def test_spt_add_nodes_1_1(cnfg, cmap):
atblname = cnfg.ArcsTableName
arcsTable = netx.DBHELPER.LoadNetworkFromDB(atblname, cmap)
net = netx.Network(arcsTable, cmap, cnfg)
net.ConvertInputNetwork(cnfg.CleanNetwork)
solver = netx.ShortestPathTree(cnfg)
x = 703444
y = 5364720
supply = 0
withCap = False
startID = net.AddStartNode('start', x, y, supply, cnfg.Treshold, cmap,
withCap)
x = 703342
y = 5364710
endID = net.AddEndNode('end', x, y, supply, cnfg.Treshold, cmap, withCap)
solver.SetOrigin(startID)
dests = netx.Destinations()
dests.append(endID)
solver.SetDestinations(dests)
solver.Solve(net)
optimum = solver.GetOptimum()
del net, solver
return optimum
def test_mcf_load_nodes(cnfg, cmap):
atblname = cnfg.ArcsTableName
arcsTable = netx.DBHELPER.LoadNetworkFromDB(atblname, cmap)
ntblname = cnfg.NodesTableName
nodesTable = netx.DBHELPER.LoadNodesFromDB(ntblname,
cnfg.NodesGeomColumnName, cmap)
withCapacity = True
net = netx.Network(arcsTable, cmap, cnfg)
net.ConvertInputNetwork(cnfg.CleanNetwork)
startNodes = net.LoadStartNodes(nodesTable, cnfg.Treshold, atblname,
cnfg.ArcsGeomColumnName, cmap,
withCapacity)
endNodes = net.LoadEndNodes(nodesTable, cnfg.Treshold, atblname,
cnfg.ArcsGeomColumnName, cmap, withCapacity)
solver = netx.MinCostFlow(cnfg)
solver.Solve(net)
optimum = solver.GetOptimum()
del net, solver
return optimum
def test_spt_add_nodes_1_all(cnfg, cmap):
# netx.LOGGER.Initialize(cnfg)
# netx.DBHELPER.Initialize(cnfg)
atblname = cnfg.ArcsTableName
arcsTable = netx.DBHELPER.LoadNetworkFromDB(atblname, cmap)
net = netx.Network(arcsTable, cmap, cnfg)
net.ConvertInputNetwork(cnfg.CleanNetwork)
solver = netx.ShortestPathTree(cnfg)
x = 703444
y = 5364720
supply = 0
withCap = False
startID = net.AddStartNode('start', x, y, supply, cnfg.Treshold, cmap,
withCap)
solver.SetOrigin(startID)
# all -> no setting of dests
solver.Solve(net)
optimum = solver.GetOptimum()
del net, solver
return optimum
def test_spt_load_nodes_1_n(cnfg, cmap):
atblname = cnfg.ArcsTableName
arcsTable = netx.DBHELPER.LoadNetworkFromDB(atblname, cmap)
ntblname = cnfg.NodesTableName
nodesTable = netx.DBHELPER.LoadNodesFromDB(ntblname,
cnfg.NodesGeomColumnName, cmap)
withCapacity = False
net = netx.Network(arcsTable, cmap, cnfg)
net.ConvertInputNetwork(cnfg.CleanNetwork)
startNodes = net.LoadStartNodes(nodesTable, cnfg.Treshold, atblname,
cnfg.ArcsGeomColumnName, cmap,
withCapacity)
endNodes = net.LoadEndNodes(nodesTable, cnfg.Treshold, atblname,
cnfg.ArcsGeomColumnName, cmap, withCapacity)
solver = netx.ShortestPathTree(cnfg)
solver.SetOrigin(
startNodes[0]
[0]) #first start; first item of tuple is the new internal id
dests = netx.Destinations()
for d in endNodes:
dests.append(d[0]) #first item of tuple is the new internal id
solver.SetDestinations(dests)
solver.Solve(net)
optimum = solver.GetOptimum()
del net, solver
return optimum
def test_add_nodes(cnfg, cmap):
atblname = cnfg.ArcsTableName
arcsTable = netx.DBHELPER.LoadNetworkFromDB(atblname, cmap)
net = netx.Network(arcsTable, cmap, cnfg)
net.ConvertInputNetwork(cnfg.CleanNetwork)
print(("Original Node ID of 1: " + net.GetOriginalNodeID(1)))
x = 703444
y = 5364720
supply = 1
withCap = False
newNodeID = net.AddStartNode('1', x, y, supply, cnfg.Treshold, cmap,
withCap)
print(("Original Node ID of {0}: {1}".format(
newNodeID, net.GetOriginalNodeID(newNodeID))))
x = 703342
y = 5364710
supply = -1
newNodeID = net.AddStartNode('2', x, y, supply, cnfg.Treshold, cmap,
withCap)
print(("Original Node ID of {0}: {1}".format(
newNodeID, net.GetOriginalNodeID(newNodeID))))
del net
def test_odm_add_nodes(cnfg, cmap):
