Sztuczna_inteligencja_gr_13/bin/main/main.py
2021-05-30 00:25:54 +02:00

600 lines
19 KiB
Python

import os
import random
import time
from tkinter import *
import pandas as pd
from bin.Classess.Field import Field
from bin.Classess.Mine import Mine
from bin.Classess.Travel import Travel
from bin.Classess.Player import Player
import bin.Classess.Node as nd
import bin.Classess.Travel as tr
from resources.Globals import *
from bin.Classess.DecisionTree import DecisionTree
# WINDOW_X = 533 + 1200
# WINDOW_Y = 950
# FRAME_WIDTH = 533
# FRAME_HEIGHT = 533
#
# # Size of small image
# IMAGE_SIZE = 50
#
# AMOUNT_OF_MINES = 10
#
# DELAY_TIME = 0.5
# Creating objects
player = Player()
field = Field()
travel = Travel()
decision_tree = DecisionTree()
# Globals
fringe = []
explored = []
action_list = []
images_coord = []
label = None
def Arrow(direction):
image = ""
if direction == "north":
image = player.arrow_north_image
elif direction == "south":
image = player.arrow_south_image
elif direction == "west":
image = player.arrow_west_image
elif direction == "east":
image = player.arrow_east_image
field.small_field_canvas.itemconfig(player.image_canvas_id, image=image)
# Putting images
def Fill(bool):
global images_coord
if bool:
field.PuttingSmallImages()
travel.points_coord.append(field.small_field_canvas.coords(field.canvas_small_images[0]))
travel.points_coord.extend(field.mines_coord)
for i in range(0, len(travel.points_coord)):
travel.points_map[i + 1] = travel.points_coord[i]
print(travel.points_map)
for i in range(0, len(field.canvas_small_images)):
images_coord.append(field.small_field_canvas.coords(field.canvas_small_images[i]))
# print("Coords List: ", images_coord)
nd.init_data(images_coord, field.cell_expense)
# # Drawing red/green rectangles
# for el in field.state_of_cell_array:
# if el[0] != 0:
# field.small_field_canvas.create_rectangle(el[0], el[1], el[0] + player.step - 2,
# el[1] + player.step - 2, width=3, outline=el[2])
DrawingLargeImage()
def DrawingLargeImage():
large_img_name = field.large_image_array[player.current_array_y][player.current_array_x]
field.PuttingLargeImage(large_img_name)
def NextDirection(action):
# Define next direction
current_direction = player.direction
t = -1
for i in range(4):
if player.directions[i] == current_direction:
t = i
break
# Write next direction to Player
if action == "Right":
player.direction = player.directions[(t + 1) % 4]
elif action == "Left":
player.direction = player.directions[(t - 1) % 4]
return player.direction
def MovingForward():
if player.direction == "east" and field.small_field_canvas.coords(player.image_canvas_id)[0] + player.step < FRAME_WIDTH:
field.small_field_canvas.move(player.image_canvas_id, player.step, 0)
elif player.direction == "west" and field.small_field_canvas.coords(player.image_canvas_id)[0] > player.x_start:
field.small_field_canvas.move(player.image_canvas_id, -player.step, 0)
elif player.direction == "north" and field.small_field_canvas.coords(player.image_canvas_id)[1] > player.y_start:
field.small_field_canvas.move(player.image_canvas_id, 0, -player.step)
elif player.direction == "south" and field.small_field_canvas.coords(player.image_canvas_id)[1] + player.step < FRAME_HEIGHT:
field.small_field_canvas.move(player.image_canvas_id, 0, player.step)
def Moving(action):
# Moving
if action == "Right":
# player.MovingRight()
field.Moving()
Fill(False)
next_direction = NextDirection(action)
Arrow(next_direction)
elif action == "Left":
# player.MovingLeft()
field.Moving()
Fill(False)
next_direction = NextDirection(action)
Arrow(next_direction)
elif action == "Up":
player.Moving()
field.Moving()
Fill(False)
MovingForward()
Arrow(player.direction)
def ImagesInArray(directory, array):
# Filling array from directory
row = column = 0
for file in os.listdir(directory):
image_name = file
