

template<typename _Tp>
anonymous enum

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