atblname = cnfg.ArcsTableName
arcsTable = netx.DBHELPER.LoadNetworkFromDB(atblname, cmap)
net = netx.Network(arcsTable, cmap, cnfg)
net.ConvertInputNetwork(cnfg.CleanNetwork)
solver = netx.OriginDestinationMatrix(cnfg)
startIDs = []
x = 703444
y = 5364720
supply = 0
withCap = False
startIDs.append(
net.AddStartNode('start1', x, y, supply, cnfg.Treshold, cmap, withCap))
x = 703434
y = 5364710
startIDs.append(
net.AddStartNode('start2', x, y, supply, cnfg.Treshold, cmap, withCap))
destIDs = []
x = 703342
y = 5364710
destIDs.append(
net.AddEndNode('end1', x, y, supply, cnfg.Treshold, cmap, withCap))
x = 703332
y = 5364720
destIDs.append(
net.AddEndNode('end2', x, y, supply, cnfg.Treshold, cmap, withCap))
starts = netx.ODNodes()
for s in startIDs:
starts.append((s, str(s)))
solver.SetOrigins(starts)
dests = netx.ODNodes()
for d in destIDs:
dests.append((d, str(d)))
solver.SetDestinations(dests)
solver.Solve(net)
optimum = solver.GetOptimum()
del net, solver
return optimum
def test_mst(cnfg, cmap):
atblname = cnfg.ArcsTableName
arcsTable = netx.DBHELPER.LoadNetworkFromDB(atblname, cmap)
net = netx.Network(arcsTable, cmap, cnfg)
net.ConvertInputNetwork(cnfg.CleanNetwork)
solver = netx.MinimumSpanningTree(cnfg)
solver.Solve(net)
optimum = solver.GetOptimum()
del net, solver
return optimum
def test_load_nodes_2(cnfg, cmap):
atblname = cnfg.ArcsTableName
arcsTable = netx.DBHELPER.LoadNetworkFromDB(atblname, cmap)
ntblname = cnfg.NodesTableName
nodesTable = netx.DBHELPER.LoadNodesFromDB(ntblname,
cnfg.NodesGeomColumnName, cmap)
withCapacity = False
net = netx.Network(arcsTable, cmap, cnfg)
net.ConvertInputNetwork(cnfg.CleanNetwork)
startNodes = net.LoadStartNodes(nodesTable, cnfg.Treshold, atblname,
cnfg.ArcsGeomColumnName, cmap,
withCapacity)
endNodes = net.LoadEndNodes(nodesTable, cnfg.Treshold, atblname,
cnfg.ArcsGeomColumnName, cmap, withCapacity)
del net
def test_mcf(cnfg, cmap):
atblname = cnfg.ArcsTableName
arcsTable = netx.DBHELPER.LoadNetworkFromDB(atblname, cmap)
net = netx.Network(arcsTable, cmap, cnfg)
net.ConvertInputNetwork(cnfg.CleanNetwork)
startIDs = []
x = 702370
y = 5352540
supply = 10
withCap = True
startIDs.append(
net.AddStartNode('start1', x, y, supply, cnfg.Treshold, cmap, withCap))
x = 702360
y = 5352530
supply = 5
startIDs.append(
net.AddStartNode('start2', x, y, supply, cnfg.Treshold, cmap, withCap))
destIDs = []
x = 699022
y = 5355445
supply = -5
destIDs.append(
net.AddEndNode('end1', x, y, supply, cnfg.Treshold, cmap, withCap))
x = 702237
y = 5358572
supply = -15
destIDs.append(
net.AddEndNode('end2', x, y, supply, cnfg.Treshold, cmap, withCap))
solver = netx.MinCostFlow(cnfg)
solver.Solve(net)
optimum = solver.GetOptimum()
del net, solver
return optimum
def test_load_nodes(cnfg, cmap):
atblname = cnfg.ArcsTableName
ntblname = cnfg.NodesTableName
arcsTable = netx.DBHELPER.LoadNetworkFromDB(atblname, cmap)
nodesTable = netx.DBHELPER.LoadNodesFromDB(ntblname,
cnfg.NodesGeomColumnName, cmap)
# NewNode to InputNode
nodes = netx.InputNodes()
for newNode in nodesTable:
inputNode = netx.InputNode()
inputNode.extNodeID = newNode.extNodeID
inputNode.nodeSupply = newNode.supply
nodes.append(inputNode)
net = netx.Network(arcsTable, nodes, cmap, cnfg)
net.ConvertInputNetwork(cnfg.CleanNetwork)
del net
def test_odm_load_nodes(cnfg, cmap):
atblname = cnfg.ArcsTableName
arcsTable = netx.DBHELPER.LoadNetworkFromDB(atblname, cmap)
ntblname = cnfg.NodesTableName
nodesTable = netx.DBHELPER.LoadNodesFromDB(ntblname,
cnfg.NodesGeomColumnName, cmap)
withCapacity = False
net = netx.Network(arcsTable, cmap, cnfg)