image_path = f"{directory}/{image_name}"
if directory == "../files/large_images":
image = PhotoImage(master=field.large_image_canvas, file=image_path)
else:
image = PhotoImage(master=field.small_field_canvas, file=image_path)
is_done = False
while not is_done:
if array[row][column] == 0:
array[row][column] = image
is_done = True
else:
column += 1
if column == 10:
column = 0
row += 1
if row == 10:
break
column += 1
if column == 10:
column = 0
row += 1
if row == 10:
break
def CellDesignation(array, color):
for element in array:
if element[0] == 0:
element[0] = player.current_x
element[1] = player.current_y
element[2] = color
break
def Action(action):
if action in ["Right", "Left", "Up", "space"]:
Moving(action)
# elif action in ["1", "2"]:
# if action == "1":
# CellDesignation(field.state_of_cell_array, "red")
# else:
# CellDesignation(field.state_of_cell_array, "green")
# Modified by Artem to search in the status area
def create_action_list(states, index):
global fringe
global action_list
if index == 0:
action_list.reverse()
return True
action_list.append(fringe[index].action)
state_parent = [fringe[index].parent[0], fringe[index].parent[1]]
create_action_list(states, states.index(state_parent))
def MakeDecision():
if player.current_array_x != 0 or player.current_array_y != 0:
mine = field.state_of_cell_array[player.current_array_y][player.current_array_x]
# print(field.state_of_cell_array)
# print(mine)
attributes_dict = {'known': [mine.known], 'power': [mine.power], 'new': [mine.new], 'location': [mine.location],
'stable': [mine.stable], 'chain_reaction': [mine.chain_reaction]}
attributes = f'{mine.known}; {mine.power}; {mine.new}; {mine.location}; {mine.stable}; {mine.chain_reaction}'
global label_text
label_text += attributes + '\n'
global label
label.config(text=label_text)
field.win.update()
data_frame = pd.DataFrame.from_dict(attributes_dict)
predict = decision_tree.classifier.predict(data_frame)
return predict
def MarkMine(prediction):
if prediction == 0:
DrawFlag(field.flag_green_img)
if prediction == 1:
DrawFlag(field.flag_yellow_img)
if prediction == 2:
DrawFlag(field.flag_red_img)
if prediction == 3:
DrawFlag(field.flag_bleu_img)
field.win.update()
def MouseClickEvent(track):
global fringe
global explored
global action_list
print("The best individual is: {} {}".format(track[1], track[0]))
for point in range(0, len(track[1]) + 1):
start_position = field.small_field_canvas.coords(player.image_canvas_id)
if point == len(track[1]):
end_position = travel.points_map[1]
else:
end_position = travel.points_map[track[1][point]]
node = nd.Node()
if len(fringe) == 0:
node.state.coord = start_position
node.state.direction = "east"
else:
states = []
for k in range(0, len(fringe)):
new_state = fringe[k].state.coord
states.append(new_state)
start_node = fringe[-1]
node.state.coord = start_node.state.coord
node.state.direction = start_node.state.direction
fringe.clear()
explored.clear()
action_list.clear()
fringe = nd.graph_search_A(fringe, explored, node.state, end_position)
states = []
goal_all = []
for i in range(0, len(fringe)):
new_state = [fringe[i].state.coord, fringe[i].state.direction]
states.append(new_state)
if end_position[0] == fringe[i].state.coord[0] and end_position[1] == fringe[i].state.coord[1]:
goal_all.append(fringe[i])
elem_min = goal_all[0]
for i in range(1, len(goal_all)):
if elem_min.priority > goal_all[i].priority:
elem_min = goal_all[i]
index = fringe.index(elem_min)
fringe = fringe[:index + 1]
create_action_list(states, -1)
# Start moving
AutoMove()
# Decision by tree
prediction = MakeDecision()
# Draw the right flag
MarkMine(prediction)
time.sleep(SLEEP_AFTER_CHECK_MINE)
# Check in which locations is mine
def CheckLocation(x, y):
# Add x + y like strings that create xy number
temp_x = str(x)
temp_y = str(y)
position_str = temp_x + temp_y
position = int(position_str)
