mochaaP/day01.hs

## day01.hs
module AoC2023.Day01 where

import Data.Char (isDigit)

main :: IO ()
main = do
  res <- readFile "input/1.txt"
  let i = lines res
  -- part one
  print
    $ ( sum
          . map
            ( \line ->
                let n = filter isDigit line
                 in read [head n, last n] :: Int
            )
      )
      i
  -- part two
  print
    $ ( sum
          . map
            asNum
      )
      i

asNum :: String -> Int
asNum x = read [numl "" x, numr "" x] :: Int

numl :: String -> String -> Char
numl "" (x : xs)
  | isDigit x = x
  | otherwise = numl [x] xs
numl acc (x : xs)
  | acc == "one" = '1'
  | acc == "two" = '2'
  | acc == "three" = '3'
  | acc == "four" = '4'
  | acc == "five" = '5'
  | acc == "six" = '6'
  | acc == "seven" = '7'
  | acc == "eight" = '8'
  | acc == "nine" = '9'
  | isDigit x = x
  | otherwise = numl (acc ++ [x]) xs

numr :: String -> String -> Char
numr "" x
  | isDigit $ last x = last x
  | otherwise = numr [last x] $ init x
numr acc x
  | acc == "one" = '1'
  | acc == "two" = '2'
  | acc == "three" = '3'
  | acc == "four" = '4'
  | acc == "five" = '5'
  | acc == "six" = '6'
  | acc == "seven" = '7'
  | acc == "eight" = '8'
  | acc == "nine" = '9'
  | isDigit $ last x = last x
  | otherwise = numr (last x : acc) (init x)

## day02.ts
namespace Multiply {
	type Reverse<A extends string | number | bigint> =
		`${A}` extends `${infer AH}${infer AT}` ? `${Reverse<AT>}${AH}` : "";

	type DigsNext = {
		"0": "1";
		"1": "2";
		"2": "3";
		"3": "4";
		"4": "5";
		"5": "6";
		"6": "7";
		"7": "8";
		"8": "9";
	};
	type DigsPrev = { [K in keyof DigsNext as DigsNext[K]]: K };

	type AddOne<A> = A extends `${infer AH}${infer AT}`
		? AH extends "9"
			? `0${AddOne<AT>}`
			: `${DigsNext[AH & keyof DigsNext]}${AT}`
		: "1";

	type SubOne<A> = A extends `${infer AH}${infer AT}`
		? AH extends "0"
			? `9${SubOne<AT>}`
			: `${DigsPrev[AH & keyof DigsPrev]}${AT}`
		: never;

	type Add<A, B> = A extends `${infer AH}${infer AT}`
		? B extends `${infer BH}${infer BT}`
			? BH extends "0"
				? `${AH}${Add<AT, BT>}`
				: Add<AddOne<A>, SubOne<B>>
			: A
		: B;

	type Mul<A extends string, B extends string, R = "0"> = A extends "0"
		? R
		: B extends "0"
		? R
		: A extends `${infer AH}${infer AT}`
		? AH extends "0"
			? Mul<AT, `0${B}`, R>
			: Mul<SubOne<A>, B, Add<R, B>>
		: R;

	export type Multiply<
		A extends string | number | bigint,
		B extends string | number | bigint,
	> = Reverse<Mul<Reverse<A>, Reverse<B>>>;
}
namespace Sum {
	type Or<left extends boolean, right extends boolean> = left extends true
		? true
		: right extends true
		? true
		: false;

	type CoalesceToString<n extends string | number | bigint> = n extends string
		? n
		: `${n}`;

	type Digit = "0" | "1" | "2" | "3" | "4" | "5" | "6" | "7" | "8" | "9";

	type SubOneFromDigit<digit extends Digit> = digit extends "1"
		? "0"
		: digit extends "2"
		? "1"
		: digit extends "3"
		? "2"
		: digit extends "4"
		? "3"
		: digit extends "5"
		? "4"
		: digit extends "6"
		? "5"
		: digit extends "7"
		? "6"
		: digit extends "8"
		? "7"
		: digit extends "9"
		? "8"
		: digit extends "10"
		? "9"
		: never;

