import gtk import gtk.glade import pango import ascpy from varentry import * from properties import * BROWSER_FIXED_COLOR = "#008800" BROWSER_FREE_COLOR = "#000088" class ModelView: def __init__(self,browser,glade): self.browser = browser # the parent object: the entire ASCEND browser self.modelview = glade.get_widget("browserview") # name, type, value, foreground, weight, editable, status-icon columns = [str,str,str,str,int,bool,gtk.gdk.Pixbuf] self.otank = {} # name, type, value, foreground, weight, editable, status-icon columns = [str,str,str,str,int,bool,gtk.gdk.Pixbuf] self.modelstore = gtk.TreeStore(*columns) titles = ["Name","Type","Value"]; self.modelview.set_model(self.modelstore) self.tvcolumns = [ gtk.TreeViewColumn() for _type in columns[:len(titles)] ] self.modelview.connect("row-expanded", self.row_expanded ) self.modelview.connect("button-press-event", self.on_treeview_event ) self.modelview.connect("key-press-event",self.on_treeview_event ) # data columns are: name type value colour weight editable i = 0 for tvcolumn in self.tvcolumns[:len(titles)]: tvcolumn.set_title(titles[i]) self.modelview.append_column(tvcolumn) if(i==2): # add status icon renderer1 = gtk.CellRendererPixbuf() tvcolumn.pack_start(renderer1, False) tvcolumn.add_attribute(renderer1, 'pixbuf', 6) renderer = gtk.CellRendererText() tvcolumn.pack_start(renderer, True) tvcolumn.add_attribute(renderer, 'text', i) tvcolumn.add_attribute(renderer, 'foreground', 3) tvcolumn.add_attribute(renderer, 'weight', 4) if(i==2): tvcolumn.add_attribute(renderer, 'editable', 5) renderer.connect('edited',self.cell_edited_callback) i = i + 1 #-------------------- # set up the context menu for fixing/freeing vars # TODO import this menu from Glade (this code is a PITA) self.treecontext = gtk.Menu(); self.fixmenuitem = gtk.ImageMenuItem("_Fix",True); self.fixmenuitem.set_image(self.browser.fixedimg) self.freemenuitem = gtk.ImageMenuItem("F_ree",True); _img = gtk.Image() _img.set_from_file(self.browser.options.assets_dir+'unlocked.png') self.freemenuitem.set_image(_img) self.plotmenuitem = gtk.ImageMenuItem("P_lot",True); _img = gtk.Image() _img.set_from_file(self.browser.options.assets_dir+'plot.png') self.plotmenuitem.set_image(_img) self.propsmenuitem = gtk.ImageMenuItem("_Properties",True); _img = gtk.Image() _img.set_from_file(self.browser.options.assets_dir+'properties.png') self.propsmenuitem.set_image(_img) self.observemenuitem = gtk.ImageMenuItem("_Observe",True); _img = gtk.Image() _img.set_from_file(self.browser.options.assets_dir+'observe.png') self.observemenuitem.set_image(_img) self.fixmenuitem.show(); self.fixmenuitem.set_sensitive(False) self.freemenuitem.show(); self.freemenuitem.set_sensitive(False) self.plotmenuitem.show(); self.plotmenuitem.set_sensitive(False) self.observemenuitem.show(); self.observemenuitem.set_sensitive(False) self.propsmenuitem.show() self.treecontext.append(self.fixmenuitem) self.treecontext.append(self.freemenuitem) _sep = gtk.SeparatorMenuItem(); _sep.show() self.treecontext.append(_sep); self.treecontext.append(self.plotmenuitem) self.treecontext.append(self.observemenuitem) _sep = gtk.SeparatorMenuItem(); _sep.show() self.treecontext.append(_sep) self.treecontext.append(self.propsmenuitem) self.fixmenuitem.connect("activate",self.fix_activate) self.freemenuitem.connect("activate",self.free_activate) self.plotmenuitem.connect("activate",self.plot_activate) self.propsmenuitem.connect("activate",self.props_activate) self.observemenuitem.connect("activate",self.observe_activate) if not self.treecontext: raise RuntimeError("Couldn't create browsercontext") def setSimulation(self,sim): # instance hierarchy self.sim = sim self.modelstore.clear() self.otank = {} # map path -> (name,value) self.make( self.sim.getName(),self.sim.getModel() ) self.browser.maintabs.set_current_page(1); def clear(self): self.modelstore.clear() self.otank = {} # -------------------------------------------- # INSTANCE TREE def get_tree_row_data(self,instance): # for instance browser _value = str(instance.getValue()) _type = str(instance.getType()) _name = str(instance.getName()) _fgcolor = "black" _fontweight = pango.WEIGHT_NORMAL _editable = False _statusicon = None if instance.getType().isRefinedSolverVar(): _editable = True _fontweight = pango.WEIGHT_BOLD if instance.isFixed(): _fgcolor = BROWSER_FIXED_COLOR else: _fgcolor = BROWSER_FREE_COLOR _fontweight = pango.WEIGHT_BOLD _status = instance.getVarStatus(); _statusicon = self.browser.statusicons[_status] elif instance.isBool() or instance.isReal() or instance.isInt(): # TODO can't edit constants that have already been refined _editable = True #if(len(_value) > 80): # _value = _value[:80] + "..." return [_name, _type, _value, _fgcolor, _fontweight, _editable, _statusicon] def make_row( self, piter, name, value ): # for instance browser _piter = self.modelstore.append( piter, self.get_tree_row_data(value) ) return _piter def refreshtree(self): # @TODO FIXME use a better system than colour literals! for _path in self.otank: # { path : (name,value) } _iter = self.modelstore.get_iter(_path) _name, _instance = self.otank[_path] self.modelstore.set_value(_iter, 2, _instance.getValue()) if _instance.getType().isRefinedSolverVar(): if _instance.isFixed() and self.modelstore.get_value(_iter,3)==BROWSER_FREE_COLOR: self.modelstore.set_value(_iter,3,BROWSER_FIXED_COLOR) elif not _instance.isFixed() and self.modelstore.get_value(_iter,3)==BROWSER_FIXED_COLOR: self.modelstore.set_value(_iter,3,BROWSER_FREE_COLOR) self.modelstore.set_value(_iter, 6, self.browser.statusicons[_instance.getVarStatus()]) def cell_edited_callback(self, renderer, path, newtext, **kwargs): # get back the Instance object we just edited (having to use this seems like a bug) path = tuple( map(int,path.split(":")) ) if not self.otank.has_key(path): raise RuntimeError("cell_edited_callback: invalid path '%s'" % path) return _name, _instance = self.otank[path] if _instance.isReal(): # only real-valued things can have units _e = RealAtomEntry(_instance,newtext); try: _e.checkEntry() _e.setValue() _e.exportPreferredUnits(self.browser.prefs) except InputError, e: self.reporter.reportError(str(e)) return; else: if _instance.isBool(): _lower = newtext.lower(); if _lower.startswith("t") or _lower.startswith("y") or _lower.strip()=="1": newtext = 1 elif _lower.startswith("f") or _lower.startswith("n") or _lower.strip()=="0": newtext = 0 else: self.reporter.reportError("Invalid entry for a boolean variable: '%s'" % newtext) return _val = bool(newtext); if _val == _instance.getValue(): self.reporter.reportNote("Boolean atom '%s' was not altered" % _instance.getName()) return _instance.setBoolValue(_val) elif _instance.isInt(): _val = int(newtext) if _val == _instance.getValue(): self.reporter.reportNote("Integer atom '%s' was not altered" % _instance.getName()) return _instance.setIntValue(_val) else: self.reporter.reportError("Attempt to set a non-real, non-boolean, non-integer value!") return # now that the variable is set, update the GUI and re-solve if desired _iter = self.modelstore.get_iter(path) self.modelstore.set_value(_iter,2,_instance.getValue()) if _instance.getType().isRefinedSolverVar(): self.modelstore.set_value(_iter,3,BROWSER_FIXED_COLOR) # set the row green as fixed self.browser.do_solve_if_auto() def make_children(self, value, piter ): if value.isCompound(): children=value.getChildren(); for child in children: _name = child.getName(); _piter = self.make_row(piter,_name,child) _path = self.modelstore.get_path(_piter) self.otank[_path]=(_name,child) #self.reporter.reportError("2 Added %s at path %s" % (_name,repr(_path))) def make(self, name=None, value=None, path=None, depth=1): if path is None: # make root node piter = self.make_row( None, name, value ) path = self.modelstore.get_path( piter ) self.otank[ path ] = (name, value) #self.reporter.reportError("4 Added %s at path %s" % (name, path)) else: name, value = self.otank[ path ] piter = self.modelstore.get_iter( path ) if not self.modelstore.iter_has_child( piter ): self.make_children(value,piter) if depth: for i in range( self.modelstore.iter_n_children( piter ) ): self.make( path = path+(i,), depth = depth - 1 ) else: self.modelview.expand_row("0",False) def row_expanded( self, modelview, piter, path ): self.make( path = path ) # ------------------------------ # CONTEXT MENU def on_treeview_event(self,widget,event): _contextmenu = False; if event.type==gtk.gdk.KEY_PRESS and gtk.gdk.keyval_name(event.keyval)=='Menu': _contextmenu = True _path, _col = self.modelview.get_cursor() _button = 3; elif event.type==gtk.gdk.BUTTON_PRESS: if event.button == 3: _contextmenu = True _x = int(event.x) _y = int(event.y) _button = event.button _pthinfo = self.modelview.get_path_at_pos(_x, _y) if _pthinfo == None: return _path, _col, _cellx, _celly = _pthinfo # which button was clicked? if not _contextmenu: return _canpop = False; # self.reporter.reportError("Right click on %s" % self.otank[_path][0]) _instance = self.otank[_path][1] if _instance.getType().isRefinedSolverVar(): _canpop = True; self.observemenuitem.set_sensitive(True) if _instance.isFixed(): self.fixmenuitem.set_sensitive(False) self.freemenuitem.set_sensitive(True) else: self.fixmenuitem.set_sensitive(True) self.freemenuitem.set_sensitive(False) elif _instance.isRelation(): _canpop = True; self.propsmenuitem.set_sensitive(True) if _instance.isPlottable(): self.plotmenuitem.set_sensitive(True) _canpop = True; else: self.plotmenuitem.set_sensitive(False) if not _canpop: return self.modelview.grab_focus() self.modelview.set_cursor( _path, _col, 0) self.treecontext.popup( None, None, None, _button, event.time) return 1 def fix_activate(self,widget): _path,_col = self.modelview.get_cursor() _name, _instance = self.otank[_path] self.set_fixed(_instance,True); _instance.setFixed(True) return 1 def free_activate(self,widget): _path,_col = self.modelview.get_cursor() _instance = self.otank[_path][1] self.set_fixed(_instance,False) return 1 def plot_activate(self,widget): self.browser.reporter.reportNote("plot_activate..."); _path,_col = self.modelview.get_cursor() _instance = self.otank[_path][1] if not _instance.isPlottable(): self.browser.reporter.reportError("Can't plot instance %s" % _instance.getName().toString()) return else: self.browser.reporter.reportNote("Instance %s about to be plotted..." % _instance.getName().toString()) print("Plotting instance '%s'..." % _instance.getName().toString()) _plot = _instance.getPlot() print "Title: ", _plot.getTitle() _plot.show(True) return 1 def props_activate(self,widget,*args): _path,_col = self.modelview.get_cursor() _instance = self.otank[_path][1] if _instance.isRelation(): print "Relation '"+_instance.getName().toString()+"':", \ _instance.getRelationAsString(self.sim.getModel()) _dia = RelPropsWin(self.browser,_instance); _dia.run(); elif _instance.getType().isRefinedSolverVar(): _dia = VarPropsWin(self.browser,_instance); _dia.run(); else: self.reporter.reportWarning("Select a variable first...") def observe_activate(self,widget,*args): _path,_col = self.modelview.get_cursor() _instance = self.otank[_path][1] if _instance.getType().isRefinedSolverVar(): print "OBSERVING",_instance.getName().toString() self.browser.observe(_instance) def on_fix_variable_activate(self,*args): _path,_col = self.modelview.get_cursor() _instance = self.otank[_path][1] self.set_fixed(_instance,True) def on_free_variable_activate(self,*args): _path,_col = self.modelview.get_cursor() _instance = self.otank[_path][1] self.set_fixed(_instance,False) def set_fixed(self,instance,val): if instance.getType().isRefinedSolverVar(): f = instance.isFixed(); if (f and not val) or (not f and val): instance.setFixed(val) self.browser.do_solve_if_auto()