def parseFile(inputFile):
tasks = []
coalitionsByTasks = []
# READ IN THE FILE >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
f = open(inputFile, 'r')
fcontent = f.read()
lines = fcontent.split('\n')
# STORE COALITIONS AND TASK BIDS >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
for line in range(len(lines)):
t, c, b = lines[line].split(' ')
# collect coalition
blah = []
blah = c.split(',')
coalition = []
for i in range(len(blah)):
coalition.append(int(blah[i]))
# check if the task 't' exists
taskPresent = False
for i in range(len(coalitionsByTasks)):
if (coalitionsByTasks[i].isTask(t) == True):
cbt = coalitionsByTasks[i]
taskPresent = True
break
if (taskPresent):
cbt.addCoalition(coalition, b)
else:
cbtNode = taskNode(str(t))
cbtNode.addCoalition(coalition, b)
coalitionsByTasks.append(cbtNode)
# DUMP CONTENTS OF INPUT FILE >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
print "-------------------------------------------------------------"
print "<<<<<<<<<<<<<<<<<<<<<< INPUT FILE DUMP >>>>>>>>>>>>>>>>>>>>>>"
print "-------------------------------------------------------------"
for line in range(len(lines)):
print lines[line]
# DUMP CONTENTS OF COLLECTED TASKS AND THEIR COALITION BIDS >>>>>>>>>>
print "-------------------------------------------------------------"
print "<<<<<<<<<<<<<< TASKS WITH COALITIONS AND BIDS >>>>>>>>>>>>>>>"
print "-------------------------------------------------------------"
for tNode in coalitionsByTasks:
print "Task <" + str(tNode.taskName) + ">"
print ""
for coalition in tNode.coalitionList:
print " " + str(coalition.getCoalition()) + ", $" + str(coalition.getBid())
print ""
# RECORD EXECUTION TIME
start = time.time()
# CONSTRUCT COALITIONTREE
cTree = coalitionTree(coalitionsByTasks)
cTree.constructTree()
# DETERMINE WINNING COALITION
cTree.determineWinner()
end = time.time()
exeTime = end - start
print "-------------------------------------------------------------"
print "TOTAL EXECUTION TIME: " + str(exeTime)
print "-------------------------------------------------------------"
coalition = []
for i in range(len(blah)):
coalition.append(int(blah[i]))
# check if the task 't' exists
taskPresent = False
for i in range(len(coalitionsByTasks)):
if (coalitionsByTasks[i].isTask(t) == True):
cbt = coalitionsByTasks[i]
taskPresent = True
break
if (taskPresent):
cbt.addCoalition(coalition, b)
else:
cbtNode = taskNode(str(t))
cbtNode.addCoalition(coalition, b)
coalitionsByTasks.append(cbtNode)
# DUMP CONTENTS OF INPUT FILE >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
print "-------------------------------------------------------------"
print "<<<<<<<<<<<<<<<<<<<<<< INPUT FILE DUMP >>>>>>>>>>>>>>>>>>>>>>"
print "-------------------------------------------------------------"
for line in range(len(lines)):
print lines[line]
# DUMP CONTENTS OF COLLECTED TASKS AND THEIR COALITION BIDS >>>>>>>>>>
print "-------------------------------------------------------------"
print "<<<<<<<<<<<<<< TASKS WITH COALITIONS AND BIDS >>>>>>>>>>>>>>>"
print "-------------------------------------------------------------"
def run(self):
tasks = []
coalitionsByTasks = []
# READ IN THE FILE >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
#f = open(self.inputFile, 'r')
#fcontent = f.read()
#lines = fcontent.split('\n')
lines = self.textStream.split("\n")
## print " "
## print lines
# STORE COALITIONS AND TASK BIDS >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
for line in range(len(lines)):
t, c, b = lines[line].split(" ")
# collect coalition
blah = []
blah = c.split(",")
coalition = []
for i in range(len(blah)):
coalition.append(int(blah[i]))
# check if the task 't' exists
taskPresent = False
for i in range(len(coalitionsByTasks)):
if (coalitionsByTasks[i].isTask(t) == True):
cbt = coalitionsByTasks[i]
taskPresent = True
break
if (taskPresent):
cbt.addCoalition(coalition, b)
else:
cbtNode = taskNode(str(t))
cbtNode.addCoalition(coalition, b)
coalitionsByTasks.append(cbtNode)
# DUMP CONTENTS OF INPUT FILE >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
## print "-------------------------------------------------------------"
## print "<<<<<<<<<<<<<<<<<<<<<< INPUT FILE DUMP >>>>>>>>>>>>>>>>>>>>>>"
## print "-------------------------------------------------------------"
##
## for line in range(len(lines)):
## print lines[line]
# DUMP CONTENTS OF COLLECTED TASKS AND THEIR COALITION BIDS >>>>>>>>>>
## print "-------------------------------------------------------------"
## print "<<<<<<<<<<<<<< TASKS WITH COALITIONS AND BIDS >>>>>>>>>>>>>>>"
## print "-------------------------------------------------------------"
## for tNode in coalitionsByTasks:
##
## print "Task <" + str(tNode.taskName) + ">"
## print ""
##
## for coalition in tNode.coalitionList:
## print " " + str(coalition.getCoalition()) + ", $" + str(coalition.getBid())
##
## print ""
# SORT THE LIST BASED ON THE NUMBER OF COALITIONS ASSIGNED TO EACH TASK
self.printit("-------------------------------------------------------------")
self.printit("<<<<<<<<<<< SORTING TASKS BY NUMBER OF COALITIONS >>>>>>>>>>>")
self.printit("-------------------------------------------------------------")
self.printit("sorting....")
