コード例 #1
0
    def edit(self):
        """Modify atoms interactively through ag viewer. 

        Conflicts leading to undesirable behviour might arise
        when matplotlib has been pre-imported with certain
        incompatible backends and while trying to use the
        plot feature inside the interactive ag. To circumvent,
        please set matplotlib.use('gtk') before calling this
        method. 
        """
        from ase.gui.images import Images
        from ase.gui.gui import GUI
        images = Images([self])
        gui = GUI(images)
        gui.run()
        # use atoms returned from gui:
        # (1) delete all currently available atoms
        self.set_constraint()
        for z in range(len(self)):
            self.pop()
        edited_atoms = gui.images.get_atoms(0)
        # (2) extract atoms from edit session
        self.extend(edited_atoms)
        self.set_constraint(edited_atoms._get_constraints())
        self.set_cell(edited_atoms.get_cell())
        self.set_initial_magnetic_moments(edited_atoms.get_magnetic_moments())
        self.set_tags(edited_atoms.get_tags())
        return
コード例 #2
0
ファイル: test_run.py プロジェクト: martin-stoehr/ase-devel
def gui(display):
    orig_ui_error = ui.error
    try:
        ui.error = Error()
        gui = GUI()
        yield gui
        gui.exit()
    finally:
        ui.error = orig_ui_error
コード例 #3
0
ファイル: ag.py プロジェクト: uu1477/MyAse
    def run(opt, args):
        images = Images()

        if opt.aneb:
            opt.image_number = '-1'

        if len(args) > 0:
            from ase.io import string2index
            try:
                images.read(args, string2index(opt.image_number))
            except IOError as e:
                if len(e.args) == 1:
                    parser.error(e.args[0])
                else:
                    parser.error(e.args[1] + ': ' + e.filename)
        else:
            images.initialize([Atoms()])

        if opt.interpolate:
            images.interpolate(opt.interpolate)

        if opt.aneb:
            images.aneb()

        if opt.repeat != '1':
            r = opt.repeat.split(',')
            if len(r) == 1:
                r = 3 * r
            images.repeat_images([int(c) for c in r])

        if opt.radii_scale:
            images.set_radii(opt.radii_scale)

        if opt.output is not None:
            images.write(opt.output,
                         rotations=opt.rotations,
                         show_unit_cell=opt.show_unit_cell)
            opt.terminal = True

        if opt.terminal:
            if opt.graph is not None:
                data = images.graph(opt.graph)
                for line in data.T:
                    for x in line:
                        print(x, end=' ')
                    print()
        else:
            from ase.gui.gui import GUI
            import ase.gui.gtkexcepthook
            ase
            gui = GUI(images, opt.rotations, opt.show_unit_cell, opt.bonds)
            gui.run(opt.graph)
コード例 #4
0
 def show_clusters(self):
     from ase.gui.gui import GUI
     from ase.gui.images import Images
     all_clusters = []
     self.tag_by_probability()
     for uid in range(len(self.gaussians)):
         cluster = self.atoms[self.cluster_id == uid]
         cluster.info = {"name": "Cluster ID: {}".format(uid)}
         all_clusters.append(cluster)
     images = Images()
     images.initialize(all_clusters)
     gui = GUI(images)
     gui.show_name = True
     gui.run()
コード例 #5
0
    def _set_reactive_indexes(self, filename):
        '''
        Manually set the molecule reactive atoms from the ASE GUI, imposing
        constraints on the desired atoms.

        '''
        from ase import Atoms
        from ase.gui.gui import GUI
        from ase.gui.images import Images

        data = read_xyz(filename)
        coords = data.atomcoords[0]
        labels = ''.join([pt[i].symbol for i in data.atomnos])

        atoms = Atoms(labels, positions=coords)

        while atoms.constraints == []:
            print((
                '\nPlease, manually select the reactive atom(s) for molecule %s.'
                '\nRotate with right click and select atoms by clicking. Multiple selections can be done by Ctrl+Click.'
                '\nWith desired atom(s) selected, go to Tools -> Constraints -> Constrain, then close the GUI.'
            ) % (filename))

