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No commits in common. '9599c656d59dac37030417fe4bad4a980ec1fb43' and '21b17417afabf4a77aab72839e35450918a9dcbe' have entirely different histories.

  1. 77
      day14-2.py
  2. 47
      day14.py
  3. 138
      day15-2.py
  4. 80
      day15.py
  5. 38
      day17-2.py
  6. 7
      day17.py
  7. 172
      day18.py
  8. 75
      day20-2.py
  9. 74
      day20.py
  10. 102
      input14.txt
  11. 100
      input15.txt
  12. 100
      input18.txt
  13. 102
      input20.txt
  14. 18
      testdata14.txt
  15. 50
      testdata15-2.txt
  16. 10
      testdata15.txt
  17. 10
      testdata18-2.txt
  18. 2
      testdata18-3.txt
  19. 10
      testdata18.txt
  20. 7
      testdata20.txt

77
day14-2.py

@ -1,77 +0,0 @@
from io import DEFAULT_BUFFER_SIZE
import sys
poly = None
inserters = {}
class polyme:
def __init__(self, initial):
self.Polymere = []
self.letters = {}
self.dubles = {}
for f in initial:
self.Polymere.append(f)
for i in range(len(self.Polymere)):
if i != len(self.Polymere) - 1:
temp = self.Polymere[i] + self.Polymere[i + 1]
g = self.dubles.setdefault(temp, 0)
g += 1
self.dubles.update({temp : g})
temp2 = self.letters.setdefault(self.Polymere[i], 0)
temp2 += 1
self.letters.update({self.Polymere[i] : temp2})
print(self.letters, self.dubles, self.Polymere)
def steppy(self):
tempdict = {}
tempdict.clear()
print(tempdict)
for key, insert in inserters.items():
if key in self.dubles:
count = self.dubles[key]
if insert in self.letters:
adletters = self.letters[insert]
else:
adletters = 0
adletters += count
self.letters.update({insert : adletters})
dub1 = key[0] + insert
dub2 = insert + key[1]
g = tempdict.setdefault(dub1, 0)
g += count
tempdict.update({dub1 : g})
g = tempdict.setdefault(dub2, 0)
g += count
tempdict.update({dub2 : g})
g = tempdict.setdefault(key, 0)
g -= count
tempdict.update({key : g})
for dub, amount in tempdict.items():
g = self.dubles.setdefault(dub, 0)
g += amount
self.dubles.update({dub : g})
print(self.letters, self.dubles, self.Polymere)
def findsolu(self):
temp = self.letters.values()
print(temp)
temp2 = max(temp) - min(temp)
return temp2
with open(sys.argv[1], 'r') as f:
for g in f.readlines():
g = g.strip()
if poly is None:
poly = polyme(g)
continue
if g == '':
continue
else:
temp1, temp2 = g.split(' -> ')
inserters.update({temp1:temp2})
for i in range(40):
poly.steppy()
print(poly.findsolu())

47
day14.py

@ -1,47 +0,0 @@
import sys
poly = None
inserters = {}
class polyme:
def __init__(self, initial):
self.Polymere = []
for f in initial:
self.Polymere.append(f)
def steppy(self):
counter = 0
temp = len(self.Polymere) - 1
for i in range(temp):
active = self.Polymere[i + counter] + self.Polymere[i+1 + counter]
for key, insert in inserters.items():
if active == key:
#print(key ,insert)
self.Polymere.insert(i + counter + 1, insert)
counter += 1
def findsolu(self):
self.solution = {}
for f in self.Polymere:
g = self.solution.setdefault(f, 0)
g += 1
self.solution.update({f : g})
temp = self.solution.values()
print(temp)
temp2 = max(temp) - min(temp)
return temp2
with open(sys.argv[1], 'r') as f:
for g in f.readlines():
g = g.strip()
if poly is None:
poly = polyme(g)
continue
if g == '':
continue
else:
temp1, temp2 = g.split(' -> ')
inserters.update({temp1:temp2})
for i in range(10):
poly.steppy()
print(poly.findsolu())

