//=============================================================================================================================
//
// EasyAR Sense 3.1.0-final-7bf6504c6
// Copyright (c) 2015-2020 VisionStar Information Technology (Shanghai) Co., Ltd. All Rights Reserved.
// EasyAR is the registered trademark or trademark of VisionStar Information Technology (Shanghai) Co., Ltd in China
// and other countries for the augmented reality technology developed by VisionStar Information Technology (Shanghai) Co., Ltd.
//
//=============================================================================================================================
#ifndef __EASYAR_TARGET_HXX__
#define __EASYAR_TARGET_HXX__
#include "easyar/types.hxx"
#include "easyar/frame.hxx"
namespace easyar {
///
/// Target is the base class for all targets that can be tracked by `ImageTracker`_ or other algorithms inside EasyAR.
///
class Target
{
protected:
easyar_Target * cdata_ ;
void init_cdata(easyar_Target * cdata);
virtual Target & operator=(const Target & data) { return *this; } //deleted
public:
Target(easyar_Target * cdata);
virtual ~Target();
Target(const Target & data);
const easyar_Target * get_cdata() const;
easyar_Target * get_cdata();
///
/// Returns the target id. A target id is a integer number generated at runtime. This id is non-zero and increasing globally.
///
int runtimeID();
///
/// Returns the target uid. A target uid is useful in cloud based algorithms. If no cloud is used, you can set this uid in the json config as a alternative method to distinguish from targets.
///
void uid(/* OUT */ String * * Return);
///
/// Returns the target name. Name is used to distinguish targets in a json file.
///
void name(/* OUT */ String * * Return);
///
/// Set name. It will erase previously set data or data from cloud.
///
void setName(String * name);
///
/// Returns the meta data set by setMetaData. Or, in a cloud returned target, returns the meta data set in the cloud server.
///
void meta(/* OUT */ String * * Return);
///
/// Set meta data. It will erase previously set data or data from cloud.
///
void setMeta(String * data);
};
///
/// TargetInstance is the tracked target by trackers.
/// An TargetInstance contains a raw `Target`_ that is tracked and current status and pose of the `Target`_ .
///
class TargetInstance
{
protected:
easyar_TargetInstance * cdata_ ;
void init_cdata(easyar_TargetInstance * cdata);
virtual TargetInstance & operator=(const TargetInstance & data) { return *this; } //deleted
public:
TargetInstance(easyar_TargetInstance * cdata);
virtual ~TargetInstance();
TargetInstance(const TargetInstance & data);
const easyar_TargetInstance * get_cdata() const;
easyar_TargetInstance * get_cdata();
TargetInstance();
///
/// Returns current status of the tracked target. Usually you can check if the status equals `TargetStatus.Tracked` to determine current status of the target.
///
TargetStatus status();
///
/// Gets the raw target. It will return the same `Target`_ you loaded into a tracker if it was previously loaded into the tracker.
///
void target(/* OUT */ Target * * Return);
///
/// Returns current pose of the tracked target. Camera coordinate system and target coordinate system are all right-handed. For the camera coordinate system, the origin is the optical center, x-right, y-up, and z in the direction of light going into camera. (The right and up, on mobile devices, is the right and up when the device is in the natural orientation.) The data arrangement is row-major, not like OpenGL's column-major.
///
Matrix44F pose();
};
///
/// TargetTrackerResult is the base class of `ImageTrackerResult`_ and `ObjectTrackerResult`_ .
///
class TargetTrackerResult : public FrameFilterResult
{
protected:
easyar_TargetTrackerResult * cdata_ ;
void init_cdata(easyar_TargetTrackerResult * cdata);
virtual TargetTrackerResult & operator=(const TargetTrackerResult & data) { return *this; } //deleted
public:
TargetTrackerResult(easyar_TargetTrackerResult * cdata);
virtual ~TargetTrackerResult();
TargetTrackerResult(const TargetTrackerResult & data);
const easyar_TargetTrackerResult * get_cdata() const;
easyar_TargetTrackerResult * get_cdata();
///
/// Returns the list of `TargetInstance`_ contained in the result.
///
void targetInstances(/* OUT */ ListOfTargetInstance * * Return);
///
/// Sets the list of `TargetInstance`_ contained in the result.
