import numpy as np import mdevaluate as md import mdevaluate.extra.free_energy_landscape as fel data_dir = "/data/skloth/python_packages/mdevaluate_examples/plots" path_to_sim = ( "/data/skloth/sim/silica_pore/tip4p2005/D3_L6_S4.9_R0/T300_isochor/T250_nvt_long" ) trajectory = md.open(path_to_sim, topology="run.tpr", trajectory="out/traj_full.xtc") OW = trajectory.subset(atom_name="OW") box = np.diag(trajectory[0].box) box_voxels = (box // [0.05, 0.05, 0.05] + [1, 1, 1]) * [0.05, 0.05, 0.05] occupation_matrix = fel.occupation_matrix(OW, skip=0, segments=len(OW)) maxima_matrix = fel.find_maxima(occupation_matrix, box=box_voxels, edge_length=0.05) maxima_matrix = fel.add_distances(maxima_matrix, "cylindrical", box / 2) r_bins = np.arange(0, 2, 0.02) distance_bins = np.arange(0.05, 1.55, 0.1) energy_df = fel.distance_resolved_energies( maxima_matrix, distance_bins, r_bins, box, 225 ) result = fel.find_energy_maxima(energy_df, r_min=0.05, r_max=0.15)