Hanabi/Endgame-Analyzer
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rework -r option: solve state in reverse order

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This commit is contained in:
Maximilian Keßler 2023-11-11 11:44:06 +01:00
parent 7eb1364e36
commit 59709e2375
Signed by: max
GPG Key ID: BCC5A619923C0BA5
3 changed files with 24 additions and 9 deletions
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2
include/game_state.h
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@ -218,6 +218,7 @@ public:
virtual void play(hand_index_t index) = 0;
virtual void rotate_next_draw(const Card& card) = 0;
virtual ActionType last_action_type() const = 0;
virtual void revert() = 0;
virtual void modify_clues(clue_t change) = 0;
@ -283,6 +284,7 @@ public:
void play(hand_index_t index) final;
void rotate_next_draw(const Card& card) final;
ActionType last_action_type() const final;
void revert() final;

7
include/game_state.hpp
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@ -678,6 +678,13 @@ namespace Hanabi {
std::swap(*card_it, _draw_pile.front());
}
template<suit_t num_suits, player_t num_players, hand_index_t hand_size>
ActionType HanabiState<num_suits, num_players, hand_size>::last_action_type() const
{
assert(not _actions_log.empty());
return _actions_log.top().action_type;
}
template<suit_t num_suits, player_t num_players, hand_index_t hand_size>
probability_t HanabiState<num_suits, num_players, hand_size>::evaluate_state() {
ASSERT(_relative_representation.initialized);

24
src/main.cpp
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@ -36,13 +36,17 @@ namespace Hanabi {
}
game.state->init_backtracking_information();
auto start = std::chrono::high_resolution_clock::now();
auto res = game.state->evaluate_state();
boost::rational<probability_base_type> result;
if (not print_remaining_states) {
result = game.state->evaluate_state();
}
auto end = std::chrono::high_resolution_clock::now();
std::cout.precision(10);
if (not (quiet and print_remaining_states)) {
if (not print_remaining_states) {
std::cout << "Probability with optimal play: ";
print_probability(std::cout, res) << std::endl;
print_probability(std::cout, result) << std::endl;
}
if (not quiet) {
std::cout << "Took " << std::chrono::duration_cast<std::chrono::milliseconds>(end - start) << "." << std::endl;
@ -52,22 +56,24 @@ namespace Hanabi {
if (print_remaining_states)
{
for(size_t remaining_cards = game.state->draw_pile_size(); remaining_cards > 0; remaining_cards--) {
game.forward_until(100, remaining_cards);
size_t const max_draw_pile_size = game.state->draw_pile_size();
game.forward_until(100, 1);
for(size_t remaining_cards = 1; remaining_cards <= max_draw_pile_size; remaining_cards++) {
game.revert_until(remaining_cards);
if (all_clues) {
clue_t original_num_clues = game.state->num_clues();
for(clue_t num_clues = 0; num_clues <= 8; num_clues++) {
game.state->set_clues(num_clues);
res = game.state->evaluate_state();
result = game.state->evaluate_state();
std::cout << "Probability with " << remaining_cards << " cards left in deck and " << +num_clues
<< " clues (" << std::showpos << +(num_clues - original_num_clues) << "): " << std::noshowpos;
print_probability(std::cout, res) << std::endl;
print_probability(std::cout, result) << std::endl;
}
game.state->set_clues(original_num_clues);
} else {
res = game.state->evaluate_state();
result = game.state->evaluate_state();
std::cout << "Probability with " << remaining_cards << " cards left in deck: ";
print_probability(std::cout, res) << std::endl;
print_probability(std::cout, result) << std::endl;
}
}
}