def main( trjfile: List[Path], trj: bool = typer.Option( False, "-t", help="Calculates the Lindemann-Index for the Trajectory file", ), frames: bool = typer.Option( False, "-f", help="Calculates the Lindemann-Index for each frame." ), atoms: bool = typer.Option( False, "-a", help="Calculates the Lindemann-Index for each atom for each frame.", ), plot: bool = typer.Option( False, "-p", help="Returns a plot Lindemann-Index vs. Frame." ), lammpstrj: bool = typer.Option( False, "-l", help="Saves the individual Lindemann-Index of each Atom in a lammpstrj, so it can be viewed in Ovito.", ), version: bool = typer.Option( None, "-v", "--version", callback=version_callback, is_eager=True, help="Prints the version of the lindemann package.", ), timeit: bool = typer.Option( False, "-ti", "-timeit", help="Uses timeit module to show running time", ), mem_useage: bool = typer.Option( False, "-m", "-mem_use", help="Calculates the memory use. Run it before you use any of the cli functionality despite the -t flag", ), ): """ lindemann is a python package to calculate the Lindemann index of a lammps trajectory as well as the progression of the Lindemann index per frame of temperature ramps for phase transition analysis. """ # frames = read.frames(trjfile) # frames = lindemann.trajectory.read.frames(trjfile) start = time.time() n_cores = len(sched_getaffinity(0)) len_trjfiles = len(trjfile) if len_trjfiles > n_cores: n_cores = n_cores else: n_cores = len_trjfiles if len(trjfile) == 1: single_process = True tjr_frames = read.frames(str(trjfile[0])) else: single_process = False trjfile = [str(trjf) for trjf in trjfile] tjr_frames = [read.frames(tf) for tf in trjfile] if trj and single_process: console.print( f"[magenta]lindemann index for the Trajectory:[/] [bold blue]{per_trj.calculate(tjr_frames)}[/]" ) raise typer.Exit() if trj and not single_process: with Pool(n_cores) as p: console.print(f"Using {n_cores} cores") res = p.map(per_trj.calculate, tjr_frames) console.print(res) raise typer.Exit() if frames and single_process: my_file_name = False if my_file_name: print("not implemented") else: filename = "lindemann_per_frame.txt" np.savetxt(filename, per_frames.calculate(tjr_frames)) console.print( f"[magenta]lindemann index per frame saved as:[/] [bold blue]{filename}[/]" ) raise typer.Exit() else: print("multiprocessing is implemented only for the -t flag") raise typer.Exit() if atoms and single_process: filename = "lindemann_per_atom.txt" np.savetxt(filename, per_atoms.calculate(tjr_frames)) console.print( f"[magenta]lindemann index per atoms saved as:[/] [bold blue]{filename}[/]" ) raise typer.Exit() else: print("multiprocessing is implemented only for the -t flag") raise typer.Exit() if plot and single_process: indices = per_frames.calculate(tjr_frames) console.print( f"[magenta]Saved file as:[/] [bold blue]{plt_plot.lindemann_vs_frames(indices)}[/]" ) raise typer.Exit() else: print("multiprocessing is implemented only for the -t flag") raise typer.Exit() if lammpstrj and single_process: indices_per_atom = per_atoms.calculate(tjr_frames) console.print(f"[magenta]{save.to_lammps(trjfile,indices_per_atom)}[/]") raise typer.Exit() else: print("multiprocessing is implemented only for the -t flag") raise typer.Exit() if timeit and single_process: linde_for_time = per_trj.calculate(tjr_frames) time_diff = time.time() - start console.print( f"[magenta]lindemann index for the Trajectory:[/] [bold blue]{linde_for_time}[/] \n[magenta]Runtime:[/] [bold green]{time_diff}[/]" ) raise typer.Exit() else: print("multiprocessing is implemented only for the -t flag") raise typer.Exit() if mem_useage and single_process: mem_use_in_gb = mem_use.in_gb(tjr_frames) console.print(f"[magenta]memory use:[/] [bold blue]{mem_use_in_gb}[/]") raise typer.Exit() else: print("multiprocessing is implemented only for the -t flag") raise typer.Exit()
def test_frames(trajectory, lindemannindex): """Example test with parametrization.""" frame = read.frames(trajectory) test_array = per_frames.calculate(frame) assert np.round(test_array[-1], 12) == lindemannindex
def test_atoms(trajectory, lindemannindex): """Example test with parametrization.""" frame = read.frames(trajectory) assert ( np.round(np.mean(per_atoms.calculate(frame)[-1]), 12) == lindemannindex )
def test_tra(trajectory, lindemannindex): """Example test with parametrization.""" frame = read.frames(trajectory) assert np.round(per_trj.calculate(frame), 12) == lindemannindex