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import gleam/io
import gleam/list
import gleam/function as fun
import gleam/pair
import gleam/iterator as iter
import gleam/map.{Map}
import ext/resultx as resx
import ext/iteratorx as iterx
import util/graph
import util/input_util
import util/parser as p
const special_bag = "shiny gold"
type BagEdge =
#(String, Int)
type BagGraph =
Map(String, List(BagEdge))
fn parse_graph(lines: List(String)) -> BagGraph {
let bag_type_parser =
[p.str1_until_ws(), p.ws_gc(), p.str1_until_ws()]
|> p.str_of_seq
|> p.labeled(with: "bag_type")
let line_parser =
bag_type_parser
|> p.then_skip(p.literal(" bags contain "))
|> p.then(p.or(
p.int()
|> p.then_skip(p.ws_gc())
|> p.then(bag_type_parser)
|> p.map(with: pair.swap)
|> p.then_skip(p.ws_gc())
|> p.then_skip(p.then(p.literal("bag"), p.opt(p.literal("s"))))
|> p.sep1(by: p.literal(", ")),
else: p.literal("no other bags")
|> p.map(fun.constant([])),
))
|> p.then_skip(p.literal("."))
lines
|> list.map(with: fun.compose(
p.parse_entire(_, with: line_parser),
resx.force_unwrap,
))
|> map.from_list
}
fn part1(lines: List(String)) -> Int {
let graph = parse_graph(lines)
let neighbours = fn(bag) {
graph
|> map.get(bag)
|> resx.force_unwrap
|> list.map(with: pair.first)
|> iter.from_list
}
graph
|> map.keys
|> iter.from_list
|> iter.filter(for: fn(bag) { bag != special_bag })
|> iterx.count(satisfying: fn(start) {
start
|> graph.dfs(with: neighbours)
|> iter.any(fn(bag) { bag == special_bag })
})
}
pub fn run() -> Nil {
let test = input_util.read_lines("test07")
assert 4 = part1(test)
let input = input_util.read_lines("day07")
io.debug(part1(input))
Nil
}
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