            GUI(images=Images([atoms]), show_bonds=True).run()

        return list(atoms.constraints[0].get_indices())
コード例 #6
0
ファイル: utils.py プロジェクト: ntampellini/TSCoDe
def ase_view(mol):
    '''
    Display an Hypermolecule instance from the ASE GUI
    '''
    from ase import Atoms
    from ase.gui.gui import GUI
    from ase.gui.images import Images

    if hasattr(mol, 'reactive_atoms_classes_dict'):
        images = []

        for c, coords in enumerate(mol.atomcoords):
            centers = np.vstack([
                atom.center
                for atom in mol.reactive_atoms_classes_dict[c].values()
            ])
            atomnos = np.concatenate((mol.atomnos, [0 for _ in centers]))
            totalcoords = np.concatenate((coords, centers))
            images.append(Atoms(atomnos, positions=totalcoords))

    else:
        images = [
            Atoms(mol.atomnos, positions=coords) for coords in mol.atomcoords
        ]

    try:
        GUI(images=Images(images), show_bonds=True).run()
    except TclError:
        print(
            '--> GUI not available from command line interface. Skipping it.')
コード例 #7
0
    def run(args):
        from ase.gui.images import Images
        from ase.atoms import Atoms

        images = Images()

        if args.filenames:
            images.read(args.filenames, args.image_number)
        else:
            images.initialize([Atoms()])

        if args.interpolate:
            images.interpolate(args.interpolate)

        if args.repeat != '1':
            r = args.repeat.split(',')
            if len(r) == 1:
                r = 3 * r
            images.repeat_images([int(c) for c in r])

        if args.radii_scale:
            images.scale_radii(args.radii_scale)

        if args.output is not None:
            warnings.warn('You should be using "ase convert ..." instead!')
            images.write(args.output, rotations=args.rotations)
            args.terminal = True

        if args.terminal:
            if args.graph is not None:
                data = images.graph(args.graph)
                for line in data.T:
                    for x in line:
                        print(x, end=' ')
                    print()
        else:
            import os
            from ase.gui.gui import GUI

            backend = os.environ.get('MPLBACKEND', '')
            if backend == 'module://ipykernel.pylab.backend_inline':
                # Jupyter should not steal our windows
                del os.environ['MPLBACKEND']

            gui = GUI(images, args.rotations, args.bonds, args.graph)
            gui.run()
コード例 #8
0
ファイル: labeller.py プロジェクト: chrinide/pts
def run(args):
    f1 = ase.io.read(args[0])
    f2 = ase.io.read(args[1])
    i1 = Images([f1])
    i2 = Images([f2])

    gui1 = GUI(i1, '', 1, False)
    gui1.run(None)
    gui2 = GUI(i2, '', 1, False)
    gui2.run(None)
コード例 #9
0
ファイル: ag.py プロジェクト: rosswhitfield/ase
    def run(opt, args):
        images = Images()

        if opt.aneb:
            opt.image_number = '-1'

        if len(args) > 0:
            from ase.io import string2index
            images.read(args, string2index(opt.image_number))
        else:
            images.initialize([Atoms()])

        if opt.interpolate:
            images.interpolate(opt.interpolate)

        if opt.aneb:
            images.aneb()

        if opt.repeat != '1':
            r = opt.repeat.split(',')
            if len(r) == 1:
                r = 3 * r
            images.repeat_images([int(c) for c in r])

        if opt.radii_scale:
            images.set_radii(opt.radii_scale)

        if opt.output is not None:
            images.write(opt.output, rotations=opt.rotations,
                         show_unit_cell=opt.show_unit_cell)
            opt.terminal = True

        if opt.terminal:
            if opt.graph is not None:
                data = images.graph(opt.graph)
                for line in data.T:
                    for x in line:
                        print(x, end=' ')
                    print()
        else:
            from ase.gui.gui import GUI
            import ase.gui.gtkexcepthook
            ase
            gui = GUI(images, opt.rotations, opt.show_unit_cell, opt.bonds)
            gui.run(opt.graph)
コード例 #10
0
ファイル: ag.py プロジェクト: lqcata/ase
    def run(opt, args):
        images = Images()

