| Cspot::acc_cond | |
| Cspot::acc_cond::acc_word | |
| Cspot::internal::all_edge_iterator< Graph > | |
| Cspot::internal::all_trans< Graph > | |
| Cspot::automaton_parser_options | |
| Cspot::automaton_stream_parser | Parse a stream of automata |
| Cspot::barand< gen > | Compute pseudo-random integer value between 0 and n included, following a binomial distribution with probability p |
| Choayy::parser::basic_symbol< by_state > | |
| Ctlyy::parser::basic_symbol< by_state > | |
| Cspot::bdd_dict | Map BDD variables to formulae |
| Cspot::bdd_dict::bdd_info | |
| Cspot::bfs_steps | Make a BFS in a spot::tgba to compute a twa_run::steps |
| ►Cbinary_function | |
| Cspot::bdd_less_than | Comparison functor for BDDs |
| Cspot::char_ptr_less_than | Strict Weak Ordering for char* |
| Cspot::bitvect | A bit vector |
| Cspot::bitvect_array | |
| Cspot::internal::boxed_label< Data, boxed > | |
| Choayy::parser::by_type | Type access provider for token (enum) based symbols |
| Ctlyy::parser::by_type | Type access provider for token (enum) based symbols |
| Cspot::scc_stack_ta::connected_component | |
| Cspot::scc_stack::connected_component | |
| Cspot::internal::const_universal_dests | |
| Cspot::couvreur99_check_status | The status of the emptiness-check on success |
| Cspot::cspins_iterator | |
| Cspot::cspins_state_equal | This class provides the ability to compare two states |
| Cspot::cspins_state_hash | This class provides the ability to hash a state |
| Cspot::cspins_state_hasher | This class provides a hasher as required by the bricks classes |
| Cspot::cspins_state_manager | The management of states (i.e. allocation/deallocation) can be painless since every time we have to consider wether the state will be compressed or not. This class aims to simplify this management |
| Cspot::cstate | |
| Cspot::cubeset | |
| ►CData | |
| Cspot::internal::boxed_label< Data, false > | |
| Cspot::enumerate_cycles::dfs_entry | |
| Cspot::digraph< State_Data, Edge_Data > | A directed graph |
| Cspot::digraph< cstate, transition > | |
| Cspot::digraph< kripke_graph_state, void > | |
| Cspot::digraph< twa_graph_state, twa_graph_edge_data > | |
| ►CEdge_Data | |
| Cspot::internal::edge_storage< StateIn, StateOut, Edge, Edge_Data > | |
| ►Cspot::internal::edge_iterator< Graph > | |
| Cspot::internal::killer_edge_iterator< Graph > | |
| Cspot::emptiness_check_instantiator | Dynamically create emptiness checks. Given their name and options |
| ►Cspot::emptiness_check_result | The result of an emptiness check |
| Cspot::couvreur99_check_result | Compute a counter example from a spot::couvreur99_check_status |
| ►Cenable_shared_from_this | |
| ►Cspot::emptiness_check | Common interface to emptiness check algorithms |
| ►Cspot::couvreur99_check | An implementation of the Couvreur99 emptiness-check algorithm |
| Cspot::couvreur99_check_shy | A version of spot::couvreur99_check that tries to visit known states first |
| Cspot::kripkecube< State, SuccIterator > | This class is a template representation of a Kripke structure. It is composed of two template parameters: State represents a state of the Kripke structure, SuccIterator is an iterator over the (possible) successors of a state |
| ►Cspot::twa | A Transition-based ω-Automaton |
| ►Cspot::fair_kripke | Interface for a Fair Kripke structure |
| ►Cspot::kripke | Interface for a Kripke structure |
| Cspot::kripke_graph | Kripke Structure |
| ►Cspot::taa_tgba | A self-loop Transition-based Alternating Automaton (TAA) which is seen as a TGBA (abstract class, see below) |
| Cspot::taa_tgba_labelled< label > | |
| ►Cspot::taa_tgba_labelled< formula > | |
| Cspot::taa_tgba_formula | |
| ►Cspot::taa_tgba_labelled< std::string > | |
| Cspot::taa_tgba_string | |
| ►Cspot::tgta | A Transition-based Generalized Testing Automaton (TGTA) |
| Cspot::tgta_explicit | |
| Cspot::twa_graph | |
| ►Cspot::twa_product | A lazy product. (States are computed on the fly.) |
| Cspot::tgta_product | A lazy product. (States are computed on the fly.) |
| Cspot::twa_product_init | A lazy product with different initial states |
| Cspot::twacube | |
