root / ase / gui / surfaceslab.py @ 19
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| 1 | 1 | tkerber | # encoding: utf-8
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| 2 | 1 | tkerber | """surfaceslab.py - Window for setting up surfaces
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| 3 | 1 | tkerber | """
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| 4 | 1 | tkerber | |
| 5 | 1 | tkerber | import gtk |
| 6 | 1 | tkerber | from ase.gui.widgets import pack, cancel_apply_ok, oops |
| 7 | 1 | tkerber | from ase.gui.pybutton import PyButton |
| 8 | 1 | tkerber | from ase.gui.setupwindow import SetupWindow |
| 9 | 1 | tkerber | import ase.lattice.surface as _surf |
| 10 | 1 | tkerber | import ase |
| 11 | 1 | tkerber | import numpy as np |
| 12 | 1 | tkerber | |
| 13 | 1 | tkerber | introtext = """\
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| 14 | 1 | tkerber | Use this dialog to create surface slabs. Select the element by
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| 15 | 1 | tkerber | writing the chemical symbol or the atomic number in the box. Then
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| 16 | 1 | tkerber | select the desired surface structure. Note that some structures can
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| 17 | 1 | tkerber | be created with an othogonal or a non-orthogonal unit cell, in these
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| 18 | 1 | tkerber | cases the non-orthogonal unit cell will contain fewer atoms.
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| 19 | 1 | tkerber |
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| 20 | 1 | tkerber | If the structure matches the experimental crystal structure, you can
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| 21 | 1 | tkerber | look up the lattice constant, otherwise you have to specify it
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| 22 | 1 | tkerber | yourself."""
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| 23 | 1 | tkerber | |
| 24 | 1 | tkerber | # Name, structure, orthogonal, support-nonorthogonal, function
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| 25 | 1 | tkerber | surfaces = [('FCC(100)', 'fcc', True, False, _surf.fcc100), |
| 26 | 1 | tkerber | ('FCC(110)', 'fcc', True, False, _surf.fcc110), |
| 27 | 1 | tkerber | ('FCC(111) non-orthogonal', 'fcc', False, True, _surf.fcc111), |
| 28 | 1 | tkerber | ('FCC(111) orthogonal', 'fcc', True, True, _surf.fcc111), |
| 29 | 1 | tkerber | ('BCC(100)', 'bcc', True, False, _surf.bcc100), |
| 30 | 1 | tkerber | ('BCC(110) non-orthogonal', 'bcc', False, True, _surf.bcc110), |
| 31 | 1 | tkerber | ('BCC(110) orthogonal', 'bcc', True, True, _surf.bcc110), |
| 32 | 1 | tkerber | ('BCC(111) non-orthogonal', 'bcc', False, True, _surf.bcc111), |
| 33 | 1 | tkerber | ('BCC(111) orthogonal', 'bcc', True, True, _surf.bcc111), |
| 34 | 1 | tkerber | ('HCP(0001) non-orthogonal', 'hcp', False, True, _surf.hcp0001), |
| 35 | 1 | tkerber | ('HCP(0001) orthogonal', 'hcp', True, True, _surf.hcp0001), |
| 36 | 1 | tkerber | ] |
| 37 | 1 | tkerber | |
| 38 | 1 | tkerber | py_template = """
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| 39 | 1 | tkerber | from ase.lattice.surface import %(func)s
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| 40 | 1 | tkerber |
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| 41 | 1 | tkerber | atoms = %(func)s(symbol='%(symbol)s', size=%(size)s,
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| 42 | 1 | tkerber | a=%(a).3f, vacuum=%(vacuum).3f%(orthoarg)s)
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| 43 | 1 | tkerber | """
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| 44 | 1 | tkerber | |
| 45 | 1 | tkerber | class SetupSurfaceSlab(SetupWindow): |
| 46 | 1 | tkerber | """Window for setting up a surface."""