        if opt.aneb:
            opt.image_number = '-1'

        if len(args) > 0:
            from ase.io import string2index
            images.read(args, string2index(opt.image_number))
        else:
            images.initialize([Atoms()])

        if opt.interpolate:
            images.interpolate(opt.interpolate)

        if opt.aneb:
            images.aneb()

        if opt.repeat != '1':
            r = opt.repeat.split(',')
            if len(r) == 1:
                r = 3 * r
            images.repeat_images([int(c) for c in r])

        if opt.output is not None:
            images.write(opt.output,
                         rotations=opt.rotations,
                         show_unit_cell=opt.show_unit_cell)
            opt.terminal = True

        if opt.terminal:
            if opt.graph is not None:
                data = images.graph(opt.graph)
                for line in data.T:
                    for x in line:
                        print x,
                    print
        else:
            from ase.gui.gui import GUI
            import ase.gui.gtkexcepthook
            gui = GUI(images, opt.rotations, opt.show_unit_cell, opt.bonds)
            gui.run(opt.graph)
コード例 #11
0
ファイル: ag.py プロジェクト: kevinmooreiii/ase
    def run(args):
        from ase.gui.images import Images
        from ase.atoms import Atoms

        images = Images()

        if args.filenames:
            from ase.io import string2index
            images.read(args.filenames, string2index(args.image_number))
        else:
            images.initialize([Atoms()])

        if args.interpolate:
            images.interpolate(args.interpolate)

        if args.repeat != '1':
            r = args.repeat.split(',')
            if len(r) == 1:
                r = 3 * r
            images.repeat_images([int(c) for c in r])

        if args.radii_scale:
            images.set_radii(args.radii_scale)

        if args.output is not None:
            images.write(args.output,
                         rotations=args.rotations,
                         show_unit_cell=args.show_unit_cell)
            args.terminal = True

        if args.terminal:
            if args.graph is not None:
                data = images.graph(args.graph)
                for line in data.T:
                    for x in line:
                        print(x, end=' ')
                    print()
        else:
            from ase.gui.gui import GUI
            gui = GUI(images, args.rotations, args.show_unit_cell, args.bonds)
            gui.run(args.graph)
コード例 #12
0
ファイル: ag.py プロジェクト: rchiechi/QuantumParse
    def run(args):
        from ase.gui.images import Images
        from ase.atoms import Atoms

        images = Images()

        if args.filenames:
            from ase.io import string2index
            images.read(args.filenames, string2index(args.image_number))
        else:
            images.initialize([Atoms()])

        if args.interpolate:
            images.interpolate(args.interpolate)

        if args.repeat != '1':
            r = args.repeat.split(',')
            if len(r) == 1:
                r = 3 * r
            images.repeat_images([int(c) for c in r])

        if args.radii_scale:
            images.set_radii(args.radii_scale)

        if args.output is not None:
            images.write(args.output, rotations=args.rotations,
                         show_unit_cell=args.show_unit_cell)
            args.terminal = True

        if args.terminal:
            if args.graph is not None:
                data = images.graph(args.graph)
                for line in data.T:
                    for x in line:
                        print(x, end=' ')
                    print()
        else:
            from ase.gui.gui import GUI
            gui = GUI(images, args.rotations, args.show_unit_cell, args.bonds)
            gui.run(args.graph)
コード例 #13
0
def show_configs():
    db = dataset.connect(DB_NAME)
    vac_tbl = db[VAC]
    sol_tbl = db[SOL]

    # Find unique runIDs
    ids = sol_tbl.distinct('runID')

    images = []
    for runRes in ids:
        positions = []
        symbols = []
        charges = []
        runID = runRes['runID']
        for item in sol_tbl.find(runID=runID):
            symbols.append(item['symbol'])
            pos = [item['X'], item['Y'], item['Z']]
            positions.append(pos)
            charges.append(None)

