コード例 #1
0
 def __init__(self, emule, mode):
     self.win = False
     self.running = True
     self.emule = emule
     self.c = True
     self.grill = Grill()
     self.matrix = Matrix()
     if not self.emule:
         self.machine = Machine()
     self.strategy = IA(self.matrix)
コード例 #2
0
ファイル: compile.py プロジェクト: Waynefn/mini-mini-pascal
def pcompile_and_run(filename):
    code = pcompile(filename)
    if len(code) == 0:
        return 1
    try:
        m = Machine(code)
    except Exception:
        print("Cannot initialize Machine")
    try:
        m.run()
    except SyntaxError as e:
        print("Machine runtime error. Reason:{}".format(e.msg))
    except IndexError:
        print("Machine runtime error. Reason:StackError")
    except ZeroDivisionError:
        print("Machine runtime error. Reason:ZeroDivisionError")
コード例 #3
0
    def __init__(self):

        # Initializing window and UI
        QMainWindow.__init__(self)
        self.ui = Ui_MainWindow()
        self.ui.setupUi(self)
        self.setWindowTitle("Time Calculation App")

        # Initializing Results Section
        headers = [
            'Machine', 'Planet', 'Labor (Hrs)', 'Machine Time (Hrs)',
            'Setup (Hrs)', 'Test Run (Hrs)', 'Coating (Hrs)', 'Quantity',
            'Yield', 'Scrap', ''
        ]
        self.results = TableView(headers, self, 0, len(headers))
        self.results.setParent(self.ui.resultsContainer)
        # self.results.setFixedWidth(1265)
        self.results.setFixedWidth(self.ui.resultsContainer.width())
        self.results.setFixedHeight(self.ui.resultsContainer.height())

        # Initialize variables needed
        self.machines = [
            Machine(), Machine(), Machine()
        ]  # TODO: restructure to have planets w workorders in machines
        self.techID = None
        self.theme = 1

        # Initialize pie chart widgets and set theme
        self.initPieCharts()
        self.toggleTheme()

        # Connect Signals and Slots
        self.ui.addWorkOrderButton.clicked.connect(
            lambda: self.showWOInitDialog())
        self.ui.planetConfigButton.clicked.connect(
            lambda: self.showPlanetConfigDialog())
        self.ui.randomButton.clicked.connect(
            lambda: self.loadRandomWorkOrders())
        self.ui.clearButton.clicked.connect(lambda: self.reInit())
        self.ui.themeButton.clicked.connect(lambda: self.toggleTheme())
        self.themeChanged.connect(lambda: self.results.setBG())
        self.ui.actionSave.triggered.connect(self.browseForFile_save)
        self.ui.actionLoad.triggered.connect(self.browseForFile_load)
        self.ui.techIDbutton.toggled.connect(self.setTechID)
        self.connectMachineSignals()
コード例 #4
0
ファイル: world.py プロジェクト: pcgentry/candy_machine
    def __init__(self, strategy="random") -> None:
        self.config = WORLD
        self.initial_wuzzle_population = self.config[
            "initial_wuzzle_population"]
        self.initial_candy_population = self.config["initial_candy_population"]
        self.nights = 0
        self.lick_counter = 0
        self.nightly_lick_counter = 0

        self.reward = 10
        self.punishment = -100

        self.hunger_rate = float(self.config["hunger_rate"])
        self.machine = Machine(reward=self.reward,
                               punishment=self.punishment,
                               strategy=strategy)
        self.generate_wuzzles()
        self.generate_candies()

        for wuzzle in self.wuzzles:
            wuzzle.find_candies(self.candies)
            wuzzle.generate_cookbooks()
コード例 #5
0
class Game:
    def __init__(self, emule, mode):
        self.win = False
        self.running = True
        self.emule = emule
        self.c = True
        self.grill = Grill()
        self.matrix = Matrix()
        if not self.emule:
            self.machine = Machine()
        self.strategy = IA(self.matrix)

    def change_turn(self):
        self.turn = 3 - self.turn

    def get_choice(self):
        if self.turn == Refr.PLAYER:
            if self.emule:
                self.choice = self.grill.get_position()
            else:
                self.choice = self.machine.wait_player()
        elif self.turn == Refr.COMPUTER:
            self.choice = self.strategy.get_choice()

    def state(self):
        if self.choice == Refr.QUIT:
            self.running = False
        #if self.matrix.control_victory():
        #    self.win = True

    def go_turn(self):
        self.matrix.show()
        self.get_choice()
        y = self.matrix.add(self.turn, self.choice)
        self.grill.token(self.turn, self.choice, y)
        self.change_turn()
        self.state()

    def run(self, starter):
        self.turn = starter
        while not self.win and self.running:
            if self.c:
                self.go_turn()
            else:
                sleep(0.1)
        return self.turn
コード例 #6
0
ファイル: main.py プロジェクト: OliverGeisel/PSSAI_Assignment
def solve_task(task):
    time_list = list()
    iter_param = list()
    block_param = list()
    schedule_list = list()
    start = time.time()
    machines = list()
    for i in range(task.machine_count):
        machines.append(Machine(i))
    schedule = Schedule(task.jobs, machines)