138
day15-2.py

@ -1,138 +0,0 @@
from queue import PriorityQueue
import sys
import copy
class grid:
def __init__(self):
self.y = []
self.attempts = 0
self.solutions = 0
self.current_smallest_solution_level = None
self.point_costs = {(0, 0): 0}
self.next_point_queue = PriorityQueue()
self.next_point_queue.put((0, (0, 0)))
self.visited = {}
def addline(self, line):
self.y.append([int(i) for i in line])
self.maxy = len(self.y) - 1
self.maxx = len(self.y[0]) - 1
# print(self.maxx)
# print(self.maxy)
def largegrid(self):
for f in self.y:
temp = copy.copy(f)
for i in range(1, 5):
for t in range(len(temp)):
temp[t] += 1
if temp[t] > 9:
temp[t] -= 9
f.extend(temp)
temp2 = copy.copy(self.y)
for i in range(1, 5):
temp3 = copy.copy(temp2)
for f in temp3:
self.y.append([(g+i-1) % 9 + 1 for g in f])
self.maxy = len(self.y) - 1
self.maxx = len(self.y[0]) - 1
# def initialpath(self):
def findpath(self):
while not self.next_point_queue.empty():
level, poi = self.next_point_queue.get()
if self.visited.get(poi, False):
continue
self.visited[poi] = True
self.attempts += 1
if self.attempts % 100000 == 0:
print('Attempt %d, solutions: %d, cost: %d, visited: %d, queued: %d' % (
self.attempts, self.solutions, self.current_smallest_solution_level or -1,
len(self.visited), self.next_point_queue.qsize()))
neighbors = self.get_neighbors(poi, level)
for i in neighbors:
next_level = level + int(self.y[i[0]][i[1]])
if (self.current_smallest_solution_level is not None and
next_level > self.current_smallest_solution_level):
# We already found a solution that was overall less risky
# than the current path, so who cares.
continue
if i == (self.maxy, self.maxx):
self.solutions += 1
if (self.current_smallest_solution_level is None or
next_level < self.current_smallest_solution_level):
self.current_smallest_solution_level = next_level
# print('Found solution: ', i, ', orig level ', level)
continue
elif self.visited.get(i, False) and (i in self.point_costs and self.point_costs[i] <= next_level):
# We already visited the point on a cheaper path.
continue
else:
# print('Path: %s, next: %s' % (repr(path), i))
self.point_costs[i] = next_level
self.next_point_queue.put((next_level, i))
# Try to find a path from the current point to the end by going down and right
# alternatingly, so we can restrict the search to paths less costly than the
# current one.
next_level = level
while poi != (self.maxx, self.maxy):
if poi[0] < self.maxx:
poi = (poi[0] + 1, poi[1])
next_level += int(self.y[poi[0]][poi[1]])
if poi in self.point_costs and next_level > self.point_costs[poi]:
break
self.point_costs[poi] = next_level
if poi[1] < self.maxy:
poi = (poi[0], poi[1] + 1)
next_level += int(self.y[poi[0]][poi[1]])
if poi in self.point_costs and next_level > self.point_costs[poi]:
break
self.point_costs[poi] = next_level
if poi == (self.maxx, self.maxy):
self.solutions += 1
if (self.current_smallest_solution_level is None or
next_level < self.current_smallest_solution_level):
self.current_smallest_solution_level = next_level
def get_neighbors(self, poi, level):
nex = {}
rv = []
if poi[0] != self.maxy:
nex.setdefault(self.y[poi[0] + 1][poi[1]], list()).append((poi[0] + 1, poi[1]))
if poi[1] != self.maxx:
nex.setdefault(self.y[poi[0]][poi[1] + 1], list()).append((poi[0], poi[1] + 1))
if poi[0] != 0:
nex.setdefault(self.y[poi[0] - 1][poi[1]], list()).append((poi[0] - 1, poi[1]))
if poi[1] != 0:
nex.setdefault(self.y[poi[0]][poi[1] - 1], list()).append((poi[0], poi[1] - 1))
order = sorted(nex.keys())
for j in order:
for p in nex[j]:
if (p not in self.visited and
(p not in self.point_costs or self.point_costs[p] >= level + j)):
rv.append(p)
return rv
gri = grid()
with open(sys.argv[1], 'r') as f:
for i in f.readlines():
gri.addline(i.strip())
gri.largegrid()
#for f in gri.y:
# print("".join(map(str, f)))
gri.findpath()
print(gri.current_smallest_solution_level)

