#include "Geant/Solid.h"
#include "Vtk/HEP/Geant/vtkGeantEvent.h"
#include "HEP/Geant/Scene.h"
#include "HEP/Geant/EmitterPrimary.hh"
#include "Vtk/Math/vtkContainerBox.h"
#include "Vtk/Math/vtkDense.h"
#include "Math/Units.h"
#include "Vtk/uLibVtkViewer.h"
#include "Vtk/HEP/Geant/vtkGeantEvent.h"
#include "Vtk/HEP/Geant/vtkEmitterPrimary.h"
#include "Vtk/Math/vtkContainerBox.h"
#include "Vtk/HEP/Detectors/vtkDetectorChamber.h"
#include "Vtk/HEP/Detectors/vtkDetectorChamber.h"

#include <vtkSmartPointer.h>
#include <vtkCallbackCommand.h>
#include <vtkRenderWindowInteractor.h>
#include <vtkProperty.h>
#include <vtkRenderer.h>
#include <vtkRenderWindow.h>

#include <Geant4/Randomize.hh>
#include <Geant4/G4ParticleGun.hh>
#include <Geant4/G4SystemOfUnits.hh>

#include <iostream>

using namespace uLib;

struct AppState {
    Geant::Scene* scene;
    Vtk::Viewer* viewer;
    Vector<Geant::GeantEvent> results;
};

void KeyPressCallbackFunction(vtkObject* caller, long unsigned int eventId, void* clientData, void* callData) {
    auto* interactor = static_cast<vtkRenderWindowInteractor*>(caller);
    auto* state = static_cast<AppState*>(clientData);
    
    std::string key = interactor->GetKeySym();
    if (key == "Return") {
        std::cout << "--> Firing muon from sky plane emitter..." << std::endl;
        
        // Run one event
        state->scene->RunSimulation(1, state->results);
        
        if (!state->results.empty()) {
            Geant::GeantEvent* lastEvent = &state->results.back();
            std::cout << "    Collected event " << lastEvent->GetEventID() 
                      << " with " << lastEvent->Path().size() << " steps." << std::endl;
                      
            Vtk::GeantEvent* vtkEvent = new Vtk::GeantEvent(lastEvent);
            state->viewer->AddProp3D(*vtkEvent);
            
            state->viewer->GetRenderer()->Render();
            state->viewer->GetRenderWindow()->Render();
        }
        else {
            std::cout << "    No event collected." << std::endl;
        }
    }
}

int main(int argc, char** argv) {
    // 1. Setup Geant4 Scene
    Geant::Scene scene;
    scene.ConstructWorldBox(Vector3f(30_m, 30_m, 30_m), "G4_AIR");

    ContainerBox iron_box;
    iron_box.Scale(Vector3f(18_m, 18_m, 18_m));
    iron_box.SetPosition(Vector3f(-9_m, -9_m, -9_m));
    Geant::BoxSolid* iron_cube = new Geant::BoxSolid("IronCube", &iron_box);
    iron_cube->SetNistMaterial("G4_Fe");
    iron_cube->Update();
    scene.AddSolid(iron_cube);

    // Top Detector Chamber (along Y axis)
    DetectorChamber* top_chamber_box = new DetectorChamber();
    top_chamber_box->Scale(Vector3f(20_m, 40_cm, 20_m));
    top_chamber_box->Rotate(90_deg, Vector3f(1, 0, 0));
    top_chamber_box->SetPosition(Vector3f(-10_m, 12_m, -10_m));
    Geant::BoxSolid* top_chamber = new Geant::BoxSolid("TopChamber", top_chamber_box);
    top_chamber->SetNistMaterial("G4_AIR");
    top_chamber->Update();
    scene.AddSolid(top_chamber);

