コード例 #1
0
 def receive(self):
     try:
         received, address = self.socketConn.recvfrom(2048)
         logMessage = "Received message from " + address
         Logger.Log(0, logMessage)
     except Exception as ex:
         Logger.Log(1, "Failed to receive message: " + str(ex))
         return ex
コード例 #2
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 def bind(self):
     try:
         Logger.Log(0, "Binding Socket")
         self.socketConn.bind((self.hostIP, self.hostPort))
         Logger.Log(0, "Sucessfuly bind")
     except Exception as ex:
         Logger.Log(1, "Failed to bind:" + str(ex))
         return ex
コード例 #3
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 def send(self, message, destination):
     try:
         logMessage = "Sending Message to " + str(destination)
         Logger.Log(0,logMessage)
         data = message
         self.socketConn.sendto(data.encode('utf-8'),destination)
         Logger.Log(0,"Message Sent")
     except Exception as ex:
         Logger.Log(1, "Failed to send message: " + str(ex))
         return ex
コード例 #4
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ファイル: ARNR.py プロジェクト: elemenohpi/ARNF
	def regulate(self, iterations, output=False, log=False):
		self.normalize()
		for itter in range(iterations):
			for i, gene in enumerate(self.genes):
				# Save the old output values 
				# We don't want to regulate the input genes
				if gene.type == "I":
					continue	
				enh = 0.
				inh = 0.
				for j, g_j in enumerate(self.genes):
					# We don't want to regulate with the output genes
					if g_j.type == "O":
						continue
					enh += gene.enhImpacts[j] * g_j.concentration
					inh += gene.inhImpacts[j] * g_j.concentration
				enh /= len(self.genes)
				inh /= len(self.genes)
				# print("Gene: {} enh: {} inh: {} impact: {}".format(i, enh, inh, enh-inh))
				# update the concentrations
				impact = gene.concentration * self.delta * (enh - inh)
				# print("old: {} impact: {} new: {}".format(gene.concentration, impact, gene.concentration + impact))
				gene.concentration += impact
				#ToDo:: I hate this
				if gene.concentration < 0:
					gene.concentration = 0
			self.normalize()
			self.mapValues()
			# ToDo:: Probably need to change this format for logging and outputting for simplifying the network
			if output:
				print("Iteration {}".format(itter))
				for i, gene in enumerate(self.genes):
					print("Gene: {} Type: {} Concentration: {}".format(i, gene.type, gene.concentration))
			log = True
			if log: 
				if itter == 0:
					header = ['time']
					for i, gene in enumerate(self.genes):
						header.append("{}.{}".format(gene.type, i))
					LOG = L.Logger("Task", "regulation.csv", header, True)
					LOG2 = L.Logger("Task", "outputs.csv", header, True)
				data = "{},".format(itter)
				data2 = "{},".format(itter)
				for gene in self.genes:
					data += "{},".format(gene.concentration)
					try:
						data2 += "{},".format(gene.extra[0])
					except:
						raise Exception("can't find extra information about the gene")
				LOG.logln(data)
				LOG2.logln(data2)
コード例 #5
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 def regulate(self, iterations, output=False, log=False):
     self.outputs = []
     self.normalize()
     # The time loop
     for itter in range(iterations):
         for i, gene in enumerate(self.genes):
             # We don't want to regulate the input genes
             if gene.type == "I":
                 continue
             enh = 0.
             inh = 0.
