/usr/share/mmass/gui/panel_periodic_table.py is in mmass 5.1.0-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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# Copyright (C) 2005-2012 Martin Strohalm <www.mmass.org>
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# Complete text of GNU GPL can be found in the file LICENSE.TXT in the
# main directory of the program.
# -------------------------------------------------------------------------
# load libs
import wx
import webbrowser
# load modules
from ids import *
import mwx
import images
import config
import mspy
# FLOATING PANEL WITH PERIODIC TABLE OF ELEMENTS
# ----------------------------------------------
class panelPeriodicTable(wx.MiniFrame):
"""Periodic table of elements."""
def __init__(self, parent):
wx.MiniFrame.__init__(self, parent, -1, 'Periodic Table of the Elements', size=(400, 300), style=wx.DEFAULT_FRAME_STYLE & ~ (wx.RESIZE_BOX | wx.RESIZE_BORDER | wx.MAXIMIZE_BOX))
self.parent = parent
self.currentElement = None
self.currentGroup = None
self.elementsIDs = {}
self.elementsButtons = {}
self.groups = {
'Metals':['Li','Na','K','Rb','Cs','Fr','Be','Mg','Ca','Sr','Ba','Ra','La','Ce','Pr','Nd','Pm','Sm','Eu','Gd','Tb','Dy','Ho','Er','Tm','Yb','Lu','Ac','Th','Pa','U','Np','Pu','Am','Cm','Bk','Cf','Es','Fm','Md','No','Lr','Sc','Ti','V','Cr','Mn','Fe','Co','Ni','Cu','Zn','Y','Zr','Nb','Mo','Tc','Ru','Rh','Pd','Ag','Cd','Hf','Ta','W','Re','Os','Ir','Pt','Au','Hg','Al','Ga','In','Sn','Tl','Pb','Bi'],
'Alkali Metals':['Li','Na','K','Rb','Cs','Fr'],
'Alkaline Earth Metals':['Be','Mg','Ca','Sr','Ba','Ra'],
'Inner Transition Metals':['La','Ce','Pr','Nd','Pm','Sm','Eu','Gd','Tb','Dy','Ho','Er','Tm','Yb','Lu','Ac','Th','Pa','U','Np','Pu','Am','Cm','Bk','Cf','Es','Fm','Md','No','Lr'],
'Lanthanides':['La','Ce','Pr','Nd','Pm','Sm','Eu','Gd','Tb','Dy','Ho','Er','Tm','Yb','Lu'],
'Actinides':['Ac','Th','Pa','U','Np','Pu','Am','Cm','Bk','Cf','Es','Fm','Md','No','Lr'],
'Transition Metals':['Sc','Ti','V','Cr','Mn','Fe','Co','Ni','Cu','Zn','Y','Zr','Nb','Mo','Tc','Ru','Rh','Pd','Ag','Cd','Hf','Ta','W','Re','Os','Ir','Pt','Au','Hg'],
'Post-Transition Metals':['Al','Ga','In','Sn','Tl','Pb','Bi'],
'Nonmetals':['H','He','C','N','O','F','Ne','P','S','Cl','Ar','Se','Br','Kr','I','Xe','At','Rn'],
'Halogens':['F','Cl','Br','I','At'],
'Noble Gasses':['He','Ne','Ar','Kr','Xe','Rn'],
'Other Nonmetals':['H','C','N','O','P','S','Se'],
'Metalloids':['B','Si','Ge','As','Sb','Te','Po'],
}
# make gui items
self.makeGUI()
wx.EVT_CLOSE(self, self.onClose)
# ----
def makeGUI(self):
"""Make panel gui."""
# make toolbar
toolbar = self.makeToolbar()
# make panels
table = self.makeTablePanel()
# pack element
self.mainSizer = wx.BoxSizer(wx.VERTICAL)
self.mainSizer.Add(toolbar, 0, wx.EXPAND, 0)
self.mainSizer.Add(table, 1, wx.EXPAND, 0)
# fit layout
self.mainSizer.Fit(self)
self.SetSizer(self.mainSizer)
# ----
def makeToolbar(self):
"""Make toolbar."""
