164 lines
4.3 KiB
Python
164 lines
4.3 KiB
Python
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split_word_to_int_list = lambda y: [int(w) for w in y]
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split_line_to_int_list = lambda y: [int(w) for w in y.split(" ") if w]
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def rotate(m, right=True): # -90
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x = list(zip(*m[::-1]))
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if right:
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return x
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return [list(reversed(y)) for y in x]
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def load_matrix_file(name, func=None):
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with open(name, "r") as f:
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my_file = []
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for line in f:
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my_file.append(line.rstrip())
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if func:
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return [func(x) for x in my_file]
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return [split_word_to_int_list(x) for x in my_file]
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def get_neighbors(matrix, x, y, _dict=False):
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neighbors = []
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# left
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try:
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if x - 1 >= 0:
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if _dict:
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neighbors.append({'x':x - 1,'y':y,'value':matrix[y][x - 1]})
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else:
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neighbors.append([(x - 1, y), matrix[y][x - 1]])
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except IndexError:
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pass
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# right
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try:
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if _dict:
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neighbors.append({'x':x + 1,'y':y,'value':matrix[y][x + 1]})
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else:
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neighbors.append([(x + 1, y), matrix[y][x + 1]])
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except IndexError:
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pass
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# up
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try:
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if y - 1 >= 0:
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if _dict:
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neighbors.append({'x':x,'y':y-1,'value':matrix[y-1][x]})
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else:
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neighbors.append([(x, y - 1), matrix[y - 1][x]])
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except IndexError:
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pass
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# down
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try:
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if _dict:
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neighbors.append({'x':x,'y':y+1,'value':matrix[y+1][x]})
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else:
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neighbors.append([(x, y + 1), matrix[y + 1][x]])
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except IndexError:
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pass
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return neighbors
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def sum_matrix(mtx):
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total = 0
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for row in mtx:
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total += sum(row)
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return total
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M_UL, M_U, M_UR = (-1, -1), (0, -1), (1, -1)
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M_L, M_R = (-1, 0), (1, 0)
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M_DL, M_D, M_DR = (-1, 1), (0, 1), (1, 1)
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def get_neighbor_coords(matrix, c, r, diagonals=True):
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height = len(matrix)
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width = len(matrix[0])
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if diagonals:
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coords = (
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M_UL, M_U, M_UR,
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M_L, M_R,
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M_DL, M_D, M_DR
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)
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else:
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coords = (
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M_U,
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M_L,M_R,
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M_D
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)
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neighbors = []
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for _c, _r in coords:
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try:
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value = matrix[r + _r][c + _c] # Try to get a value error
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if (r+_r>=0 and c+_c >= 0):
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neighbors.append(
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[{"c": c + _c, "r": r + _r}, value]
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) # woo, no error, this coord is valid
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except IndexError:
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pass # okay we out of bounds boizzzz
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return neighbors
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def get_column(matrix, col):
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pass
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def matrix_of_size(width, height, default=0):
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return [[default] * width for x in range(height)]
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def set_matrix_dict(m):
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for x in range(len(m)):
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for y in range(len(m[x])):
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m[x][y] = {}
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return m
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def get_size(matrix):
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height = len(matrix)
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width = len(matrix[0])
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return height, width
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def pmx(*matrices, pad=True, space=True):
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if len(matrices) > 1:
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matrices = list(zip(*matrices))
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for row in matrices:
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r = []
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for col in row:
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r.append("".join([f"{int(x)or '.'}".rjust(3) for x in col]))
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print(" ".join(r))
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else:
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for row in matrices:
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for c in row:
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if pad:
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f = lambda x: f"{int(x)or '.'}".rjust(2)
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if space:
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f = lambda x: f"{int(x)or '.'}".rjust(3)
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else:
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f = lambda x: f"{int(x)or '.'}"
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if space:
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f = lambda x: f"{int(x)or '.'} "
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print("".join([f(x) for x in c]))
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def ppmx(*matrices, pad=True, space=True):
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if len(matrices) > 1:
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matrices = list(zip(*matrices))
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for row in matrices:
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r = []
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for col in row:
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r.append("".join([f"{x or '.'}".rjust(3) for x in col]))
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print(" ".join(r))
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else:
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for row in matrices:
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for c in row:
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if pad:
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f = lambda x: f"{x or '.'}".rjust(2)
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if space:
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f = lambda x: f"{x or '.'}".rjust(3)
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else:
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f = lambda x: f"{x or '.'}"
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if space:
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f = lambda x: f"{x or '.'} "
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print("".join([f(x) for x in c]))
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