advent-of-code-2020/20/a.py

import math
data = open('input').read().splitlines()

id = 0
tiles = {}
for line in data:
    if line[0:4] == 'Tile':
        id = line[5:9]
        tiles.update({id:[]})
    elif len(line) > 0:
        tiles[id].append(line)

def get_edges(tile):
    return {
        tile[0],
        ''.join([tile[j][-1] for j in range(len(tile))]),
        tile[-1],
        ''.join([tile[j][0] for j in range(len(tile))]),

        tile[0][::-1],
        ''.join([tile[j][-1] for j in range(len(tile))])[::-1],
        tile[-1][::-1],
        ''.join([tile[j][0] for j in range(len(tile))])[::-1]
    }

def get_edges_(tile,phase):
    if phase == 0:
        return [
            tile[0],
            ''.join([tile[j][-1] for j in range(len(tile))]),
            tile[-1],
            ''.join([tile[j][0] for j in range(len(tile))])
        ]
    elif phase == 90:
        return [
            ''.join([tile[j][0] for j in range(len(tile))]),
            tile[0],
            ''.join([tile[j][-1] for j in range(len(tile))]),
            tile[-1],
        ]
    elif phase == 180:
        return [
            tile[0][::-1],
            ''.join([tile[j][-1] for j in range(len(tile))])[::-1],
            tile[-1][::-1],
            ''.join([tile[j][0] for j in range(len(tile))])[::-1]
        ]
    else:
        return [
            ''.join([tile[j][-1] for j in range(len(tile))])[::-1],
            tile[-1][::-1],
            ''.join([tile[j][0] for j in range(len(tile))])[::-1],
            tile[0][::-1],
        ]

relationships = {} # <3
edges = { id:get_edges(tiles[id]) for id in tiles }
for id in edges:
    tile_edges = edges[id]
    relationships.update({id:[]})
    for id_ in edges:
        if id != id_:
            adj = list(tile_edges.intersection(edges[id_]))
            if len(adj) > 0:
                relationships[id].append(id_)
                print(adj[0], '=>', id, '->', id_)

print(math.prod([int(id) for id in relationships if (len(relationships[id]) == 2)]))

#Part 2!
relationships = {} # <3
edges = { id:get_edges(tiles[id]) for id in tiles }
for id in edges:
    tile_edges = edges[id]
    relationships.update({id:[]})
    for id_ in edges:
        if id != id_:
            adj = list(tile_edges.intersection(edges[id_]))
            if len(adj) > 0:
                relationships[id].append(id_)
                print(adj[0], '=>', id, '->', id_)
start = [id for id in relationships if (len(relationships[id]) == 2)][0]
dim = 3
grid = {j:{i:None for i in range(dim)} for j in range(dim)}
phase_grid = {j:{i:None for i in range(dim)} for j in range(dim)}
d = 0

def get_adj(x, d, idom, jdom, grid):
    adj = [None, None]
    if d-x-1 in jdom:
        adj[0] = grid[d-x-1][x]
    if x-1 in idom:
        adj[1] = grid[d-x][x-1]
    return adj

done = set()

grid[0+d][d] = start
phase_grid[0][0] = 0
done.add(start)
idom = grid[0].keys()
jdom = grid.keys()
for d in range(1,50):
    i = 0
    for x in range(0,d+1):
        if d-x in jdom and x in idom:
            # print(d-x, x, get_adj(x, d, idom, jdom, grid))
            adjacent = get_adj(x, d, idom, jdom, grid)
            adjacent_ = [ x for x in adjacent if (x != None) ]
            phase = 0
            if len(adjacent_) == 1:
                adj = {x:y for x in relationships[adjacent_[0]] if (y := relationships[x])}
                # print(adj)
                # print(set([ x for x in adj if (len(adj[x]) < 4)]).difference(done))
                add = set([ x for x in adj if (len(adj[x]) < 4)]).difference(done)
                add = list(add)[0]
                # add = relationships[adjacent_[0]][i]
                if adjacent[0] != None: # => Top
                    print( "AAAAAAAAAAAAAAAAAAAAAAAAAAA", adjacent[0])
                    print(tiles[adjacent[0]])
                else: #adjacent[1] => Left
                    print( "BBBBBBBBBBBBBBBBBBBBBBBB", adjacent[1])
                i+=1
            if len(adjacent_) == 2:
                add = set(relationships[adjacent_[0]]).intersection(set(relationships[adjacent_[1]])).difference(done)
                # print(add)
                add = list(add)[0]

            grid[d-x][x] = add
            done.add(add)
            # [print(grid[x]) for x in grid]
                # exit(-1)
            # i+=1
# grid[d][d+1] = rel[1]
# print(relationships[start])
[print(grid[x]) for x in grid]
print()
[print(phase_grid[x]) for x in phase_grid]
day 17 finally completed, and day 21 done!. Day 20 - only part 1, rest is crud, does not work 2020-12-21 13:47:23 +08:00			`import math`
			`data = open('input').read().splitlines()`

			`id = 0`
			`tiles = {}`
			`for line in data:`
			`if line[0:4] == 'Tile':`
			`id = line[5:9]`
			`tiles.update({id:[]})`
			`elif len(line) > 0:`
			`tiles[id].append(line)`

