162 lines
6.2 KiB
Python
162 lines
6.2 KiB
Python
from crop_protection_product import CropProtectionProduct
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from area.constants import TILE_SIZE, DIRECTION_EAST, DIRECTION_SOUTH, DIRECTION_WEST, DIRECTION_NORTH, FIELD_WIDTH, FIELD_HEIGHT, WIDTH, HEIGHT
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from area.field import fieldX, fieldY, tiles
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import pygame
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import time
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class Tractor:
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x = None
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y = None
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direction = None #direction takes values in the range of 1 to 4 (1->North, 2->East etc...)
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image = None
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cypermetryna = CropProtectionProduct("pests", "cereal")
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diflufenikan = CropProtectionProduct("weeds", "cereal")
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spirotetramat = CropProtectionProduct("pests", "fruit")
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oksadiargyl = CropProtectionProduct("weeds", "fruit")
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spinosad = CropProtectionProduct("pests", "vegetable")
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metazachlor = CropProtectionProduct("weeds", "vegetable")
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# etc
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def __init__(self, x, y, direction, tractor_start, tractor_end):
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self.x = x
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self.y = y
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self.rect = pygame.Rect(x, y, TILE_SIZE, TILE_SIZE)
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self.direction = direction
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self.image = pygame.image.load('resources/images/tractor_right.png').convert_alpha()
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self.tractor_start = tractor_start #important for bfs - prevents from spawning obstacles on these positions
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self.tractor_end = tractor_end #
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if (self.direction==1):
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self.image = pygame.image.load('resources/images/tractor_up.png').convert_alpha()
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elif (self.direction==3):
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self.image = pygame.image.load('resources/images/tractor_down.png').convert_alpha()
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elif (self.direction==4):
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self.image = pygame.image.load('resources/images/tractor_left.png').convert_alpha()
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def work_on_field(self, tile, ground, plant1):
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if plant1 is None:
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tile.randomizeContent()
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# sprobuj zasadzic cos
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print("Tarctor planted something")
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elif plant1.growth_level == 100:
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tile.plant = None
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ground.nutrients_level -= 40
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ground.water_level -= 40
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print("Tractor collected something")
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else:
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plant1.try_to_grow(50,50) #mozna dostosowac jeszcze
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ground.nutrients_level -= 11
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ground.water_level -= 11
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if ground.pest:
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# traktor pozbywa sie szkodnikow
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if plant1.plant_type == self.cypermetryna.plant_type:
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t = "Tractor used Cypermetryna"
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elif plant1.plant_type == self.spirotetramat.plant_type:
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t = "Tractor used Spirotetramat"
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elif plant1.plant_type == self.spinosad.plant_type:
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t = "Tractor used Spinosad"
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print(t)
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ground.pest = False
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if ground.weed:
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# traktor pozbywa się chwastow
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if plant1.plant_type == self.diflufenikan.plant_type:
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t = "Tractor used Diflufenikan"
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elif plant1.plant_type == self.oksadiargyl.plant_type:
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t = "Tractor used Oksadiargyl"
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elif plant1.plant_type == self.metazachlor.plant_type:
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t = "Tractor used Metazachlor"
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print(t)
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ground.weed = False
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if ground.water_level < plant1.water_requirements:
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ground.water_level += 20
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print("Tractor watered the plant")
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if ground.nutrients_level < plant1.nutrients_requirements:
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ground.nutrients_level += 20
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print("Tractor added some nutrients")
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def move(self):
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if self.direction == DIRECTION_EAST:
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self.rect.x += TILE_SIZE
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elif self.direction == DIRECTION_WEST:
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self.rect.x -= TILE_SIZE
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elif self.direction == DIRECTION_NORTH:
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self.rect.y -= TILE_SIZE
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elif self.direction == DIRECTION_SOUTH:
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self.rect.y += TILE_SIZE
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def rotate_to_right(self):
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if self.direction == 4:
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self.direction = 1
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else:
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self.direction += 1
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self.image = pygame.transform.rotate(self.image, -90)
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def rotate_to_left(self):
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if self.direction == 1:
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self.direction = 4
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else:
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self.direction -= 1
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self.image = pygame.transform.rotate(self.image, 90)
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#checks if we can move further and if we won't get out of boundaries - for bfs:
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def can_it_move_node(node):
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if node.get_direction() == DIRECTION_EAST and node.get_x() + TILE_SIZE < 830: #last tile on the west has y:797
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return "move east"
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elif node.get_direction() == DIRECTION_WEST and node.get_x() - TILE_SIZE >=fieldX:
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return "move west"
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elif node.get_direction() == DIRECTION_NORTH and node.get_y() - TILE_SIZE >=fieldY:
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return "move north"
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elif node.get_direction() == DIRECTION_SOUTH and node.get_y() + TILE_SIZE < 760: #last tile on the south has y:727
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return "move south"
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else:
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return False
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#checks if there's an obstacle on the given coordinates (important for bfs):
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def is_obstacle(self, x, y):
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for tile in tiles:
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if tile.x == x and tile.y == y:
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ground = tile.ground
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if ground.obstacle and self.tractor_start != (x, y) and self.tractor_end != (x,y):
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return True
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return False
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def draw_tractor(self, win):
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imageTractor = pygame.transform.scale(self.image, (TILE_SIZE, TILE_SIZE))
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win.blit(imageTractor, (self.rect.x, self.rect.y))
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pygame.display.flip()
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#translates move_list generated by bfs into the actual movement:
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def do_actions(tractor, WIN, move_list):
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trail = pygame.image.load("resources/images/background.jpg").convert_alpha()
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trail = pygame.transform.scale(trail, (TILE_SIZE, TILE_SIZE))
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pygame.display.update()
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for move in move_list:
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WIN.blit(trail, (tractor.rect.x, tractor.rect.y, TILE_SIZE, TILE_SIZE))
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if move == "move":
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tractor.move()
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elif move == "rotate_right":
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tractor.rotate_to_right()
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elif move == "rotate_left":
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tractor.rotate_to_left()
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tractor.draw_tractor(WIN)
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pygame.display.update()
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time.sleep(1)
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