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from Xdmf import *
if __name__ == "__main__":
exampleReader = XdmfReader.New()
'''
This is assuming that the read item is an XdmfDomain object
'''
primaryDomain = exampleReader.read("testoutput.xmf")
outputInformation = primaryDomain.getInformation(0)
print "Key: " + outputInformation.getKey() + "\nValue: " + outputInformation.getValue()
print "The Domain's tag is: " + primaryDomain.getItemTag()
gridHolder = primaryDomain.getGridCollection(0)
print "The Grid Collection's tag is: " + gridHolder.getItemTag()
print "The Grid Collection's name is: " + gridHolder.getName()
outputInformation = gridHolder.getInformation(0)
print "Key: " + outputInformation.getKey() + "\nValue: " + outputInformation.getValue()
for property in gridHolder.getItemProperties():
print property + ": " + gridHolder.getItemProperties()[property]
if gridHolder.getType() == XdmfGridCollectionType.Spatial():
print "This is a spatial grid collection"
else:
print "This is not a spatial grid collection"
i = 0
outstring = ""
while i < gridHolder.getNumberMaps():
readMap = gridHolder.getMap(i)
if not readMap.isInitialized():
readMap.read()
outstring = outstring + "Map # " + str(i) + "\n"
taskIDMap = readMap.getMap()
j = 0
for task in taskIDMap:
nodeIDmap = taskIDMap[task]
k = 0
for node in nodeIDmap:
remoteIDmap = nodeIDmap[node]
for remote in remoteIDmap:
outstring = outstring + "taskID: " + str(task) + "\tlocalnodeID: " + str(node) +"\tremotenodeID: " + str(remote) + "\n"
k = k + 1
if k == nodeIDmap.size():
break
j = j + 1
if j == taskIDMap.size():
break
i = i + 1
print outstring
print "Unstructured Grid"
ungrid = gridHolder.getUnstructuredGrid(0)
print "The Unstructured Grid's tag is: " + ungrid.getItemTag()
print "The Unstructured Grid's name is: " + ungrid.getName()
for property in ungrid.getItemProperties():
print property + ": " + ungrid.getItemProperties()[property]
print "The Unstructured Grid's time is: " + str(ungrid.getTime().getValue())
i = 0
outstring = ""
while i < ungrid.getNumberMaps():
readMap = ungrid.getMap(i)
if not readMap.isInitialized():
readMap.read()
print "Map # " + str(i)
taskIDMap = readMap.getMap()
j = 0
for task in taskIDMap:
nodeIDmap = taskIDMap[task]
k = 0
for node in nodeIDmap:
remoteIDmap = nodeIDmap[node]
for remote in remoteIDmap:
outstring = outstring + "taskID: " + str(task) + "\tlocalnodeID: " + str(node) +"\tremotenodeID: " + str(remote) + "\n"
k = k + 1
if k == nodeIDmap.size():
break
j = j + 1
if j == taskIDMap.size():
break
i = i + 1
i = 0
print outstring
while i < ungrid.getNumberSets():
readSet = ungrid.getSet(i)
if not readSet.isInitialized():
readSet.read()
print "Set # " + str(i)
print readSet.getName()
if readSet.getType() == XdmfSetType.Node():
print "This set is a node"
else:
print "This set is not a node"
outputInformation = readSet.getInformation(0)
print "Key: " + outputInformation.getKey() + "\nValue: " + outputInformation.getValue()
print readSet.getValuesString()
j=0
while j < readSet.getNumberAttributes():
readAttribute = readSet.getAttribute(j)
if not readAttribute.isInitialized():
readAttribute.read()
print "Set Attribute # " + str(j)
print readAttribute.getName()
if readAttribute.getType() == XdmfAttributeType.Scalar():
print "This attribute is a scalar"
else:
print "This attribute is not a scalar"
if readAttribute.getCenter() == XdmfAttributeCenter.Node():
print "This attribute is a node"
else:
print "This attribute is not a node"
print readAttribute.getValuesString()
j = j + 1
i = i + 1
i = 0
while i < ungrid.getNumberAttributes():
readAttribute = ungrid.getAttribute(i)