| Cspot::enumerate_cycles | Enumerate elementary cycles in a SCC |
| ►Cspot::environment | An environment that describes atomic propositions |
| Cspot::declarative_environment | A declarative environment |
| Cspot::default_environment | A laxist environment |
| Cspot::exclusive_ap | |
| Cspot::internal::first_is_base_of< Of, Args > | |
| Cspot::internal::first_is_base_of< Of, Arg1, Args... > | |
| Cspot::fixed_size_pool | A fixed-size memory pool implementation |
| Cspot::fnode | Actual storage for formula nodes |
| ►Cspot::formater | |
| Cspot::satsolver_command | Interface with a given sat solver |
| Cspot::stat_printer | Prints various statistics about a TGBA |
| Cspot::formula | Main class for temporal logic formula |
| Cspot::formula::formula_child_iterator | Allow iterating over children |
| Cspot::formula_ptr_less_than_bool_first | |
| Cstd::hash< spot::acc_cond::mark_t > | |
| Cstd::hash< spot::formula > | |
| Cspot::hoa_abort | |
| Cspot::inner_callback_parameters | |
| Cspot::int_unionfind | This Union-Find data structure is a particular union-find, dedicated for emptiness checks below, see ec.hh. The key of this union-find is int. Moreover, we suppose that only consecutive int are inserted. This union-find includes most of the classical optimisations (IPC, LR, PC, MS) |
| Cspot::intersect< State, SuccIterator, StateHash, StateEqual, EmptinessCheck > | This class explores (with a DFS) a product between a system and a twa. This exploration is performed on-the-fly. Since this exploration aims to be a generic we need to define hooks to the various emptiness checks. Actually, we use "mixins templates" in order to efficiently call emptiness check procedure. This means that we add a template EmptinessCheck that will be called though four functions: |
| ►Cspot::intersect< State, SuccIterator, StateHash, StateEqual, ec_renault13lpar< State, SuccIterator, StateHash, StateEqual > > | |
| Cspot::ec_renault13lpar< State, SuccIterator, StateHash, StateEqual > | This class implements the sequential emptiness check as presented in "Three SCC-based Emptiness Checks for Generalized
B\¨uchi Automata" (Renault et al, LPAR 2013). Among the three emptiness check that has been proposed we opted to implement the Gabow's one |
| ►Cspot::intersect< State, SuccIterator, StateHash, StateEqual, product_to_twa< State, SuccIterator, StateHash, StateEqual > > | |
| Cspot::product_to_twa< State, SuccIterator, StateHash, StateEqual > | |
| Cspot::isomorphism_checker | Check if two automata are isomorphic |
| Cspot::istats | Wrapper to accumulate results from intersection and emptiness checks |
| Cspot::kripkecube< cspins_state, cspins_iterator > | |
| Cspot::language_containment_checker | Check containment between LTL formulae |
| Cspot::ltsmin_model | |
| Cspot::acc_cond::mark_t | |
| Cspot::mark_tools | |
| Cspot::minato_isop | Generate an irredundant sum-of-products (ISOP) form of a BDD function |
| Cminmax_t | |
| Cspot::multiple_size_pool | A multiple-size memory pool implementation |
| Cspot::named_graph< Graph, State_Name, Name_Hash, Name_Equal > | |
| Cspot::random_formula::op_proba | |
| Cspot::option_map | Manage a map of options |
| Cspot::outedge_combiner | Helper class combine outgoing edges in alternating automata |
| Cspot::pair_hash | |
| Cspot::parsed_aut | Result of the automaton parser |
| Cspot::parsed_formula | The result of a formula parser |
| Choayy::parser | A Bison parser |
| Ctlyy::parser | A Bison parser |
| ►Cspot::postprocessor | Wrap TGBA/BA/Monitor post-processing algorithms in an easy interface |
| Cspot::translator | Translate an LTL formula into an optimized spot::tgba |
| Cspot::power_map | |
| ►Cspot::printable | |
| Cspot::printable_value< double > | |
| ►Cspot::printable_value< formula > | |
| Cspot::printable_formula | |
| Cspot::printable_value< std::string > | |
| Cspot::printable_value< unsigned > | |
| Cspot::printable_id | The default callback simply writes "%c" |
| Cspot::printable_percent | Called by default for "%%" and "%\0" |
| Cspot::printable_scc_info | |
| Cspot::printable_value< T > | |
| ►Cspot::temporary_file | Temporary file name |