color_number = -1
if field.cell_expense[position] == standard_cell_cost:
color_number = 0
elif field.cell_expense[position] == sand_cell_cost:
color_number = 1
elif field.cell_expense[position] == water_cell_cost:
color_number = 2
elif field.cell_expense[position] == swamp_cell_cost:
color_number = 3
return color_number
# Add mines on the field and to arrays
def PutMines(mines_array):
counter = 0
while counter < AMOUNT_OF_MINES:
x = random.randint(0, 9)
y = random.randint(0, 9)
is_equal = False
for mine in mines_array:
if mine.array_x == x and mine.array_y == y:
is_equal = True
if not is_equal:
if x == 0 and y == 0:
continue
else:
known = random.randint(0, 1)
power = random.randint(1, 10)
new = random.randint(0, 1)
location = CheckLocation(x, y)
stable = random.randint(0, 1)
mine = Mine(x, y, known, power, new, location, stable)
mines_array.append(mine)
# Add mine to array at the right position
field.state_of_cell_array[x][y] = mine
field.field_state_array[x][y] = True
counter += 1
def MinesInArrays(mines_array, directory, imgs_array, bool_mines_coord):
counter = 0
temp_array = []
if directory == "../../files/small_mines_images":
for file in os.listdir(directory):
if counter < AMOUNT_OF_MINES:
image_name = file
image_path = f"{directory}/{image_name}"
image = PhotoImage(master=field.small_field_canvas, file=image_path)
temp_array.append(image)
counter += 1
for i in range(AMOUNT_OF_MINES):
mines_array[i].small_img = temp_array[i]
# Add images in image array
imgs_array[mines_array[i].array_x][mines_array[i].array_y] = temp_array[i]
elif directory == "../../files/large_mines_images":
for file in os.listdir(directory):
if counter < AMOUNT_OF_MINES:
image_name = file
image_path = f"{directory}/{image_name}"
image = PhotoImage(master=field.large_image_canvas, file=image_path)
temp_array.append(image)
counter += 1
for i in range(AMOUNT_OF_MINES):
mines_array[i].large_img = temp_array[i]
# Add images in image array
imgs_array[mines_array[i].array_x][mines_array[i].array_y] = temp_array[i]
if bool_mines_coord:
for i in range(len(mines_array)):
field.mines_coord.append([mines_array[i].array_x, mines_array[i].array_y])
def DrawFlag(image):
field.small_field_canvas.create_image(player.current_x, player.current_y, anchor=NW, image=image)
# def IsItMine():
# visited = 0 # 0 - not mine; 1 - on this mine for the first time; 2 - already been on this mine
#
# # Checks if the player is on the mine
# for i in field.mines_coord:
# if i[0] == player.current_x and i[1] == player.current_y:
# visited = 1
# # Checks if the player has already been on this mine
# for y in field.visited_mines:
# if y[0] == player.current_x and y[1] == player.current_y:
# visited = 2
# if visited == 1:
# DrawFlag()
def AutoMove():
for action in action_list:
# Program wait for better illustration
time.sleep(DELAY_TIME)
# Move once
Action(action)
# Check if player on mine and if yes, draw flag
# IsItMine()
# Update main window
field.win.update()
# Draws rectangles that indicate type of cells
def DrawRectangle():
x = 4
y = 4
color = None
# Chose color for rectangle
for i in range(len(field.cell_expense)):
if field.cell_expense[i] == standard_cell_cost:
color = "None"
elif field.cell_expense[i] == sand_cell_cost:
color = "yellow"
elif field.cell_expense[i] == water_cell_cost:
color = "dodger blue"
elif field.cell_expense[i] == swamp_cell_cost:
color = "green4"
if color != "None":
field.small_field_canvas.create_rectangle(x, y, x + IMAGE_SIZE + 2, y + IMAGE_SIZE + 2, width=2,
outline=color)
x += player.step
if x + IMAGE_SIZE + 2 > field.width:
x = 4
y += player.step
def AddCostCellsToArray(amount, cost):
counter = 0
while counter < amount:
r = random.randint(0, 99)
if field.cell_expense[r] == 0:
field.cell_expense[r] = cost
counter += 1
def CostingOfCells():
AddCostCellsToArray(amount_of_sand_cells, sand_cell_cost)
