Beispiel #1
0
 def setUp(self):
     self.g = Graph(6)
     self.g.nodeAt(0, 1).capacityIs(16).costIs(100)
     self.g.nodeAt(0, 2).capacityIs(13).costIs(2)
     self.g.nodeAt(1, 2).capacityIs(10).costIs(3)
     self.g.nodeAt(1, 3).capacityIs(12).costIs(100)
     self.g.nodeAt(2, 1).capacityIs(4).costIs(5)
     self.g.nodeAt(2, 4).capacityIs(14).costIs(1)
     self.g.nodeAt(3, 2).capacityIs(9).costIs(7)
     self.g.nodeAt(3, 5).capacityIs(20).costIs(100)
     self.g.nodeAt(4, 3).capacityIs(7).costIs(9)
     self.g.nodeAt(4, 5).capacityIs(4).costIs(1)
Beispiel #2
0
 def setUp(self):
     self.g = Graph(6)
     self.g.nodeAt(0,1).capacityIs(16).costIs(100)
     self.g.nodeAt(0,2).capacityIs(13).costIs(2)
     self.g.nodeAt(1,2).capacityIs(10).costIs(3)
     self.g.nodeAt(1,3).capacityIs(12).costIs(100)
     self.g.nodeAt(2,1).capacityIs(4).costIs(5)
     self.g.nodeAt(2,4).capacityIs(14).costIs(1)
     self.g.nodeAt(3,2).capacityIs(9).costIs(7)
     self.g.nodeAt(3,5).capacityIs(20).costIs(100)
     self.g.nodeAt(4,3).capacityIs(7).costIs(9)
     self.g.nodeAt(4,5).capacityIs(4).costIs(1)
Beispiel #3
0
    def createBipartiteGraph(self, sellItems, buyItems):
        graphSize = len(buyItems) + len(sellItems) + 2
        graph = Graph(graphSize)
        # build cap constraints for edges from source to buy Items
        sourcePos = 0
        startOfBuy = 1
        startOfSell = 1 + len(buyItems)
        endPos = 1 + len(buyItems) + len(sellItems)
        # build cap constraints for eduges from buy items to end
        for i in range(startOfBuy, startOfSell):
            graph.nodeAt(0, i).setCapacity(abs(buyItems[i - 1].num))
        # build cost edges between buy and sell items
        for j in range(startOfSell, endPos):
            graph.nodeAt(j, endPos).setCapacity(abs(sellItems[j - startOfSell].num))

        for i in range(startOfBuy, startOfSell):
            for j in range(startOfSell, endPos):
                if self.possibleMatch(buyItems[i - 1], sellItems[j - startOfSell]):
                    unitTaxCost = self.getCost(buyItems[i - 1], sellItems[j - startOfSell])
                    graph.nodeAt(i, j).setCost(unitTaxCost).setCapacity(sys.maxint)
        return (graph, startOfBuy, startOfSell, endPos)
Beispiel #4
0
 def test_create(self):
     g = Graph(5)
     g.nodeAt(0,0).capacityIs(1)
     g.nodeAt(4,4).flowIs(3)
     g.nodeAt(3,2).residualIs(100)
     g.nodeAt(3,2).costIs(2)
     print g
     self.assertEqual(g.nodeAt(0,0).getCapacity(), 1)
     self.assertEqual(g.nodeAt(4,4).getFlow(), 3)
     self.assertEqual(g.nodeAt(3,2).getResidual(), 100)
     self.assertEqual(g.nodeAt(3,2).getCost(), 2)
Beispiel #5
0
class TestFF(unittest.TestCase):
    def setUp(self):
        self.g = Graph(6)
        self.g.nodeAt(0,1).capacityIs(16).costIs(100)
        self.g.nodeAt(0,2).capacityIs(13).costIs(2)
        self.g.nodeAt(1,2).capacityIs(10).costIs(3)
        self.g.nodeAt(1,3).capacityIs(12).costIs(100)
        self.g.nodeAt(2,1).capacityIs(4).costIs(5)
        self.g.nodeAt(2,4).capacityIs(14).costIs(1)
        self.g.nodeAt(3,2).capacityIs(9).costIs(7)
        self.g.nodeAt(3,5).capacityIs(20).costIs(100)
        self.g.nodeAt(4,3).capacityIs(7).costIs(9)
        self.g.nodeAt(4,5).capacityIs(4).costIs(1)

    def test_ff(self):
        flow = self.g.fordFulkerson(0, 5)
        print "max possible flow is:" , flow
Beispiel #6
0
 def test_create(self):
     g = Graph(5)
     g.nodeAt(0, 0).capacityIs(1)
     g.nodeAt(4, 4).flowIs(3)
     g.nodeAt(3, 2).residualIs(100)
     g.nodeAt(3, 2).costIs(2)
     print g
     self.assertEqual(g.nodeAt(0, 0).getCapacity(), 1)
     self.assertEqual(g.nodeAt(4, 4).getFlow(), 3)
     self.assertEqual(g.nodeAt(3, 2).getResidual(), 100)
     self.assertEqual(g.nodeAt(3, 2).getCost(), 2)
Beispiel #7
0
class TestFF(unittest.TestCase):
    def setUp(self):
        self.g = Graph(6)
        self.g.nodeAt(0, 1).capacityIs(16).costIs(100)
        self.g.nodeAt(0, 2).capacityIs(13).costIs(2)
        self.g.nodeAt(1, 2).capacityIs(10).costIs(3)
        self.g.nodeAt(1, 3).capacityIs(12).costIs(100)
        self.g.nodeAt(2, 1).capacityIs(4).costIs(5)
        self.g.nodeAt(2, 4).capacityIs(14).costIs(1)
        self.g.nodeAt(3, 2).capacityIs(9).costIs(7)
        self.g.nodeAt(3, 5).capacityIs(20).costIs(100)
        self.g.nodeAt(4, 3).capacityIs(7).costIs(9)
        self.g.nodeAt(4, 5).capacityIs(4).costIs(1)

    def test_ff(self):
        flow = self.g.fordFulkerson(0, 5)
        print "max possible flow is:", flow