if not readAttribute.isInitialized():
readAttribute.read()
print "Attribute # " + str(i)
print readAttribute.getName()
if readAttribute.getType() == XdmfAttributeType.Scalar():
print "This attribute is a scalar"
else:
print "This attribute is not a scalar"
if readAttribute.getCenter() == XdmfAttributeCenter.Node():
print "This attribute is a node"
else:
print "This attribute is not a node"
print readAttribute.getValuesString()
i = i + 1
print "Unstructured Topology"
untopology = ungrid.getTopology()
if not untopology.isInitialized():
untopology.read()
print "The topology's tag: " + untopology.getItemTag()
if untopology.getType() == XdmfTopologyType.Hexahedron():
print "This topology is a hexahedron"
else:
print "This topology is not a hexahedron"
print "Contains " + str(untopology.getNumberElements()) + " elements"
print "Contains the values: " + untopology.getValuesString()
print "Unstructured Geometry"
ungeometry = ungrid.getGeometry()
if not ungeometry.isInitialized():
ungeometry.read()
print "The geometry's tag: " +ungeometry.getItemTag()
if ungeometry.getType() == XdmfGeometryType.XYZ():
print "This geometry is XYZ"
else:
print "This geometry is not XYZ"
outputInformation = ungeometry.getInformation(0)
print "Key: " + outputInformation.getKey() + "\nValue: " + outputInformation.getValue()
print "Contains " + str(ungeometry.getNumberPoints()) + " points"
print "Contains the values: " + ungeometry.getValuesString()
print "Curvilinear Grid"
curvgrid = gridHolder.getCurvilinearGrid(0)
print "The Curvilinear Grid's tag is: " + curvgrid.getItemTag()
print "The Curvilinear Grid's name is: " + curvgrid.getName()
for property in curvgrid.getItemProperties():
print property + ": " + curvgrid.getItemProperties()[property]
outputInformation = curvgrid.getInformation(0)
print "Key: " + outputInformation.getKey() + "\nValue: " + outputInformation.getValue()
print "The Curvilinear Grid's time is: " + str(curvgrid.getTime().getValue())
i = 0
outstring = ""
while i < curvgrid.getNumberMaps():
readMap = curvgrid.getMap(i)
if not readMap.isInitialized():
readMap.read()
print "Map # " + str(i)
taskIDMap = readMap.getMap()
j = 0
for task in taskIDMap:
nodeIDmap = taskIDMap[task]
k = 0
for node in nodeIDmap:
remoteIDmap = nodeIDmap[node]
for remote in remoteIDmap:
outstring = outstring + "taskID: " + str(task) + "\tlocalnodeID: " + str(node) +"\tremotenodeID: " + str(remote) + "\n"
k = k + 1
if k == nodeIDmap.size():
break
j = j + 1
if j == taskIDMap.size():
break
i = i + 1
i = 0
print outstring
while i < curvgrid.getNumberSets():
readSet = curvgrid.getSet(i)
if not readSet.isInitialized():
readSet.read()
print "Set # " + str(i)
print readSet.getName()
if readSet.getType() == XdmfSetType.Node():
print "This set is a node"
else:
print "This set is not a node"
print readSet.getValuesString()
j=0
while j < readSet.getNumberAttributes():
readAttribute = readSet.getAttribute(j)
if not readAttribute.isInitialized():
readAttribute.read()
print "Set Attribute # " + str(j)
print readAttribute.getName()
if readAttribute.getType() == XdmfAttributeType.Scalar():
print "This attribute is a scalar"
else:
print "This attribute is not a scalar"
if readAttribute.getCenter() == XdmfAttributeCenter.Node():
print "This attribute is a node"
else:
print "This attribute is not a node"
print readAttribute.getValuesString()
j = j + 1
i = i + 1
i = 0
while i < curvgrid.getNumberAttributes():
readAttribute = curvgrid.getAttribute(i)
if not readAttribute.isInitialized():
readAttribute.read()
print "Attribute # " + str(i)
print readAttribute.getName()
if readAttribute.getType() == XdmfAttributeType.Scalar():