| Cspot::open_temporary_file | Open temporary file |
| Cspot::intersect< State, SuccIterator, StateHash, StateEqual, EmptinessCheck >::product_state | |
| Cspot::intersect< State, SuccIterator, StateHash, StateEqual, EmptinessCheck >::product_state_equal | |
| Cspot::intersect< State, SuccIterator, StateHash, StateEqual, EmptinessCheck >::product_state_hash | |
| Choayy_support::result_::prop_info | |
| Cspot::randltlgenerator | |
| ►Cspot::random_formula | Base class for random formula generators |
| Cspot::random_boolean | Generate random Boolean formulae |
| ►Cspot::random_ltl | Generate random LTL formulae |
| Cspot::random_psl | Generate random PSL formulae |
| Cspot::random_sere | Generate random SERE |
| Cspot::remove_ap | |
| Choayy_support::result_ | |
| ►Cruntime_error | |
| Choayy::parser::syntax_error | Syntax errors thrown from user actions |
| Cspot::parse_error | |
| Ctlyy::parser::syntax_error | Syntax errors thrown from user actions |
| Cspot::satsolver | Interface with a SAT solver |
| Cspot::scc_info | Compute an SCC map and gather assorted information |
| Cspot::scc_info_node | Storage for SCC related information |
| Cspot::scc_stack | |
| Cspot::scc_stack_ta | |
| Choayy::parser::semantic_type | Symbol semantic values |
| Ctlyy::parser::semantic_type | Symbol semantic values |
| Cspot::seq_reach_kripke< State, SuccIterator, StateHash, StateEqual, Visitor > | This template class provide a sequential reachability of a kripkecube. The algorithm uses a single DFS since it is the most efficient in a sequential setting |
| ►Cspot::seq_reach_kripke< State, SuccIterator, StateHash, StateEqual, count_valid< State, SuccIterator, StateHash, StateEqual > > | |
| Cspot::count_valid< State, SuccIterator, StateHash, StateEqual > | |
| ►Cspot::seq_reach_kripke< State, SuccIterator, StateHash, StateEqual, interpolate< State, SuccIterator, StateHash, StateEqual > > | |
| Cspot::interpolate< State, SuccIterator, StateHash, StateEqual > | |
| ►Cspot::seq_reach_kripke< State, SuccIterator, StateHash, StateEqual, kripke_to_twa< State, SuccIterator, StateHash, StateEqual > > | |
| Cspot::kripke_to_twa< State, SuccIterator, StateHash, StateEqual > | |
| ►Cspot::seq_reach_kripke< State, SuccIterator, StateHash, StateEqual, swarmed_dfs< State, SuccIterator, StateHash, StateEqual > > | |
| Cspot::swarmed_dfs< State, SuccIterator, StateHash, StateEqual > | |
| ►Cspot::seq_reach_kripke< State, SuccIterator, StateHash, StateEqual, swarmed_gp< State, SuccIterator, StateHash, StateEqual > > | |
| Cspot::swarmed_gp< State, SuccIterator, StateHash, StateEqual > | |
| Choayy::slice< T, S > | Present a slice of the top of a stack |
| Ctlyy::slice< T, S > | Present a slice of the top of a stack |
| Cspot::spins_interface | |
| Choayy::stack< T, S > | |
| Ctlyy::stack< T, S > | |
| Ctlyy::stack< stack_symbol_type > | |
| Choayy::stack< stack_symbol_type > | |
| Cspot::twa_reachable_iterator_depth_first::stack_item | |
| ►Cspot::state | Abstract class for states |
| Cspot::kripke_graph_state | Concrete class for kripke_graph states |
| Cspot::set_state | Set of states deriving from spot::state |
| Cspot::state_product | A state for spot::twa_product |
| Cspot::state_ta_explicit | |
| Cspot::state_ta_product | A state for spot::ta_product |
| Cspot::twa_graph_state | |
| ►CState_Data | |
| Cspot::internal::distate_storage< Edge, State_Data > | |
| Cspot::enumerate_cycles::state_info | |
| Choayy_support::result_::state_info | |
| Cspot::internal::state_out< Graph > | |
| Cspot::state_ptr_equal | An Equivalence Relation for state* |
| Cspot::state_ptr_hash | Hash Function for state* |
| Cspot::state_ptr_less_than | Strict Weak Ordering for state* |
| Cspot::state_shared_ptr_equal | An Equivalence Relation for shared_state (shared_ptr<const state*>) |
| Cspot::state_shared_ptr_hash | Hash Function for shared_state (shared_ptr<const state*>) |
| Cspot::state_shared_ptr_less_than | Strict Weak Ordering for shared_state (shared_ptr<const state*>) |
| Cspot::state_unicity_table | Render state pointers unique via a hash table |
| Cspot::twa_run::step | |
| Cspot::stopwatch | A simple stopwatch |