             for j, g_j in enumerate(self.genes):
                 # We don't want to regulate with the output genes
                 if g_j.type == "O":
                     continue
                 enh += gene.enhImpacts[j] * g_j.concentration
                 inh += gene.inhImpacts[j] * g_j.concentration
             enh /= (len(self.genes) - self.outputCount)
             inh /= (len(self.genes) - self.outputCount)
             # update the concentrations
             impact = gene.concentration * self.delta * (enh - inh)
             # print("old: {} impact: {} new: {}".format(gene.concentration, impact, gene.concentration + impact))
             gene.concentration += impact
             if gene.concentration < 0:
                 gene.concentration = 0
         self.normalize()
         # ToDo:: Probably need to change this format for logging and outputting for simplifying the network
         if output:
             print("Iteration {}".format(itter))
             for i, gene in enumerate(self.genes):
                 print("Gene: {} Type: {} Concentration: {}".format(
                     i, gene.type, gene.concentration))
         if log:
             if itter == 0:
                 header = ['time']
                 for i, gene in enumerate(self.genes):
                     header.append("{}.{}".format(gene.type, i))
                 LOG = L.Logger("Task", "regulation.csv", header, True)
             data = "{},".format(itter)
             for gene in self.genes:
                 data += "{},".format(gene.concentration)
             LOG.logln(data)
コード例 #6
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ファイル: ARNB.py プロジェクト: elemenohpi/ARNF
    def regulate(self, iterations, output=False, log=False):
        self.outputs = []
        oldOutputs = []
        # ToDo:: Computational cost can be reduced if we save a list of inputs/outputs
        if self.mode == "binaryIncremental":
            for gene in self.genes:
                if gene.type == "O":
                    oldOutputs.append(gene.concentration)
        elif self.mode == "continuous":
            pass
        else:
            print("ERROR! Mode does not exist!")
            exit(1)

        for itter in range(iterations):
            self.normalize()
            for i, gene in enumerate(self.genes):
                # Save the old output values
                # We don't want to regulate the input genes
                if gene.type == "I":
                    continue
                enh = 0.
                inh = 0.
                for j, g_j in enumerate(self.genes):
                    # We don't want to regulate with the output genes
                    if g_j.type == "O":
                        continue
                    enh += gene.enhImpacts[j] * g_j.concentration
                    inh += gene.inhImpacts[j] * g_j.concentration
                enh /= len(self.genes)
                inh /= len(self.genes)
                # print("Gene: {} enh: {} inh: {} impact: {}".format(i, enh, inh, enh-inh))
                # update the concentrations
                impact = gene.concentration * self.delta * (enh - inh)
                # print("old: {} impact: {} new: {}".format(gene.concentration, impact, gene.concentration + impact))
                gene.concentration += impact
                if gene.concentration < 0:
                    gene.concentration = 0
            self.normalize()
            # ToDo:: Probably need to change this format for logging and outputting for simplifying the network
            if output:
                print("Iteration {}".format(itter))
                for i, gene in enumerate(self.genes):
                    print("Gene: {} Type: {} Concentration: {}".format(
                        i, gene.type, gene.concentration))
            if log:
                if itter == 0:
                    header = ['time']
                    for i, gene in enumerate(self.genes):
                        header.append("{}.{}".format(gene.type, i))
                    LOG = L.Logger("Task", "regulation.csv", header, True)
                data = "{},".format(itter)
                for gene in self.genes:
                    data += "{},".format(gene.concentration)
                LOG.logln(data)
                # ToDo:: To reduce the computational cost, maybe add this to the normalize function? Or even saving a list of outputs might help.
        if self.mode == "binaryIncremental":
            outputIndex = -1
            for gene in self.genes:
                if gene.type == "O":
                    outputIndex += 1
                    # ExpValue: The equal part for not changing is an experimental value. But this makes sense cause it's the same as rounding up maybe? I don't know this at this point.
                    # if doesn't change or increases
                    if gene.concentration >= oldOutputs[outputIndex]:
                        self.outputs.append(1)
                    else:
                        # if becomes less
                        self.outputs.append(0)
        else:
            print("ERROR! Mode not coded -.- :( Exiting!")
            exit(1)
            pass
コード例 #7
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 def __init__(self, hostIP, hostPort):
     logMessage = "Initiating socket at " + hostIP +":" + str(hostPort)
     Logger.Log(0, logMessage)
     self.socketConn = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
     self.hostIP = hostIP
     self.hostPort = hostPort