# init toolbar
panel = mwx.bgrPanel(self, -1, images.lib['bgrToolbar'], size=(-1, mwx.TOOLBAR_HEIGHT))
# make highlights
highlight_label = wx.StaticText(panel, -1, "Highlight:")
highlight_label.SetFont(wx.SMALL_FONT)
choices = ['None', '---', 'Metals', 'Alkali Metals', 'Alkaline Earth Metals', 'Inner Transition Metals', 'Lanthanides', 'Actinides', 'Transition Metals', 'Post-Transition Metals', '---', 'Nonmetals', 'Halogens', 'Noble Gasses', 'Other Nonmetals', '---', 'Metalloids']
self.highlight_choice = wx.Choice(panel, -1, choices=choices, size=(-1, mwx.SMALL_CHOICE_HEIGHT))
self.highlight_choice.Select(0)
self.highlight_choice.Bind(wx.EVT_CHOICE, self.onHighlightGroup)
# make buttons
self.isotopes_butt = wx.Button(panel, -1, "Isotopes", size=(-1, mwx.SMALL_BUTTON_HEIGHT))
self.isotopes_butt.Bind(wx.EVT_BUTTON, self.onIsotopes)
self.isotopes_butt.Enable(False)
self.wiki_butt = wx.Button(panel, -1, "Wikipedia", size=(-1, mwx.SMALL_BUTTON_HEIGHT))
self.wiki_butt.Bind(wx.EVT_BUTTON, self.onWiki)
self.photos_butt = wx.Button(panel, -1, "Photos", size=(-1, mwx.SMALL_BUTTON_HEIGHT))
self.photos_butt.Bind(wx.EVT_BUTTON, self.onPhotos)
self.photos_butt.Enable(False)
# pack elements
sizer = wx.BoxSizer(wx.HORIZONTAL)
sizer.AddSpacer(mwx.CONTROLBAR_LSPACE)
sizer.Add(highlight_label, 0, wx.ALIGN_CENTER_VERTICAL|wx.RIGHT, 5)
sizer.Add(self.highlight_choice, 0, wx.ALIGN_CENTER_VERTICAL)
sizer.AddStretchSpacer()
sizer.AddSpacer(20)
sizer.Add(self.isotopes_butt, 0, wx.ALIGN_CENTER_VERTICAL|wx.RIGHT, 10)
sizer.Add(self.wiki_butt, 0, wx.ALIGN_CENTER_VERTICAL|wx.RIGHT, 10)
sizer.Add(self.photos_butt, 0, wx.ALIGN_CENTER_VERTICAL)
sizer.AddSpacer(mwx.CONTROLBAR_RSPACE)
mainSizer = wx.BoxSizer(wx.VERTICAL)
mainSizer.Add(sizer, 1, wx.EXPAND)
panel.SetSizer(mainSizer)
mainSizer.Fit(panel)
return panel
# ----
def makeTablePanel(self):
"""Make periodic table panel."""
