175 lines
4.5 KiB
Python
175 lines
4.5 KiB
Python
import sys
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from pprint import pprint
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#colors
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from termcolor import colored
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grid = []
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log = True
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def p(x,steps):
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global log
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if log:
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for idx,i in enumerate(x):
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for jdx,j in enumerate(i):
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if j == 'S':
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print(colored(j,'red'),end='')
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elif (idx,jdx) in steps:
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print(colored(j,'green'),end='')
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else:
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print(j,end='')
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print()
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def start_coords(grid):
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for ydx,y in enumerate(grid):
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for xdx,x in enumerate(y):
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if x == 'S':
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return (xdx,ydx)
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with open(sys.argv[1]) as file:
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for line in file:
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grid.append(line.rstrip())
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for ldx,line in enumerate(grid):
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grid[ldx] = line.translate(str.maketrans("-|F7LJ.", "─│┌┐└┘ "))
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steps = []
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#p(grid,steps)
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found = False
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start = start_coords(grid)
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cur = start
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prev = cur
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count = 0
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def wall(loc):
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return grid[loc[1]][loc[0]]
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"""
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steps = [(3,3),(2,3),(4,3),(3,2),(3,4)]
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tmps = []
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for i in steps:
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tmps.append(i)
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p(grid,tmps)
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input()
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exit()
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"""
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y = cur[0]
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x = cur[1]
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print('Right is ' + wall((y+1,x)) + grid[x][y+1],end='')
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print((y+1,x))
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print('Left is ' + wall((y-1,x)) + grid[x][y-1],end='')
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print((y-1,x))
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print('Up is ' + wall((y,x-1)) + grid[x-1][y],end='')
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print((y,x-1))
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print('Down is ' + wall((y,x+1)) + grid[x+1][y],end='')
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print((y,x+1))
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print()
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p(grid,steps)
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while not found:
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y = cur[0]
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x = cur[1]
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sub_found = False
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#print('Start: ' + str(cur) + ' ' + wall(cur))
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dirc = ''
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#print('Trying to find way')
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#print('Previous is ' + str(prev) + wall(prev))
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if y+1 < len(grid[0]) and not sub_found:
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#print('Can go right')
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# Right
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new = (list(cur)[0]+1,list(cur)[1])
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#print(wall(new))
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if grid[x][y+1] in ('─','┐','┘') and new != prev:
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#print('Trying Right')
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#print('prev: ' + str(prev) + ' cur: ' + str(cur) + ' new: ' + str(new))
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dirc = 'R'
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if wall(cur) in ('─','┌','└','S'):
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if wall(new) == 'S':
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print('Found')
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found = True
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#print('Went Right')
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prev = (y,x)
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y += 1
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print(wall(new))
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sub_found = True
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if y > 0 and not sub_found:
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#print('Can go left')
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# Left
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new = (list(cur)[0]-1,list(cur)[1])
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if grid[x][y-1] in ('─','┌','└') and new != prev:
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#print('Trying Left')
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#print('prev: ' + str(prev) + ' cur: ' + str(cur) + ' new: ' + str(new))
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dirc = 'L'
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if wall(cur) in ('─','┐','┘','S'):
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if wall(new) == 'S':
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print('Found')
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found = True
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#print('Went Left')
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prev = (y,x)
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y -= 1
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print(wall(new))
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sub_found = True
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if x > 0 and not sub_found:
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print('Can go up')
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# Up
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new = (list(cur)[0],list(cur)[1]-1)
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#print(wall(new))
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if grid[x-1][y] in ('│','┌','┐','S') and new != prev:
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print('Trying Up')
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print('prev: ' + str(prev) + ' cur: ' + str(cur) + ' new: ' + str(new))
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dirc = 'U'
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if wall(cur) in ('│','└','┘','S'):
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print('Went Up')
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if wall(new) == 'S':
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print('Found')
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found = True
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prev = (y,x)
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x -=1
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sub_found = True
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if x < len(grid) and not sub_found:
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#print('Can go down')
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# Down
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new = (list(cur)[0],list(cur)[1]+1)
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#print(wall(new))
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if grid[x+1][y] in ('│','└','┘','S') and new != prev:
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#print('Trying Down')
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#print('prev: ' + str(prev) + ' cur: ' + str(cur) + ' new: ' + str(new))
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dirc = 'D'
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if wall(cur) in ('│','┌','┐','S'):
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#print('Went Down')
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if wall(new) == 'S':
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print('Found')
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found = True
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prev = (y,x)
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x += 1
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sub_found = True
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cur = (y,x)
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steps.append((x,y))
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p(grid,steps)
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print('Going ' + dirc + ' to ' + str(cur) + ' ' + wall(cur))
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print('Previous is ' + str(prev) + ' ' + wall(prev))
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print()
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input()
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count += 1
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#print(cur, start)
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p(grid,steps)
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print(count)
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print(count/2)
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