advent-of-code/2023/day5.py

import sys
from typing import Sequence

MAP_ORDER = [
    "seed",
    "soil",
    "fertilizer",
    "water",
    "light",
    "temperature",
    "humidity",
    "location",
]

lines = sys.stdin.read().splitlines()

# mappings from one category to another, each list contains
# ranges stored as (source, target, length), ordered by start and
# completed to have no "hole"
maps: dict[tuple[str, str], list[tuple[int, int, int]]] = {}

# parsing
index = 2
while index < len(lines):
    p1, _, p2 = lines[index].split()[0].split("-")

    # extract the existing ranges from the file - we store as (source, target, length)
    # whereas the file is in order (target, source, length)
    index += 1
    values: list[tuple[int, int, int]] = []
    while index < len(lines) and lines[index]:
        n1, n2, n3 = lines[index].split()
        values.append((int(n2), int(n1), int(n3)))
        index += 1

    # sort by source value
    values.sort()

    # add a 'fake' interval starting at 0 if missing
    if values[0][0] != 0:
        values.insert(0, (0, 0, values[0][0]))

    # fill gaps between intervals
    for i in range(len(values) - 1):
        next_start = values[i + 1][0]
        end = values[i][0] + values[i][2]
        if next_start != end:
            values.insert(
                i + 1,
                (end, end, next_start - end),
            )

    # add an interval covering values up to at least 2**32 at the end
    last_start, _, last_length = values[-1]
    values.append((last_start + last_length, last_start + last_length, 2**32))

    assert all(v1[0] + v1[2] == v2[0] for v1, v2 in zip(values[:-1], values[1:]))
    assert values[0][0] == 0
    assert values[-1][0] + values[-1][-1] >= 2**32

    maps[p1, p2] = values
    index += 1


def find_range(
    values: tuple[int, int], map: list[tuple[int, int, int]]
) -> list[tuple[int, int]]:
    """
    Given an input range, use the given mapping to find the corresponding list of
    ranges in the target domain.
    """
    r_start, r_length = values
    ranges: list[tuple[int, int]] = []

    # find index of the first and last intervals in map that overlaps the input
    # interval
    index_start, index_end = -1, -1

    for index_start, (start, _, length) in enumerate(map):
        if start <= r_start and start + length > r_start:
            break

    for index_end, (start, _, length) in enumerate(
        map[index_start:], start=index_start
    ):
        if r_start + r_length >= start and r_start + r_length < start + length:
            break

    assert index_start >= 0 and index_end >= 0

    # special case if one interval contains everything
    if index_start == index_end:
        start, target, length = map[index_start]
        ranges.append((target + r_start - start, r_length))
    else:
        # add the start interval part
        start, target, length = map[index_start]
        ranges.append((target + r_start - start, start + length - r_start))

        # add all intervals between the first and last (excluding both)
        index = index_start + 1
        while index < index_end:
            start, target, length = map[index]
            ranges.append((target, length))
            index += 1

        # add the last interval
        start, target, length = map[index_end]
        ranges.append((target, r_start + r_length - start))

    return ranges


def find_location_ranges(seeds: Sequence[tuple[int, int]]) -> Sequence[tuple[int, int]]:
    for map1, map2 in zip(MAP_ORDER[:-1], MAP_ORDER[1:]):
        seeds = [s2 for s1 in seeds for s2 in find_range(s1, maps[map1, map2])]
    return seeds


# part 1 - use find_range() with range of length 1
seeds_p1 = [(int(s), 1) for s in lines[0].split(":")[1].strip().split()]
answer_1 = min(start for start, _ in find_location_ranges(seeds_p1))
print(f"answer 1 is {answer_1}")

# # part 2
parts = lines[0].split(":")[1].strip().split()
seeds_p2 = [(int(s), int(e)) for s, e in zip(parts[::2], parts[1::2])]
answer_2 = min(start for start, _ in find_location_ranges(seeds_p2))
print(f"answer 2 is {answer_2}")
Prepare 2023 days. 2023-12-04 18:32:41 +00:00			`import sys`
2023 day 5. 2023-12-05 07:44:44 +00:00			`from typing import Sequence`
2023 day 5 part 1. 2023-12-05 06:22:56 +00:00
			`MAP_ORDER = [`
			`"seed",`
			`"soil",`
			`"fertilizer",`
			`"water",`
			`"light",`
			`"temperature",`
			`"humidity",`
			`"location",`
			`]`
Prepare 2023 days. 2023-12-04 18:32:41 +00:00
			`lines = sys.stdin.read().splitlines()`

2023 day 5. 2023-12-05 07:44:44 +00:00			`# mappings from one category to another, each list contains`
			`# ranges stored as (source, target, length), ordered by start and`
			`# completed to have no "hole"`
2023 day 5 part 1. 2023-12-05 06:22:56 +00:00			`maps: dict[tuple[str, str], list[tuple[int, int, int]]] = {}`