        # Extract vacancy positions
        for item in vac_tbl.find(runID=runID):
            e = item['energy']
            charges.append(e)
            pos = [item['X'], item['Y'], item['Z']]
            positions.append(pos)
            symbols.append('X')

        max_charge = max([c for c in charges if c is not None])
        charges = [c - max_charge if c is not None else 0.0 for c in charges]
        images.append(
            Atoms(symbols=symbols, positions=positions, charges=charges))

    from ase.gui.images import Images
    from ase.gui.gui import GUI
    images = Images(images)
    images.covalent_radii[0] = covalent_radii[12]
    gui = GUI(images)
    gui.run()
コード例 #14
0
ファイル: ag.py プロジェクト: nateharms/ase
    def run(args):
        from ase.gui.images import Images
        from ase.atoms import Atoms

        images = Images()

        if args.filenames:
            images.read(args.filenames, args.image_number)
        else:
            images.initialize([Atoms()])

        if args.interpolate:
            images.interpolate(args.interpolate)

        if args.repeat != '1':
            r = args.repeat.split(',')
            if len(r) == 1:
                r = 3 * r
            images.repeat_images([int(c) for c in r])

        if args.radii_scale:
            images.scale_radii(args.radii_scale)

        if args.output is not None:
            warnings.warn('You should be using "ase convert ..." instead!')
            images.write(args.output, rotations=args.rotations)
            args.terminal = True

        if args.terminal:
            if args.graph is not None:
                data = images.graph(args.graph)
                for line in data.T:
                    for x in line:
                        print(x, end=' ')
                    print()
        else:
            from ase.gui.gui import GUI
            gui = GUI(images, args.rotations, args.bonds, args.graph)
            gui.run()
コード例 #15
0
    def _set_leaving_group(self, mol, neighbors_indexes):
        '''
        Manually set the molecule leaving group from the ASE GUI, imposing
        a constraint on the desired atom.

        '''

        if self.leaving_group_index is None:

            from ase import Atoms
            from ase.gui.gui import GUI
            from ase.gui.images import Images

            atoms = Atoms(mol.atomnos, positions=mol.atomcoords[0])

            while True:
                print(('\nPlease, manually select the leaving group atom for molecule %s'
                    '\nbonded to the sp3 reactive atom with index %s.'
                    '\nRotate with right click and select atoms by clicking.'
                    '\nThen go to Tools -> Constraints -> Constrain, and close the GUI.') % (mol.name, self.index))

                GUI(images=Images([atoms]), show_bonds=True).run()
                
                if atoms.constraints != []:
                    if len(list(atoms.constraints[0].get_indices())) == 1:
                        if list(atoms.constraints[0].get_indices())[0] in neighbors_indexes:
                            self.leaving_group_index = list(atoms.constraints[0].get_indices())[0]
                            break
                        else:
                            print('\nSeems that the atom you selected is not bonded to the reactive center or is the reactive atom itself.\nThis is probably an error, please try again.')
                            atoms.constraints = []
                    else:
                        print('\nPlease only select one leaving group atom.')
                        atoms.constraints = []


        return self.others[neighbors_indexes.index(self.leaving_group_index)]
コード例 #16
0
ファイル: run.py プロジェクト: shuchingou/ase
if __name__ == '__main__':
    args = p.parse_args()
else:
    # We are running inside the test framework: ignore sys.args
    args = p.parse_args([])

for name in args.tests or alltests:
    for n in alltests:
        if n.startswith(name):
            name = n
            break
    else:
        1 / 0
    print(name)
    test = globals()[name]
    gui = GUI()

    def f():
        test(gui)
        if not args.pause:
            gui.exit()

    gui.run(test=f)


def window():
    def hello(event=None):
        print('hello', event)

    menu = [('Hi', [ui.MenuItem('_Hello', hello, 'Ctrl+H')]),
            ('Hell_o', [ui.MenuItem('ABC', hello, choices='ABC')])]
コード例 #17
0
ファイル: test_run.py プロジェクト: arosen93/rASE
 def factory(images):
     gui = GUI(images)
     guis.append(gui)
     return gui
コード例 #18
0
        if opt.output is not None:
            images.write(opt.output, rotations=opt.rotations,
                         show_unit_cell=opt.show_unit_cell)
            opt.terminal = True

