☃️ - 2023 DAY 11 SOLUTIONS - ☃️ - eviltoast

Day 11: Cosmic Expansion

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  • purplemonkeymad@programming.dev
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    11 months ago

    I saw that coming, but decided to do it the naive way for part 1, then fixed that up for part 2. Thanks to AoC I can also recognise a Manhattan distance written in a complex manner.

    Python
    from __future__ import annotations
    
    import re
    import math
    import argparse
    import itertools
    
    def print_sky(sky:list):
        for r in sky:
            print("".join(r))
    
    class Point:
        def __init__(self,x:int,y:int) -> None:
            self.x = x
            self.y = y
    
        def __repr__(self) -> str:
            return f"Point({self.x},{self.y})"
    
        def distance(self,point:Point):
            # Manhattan dist
            x = abs(self.x - point.x)
            y = abs(self.y - point.y)
            return x + y
    
    def expand_galaxies(galaxies:list,position:int,amount:int,index:str):
        for g in galaxies:
            if getattr(g,index) > position:
                c = getattr(g,index)
                setattr(g,index, c + amount)
    
    def main(line_list:list,part:int):
        ## list of lists is the plan for init idea
    
        expand_value = 2 -1
        if part == 2:
            expand_value = 1e6 -1
        if part > 2:
            expand_value = part -1
    
        sky = list()
        for l in line_list:
            row_data = [*l]
            sky.append(row_data)
        
        print_sky(sky)
        
        # get galaxies
        gal_list = list()
        for r in range(0,len(sky)):
            for c in range(0,len(sky[r])):
                if sky[r][c] == '#':
                    gal_list.append(Point(r,c))
    
        print(gal_list)
    
        col_indexes = list(reversed(range(0,len(sky))))
        # expand rows
        for i in col_indexes:
            if not '#' in sky[i]:
                expand_galaxies(gal_list,i,expand_value,'x')
    
        # check for expanding columns
        for i in reversed( range(0, len( sky[0] )) ):
            col = [sky[x][i] for x in col_indexes]
            if not '#' in col:
                expand_galaxies(gal_list,i,expand_value,'y')
    
        print(gal_list)
    
        # find all unique pair distance sum, part 1
        sum = 0
        for i in range(0,len(gal_list)):
            for j in range(i+1,len(gal_list)):
                sum += gal_list[i].distance(gal_list[j])
    
        print(f"Sum distances: {sum}")
    
    if __name__ == "__main__":
        parser = argparse.ArgumentParser(description="template for aoc solver")
        parser.add_argument("-input",type=str)
        parser.add_argument("-part",type=int)
        args = parser.parse_args()
        filename = args.input
        if filename == None:
            parser.print_help()
            exit(1)
        part = args.part
        file = open(filename,'r')
        main([line.rstrip('\n') for line in file.readlines()],part)
        file.close()