sim_cinematique_inverse/labo_ik/IKApplication.h

65 lines
1.4 KiB
C
Raw Normal View History

2024-04-01 17:18:18 -04:00
#pragma once
/**
* @file IKApplication.h
*
* @brief Application class for labo 2.
*
* Nom:
* Code permanent :
* Email :
*
*/
#include <nanogui/window.h>
#include <nanogui/textbox.h>
#include <nanogui/label.h>
#include <nanogui/layout.h>
#include <nanogui/slider.h>
#include <nanogui/screen.h>
#include <nanogui/vscrollpanel.h>
2024-04-01 17:31:21 -04:00
#include <memory>
2024-04-01 17:18:18 -04:00
#include "Armature.h"
#include "LinkUI.h"
#include "TargetUI.h"
#include "IKSolver.h"
#include "Math3D.h"
class IKGLCanvas;
// Iterative closest point algorithm
//
class IKApplication : public nanogui::Screen
{
public:
IKApplication();
virtual bool keyboard_event(int key, int scancode, int action, int modifiers) override;
virtual void draw(NVGcontext *ctx) override;
nanogui::Window* getWindow() { return m_window.get(); }
gti320::Armature* getArmature() const { return m_armature.get(); }
const gti320::Vector3f& getTargetPos() const { return m_targetPos; }
private:
// Reset the source transform and the initial transform.
//
void reset();
void ikSolve();
void initializeArmature();
void initializeTarget();
std::unique_ptr<gti320::IKSolver> m_ikSolver;
std::unique_ptr<IKGLCanvas> m_canvas;
nanogui::ref<nanogui::Window> m_window;
std::vector<LinkUI*> m_linkUIArr;
std::unique_ptr<TargetUI> m_targetUI;
std::unique_ptr<gti320::Armature> m_armature;
gti320::Vector3f m_targetPos;
};