245 lines
6.4 KiB
C++
245 lines
6.4 KiB
C++
#include <algorithm>
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#include <cctype>
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#include <cstdint>
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#include <deque>
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#include <iostream>
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#include <sstream>
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#include <iterator>
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#include <map>
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#include <optional>
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#include <variant>
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#include <vector>
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#include <doctest.h>
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#include <aocpp/Startup.hpp>
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#include <aocpp/Overloaded.hpp>
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namespace {
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using Name = std::string;
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using Value = std::int64_t;
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struct Literal { Value value; };
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struct Variable { Name name; };
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using Expression = std::variant<Literal, Variable>;
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struct Send { Value sent; };
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struct Receive { Value & target; };
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using Effect = std::variant<Send, Receive>;
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struct Set { Name x; Expression y; };
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struct Add { Name x; Expression y; };
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struct Mul { Name x; Expression y; };
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struct Mod { Name x; Expression y; };
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struct Jgz { Expression x; Expression y; };
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struct Rcv { Name x; };
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struct Snd { Expression x; };
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using Instruction = std::variant<Set, Add, Mul, Mod, Jgz, Rcv, Snd>;
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struct State {
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std::map<Name, Value> registers;
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std::size_t pc;
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};
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auto IsName(std::string const& word) {
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return std::all_of(word.begin(), word.end(), [](auto c) { return std::isalpha(c); });
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}
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auto ParseName(std::istream & in) -> Name
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{
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std::string word;
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in >> word;
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if (IsName(word)) { return word; }
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throw std::runtime_error{"bad name"};
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}
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auto ParseExpression(std::istream & in) -> Expression
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{
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std::string word;
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in >> word;
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if (IsName(word)) {
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return Variable{word};
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} else {
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return Literal{std::stoll(word)};
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}
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}
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auto Parse(std::istream & in) -> std::vector<Instruction> {
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std::vector<Instruction> result;
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std::string op;
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while (in >> op) {
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if ("set" == op) {
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auto x = ParseName(in);
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auto y = ParseExpression(in);
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result.push_back(Set{x,y});
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} else if ("add" == op) {
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auto x = ParseName(in);
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auto y = ParseExpression(in);
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result.push_back(Add{x,y});
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} else if ("mul" == op) {
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auto x = ParseName(in);
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auto y = ParseExpression(in);
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result.push_back(Mul{x,y});
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} else if ("mod" == op) {
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auto x = ParseName(in);
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auto y = ParseExpression(in);
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result.push_back(Mod{x,y});
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} else if ("jgz" == op) {
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auto x = ParseExpression(in);
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auto y = ParseExpression(in);
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result.push_back(Jgz{x,y});
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} else if ("rcv" == op) {
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auto x = ParseName(in);
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result.push_back(Rcv{x});
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} else if ("snd" == op) {
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auto x = ParseExpression(in);
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result.push_back(Snd{x});
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} else {
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throw std::runtime_error{"unknown op"};
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}
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}
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return result;
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}
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auto Eval(State const& state, Expression expression) -> Value {
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return std::visit(overloaded{
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[](Literal l) -> Value { return l.value; },
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[&](Variable v) -> Value {
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if (auto it = state.registers.find(v.name); it != state.registers.end()) {
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return it->second;
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} else {
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return 0; }
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},
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}, expression);
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}
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auto Step(State & state, Instruction const& instruction) -> std::optional<Effect> {
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using R = std::optional<Effect>;
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return std::visit(overloaded{
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[&](Set instruction) -> R { state.registers[instruction.x] = Eval(state, instruction.y); state.pc++; return {}; },
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[&](Add instruction) -> R { state.registers[instruction.x] += Eval(state, instruction.y); state.pc++; return {}; },
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[&](Mul instruction) -> R { state.registers[instruction.x] *= Eval(state, instruction.y); state.pc++; return {}; },
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[&](Mod instruction) -> R { state.registers[instruction.x] %= Eval(state, instruction.y); state.pc++; return {}; },
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[&](Jgz instruction) -> R { state.pc += Eval(state, instruction.x) > 0 ? Eval(state, instruction.y) : 1; return {}; },
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[&](Snd instruction) -> R { state.pc++; return Send{Eval(state, instruction.x)}; },
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[&](Rcv instruction) -> R { state.pc++; return Receive{state.registers[instruction.x]}; },
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},
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instruction);
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}
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auto BigStep(State & state, std::vector<Instruction> const& program) -> Effect {
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while(state.pc < program.size()) {
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if (auto effect = Step(state, program[state.pc])) {
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return *effect;
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}
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}
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throw std::runtime_error{"program crash"};
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}
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auto Part1(std::vector<Instruction> const& program) -> Value {
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Value last_sound = -1;
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State state {};
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for (;;) {
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auto effect = BigStep(state, program);
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switch (effect.index()) {
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case 0: last_sound = std::get<0>(effect).sent; break;
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case 1: if (std::get<1>(effect).target > 0) { return last_sound; } break;
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}
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}
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throw std::runtime_error{"part 1 failed"};
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}
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auto Spin(
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State & state,
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std::vector<Instruction> const& program,
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std::deque<Value> & input,
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std::deque<Value> & output
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) -> std::pair<Value*, std::size_t>
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{
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std::size_t n = 0;
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for(;;) {
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auto effect = BigStep(state, program);
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switch (effect.index()) {
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case 0:
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output.push_back(std::get<0>(effect).sent);
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n++;
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break;
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case 1: {
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auto & target = std::get<1>(effect).target;
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if (input.empty()) {
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return {&target, n};
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} else {
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target = input.front();
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input.pop_front();
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}
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break;
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}
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}
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}
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}
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auto Part2(std::vector<Instruction> const& program) -> std::size_t {
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State m0{};
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State m1{{{"p",1}}};
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std::deque<Value> inputs0;
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std::deque<Value> inputs1;
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auto [stuck0, _] = Spin(m0, program, inputs0, inputs1);
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auto [stuck1, n] = Spin(m1, program, inputs1, inputs0);
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while(!(inputs0.empty() && inputs1.empty())) {
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if (!inputs0.empty()) {
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*stuck0 = inputs0.front(); inputs0.pop_front();
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stuck0 = Spin(m0, program, inputs0, inputs1).first;
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}
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if (!inputs1.empty()) {
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*stuck1 = inputs1.front(); inputs1.pop_front();
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auto res = Spin(m1, program, inputs1, inputs0);
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stuck1 = res.first;
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n += res.second;
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}
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}
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return n;
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}
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} // namespace
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TEST_SUITE("documented examples") {
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TEST_CASE("part 1") {
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std::istringstream in {
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"set a 1\n"
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"add a 2\n"
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"mul a a\n"
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"mod a 5\n"
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"snd a\n"
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"set a 0\n"
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"rcv a\n"
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"jgz a -1\n"
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"set a 1\n"
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"jgz a -2\n"};
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REQUIRE(Part1(Parse(in)) == 4);
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}
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TEST_CASE("part 2") {
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std::istringstream in {
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"snd 1\n"
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"snd 2\n"
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"snd p\n"
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"rcv a\n"
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"rcv b\n"
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"rcv c\n"
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"rcv d\n"};
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REQUIRE(Part2(Parse(in)) == 3);
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}
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}
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auto main(int argc, char** argv) -> int {
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auto const program = Parse(*aocpp::Startup(argc, argv));
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std::cout << "Part 1: " << Part1(program) << std::endl;
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std::cout << "Part 2: " << Part2(program) << std::endl;
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}
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