	type AddOneToDigit<digit extends Digit> = digit extends "0"
		? { result: "1"; carry: false }
		: digit extends "1"
		? { result: "2"; carry: false }
		: digit extends "2"
		? { result: "3"; carry: false }
		: digit extends "3"
		? { result: "4"; carry: false }
		: digit extends "4"
		? { result: "5"; carry: false }
		: digit extends "5"
		? { result: "6"; carry: false }
		: digit extends "6"
		? { result: "7"; carry: false }
		: digit extends "7"
		? { result: "8"; carry: false }
		: digit extends "8"
		? { result: "9"; carry: false }
		: digit extends "9"
		? { result: "0"; carry: true }
		: never;

	type SingleDigitSumResult<result extends Digit, carry extends boolean> = {
		result: result;
		carry: carry;
	};

	type SumSingleDigits<
		left extends Digit,
		right extends Digit,
		carryIn extends boolean = false,
		carryOut extends boolean = false,
	> = carryIn extends true
		? AddOneToDigit<left> extends SingleDigitSumResult<
				infer leftIncremented,
				infer carryOutFromIncrement
		  >
			? SumSingleDigits<leftIncremented, right, false, carryOutFromIncrement>
			: never
		: right extends "0"
		? { result: left; carry: carryOut }
		: AddOneToDigit<left> extends SingleDigitSumResult<
				infer leftIncremented,
				infer carryOutFromIncrement
		  >
		? SumSingleDigits<
				leftIncremented,
				SubOneFromDigit<right>,
				false,
				Or<carryOut, carryOutFromIncrement>
		  >
		: never;

	type RightMostDigitResult<rest extends string, digit extends Digit> = {
		rest: rest;
		digit: digit;
	};

	type RightMostDigit<s extends string> = s extends `${infer rest}${Digit}`
		? s extends `${rest}${infer digit}`
			? { rest: rest; digit: digit }
			: never
		: never;

	type SumStrings<
		left extends string,
		right extends string,
		accumulatedResultDigits extends string = "",
		carry extends boolean = false,
	> = "" extends left
		? // Left is empty
		  "" extends right
			? // Right is empty
			  carry extends true
				? `1${accumulatedResultDigits}`
				: accumulatedResultDigits
			: // Right has value
			RightMostDigit<right> extends RightMostDigitResult<
					infer remainingRight,
					infer rightDigit
			  >
			? SumSingleDigits<"0", rightDigit, carry> extends SingleDigitSumResult<
					infer resultDigit,
					infer resultCarry
			  >
				? SumStrings<
						"",
						remainingRight,
						`${resultDigit}${accumulatedResultDigits}`,
						resultCarry
				  >
				: never
			: never
		: // Left has value
		"" extends right
		? // Right has no value
		  RightMostDigit<left> extends RightMostDigitResult<
				infer remainingLeft,
				infer leftDigit
		  >
			? SumSingleDigits<"0", leftDigit, carry> extends SingleDigitSumResult<
					infer resultDigit,
					infer resultCarry
			  >
				? SumStrings<
						remainingLeft,
						"",
						`${resultDigit}${accumulatedResultDigits}`,
						resultCarry
				  >
				: never
			: never
		: // Right has value
		RightMostDigit<left> extends RightMostDigitResult<
				infer remainingLeft,
				infer leftDigit
		  >
		? RightMostDigit<right> extends RightMostDigitResult<
				infer remainingRight,
				infer rightDigit
		  >
			? SumSingleDigits<
					leftDigit,
					rightDigit,
					carry
			  > extends SingleDigitSumResult<infer resultDigit, infer resultCarry>
				? SumStrings<
						remainingLeft,
						remainingRight,
						`${resultDigit}${accumulatedResultDigits}`,
						resultCarry
				  >
				: never
			: never
		: never;

	export type Sum<
		left extends string | number | bigint,
		right extends string | number | bigint,
	> = SumStrings<CoalesceToString<left>, CoalesceToString<right>>;
}
namespace Comparison {
	export type Lower = -1;
	export type Equal = 0;
	export type Greater = 1;

	export type Comparator<
		A extends number | string,
		B extends number | string,
	> = ComparePositives<`${A}`, `${B}`>;

