Endgame-Analyzer/download.h

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#ifndef DYNAMIC_PROGRAM_DOWNLOAD_H
#define DYNAMIC_PROGRAM_DOWNLOAD_H
#include <boost/json.hpp>
#include <boost/json/src.hpp>
#include <cpr/cpr.h>
#include <iostream>
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#include <fstream>
#include <variant>
#include "game_state.h"
// This helper function deduces the type and assigns the value with the matching key
template<class T>
void extract(boost::json::object const &obj, T &t, std::string_view key) {
t = value_to<T>(obj.at(key));
}
namespace Hanabi {
Card tag_invoke(boost::json::value_to_tag<Card>,
boost::json::value const &jv) {
Hanabi::Card card{};
boost::json::object const &obj = jv.as_object();
extract(obj, card.rank, "rank");
extract(obj, card.suit, "suitIndex");
card.rank = 5 - card.rank;
return card;
}
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void tag_invoke(boost::json::value_from_tag, boost::json::value &jv, Hanabi::Card const &card) {
jv = {{"suitIndex", card.suit},
{"rank", card.rank}};
}
}
namespace Download {
struct Action {
Hanabi::ActionType type{};
uint8_t target;
};
Action tag_invoke(boost::json::value_to_tag<Action>, boost::json::value const &jv) {
Action action{};
uint8_t type;
boost::json::object const &obj = jv.as_object();
extract(obj, action.target, "target");
extract(obj, type, "type");
action.type = static_cast<Hanabi::ActionType>(type);
switch (action.type) {
case Hanabi::ActionType::color_clue:
case Hanabi::ActionType::rank_clue:
action.type = Hanabi::ActionType::clue;
break;
case Hanabi::ActionType::end_game:
case Hanabi::ActionType::vote_terminate:
action.type = Hanabi::ActionType::end_game;
break;
case Hanabi::ActionType::play:
case Hanabi::ActionType::discard:
break;
default:
throw std::runtime_error(
"Invalid game format, could not parse action type " + std::to_string(type));
}
return action;
}
std::vector<Hanabi::Card> parse_deck(const boost::json::value &deck_json) {
auto deck = boost::json::value_to<std::vector<Hanabi::Card>>(deck_json);
for (auto &card: deck) {
assert(card.rank < 5);
assert(card.rank >= 0);
assert(card.suit < 6);
assert(card.suit >= 0);
}
return deck;
}
std::vector<Action> parse_actions(const boost::json::value &action_json) {
return boost::json::value_to<std::vector<Action>>(action_json);
}
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boost::json::object download_game_json(int game_id) {
std::string request_str = "https://hanab.live/export/" + std::to_string(game_id);
cpr::Response r = cpr::Get(cpr::Url(request_str));
if (r.header["content-type"] != "application/json; charset=utf-8") {
return {};
}
return boost::json::parse(r.text).as_object();
}
boost::json::object open_game_json(const char *filename) {
std::ifstream file(filename);
if (!file.is_open()) {
std::cout << "Failed to open " << filename << "." << std::endl;
return {};
}
std::string game_json((std::istreambuf_iterator<char>(file)), std::istreambuf_iterator<char>());
return boost::json::parse(game_json).as_object();
}
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template<std::size_t num_suits, Hanabi::player_t num_players, std::size_t hand_size, uint8_t max_draw_pile_size>
Hanabi::HanabiState<num_suits, num_players, hand_size, max_draw_pile_size> produce_state(
const std::vector<Hanabi::Card>& deck,
const std::vector<Action>& actions,
size_t num_turns_to_replicate
) {
Hanabi::HanabiState<num_suits, num_players, hand_size, max_draw_pile_size> game(deck);
std::uint8_t index;
for (size_t i = 0; i < num_turns_to_replicate; i++) {
switch(actions[i].type) {
case Hanabi::ActionType::color_clue:
case Hanabi::ActionType::rank_clue:
game.clue();
break;
case Hanabi::ActionType::discard:
index = game.find_card_in_hand(deck[actions[i].target]);
assert(index != -1);
game.discard(index);
break;
case Hanabi::ActionType::play:
index = game.find_card_in_hand(deck[actions[i].target]);
assert(index != -1);
game.play(index);
break;
case Hanabi::ActionType::vote_terminate:
case Hanabi::ActionType::end_game:
return game;
}
}
return game;
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}
void get_game(std::variant<int, const char *> game_spec) {
const boost::json::object game_json = [&game_spec]() {
if (game_spec.index() == 0) {
return download_game_json(std::get<int>(game_spec));
} else {
return open_game_json(std::get<const char *>(game_spec));
}
}();
const std::vector<Hanabi::Card> deck = parse_deck(game_json.at("deck"));
const std::vector<Action> actions = parse_actions(game_json.at("actions"));
const unsigned num_players = game_json.at("players").as_array().size();
std::cout << deck.size() << std::endl;
std::cout << num_players;
auto game = produce_state<6, 3, 5, 0>(deck, actions, 40);
std::cout << game << std::endl;
}
} // namespacen Download
#endif // DYNAMIC_PROGRAM_DOWNLOAD_H