    # try some parameters to compare wich is faster
    for i in range(from_iteration, to_iterations):
        for block in range(from_block_time, to_block_time):
            start = time.time()
            schedule_list.append(solve(schedule, i, block))
            end = time.time()
            time_list.append(end - start)
            iter_param.append(i)
            block_param.append(block)
        # print(f"Iteration with {i} Iterations is over")

    shortest_schedule = min(schedule_list)
    shortest_schedule_indizes = list()
    # search for all the schedules that have same (minimal) length
    for x in schedule_list:
        if shortest_schedule == x:
            shortest_schedule_indizes.append(schedule_list.index(x))

    # list the times that the shortest schedules needed to compute
    shortest_times = list()
    for i in range(0, len(time_list) - 1):
        if i in shortest_schedule_indizes:
            shortest_times.append(time_list[i])

    # get shortest needed time
    shortest_time = min(shortest_times)
    # get shortest schedule with smallest time needed
    fastest_schedule_index = time_list.index(shortest_time)
    stop = time.time()
    print(f"finisch task {task.name} in {stop-start}s")
    print(f"Fastest Schedule drawn took {shortest_time}s " +
          f"to calculate and had follwoing params:")
    print(f"Iterations: {iter_param[fastest_schedule_index]}")
    print(f"Block length: {block_param[fastest_schedule_index]}")
    print(schedule_list[fastest_schedule_index])
コード例 #7
0
ファイル: conftest.py プロジェクト: pcgentry/candy_machine
def RandomMachine():
  return Machine()
コード例 #8
0
ファイル: world.py プロジェクト: pcgentry/candy_machine
class World():
    ''' The World object is what contains all the other things in Wuzzlopolis. Wuzzles, Candies, Candy Machines... etc.  This is where days become nights, 
  and history gets written.
  '''
    def __init__(self, strategy="random") -> None:
        self.config = WORLD
        self.initial_wuzzle_population = self.config[
            "initial_wuzzle_population"]
        self.initial_candy_population = self.config["initial_candy_population"]
        self.nights = 0
        self.lick_counter = 0
        self.nightly_lick_counter = 0

        self.reward = 10
        self.punishment = -100

        self.hunger_rate = float(self.config["hunger_rate"])
        self.machine = Machine(reward=self.reward,
                               punishment=self.punishment,
                               strategy=strategy)
        self.generate_wuzzles()
        self.generate_candies()

        for wuzzle in self.wuzzles:
            wuzzle.find_candies(self.candies)
            wuzzle.generate_cookbooks()

    def wuzzles_eat_dinner(self):
        for wuzzle in self.wuzzles:
            if wuzzle.life == 1:
                wuzzle.find_candies(self.candies)

                self.machine.recommend_for_wuzzle(wuzzle, self.candies,
                                                  self.config["menu_size"])

                wuzzle.check_menu(self.candies, self.machine)
                if wuzzle.nightly_lick_counter > 0:
                    self.lick_counter += wuzzle.nightly_lick_counter
                    self.nightly_lick_counter += wuzzle.nightly_lick_counter

        self.machine.save_model()

    def night(self):
        ''' a day has passed, lick, and update hunger '''
        self.nightly_lick_counter = 0

        self.wuzzles_eat_dinner()

        for candy in self.candies:
            candy.hunger += self.hunger_rate
            if candy.hunger >= self.config['hunger_death']:
                candy.life = 0

        for wuzzle in self.wuzzles:
            wuzzle.hunger += self.hunger_rate
            if wuzzle.hunger >= self.config['hunger_death']:
                wuzzle.life = 0

        self.nights += 1

    def generate_wuzzles(self):
        ''' This is where we keep our Wuzzles '''

        self.wuzzles = []
        for i in range(self.initial_wuzzle_population):
            self.wuzzles.append(Wuzzle())

    def generate_candies(self):
        ''' This is where all the CANDY individuals live. '''

        self.candies = []
        for i in range(self.initial_candy_population):
            self.candies.append(Candy())

    def objects_report(self):

        w_report = {}
        w_list = []
        c_list = []
        f_list = []

        for wuzzle in self.wuzzles:
            w_list.append(wuzzle.name)

        for candy in self.candies:
            c_list.append(candy.name)

        w_report["wuzzles"] = w_list
        w_report["candies"] = c_list
        w_report["flavors"] = self.config["flavors"]

        return w_report

    def population_status(self) -> dict:
        status = {}

        status["nightly_lick_counter"] = self.nightly_lick_counter
        status["lick_counter"] = self.lick_counter

        status["population_wuzzle"] = 0
        status["dead_wuzzle"] = 0
        status["live_wuzzle"] = 0
        status["total_hunger_wuzzle"] = 0

        for wuzzle in self.wuzzles:
            status["population_wuzzle"] += 1
            if wuzzle.life == 1:
                status["live_wuzzle"] += 1
                status["total_hunger_wuzzle"] += wuzzle.hunger

        self.wuzzle_population = status["live_wuzzle"]
        status["dead_wuzzle"] = status["population_wuzzle"] - status[
            "live_wuzzle"]

        status["population_candy"] = 0
        status["dead_candy"] = 0
        status["live_candy"] = 0
        status["total_hunger_candy"] = 0

        for candy in self.candies:
            status["population_candy"] += 1
            if candy.life == 1:
                status["live_candy"] += 1
                status["total_hunger_candy"] += candy.hunger

        status[
            "dead_candy"] = status["population_candy"] - status["live_candy"]

        status["machine_accuracy"] = self.machine.report_accuracy()

        return (status)