	// Compares two positive long numbers
	type ComparePositives<
		A extends string,
		B extends string,
		ByLength = CompareByLength<A, B>,
	> = ByLength extends Comparison.Equal ? CompareByDigits<A, B> : ByLength;

	// Compares two strings by length
	type CompareByLength<
		A extends string,
		B extends string,
	> = A extends `${infer _}${infer AR}`
		? B extends `${infer _}${infer BR}`
			? CompareByLength<AR, BR>
			: Comparison.Greater
		: B extends `${infer _}${infer __}`
		? Comparison.Lower
		: Comparison.Equal;

	// Compares two positive long numbers of the same length
	type CompareByDigits<
		A extends string,
		B extends string,
	> = `${A}|${B}` extends `${infer AF}${infer AR}|${infer BF}${infer BR}`
		? CompareDigits<AF, BF> extends Comparison.Equal
			? CompareByDigits<AR, BR>
			: CompareDigits<AF, BF>
		: Comparison.Equal;

	// Compares two digits
	type CompareDigits<A extends string, B extends string> = A extends B
		? Comparison.Equal
		: "0123456789" extends `${string}${A}${string}${B}${string}`
		? Comparison.Lower
		: Comparison.Greater;
}

import Input from "./input/2.ts";

type Color = "red" | "green" | "blue";

type AllTrySatisfied<T extends Try[]> = T extends [infer A extends Try]
	? Satisfies<A>
	: T extends [infer A extends Try, ...infer Rest extends Try[]]
	? Satisfies<A> & AllTrySatisfied<Rest>
	: never;

type Attempt<T extends string> = T extends `${infer A}; ${infer Rest}`
	? [Count<A>, ...Attempt<Rest>]
	: T extends `${infer A}`
	? [Count<A>]
	: never;

type Count<T extends string> =
	T extends `${infer N extends number} ${infer K extends Color}, ${infer Rest}`
		? { [_ in K]: N } & { [R in keyof Count<Rest>]: Count<Rest>[R] }
		: T extends `${infer N extends number} ${infer K extends Color}`
		? { [_ in K]: N }
		: never;

type MergedGame<T extends string> = T extends `${number}: ${infer F}`
	? MergeAttempt<Attempt<F>> extends {
			red: infer R extends number;
			green: infer G extends number;
			blue: infer B extends number;
	  }
		? Multiply.Multiply<
				Multiply.Multiply<R, G>,
				B
		  > extends `${infer N extends number}`
			? N
			: never
		: 0
	: never;

type GameSatisfied<T extends string> =
	T extends `${infer I extends number}: ${infer F}`
		? AllTrySatisfied<Attempt<F>> extends never
			? 0
			: I
		: never;

type Satisfies<T extends Try> = (T["red"] extends number
	? Comparison.Comparator<T["red"], 12> extends
			| Comparison.Equal
			| Comparison.Lower
		? true
		: false
	: true) &
	(T["green"] extends number
		? Comparison.Comparator<T["green"], 13> extends
				| Comparison.Equal
				| Comparison.Lower
			? true
			: false
		: true) &
	(T["blue"] extends number
		? Comparison.Comparator<T["blue"], 14> extends
				| Comparison.Equal
				| Comparison.Lower
			? true
			: false
		: true);

type MergeAttempt<T extends Try[]> = T extends [infer x extends Try]
	? x
	: T extends [infer x extends Try, ...infer xs extends Try[]]
	? MergeTry<x, MergeAttempt<xs>>
	: never;