        if opt.terminal:
            if opt.graph is not None:
                data = images.graph(opt.graph)
                for line in data.T:
                    for x in line:
                        print x,
                    print
        else:
            from ase.gui.gui import GUI
            import ase.gui.gtkexcepthook
            gui = GUI(images, opt.rotations, opt.show_unit_cell, opt.bonds)
            gui.run(opt.graph)

    import traceback

    try:
        run(opt, args)
    except KeyboardInterrupt:
        pass
    except Exception:
        traceback.print_exc()
        print(_("""
An exception occurred!  Please report the issue to
[email protected] - thanks!  Please also report this if
it was a user error, so that a better error message can be provided
next time."""))
コード例 #19
0
ファイル: run.py プロジェクト: rchiechi/QuantumParse
    gui.open(filename='h2o.json')
    save_dialog(gui, 'h2o.cif@-1')


p = argparse.ArgumentParser()
p.add_argument('tests', nargs='*')
p.add_argument('-p', '--pause', action='store_true')

if __name__ == '__main__':
    args = p.parse_args()
else:
    # We are running inside the test framework: ignore sys.args
    args = p.parse_args([])

for name in args.tests or alltests:
    for n in alltests:
        if n.startswith(name):
            name = n
            break
    else:
        1 / 0
    print(name)
    test = globals()[name]
    gui = GUI()

    def f():
        test(gui)
        if not args.pause:
            gui.exit()
    gui.run(test=f)
コード例 #20
0
ファイル: view.py プロジェクト: m-deimel/kmcos
class KMC_ViewBox(threading.Thread, View, Status, FakeUI):
    """The part of the viewer GUI that displays the model's
    current configuration.
    """
    def __init__(self,
                 queue,
                 signal_queue,
                 vbox,
                 window,
                 rotations='',
                 show_unit_cell=True,
                 show_bonds=False):

        threading.Thread.__init__(self)
        self.image_queue = queue
        self.signal_queue = signal_queue
        self.configured = False
        self.ui = FakeUI.__init__(self)
        self.images = Images()
        self.aseGui = GUI()
        #self.aseGui.images.initialize([ase.atoms.Atoms()])
        self.images.initialize([ase.atoms.Atoms()])
        self.killed = False
        self.paused = False

        self.vbox = vbox
        self.window = window

        self.vbox.connect('scroll-event', self.scroll_event)
        self.window.connect('key-press-event', self.on_key_press)
        rotations = '0.0x,0.0y,0.0z'  #[3,3,3]#np.zeros(3)
        self.config = {
            'force_vector_scale': None,
            'velocity_vector_scale': None,
            'swap_mouse': False
        }
        View.__init__(self, rotations)
        Status.__init__(self)
        self.vbox.show()

        if os.name == 'posix':
            self.live_plot = True
        else:
            self.live_plot = False

        #self.drawing_area.realize()
        self.scaleA = 3.0
        self.center = np.array([8, 8, 8])
        #self.set_colors()
        #self.set_coordinates(0)
        self.center = np.array([0, 0, 0])

        self.tofs = get_tof_names()

        # history tracking arrays
        self.times = []
        self.tof_hist = []
        self.occupation_hist = []

        # prepare diagrams
        self.data_plot = plt.figure()
        #plt.xlabel('$t$ in s')
        self.tof_diagram = self.data_plot.add_subplot(211)
        self.tof_diagram.set_yscale('log')
        #self.tof_diagram.get_yaxis().get_major_formatter().set_powerlimits(
        #(3, 3))
        self.tof_plots = []
        for tof in self.tofs:
            self.tof_plots.append(self.tof_diagram.plot([], [], label=tof)[0])

        self.tof_diagram.legend(loc='lower left')
        self.tof_diagram.set_ylabel(
            'TOF in $\mathrm{s}^{-1}\mathrm{site}^{-1}$')
        self.occupation_plots = []
        self.occupation_diagram = self.data_plot.add_subplot(212)
        for species in sorted(settings.representations):
            self.occupation_plots.append(
                self.occupation_diagram.plot([], [], label=species)[0], )
        self.occupation_diagram.legend(loc=2)
        self.occupation_diagram.set_xlabel('$t$ in s')
        self.occupation_diagram.set_ylabel('Coverage')