AddCostCellsToArray(amount_of_water_cells, water_cell_cost)
AddCostCellsToArray(amount_of_swamp_cells, swamp_cell_cost)
AddCostCellsToArray(
field.rows * field.columns - (amount_of_sand_cells + amount_of_water_cells + amount_of_swamp_cells),
standard_cell_cost)
# Draw rectangles
DrawRectangle()
def click_button():
btn.destroy()
global label
label = Label(field.win, text="Wait...\nAI conquers the world...", fg='black', font="20", bg='gray')
label.place(x=10, y=560)
field.win.update()
track = tr.genetic_algorithm(travel.points_map)
track[1].remove(1)
label.config(text=track[1])
field.win.update()
MouseClickEvent(track)
# Check if there mines near and if, mark it
def CheckForMinesNear(x, y):
if x > 0:
if field.state_of_cell_array[x - 1][y] != "None":
# Mark by chain reaction current mine
field.state_of_cell_array[x][y].chain_reaction = 1
# Mark by chain reaction mine that near
field.state_of_cell_array[x - 1][y].chain_reaction = 1
if x < 9:
if field.state_of_cell_array[x + 1][y] != "None":
# Mark by chain reaction current mine
field.state_of_cell_array[x][y].chain_reaction = 1
# Mark by chain reaction mine that near
field.state_of_cell_array[x + 1][y].chain_reaction = 1
if y > 0:
if field.state_of_cell_array[x][y - 1] != "None":
# Mark by chain reaction current mine
field.state_of_cell_array[x][y].chain_reaction = 1
# Mark by chain reaction mine that near
field.state_of_cell_array[x][y - 1].chain_reaction = 1
if y < 9:
if field.state_of_cell_array[x][y + 1] != "None":
# Mark by chain reaction current mine
field.state_of_cell_array[x][y].chain_reaction = 1
# Mark by chain reaction mine that near
field.state_of_cell_array[x][y + 1].chain_reaction = 1
def CheckForChainReaction():
for x in range(field.columns):
for y in range(field.rows):
if field.state_of_cell_array[x][y] != "None":
CheckForMinesNear(x, y)
def main():
# Creating the main window of an application
win_size = f'{WINDOW_X}x{WINDOW_Y}'
field.win.title("Sapper")
field.win.configure(bg='gray')
field.win.geometry(win_size)
print(f'Amount of mines: {AMOUNT_OF_MINES}')
global btn
btn = Button(field.win,
text="Search for mines", # текст кнопки
background="#555", # фоновый цвет кнопки
foreground="#ccc", # цвет текста
padx="20", # отступ от границ до содержимого по горизонтали
pady="8", # отступ от границ до содержимого по вертикали
font="24", # высота шрифта
command=click_button
)
btn.place(x=10, y=560)
# Create array with mines objects
mines_array = []
CostingOfCells()
# Put mines on coordinates
PutMines(mines_array)
CheckForChainReaction()
# Add images of mines in arrays
MinesInArrays(mines_array, "../../files/small_mines_images", field.small_image_array, True)
MinesInArrays(mines_array, "../../files/large_mines_images", field.large_image_array, False)
# Filling image arrays
small_directory = "../../files/small_images"
ImagesInArray(small_directory, field.small_image_array)
large_directory = "../../files/large_images"
ImagesInArray(large_directory, field.large_image_array)
# Add arrow image to Player class
images = []
for file in os.listdir("../../files/arrow"):
path = f"../../files/arrow/{file}"
img = PhotoImage(master=field.small_field_canvas, file=path)
images.append(img)
player.arrow_east_image = images[0]
player.arrow_north_image = images[1]
player.arrow_south_image = images[2]
player.arrow_west_image = images[3]
# Filling window with images
Fill(True)
# Drawing arrow (player)
image = player.arrow_east_image
player.image_canvas_id = field.small_field_canvas.create_image(player.current_x, player.current_y, anchor=NW,
image=image)
# Arrow(player.direction)
# Rectangle(True, "None")
# Rectangle()
# Binding keyboard press to function
# field.win.bind("<Key>", Action)
# field.small_field_canvas.bind("<Button-1>", MouseClickEvent)
# Starting mainloop for window
field.win.mainloop()
if __name__ == '__main__':
main()