191 lines
5.5 KiB
Python
191 lines
5.5 KiB
Python
import re,sys
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def loadFile(input_f):
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lines = []
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with open(input_f) as file:
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for line in file:
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lines.append(line.rstrip())
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return lines
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def convert_list(input_list):
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"""
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Convert a list of strings to integers where possible, leaving others as strings.
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Args:
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input_list (list): A list of strings to be converted.
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Returns:
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list: A list with integers or strings based on the input.
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"""
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converted_list = []
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for item in input_list:
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try:
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converted_list.append(int(item))
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except ValueError:
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converted_list.append(item)
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return converted_list
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def toGrid(input,parser=None):
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grid = []
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if parser:
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with open(input) as file:
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for line in file:
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grid.append(list2int(line.rstrip()))
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else:
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with open(input) as file:
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for line in file:
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grid.append(list(line.rstrip()))
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return grid
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def swap(a:int,b:int,lst:list):
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"""
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Swaps two numbers in a list based on their indices.
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Parameters:
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lst (list): The list of numbers.
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index1 (int): The index of the first number.
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index2 (int): The index of the second number.
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Returns:
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list: The list after swapping the two numbers.
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"""
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if a < 0 or b < 0 or a >= len(lst) or b >= len(lst):
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raise IndexError("Index out of range.")
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lst[a], lst[b] = lst[b], lst[a]
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return lst
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def addTuples(x:tuple,y:tuple):
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return (x[0]+y[0],x[1]+y[1])
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def findDupes(input:list):
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# Returns the indicies of duplicate values in list
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return [item for item in set(input) if input.count(item) > 1]
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def lprint(x:str,log:bool):
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if log:
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print(x)
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def expand_grid(grid):
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num_rows = len(grid)
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num_cols = len(grid[0])
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expanded_grid = []
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expanded_grid.append(['.'] * (num_cols + 2))
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for row in grid:
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expanded_grid.append(['.'] + row + ['.'])
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expanded_grid.append(['.'] * (num_cols + 2))
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return expanded_grid
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def getCenter(grid):
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return (int(len(grid)/2),int(len(grid[0])/2))
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def nprint(grid,cur:set=None,sign:str=None):
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for idx,i in enumerate(grid):
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for jdx,j in enumerate(i):
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if (idx,jdx) == cur:
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if len(sign) > 1:
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print(sign[0]+grid[idx][jdx]+sign[1],end='')
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else:
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print(sign,end=' ')
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else:
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print(grid[idx][jdx],end=' ')
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print()
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def list2int(x):
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return list(map(int, x))
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def grid_valid(x,y,grid):
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rows = len(grid)
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cols = len(grid[0])
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return 0 <= x < rows and 0 <= y < cols
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def get_re(pattern,str):
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match = re.match(pattern, str)
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if match:
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return match
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return None
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def ppprint(x):
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for idx,i in enumerate(x):
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for jdx,j in enumerate(i):
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print(x[idx][jdx],end='')
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print()
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def get_value_in_direction(grid, position, direction=None,length=1,type:str=None):
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"""
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Get the value(s) in a specified direction from a given position in a grid.
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If no direction is provided, returns the value at the current position.
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Parameters:
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grid (list of list of int/float/str): The 2D grid.
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position (set): A set containing x (row index) and y (column index) as integers.
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direction (str, optional): The direction to check.
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Options: 'up', 'down', 'left', 'right',
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'up-left', 'up-right', 'down-left', 'down-right'.
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length (int, optional): The number of steps to check in the given direction. Default is 1.
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Returns:
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list: A list of values in the grid for the specified direction and length.
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Returns an empty list if any position is out of bounds.
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"""
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# Ensure the position is a set of two integers
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if len(position) != 2 or not all(isinstance(coord, int) for coord in position):
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raise ValueError("Position must be a set containing two integers (x, y).")
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x, y = position
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offsets = {
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'up': (-1, 0),
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'down': (1, 0),
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'left': (0, -1),
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'right': (0, 1),
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'up-left': (-1, -1),
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'up-right': (-1, 1),
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'down-left': (1, -1),
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'down-right': (1, 1)
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}
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# If no direction is given, return the value at the current position
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if direction is None:
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if 0 <= x < len(grid) and 0 <= y < len(grid[x]):
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return grid[x][y]
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else:
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return None
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# Validate direction
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if direction not in offsets:
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raise ValueError(f"Invalid direction: {direction}. Choose from {list(offsets.keys())}")
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dx, dy = offsets[direction]
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new_x, new_y = x + dx, y + dy
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values = []
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if length == 1:
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# Check for out-of-bounds, considering varying row lengths
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if 0 <= new_x < len(grid) and 0 <= new_y < len(grid[new_x]):
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return grid[new_x][new_y]
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else:
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return None
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else:
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for step in range(length):
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print(step)
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new_x, new_y = x + step * dx, y + step * dy
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# Check for out-of-bounds, considering varying row lengths
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if 0 <= new_x < len(grid) and 0 <= new_y < len(grid[new_x]):
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values.append(grid[new_x][new_y])
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else:
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return [] # Return empty list if any position is out of bounds
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if type == 'list':
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return values
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elif type == 'str':
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return ''.join(values)
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else:
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return values
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