158 lines
4.0 KiB
Python
158 lines
4.0 KiB
Python
from __builtins__ import *
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world_size = get_world_size()
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def move_to(x, y):
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while x > get_pos_x():
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move(East)
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while x < get_pos_x():
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move(West)
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while y > get_pos_y():
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move(North)
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while y < get_pos_y():
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move(South)
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# Plant a square of the given list of entities.
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#
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# If the water level is below waterBelow,
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# it will water the tile. If requireSoil is true, it will till the tile if it's not soil.
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# plantWith - list of entities to plant. The entities will alternate if repeated.
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#
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# Parameters:
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# width (int): The number of columns in the grid.
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# height (int): The number of rows in the grid.
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# plantWith (list): A list of entities to plant.
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# waterBelow (float): The water level below which the tile will be watered.
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# requireSoil (bool): If true, the tile will be tilled if it's not soil.
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#
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# Returns:
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# None
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#
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# Important:
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# plant_grid_returns_measurements uses identical logic but has added needed measurement calls. Any logic changes here
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# Any changes to this function should be reflected in plant_grid_returns_measurements as well.
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def plant_grid(width, height, plantWith, waterBelow, requireSoil):
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res = {}
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x = get_pos_x()
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y = get_pos_y()
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gridSize = get_world_size()
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if (x + width) > gridSize:
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width = gridSize - x
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if (y + height) > gridSize:
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height = gridSize - y
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tracker = 0
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others = {East: West, West: East}
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sideDir = East
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# first pass over, checking if anything can be harvested. if so, harvest.
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# then check what type of ground is down, if it's not soil then till.
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# then if it's below 75% water and i have some water, give it some.
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# then plant a pumpkin.
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for row in range(height):
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for col in range(width):
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if can_harvest():
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harvest()
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if requireSoil:
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if get_ground_type() != Grounds.Soil:
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till()
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while get_water() < waterBelow:
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if not use_item(Items.Water):
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break
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index = tracker % len(plantWith)
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tracker += 1
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plant(plantWith[index])
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# if it's not the last pass, then move
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if col < width - 1:
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move(sideDir)
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if row < height - 1:
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sideDir = others[sideDir]
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move(North)
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return res
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# Plant a square of the given list of entities.
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#
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# If the water level is below waterBelow,
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# it will water the tile. If requireSoil is true, it will till the tile if it's not soil.
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# plantWith - list of entities to plant. The entities will alternate if repeated.
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#
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# Parameters:
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# width (int): The number of columns in the grid.
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# height (int): The number of rows in the grid.
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# plantWith (list): A list of entities to plant.
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# waterBelow (float): The water level below which the tile will be watered.
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# requireSoil (bool): If true, the tile will be tilled if it's not soil.
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#
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# Returns:
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# None
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#
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# Important:
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# plant_grid uses identical logic but has added needed measurement calls. Any logic changes here
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# Any changes to this function should be reflected in plant_grid as well.
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def plant_grid_return_measurements(width, height, plantWith, waterBelow, requireSoil):
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res = {}
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x = get_pos_x()
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y = get_pos_y()
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gridSize = get_world_size()
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if (x + width) > gridSize:
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width = gridSize - x
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if (y + height) > gridSize:
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height = gridSize - y
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tracker = 0
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others = {East:West, West:East}
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sideDir = East
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# first pass over, checking if anything can be harvested. if so, harvest.
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# then check what type of ground is down, if it's not soil then till.
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# then if it's below 75% water and i have some water, give it some.
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# then plant a pumpkin.
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for row in range(height):
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for col in range(width):
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if can_harvest():
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harvest()
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if requireSoil:
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if get_ground_type() != Grounds.Soil:
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till()
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while get_water() < waterBelow:
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if not use_item(Items.Water):
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break
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index = tracker % len(plantWith)
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tracker += 1
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plant(plantWith[index])
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measurement = measure()
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if measurement not in res:
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res[measurement] = []
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res[measurement].append((get_pos_x(), get_pos_y()))
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# if it's not the last pass, then move
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if col < width - 1:
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move(sideDir)
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if row < height - 1:
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sideDir = others[sideDir]
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move(North)
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return res |