AdventOfCode/2019/day14.py

import collections
import math
import re


EX1 = [
    "10 ORE => 10 A",
    "1 ORE => 1 B",
    "7 A, 1 B => 1 C",
    "7 A, 1 C => 1 D",
    "7 A, 1 D => 1 E",
    "7 A, 1 E => 1 FUEL",
]


def main():
    with open("day14.txt", "rt") as input_file:
        lines = [line.rstrip() for line in input_file.readlines()]
    line_re = re.compile(r"(.+) => (.+)")
    raw_reactions = [line_re.match(line).groups() for line in lines]
    reactions = {}
    for inputs, outputs in raw_reactions:
        mult, result = outputs.split(" ")
        input_comps = [i.split(" ") for i in inputs.split(", ")]
        input_tuples = [(int(q), n) for q, n in input_comps]
        reactions[result] = int(mult), input_tuples

    # Part 1
    ore_per_full = get_required_ore(reactions, 1)
    print("Required ore for 1 FUEL:", ore_per_full)
    return

    # Part 2
    # Input gives 397771 OPF.
    # 10^12 ores with 13312 OPF example gives 82892753 FUEL.
    # 10^12 ores with 180697 OPF example gives 5586022 FUEL.
    # 10^12 ores with 2210736 OPF example gives 460664 FUEL.
    # 10^12 / 82892753 / 13312 ~= 0.91
    # 10^12 / 5586022 / 180697 ~= 0.99
    # 10^12 / 460664 / 2210736 ~= 0.98
    # Let's say our reaction will have this value at about 0.985.
    # 10^12 / x / 397771 = 0.985  ->  x = 2552294
    # Now on to our search.

    fuel_q = 2552294
    cursor = 10000
    last_result = 0
    min_target = 10**12 - ore_per_full
    max_target = 10**12
    was_below = False
    was_above = False
    while last_result not in range(min_target, max_target):
        last_result = get_required_ore(reactions, fuel_q)
        print("{} FUEL requires {} ORE.".format(fuel_q, last_result))
        if last_result < min_target:
            if was_above:
                cursor /= 2
            fuel += cursor
        elif last_result > max_target:
            if was_below:
                cursor /= 2
            fuel -= cursor
    
def get_required_ore(reactions, quantity):
    stored_map = collections.defaultdict(int)
    needs = [("FUEL", quantity)]
    ore_per_full = 0
    while needs:
        needed, needed_q = needs.pop(0)
        print(f"Need {needed_q} {needed}.")
        if needed == "ORE":
            print(f"- {needed_q} ORE required.")
            ore_per_full += needed_q
            continue
        react_mult, subcomps = reactions[needed]
        if stored_map[needed]:
            print(f"- Already got {stored_map[needed]} in storage.")
            needed_q -= stored_map[needed]
            stored_map[needed] = 0
        num_reacts = math.ceil(needed_q / react_mult)
        print(f"- Requires {num_reacts} reaction(s) ({react_mult} {needed} per R)")
        if num_reacts:
            new_needs = [(name_sc, num_sc * num_reacts) for num_sc, name_sc in subcomps]
            print(f"- New needs: {new_needs}")
            needs += new_needs
        produced = react_mult * num_reacts
        print(f"- Produced {produced} {needed}.")
        if produced - needed_q > 0:
            print(f"- Stored {produced - needed_q} {needed} leftovers.")
            stored_map[needed] += produced - needed_q
    return ore_per_full


if __name__ == "__main__":
    main()
Day 14: much quicker algo 2019-12-15 15:18:42 +01:00			`import collections`
Day 14 2019-12-14 23:50:49 +01:00			`import math`
			`import re`


Day 14: much quicker algo 2019-12-15 15:18:42 +01:00			`EX1 = [`
			`"10 ORE => 10 A",`
			`"1 ORE => 1 B",`
			`"7 A, 1 B => 1 C",`
			`"7 A, 1 C => 1 D",`
			`"7 A, 1 D => 1 E",`
			`"7 A, 1 E => 1 FUEL",`
			`]`


