aocpp/2022/15.cpp

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#include <array>
#include <cstdint>
#include <iostream>
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#include <optional>
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#include <set>
#include <sstream>
#include <vector>
#include <boost/phoenix.hpp>
#include <boost/spirit/include/qi.hpp>
#include <doctest.h>
#include <aocpp/Coord.hpp>
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#include <aocpp/Startup.hpp>
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namespace {
namespace phx = boost::phoenix;
namespace qi = boost::spirit::qi;
struct Entry {
aocpp::Coord sensor;
aocpp::Coord beacon;
};
using Input = std::vector<Entry>;
// Input file grammar
template <typename It>
class Grammar : public qi::grammar<It, Input()> {
qi::rule<It, aocpp::Coord> coord;
qi::rule<It, Entry()> entry;
qi::rule<It, Input()> input;
public:
Grammar() : Grammar::base_type{input} {
using namespace qi::labels;
coord = "x=" >>
qi::long_long [ phx::bind(&aocpp::Coord::x, _val) = _1 ] >>
", y=" >>
qi::long_long [ phx::bind(&aocpp::Coord::y, _val) = _1 ];
entry = "Sensor at " >>
coord [ phx::bind(&Entry::sensor, _val) = _1 ] >>
": closest beacon is at " >>
coord [ phx::bind(&Entry::beacon, _val) = _1 ] >>
"\n";
input = *entry;
}
};
/// Parse the complete input stream according to the rules defined in 'Grammar'.
/// Throws: std::runtime_error on failed parse
auto Parse(std::istream & in) -> Input
{
auto result = Input{};
auto const content = std::string{std::istreambuf_iterator{in}, {}};
auto b = content.begin(); // updated on successful parse
auto const e = content.end();
if (!qi::parse(b, e, Grammar<decltype(b)>{}, result) || b != e) {
throw std::runtime_error{"Bad input file: " + content};
}
return result;
}
struct Range {
std::int64_t lo, hi;
auto operator<=>(Range const& rhs) const = default;
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auto size() const -> std::size_t {
return hi - lo;
}
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};
template <std::size_t N>
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auto subtract_to(
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std::array<Range, N> x,
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std::array<Range, N> const& y,
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std::vector<std::array<Range, N>> & out
) -> void
{
for (std::size_t i = 0; i < N; ++i) {
if (x[i].lo < y[i].lo) {
auto z = x;
z[i].hi = std::min(z[i].hi, y[i].lo);
out.push_back(z);
}
if (x[i].hi > y[i].hi) {
auto z = x;
z[i].lo = std::max(z[i].lo, y[i].hi);
out.push_back(z);
}
x[i].lo = std::max(x[i].lo, y[i].lo);
x[i].hi = std::min(x[i].hi, y[i].hi);
if (x[i].lo >= x[i].hi) {
return;
}
}
}
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template <std::size_t N>
auto subtract(
std::array<Range, N> const& x,
std::array<Range, N> const& y
) -> std::vector<std::array<Range, N>>
{
std::vector<std::array<Range, N>> result;
subtract_to(x, y, result);
return result;
}
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auto Segment(std::int64_t center, std::int64_t radius) -> Range {
return { center - radius, center + radius + 1};
}
auto Square(aocpp::Coord center, std::int64_t radius) -> std::array<Range, 2> {
return { Segment(center.x + center.y, radius), Segment(center.x - center.y, radius)};
}
auto Corner(std::array<Range, 2> const& s) -> aocpp::Coord
{
return { (s[0].lo + s[1].lo) / 2, (s[0].lo - s[1].lo) / 2};
}
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auto RowSlice(aocpp::Coord sensor, std::int64_t radius, std::int64_t row)
-> std::optional<std::array<Range, 1>>
{
auto dy = std::abs(row - sensor.y);
auto dx = radius - dy;
if (dx >= 0) {
return {{Segment(sensor.x, dx)}};
} else {
return {};
}
}
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auto Part1(Input const& input, std::int64_t search) -> std::size_t {
auto region = std::vector<std::array<Range, 1>>{};
auto region_next = std::vector<std::array<Range, 1>>{};
for (auto const& entry : input) {
auto radius = aocpp::Norm1(entry.beacon - entry.sensor);