type MergeTry<L extends Try, R extends Try> = {
	red: L["red"] extends number
		? R["red"] extends number
			? Comparison.Comparator<L["red"], R["red"]> extends
					| Comparison.Equal
					| Comparison.Greater
				? L["red"]
				: R["red"]
			: L["red"]
		: R["red"];
	green: L["green"] extends number
		? R["green"] extends number
			? Comparison.Comparator<L["green"], R["green"]> extends
					| Comparison.Equal
					| Comparison.Greater
				? L["green"]
				: R["green"]
			: L["green"]
		: R["green"];
	blue: L["blue"] extends number
		? R["blue"] extends number
			? Comparison.Comparator<L["blue"], R["blue"]> extends
					| Comparison.Equal
					| Comparison.Greater
				? L["blue"]
				: R["blue"]
			: L["blue"]
		: R["blue"];
};

type Try = { [_ in Color]?: number };

type MergedTry<Line extends string> =
	Line extends `Game ${infer G}\nGame ${infer G_}\nGame ${infer G__}\n${infer More}`
		? [MergedGame<G>, MergedGame<G_>, MergedGame<G__>, ...MergedTry<More>]
		: Line extends `Game ${infer G}\nGame ${infer G_}\n${infer More}`
		? [MergedGame<G>, MergedGame<G_>, ...MergedTry<More>]
		: Line extends `Game ${infer G}\n${infer More}`
		? [MergedGame<G>, ...MergedTry<More>]
		: Line extends `Game ${infer G}`
		? [MergedGame<G>]
		: never;

type Satisfied<Line extends string> =
	Line extends `Game ${infer G}\nGame ${infer G_}\nGame ${infer G__}\n${infer More}`
		? [
				GameSatisfied<G>,
				GameSatisfied<G_>,
				GameSatisfied<G__>,
				...Satisfied<More>,
		  ]
		: Line extends `Game ${infer G}\nGame ${infer G_}\n${infer More}`
		? [GameSatisfied<G>, GameSatisfied<G_>, ...Satisfied<More>]
		: Line extends `Game ${infer G}\n${infer More}`
		? [GameSatisfied<G>, ...Satisfied<More>]
		: Line extends `Game ${infer G}`
		? [GameSatisfied<G>]
		: never;

type Trys = MergedTry<typeof Input>;
type Sums = Satisfied<typeof Input>;

type CalcSum<T extends number[]> = T extends [infer Con extends number]
	? Con
	: T extends [infer Con extends number, ...infer Rest extends number[]]
	? Sum.Sum<Con, CalcSum<Rest>> extends `${infer N extends number}`
		? N
		: never
	: T extends [
			infer Con extends number,
			infer Cons extends number,
			...infer Rest extends number[],
	  ]
	? Sum.Sum<
			Sum.Sum<Con, Cons>,
			CalcSum<Rest>
	  > extends `${infer N extends number}`
		? N
		: never
	: never;

type Chunk<
	T extends unknown[],
	N extends number,
	Swap extends unknown[] = [],
> = Swap["length"] extends N
	? [Swap, ...Chunk<T, N>]
	: T extends [infer K, ...infer L]
	? Chunk<L, N, [...Swap, K]>
	: Swap extends []
	? Swap
	: [Swap];

type ChunkedCalcSum<T extends number[][]> = T extends [
	infer Con extends number[],
]
	? CalcSum<Con>
	: T extends [infer Con extends number[], ...infer Rest extends number[][]]
	? Sum.Sum<
			CalcSum<Con>,
			ChunkedCalcSum<Rest>
	  > extends `${infer N extends number}`
		? N
		: never
	: never;

type ChunkedSum = Chunk<Sums, 10>;
type ChunkedTrys = Chunk<Trys, 10>;

export type Solution1 = ChunkedCalcSum<ChunkedSum>;
export type Solution2 = ChunkedCalcSum<ChunkedTrys>;
	module AoC2023.Day01 where

	import Data.Char (isDigit)

