AI_PROJECT/BFS.py

import random

import pygame
import Node
from displayControler import NUM_X, NUM_Y
from Pole import stoneList


def goalTest1(hIndex):
    for i in list(hIndex.values()):
        if i == 0:
            return False
    return True


def succ1(state):
    resp = []
    hIndex = state["hydradeIndex"].copy()
    if state["direction"] == "N":
        if state["y"] > 0:
            if hIndex[state["x"], state["y"]-1] == 0:
                hIndex[state["x"], state["y"] - 1] = 1
            resp.append(["forward", {'x': state["x"], 'y': state["y"]-1, 'direction': state["direction"], 'hydradeIndex': hIndex}])
        resp.append(["right", {'x': state["x"], 'y': state["y"], 'direction': "E", 'hydradeIndex': state["hydradeIndex"].copy()}])
        resp.append(["left", {'x': state["x"], 'y': state["y"], 'direction': "W", 'hydradeIndex': state["hydradeIndex"].copy()}])
    elif state["direction"] == "S":
        if state["y"] < NUM_Y-1:
            if hIndex[state["x"], state["y"]+1] == 0:
                hIndex[state["x"], state["y"] + 1] = 1
            resp.append(["forward", {'x': state["x"], 'y': state["y"]+1, 'direction': state["direction"], 'hydradeIndex': hIndex}])
        resp.append(["right", {'x': state["x"], 'y': state["y"], 'direction': "W", 'hydradeIndex': state["hydradeIndex"].copy()}])
        resp.append(["left", {'x': state["x"], 'y': state["y"], 'direction': "E", 'hydradeIndex': state["hydradeIndex"].copy()}])
    elif state["direction"] == "E":
        if state["x"] < NUM_X-1:
            if hIndex[state["x"]+1, state["y"]] == 0:
                hIndex[state["x"] + 1, state["y"]] = 1
            resp.append(["forward", {'x': state["x"]+1, 'y': state["y"], 'direction': state["direction"], 'hydradeIndex': hIndex}])
        resp.append(["right", {'x': state["x"], 'y': state["y"], 'direction': "S", 'hydradeIndex': state["hydradeIndex"].copy()}])
        resp.append(["left", {'x': state["x"], 'y': state["y"], 'direction': "N", 'hydradeIndex': state["hydradeIndex"].copy()}])
    else: #state["zwrot"] == "W"
        if state["x"] > 0:
            if hIndex[state["x"]-1, state["y"]] == 0:
                hIndex[state["x"] - 1, state["y"]] = 1
            resp.append(["forward", {'x': state["x"]-1, 'y': state["y"], 'direction': state["direction"], 'hydradeIndex': hIndex}])
        resp.append(["right", {'x': state["x"], 'y': state["y"], 'direction': "N", 'hydradeIndex': state["hydradeIndex"].copy()}])
        resp.append(["left", {'x': state["x"], 'y': state["y"], 'direction': "S", 'hydradeIndex': state["hydradeIndex"].copy()}])

    return resp


def check1(tab, state):
    for i in tab:
        if i.state == state:
            return False
    return True


def BFS1(istate):


    fringe = []
    explored = []

    x = Node.Node(istate)
    fringe.append(x)

    while True:


        if fringe == []:
            return False

        elem = fringe.pop(0)

        if goalTest1(elem.state["hydradeIndex"]):
            x = elem
            tab = []
            while x.parent != None:
                tab.append([x.parent, x.action])
                x = x.parent
            return tab
        explored.append(elem)

        for resp in succ1(elem.state):
            if check1(fringe, resp[1]) and check1(explored, resp[1]):
                x = Node.Node(resp[1])
                x.parent = elem
                x.action = resp[0]
                fringe.append(x)
        for event in pygame.event.get():
            if event.type == pygame.QUIT:
                quit()




def goalTest3(state, goalTreassure):
    if state["x"] == goalTreassure[0] and state["y"] == goalTreassure[1]:
            return True
    return False


def succ3(state):
    resp = []
    if state["direction"] == "N":
        if state["y"] > 0 and (state['x'], state["y"] - 1) not in stoneList:
            resp.append(["forward", {'x': state["x"], 'y': state["y"]-1, 'direction': state["direction"]}])
        resp.append(["right", {'x': state["x"], 'y': state["y"], 'direction': "E"}])
        resp.append(["left", {'x': state["x"], 'y': state["y"], 'direction': "W"}])
    elif state["direction"] == "S":
        if state["y"] < NUM_Y - 1 and (state['x'], state["y"] + 1) not in stoneList:
            resp.append(["forward", {'x': state["x"], 'y': state["y"]+1, 'direction': state["direction"]}])
        resp.append(["right", {'x': state["x"], 'y': state["y"], 'direction': "W"}])
        resp.append(["left", {'x': state["x"], 'y': state["y"], 'direction': "E"}])
    elif state["direction"] == "E":
        if state["x"] < NUM_X - 1 and (state['x'] + 1, state["y"]) not in stoneList:
            resp.append(["forward", {'x': state["x"]+1, 'y': state["y"], 'direction': state["direction"]}])
        resp.append(["right", {'x': state["x"], 'y': state["y"], 'direction': "S"}])
        resp.append(["left", {'x': state["x"], 'y': state["y"], 'direction': "N"}])
    else: #state["zwrot"] == "W"
        if state["x"] > 0  and (state['x'] - 1, state["y"]) not in stoneList:
            resp.append(["forward", {'x': state["x"]-1, 'y': state["y"], 'direction': state["direction"]}])
        resp.append(["right", {'x': state["x"], 'y': state["y"], 'direction': "N"}])
        resp.append(["left", {'x': state["x"], 'y': state["y"], 'direction': "S"}])

