Zivid C++ API 2.18.0+1b44dbef-1
Zivid::CameraHealth::InfieldVerification Class Reference

The status of the camera's most recent infield verification. More...

#include <Zivid/CameraHealth.h>

Classes

class  Status
 Severity of the infield verification check. More...
class  Value
 Time of the most recent infield verification. More...

Public Types

using Descendants

Public Member Functions

 InfieldVerification ()
 Default constructor.
template<typename... Args>
 InfieldVerification (Args &&...args)
 Constructor taking variadic number of arguments.
template<typename... Args>
void set (Args &&...args)
 Set multiple arguments.
template<typename... Args>
InfieldVerification copyWith (Args &&...args) const
 Returns a copy of this object with the given argument(s) set to the new value(s)
const Statusstatus () const
 Get Status.
Statusstatus ()
 Get Status.
InfieldVerificationset (const Status &value)
 Set Status.
const Valuevalue () const
 Get Value.
Valuevalue ()
 Get Value.
InfieldVerificationset (const Value &value)
 Set Value.
template<typename T, typename std::enable_if< std::is_same< T, CameraHealth::InfieldVerification::Status >::value, int >::type = 0>
const CameraHealth::InfieldVerification::Statusget () const
template<typename T, typename std::enable_if< std::is_same< T, CameraHealth::InfieldVerification::Value >::value, int >::type = 0>
const CameraHealth::InfieldVerification::Valueget () const
template<size_t i, typename std::enable_if< i==0, int >::type = 0>
const CameraHealth::InfieldVerification::Statusget () const
template<size_t i, typename std::enable_if< i==1, int >::type = 0>
const CameraHealth::InfieldVerification::Valueget () const
template<typename F>
void forEach (const F &f) const
 Run the given function on each direct member with the value of the member as parameter.
template<typename F>
void forEach (const F &f)
 Run the given function on each direct member with the value of the member as parameter.
bool operator== (const InfieldVerification &other) const
 Equality operator.
bool operator!= (const InfieldVerification &other) const
 Inequality operator.
std::string toString () const
 Get the value as string.

Static Public Attributes

static constexpr DataModel::NodeType nodeType = DataModel::NodeType::group
 The type of this node.
static constexpr const char * path { "InfieldVerification" }
 The full path for this value.
static constexpr const char * name { "InfieldVerification" }
 The name of this value.
static constexpr const char * description
 The description for this value.

Friends

struct DataModel::Detail::Befriend< InfieldVerification >
std::ostream & operator<< (std::ostream &stream, const InfieldVerification &value)
 Operator to send the value as string to a stream.

Detailed Description

The status of the camera's most recent infield verification.

  • OK: Last verification performed within the past year
  • Suboptimal: Last verification older than one year
  • Unknown: Camera has never been verified in the field

Member Typedef Documentation

◆ Descendants

Initial value:
std::tuple<CameraHealth::InfieldVerification::Status, CameraHealth::InfieldVerification::Value>

Constructor & Destructor Documentation

◆ InfieldVerification() [1/2]

Zivid::CameraHealth::InfieldVerification::InfieldVerification ( )

Default constructor.

◆ InfieldVerification() [2/2]

template<typename... Args>
Zivid::CameraHealth::InfieldVerification::InfieldVerification ( Args &&... args)
inlineexplicit

Constructor taking variadic number of arguments.

One or more descendant types can be provided. All types not provided will be set to their default value. The result is the same as default constructing InfieldVerification then invoking set(args).

The provided arguments must be descendants of InfieldVerification. These types can be provided:

Member Function Documentation

◆ copyWith()

template<typename... Args>
InfieldVerification Zivid::CameraHealth::InfieldVerification::copyWith ( Args &&... args) const
inline

Returns a copy of this object with the given argument(s) set to the new value(s)

Creates a copy of this InfieldVerification object, then invokes set(args) on the copy, and finally returns the copy. This method does not modify the original object.