Day 14 2019-12-14 23:50:49 +01:00			`def main():`
			`with open("day14.txt", "rt") as input_file:`
			`lines = [line.rstrip() for line in input_file.readlines()]`
			`line_re = re.compile(r"(.+) => (.+)")`
Day 14: much quicker algo 2019-12-15 15:18:42 +01:00			`raw_reactions = [line_re.match(line).groups() for line in lines]`
			`reactions = {}`
			`for inputs, outputs in raw_reactions:`
Day 14 2019-12-14 23:50:49 +01:00			`mult, result = outputs.split(" ")`
			`input_comps = [i.split(" ") for i in inputs.split(", ")]`
			`input_tuples = [(int(q), n) for q, n in input_comps]`
Day 14: much quicker algo 2019-12-15 15:18:42 +01:00			`reactions[result] = int(mult), input_tuples`
Day 14 2019-12-14 23:50:49 +01:00
Day 14 part 2 (WIP, too slow) 2019-12-15 01:52:45 +01:00			`# Part 1`
Day 14: much quicker algo 2019-12-15 15:18:42 +01:00			`ore_per_full = get_required_ore(reactions, 1)`
Day 14 part 2 (WIP, too slow) 2019-12-15 01:52:45 +01:00			`print("Required ore for 1 FUEL:", ore_per_full)`
Day 14: much quicker algo 2019-12-15 15:18:42 +01:00			`return`
Day 14 part 2 (WIP, too slow) 2019-12-15 01:52:45 +01:00
			`# Part 2`
			`# Input gives 397771 OPF.`
			`# 10^12 ores with 13312 OPF example gives 82892753 FUEL.`
			`# 10^12 ores with 180697 OPF example gives 5586022 FUEL.`
			`# 10^12 ores with 2210736 OPF example gives 460664 FUEL.`
			`# 10^12 / 82892753 / 13312 ~= 0.91`
			`# 10^12 / 5586022 / 180697 ~= 0.99`
			`# 10^12 / 460664 / 2210736 ~= 0.98`
			`# Let's say our reaction will have this value at about 0.985.`
			`# 10^12 / x / 397771 = 0.985 -> x = 2552294`
			`# Now on to our search.`

Day 14: much quicker algo 2019-12-15 15:18:42 +01:00			`fuel_q = 2552294`
Day 14 part 2 (WIP, too slow) 2019-12-15 01:52:45 +01:00			`cursor = 10000`
			`last_result = 0`
			`min_target = 10**12 - ore_per_full`
			`max_target = 10**12`
			`was_below = False`
			`was_above = False`
			`while last_result not in range(min_target, max_target):`
Day 14: much quicker algo 2019-12-15 15:18:42 +01:00			`last_result = get_required_ore(reactions, fuel_q)`
			`print("{} FUEL requires {} ORE.".format(fuel_q, last_result))`
Day 14 part 2 (WIP, too slow) 2019-12-15 01:52:45 +01:00			`if last_result < min_target:`
			`if was_above:`
			`cursor /= 2`
			`fuel += cursor`
			`elif last_result > max_target:`
			`if was_below:`
			`cursor /= 2`
			`fuel -= cursor`
Day 14 2019-12-14 23:50:49 +01:00
Day 14: much quicker algo 2019-12-15 15:18:42 +01:00			`def get_required_ore(reactions, quantity):`
			`stored_map = collections.defaultdict(int)`
			`needs = [("FUEL", quantity)]`
			`ore_per_full = 0`
			`while needs:`
			`needed, needed_q = needs.pop(0)`
			`print(f"Need {needed_q} {needed}.")`
			`if needed == "ORE":`
			`print(f"- {needed_q} ORE required.")`
			`ore_per_full += needed_q`
			`continue`
			`react_mult, subcomps = reactions[needed]`
			`if stored_map[needed]:`
			`print(f"- Already got {stored_map[needed]} in storage.")`
			`needed_q -= stored_map[needed]`
			`stored_map[needed] = 0`
			`num_reacts = math.ceil(needed_q / react_mult)`
			`print(f"- Requires {num_reacts} reaction(s) ({react_mult} {needed} per R)")`
			`if num_reacts:`
			`new_needs = [(name_sc, num_sc * num_reacts) for num_sc, name_sc in subcomps]`
			`print(f"- New needs: {new_needs}")`
			`needs += new_needs`
			`produced = react_mult * num_reacts`
			`print(f"- Produced {produced} {needed}.")`
			`if produced - needed_q > 0:`
			`print(f"- Stored {produced - needed_q} {needed} leftovers.")`
			`stored_map[needed] += produced - needed_q`
			`return ore_per_full`
Day 14 2019-12-14 23:50:49 +01:00

			`if __name__ == "__main__":`
			`main()`