def test_addEdge(self):
vertex1 = Vertex(1)
vertex2 = Vertex(2)
graph = Graph([vertex1, vertex2], [])
# Case 1: Both of edge's vertexes are in graph
edge1 = Edge(vertex1, vertex2, 3)
graph.addEdge(edge1)
self.assertIn(edge1, graph.edges)
# Case 2: One edge's vertex is not in graph
vertex3 = Vertex(3)
edge2 = Edge(vertex2, vertex3, 4)
graph.addEdge(edge2)
self.assertIn(edge2, graph.edges)
self.assertIn(vertex3, graph.vertexes)
# Case 3: Both of edge's vertexes are not in graph
vertex4 = Vertex(4)
vertex5 = Vertex(5)
edge3 = Edge(vertex4, vertex5, 3)
graph.addEdge(edge3)
self.assertIn(edge3, graph.edges)
self.assertIn(vertex4, graph.vertexes)
self.assertIn(vertex5, graph.vertexes)
def test_getTraversibleEdges(self):
vertex1 = Vertex(1)
vertex2 = Vertex(2)
edge1 = Edge(vertex1, vertex2, 3)
edge2 = Edge(vertex1, vertex2, 4)
edge2.traversible = False
self.assertNotIn(edge2, vertex1.getTraversibleEdges())
def test_delete(self):
vertex1 = Vertex(1)
vertex2 = Vertex(2)
edge = Edge(vertex1, vertex2, 3)
edge.delete()
self.assertNotIn(edge, vertex1.edges)
self.assertNotIn(edge, vertex2.edges)
def test_getOtherEnd(self):
vertex1 = Vertex(1)
vertex2 = Vertex(2)
vertex3 = Vertex(3)
edge = Edge(vertex1, vertex2, 3)
self.assertEqual(edge.getOtherEnd(vertex1), vertex2)
self.assertEqual(edge.getOtherEnd(vertex2), vertex1)
self.assertEqual(edge.getOtherEnd(vertex3), None)
def addEdge(self, edge: Edge):
if not edge in self.edges:
if not edge.getVertexes()[0] in self.vertexes:
self.vertexes.append(edge.getVertexes()[0])
if not edge.getVertexes()[1] in self.vertexes:
self.vertexes.append(edge.getVertexes()[1])
self.edges.append(edge)
return True
else:
return False
def test_pathAsString(self):
vertex1 = Vertex(1)
vertex2 = Vertex(2)
vertex3 = Vertex(3)
edge1 = Edge(vertex1, vertex2, 1)
edge2 = Edge(vertex2, vertex3, 2)
path = Path(vertex1, [edge1, edge2], 1 + 2)
self.assertEqual(path.pathAsString(), "1 - 2 - 3 --- weight = 3")
def test_delete(self):
vertex1 = Vertex(1)
vertex2 = Vertex(2)
edge1 = Edge(vertex1, vertex2, 3)
edge2 = Edge(vertex1, vertex2, 4)
vertex1.delete()
self.assertEqual(vertex1.ind, None)
self.assertNotIn(edge1, vertex2.edges)
self.assertNotIn(edge2, vertex2.edges)
def test_createPath2(self):
"""Case 2: Path between vertexes exists.
"""
vertex1 = Vertex(1)
vertex2 = Vertex(2)
edge = Edge(vertex1, vertex2, 3)
edge.depositedPheromone = 1
ant = Ant(1, 1)
actualPath, antReachedEnd = ant.createPath(vertex1, vertex2)
self.assertIsNotNone(actualPath)
self.assertTrue(antReachedEnd)
def test_constructor(self):
vertex1 = Vertex(1)
vertex2 = Vertex(2)
vertex3 = Vertex(3)
edge1 = Edge(vertex1, vertex2, 1)
edge2 = Edge(vertex2, vertex3, 2)
path = Path(vertex1, [edge1, edge2], 1 + 2)
self.assertEqual(vertex1, path.beginning)
self.assertEqual(path.cost, 3)
self.assertIn(edge1, path.edges)
self.assertIn(edge2, path.edges)
def test_constructor(self):
vertex1 = Vertex(1)
vertex2 = Vertex(2)
edge = Edge(vertex1, vertex2, 3)
self.assertIn(edge, vertex1.edges)
self.assertIn(edge, vertex2.edges)
def test_makeVertexNotAccesible(self):
vertex1 = Vertex(1)
vertex2 = Vertex(2)
edge = Edge(vertex1, vertex2, 3)
ant = Ant(1, 1)
ant.makeVertexNotAccessible(vertex1)
self.assertFalse(edge.traversible)
def test_getDataAsString(self):
testRunNumber = 1
testInputFilename = "testInputFilename.txt"
testVertexStartInd = 1
testVertexEndInd = 2
testPheromoneInfluence = 0.1
testDesirabilityInfluence = 0.1
testEvaporationCoefficent = 0.1
testItersNum = 10
testAlgorithmStartTime = datetime.datetime.strptime(
"2020_01_29_12_59", "%Y_%m_%d_%H_%M")
testAlgorithmEndTime = datetime.datetime.strptime(
"2020_01_29_13_59", "%Y_%m_%d_%H_%M")
testElapsedTime = testAlgorithmEndTime - testAlgorithmStartTime
v1 = Vertex(1)
v2 = Vertex(2)
e = Edge(v1, v2, 9)
testPath = Path(v1, [e], e.weight)
testData = ACOShortestPathOutputData(
testRunNumber, testInputFilename, testVertexStartInd,
testVertexEndInd, testPheromoneInfluence,
testDesirabilityInfluence, testEvaporationCoefficent, testItersNum,