			`def get_edges(tile):`
			`return {`
			`tile[0],`
			`''.join([tile[j][-1] for j in range(len(tile))]),`
			`tile[-1],`
			`''.join([tile[j][0] for j in range(len(tile))]),`

			`tile[0][::-1],`
			`''.join([tile[j][-1] for j in range(len(tile))])[::-1],`
			`tile[-1][::-1],`
			`''.join([tile[j][0] for j in range(len(tile))])[::-1]`
			`}`

			`def get_edges_(tile,phase):`
			`if phase == 0:`
			`return [`
			`tile[0],`
			`''.join([tile[j][-1] for j in range(len(tile))]),`
			`tile[-1],`
			`''.join([tile[j][0] for j in range(len(tile))])`
			`]`
			`elif phase == 90:`
			`return [`
			`''.join([tile[j][0] for j in range(len(tile))]),`
			`tile[0],`
			`''.join([tile[j][-1] for j in range(len(tile))]),`
			`tile[-1],`
			`]`
			`elif phase == 180:`
			`return [`
			`tile[0][::-1],`
			`''.join([tile[j][-1] for j in range(len(tile))])[::-1],`
			`tile[-1][::-1],`
			`''.join([tile[j][0] for j in range(len(tile))])[::-1]`
			`]`
			`else:`
			`return [`
			`''.join([tile[j][-1] for j in range(len(tile))])[::-1],`
			`tile[-1][::-1],`
			`''.join([tile[j][0] for j in range(len(tile))])[::-1],`
			`tile[0][::-1],`
			`]`

			`relationships = {} # <3`
			`edges = { id:get_edges(tiles[id]) for id in tiles }`
			`for id in edges:`
			`tile_edges = edges[id]`
			`relationships.update({id:[]})`
			`for id_ in edges:`
			`if id != id_:`
			`adj = list(tile_edges.intersection(edges[id_]))`
			`if len(adj) > 0:`
			`relationships[id].append(id_)`
			`print(adj[0], '=>', id, '->', id_)`

			`print(math.prod([int(id) for id in relationships if (len(relationships[id]) == 2)]))`

			`#Part 2!`
			`relationships = {} # <3`
			`edges = { id:get_edges(tiles[id]) for id in tiles }`
			`for id in edges:`
			`tile_edges = edges[id]`
			`relationships.update({id:[]})`
			`for id_ in edges:`
			`if id != id_:`
			`adj = list(tile_edges.intersection(edges[id_]))`
			`if len(adj) > 0:`
			`relationships[id].append(id_)`
			`print(adj[0], '=>', id, '->', id_)`
			`start = [id for id in relationships if (len(relationships[id]) == 2)][0]`
			`dim = 3`
			`grid = {j:{i:None for i in range(dim)} for j in range(dim)}`
			`phase_grid = {j:{i:None for i in range(dim)} for j in range(dim)}`
			`d = 0`

			`def get_adj(x, d, idom, jdom, grid):`
			`adj = [None, None]`
			`if d-x-1 in jdom:`
			`adj[0] = grid[d-x-1][x]`
			`if x-1 in idom:`
			`adj[1] = grid[d-x][x-1]`
			`return adj`

			`done = set()`

			`grid[0+d][d] = start`
			`phase_grid[0][0] = 0`
			`done.add(start)`
			`idom = grid[0].keys()`
			`jdom = grid.keys()`
			`for d in range(1,50):`
			`i = 0`
			`for x in range(0,d+1):`
			`if d-x in jdom and x in idom:`
			`# print(d-x, x, get_adj(x, d, idom, jdom, grid))`
			`adjacent = get_adj(x, d, idom, jdom, grid)`
			`adjacent_ = [ x for x in adjacent if (x != None) ]`
			`phase = 0`
			`if len(adjacent_) == 1:`
			`adj = {x:y for x in relationships[adjacent_[0]] if (y := relationships[x])}`
			`# print(adj)`
			`# print(set([ x for x in adj if (len(adj[x]) < 4)]).difference(done))`
			`add = set([ x for x in adj if (len(adj[x]) < 4)]).difference(done)`
			`add = list(add)[0]`
			`# add = relationships[adjacent_[0]][i]`
			`if adjacent[0] != None: # => Top`
			`print( "AAAAAAAAAAAAAAAAAAAAAAAAAAA", adjacent[0])`
			`print(tiles[adjacent[0]])`
			`else: #adjacent[1] => Left`
			`print( "BBBBBBBBBBBBBBBBBBBBBBBB", adjacent[1])`
			`i+=1`
			`if len(adjacent_) == 2:`
			`add = set(relationships[adjacent_[0]]).intersection(set(relationships[adjacent_[1]])).difference(done)`
			`# print(add)`
			`add = list(add)[0]`

			`grid[d-x][x] = add`
			`done.add(add)`
			`# [print(grid[x]) for x in grid]`
			`# exit(-1)`
			`# i+=1`
			`# grid[d][d+1] = rel[1]`
			`# print(relationships[start])`
			`[print(grid[x]) for x in grid]`
			`print()`
			`[print(phase_grid[x]) for x in phase_grid]`