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/usr/share/pyshared/ase/gui/render.py is in python-ase 3.6.0.2515-1.1.

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The actual contents of the file can be viewed below.

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#!/usr/bin/env python
import gtk
from gettext import gettext as _
from ase.gui.widgets import pack, Help, oops
from ase.io.pov import write_pov
from ase.gui.status import formula
from os.path import basename
from os import system
import numpy as np

class Render(gtk.Window):
    finish_list = ['ase2','ase3','glass','simple','pale','intermediate','vmd','jmol']
    cameras = ['orthographic','perspective','ultra_wide_angle']
    selection_info_txt = _("""\
    Textures can be used to highlight different parts of
    an atomic structure. This window applies the default
    texture to the entire structure and optionally
    applies a different texture to subsets of atoms that
    can be selected using the mouse.
    An alternative selection method is based on a boolean
    expression in the entry box provided, using the
    variables x, y, z, or Z. For example, the expression
    Z == 11 and x > 10 and y > 10 
    will mark all sodium atoms with x or coordinates 
    larger than 10. In either case, the button labeled
    `Create new texture from selection` will enable
    to change the attributes of the current selection. 
    """)
    def __init__(self, gui):
        self.gui = gui
        gtk.Window.__init__(self)
        self.set_title(_('Render current view in povray ... '))
        vbox = gtk.VBox()
        vbox.set_border_width(5)
        self.natoms = self.gui.images.natoms
        pack(vbox, [gtk.Label(_("Rendering %d atoms.") % self.natoms)])
        self.size = [gtk.Adjustment(self.gui.width, 1, 9999, 50),
                     gtk.Adjustment(self.gui.height, 1, 9999, 50)]
        self.width = gtk.SpinButton(self.size[0], 0, 0)
        self.height = gtk.SpinButton(self.size[1], 0, 0)
        self.render_constraints = gtk.CheckButton(_("Render constraints"))
        self.render_constraints.set_sensitive(not self.gui.images.dynamic.all())
        self.render_constraints.connect("toggled",self.toggle_render_lines)
        pack(vbox, [gtk.Label(_("Width")), self.width,
                    gtk.Label(_("     Height")), self.height,
                    gtk.Label("       "),self.render_constraints])
        self.width.connect('value-changed',self.change_width,"")
        self.height.connect('value-changed',self.change_height,"")
        self.sizeratio = gui.width/float(gui.height)
        self.line_width = gtk.SpinButton(gtk.Adjustment(0.07,0.01,9.99,0.01), 0, 0)
        self.line_width.set_digits(3)
        self.render_cell = gtk.CheckButton(_("Render unit cell"))
        if self.gui.ui.get_widget('/MenuBar/ViewMenu/ShowUnitCell').get_active():
            self.render_cell.set_active(True)
        else:
            self.render_cell.set_active(False)
            self.render_cell.set_sensitive(False)
        self.render_cell.connect("toggled",self.toggle_render_lines)
        have_lines = (not self.gui.images.dynamic.all()) or self.render_cell.get_active()
        self.line_width.set_sensitive(have_lines)
        pack(vbox, [gtk.Label(_("Line width")),
                    self.line_width,
                    gtk.Label(_("Angstrom           ")),
                    self.render_cell])
        pack(vbox, [gtk.Label("")])
        filename = gui.window.get_title()
        len_suffix = len(filename.split('.')[-1])+1
        if len(filename) > len_suffix:
            filename = filename[:-len_suffix]
        self.basename = gtk.Entry(max = 30)
        self.basename.connect("activate",self.set_outputname,"")
        self.basename.set_text(basename(filename))
        set_name = gtk.Button(_("Set"))
        set_name.connect("clicked",self.set_outputname,"")
        pack(vbox,[gtk.Label(_("Output basename: ")), self.basename,set_name])
        self.outputname = gtk.Label("")
        pack(vbox,[gtk.Label(_("               Filename: ")),self.outputname])
        pack(vbox,[gtk.Label("")])
        self.tbox = gtk.VBox()
        self.tbox.set_border_width(10)
        self.default_texture = gtk.combo_box_new_text()
        for t in self.finish_list:
            self.default_texture.append_text(t)
        self.default_texture.set_active(1)
        self.default_transparency = gtk.Adjustment(0,0.0,1.0,0.01)
        self.transparency = gtk.SpinButton(self.default_transparency, 0, 0)
        self.transparency.set_digits(2)
        pack(self.tbox,[gtk.Label(_(" Default texture for atoms: ")), self.default_texture,
                        gtk.Label(_("    transparency: ")),self.transparency])
        pack(self.tbox,[gtk.Label(_("Define atom selection for new texture:"))])
        self.texture_selection = gtk.Entry(max = 50)
        self.texture_select_but = gtk.Button(_("Select"))
        self.texture_selection.connect("activate",self.select_texture,"")
        self.texture_select_but.connect("clicked",self.select_texture,"")
        pack(self.tbox,[self.texture_selection, self.texture_select_but])
        self.create_texture = gtk.Button(_("Create new texture from selection"))
        self.create_texture.connect("clicked",self.material_from_selection,"")
        self.selection_help_but = gtk.Button(_("Help on textures"))
        self.selection_help_but.connect("clicked",self.selection_help,"")
        self.materials = []
        pack(self.tbox,[self.create_texture,
                        gtk.Label("       "), self.selection_help_but])
        pack(vbox,[self.tbox])
        pack(vbox,[gtk.Label("")])
        self.camera_style = gtk.combo_box_new_text()
        for c in self.cameras:
            self.camera_style.append_text(c)
        self.camera_style.set_active(0)
        self.camera_distance = gtk.SpinButton(gtk.Adjustment(50.0,-99.0,99.0,1.0), 0, 0)
        self.camera_distance.set_digits(1)
        pack(vbox,[gtk.Label(_("Camera type: ")),self.camera_style,
                   gtk.Label(_("     Camera distance")),self.camera_distance])
        self.single_frame = gtk.RadioButton(None,_("Render current frame"))
        self.nimages = self.gui.images.nimages
        self.iframe = self.gui.frame
        self.movie = gtk.RadioButton(self.single_frame,
                                     _("Render all %d frames") % self.nimages)
        self.movie.connect("toggled",self.set_movie)
        self.movie.set_sensitive(self.nimages > 1)
        self.set_outputname()
        pack(vbox,[self.single_frame,gtk.Label("   "),self.movie])
        self.transparent = gtk.CheckButton(_("Transparent background"))
        self.transparent.set_active(True)
        pack(vbox,[self.transparent])
        self.run_povray = gtk.CheckButton(_("Run povray       "))
        self.run_povray.set_active(True)
        self.run_povray.connect("toggled",self.toggle_run_povray,"")
        self.keep_files = gtk.CheckButton(_("Keep povray files       "))
        self.keep_files.set_active(False)
        self.keep_files_status = True
        self.window_open = gtk.CheckButton(_("Show output window"))
        self.window_open.set_active(True)
        self.window_open_status = True 
        pack(vbox,[self.run_povray,self.keep_files,self.window_open])
        pack(vbox,[gtk.Label("")])
        cancel_but = gtk.Button(stock=gtk.STOCK_CANCEL)
        cancel_but.connect('clicked', lambda widget: self.destroy())
        ok_but = gtk.Button(stock=gtk.STOCK_OK)
        ok_but.connect('clicked', self.ok)
        close_but = gtk.Button(stock=gtk.STOCK_CLOSE)
        close_but.connect('clicked', lambda widget: self.destroy())
        butbox = gtk.HButtonBox()
        butbox.pack_start(cancel_but, 0, 0)
        butbox.pack_start(ok_but, 0, 0)
        butbox.pack_start(close_but, 0, 0)
        butbox.show_all()
        pack(vbox, [butbox], end=True, bottom=True)
        self.add(vbox)
        vbox.show()
        self.show()

