Jungfraujoch/image_analysis/geom_refinement/XtalOptimizer.h

// SPDX-FileCopyrightText: 2025 Filip Leonarski, Paul Scherrer Institute <filip.leonarski@psi.ch>
// SPDX-License-Identifier: GPL-3.0-only

#ifndef JFJOCH_XTALOPTIMIZER_H
#define JFJOCH_XTALOPTIMIZER_H

#include <optional>

#include "../common/GoniometerAxis.h"
#include "../common/CrystalLattice.h"
#include "../common/DiffractionGeometry.h"
#include "../common/SpotToSave.h"
#include "gemmi/symmetry.hpp"

struct XtalOptimizerData {
    DiffractionGeometry geom;
    CrystalLattice latt;
    gemmi::CrystalSystem crystal_system = gemmi::CrystalSystem::Triclinic;
    int64_t min_spots = 8;

    float min_length_A = 5.0;
    float max_length_A = 500.0;
    float min_angle_deg = 60.0f;
    float max_angle_deg = 120.0f;

    bool refine_beam_center = true;
    bool refine_distance_mm = false;
    bool refine_detector_angles = false;
    bool refine_unit_cell = true; // This refines unit cell size + angles - orientation is always refined
    bool refine_rotation_axis = false;

    bool index_ice_rings = true;

    float max_time = 1.0;

    std::optional<GoniometerAxis> axis;

    // output
    std::optional<double> beam_corr_x;
    std::optional<double> beam_corr_y;
};

void LatticeToRodriguesAndLengths_GS(const CrystalLattice &latt,  double rod[3], double lengths[3]);
void LatticeToRodriguesAndLengths_Hex(const CrystalLattice &latt, double rod[3], double ac[3]);

CrystalLattice AngleAxisAndLengthsToLattice(const double rod[3], const double lengths[3], bool hex = false);

bool XtalOptimizer(XtalOptimizerData &data, const std::vector<SpotToSave> &spots);

#endif //JFJOCH_XTALOPTIMIZER_H