def OpenGraph(self):
self.DeleteDrawItems() # clear screen
if self.hasGraph == 1:
self.G.Clear()
self.HMM.G.Clear()
self.HMM.Clear()
self.hasGraph = 0
file = askopenfilename(title="Open HMM",
defaultextension=".xml",
filetypes=(("XML", ".xml"), ))
if file is "":
print "cancelled"
else:
self.fileName = file
self.graphName = stripPath(file)
e = extension(file)
if e == 'xml':
self.HMM.OpenXML(file)
else:
print "Unknown extension"
return
#self.HMM.hmmAlphabet ?
#self.HMM.hmmClass ?
self.ShowGraph(self.HMM.G, self.graphName)
self.RegisterGraphInformer(HMMInformer(self.HMM))
self.SetTitle("HMMEd _VERSION_ - " + self.graphName)
if not self.gridding:
self.graphMenu.invoke(self.graphMenu.index('Grid'))
def OpenGraph(self):
self.DeleteDrawItems() # clear screen
if self.hasGraph == 1:
self.G.Clear()
self.HMM.G.Clear()
self.HMM.Clear()
self.hasGraph = 0
file = askopenfilename(title="Open HMM",
defaultextension=".xml",
filetypes = (("XML", ".xml"),)
)
if file is "":
print "cancelled"
else:
self.fileName = file
self.graphName = stripPath(file)
e = extension(file)
if e == 'xml':
self.HMM.OpenXML(file)
else:
print "Unknown extension"
return
#self.HMM.hmmAlphabet ?
#self.HMM.hmmClass ?
self.ShowGraph(self.HMM.G, self.graphName)
self.RegisterGraphInformer(HMMInformer(self.HMM))
self.SetTitle("HMMEd _VERSION_ - " + self.graphName)
if not self.gridding:
self.graphMenu.invoke(self.graphMenu.index('Grid'))
def OpenGraph(self):
file = askopenfilename(title="Open HMM",
defaultextension=".xml",
filetypes = (("XML", ".xml"),
)
)
if file is "":
print "cancelled"
else:
self.fileName = file
self.graphName = stripPath(file)
e = extension(file)
if e == 'xml':
self.HMM.OpenXML(file)
else:
print "Unknown extension"
return
self.ShowGraph(self.HMM.G, self.graphName)
self.RegisterGraphInformer(HMMInformer(self.HMM))
self.SetTitle("HMMEd _VERSION_ - " + self.graphName)
if not self.gridding:
self.graphMenu.invoke(self.graphMenu.index('Grid'))
def OpenGraph(self):
file = askopenfilename(title="Open HMM",
defaultextension=".xml",
filetypes=(("XML", ".xml"), ))
if file is "":
print "cancelled"
else:
self.fileName = file
self.graphName = stripPath(file)
e = extension(file)
if e == 'xml':
self.HMM.OpenXML(file)
else:
print "Unknown extension"
return
self.ShowGraph(self.HMM.G, self.graphName)
self.RegisterGraphInformer(HMMInformer(self.HMM))
self.SetTitle("HMMEd _VERSION_ - " + self.graphName)
if not self.gridding:
self.graphMenu.invoke(self.graphMenu.index('Grid'))
def OpenGraph(self):
file = askopenfilename(
title="Open Graph",
defaultextension=".cat",
filetypes=[("Gato", ".cat"), ("Dot", ".dotted")
#,("Graphlet", ".let")
])
if file is "":
pass
else:
self.fileName = file
self.dirty = 0
self.graphName = stripPath(file)
e = extension(file)
if e == 'cat':
G = OpenCATBoxGraph(file)
elif e == 'gml':
G = OpenGMLGraph(file)
elif e == 'dotted':
G = OpenDotGraph(file)
else:
log.error("Unknown extension %s" % e)
if not self.gridding:
self.graphMenu.invoke(self.graphMenu.index('Grid'))
if G.QDirected() != self.directedVar.get():
self.graphMenu.invoke(self.graphMenu.index('Directed'))
if G.QEuclidian() != self.euclideanVar.get():
self.graphMenu.invoke(self.graphMenu.index('Euclidean'))