print "This attribute is a scalar"
else:
print "This attribute is not a scalar"
if readAttribute.getCenter() == XdmfAttributeCenter.Node():
print "This attribute is a node"
else:
print "This attribute is not a node"
outputInformation = readAttribute.getInformation(0)
print "Key: " + outputInformation.getKey() + "\nValue: " + outputInformation.getValue()
print readAttribute.getValuesString()
i = i + 1
print "Curvilinear Dimensions"
curvdimensions = curvgrid.getDimensions()
if not curvdimensions.isInitialized():
curvdimensions.read()
print "The dimensions' tag: " + curvdimensions.getItemTag()
print "Contains the values: " + curvdimensions.getValuesString()
print "Curvilinear Geometry"
curvgeometry = curvgrid.getGeometry()
if not curvgeometry.isInitialized():
curvgeometry.read()
print "The geometry's tag: " + curvgeometry.getItemTag()
if curvgeometry.getType() == XdmfGeometryType.XYZ():
print "This geometry is XYZ"
else:
print "This geometry is not XYZ"
outputInformation = curvgeometry.getInformation(0)
print "Key: " + outputInformation.getKey() + "\nValue: " + outputInformation.getValue()
print "Contains " + str(curvgeometry.getNumberPoints()) + " points"
print "Contains the values: " + curvgeometry.getValuesString()
print "Rectilinear Grid"
rectgrid = gridHolder.getRectilinearGrid(0)
print "The Rectilinear Grid's tag is: " + rectgrid.getItemTag()
print "The Rectilinear Grid's name is: " + rectgrid.getName()
for property in rectgrid.getItemProperties():
print property + ": " + rectgrid.getItemProperties()[property]
print "The Rectilinear Grid's time is: " + str(rectgrid.getTime().getValue())
i = 0
outstring = ""
while i < rectgrid.getNumberMaps():
readMap = rectgrid.getMap(i)
if not readMap.isInitialized():
readMap.read()
print "Map # " + str(i)
taskIDMap = readMap.getMap()
j = 0
for task in taskIDMap:
nodeIDmap = taskIDMap[task]
k = 0
for node in nodeIDmap:
remoteIDmap = nodeIDmap[node]
for remote in remoteIDmap:
outstring = outstring + "taskID: " + str(task) + "\tlocalnodeID: " + str(node) +"\tremotenodeID: " + str(remote) + "\n"
k = k + 1
if k == nodeIDmap.size():
break
j = j + 1
if j == taskIDMap.size():
break
i = i + 1
i = 0
print outstring
while i < rectgrid.getNumberSets():
readSet = rectgrid.getSet(i)
if not readSet.isInitialized():
readSet.read()
print "Set # " + str(i)
print readSet.getName()
if readSet.getType() == XdmfSetType.Node():
print "This set is a node"
else:
print "This set is not a node"
print readSet.getValuesString()
j=0
while j < readSet.getNumberAttributes():
readAttribute = readSet.getAttribute(j)
if not readAttribute.isInitialized():
readAttribute.read()
print "Set Attribute # " + str(j)
print readAttribute.getName()
if readAttribute.getType() == XdmfAttributeType.Scalar():
print "This attribute is a scalar"
else:
print "This attribute is not a scalar"
if readAttribute.getCenter() == XdmfAttributeCenter.Node():
print "This attribute is a node"
else:
print "This attribute is not a node"
print readAttribute.getValuesString()
j = j + 1
i = i + 1
i = 0
while i < rectgrid.getNumberAttributes():
readAttribute = rectgrid.getAttribute(i)
if not readAttribute.isInitialized():
readAttribute.read()
print "Attribute # " + str(i)
print readAttribute.getName()
if readAttribute.getType() == XdmfAttributeType.Scalar():
print "This attribute is a scalar"
else:
print "This attribute is not a scalar"
if readAttribute.getCenter() == XdmfAttributeCenter.Node():
print "This attribute is a node"
else:
print "This attribute is not a node"
outputInformation = readAttribute.getInformation(0)
print "Key: " + outputInformation.getKey() + "\nValue: " + outputInformation.getValue()