	main :: IO ()
	main = do
	res <- readFile "input/1.txt"
	let i = lines res
	-- part one
	print
	$ ( sum
	. map
	( \line ->
	let n = filter isDigit line
	in read [head n, last n] :: Int
	)
	)
	i
	-- part two
	print
	$ ( sum
	. map
	asNum
	)
	i

	asNum :: String -> Int
	asNum x = read [numl "" x, numr "" x] :: Int

	numl :: String -> String -> Char
	numl "" (x : xs)
	\| isDigit x = x
	\| otherwise = numl [x] xs
	numl acc (x : xs)
	\| acc == "one" = '1'
	\| acc == "two" = '2'
	\| acc == "three" = '3'
	\| acc == "four" = '4'
	\| acc == "five" = '5'
	\| acc == "six" = '6'
	\| acc == "seven" = '7'
	\| acc == "eight" = '8'
	\| acc == "nine" = '9'
	\| isDigit x = x
	\| otherwise = numl (acc ++ [x]) xs

	numr :: String -> String -> Char
	numr "" x
	\| isDigit $ last x = last x
	\| otherwise = numr [last x] $ init x
	numr acc x
	\| acc == "one" = '1'
	\| acc == "two" = '2'
	\| acc == "three" = '3'
	\| acc == "four" = '4'
	\| acc == "five" = '5'
	\| acc == "six" = '6'
	\| acc == "seven" = '7'
	\| acc == "eight" = '8'
	\| acc == "nine" = '9'
	\| isDigit $ last x = last x
	\| otherwise = numr (last x : acc) (init x)
	namespace Multiply {
	type Reverse<A extends string \| number \| bigint> =
	`${A}` extends `${infer AH}${infer AT}` ? `${Reverse<AT>}${AH}` : "";

	type DigsNext = {
	"0": "1";
	"1": "2";
	"2": "3";
	"3": "4";
	"4": "5";
	"5": "6";
	"6": "7";
	"7": "8";
	"8": "9";
	};
	type DigsPrev = { [K in keyof DigsNext as DigsNext[K]]: K };

	type AddOne<A> = A extends `${infer AH}${infer AT}`
	? AH extends "9"
	? `0${AddOne<AT>}`
	: `${DigsNext[AH & keyof DigsNext]}${AT}`
	: "1";

	type SubOne<A> = A extends `${infer AH}${infer AT}`
	? AH extends "0"
	? `9${SubOne<AT>}`
	: `${DigsPrev[AH & keyof DigsPrev]}${AT}`
	: never;

	type Add<A, B> = A extends `${infer AH}${infer AT}`
	? B extends `${infer BH}${infer BT}`
	? BH extends "0"
	? `${AH}${Add<AT, BT>}`
	: Add<AddOne<A>, SubOne<B>>
	: A
	: B;

	type Mul<A extends string, B extends string, R = "0"> = A extends "0"
	? R
	: B extends "0"
	? R
	: A extends `${infer AH}${infer AT}`
	? AH extends "0"
	? Mul<AT, `0${B}`, R>
	: Mul<SubOne<A>, B, Add<R, B>>
	: R;

	export type Multiply<
	A extends string \| number \| bigint,
	B extends string \| number \| bigint,
	> = Reverse<Mul<Reverse<A>, Reverse<B>>>;
	}
	namespace Sum {
	type Or<left extends boolean, right extends boolean> = left extends true
	? true
	: right extends true
	? true
	: false;

	type CoalesceToString<n extends string \| number \| bigint> = n extends string
	? n
	: `${n}`;

	type Digit = "0" \| "1" \| "2" \| "3" \| "4" \| "5" \| "6" \| "7" \| "8" \| "9";

	type SubOneFromDigit<digit extends Digit> = digit extends "1"
	? "0"
	: digit extends "2"
	? "1"
	: digit extends "3"
	? "2"
	: digit extends "4"
	? "3"
	: digit extends "5"
	? "4"
	: digit extends "6"
	? "5"
	: digit extends "7"
	? "6"
	: digit extends "8"
	? "7"
	: digit extends "9"
	? "8"
	: digit extends "10"
	? "9"
	: never;