80
day15.py

@ -1,80 +0,0 @@
from queue import PriorityQueue
import sys
class grid:
def __init__(self):
self.y = []
self.attempts = 0
self.solutions = []
self.current_smallest_solution_level = None
self.point_costs = {(0, 0): 0}
self.next_point_queue = PriorityQueue()
self.next_point_queue.put((0, (0, 0)))
def addline(self, line):
self.y.append([int(i) for i in line])
self.maxy = len(self.y) - 1
self.maxx = len(self.y[0]) - 1
# print(self.maxx)
# print(self.maxy)
def findpath(self):
while not self.next_point_queue.empty():
level, poi = self.next_point_queue.get()
self.attempts += 1
if self.attempts % 100000 == 0:
print('Attempt %d, solutions: %d, cost: %d' % (self.attempts, len(self.solutions), self.current_smallest_solution_level or -1))
neighbors = self.get_neighbors(poi)
for i in neighbors:
next_level = level + int(self.y[i[0]][i[1]])
if (self.current_smallest_solution_level is not None and
next_level > self.current_smallest_solution_level):
# We already found a solution that was overall less risky
# than the current path, so who cares.
continue
if i == (self.maxy, self.maxx):
self.solutions.append(next_level)
if (self.current_smallest_solution_level is None or
next_level < self.current_smallest_solution_level):
self.current_smallest_solution_level = next_level
# print('Found solution: ', i, ', orig level ', level)
continue
elif i in self.point_costs and self.point_costs[i] < next_level:
# We already visited the point on a cheaper path.
continue
else:
# print('Path: %s, next: %s' % (repr(path), i))
self.point_costs[i] = next_level
self.next_point_queue.put((next_level, i))
def get_neighbors(self, poi):
nex = {}
rv = []
if poi[0] != self.maxy:
nex.setdefault(self.y[poi[0] + 1][poi[1]], list()).append((poi[0] + 1, poi[1]))
if poi[1] != self.maxx:
nex.setdefault(self.y[poi[0]][poi[1] + 1], list()).append((poi[0], poi[1] + 1))
if poi[0] != 0:
nex.setdefault(self.y[poi[0] - 1][poi[1]], list()).append((poi[0] - 1, poi[1]))
if poi[1] != 0:
nex.setdefault(self.y[poi[0]][poi[1] - 1], list()).append((poi[0], poi[1] - 1))
order = sorted(nex.keys())
for j in order:
rv += nex[j]
return rv
gri = grid()
with open(sys.argv[1], 'r') as f:
for i in f.readlines():
gri.addline(i.strip())
gri.findpath()
print(min(gri.solutions))

38
day17-2.py

@ -1,38 +0,0 @@
targetx = (175, 227) #(20, 30)
targety = (-134, -79) #(-10, -5)
trajectories = []
class probe:
def __init__(self, velo):
self.probe_position = (0, 0)
self.velocity = velo
self.initial_velo = velo
def steppy(self):
while self.probe_position[0] < targetx[1] and self.probe_position[1] > targety[0]:
x, y = self.probe_position
velox, veloy = self.velocity
x += velox
y += veloy
if x >= targetx[0] and x <= targetx[1] and y <= targety[1] and y >= targety[0]:
return self.initial_velo
veloy -= 1
if velox != 0:
if velox < 0:
velox += 1
if velox > 0:
velox -= 1
self.probe_position = (x, y)
self.velocity = (velox, veloy)
return None
for yvelo in range(targety[0], 0 - targety[0]):
for xvelo in range(1, targetx[1] + 1):
prob = probe((xvelo, yvelo))
t = prob.steppy()
if t is not None:
trajectories.append(t)
del prob
print(len(trajectories))

7
day17.py

@ -1,7 +0,0 @@
targetx = (175, 227)
targety = (-134, -79)
y = 0 - targety[0] - 1
y = (y*y + y)/2
print(y)

