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https://github.com/jcreek/TheFarmerWasReplaced.git
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93 lines
3.4 KiB
Python
93 lines
3.4 KiB
Python
import helpers
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# Like other plants, cacti can be grown on soil and harvested as usual.
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# However, they come in various sizes and have a strange sense of order.
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# If you harvest a fully-grown cactus and all neighboring cacti are in sorted
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# order, it will also harvest all neighboring cacti recursively.
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# A cactus is considered to be in sorted order if all neighboring cacti to the
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# North and East are fully grown and larger or equal in size and all neighboring
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# cacti to the South and West are fully grown and smaller or equal in size.
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# The harvest will only spread if all adjacent cacti are fully grown and in sorted order.
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# This means that if a square of grown cacti is sorted by size and you harvest one
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# cactus, it will harvest the entire square.
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# A fully grown cactus will appear brown if it is not sorted. Once sorted, it will t
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# urn green again.
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# You will receive cactus equal to the number of harvested cacti squared. So if you
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# harvest n cacti simultaneously you will receive n**2 Items.Cactus.
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# The size of a cactus can be measured with measure().
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# It is always one of these numbers: 0,1,2,3,4,5,6,7,8,9.
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# You can also pass a direction into measure(direction) to measure the neighboring
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# tile in that direction of the drone.
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# You can swap a cactus with its neighbor in any direction using the swap() command.
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# swap(direction) swaps the object under the drone with the object one tile in the
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# direction of the drone.
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# Examples
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# In each of these grids, all the cacti are in sorted order and the harvest will
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# spread over the entire field:
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# 3 4 5 3 3 3 1 2 3 1 5 9
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# 2 3 4 2 2 2 1 2 3 1 3 8
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# 1 2 3 1 1 1 1 2 3 1 3 4
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# In this grid, only the lower left cactus is in sorted order, which is not enough
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# for it to spread:
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# 1 5 3
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# 4 9 7
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# 3 3 2
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def till_and_plant(cacti):
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if get_ground_type() != Grounds.Soil:
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till()
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helpers.harvest_if_possible()
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plant(Entities.Cactus)
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cacti[(get_pos_x(), get_pos_y())] = measure()
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def sort_cacti(cacti):
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swaps_made = True
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world_size = get_world_size()
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while swaps_made:
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number_of_swaps_made_this_loop = 0
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# Go through the cacti array, each entry stores the size at the x,y
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for x in range(world_size):
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for y in range(world_size):
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# Check the cactus to the right
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if x+1 < world_size and cacti[(x,y)] > cacti[(x+1,y)]:
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helpers.move_to_coords(x,y)
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swap(East)
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temp_cactus = cacti[(x,y)]
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cacti[(x,y)] = cacti[(x+1,y)]
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cacti[(x+1,y)] = temp_cactus
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number_of_swaps_made_this_loop += 1
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# Check the cactus above
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if y+1 < world_size and cacti[(x,y)] > cacti[(x,y+1)]:
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helpers.move_to_coords(x,y)
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swap(North)
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temp_cactus = cacti[(x,y)]
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cacti[(x,y)] = cacti[(x,y+1)]
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cacti[(x,y+1)] = temp_cactus
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number_of_swaps_made_this_loop += 1
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if number_of_swaps_made_this_loop == 0:
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swaps_made = False
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def harvest_cacti(cacti):
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for x in range(get_world_size()):
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for y in range(get_world_size()):
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till_and_plant(cacti)
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move(North)
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move(East)
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sort_cacti(cacti)
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helpers.harvest_if_possible() |