elements = (
('H',(0,0)), ('He',(0,17)),
('Li',(1,0)), ('Be',(1,1)), ('B',(1,12)), ('C',(1,13)), ('N',(1,14)), ('O',(1,15)), ('F',(1,16)), ('Ne',(1,17)),
('Na',(2,0)), ('Mg',(2,1)), ('Al',(2,12)), ('Si',(2,13)), ('P',(2,14)), ('S',(2,15)), ('Cl',(2,16)), ('Ar',(2,17)),
('K',(3,0)), ('Ca',(3,1)), ('Sc',(3,2)), ('Ti',(3,3)), ('V',(3,4)), ('Cr',(3,5)), ('Mn',(3,6)), ('Fe',(3,7)), ('Co',(3,8)), ('Ni',(3,9)), ('Cu',(3,10)), ('Zn',(3,11)), ('Ga',(3,12)), ('Ge',(3,13)), ('As',(3,14)), ('Se',(3,15)), ('Br',(3,16)), ('Kr',(3,17)),
('Rb',(4,0)), ('Sr',(4,1)), ('Y',(4,2)), ('Zr',(4,3)), ('Nb',(4,4)), ('Mo',(4,5)), ('Tc',(4,6)), ('Ru',(4,7)), ('Rh',(4,8)), ('Pd',(4,9)), ('Ag',(4,10)), ('Cd',(4,11)), ('In',(4,12)), ('Sn',(4,13)), ('Sb',(4,14)), ('Te',(4,15)), ('I',(4,16)), ('Xe',(4,17)),
('Cs',(5,0)), ('Ba',(5,1)), ('La',(5,2)), ('Hf',(5,3)), ('Ta',(5,4)), ('W',(5,5)), ('Re',(5,6)), ('Os',(5,7)), ('Ir',(5,8)), ('Pt',(5,9)), ('Au',(5,10)), ('Hg',(5,11)), ('Tl',(5,12)), ('Pb',(5,13)), ('Bi',(5,14)), ('Po',(5,15)), ('At',(5,16)), ('Rn',(5,17)),
('Fr',(6,0)), ('Ra',(6,1)), ('Ac',(6,2)),
('Ce',(8,3)), ('Pr',(8,4)), ('Nd',(8,5)), ('Pm',(8,6)), ('Sm',(8,7)), ('Eu',(8,8)), ('Gd',(8,9)), ('Tb',(8,10)), ('Dy',(8,11)), ('Ho',(8,12)), ('Er',(8,13)), ('Tm',(8,14)), ('Yb',(8,15)), ('Lu',(8,16)),
('Th',(9,3)), ('Pa',(9,4)), ('U',(9,5)), ('Np',(9,6)), ('Pu',(9,7)), ('Am',(9,8)), ('Cm',(9,9)), ('Bk',(9,10)), ('Cf',(9,11)), ('Es',(9,12)), ('Fm',(9,13)), ('Md',(9,14)), ('No',(9,15)), ('Lr',(9,16)),
)
panel = wx.Panel(self, -1)
grid = wx.GridBagSizer(mwx.PERIODIC_TABLE_GRID[0], mwx.PERIODIC_TABLE_GRID[1])
# make elements
for element, position in elements:
buttonID = wx.NewId()
button = wx.BitmapButton(panel, buttonID, images.lib['periodicTable'+element+'Off'], style=wx.NO_BORDER)
button.Bind(wx.EVT_BUTTON, self.onElementSelected)
button.SetToolTip(wx.ToolTip(mspy.elements[element].name))
self.elementsIDs[buttonID] = element
self.elementsButtons[element] = button
grid.Add(button, position)
# add connection line to lanthanides and actinides
connectionLine = wx.StaticBitmap(panel, -1, images.lib['periodicTableConnection'])
grid.Add(connectionLine, (7,2), (3,1), flag=wx.ALIGN_CENTER_VERTICAL)
# make element area
self.elementName = wx.StaticText(panel, -1, "", size=(200, 20))
self.elementName.SetFont(wx.Font(mwx.PERIODIC_TABLE_FONT_SIZE, wx.FONTFAMILY_SWISS, wx.FONTSTYLE_NORMAL, wx.FONTWEIGHT_BOLD))
self.elementMass = wx.StaticText(panel, -1, "", size=(200, 30))
self.elementMass.SetFont(wx.SMALL_FONT)
grid.Add(self.elementName, (0,3), (1,8), flag=wx.ALIGN_CENTER_VERTICAL)
grid.Add(self.elementMass, (1,3), (2,8), flag=wx.ALIGN_CENTER_VERTICAL)
# pack table
mainSizer = wx.BoxSizer(wx.VERTICAL)
mainSizer.Add(grid, 0, wx.ALIGN_CENTER|wx.ALL, mwx.PANEL_SPACE_MAIN)
# fit layout
panel.SetSizer(mainSizer)
mainSizer.Fit(panel)
return panel
# ----
def onClose(self, evt):
"""Hide this frame."""
self.Destroy()
# ----
def onHighlightGroup(self, evt=None):
"""Highlight elements group."""