			`# parsing`
			`index = 2`
			`while index < len(lines):`
2023 day 5. 2023-12-05 07:44:44 +00:00			`p1, _, p2 = lines[index].split()[0].split("-")`
2023 day 5 part 1. 2023-12-05 06:22:56 +00:00
2023 day 5. 2023-12-05 07:44:44 +00:00			`# extract the existing ranges from the file - we store as (source, target, length)`
			`# whereas the file is in order (target, source, length)`
2023 day 5 part 1. 2023-12-05 06:22:56 +00:00			`index += 1`
2023 day 5. 2023-12-05 07:44:44 +00:00			`values: list[tuple[int, int, int]] = []`
2023 day 5 part 1. 2023-12-05 06:22:56 +00:00			`while index < len(lines) and lines[index]:`
			`n1, n2, n3 = lines[index].split()`
2023 day 5. 2023-12-05 07:44:44 +00:00			`values.append((int(n2), int(n1), int(n3)))`
2023 day 5 part 1. 2023-12-05 06:22:56 +00:00			`index += 1`

2023 day 5. 2023-12-05 07:44:44 +00:00			`# sort by source value`
			`values.sort()`

			`# add a 'fake' interval starting at 0 if missing`
			`if values[0][0] != 0:`
			`values.insert(0, (0, 0, values[0][0]))`

			`# fill gaps between intervals`
			`for i in range(len(values) - 1):`
			`next_start = values[i + 1][0]`
			`end = values[i][0] + values[i][2]`
			`if next_start != end:`
			`values.insert(`
			`i + 1,`
			`(end, end, next_start - end),`
			`)`
2023 day 5 part 1. 2023-12-05 06:22:56 +00:00
2023 day 5. 2023-12-05 07:44:44 +00:00			`# add an interval covering values up to at least 2**32 at the end`
			`last_start, _, last_length = values[-1]`
			`values.append((last_start + last_length, last_start + last_length, 2**32))`
2023 day 5 part 1. 2023-12-05 06:22:56 +00:00
2023 day 5. 2023-12-05 07:44:44 +00:00			`assert all(v1[0] + v1[2] == v2[0] for v1, v2 in zip(values[:-1], values[1:]))`
			`assert values[0][0] == 0`
			`assert values[-1][0] + values[-1][-1] >= 2**32`

			`maps[p1, p2] = values`
			`index += 1`
2023 day 5 part 1. 2023-12-05 06:22:56 +00:00

			`def find_range(`
			`values: tuple[int, int], map: list[tuple[int, int, int]]`
			`) -> list[tuple[int, int]]:`
2023 day 5. 2023-12-05 07:44:44 +00:00			`"""`
			`Given an input range, use the given mapping to find the corresponding list of`
			`ranges in the target domain.`
			`"""`
2023 day 5 part 1. 2023-12-05 06:22:56 +00:00			`r_start, r_length = values`
			`ranges: list[tuple[int, int]] = []`

2023 day 5. 2023-12-05 07:44:44 +00:00			`# find index of the first and last intervals in map that overlaps the input`
			`# interval`
			`index_start, index_end = -1, -1`

			`for index_start, (start, _, length) in enumerate(map):`
			`if start <= r_start and start + length > r_start:`
			`break`

			`for index_end, (start, _, length) in enumerate(`
			`map[index_start:], start=index_start`
			`):`
			`if r_start + r_length >= start and r_start + r_length < start + length:`
			`break`

			`assert index_start >= 0 and index_end >= 0`

			`# special case if one interval contains everything`
			`if index_start == index_end:`
			`start, target, length = map[index_start]`
			`ranges.append((target + r_start - start, r_length))`
			`else:`
			`# add the start interval part`
			`start, target, length = map[index_start]`
			`ranges.append((target + r_start - start, start + length - r_start))`

			`# add all intervals between the first and last (excluding both)`
			`index = index_start + 1`
			`while index < index_end:`
			`start, target, length = map[index]`
			`ranges.append((target, length))`
			`index += 1`

			`# add the last interval`
			`start, target, length = map[index_end]`
			`ranges.append((target, r_start + r_length - start))`
2023 day 5 part 1. 2023-12-05 06:22:56 +00:00
			`return ranges`


2023 day 5. 2023-12-05 07:44:44 +00:00			`def find_location_ranges(seeds: Sequence[tuple[int, int]]) -> Sequence[tuple[int, int]]:`
			`for map1, map2 in zip(MAP_ORDER[:-1], MAP_ORDER[1:]):`
			`seeds = [s2 for s1 in seeds for s2 in find_range(s1, maps[map1, map2])]`
			`return seeds`


			`# part 1 - use find_range() with range of length 1`
			`seeds_p1 = [(int(s), 1) for s in lines[0].split(":")[1].strip().split()]`
			`answer_1 = min(start for start, _ in find_location_ranges(seeds_p1))`
Prepare 2023 days. 2023-12-04 18:32:41 +00:00			`print(f"answer 1 is {answer_1}")`

2023 day 5. 2023-12-05 07:44:44 +00:00			`# # part 2`
2023 day 5 part 1. 2023-12-05 06:22:56 +00:00			`parts = lines[0].split(":")[1].strip().split()`
			`seeds_p2 = [(int(s), int(e)) for s, e in zip(parts[::2], parts[1::2])]`
2023 day 5. 2023-12-05 07:44:44 +00:00			`answer_2 = min(start for start, _ in find_location_ranges(seeds_p2))`
Prepare 2023 days. 2023-12-04 18:32:41 +00:00			`print(f"answer 2 is {answer_2}")`