print readAttribute.getValuesString()
i = i + 1
print "Rectilinear Dimensions"
rectdimensions = rectgrid.getDimensions()
if not rectdimensions.isInitialized():
rectdimensions.read()
print "The dimensions' tag: " + rectdimensions.getItemTag()
print "Contains the values: " + rectdimensions.getValuesString()
print "Rectilinear Coordinates"
rectcoordinates = rectgrid.getCoordinates()
print "Contains the values: "
for coordinateaxes in rectcoordinates:
if not coordinateaxes.isInitialized():
coordinateaxes.read()
print coordinateaxes.getValuesString()
print "Regular Grid"
reggrid = gridHolder.getRegularGrid(0)
print "The Regular Grid's tag is: " + reggrid.getItemTag()
print "The Regular Grid's name is: " + reggrid.getName()
for property in reggrid.getItemProperties():
print property + ": " + reggrid.getItemProperties()[property]
print "The Regular Grid's time is: " + str(reggrid.getTime().getValue())
i = 0
outstring = ""
while i < reggrid.getNumberMaps():
readMap = reggrid.getMap(i)
if not readMap.isInitialized():
readMap.read()
print "Map # " + str(i)
taskIDMap = readMap.getMap()
j = 0
for task in taskIDMap:
nodeIDmap = taskIDMap[task]
k = 0
for node in nodeIDmap:
remoteIDmap = nodeIDmap[node]
for remote in remoteIDmap:
outstring = outstring + "taskID: " + str(task) + "\tlocalnodeID: " + str(node) +"\tremotenodeID: " + str(remote) + "\n"
k = k + 1
if k == nodeIDmap.size():
break
j = j + 1
if j == taskIDMap.size():
break
i = i + 1
i = 0
print outstring
while i < reggrid.getNumberSets():
readSet = reggrid.getSet(i)
if not readSet.isInitialized():
readSet.read()
print "Set # " + str(i)
print readSet.getName()
if readSet.getType() == XdmfSetType.Node():
print "This set is a node"
else:
print "This set is not a node"
print readSet.getValuesString()
j=0
while j < readSet.getNumberAttributes():
readAttribute = readSet.getAttribute(j)
if not readAttribute.isInitialized():
readAttribute.read()
print "Set Attribute # " + str(j)
print readAttribute.getName()
if readAttribute.getType() == XdmfAttributeType.Scalar():
print "This attribute is a scalar"
else:
print "This attribute is not a scalar"
if readAttribute.getCenter() == XdmfAttributeCenter.Node():
print "This attribute is a node"
else:
print "This attribute is not a node"
print readAttribute.getValuesString()
j = j + 1
i = i + 1
i = 0
while i < reggrid.getNumberAttributes():
readAttribute = reggrid.getAttribute(i)
if not readAttribute.isInitialized():
readAttribute.read()
print "Attribute # " + str(i)
print readAttribute.getName()
if readAttribute.getType() == XdmfAttributeType.Scalar():
print "This attribute is a scalar"
else:
print "This attribute is not a scalar"
if readAttribute.getCenter() == XdmfAttributeCenter.Node():
print "This attribute is a node"
else:
print "This attribute is not a node"
print readAttribute.getValuesString()
i = i + 1
print "Regular Brick Size"
regbricksize = reggrid.getBrickSize()
if not regbricksize.isInitialized():
regbricksize.read()
print "The brick's tag: " + regbricksize.getItemTag()
print "Contains the values: " + regbricksize.getValuesString()
print "Regular Number of Points"
regnumpoints = reggrid.getDimensions()
if not regnumpoints.isInitialized():
regnumpoints.read()
print "The dimensions' tag: " + regnumpoints.getItemTag()
print "Contains the values: " + regnumpoints.getValuesString()
print "Regular Origin"
regorigin = reggrid.getOrigin()
if not regorigin.isInitialized():
regorigin.read()
print "The origin's tag: " + regorigin.getItemTag()
print "Contains the values: " + regorigin.getValuesString()
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