if G.edgeWeights[0].QInteger() != self.edgeIntegerWeightsVar.get():
self.graphMenu.invoke(
self.graphMenu.index('Integer Edge Weights'))
self.graphMenu.invoke(
self.graphMenu.index('Integer Vertex Weights'))
# Just one integer flag for vertex and edge weights
if G.NrOfEdgeWeights() == 1:
self.edgeWeightsSubmenu.invoke(
self.edgeWeightsSubmenu.index('One'))
elif G.NrOfEdgeWeights() == 2:
self.edgeWeightsSubmenu.invoke(
self.edgeWeightsSubmenu.index('Two'))
elif G.NrOfEdgeWeights() == 3:
self.edgeWeightsSubmenu.invoke(
self.edgeWeightsSubmenu.index('Three'))
if G.NrOfVertexWeights() == 0 or (G.NrOfVertexWeights() > 0 and
G.vertexWeights[0].QInteger()):
self.graphMenu.invoke(
self.graphMenu.index('Integer Vertex Weights'))
if G.NrOfVertexWeights() == 0:
self.vertexWeightsSubmenu.invoke(
self.vertexWeightsSubmenu.index('None'))
elif G.NrOfVertexWeights() == 1:
self.vertexWeightsSubmenu.invoke(
self.vertexWeightsSubmenu.index('One'))
elif G.NrOfVertexWeights() == 2:
self.vertexWeightsSubmenu.invoke(
self.vertexWeightsSubmenu.index('Two'))
elif G.NrOfVertexWeights() == 3:
self.vertexWeightsSubmenu.invoke(
self.vertexWeightsSubmenu.index('Three'))
self.RegisterGraphInformer(WeightedGraphInformer(G, "weight"))
self.ShowGraph(G, self.graphName)
if e == 'dotted': # Show annotations
for v in G.Vertices():
self.SetVertexAnnotation(v, self.G.vertexAnnotation[v])
for e in G.Edges():
self.SetEdgeAnnotation(e[0], e[1],
self.G.edgeAnnotation[e])
self.SetTitle("Gred %s - %s" (GatoGlobals.gatoVersion,
self.graphName))
def OpenGraph(self):
file = askopenfilename(title="Open Graph",
defaultextension=".cat",
filetypes = [("Gato", ".cat"),
("Dot", ".dotted")
#,("Graphlet", ".let")
]
)
if file is "":
pass
else:
self.fileName = file
self.dirty = 0
self.graphName = stripPath(file)
e = extension(file)
if e == 'cat':
G = OpenCATBoxGraph(file)
elif e == 'gml':
G = OpenGMLGraph(file)
elif e == 'dotted':
G = OpenDotGraph(file)
else:
log.error("Unknown extension %s" % e)
if not self.gridding:
self.graphMenu.invoke(self.graphMenu.index('Grid'))
if G.QDirected() != self.directedVar.get():
self.graphMenu.invoke(self.graphMenu.index('Directed'))
if G.QEuclidian() != self.euclideanVar.get():
self.graphMenu.invoke(self.graphMenu.index('Euclidean'))
if G.edgeWeights[0].QInteger() != self.edgeIntegerWeightsVar.get():
self.graphMenu.invoke(self.graphMenu.index('Integer Edge Weights'))
self.graphMenu.invoke(self.graphMenu.index('Integer Vertex Weights'))
# Just one integer flag for vertex and edge weights
if G.NrOfEdgeWeights() == 1:
self.edgeWeightsSubmenu.invoke(self.edgeWeightsSubmenu.index('One'))
elif G.NrOfEdgeWeights() == 2:
self.edgeWeightsSubmenu.invoke(self.edgeWeightsSubmenu.index('Two'))
elif G.NrOfEdgeWeights() == 3:
self.edgeWeightsSubmenu.invoke(self.edgeWeightsSubmenu.index('Three'))
if G.NrOfVertexWeights() == 0 or (G.NrOfVertexWeights() > 0 and
G.vertexWeights[0].QInteger()):
self.graphMenu.invoke(self.graphMenu.index('Integer Vertex Weights'))
if G.NrOfVertexWeights() == 0:
self.vertexWeightsSubmenu.invoke(self.vertexWeightsSubmenu.index('None'))
elif G.NrOfVertexWeights() == 1:
self.vertexWeightsSubmenu.invoke(self.vertexWeightsSubmenu.index('One'))