    def update_vbox(self, atoms):
        """Update the ViewBox."""
        if not self.center.any():
            self.center = atoms.cell.diagonal() * .5
        #self.images = Images([atoms])
        #self.images.filenames = ['kmcos GUI - %s' % settings.model_name]
        #self.set_colors()
        #self.set_coordinates(0)
        #self.set_atoms(atoms)
        self.scale = self.scaleA
        self.aseGui.scale = self.scale
        atoms.center(vacuum=3.0)
        self.aseGui.images.initialize([atoms])
        self.aseGui.images.center()
        self.aseGui.set_frame()
        #self.draw()
        #self.label.set_label('%.3e s (%.3e steps)' % (atoms.kmc_time,
        #                                            atoms.kmc_step))

    def update_plots(self, atoms):
        """Update the coverage and TOF plots."""
        # fetch data piggy-backed on atoms object
        new_time = atoms.kmc_time

        occupations = atoms.occupation.sum(axis=1) / lattice.spuck
        tof_data = atoms.tof_data

        # store locally
        while len(self.times) > getattr(settings, 'hist_length', 30):
            self.tof_hist.pop(0)
            self.times.pop(0)
            self.occupation_hist.pop(0)

        self.times.append(atoms.kmc_time)
        self.tof_hist.append(tof_data)
        self.occupation_hist.append(occupations)

        # plot TOFs
        for i, tof_plot in enumerate(self.tof_plots):
            tof_plot.set_xdata(self.times)
            tof_plot.set_ydata([tof[i] for tof in self.tof_hist])
            self.tof_diagram.set_xlim(self.times[0], self.times[-1])
            self.tof_diagram.set_ylim(
                1e-3, 10 * max([tof[i] for tof in self.tof_hist]))

        # plot occupation
        for i, occupation_plot in enumerate(self.occupation_plots):
            occupation_plot.set_xdata(self.times)
            occupation_plot.set_ydata([occ[i] for occ in self.occupation_hist])
        max_occ = max(occ[i] for occ in self.occupation_hist)
        self.occupation_diagram.set_ylim([0, max(1, max_occ)])
        self.occupation_diagram.set_xlim([self.times[0], self.times[-1]])

        self.data_plot.canvas.draw_idle()
        manager = plt.get_current_fig_manager()
        if hasattr(manager, 'toolbar'):
            toolbar = manager.toolbar
            if hasattr(toolbar, 'set_visible'):
                toolbar.set_visible(False)

        plt.show()

        # [:] is necessary so that it copies the
        # values and doesn't reinitialize the pointer
        self.time = new_time

        return False

    def kill(self):
        self.killed = True

    def run(self):
        time.sleep(1.)
        while not self.killed:
            time.sleep(1)
            if not self.image_queue.empty():
                atoms = self.image_queue.get()
                gobject.idle_add(self.update_vbox, atoms)
                if self.live_plot:
                    gobject.idle_add(self.update_plots, atoms)

    def on_key_press(self, _widget, event):
        """Process key press event on view box."""
        signal_dict = {
            'a': 'ACCUM_RATE_SUMMATION',
            'c': 'COVERAGE',
            'd': 'DOUBLE',
            'h': 'HALVE',
            's': 'SWITCH_SURFACE_PROCESSS_OFF',
            'S': 'SWITCH_SURFACE_PROCESSS_ON',
            'w': 'WRITEOUT',
        }
        if event.string in [' ', 'p']:
            if not self.paused:
                self.signal_queue.put('PAUSE')
                self.paused = True
            else:
                self.signal_queue.put('START')
                self.paused = False
        elif event.string in ['?']:
            for key, command in list(signal_dict.items()):
                print('%4s %s' % (key, command))
        elif event.string in signal_dict:
            self.signal_queue.put(signal_dict.get(event.string, ''))

