Update day 19 solution
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@@ -11,8 +11,7 @@ def parse(input):
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s = []
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continue
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if len(line):
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b = tuple([int(x) for x in line.split(',')])
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s.append(b)
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s.append(tuple([int(x) for x in line.split(',')]))
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else:
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scanners.append(s)
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if len(s):
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@@ -21,9 +20,7 @@ def parse(input):
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def calc_distances(s):
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d = []
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for _ in s:
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d.append(set())
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d = [set() for _ in s]
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for i in range(len(s)):
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for j in range(i+1, len(s)):
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dist = 0
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@@ -112,15 +109,14 @@ def transform(scanners, idx, done=[]):
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for i in range(len(scanners[n]['beacons'])):
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(x, y, z) = scanners[n]['beacons'][i]
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scanners[n]['beacons'][i] = eval(transform_func)
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(xo, yo, zo) = scanners[idx]['origin']
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(x0, y0, z0) = scanners[idx]['beacons'][overlapping[0][0]]
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(x1, y1, z1) = scanners[n]['beacons'][overlapping[0][1]]
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scanners[n]['origin'] = (xo + x0 - x1, yo + y0 - y1, zo + z0 - z1)
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(xo, yo, zo) = scanners[n]['origin']
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transform(scanners, n, done)
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(xo, yo, zo) = (x0 - x1, y0 - y1, z0 - z1)
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scanners[n]['origin'] = (xo, yo, zo)
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for i in range(len(scanners[n]['beacons'])):
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(x, y, z) = scanners[n]['beacons'][i]
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scanners[n]['beacons'][i] = (x + xo, y + yo, z + zo)
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transform(scanners, n, done)
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def solve(input):
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@@ -129,12 +125,11 @@ def solve(input):
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beacons = parse(input)
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scanners = []
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for b in beacons:
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s = {}
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s['beacons'] = b
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s['metrics'] = calc_distances(b)
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s['origin'] = (0, 0, 0)
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s['overlapping'] = set()
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scanners.append(s)
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scanners.append({
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'beacons': b,
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'metrics': calc_distances(b),
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'origin': (0, 0, 0),
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'overlapping': set()})
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for i in range(len(scanners)):
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for j in range(i + 1, len(scanners)):
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num = num_overlapping(
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@@ -148,10 +143,10 @@ def solve(input):
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for b in s['beacons']:
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m.add(b)
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result_p1 = len(m)
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for i in range(len(scanners)):
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(xi, yi, zi) = scanners[i]['origin']
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for j in range(i + 1, len(scanners)):
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(xj, yj, zj) = scanners[j]['origin']
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for i, si in enumerate(scanners):
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(xi, yi, zi) = si['origin']
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for j, sj in enumerate(scanners[i + 1:]):
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(xj, yj, zj) = sj['origin']
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md = abs(xi - xj) + abs(yi - yj) + abs(zi - zj)
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result_p2 = max(result_p2, md)
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print("Part 1 result:", result_p1)
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