172
day18.py

@ -1,172 +0,0 @@
import math
import sys
def check_nested(inp):
peg_counter = 0
found = False
found2 = False
pair = ''
high_peg = None
for i in range(len(inp)):
if inp[i] == '[':
peg_counter += 1
if peg_counter > 4:
found = True
high_peg = peg_counter
pair = ''
start = i
if inp[i] == ']':
peg_counter -= 1
if found:
pair += inp[i]
if found and peg_counter == high_peg - 1:
end = i
found2 = True
break
if found2:
#print('Exploding ', pair)
pair = pair[1:-1]
left, rigth = pair.split(',')
tempnum = ''
digit_check = False
for i in range(end, len(inp)):
if inp[i].isdigit():
digit_check = True
digit_start = i
tempnum += inp[i]
#print('tempnum: ', tempnum)
if (inp[i] == ',' or inp[i] == ']') and digit_check:
# print('Replacing ', inp[i - len(tempnum):i], ' with ', str(int(tempnum) + int(rigth)), ' (', str(tempnum), ' + ' , str(rigth) + ')')
inp = inp[:i - len(tempnum)] + str(int(tempnum) + int(rigth)) + inp[i:]
break
# print('Replacing ', inp[start:end+1], ' with zero')
# print('B: ', inp)
inp = inp[:start] + '0' + inp[end + 1:]
# print('A: ', inp)
tempnum = ''
digit_check = False
for i in range(start - 1, 0, -1):
if inp[i].isdigit():
digit_check = True
digit_start = i
tempnum = inp[i] + tempnum
if (inp[i] == ',' or inp[i] == '[' ) and digit_check:
# print('Replacing ', inp[i+1:i+len(tempnum)+1], ' with ', str(int(tempnum) + int(left)))
inp = inp[:i + 1] + str(int(tempnum) + int(left)) + inp[len(tempnum) + i + 1:]
break
# print(inp)
return (inp, found2)
def check_split(inp):
checkmarker = 0
found = False
for i in range(len(inp)):
if inp[i].isdigit():
checkmarker += 1
else:
checkmarker = 0
if checkmarker == 2:
number_pos = i
number = int(inp[i-1] + inp[i])
number = number/2
found = True
break
if found:
new_pair = '[' + str(math.trunc(number)) + ',' + str(math.ceil(number)) + ']'
#print('Replacing ', inp[number_pos - 1:number_pos+1], ' with ', new_pair)
inp = inp[:number_pos - 1] + new_pair + inp[number_pos + 1:]
#print(inp)
return (inp, found)
def magnitude(inp):
found = False
number = ''
start = None
end = None
for i in range(len(inp)):
if inp[i] == '[':
start = i
if inp[i] == ']':
end = i
break
if start is None:
start = 0
if end is None:
end = len(inp)
for i in range(start, end):
number += inp[i]
if ',' in number:
found = True
left, rigth = number.split(',')
left = left[1:]
number = str(int(left)*3 + int(rigth)*2)
inp = inp[:start] + number + inp[end + 1:]
else:
inp = number
return (inp, found)
def reduct(inp):
reduction = True
while reduction:
eplode = True
split = True
while eplode:
inp, eplode = check_nested(inp)
reduction = False
inp, split = check_split(inp)
if split:
reduction = True
return(inp)
inp = []
with open(sys.argv[1], 'r') as f:
for g in f.readlines():
g = g.strip()
inp.append(g)
if sys.argv[2] == 'part1':
imp = inp[0]
inp.pop(0)
while len(inp) > 0:
print('___________________')
print(imp)
print('+', inp[0])
imp = '[' + imp + ',' + inp[0] + ']'
inp.pop(0)
imp = reduct(imp)
print('=', imp)
print('___________________')
done_check = True
while done_check:
imp, done_check = magnitude(imp)
print(imp, done_check)
if sys.argv[2] == 'part2':
high_mag = 0
for i in inp:
for f in inp:
if f != i:
imp = '[' + i + ',' + f + ']'
imp = reduct(imp)
done_check = True
while done_check:
imp, done_check = magnitude(imp)
if int(imp) > high_mag:
high_mag = int(imp)
print(high_mag)

75
day20-2.py

@ -1,75 +0,0 @@
import sys
class img:
def __init__(self):
self.y = []
def addline(self, line):
self.y.append(line)
def get_num(self,y,x, test):
number=''
if y != 0 and x != 0: number += self.y[y - 1][x - 1]
else: number += test
if y !=0: number += self.y[y - 1][x]
else: number += test
if y != 0 and x != len(self.y[0]) - 1: number += self.y[y - 1][x + 1]
else: number += test
if x != 0: number += self.y[y][x - 1]
else: number += test
number += self.y[y][x]
if x != len(self.y[0]) - 1: number += self.y[y][x + 1]
else: number += test
if y != len(self.y) - 1 and x != 0: number += self.y[y + 1][x - 1]
else: number += test
if y != len(self.y) - 1: number += self.y[y + 1][x]
else: number += test
if y != len(self.y) - 1 and x != len(self.y[0]) - 1: number += self.y[y + 1][x + 1]
else: number += test
number = number.replace('.', '0')
number = number.replace('#', '1')
return (int(number, 2))
def enhance(self, test):
new_image = []
self.y.insert(0, test*len(self.y[0]))
self.y.append(test*len(self.y[0]))
for i in range(len(self.y)):
self.y[i] = test + self.y[i] + test
for i in range(len(self.y)):
new_line = ''
for t in range(len(self.y[i])):
num = self.get_num(i,t,test)
new_line += algorithm[num]
new_image.append(new_line)
self.y = new_image.copy()
def count(self):
counter = 0
for f in self.y:
for g in f:
if g == '#':
counter += 1
return(counter)
image = img()
with open(sys.argv[1], 'r') as f:
toggle = False
for g in f.readlines():
g = g.strip()
if g == '':
toggle = True
if not toggle:
algorithm = g
if toggle and g != '':
image.addline(g)
for i in range(25):
image.enhance('.')
image.enhance('#')
print(image.count())