net.ConvertInputNetwork(cnfg.CleanNetwork)
startNodes = net.LoadStartNodes(nodesTable, cnfg.Treshold, atblname,
cnfg.ArcsGeomColumnName, cmap,
withCapacity)
endNodes = net.LoadEndNodes(nodesTable, cnfg.Treshold, atblname,
cnfg.ArcsGeomColumnName, cmap, withCapacity)
solver = netx.OriginDestinationMatrix(cnfg)
starts = netx.ODNodes()
for s in startNodes:
starts.append(s)
dests = netx.ODNodes()
for d in endNodes:
dests.append(d)
solver.SetOrigins(starts)
solver.SetDestinations(dests)
solver.Solve(net)
optimum = solver.GetOptimum()
del net, solver
return optimum
def main():
f = open(
r"/home/hahne/dev/netxpert/test/bin/Release/ODMatrixCnfg_Big.json",
"r")
content = f.read()
f.close()
config_json = json.loads(content)['c'] #c is root
cnfg = netx.Config()
cnfg.ArcsGeomColumnName = config_json["ArcsGeomColumnName"].encode(
'ascii', 'ignore')
cnfg.ArcsTableName = config_json["ArcsTableName"].encode('ascii', 'ignore')
cnfg.NetXDBPath = config_json["NetXDBPath"].encode('ascii', 'ignore')
cnfg.TestCase = config_json["TestCase"]
cnfg.NodesTableName = config_json["NodesTableName"].encode(
'ascii', 'ignore')
cnfg.NodesGeomColumnName = config_json["NodesGeomColumnName"].encode(
'ascii', 'ignore')
cnfg.NodeIDColumnName = config_json["NodeIDColumnName"].encode(
'ascii', 'ignore')
cnfg.NodeSupplyColumnName = config_json["NodeSupplyColumnName"].encode(
'ascii', 'ignore')
cnfg.ArcIDColumnName = config_json["ArcIDColumnName"].encode(
'ascii', 'ignore')
cnfg.FromNodeColumnName = config_json["FromNodeColumnName"].encode(
'ascii', 'ignore')
cnfg.ToNodeColumnName = config_json["ToNodeColumnName"].encode(
'ascii', 'ignore')
cnfg.CostColumnName = config_json["CostColumnName"].encode(
'ascii', 'ignore')
cnfg.CapColumnName = config_json["CapColumnName"].encode('ascii', 'ignore')
cnfg.OnewayColumnName = config_json["OnewayColumnName"].encode(
'ascii', 'ignore')
cnfg.IsDirected = config_json["IsDirected"]
cnfg.LogLevel = config_json["LogLevel"]
cnfg.LogFileFullPath = config_json["LogFileFullPath"].encode(
'ascii', 'ignore')
cnfg.SpatiaLiteHome = config_json["SpatiaLiteHome"].encode(
'ascii', 'ignore')
cnfg.SpatiaLiteCoreName = config_json["SpatiaLiteCoreName"].encode(
'ascii', 'ignore')
cnfg.CleanNetwork = config_json["CleanNetwork"]
cnfg.ResultDBType = config_json["ResultDBType"]
cnfg.ResultDBPath = config_json["ResultDBPath"].encode('ascii', 'ignore')
cnfg.Treshold = config_json["Treshold"]
#print netx.LOGGER.IsInitialized
#if not netx.LOGGER.IsInitialized:
print "init logger"
netx.LOGGER.Initialize(cnfg)
cmap = netx.ColumnMap()
cmap.arcIDColName = cnfg.ArcIDColumnName
cmap.fromColName = cnfg.FromNodeColumnName
cmap.toColName = cnfg.ToNodeColumnName
cmap.costColName = cnfg.CostColumnName
#cmap.capColName = cnfg.CapColumnName
#cmap.onewayColName = cnfg.OnewayColumnName
cmap.nodeIDColName = cnfg.NodeIDColumnName
cmap.supplyColName = cnfg.NodeSupplyColumnName
#if not netx.DBHELPER.IsInitialized:
print "init dbhelper"
netx.DBHELPER.Initialize(cnfg)
atblname = cnfg.ArcsTableName
ntblname = cnfg.NodesTableName
arcsTable = netx.DBHELPER.LoadNetworkFromDB(atblname, cmap)
#nodesTable = netx.DBHELPER.LoadNodesFromDB(ntblname, cmap)
net = netx.Network(arcsTable, cmap, cnfg)
#net = netx.Network(arcsTable, nodesTable, cmap, cnfg)
net.ConvertInputNetwork(cnfg.CleanNetwork)
print "Original Node ID of 1: " + net.GetOriginalNodeID(1)
x = 703444
y = 5364720
supply = 1
withCap = False
print net.AddStartNode('1', x, y, supply, cnfg.Treshold, cmap, withCap)
x = 703342
y = 5364710
supply = -1
print net.AddEndNode('2', x, y, supply, cnfg.Treshold, cmap, withCap)