///
void setTargetInstances(ListOfTargetInstance * instances);
static void tryCastFromFrameFilterResult(FrameFilterResult * v, /* OUT */ TargetTrackerResult * * Return);
};
#ifndef __EASYAR_OPTIONALOFTARGET__
#define __EASYAR_OPTIONALOFTARGET__
struct OptionalOfTarget
{
bool has_value;
Target * value;
};
static inline easyar_OptionalOfTarget OptionalOfTarget_to_c(Target * o);
#endif
#ifndef __EASYAR_LISTOFTARGETINSTANCE__
#define __EASYAR_LISTOFTARGETINSTANCE__
class ListOfTargetInstance
{
private:
easyar_ListOfTargetInstance * cdata_;
virtual ListOfTargetInstance & operator=(const ListOfTargetInstance & data) { return *this; } //deleted
public:
ListOfTargetInstance(easyar_ListOfTargetInstance * cdata);
virtual ~ListOfTargetInstance();
ListOfTargetInstance(const ListOfTargetInstance & data);
const easyar_ListOfTargetInstance * get_cdata() const;
easyar_ListOfTargetInstance * get_cdata();
ListOfTargetInstance(easyar_TargetInstance * * begin, easyar_TargetInstance * * end);
int size() const;
TargetInstance * at(int index) const;
};
#endif
}
#endif
#ifndef __IMPLEMENTATION_EASYAR_TARGET_HXX__
#define __IMPLEMENTATION_EASYAR_TARGET_HXX__
#include "easyar/target.h"
#include "easyar/matrix.hxx"
#include "easyar/frame.hxx"
namespace easyar {
inline Target::Target(easyar_Target * cdata)
:
cdata_(NULL)
{
init_cdata(cdata);
}
inline Target::~Target()
{
if (cdata_) {
easyar_Target__dtor(cdata_);
cdata_ = NULL;
}
}
inline Target::Target(const Target & data)
:
cdata_(NULL)
{
easyar_Target * cdata = NULL;
easyar_Target__retain(data.cdata_, &cdata);
init_cdata(cdata);
}
inline const easyar_Target * Target::get_cdata() const
{
return cdata_;
}
inline easyar_Target * Target::get_cdata()
{
return cdata_;
}
inline void Target::init_cdata(easyar_Target * cdata)
{
cdata_ = cdata;
}
inline int Target::runtimeID()
{
if (cdata_ == NULL) {
return int();
}
int _return_value_ = easyar_Target_runtimeID(cdata_);
return _return_value_;
}
inline void Target::uid(/* OUT */ String * * Return)
{
if (cdata_ == NULL) {
*Return = NULL;
return;
}
easyar_String * _return_value_ = NULL;
easyar_Target_uid(cdata_, &_return_value_);
*Return = new String(_return_value_);
}
inline void Target::name(/* OUT */ String * * Return)
{
if (cdata_ == NULL) {
*Return = NULL;
return;
}
easyar_String * _return_value_ = NULL;
easyar_Target_name(cdata_, &_return_value_);
*Return = new String(_return_value_);
}
inline void Target::setName(String * arg0)
{
if (cdata_ == NULL) {
return;
}
easyar_Target_setName(cdata_, arg0->get_cdata());
}
inline void Target::meta(/* OUT */ String * * Return)
{
if (cdata_ == NULL) {
*Return = NULL;
return;
}
easyar_String * _return_value_ = NULL;
easyar_Target_meta(cdata_, &_return_value_);
*Return = new String(_return_value_);
}
inline void Target::setMeta(String * arg0)
{
if (cdata_ == NULL) {
return;
}
easyar_Target_setMeta(cdata_, arg0->get_cdata());
}
inline TargetInstance::TargetInstance(easyar_TargetInstance * cdata)
:
cdata_(NULL)
{
init_cdata(cdata);
}
inline TargetInstance::~TargetInstance()
{
if (cdata_) {
easyar_TargetInstance__dtor(cdata_);
cdata_ = NULL;
}
}
inline TargetInstance::TargetInstance(const TargetInstance & data)
:
cdata_(NULL)
{
easyar_TargetInstance * cdata = NULL;
easyar_TargetInstance__retain(data.cdata_, &cdata);
init_cdata(cdata);
}
inline const easyar_TargetInstance * TargetInstance::get_cdata() const
{
return cdata_;
}
inline easyar_TargetInstance * TargetInstance::get_cdata()
{
return cdata_;
}
inline void TargetInstance::init_cdata(easyar_TargetInstance * cdata)
{
cdata_ = cdata;
}
inline TargetInstance::TargetInstance()
:
cdata_(NULL)
{
easyar_TargetInstance * _return_value_ = NULL;
easyar_TargetInstance__ctor(&_return_value_);
init_cdata(_return_value_);
}
inline TargetStatus TargetInstance::status()
{
if (cdata_ == NULL) {
return TargetStatus();
}
easyar_TargetStatus _return_value_ = easyar_TargetInstance_status(cdata_);
return static_cast(_return_value_);
}
inline void TargetInstance::target(/* OUT */ Target * * Return)
{
if (cdata_ == NULL) {
*Return = NULL;
return;
}
easyar_OptionalOfTarget _return_value_ = {false, NULL};
easyar_TargetInstance_target(cdata_, &_return_value_);
