Ejemplo n.º 1
0
    def process(self):
        """ Accept Start and Goal Puzzle state"""
        #start = self.puzzle
        start = self.puzzle
        goal = self.goal()
        start = Node(start, 0, 0)
        start.fval = self.f(start, goal)
        """ Put the start node in the open list"""
        self.open.append(start)
        print("\n\n")
        #a = 0
        path = []
        cur = self.open[0]
        while(True):
            #a += 1
            #print(a)
            cur = self.open[0]
            if(self.h(cur.data, goal) == 0):
                break
            for i in cur.generate_child():
                i.parent = cur
                i.fval = self.f(i, goal)
                if self.stateInStates(i, self.closed):
                    continue
                if not self.stateInStates(i, self.open):
                    self.open.append(i)
                if self.stateInStates(i, self.open) and i.fval < self.GetStateFromStates(i, self.open).fval:
                    self.open.remove(self.GetStateFromStates(i, self.open))
                    self.open.append(i)
            self.closed.append(cur)
            del self.open[0]
            """ sort the opne list based on f value """
            self.open.sort(key=lambda x: x.fval, reverse=False)

            # for i in self.open:
            #     print(i.data, i.fval, i.level)

        while(cur != start):
            path.append(cur)
            cur = cur.parent
        path.append(start)
        path.reverse()

        startRow, startColumn = FuntionTools.FindNumberFormMatrix(path[0].data, 0)
        print("where zero at beginning?")
        print(startRow, startColumn)
        print("steps = %d" % (len(path) - 1))
        # 算走法
        movePath = []
        for step in range(1, len(path)):
            startRow, startColumn, moveStep = FuntionTools.GetMove(startRow, startColumn, path[step].data)
            movePath.append(moveStep)

            print("A* step: %d" % step)
            for row in path[step].data:
                print(row)

        return path, movePath
Ejemplo n.º 2
0
 def ClickSaveButton(self):
     self.data.SaveData(self.puzzlePath, self.movePath, self.step + self.storeStep, self.totalStep)
     self.data.SetPuzzle(self.puzzle)
     # self.data.SetPuzzle(self.bestSearch.GetNowPuzzleState(self.step))
     # self.data.SetPuzzle(self.aStar.GetStateFromStates(self.step))
     print("test")
     print(self.data.GetPuzzle())
     print(type(self.data.GetPuzzle()))
     print("Click save data")
     FuntionTools.writeJson("data.json", self.data)
Ejemplo n.º 3
0
 def ClickImageButtion(self, button):
     # buttonPuzzle = []
     # for i in self.buttonList:
     #     btnl = []
     #     for j in i:
     #         btnl.append(j.name())
     #     buttonPuzzle.append(btnl)
     size = 100
     posx, posy = button.pos().x(), button.pos().y()
     btnRow, btnCol = posy // size, posx // size
     print("{%d, %d}" % (btnRow, btnCol))
     if FuntionTools.IsAround((self.nullBtnIndexRow, self.nullBtnIndexCol), (btnRow, btnCol)):
         #self.Move()
         movedir = FuntionTools.GetPlayerMove((self.nullBtnIndexRow, self.nullBtnIndexCol), (btnRow, btnCol))
         self.Move(movedir)
         self.IsUserPlayed = True
Ejemplo n.º 4
0
 def AStar_ComputePath(self):
     self.aStar = AS.Puzzle(self.puzzle)
     self.nullBtnIndexRow, self.nullBtnIndexCol = FuntionTools.FindNumberFormMatrix(self.puzzle, 0)
     self.puzzlePath = self.aStar.GetPath()
     self.totalStep = self.aStar.GetTotalStep()
     self.movePath = self.aStar.GetMovePath()
     self.storeStep += self.step
     self.step = 0
     self.IsUserPlayed = False
Ejemplo n.º 5
0
 def AI_ComputePath(self):
     self.nullBtnIndexRow, self.nullBtnIndexCol = FuntionTools.FindNumberFormMatrix(self.puzzle, 0)
     self.puzzlePath = PA.NPuzzle(self.nullBtnIndexCol, self.nullBtnIndexRow, self.puzzle)
     self.bestSearch = PA.test_best_first_search(self.puzzlePath)
     self.movePath = self.bestSearch.GetMovePath()
     self.totalStep = self.bestSearch.GetTotalStep()
     self.storeStep += self.step
     self.step = 0
     self.IsUserPlayed = False
Ejemplo n.º 6
0
 def ClickLoadButton(self):
     message = "Goto3"
     dataDict = FuntionTools.readJson("data.json")
     self.data.SetData(dataDict)
     self.data.SetPuzzle(dataDict["puzzle"])
     self.data.SetButtonCount(dataDict["rowButtonCount"])
     #self.data.SetPixmapList(dataDict["pixmapList"])
     self.data.SetImagePath(dataDict["imagePath"])
     if self.data.GetImagePath():
         self.imgCtrl.LoadImage(self.data.GetImagePath())
     self.imgCtrl.SetImageList(self.data.GetButtonCount())
     print("Click load")
     self.data.dataSignal.Shoot(message)
Ejemplo n.º 7
0
def best_first_search(start, max_times):
    """利用最佳優先搜尋來尋找目標狀態。回傳目標狀態以及路徑"""
    def creat_item(puzzle):
        """產生裝在堆疊中用的item,以長度為2的tuple儲存,
        前者為評估函數,後者為推盤狀態。
        """
        return calc_diffrence(puzzle), puzzle

    # 儲存展開後狀態的上個狀態,用來回溯完成路徑
    previous_states = dict()
    # 儲存已經拜訪過的狀態
    visiteds = set()

    # 產生算法中所使用的堆疊,並把開始狀態裝入堆疊
    heap = list()
    heapq.heappush(heap, creat_item(start))
    times = 0
    while heap and not heap[0][1].is_done() and times < max_times:
        # 如果堆疊還有元素可以展開,且最優先之狀態不等於目標狀態\
        # 從堆疊中拿出最優先的狀態,並展開
        diff, top_priority = heapq.heappop(heap)
        for state in top_priority.nextstates:
            if state not in visiteds:
                # 如果該狀態沒有被搜尋過,加入到堆疊中,並記錄其上一個狀態
                heapq.heappush(heap, creat_item(state))
                previous_states.setdefault(state, top_priority)

        visiteds.add(top_priority)
        times += 1

    final = heap[0][1] if heap else None

    # 回溯路徑
    path = list()
    movePath = list()

    current = final
    while current != start:
        path.append(current)
        current = previous_states[current]
    path.append(start)
    path.reverse()

    startRow, startColumn = FuntionTools.FindNumberFormMatrix(
        path[0].matrix, 0)
    print("rref")
    print(startRow, startColumn)

    # print("print step")
    # for step in path:
    #     print(step)

    #算走法
    for step in range(1, len(path)):
        startRow, startColumn, moveStep = FuntionTools.GetMove(
            startRow, startColumn, path[step].matrix)
        movePath.append(moveStep)

    # for state in movePath:
    #     print(state)

    return final, path, movePath