Ejemplo n.º 1
0
    def evaluate(prob, input=None):
        if input:
            for i, decision in enumerate(prob.decisions):
                decision.value = input[i]
        input = [decision.value for decision in prob.decisions]

        k = int(input[0])
        t_nol = int(input[1])

        from modify_ecl_file import modify_file
        from random import randint

        modify_file(
            prob.dataset_name,
            prob.features,
            [randint(1, prob.instances) for _ in xrange(k)],
            t_nol,
            prob.conv,
            prob.tuning_instances,
        )

        print "# ",
        sys.stdout.flush()
        command = 'ecl run /home/vnair2/GIT/HPCCTuning/Problems/HPCC/Kmeans/kmeans.ecl -I"/home/vnair2/GIT/ecl-ml" --target=thor'

        import subprocess

        DEVNULL = open(os.devnull, "wb")
        output = subprocess.check_output(command, shell=True)
        result = output.split("\n")[3]
        import re

        res = re.search(r"_1>(.*)</Result_1>", result)
        return_value = int(res.group(1))
        return [return_value]
Ejemplo n.º 2
0
    def evaluate(prob, input=None):
        if input:
            for i, decision in enumerate(prob.decisions):
                decision.value = input[i]
        input = [decision.value for decision in prob.decisions]

        no_trees = int(input[0])
        no_features = int(input[1])
        purity = input[2]
        depth = int(input[3])

        from modify_ecl_file import modify_file
        from random import randint

        modify_file(prob.dataset_name, no_trees, no_features, purity, depth)

        print "# ",
        sys.stdout.flush()
        command = 'ecl run c:\\GIT\\HPCCTuning\\Problems\\HPCC\\RF\\rf.ecl -I"c:\\GIT\\HPCCTuning\\ecl-ml" --target=hthor --server=10.239.227.6 --port=8010'

        import subprocess

        DEVNULL = open(os.devnull, "wb")
        output = subprocess.check_output(command, shell=True)
        result = output.split("\n")[3]
        import re

        res = re.search(r"accuracy>(.*)</accuracy>", result)
        return_value = res.group(1)

        return [1 - float(return_value)]  # Since max value of accuracy = 1
Ejemplo n.º 3
0
def hpcc_rf(parameter):
    from modify_ecl_file import modify_file
    from random import randint
    modify_file(parameter[0], parameter[1], parameter[2], parameter[3], parameter[4])

    from time import sleep
    sleep(1)
    print "# ",
    sys.stdout.flush()
    command = "ecl run ./Problems/RF/rf.ecl -I\"/home/vnair2/GIT/ecl-ml\" --target=thor"

    import subprocess
    DEVNULL = open(os.devnull, "wb")
    output = subprocess.check_output(command, shell=True)

    import xml.etree.ElementTree as ET
    tree = ET.ElementTree(ET.fromstring(output))
    accuracy = float(tree.getroot().find("Dataset").find("Row").find("accuracy").text)
    return accuracy
Ejemplo n.º 4
0
def hpcc_rf(parameter):
    from modify_ecl_file import modify_file
    from random import randint
    modify_file(parameter[0], parameter[1], parameter[2], parameter[3],
                parameter[4])

    from time import sleep
    sleep(1)
    print "# ",
    sys.stdout.flush()
    command = "ecl run ./Problems/RF/rf.ecl -I\"/home/vnair2/GIT/ecl-ml\" --target=thor"

    import subprocess
    DEVNULL = open(os.devnull, "wb")
    output = subprocess.check_output(command, shell=True)

    import xml.etree.ElementTree as ET
    tree = ET.ElementTree(ET.fromstring(output))
    accuracy = float(
        tree.getroot().find("Dataset").find("Row").find("accuracy").text)
    return accuracy