The provided arguments must be descendants of InfieldVerification. These types can be provided:

◆ forEach() [1/2]

template<typename F>
void Zivid::CameraHealth::InfieldVerification::forEach ( const F & f)
inline

Run the given function on each direct member with the value of the member as parameter.

◆ forEach() [2/2]

template<typename F>
void Zivid::CameraHealth::InfieldVerification::forEach ( const F & f) const
inline

Run the given function on each direct member with the value of the member as parameter.

◆ get() [1/4]

template<typename T, typename std::enable_if< std::is_same< T, CameraHealth::InfieldVerification::Status >::value, int >::type = 0>
const CameraHealth::InfieldVerification::Status & Zivid::CameraHealth::InfieldVerification::get ( ) const
inline

◆ get() [2/4]

template<typename T, typename std::enable_if< std::is_same< T, CameraHealth::InfieldVerification::Value >::value, int >::type = 0>
const CameraHealth::InfieldVerification::Value & Zivid::CameraHealth::InfieldVerification::get ( ) const
inline

◆ get() [3/4]

template<size_t i, typename std::enable_if< i==0, int >::type = 0>
const CameraHealth::InfieldVerification::Status & Zivid::CameraHealth::InfieldVerification::get ( ) const
inline

◆ get() [4/4]

template<size_t i, typename std::enable_if< i==1, int >::type = 0>
const CameraHealth::InfieldVerification::Value & Zivid::CameraHealth::InfieldVerification::get ( ) const
inline

◆ operator!=()

bool Zivid::CameraHealth::InfieldVerification::operator!= ( const InfieldVerification & other) const

Inequality operator.

◆ operator==()

bool Zivid::CameraHealth::InfieldVerification::operator== ( const InfieldVerification & other) const

Equality operator.

◆ set() [1/3]

template<typename... Args>
void Zivid::CameraHealth::InfieldVerification::set ( Args &&... args)
inline

Set multiple arguments.

The method invokes set(arg) with each of the provided arguments.

The provided arguments must be descendants of InfieldVerification. These types can be provided:

◆ set() [2/3]

InfieldVerification & Zivid::CameraHealth::InfieldVerification::set ( const Status & value)
inline

Set Status.

◆ set() [3/3]

InfieldVerification & Zivid::CameraHealth::InfieldVerification::set ( const Value & value)
inline

Set Value.

◆ status() [1/2]

Status & Zivid::CameraHealth::InfieldVerification::status ( )
inline

Get Status.

◆ status() [2/2]

const Status & Zivid::CameraHealth::InfieldVerification::status ( ) const
inline

Get Status.

◆ toString()

std::string Zivid::CameraHealth::InfieldVerification::toString ( ) const

Get the value as string.

◆ value() [1/2]

Value & Zivid::CameraHealth::InfieldVerification::value ( )
inline

Get Value.

◆ value() [2/2]

const Value & Zivid::CameraHealth::InfieldVerification::value ( ) const
inline

Get Value.

◆ DataModel::Detail::Befriend< InfieldVerification >

friend struct DataModel::Detail::Befriend< InfieldVerification >
friend

◆ operator<<

std::ostream & operator<< ( std::ostream & stream,
const InfieldVerification & value )
friend

Operator to send the value as string to a stream.

Member Data Documentation

◆ description

const char* Zivid::CameraHealth::InfieldVerification::description
staticconstexpr
Initial value:
{
R"description(The status of the camera's most recent infield verification.
- OK: Last verification performed within the past year
- Suboptimal: Last verification older than one year
- Unknown: Camera has never been verified in the field
)description"
}

The description for this value.

◆ name

const char* Zivid::CameraHealth::InfieldVerification::name { "InfieldVerification" }
staticconstexpr

The name of this value.

◆ nodeType

DataModel::NodeType Zivid::CameraHealth::InfieldVerification::nodeType = DataModel::NodeType::group
staticconstexpr

The type of this node.

◆ path

const char* Zivid::CameraHealth::InfieldVerification::path { "InfieldVerification" }
staticconstexpr

The full path for this value.


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