	type AddOneToDigit<digit extends Digit> = digit extends "0"
	? { result: "1"; carry: false }
	: digit extends "1"
	? { result: "2"; carry: false }
	: digit extends "2"
	? { result: "3"; carry: false }
	: digit extends "3"
	? { result: "4"; carry: false }
	: digit extends "4"
	? { result: "5"; carry: false }
	: digit extends "5"
	? { result: "6"; carry: false }
	: digit extends "6"
	? { result: "7"; carry: false }
	: digit extends "7"
	? { result: "8"; carry: false }
	: digit extends "8"
	? { result: "9"; carry: false }
	: digit extends "9"
	? { result: "0"; carry: true }
	: never;

	type SingleDigitSumResult<result extends Digit, carry extends boolean> = {
	result: result;
	carry: carry;
	};

	type SumSingleDigits<
	left extends Digit,
	right extends Digit,
	carryIn extends boolean = false,
	carryOut extends boolean = false,
	> = carryIn extends true
	? AddOneToDigit<left> extends SingleDigitSumResult<
	infer leftIncremented,
	infer carryOutFromIncrement
	>
	? SumSingleDigits<leftIncremented, right, false, carryOutFromIncrement>
	: never
	: right extends "0"
	? { result: left; carry: carryOut }
	: AddOneToDigit<left> extends SingleDigitSumResult<
	infer leftIncremented,
	infer carryOutFromIncrement
	>
	? SumSingleDigits<
	leftIncremented,
	SubOneFromDigit<right>,
	false,
	Or<carryOut, carryOutFromIncrement>
	>
	: never;

	type RightMostDigitResult<rest extends string, digit extends Digit> = {
	rest: rest;
	digit: digit;
	};

	type RightMostDigit<s extends string> = s extends `${infer rest}${Digit}`
	? s extends `${rest}${infer digit}`
	? { rest: rest; digit: digit }
	: never
	: never;

	type SumStrings<
	left extends string,
	right extends string,
	accumulatedResultDigits extends string = "",
	carry extends boolean = false,
	> = "" extends left
	? // Left is empty
	"" extends right
	? // Right is empty
	carry extends true
	? `1${accumulatedResultDigits}`
	: accumulatedResultDigits
	: // Right has value
	RightMostDigit<right> extends RightMostDigitResult<
	infer remainingRight,
	infer rightDigit
	>
	? SumSingleDigits<"0", rightDigit, carry> extends SingleDigitSumResult<
	infer resultDigit,
	infer resultCarry
	>
	? SumStrings<
	"",
	remainingRight,
	`${resultDigit}${accumulatedResultDigits}`,
	resultCarry
	>
	: never
	: never
	: // Left has value
	"" extends right
	? // Right has no value
	RightMostDigit<left> extends RightMostDigitResult<
	infer remainingLeft,
	infer leftDigit
	>
	? SumSingleDigits<"0", leftDigit, carry> extends SingleDigitSumResult<
	infer resultDigit,
	infer resultCarry
	>
	? SumStrings<
	remainingLeft,
	"",
	`${resultDigit}${accumulatedResultDigits}`,
	resultCarry
	>
	: never
	: never
	: // Right has value
	RightMostDigit<left> extends RightMostDigitResult<
	infer remainingLeft,
	infer leftDigit
	>
	? RightMostDigit<right> extends RightMostDigitResult<
	infer remainingRight,
	infer rightDigit
	>
	? SumSingleDigits<
	leftDigit,
	rightDigit,
	carry
	> extends SingleDigitSumResult<infer resultDigit, infer resultCarry>
	? SumStrings<
	remainingLeft,
	remainingRight,
	`${resultDigit}${accumulatedResultDigits}`,
	resultCarry
	>
	: never
	: never
	: never;

	export type Sum<
	left extends string \| number \| bigint,
	right extends string \| number \| bigint,
	> = SumStrings<CoalesceToString<left>, CoalesceToString<right>>;
	}
	namespace Comparison {
	export type Lower = -1;
	export type Equal = 0;
	export type Greater = 1;

	export type Comparator<
	A extends number \| string,
	B extends number \| string,
	> = ComparePositives<`${A}`, `${B}`>;