    def change_width(self, *args):
        self.height.set_value(self.width.get_value()*self.gui.height/float(self.gui.width))

    def change_height(self, *args):
        self.width.set_value(self.height.get_value()*self.gui.width/float(self.gui.height))

    def toggle_render_lines(self, *args):
        self.line_width.set_sensitive(self.render_cell.get_active()
                                      or self.render_constraints.get_active())

    def set_outputname(self, *args):
        movie_index = ''
        self.iframe = self.gui.frame
        if self.movie.get_active():
            while len(movie_index) + len(str(self.iframe)) <  len(str(self.nimages)):
                movie_index += '0'
            movie_index = '.' + movie_index + str(self.iframe)
        name = self.basename.get_text() + movie_index + '.pov'
        self.outputname.set_text(name)

    def get_selection(self):
        selection = np.zeros(self.natoms, bool)
        text = self.texture_selection.get_text()
        if len(self.texture_selection.get_text()) == 0:
            text = 'False'
        code = compile(text,'render.py', 'eval')
        for n in range(self.natoms):
            Z = self.gui.images.Z[n]
            x, y, z = self.gui.images.P[self.iframe][n]
            selection[n] = eval(code)
        return selection

    def select_texture(self,*args):
        self.iframe = self.gui.frame
        self.gui.images.selected = self.get_selection()
        self.gui.set_frame(self.iframe)