    return resp


def check3(tab, state):
    for i in tab:
        if i.state == state:
            return False
    return True


def BFS3(istate):
    goalTreassuere = (random.randint(0,NUM_X-1), random.randint(0,NUM_Y-1))
    print(goalTreassuere)
    fringe = []
    explored = []

    x = Node.Node(istate)
    fringe.append(x)

    while True:

        if fringe == []:
            return False

        elem = fringe.pop(0)

        if goalTest3(elem.state, goalTreassuere):
            x = elem
            tab = []
            while x.parent != None:
                tab.append([x.parent, x.action])
                x = x.parent
            return tab

        explored.append(elem)

        for resp in succ3(elem.state):
            if check3(fringe, resp[1]) and check3(explored, resp[1]):
                x = Node.Node(resp[1])
                x.parent = elem
                x.action = resp[0]
                fringe.append(x)
        for event in pygame.event.get():
            if event.type == pygame.QUIT:
                quit()




"""
def goalTest(hIndex):
    for i in list(hIndex.values()):
        if i == 0:
            return False
    return True


def succ(state):
    resp = []
    hIndex = state["hydradeIndex"].copy()

    if state["direction"] == "N":
        if state["y"] > 0:
            if hIndex[state["x"], state["y"]-1] == 0:
                hIndex[state["x"], state["y"] - 1] = 1
            resp.append(["forward", {'x': state["x"], 'y': state["y"]-1, 'direction': state["direction"], 'hydradeIndex': hIndex}])
        resp.append(["right", {'x': state["x"], 'y': state["y"], 'direction': "E", 'hydradeIndex': state["hydradeIndex"].copy()}])
        resp.append(["left", {'x': state["x"], 'y': state["y"], 'direction': "W", 'hydradeIndex': state["hydradeIndex"].copy()}])
    elif state["direction"] == "S":
        if state["y"] < dCon.NUM_Y-1:
            if hIndex[state["x"], state["y"]+1] == 0:
                hIndex[state["x"], state["y"] + 1] = 1
            resp.append(["forward", {'x': state["x"], 'y': state["y"]+1, 'direction': state["direction"], 'hydradeIndex': hIndex}])
        resp.append(["right", {'x': state["x"], 'y': state["y"], 'direction': "W", 'hydradeIndex': state["hydradeIndex"].copy()}])
        resp.append(["left", {'x': state["x"], 'y': state["y"], 'direction': "E", 'hydradeIndex': state["hydradeIndex"].copy()}])
    elif state["direction"] == "E":
        if state["x"] < dCon.NUM_X-1:
            if hIndex[state["x"]+1, state["y"]] == 0:
                hIndex[state["x"] + 1, state["y"]] = 1
            resp.append(["forward", {'x': state["x"]+1, 'y': state["y"], 'direction': state["direction"], 'hydradeIndex': hIndex}])
        resp.append(["right", {'x': state["x"], 'y': state["y"], 'direction': "S", 'hydradeIndex': state["hydradeIndex"].copy()}])
        resp.append(["left", {'x': state["x"], 'y': state["y"], 'direction': "N", 'hydradeIndex': state["hydradeIndex"].copy()}])
    else: #state["direction"] == "W"
        if state["x"] > 0:
            if hIndex[state["x"]-1, state["y"]] == 0:
                hIndex[state["x"] - 1, state["y"]] = 1
            resp.append(["forward", {'x': state["x"]-1, 'y': state["y"], 'direction': state["direction"], 'hydradeIndex': hIndex}])
        resp.append(["right", {'x': state["x"], 'y': state["y"], 'direction': "N", 'hydradeIndex': state["hydradeIndex"].copy()}])
        resp.append(["left", {'x': state["x"], 'y': state["y"], 'direction': "S", 'hydradeIndex': state["hydradeIndex"].copy()}])

    return resp


def check(tab, state):
    for i in tab:
        if i.state == state:
            return False
    return True


def BFS(istate):
    fringe = []
    explored = []

    x = Node.Node(istate)
    fringe.append(x)

    while True:
        if fringe == []:
            return False

        elem = fringe.pop(0)

        if goalTest(elem.state["hydradeIndex"]):
            x = elem
            tab = []
            while x.parent != None:
                tab.append(x.action)
                x = x.parent
            return tab

        explored.append(elem)

        for resp in succ(elem.state):
            if check(fringe, resp[1]) and check(explored, resp[1]):
                x = Node.Node(resp[1])
                x.parent = elem
                x.action = resp[0]
                fringe.append(x)
"""