74
day20.py

@ -1,74 +0,0 @@
import sys
class img:
def __init__(self):
self.y = []
def addline(self, line):
self.y.append(line)
def get_num(self,y,x):
number=''
if y != 0 and x != 0: number += self.y[y - 1][x - 1]
else: number += '.'
if y !=0: number += self.y[y - 1][x]
else: number += '.'
if y != 0 and x != len(self.y[0]) - 1: number += self.y[y - 1][x + 1]
else: number += '.'
if x != 0: number += self.y[y][x - 1]
else: number += '.'
number += self.y[y][x]
if x != len(self.y[0]) - 1: number += self.y[y][x + 1]
else: number += '.'
if y != len(self.y) - 1 and x != 0: number += self.y[y + 1][x - 1]
else: number += '.'
if y != len(self.y) - 1: number += self.y[y + 1][x]
else: number += '.'
if y != len(self.y) - 1 and x != len(self.y[0]) - 1: number += self.y[y + 1][x + 1]
else: number += '.'
number = number.replace('.', '0')
number = number.replace('#', '1')
return (int(number, 2))
def enhance(self):
new_image = []
self.y.insert(0, '.'*len(self.y[0]))
self.y.append('.'*len(self.y[0]))
for i in range(len(self.y)):
self.y[i] = '.' + self.y[i] + '.'
for i in range(len(self.y)):
new_line = ''
for t in range(len(self.y[i])):
num = self.get_num(i,t)
new_line += algorithm[num]
new_image.append(new_line)
self.y = new_image.copy()
def count(self):
counter = 0
for f in self.y:
for g in f:
if g == '#':
counter += 1
return(counter)
image = img()
with open(sys.argv[1], 'r') as f:
toggle = False
for g in f.readlines():
g = g.strip()
if g == '':
toggle = True
if not toggle:
algorithm = g
if toggle and g != '':
image.addline(g)
image.enhance()
image.enhance()
print(image.count())

102
input14.txt

@ -1,102 +0,0 @@
VFHKKOKKCPBONFHNPHPN
VS -> B
HK -> B
FO -> P
NC -> F
VN -> C
BS -> O
HS -> K
NS -> C
CV -> P
NV -> C
PH -> H
PB -> B
PK -> K
HF -> P
FV -> C
NN -> H
VO -> K
VP -> P
BC -> B
KK -> S
OK -> C
PN -> H
SB -> V
KO -> P
KH -> C
KS -> S
FP -> B
PV -> B
BO -> C
OS -> H
NB -> S
SP -> C
HN -> N
FN -> B
PO -> O
FS -> O
NH -> B
SO -> P
OB -> S
KC -> C
OO -> H
BB -> V
SC -> F
NP -> P
SH -> C
BH -> O
BP -> F
CC -> S
BN -> H
SS -> P
BF -> B
VK -> P
OV -> H
FC -> S
VB -> S
PF -> N
HH -> O
HC -> V
CH -> B
HP -> H
FF -> H
VF -> V
CS -> F
KP -> F
OP -> H
KF -> F
PP -> V
OC -> C
PS -> F
ON -> H
BK -> B
HV -> S
CO -> K
FH -> C
FB -> F
OF -> V
SN -> S
PC -> K
NF -> F
NK -> P
NO -> P
CP -> P
CK -> S
HB -> H
BV -> C
SF -> K
HO -> H
OH -> B
KV -> S
KN -> F
SK -> K
VH -> S
CN -> S
VC -> P
CB -> H
SV -> S
VV -> P
CF -> F
FK -> F
KB -> V

100
input15.txt

@ -1,100 +0,0 @@
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100
input18.txt