coalitionsByTasks.sort(lambda x, y: cmp(len(x.coalitionList), len(y.coalitionList)))
self.printit("done sorting...\n")
self.printit("Displaying all bids submitted per task...")
self.printit("Showing tasks with increasing number of submitted bids...\n")
for tNode in coalitionsByTasks:
self.printit("Task <" + str(tNode.taskName) + ">\n")
for coalition in tNode.coalitionList:
self.printit(" " + str(coalition.getCoalition()) + ", $" + str(coalition.getBid()))
self.printit("")
self.ncount = 0
# RECORD EXECUTION TIME
start = time.time()
# CONSTRUCT COALITIONTREE
cTree = coalitionTree(coalitionsByTasks, self.screenDump)
output = cTree.constructTree()
# DETERMINE WINNING COALITION
cTree.determineWinner()
end = time.time()
exeTime = end - start
#print "Execution time --> " + str(exeTime)
## print "-------------------------------------------------------------"
## print "TOTAL EXECUTION TIME: " + str(exeTime)
## print "-------------------------------------------------------------"
output.append(exeTime)
return output
def run(self):
tasks = []
coalitionsByTasks = []
# READ IN THE FILE >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
#f = open(self.inputFile, 'r')
#fcontent = f.read()
#lines = fcontent.split('\n')
lines = self.textStream.split("\n")
## print " "
## print lines
# STORE COALITIONS AND TASK BIDS >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
for line in range(len(lines)):
t, c, b = lines[line].split(" ")
# collect coalition
blah = []
blah = c.split(",")
coalition = []
for i in range(len(blah)):
coalition.append(int(blah[i]))
# check if the task 't' exists
taskPresent = False
for i in range(len(coalitionsByTasks)):
if (coalitionsByTasks[i].isTask(t) == True):
cbt = coalitionsByTasks[i]
taskPresent = True
break
if (taskPresent):
cbt.addCoalition(coalition, b)
else:
cbtNode = taskNode(str(t))
cbtNode.addCoalition(coalition, b)
coalitionsByTasks.append(cbtNode)
# DUMP CONTENTS OF INPUT FILE >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
## print "-------------------------------------------------------------"
## print "<<<<<<<<<<<<<<<<<<<<<< INPUT FILE DUMP >>>>>>>>>>>>>>>>>>>>>>"
## print "-------------------------------------------------------------"
##
## for line in range(len(lines)):
## print lines[line]
# DUMP CONTENTS OF COLLECTED TASKS AND THEIR COALITION BIDS >>>>>>>>>>
## print "-------------------------------------------------------------"
## print "<<<<<<<<<<<<<< TASKS WITH COALITIONS AND BIDS >>>>>>>>>>>>>>>"
## print "-------------------------------------------------------------"
## for tNode in coalitionsByTasks:
##
## print "Task <" + str(tNode.taskName) + ">"
## print ""
##
## for coalition in tNode.coalitionList:
## print " " + str(coalition.getCoalition()) + ", $" + str(coalition.getBid())
##
## print ""
# SORT THE LIST BASED ON THE NUMBER OF COALITIONS ASSIGNED TO EACH TASK
self.printit(
"-------------------------------------------------------------")
self.printit(
"<<<<<<<<<<< SORTING TASKS BY NUMBER OF COALITIONS >>>>>>>>>>>")
self.printit(
"-------------------------------------------------------------")
self.printit("sorting....")
coalitionsByTasks.sort(
lambda x, y: cmp(len(x.coalitionList), len(y.coalitionList)))
self.printit("done sorting...\n")
self.printit("Displaying all bids submitted per task...")
self.printit(
"Showing tasks with increasing number of submitted bids...\n")
for tNode in coalitionsByTasks:
self.printit("Task <" + str(tNode.taskName) + ">\n")
for coalition in tNode.coalitionList:
self.printit(" " + str(coalition.getCoalition()) + ", $" +
str(coalition.getBid()))
self.printit("")
self.ncount = 0
# RECORD EXECUTION TIME
start = time.time()
# CONSTRUCT COALITIONTREE
cTree = coalitionTree(coalitionsByTasks, self.screenDump)
output = cTree.constructTree()
# DETERMINE WINNING COALITION
cTree.determineWinner()
end = time.time()
exeTime = end - start
#print "Execution time --> " + str(exeTime)
## print "-------------------------------------------------------------"
## print "TOTAL EXECUTION TIME: " + str(exeTime)
## print "-------------------------------------------------------------"
output.append(exeTime)
return output