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| 47 | 1 | tkerber | def __init__(self, gui): |
| 48 | 1 | tkerber | SetupWindow.__init__(self)
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| 49 | 1 | tkerber | self.set_title("Surface") |
| 50 | 1 | tkerber | self.atoms = None |
| 51 | 1 | tkerber | |
| 52 | 1 | tkerber | vbox = gtk.VBox() |
| 53 | 1 | tkerber | |
| 54 | 1 | tkerber | # Intoductory text
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| 55 | 1 | tkerber | self.packtext(vbox, introtext)
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| 56 | 1 | tkerber | |
| 57 | 1 | tkerber | # Choose the element
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| 58 | 1 | tkerber | label = gtk.Label("Element: ")
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| 59 | 1 | tkerber | element = gtk.Entry(max=3)
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| 60 | 1 | tkerber | self.element = element
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| 61 | 1 | tkerber | self.elementinfo = gtk.Label("") |
| 62 | 1 | tkerber | pack(vbox, [label, element, self.elementinfo])
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| 63 | 1 | tkerber | self.element.connect('activate', self.update) |
| 64 | 1 | tkerber | self.legal_element = False |
| 65 | 1 | tkerber | |
| 66 | 1 | tkerber | # Choose the surface structure
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| 67 | 1 | tkerber | label = gtk.Label("Structure: ")
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| 68 | 1 | tkerber | self.structchoice = gtk.combo_box_new_text()
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| 69 | 1 | tkerber | self.surfinfo = {}
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| 70 | 1 | tkerber | for s in surfaces: |
| 71 | 1 | tkerber | assert len(s) == 5 |
| 72 | 1 | tkerber | self.structchoice.append_text(s[0]) |
| 73 | 1 | tkerber | self.surfinfo[s[0]] = s |
| 74 | 1 | tkerber | pack(vbox, [label, self.structchoice])
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| 75 | 1 | tkerber | self.structchoice.connect('changed', self.update) |
| 76 | 1 | tkerber | |
| 77 | 1 | tkerber | # Choose the lattice constant
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| 78 | 1 | tkerber | tbl = gtk.Table(2, 3) |
| 79 | 1 | tkerber | label = gtk.Label("Lattice constant: ")
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| 80 | 1 | tkerber | tbl.attach(label, 0, 1, 0, 1) |
| 81 | 1 | tkerber | vbox2 = gtk.VBox() # For the non-HCP stuff
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| 82 | 1 | tkerber | self.vbox_hcp = gtk.VBox() # For the HCP stuff. |
| 83 | 1 | tkerber | self.lattice_const = gtk.Adjustment(3.0, 0.0, 1000.0, 0.01) |
| 84 | 1 | tkerber | lattice_box = gtk.SpinButton(self.lattice_const, 10.0, 3) |
| 85 | 1 | tkerber | lattice_box.numeric = True
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| 86 | 1 | tkerber | pack(vbox2, [gtk.Label("a:"), lattice_box, gtk.Label("Å")]) |
| 87 | 1 | tkerber | tbl.attach(vbox2, 1, 2, 0, 1) |
| 88 | 1 | tkerber | lattice_button = gtk.Button("Get from database")
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| 89 | 1 | tkerber | tbl.attach(lattice_button, 2, 3, 0, 1) |
| 90 | 1 | tkerber | # HCP stuff
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| 91 | 1 | tkerber | self.hcp_ideal = (8.0/3)**(1.0/3) |
| 92 | 1 | tkerber | self.lattice_const_c = gtk.Adjustment(self.lattice_const.value * self.hcp_ideal, |
| 93 | 1 | tkerber | 0.0, 1000.0, 0.01) |
| 94 | 1 | tkerber | lattice_box_c = gtk.SpinButton(self.lattice_const_c, 10.0, 3) |
| 95 | 1 | tkerber | lattice_box_c.numeric = True
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| 96 | 1 | tkerber | pack(self.vbox_hcp, [gtk.Label("c:"), lattice_box_c, gtk.Label("Å")]) |
| 97 | 1 | tkerber | self.hcp_c_over_a_format = "c/a: %.3f (%.1f %% of ideal)" |
| 98 | 1 | tkerber | self.hcp_c_over_a_label = gtk.Label(self.hcp_c_over_a_format % (self.hcp_ideal, |
| 99 | 1 | tkerber | 100.0))
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| 100 | 1 | tkerber | pack(self.vbox_hcp, [self.hcp_c_over_a_label]) |
| 101 | 1 | tkerber | tbl.attach(self.vbox_hcp, 1, 2, 1, 2) |
| 102 | 1 | tkerber | tbl.show_all() |
| 103 | 1 | tkerber | pack(vbox, [tbl]) |
| 104 | 1 | tkerber | self.lattice_const.connect('value-changed', self.update) |
| 105 | 1 | tkerber | self.lattice_const_c.connect('value-changed', self.update) |
| 106 | 1 | tkerber | lattice_button.connect('clicked', self.get_lattice_const) |
| 107 | 1 | tkerber | pack(vbox, gtk.Label(""))
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| 108 | 1 | tkerber | |
| 109 | 1 | tkerber | # System size
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| 110 | 1 | tkerber | self.size = [gtk.Adjustment(1, 1, 100, 1) for i in range(3)] |
| 111 | 1 | tkerber | buttons = [gtk.SpinButton(s, 0, 0) for s in self.size] |
| 112 | 1 | tkerber | self.vacuum = gtk.Adjustment(10.0, 0, 100.0, 0.1) |
| 113 | 1 | tkerber | vacuum_box = gtk.SpinButton(self.vacuum, 0.0, 1) |
| 114 | 1 | tkerber | pack(vbox, [gtk.Label("Size: \tx: "), buttons[0], |
| 115 | 1 | tkerber | gtk.Label(" unit cells")])