| Cspot::internal::succ_iterator | Helper structure to iterate over the successor of a state using the on-the-fly interface |
| Cspot::couvreur99_check_shy::successor | |
| ►Cspot::ta | A Testing Automaton |
| Cspot::ta_explicit | |
| Cspot::ta_product | A lazy product between a Testing automaton and a Kripke structure. (States are computed on the fly.) |
| ►Cspot::ta_reachable_iterator | Iterate over all reachable states of a spot::ta |
| Cspot::ta_reachable_iterator_breadth_first | An implementation of spot::ta_reachable_iterator that browses states breadth first |
| Cspot::ta_reachable_iterator_depth_first | An implementation of spot::ta_reachable_iterator that browses states depth first |
| Cspot::ta_statistics | |
| Cspot::time_info | A structure to record elapsed time in clock ticks |
| Cspot::timer | |
| Cspot::timer_map | A map of timer, where each timer has a name |
| Cspot::tl_simplifier | Rewrite or simplify f in various ways |
| Cspot::tl_simplifier_options | |
| Cspot::intersect< State, SuccIterator, StateHash, StateEqual, EmptinessCheck >::todo_element | |
| Cspot::seq_reach_kripke< State, SuccIterator, StateHash, StateEqual, Visitor >::todo_element | |
| Cspot::couvreur99_check_shy::todo_item | |
| Ctlyy::parser::token | Tokens |
| Choayy::parser::token | Tokens |
| Cspot::trans_index | |
| Cspot::taa_tgba::transition | Explicit transitions |
| Cspot::transition | |
| Cspot::state_ta_explicit::transition | Explicit transitions |
| Cspot::transition_info | |
| Cspot::trival | A class implementing Kleene's three-valued logic |
| ►Ctuple | |
| Cspot::internal::boxed_label< void, true > | |
| Cspot::twa_graph_edge_data | |
| ►Cspot::twa_reachable_iterator | Iterate over all reachable states of a spot::tgba |
| Cspot::twa_reachable_iterator_breadth_first | An implementation of spot::twa_reachable_iterator that browses states breadth first |
| ►Cspot::twa_reachable_iterator_depth_first | Iterate over all states of an automaton using a DFS |
| Cspot::twa_reachable_iterator_depth_first_stack | Iterate over all states of an automaton using a DFS |
| Cspot::twa_run | An accepted run, for a twa |
| ►Cspot::twa_statistics | |
| Cspot::twa_sub_statistics | |
| Cspot::internal::twa_succ_iterable | Helper class to iterate over the successor of a state using the on-the-fly interface |
| ►Cspot::twa_succ_iterator | Iterate over the successors of a state |
| Cspot::fair_kripke_succ_iterator | Iterator code for a Fair Kripke structure |
| ►Cspot::kripke_succ_iterator | Iterator code for Kripke structure |
| Cspot::kripke_graph_succ_iterator< Graph > | |
| ►Cspot::ta_succ_iterator | Iterate over the successors of a state |
| Cspot::ta_explicit_succ_iterator | Successor iterators used by spot::ta_explicit |
| ►Cspot::ta_succ_iterator_product | Iterate over the successors of a product computed on the fly |
| Cspot::ta_succ_iterator_product_by_changeset | |
| Cspot::taa_succ_iterator | |
| Cspot::tgta_succ_iterator_product | Iterate over the successors of a product computed on the fly |
| Cspot::twa_graph_succ_iterator< Graph > | |
| Cspot::twa_word | An infinite word stored as a lasso |
| Cspot::unabbreviator | Clone and rewrite a formula to remove specified operators logical operators |
| ►Cunary_function | |
| Cspot::bdd_hash | Hash functor for BDDs |
| Cspot::identity_hash< T > | A hash function that returns identity |
| Cspot::ptr_hash< T > | A hash function for pointers |
| Cspot::internal::univ_dest_mapper< G > | |
| ►Cspot::unsigned_statistics | |
| ►Cspot::ars_statistics | Accepting Run Search statistics |
| ►Cspot::acss_statistics | Accepting Cycle Search Space statistics |
| Cspot::couvreur99_check_result | Compute a counter example from a spot::couvreur99_check_status |
| ►Cspot::ec_statistics | Emptiness-check statistics |
| Cspot::couvreur99_check | An implementation of the Couvreur99 emptiness-check algorithm |
| Cspot::ta_check | An implementation of the emptiness-check algorithm for a product between a TA and a Kripke structure |
| ►Cvector | |
| Cspot::acc_cond::acc_code | |
| ►CBase | |
| Choayy::parser::basic_symbol< Base > | |
| Ctlyy::parser::basic_symbol< Base > | |