AdventOfCode/2017/03/solution.py

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2024-11-15 16:47:27 +01:00
#!/bin/python3
import sys
from pprint import pprint
import numpy as np
import math
def manhattan_distance(a, b):
return np.abs(a - b).sum()
def spiral_ccw(A):
A = np.array(A)
out = []
while(A.size):
out.append(A[0][::-1]) # first row reversed
A = A[1:][::-1].T # cut off first row and rotate clockwise
return np.concatenate(out)
def base_spiral(nrow, ncol):
return spiral_ccw(np.arange(nrow*ncol).reshape(nrow,ncol))[::-1]
def to_spiral(A):
A = np.array(A)
B = np.empty_like(A)
B.flat[base_spiral(*A.shape)] = A.flat
return B
input_f = sys.argv[1]
#########################################
# #
# Part 1 #
# #
#########################################
number = int(input_f)
org = number
while not math.sqrt(number).is_integer():
number+=1
mid = int((math.sqrt(number)-1)/2)
length = int(math.sqrt(number))
a = [mid, mid]
arr = to_spiral(np.arange(1,number+1).reshape(length,length))
b = np.where(arr == org)
print(manhattan_distance(np.array(a),np.array([b[0][0],b[1][0]])))
#########################################
# #
# Part 2 #
# #
#########################################