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| 116 | 1 | tkerber | pack(vbox, [gtk.Label("\t\ty: "), buttons[1], |
| 117 | 1 | tkerber | gtk.Label(" unit cells")])
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| 118 | 1 | tkerber | pack(vbox, [gtk.Label(" \t\tz: "), buttons[2], |
| 119 | 1 | tkerber | gtk.Label(" layers, "),
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| 120 | 1 | tkerber | vacuum_box, gtk.Label(" Å vacuum")])
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| 121 | 1 | tkerber | self.nosize = "\t\tNo size information yet." |
| 122 | 1 | tkerber | self.sizelabel = gtk.Label(self.nosize) |
| 123 | 1 | tkerber | pack(vbox, [self.sizelabel])
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| 124 | 1 | tkerber | for s in self.size: |
| 125 | 1 | tkerber | s.connect('value-changed', self.update) |
| 126 | 1 | tkerber | self.vacuum.connect('value-changed', self.update) |
| 127 | 1 | tkerber | pack(vbox, gtk.Label(""))
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| 128 | 1 | tkerber | |
| 129 | 1 | tkerber | # Buttons
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| 130 | 1 | tkerber | self.pybut = PyButton("Creating a surface slab.") |
| 131 | 1 | tkerber | self.pybut.connect('clicked', self.update) |
| 132 | 1 | tkerber | buts = cancel_apply_ok(cancel=lambda widget: self.destroy(), |
| 133 | 1 | tkerber | apply=self.apply,
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| 134 | 1 | tkerber | ok=self.ok)
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| 135 | 1 | tkerber | pack(vbox, [self.pybut, buts], end=True, bottom=True) |
| 136 | 1 | tkerber | |
| 137 | 1 | tkerber | self.add(vbox)
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| 138 | 1 | tkerber | vbox.show() |
| 139 | 1 | tkerber | self.show()
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| 140 | 1 | tkerber | self.gui = gui
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| 141 | 1 | tkerber | |
| 142 | 1 | tkerber | # Hide the HCP stuff to begin with.
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| 143 | 1 | tkerber | self.vbox_hcp.hide_all()
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| 144 | 1 | tkerber | |
| 145 | 1 | tkerber | # update_element inherited from SetupWindow
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| 146 | 1 | tkerber | |
| 147 | 1 | tkerber | def update(self, *args): |
| 148 | 1 | tkerber | "Called when something has changed."
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| 149 | 1 | tkerber | struct = self.structchoice.get_active_text()
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| 150 | 1 | tkerber | if struct:
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| 151 | 1 | tkerber | structinfo = self.surfinfo[struct]
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| 152 | 1 | tkerber | if structinfo[1] == 'hcp': |
| 153 | 1 | tkerber | self.vbox_hcp.show_all()
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| 154 | 1 | tkerber | ca = self.lattice_const_c.value / self.lattice_const.value |
| 155 | 1 | tkerber | self.hcp_c_over_a_label.set_text(self.hcp_c_over_a_format % |
| 156 | 1 | tkerber | (ca, 100 * ca / self.hcp_ideal)) |
| 157 | 1 | tkerber | else:
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| 158 | 1 | tkerber | self.vbox_hcp.hide_all()
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| 159 | 1 | tkerber | # Abort if element or structure is invalid
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| 160 | 1 | tkerber | if not (self.update_element() and struct): |
| 161 | 1 | tkerber | self.sizelabel.set_text(self.nosize) |
| 162 | 1 | tkerber | self.atoms = None |
| 163 | 1 | tkerber | self.pybut.python = None |
| 164 | 1 | tkerber | return False |
| 165 | 1 | tkerber | # Make the atoms
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| 166 | 1 | tkerber | assert self.legal_element |
| 167 | 1 | tkerber | kw = {}
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| 168 | 1 | tkerber | kw2 = {}
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| 169 | 1 | tkerber | if structinfo[3]: # Support othogonal keyword? |
| 170 | 1 | tkerber | kw['orthogonal'] = structinfo[2] |
| 171 | 1 | tkerber | kw2['orthoarg'] = ', orthogonal='+str(kw['orthogonal']) |
| 172 | 1 | tkerber | else:
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| 173 | 1 | tkerber | kw2['orthoarg'] = '' |
| 174 | 1 | tkerber | kw2['func'] = structinfo[4].__name__ |
| 175 | 1 | tkerber | kw['symbol'] = self.legal_element |
| 176 | 1 | tkerber | kw['size'] = [int(s.value) for s in self.size] |
| 177 | 1 | tkerber | kw['a'] = self.lattice_const.value |
| 178 | 1 | tkerber | kw['vacuum'] = self.vacuum.value |
| 179 | 1 | tkerber | # Now create the atoms
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| 180 | 1 | tkerber | try:
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| 181 | 1 | tkerber | self.atoms = structinfo[4](**kw) |
| 182 | 1 | tkerber | except ValueError, e: |
| 183 | 1 | tkerber | # The values were illegal - for example some size
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| 184 | 1 | tkerber | # constants must be even for some structures.