if (auto s = RowSlice(entry.sensor, radius, search)) {
region_next.push_back(*s);
for (auto const& x : region) {
subtract_to(x, *s, region_next);
}
std::swap(region, region_next);
region_next.clear();
}
}
std::size_t result {};
for (auto const& x : region) {
result += x[0].hi - x[0].lo;
}
std::set<std::int64_t> seen;
for (auto const& entry : input) {
if (entry.beacon.y == search && seen.insert(entry.beacon.x).second) {
result--;
}
}
return result;
}
auto Part2(Input const& input, std::int64_t search) -> std::int64_t {
auto region = std::vector<std::array<Range, 2>>{Square({search/2, search/2}, search)};
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auto region_next = std::vector<std::array<Range, 2>>{};
for (auto const& entry : input) {
auto radius = aocpp::Norm1(entry.beacon - entry.sensor);
auto s = Square(entry.sensor, radius);
for (auto const& x : region) {
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subtract_to(x, s, region_next);
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}
std::swap(region, region_next);
region_next.clear();
}
for (auto const& entry : region) {
auto corner = Corner(entry);
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if (0 <= corner.x && corner.x <= search &&
0 <= corner.y && corner.y <= search)
{
return 4'000'000 * corner.x + corner.y;
}
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}
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throw std::runtime_error{"no solution to part 2"};
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}
} // namespace
TEST_SUITE("2022-15 examples") {
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TEST_CASE("subtraction") {
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CHECK(subtract<1>({1,3}, {4,5}) == std::vector<std::array<Range, 1>>{{1,3}});
CHECK(subtract<1>({4,5}, {1,3}) == std::vector<std::array<Range, 1>>{{4,5}});
CHECK(subtract<1>({1,3}, {2,4}) == std::vector<std::array<Range, 1>>{{1,2}});
CHECK(subtract<1>({1,3}, {0,2}) == std::vector<std::array<Range, 1>>{{2,3}});
CHECK(subtract<1>({1,3}, {1,3}) == std::vector<std::array<Range, 1>>{});
CHECK(subtract<1>({1,4}, {2,3}) == std::vector<std::array<Range, 1>>{{1,2}, {3,4}});
CHECK(subtract<1>({1,4}, {2,4}) == std::vector<std::array<Range, 1>>{{1,2}});
CHECK(subtract<1>({1,4}, {1,3}) == std::vector<std::array<Range, 1>>{{3,4}});
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CHECK(subtract<2>(
std::array<Range,2>{Range{0,3}, Range{0,4}}, std::array<Range,2>{Range{1,2},Range{2,3}})
==
std::vector<std::array<Range, 2>>{
std::array<Range, 2>{Range{0,1}, Range{0,4}},
std::array<Range, 2>{Range{2,3}, Range{0,4}},
std::array<Range, 2>{Range{1,2}, Range{0,2}},
std::array<Range, 2>{Range{1,2}, Range{3,4}}
});
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}
TEST_CASE("documented example") {
auto in = std::istringstream{
"Sensor at x=2, y=18: closest beacon is at x=-2, y=15\n"
"Sensor at x=9, y=16: closest beacon is at x=10, y=16\n"
"Sensor at x=13, y=2: closest beacon is at x=15, y=3\n"
"Sensor at x=12, y=14: closest beacon is at x=10, y=16\n"
"Sensor at x=10, y=20: closest beacon is at x=10, y=16\n"
"Sensor at x=14, y=17: closest beacon is at x=10, y=16\n"
"Sensor at x=8, y=7: closest beacon is at x=2, y=10\n"
"Sensor at x=2, y=0: closest beacon is at x=2, y=10\n"
"Sensor at x=0, y=11: closest beacon is at x=2, y=10\n"
"Sensor at x=20, y=14: closest beacon is at x=25, y=17\n"
"Sensor at x=17, y=20: closest beacon is at x=21, y=22\n"
"Sensor at x=16, y=7: closest beacon is at x=15, y=3\n"
"Sensor at x=14, y=3: closest beacon is at x=15, y=3\n"
"Sensor at x=20, y=1: closest beacon is at x=15, y=3\n"
};
auto const input = Parse(in);
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CHECK(26 == Part1(input, 10));
CHECK(56000011 == Part2(input, 20));
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}
}
auto Main(std::istream & in, std::ostream & out) -> void
{
auto const input = Parse(in);
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out << "Part 1: " << Part1(input, 2'000'000) << std::endl;
out << "Part 2: " << Part2(input, 4'000'000) << std::endl;
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}