    def material_from_selection(self,*args):
        box_selection = self.get_selection()
        selection = self.gui.images.selected.copy()
        if selection.any():
            Z = []
            for n in range(len(selection)):
                if selection[n]:
                    Z += [self.gui.images.Z[n]]
            name = formula(Z)
            if (box_selection == selection).all():
                name += ': ' + self.texture_selection.get_text()
            texture_button = gtk.combo_box_new_text()
            for t in self.finish_list:
                texture_button.append_text(t)
            texture_button.set_active(1)
            transparency = gtk.Adjustment(0,0.0,1.0,0.01)
            transparency_spin = gtk.SpinButton(transparency, 0, 0)
            transparency_spin.set_digits(2)
            delete_button = gtk.Button(stock=gtk.STOCK_DELETE)
            alignment = delete_button.get_children()[0]
            index = len(self.materials)
            delete_button.connect("clicked",self.delete_material,{"n":index})
            self.materials += [[True,selection,texture_button,
                                gtk.Label(_("  transparency: ")),transparency_spin,
                                gtk.Label("   "),delete_button,gtk.Label()]]
            self.materials[-1][-1].set_markup("    "+name)
            pack(self.tbox,[self.materials[-1][2],self.materials[-1][3],self.materials[-1][4],
                            self.materials[-1][5],self.materials[-1][6],self.materials[-1][7]])
        else:
            oops(_("Can not create new texture! Must have some atoms selected to create a new material!"))

    def delete_material(self, button, index, *args):
        n = index["n"]
        self.materials[n][0] = False
        self.materials[n][1] = np.zeros(self.natoms, bool)
        self.materials[n][2].destroy()
        self.materials[n][3].destroy()
        self.materials[n][4].destroy()
        self.materials[n][5].destroy()
        self.materials[n][6].destroy()
        self.materials[n][7].destroy()

    def set_movie(self, *args):
        if self.single_frame.get_active() and self.run_povray.get_active():
            self.window_open.set_active(self.window_open_status)
            self.window_open.set_sensitive(True)
        else:
            if self.run_povray.get_active():
                self.window_open_status = self.window_open.get_active()
            self.window_open.set_active(False)
            self.window_open.set_sensitive(False)
        self.set_outputname()        
        
    def toggle_run_povray(self, *args):
        if self.run_povray.get_active():
            self.keep_files.set_active(self.keep_files_status)
            self.keep_files.set_sensitive(True)
            if self.single_frame.get_active():
                self.window_open.set_active(self.window_open_status)
                self.window_open.set_sensitive(True)
        else:
            self.keep_files_status = self.keep_files.get_active()
            self.keep_files.set_active(True)
            self.keep_files.set_sensitive(False)
            if self.single_frame.get_active():
                self.window_open_status = self.window_open.get_active()
            self.window_open.set_active(False)
            self.window_open.set_sensitive(False)

    def selection_help(self,*args):
        Help(self.selection_info_txt)
        
    def set_textures(self):
        textures =  self.natoms*[self.finish_list[self.default_texture.get_active()]]
        for mat in self.materials:
            sel = mat[1]
            t = self.finish_list[mat[2].get_active()]
            if mat[0]:
                for n, val in enumerate(sel):
                    if val:
                        textures[n] = t
        return textures

    def get_colors(self):
        colors = self.gui.get_colors(rgb = True)
        for n in range(self.natoms):
            colors[n] = list(colors[n]) + [0,self.default_transparency.value]
        for mat in self.materials:
            sel   = mat[1]
            trans = mat[4].get_value()
            for n, val in enumerate(sel):
                if val:
                    colors[n][4] = trans
        return colors
        
    def ok(self, *args):
        print "Rendering povray image(s): "
        scale = self.gui.scale*self.height.get_value()/self.gui.height
        bbox = np.empty(4)
        size = np.array([self.width.get_value(), self.height.get_value()]) / scale
        bbox[0:2] = np.dot(self.gui.center, self.gui.axes[:, :2]) - size / 2
        bbox[2:] = bbox[:2] + size
        povray_settings = {'run_povray'     : self.run_povray.get_active(),
                           'bbox'           : bbox,
                           'rotation'       : self.gui.axes, 
                           'show_unit_cell' : self.render_cell.get_active(),
                           'display'        : self.window_open.get_active(),
                           'transparent'    : self.transparent.get_active(),
                           'camera_type'    : self.cameras[self.camera_style.get_active()],
                           'camera_dist'    : self.camera_distance.get_value(),
                           'canvas_width'   : self.width.get_value(),
                           'celllinewidth'  : self.line_width.get_value(),
                           'textures'       : self.set_textures(),
                           'exportconstraints' : self.render_constraints.get_active()}
        if self.single_frame.get_active():
            frames = [self.gui.frame]
        else:
            frames = range(self.nimages)
        initial_frame = self.gui.frame
        for frame in frames:
            self.gui.set_frame(frame)
            povray_settings['colors'] = self.get_colors()
            atoms = self.gui.images.get_atoms(frame)
            self.set_outputname()        
            filename = self.outputname.get_text()
            print " | Writing files for image", filename, "..."
            write_pov(filename,
                      atoms,
                      radii = self.gui.images.r,
                      **povray_settings)
            if not self.keep_files.get_active():
                print " | Deleting temporary file ", filename
                system("rm "+filename)
                filename = filename[:-4] + '.ini'
                print " | Deleting temporary file ", filename
                system("rm "+filename)
        self.gui.set_frame(initial_frame)
        self.set_outputname()