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| 185 | 1 | tkerber | self.pybut.python = None |
| 186 | 1 | tkerber | self.atoms = None |
| 187 | 1 | tkerber | self.sizelabel.set_text(str(e).replace(". ", ".\n")) |
| 188 | 1 | tkerber | return False |
| 189 | 1 | tkerber | kw2.update(kw) |
| 190 | 1 | tkerber | self.pybut.python = py_template % kw2
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| 191 | 1 | tkerber | # Find the heights of the unit cell
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| 192 | 1 | tkerber | h = np.zeros(3)
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| 193 | 1 | tkerber | uc = self.atoms.get_cell()
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| 194 | 1 | tkerber | for i in range(3): |
| 195 | 1 | tkerber | norm = np.cross(uc[i-1], uc[i-2]) |
| 196 | 1 | tkerber | norm /= np.sqrt(np.dot(norm, norm)) |
| 197 | 1 | tkerber | h[i] = np.abs(np.dot(norm, uc[i])) |
| 198 | 1 | tkerber | natoms = len(self.atoms) |
| 199 | 1 | tkerber | txt = ("\t\t%.2f Å x %.2f Å x %.2f Å, %i atoms."
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| 200 | 1 | tkerber | % (h[0], h[1], h[2], natoms)) |
| 201 | 1 | tkerber | self.sizelabel.set_text(txt)
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| 202 | 1 | tkerber | return True |
| 203 | 1 | tkerber | |
| 204 | 1 | tkerber | def get_lattice_const(self, *args): |
| 205 | 1 | tkerber | if not self.update_element(): |
| 206 | 1 | tkerber | oops("Invalid element.")
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| 207 | 1 | tkerber | return
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| 208 | 1 | tkerber | z = ase.atomic_numbers[self.legal_element]
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| 209 | 1 | tkerber | ref = ase.data.reference_states[z] |
| 210 | 1 | tkerber | surface = self.structchoice.get_active_text()
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| 211 | 1 | tkerber | if not surface: |
| 212 | 1 | tkerber | oops("No structure specified!")
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| 213 | 1 | tkerber | return
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| 214 | 1 | tkerber | struct = self.surfinfo[surface][1] |
| 215 | 1 | tkerber | if ref is None or ref['symmetry'].lower() != struct: |
| 216 | 1 | tkerber | oops(struct.upper() + " lattice constant unknown for "
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| 217 | 1 | tkerber | + self.legal_element + ".") |
| 218 | 1 | tkerber | return
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| 219 | 1 | tkerber | a = ref['a']
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| 220 | 1 | tkerber | self.lattice_const.set_value(a)
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| 221 | 1 | tkerber | if struct == 'hcp': |
| 222 | 1 | tkerber | c = ref['c/a'] * a
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| 223 | 1 | tkerber | self.lattice_const_c.set_value(c)
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| 224 | 1 | tkerber | |
| 225 | 1 | tkerber | def apply(self, *args): |
| 226 | 1 | tkerber | self.update()
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| 227 | 1 | tkerber | if self.atoms is not None: |
| 228 | 1 | tkerber | self.gui.new_atoms(self.atoms) |
| 229 | 1 | tkerber | return True |
| 230 | 1 | tkerber | else:
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| 231 | 1 | tkerber | oops("No valid atoms.",
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| 232 | 1 | tkerber | "You have not (yet) specified a consistent set of parameters.")
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| 233 | 1 | tkerber | return False |
| 234 | 1 | tkerber | |
| 235 | 1 | tkerber | def ok(self, *args): |
| 236 | 1 | tkerber | if self.apply(): |
| 237 | 1 | tkerber | self.destroy()
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| 238 | 1 | tkerber | |
| 239 | 1 | tkerber |