	// Compares two positive long numbers
	type ComparePositives<
	A extends string,
	B extends string,
	ByLength = CompareByLength<A, B>,
	> = ByLength extends Comparison.Equal ? CompareByDigits<A, B> : ByLength;

	// Compares two strings by length
	type CompareByLength<
	A extends string,
	B extends string,
	> = A extends `${infer _}${infer AR}`
	? B extends `${infer _}${infer BR}`
	? CompareByLength<AR, BR>
	: Comparison.Greater
	: B extends `${infer _}${infer __}`
	? Comparison.Lower
	: Comparison.Equal;

	// Compares two positive long numbers of the same length
	type CompareByDigits<
	A extends string,
	B extends string,
	> = `${A}\|${B}` extends `${infer AF}${infer AR}\|${infer BF}${infer BR}`
	? CompareDigits<AF, BF> extends Comparison.Equal
	? CompareByDigits<AR, BR>
	: CompareDigits<AF, BF>
	: Comparison.Equal;

	// Compares two digits
	type CompareDigits<A extends string, B extends string> = A extends B
	? Comparison.Equal
	: "0123456789" extends `${string}${A}${string}${B}${string}`
	? Comparison.Lower
	: Comparison.Greater;
	}

	import Input from "./input/2.ts";

	type Color = "red" \| "green" \| "blue";

	type AllTrySatisfied<T extends Try[]> = T extends [infer A extends Try]
	? Satisfies<A>
	: T extends [infer A extends Try, ...infer Rest extends Try[]]
	? Satisfies<A> & AllTrySatisfied<Rest>
	: never;

	type Attempt<T extends string> = T extends `${infer A}; ${infer Rest}`
	? [Count<A>, ...Attempt<Rest>]
	: T extends `${infer A}`
	? [Count<A>]
	: never;

	type Count<T extends string> =
	T extends `${infer N extends number} ${infer K extends Color}, ${infer Rest}`
	? { [_ in K]: N } & { [R in keyof Count<Rest>]: Count<Rest>[R] }
	: T extends `${infer N extends number} ${infer K extends Color}`
	? { [_ in K]: N }
	: never;

	type MergedGame<T extends string> = T extends `${number}: ${infer F}`
	? MergeAttempt<Attempt<F>> extends {
	red: infer R extends number;
	green: infer G extends number;
	blue: infer B extends number;
	}
	? Multiply.Multiply<
	Multiply.Multiply<R, G>,
	B
	> extends `${infer N extends number}`
	? N
	: never
	: 0
	: never;

	type GameSatisfied<T extends string> =
	T extends `${infer I extends number}: ${infer F}`
	? AllTrySatisfied<Attempt<F>> extends never
	? 0
	: I
	: never;

	type Satisfies<T extends Try> = (T["red"] extends number
	? Comparison.Comparator<T["red"], 12> extends
	\| Comparison.Equal
	\| Comparison.Lower
	? true
	: false
	: true) &
	(T["green"] extends number
	? Comparison.Comparator<T["green"], 13> extends
	\| Comparison.Equal
	\| Comparison.Lower
	? true
	: false
	: true) &
	(T["blue"] extends number
	? Comparison.Comparator<T["blue"], 14> extends
	\| Comparison.Equal
	\| Comparison.Lower
	? true
	: false
	: true);

	type MergeAttempt<T extends Try[]> = T extends [infer x extends Try]
	? x
	: T extends [infer x extends Try, ...infer xs extends Try[]]
	? MergeTry<x, MergeAttempt<xs>>
	: never;