testAlgorithmStartTime, testAlgorithmEndTime, testElapsedTime,
testPath, False, "")
expectedDataAsString = """
------------------------------------
Run: 1
Input: testInputFilename.txt
Parameters:
- vertex_start = 1
- vertex_end = 2
- pheromone_influence = 0.1
- desirability_influence = 0.1
- evaporation_coefficent = 0.1
- iters_num = 10
Start: 12:59:00 29/01/2020
End: 13:59:00 29/01/2020
Time running: 3600.0 sec
Shortest path:
weight = 9
1 - 2 --- weight = 9
------------------------------------"""
actualDataAsString = testData.getDataAsString()
self.assertEqual(expectedDataAsString, actualDataAsString)
def readGraphFromInputFile(inputFilePath: str) -> Graph:
file = open(inputFilePath)
try:
vertexesNum = int(file.readline().strip().split()[2])
edgesNum = int(file.readline().strip().split()[2])
vertexes = [Vertex(i + 1) for i in range(vertexesNum)]
edges = []
line = file.readline().strip()
while line:
content = line.split()
# Vertex start
vertexStartInd = int(content[1])
vertexStart = None
vertex: Vertex
for vertex in vertexes:
if vertex.ind == vertexStartInd:
vertexStart = vertex
# Vertex end
vertexEndInd = int(content[2])
vertexEnd = None
vertex: Vertex
for vertex in vertexes:
if vertex.ind == vertexEndInd:
vertexEnd = vertex
# Weight
weight = int(content[3])
edges.append(Edge(vertexStart, vertexEnd, weight))
line = file.readline().strip()
except Exception as e:
file.close()
raise e
file.close()
return Graph(vertexes, edges)
def deleteEdge(self, edge: Edge):
self.edges.remove(edge)
edge.delete()
def test_writeOutputToFile_withAllPaths(self):
# Initialize data
testRunNumber = 1
testInputFilename = "testInputFilename.txt"
testVertexStartInd = 1
testVertexEndInd = 2
testPheromoneInfluence = 0.1
testDesirabilityInfluence = 0.1
testEvaporationCoefficent = 0.1
testItersNum = 10
testAlgorithmStartTime = datetime.datetime.strptime(
"2020_01_29_12_59", "%Y_%m_%d_%H_%M")
testAlgorithmEndTime = datetime.datetime.strptime(
"2020_01_29_13_59", "%Y_%m_%d_%H_%M")
testElapsedTime = testAlgorithmEndTime - testAlgorithmStartTime
v1 = Vertex(1)
v2 = Vertex(2)
e = Edge(v1, v2, 9)
testPath = Path(v1, [e], e.weight)
testPrintAllPaths = True
testPathToAllPathsFile = "testAllPathsFile.txt"
"""
All paths file
"""
allPathsFile = open(testPathToAllPathsFile, "w")
allPathsFileContent = """1. 1 - 2 --- weight = 9
2. 1 - 2 --- weight = 9
3. 1 - 2 --- weight = 9
4. 1 - 2 --- weight = 9
5. 1 - 2 --- weight = 9"""
allPathsFile.write(allPathsFileContent)
allPathsFile.close()
"""
All paths file end
"""
testData = ACOShortestPathOutputData(
testRunNumber, testInputFilename, testVertexStartInd,
testVertexEndInd, testPheromoneInfluence,
testDesirabilityInfluence, testEvaporationCoefficent, testItersNum,
testAlgorithmStartTime, testAlgorithmEndTime, testElapsedTime,
testPath, testPrintAllPaths, testPathToAllPathsFile)
testOutputFilename = "test_writeOutputToFile_withAllPaths"
outputDataDirPath = os.path.abspath(
os.path.join(__file__, os.pardir, os.pardir, os.pardir, os.pardir,
"Data", "OutputResultFiles",
"ResultsWithAllPathsPrinted"))
testOutputFilePath = os.path.join(outputDataDirPath,
testOutputFilename)
# Testing
ACOShortestPathOutputWriter.writeOutputToFile(testOutputFilePath,
testData)
os.remove(testPathToAllPathsFile)
expectedFileContent = """
------------------------------------
Run: 1
Input: testInputFilename.txt
Parameters:
- vertex_start = 1
- vertex_end = 2
- pheromone_influence = 0.1
- desirability_influence = 0.1
- evaporation_coefficent = 0.1
- iters_num = 10
Start: 12:59:00 29/01/2020
End: 13:59:00 29/01/2020
Time running: 3600.0 sec
Shortest path:
weight = 9
1 - 2 --- weight = 9
------------------------------------
All paths:
1. 1 - 2 --- weight = 9
2. 1 - 2 --- weight = 9
3. 1 - 2 --- weight = 9
4. 1 - 2 --- weight = 9
5. 1 - 2 --- weight = 9"""
actualFileContent = ""
actualFile = open(testOutputFilePath, "r")
line = actualFile.readline()
while line:
actualFileContent += line
line = actualFile.readline()
actualFile.close()
os.remove(testOutputFilePath)
self.assertEqual(expectedFileContent, actualFileContent)