    // Bottom Detector Chamber (along Y axis)
    DetectorChamber* bottom_chamber_box = new DetectorChamber();
    bottom_chamber_box->Scale(Vector3f(20_m, 40_cm, 20_m));
    bottom_chamber_box->Rotate(90_deg, Vector3f(1, 0, 0));
    bottom_chamber_box->SetPosition(Vector3f(-10_m, -12_m, -10_m));
    Geant::BoxSolid* bottom_chamber = new Geant::BoxSolid("BottomChamber", bottom_chamber_box);
    bottom_chamber->SetNistMaterial("G4_AIR");
    bottom_chamber->Update();
    scene.AddSolid(bottom_chamber);

    // Use SkyPlaneEmitterPrimary instead of EmitterPrimary
    Geant::SkyPlaneEmitterPrimary* emitter = new Geant::SkyPlaneEmitterPrimary();
    emitter->SetPosition(Vector3f(0, 14.9_m, 0));
    emitter->Rotate(-90_deg, Vector3f(1, 0, 0));
    emitter->SetSkySize(Vector2f(20_m, 20_m)); // 10m x 10m plane
    
    scene.SetEmitter(emitter);
    scene.Initialize();

    // 2. Setup VTK Viewer
    Vtk::Viewer viewer;
    viewer.GetRenderer()->SetBackground(0.05, 0.05, 0.1);
    
    Vtk::ContainerBox* vtkWorld = new Vtk::ContainerBox(scene.GetWorldBox());
    vtkWorld->ShowScaleMeasures(true);
    vtkWorld->SetRepresentation(Vtk::Prop3D::Wireframe);
    vtkWorld->SetSelectable(false);
    viewer.AddProp3D(*vtkWorld);
    
    Vtk::ContainerBox* vtkIron = new Vtk::ContainerBox(&iron_box);
    vtkIron->SetOpacity(0.2);
    vtkIron->SetRepresentation(Vtk::Prop3D::Surface);
    viewer.AddProp3D(*vtkIron);

    // Visualize Top Chamber
    Vtk::DetectorChamber* vtkTop = new Vtk::DetectorChamber(top_chamber_box);
    vtkTop->SetOpacity(0.5);
    vtkTop->SetColor(0.2, 0.8, 0.2);
    vtkTop->SetRepresentation(Vtk::Prop3D::Surface);
    viewer.AddProp3D(*vtkTop);

    // Visualize Bottom Chamber
    Vtk::DetectorChamber* vtkBottom = new Vtk::DetectorChamber(bottom_chamber_box);
    vtkBottom->SetOpacity(0.5);
    vtkBottom->SetColor(0.2, 0.8, 0.2);
    vtkBottom->SetRepresentation(Vtk::Prop3D::Surface);
    viewer.AddProp3D(*vtkBottom);

    // Use vtkSkyPlaneEmitterPrimary instead of EmitterPrimary
    Vtk::vtkSkyPlaneEmitterPrimary* vtkEmitter = new Vtk::vtkSkyPlaneEmitterPrimary(*emitter);
    vtkEmitter->SetSelectable(false);
    viewer.AddProp3D(*vtkEmitter);
    
    // 3. Event Handling
    AppState state = { &scene, &viewer, {} };
    
    vtkSmartPointer<vtkCallbackCommand> keyCallback = vtkSmartPointer<vtkCallbackCommand>::New();
    keyCallback->SetCallback(KeyPressCallbackFunction);
    keyCallback->SetClientData(&state);
    
    viewer.GetInteractor()->AddObserver(vtkCommand::KeyPressEvent, keyCallback);

    std::cout << "=================================================" << std::endl;
    std::cout << " Sky Plane Emitter Interactive Test" << std::endl;
    std::cout << " Use the Widget to move/rotate the Plane (Emitter)" << std::endl;
    std::cout << " Visualize the generation area (blue plane)" << std::endl;
    std::cout << " Press [ENTER] to fire a muon using EcoMug" << std::endl;
    std::cout << " Press [q] to exit" << std::endl;
    std::cout << "=================================================" << std::endl;

    viewer.ZoomAuto();
    viewer.Start();

    return 0;
}