@ -1,100 +0,0 @@
[[[3,[8,6]],[6,1]],[[[1,1],2],[[1,0],0]]]
[[[1,[7,3]],1],9]
[[[2,6],[[3,1],[0,9]]],[[7,[4,8]],[[2,7],3]]]
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[[2,[[2,3],[1,8]]],[3,[[7,2],[0,7]]]]
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[[[1,4],[[6,1],[1,3]]],[1,[7,[1,7]]]]
[[[[1,4],8],[[5,1],8]],[[[1,3],[6,9]],[6,[3,3]]]]
[[[[4,0],[0,7]],[4,5]],[4,2]]
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[[[5,[0,5]],[4,4]],[3,[[4,2],[7,0]]]]
[[[[7,9],8],[9,6]],[5,0]]
[[[[3,0],[5,2]],1],[[[6,9],[5,3]],[[2,5],[6,3]]]]
[7,[[[7,7],[4,5]],[9,2]]]
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[1,[[[8,8],1],[2,[0,5]]]]
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[1,[[[1,1],[8,3]],[1,8]]]
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[[6,[[3,3],[9,0]]],[1,[[4,5],4]]]
[[[[3,4],7],[9,0]],[[[4,5],1],[[5,1],[9,3]]]]

102
input20.txt

@ -1,102 +0,0 @@
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18
testdata14.txt

@ -1,18 +0,0 @@
NNCB
CH -> B
HH -> N
CB -> H
NH -> C
HB -> C
HC -> B
HN -> C
NN -> C
BH -> H
NC -> B
NB -> B
BN -> B
BB -> N
BC -> B
CC -> N
CN -> C

50
testdata15-2.txt

@ -1,50 +0,0 @@
11637517422274862853338597396444961841755517295286
13813736722492484783351359589446246169155735727126
21365113283247622439435873354154698446526571955763
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31254216394236532741534764385264587549637569865174
12931385212314249632342535174345364628545647573965
23119445813422155692453326671356443778246755488935
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24924847833513595894462461691557357271266846838237
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47151426715826253782693736489371484759148259586125
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24212392483532341359464345246157545635726865674683
24611235323572234643468334575457944568656815567976
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23142496323425351743453646285456475739656758684176
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58262537826937364893714847591482595861259361697236
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67554889357866599146897761125791887223681299833479

10
testdata15.txt

@ -1,10 +0,0 @@
1163751742
1381373672
2136511328
3694931569
7463417111
1319128137
1359912421
3125421639
1293138521
2311944581

10
testdata18-2.txt

@ -1,10 +0,0 @@
[[[0,[5,8]],[[1,7],[9,6]]],[[4,[1,2]],[[1,4],2]]]
[[[5,[2,8]],4],[5,[[9,9],0]]]
[6,[[[6,2],[5,6]],[[7,6],[4,7]]]]
[[[6,[0,7]],[0,9]],[4,[9,[9,0]]]]
[[[7,[6,4]],[3,[1,3]]],[[[5,5],1],9]]
[[6,[[7,3],[3,2]]],[[[3,8],[5,7]],4]]
[[[[5,4],[7,7]],8],[[8,3],8]]
[[9,3],[[9,9],[6,[4,9]]]]
[[2,[[7,7],7]],[[5,8],[[9,3],[0,2]]]]
[[[[5,2],5],[8,[3,7]]],[[5,[7,5]],[4,4]]]

2
testdata18-3.txt

@ -1,2 +0,0 @@
[[[0,[4,5]],[0,0]],[[[4,5],[2,6]],[9,5]]]
[7,[[[3,7],[4,3]],[[6,3],[8,8]]]]

10
testdata18.txt

@ -1,10 +0,0 @@
[[[0,[4,5]],[0,0]],[[[4,5],[2,6]],[9,5]]]
[7,[[[3,7],[4,3]],[[6,3],[8,8]]]]
[[2,[[0,8],[3,4]]],[[[6,7],1],[7,[1,6]]]]
[[[[2,4],7],[6,[0,5]]],[[[6,8],[2,8]],[[2,1],[4,5]]]]
[7,[5,[[3,8],[1,4]]]]
[[2,[2,2]],[8,[8,1]]]
[2,9]
[1,[[[9,3],9],[[9,0],[0,7]]]]
[[[5,[7,4]],7],1]
[[[[4,2],2],6],[8,7]]

7
testdata20.txt

@ -1,7 +0,0 @@
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#..#.
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##..#
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