*Return = (_return_value_.has_value ? new Target(_return_value_.value) : NULL);
}
inline Matrix44F TargetInstance::pose()
{
if (cdata_ == NULL) {
return Matrix44F();
}
easyar_Matrix44F _return_value_ = easyar_TargetInstance_pose(cdata_);
return Matrix44F(_return_value_.data[0], _return_value_.data[1], _return_value_.data[2], _return_value_.data[3], _return_value_.data[4], _return_value_.data[5], _return_value_.data[6], _return_value_.data[7], _return_value_.data[8], _return_value_.data[9], _return_value_.data[10], _return_value_.data[11], _return_value_.data[12], _return_value_.data[13], _return_value_.data[14], _return_value_.data[15]);
}
inline TargetTrackerResult::TargetTrackerResult(easyar_TargetTrackerResult * cdata)
:
FrameFilterResult(static_cast(NULL)),
cdata_(NULL)
{
init_cdata(cdata);
}
inline TargetTrackerResult::~TargetTrackerResult()
{
if (cdata_) {
easyar_TargetTrackerResult__dtor(cdata_);
cdata_ = NULL;
}
}
inline TargetTrackerResult::TargetTrackerResult(const TargetTrackerResult & data)
:
FrameFilterResult(static_cast(NULL)),
cdata_(NULL)
{
easyar_TargetTrackerResult * cdata = NULL;
easyar_TargetTrackerResult__retain(data.cdata_, &cdata);
init_cdata(cdata);
}
inline const easyar_TargetTrackerResult * TargetTrackerResult::get_cdata() const
{
return cdata_;
}
inline easyar_TargetTrackerResult * TargetTrackerResult::get_cdata()
{
return cdata_;
}
inline void TargetTrackerResult::init_cdata(easyar_TargetTrackerResult * cdata)
{
cdata_ = cdata;
{
easyar_FrameFilterResult * cdata_inner = NULL;
easyar_castTargetTrackerResultToFrameFilterResult(cdata, &cdata_inner);
FrameFilterResult::init_cdata(cdata_inner);
}
}
inline void TargetTrackerResult::targetInstances(/* OUT */ ListOfTargetInstance * * Return)
{
if (cdata_ == NULL) {
*Return = NULL;
return;
}
easyar_ListOfTargetInstance * _return_value_ = NULL;
easyar_TargetTrackerResult_targetInstances(cdata_, &_return_value_);
*Return = new ListOfTargetInstance(_return_value_);
}
inline void TargetTrackerResult::setTargetInstances(ListOfTargetInstance * arg0)
{
if (cdata_ == NULL) {
return;
}
easyar_TargetTrackerResult_setTargetInstances(cdata_, arg0->get_cdata());
}
inline void TargetTrackerResult::tryCastFromFrameFilterResult(FrameFilterResult * v, /* OUT */ TargetTrackerResult * * Return)
{
if (v == NULL) {
*Return = NULL;
return;
}
easyar_TargetTrackerResult * cdata = NULL;
easyar_tryCastFrameFilterResultToTargetTrackerResult(v->get_cdata(), &cdata);
if (cdata == NULL) {
*Return = NULL;
return;
}
*Return = new TargetTrackerResult(cdata);
}
#ifndef __IMPLEMENTATION_EASYAR_OPTIONALOFTARGET__
#define __IMPLEMENTATION_EASYAR_OPTIONALOFTARGET__
static inline easyar_OptionalOfTarget OptionalOfTarget_to_c(Target * o)
{
if (o != NULL) {
easyar_OptionalOfTarget _return_value_ = {true, o->get_cdata()};
return _return_value_;
} else {
easyar_OptionalOfTarget _return_value_ = {false, NULL};
return _return_value_;
}
}
#endif
#ifndef __IMPLEMENTATION_EASYAR_LISTOFTARGETINSTANCE__
#define __IMPLEMENTATION_EASYAR_LISTOFTARGETINSTANCE__
inline ListOfTargetInstance::ListOfTargetInstance(easyar_ListOfTargetInstance * cdata)
: cdata_(cdata)
{
}
inline ListOfTargetInstance::~ListOfTargetInstance()
{
if (cdata_) {
easyar_ListOfTargetInstance__dtor(cdata_);
cdata_ = NULL;
}
}
inline ListOfTargetInstance::ListOfTargetInstance(const ListOfTargetInstance & data)
: cdata_(static_cast(NULL))
{
easyar_ListOfTargetInstance_copy(data.cdata_, &cdata_);
}
inline const easyar_ListOfTargetInstance * ListOfTargetInstance::get_cdata() const
{
return cdata_;
}
inline easyar_ListOfTargetInstance * ListOfTargetInstance::get_cdata()
{
return cdata_;
}
inline ListOfTargetInstance::ListOfTargetInstance(easyar_TargetInstance * * begin, easyar_TargetInstance * * end)
: cdata_(static_cast(NULL))
{
easyar_ListOfTargetInstance__ctor(begin, end, &cdata_);
}
inline int ListOfTargetInstance::size() const
{
return easyar_ListOfTargetInstance_size(cdata_);
}
inline TargetInstance * ListOfTargetInstance::at(int index) const
{
easyar_TargetInstance * _return_value_ = easyar_ListOfTargetInstance_at(cdata_, index);
easyar_TargetInstance__retain(_return_value_, &_return_value_);
return new TargetInstance(_return_value_);
}
#endif
}
#endif