	type MergeTry<L extends Try, R extends Try> = {
	red: L["red"] extends number
	? R["red"] extends number
	? Comparison.Comparator<L["red"], R["red"]> extends
	\| Comparison.Equal
	\| Comparison.Greater
	? L["red"]
	: R["red"]
	: L["red"]
	: R["red"];
	green: L["green"] extends number
	? R["green"] extends number
	? Comparison.Comparator<L["green"], R["green"]> extends
	\| Comparison.Equal
	\| Comparison.Greater
	? L["green"]
	: R["green"]
	: L["green"]
	: R["green"];
	blue: L["blue"] extends number
	? R["blue"] extends number
	? Comparison.Comparator<L["blue"], R["blue"]> extends
	\| Comparison.Equal
	\| Comparison.Greater
	? L["blue"]
	: R["blue"]
	: L["blue"]
	: R["blue"];
	};

	type Try = { [_ in Color]?: number };

	type MergedTry<Line extends string> =
	Line extends `Game ${infer G}\nGame ${infer G_}\nGame ${infer G__}\n${infer More}`
	? [MergedGame<G>, MergedGame<G_>, MergedGame<G__>, ...MergedTry<More>]
	: Line extends `Game ${infer G}\nGame ${infer G_}\n${infer More}`
	? [MergedGame<G>, MergedGame<G_>, ...MergedTry<More>]
	: Line extends `Game ${infer G}\n${infer More}`
	? [MergedGame<G>, ...MergedTry<More>]
	: Line extends `Game ${infer G}`
	? [MergedGame<G>]
	: never;

	type Satisfied<Line extends string> =
	Line extends `Game ${infer G}\nGame ${infer G_}\nGame ${infer G__}\n${infer More}`
	? [
	GameSatisfied<G>,
	GameSatisfied<G_>,
	GameSatisfied<G__>,
	...Satisfied<More>,
	]
	: Line extends `Game ${infer G}\nGame ${infer G_}\n${infer More}`
	? [GameSatisfied<G>, GameSatisfied<G_>, ...Satisfied<More>]
	: Line extends `Game ${infer G}\n${infer More}`
	? [GameSatisfied<G>, ...Satisfied<More>]
	: Line extends `Game ${infer G}`
	? [GameSatisfied<G>]
	: never;

	type Trys = MergedTry<typeof Input>;
	type Sums = Satisfied<typeof Input>;

	type CalcSum<T extends number[]> = T extends [infer Con extends number]
	? Con
	: T extends [infer Con extends number, ...infer Rest extends number[]]
	? Sum.Sum<Con, CalcSum<Rest>> extends `${infer N extends number}`
	? N
	: never
	: T extends [
	infer Con extends number,
	infer Cons extends number,
	...infer Rest extends number[],
	]
	? Sum.Sum<
	Sum.Sum<Con, Cons>,
	CalcSum<Rest>
	> extends `${infer N extends number}`
	? N
	: never
	: never;

	type Chunk<
	T extends unknown[],
	N extends number,
	Swap extends unknown[] = [],
	> = Swap["length"] extends N
	? [Swap, ...Chunk<T, N>]
	: T extends [infer K, ...infer L]
	? Chunk<L, N, [...Swap, K]>
	: Swap extends []
	? Swap
	: [Swap];

	type ChunkedCalcSum<T extends number[][]> = T extends [
	infer Con extends number[],
	]
	? CalcSum<Con>
	: T extends [infer Con extends number[], ...infer Rest extends number[][]]
	? Sum.Sum<
	CalcSum<Con>,
	ChunkedCalcSum<Rest>
	> extends `${infer N extends number}`
	? N
	: never
	: never;

	type ChunkedSum = Chunk<Sums, 10>;
	type ChunkedTrys = Chunk<Trys, 10>;

	export type Solution1 = ChunkedCalcSum<ChunkedSum>;
	export type Solution2 = ChunkedCalcSum<ChunkedTrys>;