elif G.NrOfVertexWeights() == 2:
self.vertexWeightsSubmenu.invoke(self.vertexWeightsSubmenu.index('Two'))
elif G.NrOfVertexWeights() == 3:
self.vertexWeightsSubmenu.invoke(self.vertexWeightsSubmenu.index('Three'))
self.RegisterGraphInformer(WeightedGraphInformer(G,"weight"))
self.ShowGraph(G,self.graphName)
if e == 'dotted': # Show annotations
for v in G.Vertices():
self.SetVertexAnnotation(v,self.G.vertexAnnotation[v])
for e in G.Edges():
self.SetEdgeAnnotation(e[0],e[1],self.G.edgeAnnotation[e])
self.SetTitle("Gred %s - %s" (GatoGlobals.gatoVersion,self.graphName))
def OpenGraph(self,dummy=None,fileName=None):
if self.dirty == 1:
if not askokcancel("Open Graph","Graph changed since last saved."\
"Do you want to overwrite it?"):
return
if fileName == None:
fileName = askopenfilename(title="Open Graph",
defaultextension=".cat",
filetypes = [("Gato", ".cat"),
("Dot", ".dotted")
#,("Graphlet", ".let")
]
)
if fileName != "" and fileName != ():
self.fileName = fileName
self.graphName = stripPath(fileName)
e = extension(fileName)
if e == 'cat':
G = OpenCATBoxGraph(fileName)
elif e == 'gml':
G = OpenGMLGraph(fileName)
elif e == 'dotted':
G = OpenDotGraph(fileName)
else:
log.error("Unknown extension %s" % e)
if not self.gridding:
self.graphMenu.invoke(self.graphMenu.index('Grid'))
if G.QDirected() != self.directedVar.get():
self.graphMenu.invoke(self.graphMenu.index('Directed'))
if G.QEuclidian() != self.euclideanVar.get():
self.graphMenu.invoke(self.graphMenu.index('Euclidean'))
if G.edgeWeights[0].QInteger() != self.edgeIntegerWeightsVar.get():
self.graphMenu.invoke(self.graphMenu.index('Integer Edge Weights'))
self.graphMenu.invoke(self.graphMenu.index('Integer Vertex Weights'))
# Just one integer flag for vertex and edge weights
if G.NrOfEdgeWeights() == 1:
self.edgeWeightsSubmenu.invoke(self.edgeWeightsSubmenu.index('One'))
elif G.NrOfEdgeWeights() == 2:
self.edgeWeightsSubmenu.invoke(self.edgeWeightsSubmenu.index('Two'))
elif G.NrOfEdgeWeights() == 3:
self.edgeWeightsSubmenu.invoke(self.edgeWeightsSubmenu.index('Three'))
if G.NrOfVertexWeights() == 0 or (G.NrOfVertexWeights() > 0 and
G.vertexWeights[0].QInteger()):
self.graphMenu.invoke(self.graphMenu.index('Integer Vertex Weights'))
if G.NrOfVertexWeights() == 0:
self.vertexWeightsSubmenu.invoke(self.vertexWeightsSubmenu.index('None'))
elif G.NrOfVertexWeights() == 1:
self.vertexWeightsSubmenu.invoke(self.vertexWeightsSubmenu.index('One'))
elif G.NrOfVertexWeights() == 2:
self.vertexWeightsSubmenu.invoke(self.vertexWeightsSubmenu.index('Two'))
elif G.NrOfVertexWeights() == 3:
self.vertexWeightsSubmenu.invoke(self.vertexWeightsSubmenu.index('Three'))
self.RegisterGraphInformer(WeightedGraphInformer(G,"weight"))
self.ShowGraph(G,self.graphName)
if e == 'dotted': # Show annotations
for v in G.Vertices():
self.SetVertexAnnotation(v,self.G.vertexAnnotation[v])
for e in G.Edges():
self.SetEdgeAnnotation(e[0],e[1],self.G.edgeAnnotation[e])
self.SetTitle("Gred %s - %s" % (self.graphName, gatoBuildDate))
self.makeDirty()
self.dirty = 0
def OpenGraph(self, dummy=None):
if self.dirty == 1:
if not askokcancel(
"Open Graph",
"Graph changed since last saved. Do you want to overwrite it?"
