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๐ŸฆŒ - 2023 DAY 2 SOLUTIONS -๐ŸฆŒ

Day 2: Cube Conundrum


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  • Did mine in Odin. Found this day's to be super easy, most of the challenge was just parsing.

    package day2
    
    import "core:fmt"
    import "core:strings"
    import "core:strconv"
    import "core:unicode"
    
    Round :: struct {
        red: int,
        green: int,
        blue: int,
    }
    
    parse_round :: proc(s: string) -> Round {
        ret: Round
    
        rest := s
        for {
            nextNumAt := strings.index_proc(rest, unicode.is_digit)
            if nextNumAt == -1 do break
            rest = rest[nextNumAt:]
    
            numlen: int
            num, ok := strconv.parse_int(rest, 10, &numlen)
            rest = rest[numlen+len(" "):]
    
            if rest[:3] == "red" {
                ret.red = num
            } else if rest[:4] == "blue" {
                ret.blue = num
            } else if rest[:5] == "green" {
                ret.green = num
            }
        }
    
        return ret
    }
    
    Game :: struct {
        id: int,
        rounds: [dynamic]Round,
    }
    
    parse_game :: proc(s: string) -> Game {
        ret: Game
    
        rest := s[len("Game "):]
    
        idOk: bool
        idLen: int
        ret.id, idOk = strconv.parse_int(rest, 10, &idLen)
        rest = rest[idLen+len(": "):]
    
        for len(rest) > 0 {
            endOfRound := strings.index_rune(rest, ';')
            if endOfRound == -1 do endOfRound = len(rest)
    
            append(&ret.rounds, parse_round(rest[:endOfRound]))
            rest = rest[min(endOfRound+1, len(rest)):]
        }
    
        return ret
    }
    
    is_game_possible :: proc(game: Game) -> bool {
        for round in game.rounds {
            if round.red   > 12 ||
               round.green > 13 ||
               round.blue  > 14 {
                return false
            }
        }
        return true
    }
    
    p1 :: proc(input: []string) {
        totalIds := 0
    
        for line in input {
            game := parse_game(line)
            defer delete(game.rounds)
    
            if is_game_possible(game) do totalIds += game.id
        }
    
        fmt.println(totalIds)
    }
    
    p2 :: proc(input: []string) {
        totalPower := 0
    
        for line in input {
            game := parse_game(line)
            defer delete(game.rounds)
    
            minRed   := 0
            minGreen := 0
            minBlue  := 0
            for round in game.rounds {
                minRed   = max(minRed  , round.red  )
                minGreen = max(minGreen, round.green)
                minBlue  = max(minBlue , round.blue )
            }
    
            totalPower += minRed * minGreen * minBlue
        }
    
        fmt.println(totalPower)
    }
    
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