# clear previous
self.currentGroup = None
self.onElementSelected(None)
# get group
group = self.highlight_choice.GetStringSelection()
if group in self.groups:
self.currentGroup = group
else:
self.highlight_choice.SetStringSelection('None')
# select group elements
for element in self.elementsButtons:
if self.currentGroup and element in self.groups[group]:
self.elementsButtons[element].SetBitmapLabel(images.lib['periodicTable'+element+'Sel'])
else:
self.elementsButtons[element].SetBitmapLabel(images.lib['periodicTable'+element+'Off'])
# ----
def onElementSelected(self, evt=None):
"""Show information for selected element."""
# unselect previous element
if self.currentElement and self.currentGroup and self.currentElement in self.groups[self.currentGroup]:
self.elementsButtons[self.currentElement].SetBitmapLabel(images.lib['periodicTable'+self.currentElement+'Sel'])
elif self.currentElement:
self.elementsButtons[self.currentElement].SetBitmapLabel(images.lib['periodicTable'+self.currentElement+'Off'])
# clear element infoinfo
if not evt:
self.currentElement = None
self.elementName.SetLabel('')
self.elementMass.SetLabel('')
self.isotopes_butt.Enable(False)
self.photos_butt.Enable(False)
# get current element
else:
element = self.elementsIDs[evt.GetId()]
# highlight current element
self.currentElement = element
self.elementsButtons[element].SetBitmapLabel(images.lib['periodicTable'+element+'On'])
# show element info
self.elementName.SetLabel('%s %s (%s)' % (mspy.elements[element].name, element, mspy.elements[element].atomicNumber))
self.elementMass.SetLabel('Mo. mass: %.6f Da\nAv. mass: %.6f Da' % mspy.elements[element].mass)
# enable buttons
self.isotopes_butt.Enable(True)
self.photos_butt.Enable(True)
# ----
def onIsotopes(self, evt=None):
"""Show isotopic pattern."""
if self.currentElement:
self.parent.onToolsMassCalculator(formula=self.currentElement)
else:
wx.Bell()
# ----
def onWiki(self, evt):
"""Go to wikipedia."""
# show selected element
if self.currentElement:
link = 'http://en.wikipedia.org/wiki/%s' % mspy.elements[self.currentElement].name
# show selected group
elif self.currentGroup:
groups = {
'Metals':'Metal',
'Alkali Metals':'Alkali_metal',
'Alkaline Earth Metals':'Alkaline_earth_metal',
'Inner Transition Metals':'Inner_transition_element',
'Lanthanides':'Lanthanide',
'Actinides':'Actinide',
'Transition Metals':'Transition_element',
'Post-Transition Metals':'Post_transition_metal',
'Nonmetals':'Nonmetal',
'Halogens':'Halogen',
'Noble Gasses':'Noble_gas',
'Other Nonmetals':'',
'Metalloids':'Metalloid',
}
link = 'http://en.wikipedia.org/wiki/%s' % groups[self.currentGroup]
# show whole table
else:
link = 'http://en.wikipedia.org/wiki/Periodic_table'
# show the link
if link:
try: webbrowser.open(link, autoraise=1)
except: pass
# ----
def onPhotos(self, evt):
"""Go to photographic periodic table of elements."""
# show selected element
if self.currentElement:
link = 'http://www.periodictable.com/Elements/%0.3d/index.html' % mspy.elements[self.currentElement].atomicNumber
try: webbrowser.open(link, autoraise=1)
except: pass
else:
wx.Bell()
# ----
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