):
return
file = askopenfilename(
title="Open Graph",
defaultextension=".cat",
filetypes=[("Gato", ".cat"), ("Dot", ".dotted")
#,("Graphlet", ".let")
])
if file != "" and file != ():
self.fileName = file
self.graphName = stripPath(file)
e = extension(file)
if e == 'cat':
G = OpenCATBoxGraph(file)
elif e == 'gml':
G = OpenGMLGraph(file)
elif e == 'dotted':
G = OpenDotGraph(file)
else:
log.error("Unknown extension %s" % e)
if not self.gridding:
self.graphMenu.invoke(self.graphMenu.index('Grid'))
if G.QDirected() != self.directedVar.get():
self.graphMenu.invoke(self.graphMenu.index('Directed'))
if G.QEuclidian() != self.euclideanVar.get():
self.graphMenu.invoke(self.graphMenu.index('Euclidean'))
if G.edgeWeights[0].QInteger() != self.edgeIntegerWeightsVar.get():
self.graphMenu.invoke(
self.graphMenu.index('Integer Edge Weights'))
self.graphMenu.invoke(
self.graphMenu.index('Integer Vertex Weights'))
# Just one integer flag for vertex and edge weights
if G.NrOfEdgeWeights() == 1:
self.edgeWeightsSubmenu.invoke(
self.edgeWeightsSubmenu.index('One'))
elif G.NrOfEdgeWeights() == 2:
self.edgeWeightsSubmenu.invoke(
self.edgeWeightsSubmenu.index('Two'))
elif G.NrOfEdgeWeights() == 3:
self.edgeWeightsSubmenu.invoke(
self.edgeWeightsSubmenu.index('Three'))
if G.NrOfVertexWeights() == 0 or (G.NrOfVertexWeights() > 0 and
G.vertexWeights[0].QInteger()):
self.graphMenu.invoke(
self.graphMenu.index('Integer Vertex Weights'))
if G.NrOfVertexWeights() == 0:
self.vertexWeightsSubmenu.invoke(
self.vertexWeightsSubmenu.index('None'))
elif G.NrOfVertexWeights() == 1:
self.vertexWeightsSubmenu.invoke(
self.vertexWeightsSubmenu.index('One'))
elif G.NrOfVertexWeights() == 2:
self.vertexWeightsSubmenu.invoke(
self.vertexWeightsSubmenu.index('Two'))
elif G.NrOfVertexWeights() == 3:
self.vertexWeightsSubmenu.invoke(
self.vertexWeightsSubmenu.index('Three'))
self.RegisterGraphInformer(WeightedGraphInformer(G, "weight"))
self.ShowGraph(G, self.graphName)
if e == 'dotted': # Show annotations
for v in G.Vertices():
self.SetVertexAnnotation(v, self.G.vertexAnnotation[v])
for e in G.Edges():
self.SetEdgeAnnotation(e[0], e[1],
self.G.edgeAnnotation[e])
self.SetTitle("Gred 0.99 - " + self.graphName)
self.dirty = 0