    def scroll_event(self, _window, event):
        """Zoom in/out when using mouse wheel"""
        x = 1.0
        if event.direction == gtk.gdk.SCROLL_UP:
            x = 1.2
        elif event.direction == gtk.gdk.SCROLL_DOWN:
            x = 1.0 / 1.2
        self._do_zoom(x)

    def _do_zoom(self, x):
        """Utility method for zooming"""
        self.scaleA *= x
        try:
            atoms = self.image_queue.get()
        except Exception as e:
            atoms = ase.atoms.Atoms()
            print(e)
        self.update_vbox(atoms)
コード例 #21
0
ファイル: view.py プロジェクト: m-deimel/kmcos
    def __init__(self,
                 queue,
                 signal_queue,
                 vbox,
                 window,
                 rotations='',
                 show_unit_cell=True,
                 show_bonds=False):

        threading.Thread.__init__(self)
        self.image_queue = queue
        self.signal_queue = signal_queue
        self.configured = False
        self.ui = FakeUI.__init__(self)
        self.images = Images()
        self.aseGui = GUI()
        #self.aseGui.images.initialize([ase.atoms.Atoms()])
        self.images.initialize([ase.atoms.Atoms()])
        self.killed = False
        self.paused = False

        self.vbox = vbox
        self.window = window

        self.vbox.connect('scroll-event', self.scroll_event)
        self.window.connect('key-press-event', self.on_key_press)
        rotations = '0.0x,0.0y,0.0z'  #[3,3,3]#np.zeros(3)
        self.config = {
            'force_vector_scale': None,
            'velocity_vector_scale': None,
            'swap_mouse': False
        }
        View.__init__(self, rotations)
        Status.__init__(self)
        self.vbox.show()

        if os.name == 'posix':
            self.live_plot = True
        else:
            self.live_plot = False

        #self.drawing_area.realize()
        self.scaleA = 3.0
        self.center = np.array([8, 8, 8])
        #self.set_colors()
        #self.set_coordinates(0)
        self.center = np.array([0, 0, 0])

        self.tofs = get_tof_names()

        # history tracking arrays
        self.times = []
        self.tof_hist = []
        self.occupation_hist = []

        # prepare diagrams
        self.data_plot = plt.figure()
        #plt.xlabel('$t$ in s')
        self.tof_diagram = self.data_plot.add_subplot(211)
        self.tof_diagram.set_yscale('log')
        #self.tof_diagram.get_yaxis().get_major_formatter().set_powerlimits(
        #(3, 3))
        self.tof_plots = []
        for tof in self.tofs:
            self.tof_plots.append(self.tof_diagram.plot([], [], label=tof)[0])

        self.tof_diagram.legend(loc='lower left')
        self.tof_diagram.set_ylabel(
            'TOF in $\mathrm{s}^{-1}\mathrm{site}^{-1}$')
        self.occupation_plots = []
        self.occupation_diagram = self.data_plot.add_subplot(212)
        for species in sorted(settings.representations):
            self.occupation_plots.append(
                self.occupation_diagram.plot([], [], label=species)[0], )
        self.occupation_diagram.legend(loc=2)
        self.occupation_diagram.set_xlabel('$t$ in s')
        self.occupation_diagram.set_ylabel('Coverage')
コード例 #22
0
ファイル: ag.py プロジェクト: PHOTOX/fuase
        if opt.output is not None:
            images.write(opt.output, rotations=opt.rotations,
                         show_unit_cell=opt.show_unit_cell)
            opt.terminal = True

        if opt.terminal:
            if opt.graph is not None:
                data = images.graph(opt.graph)
                for line in data.T:
                    for x in line:
                        print x,
                    print
        else:
            from ase.gui.gui import GUI
            import ase.gui.gtkexcepthook
            gui = GUI(images, opt.rotations, opt.show_unit_cell, opt.bonds)
            gui.run(opt.graph)

    import traceback

    try:
        run(opt, args)
    except KeyboardInterrupt:
        pass
    except Exception:
        traceback.print_exc()
        print(_("""
An exception occurred!  Please report the issue to
[email protected] - thanks!  Please also report this if
it was a user error, so that a better error message can be provided
next time."""))