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safra: Give more explicit names to types

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* src/twaalgos/safra.cc, src/twaalgos/safra.hh: Here.
This commit is contained in:
Alexandre Lewkowicz 2015-09-24 07:40:40 +02:00 committed by Alexandre Duret-Lutz
parent 18396e5973
commit b59b31f806
2 changed files with 28 additions and 23 deletions
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32
src/twaalgos/safra.cc
View file

@ -87,20 +87,20 @@ namespace spot
struct compare struct compare
{ {
bool bool
operator() (std::pair<std::vector<node_helper::brace_t>, unsigned>& lhs, operator() (const safra_state::safra_node_t& lhs,
std::pair<std::vector<node_helper::brace_t>, unsigned>& rhs) const safra_state::safra_node_t& rhs)
{ {
return lhs.first < rhs.first; return lhs.second < rhs.second;
} }
}; };
// Return the sorteds nodes in ascending order // Return the sorteds nodes in ascending order
std::vector<std::pair<std::vector<node_helper::brace_t>, unsigned>> std::vector<safra_state::safra_node_t>
sorted_nodes(const safra_state::nodes_t& nodes) sorted_nodes(const safra_state::nodes_t& nodes)
{ {
std::vector<std::pair<std::vector<node_helper::brace_t>, unsigned>> res; std::vector<safra_state::safra_node_t> res;
for (auto& n: nodes) for (auto& n: nodes)
res.emplace_back(n.second, n.first); res.emplace_back(n.first, n.second);
std::sort(res.begin(), res.end(), compare()); std::sort(res.begin(), res.end(), compare());
return res; return res;
} }
@ -114,15 +114,15 @@ namespace spot
bool first = true; bool first = true;
for (auto& n: copy) for (auto& n: copy)
{ {
auto it = n.first.begin(); auto it = n.second.begin();
// Find brace on top of stack in vector // Find brace on top of stack in vector
// If brace is not present, then we close it as no other ones of that // If brace is not present, then we close it as no other ones of that
// type will be found since we ordered our vector // type will be found since we ordered our vector
while (!s.empty()) while (!s.empty())
{ {
it = std::lower_bound(n.first.begin(), n.first.end(), it = std::lower_bound(n.second.begin(), n.second.end(),
s.top()); s.top());
if (it == n.first.end() || *it != s.top()) if (it == n.second.end() || *it != s.top())
{ {
os << subscript(s.top()) << '}'; os << subscript(s.top()) << '}';
s.pop(); s.pop();
@ -135,7 +135,7 @@ namespace spot
} }
} }
// Add new braces // Add new braces
while (it != n.first.end()) while (it != n.second.end())
{ {
os << '{' << subscript(*it); os << '{' << subscript(*it);
s.push(*it); s.push(*it);
@ -144,7 +144,7 @@ namespace spot
} }
if (!first) if (!first)
os << ' '; os << ' ';
os << n.second; os << n.first;
first = false; first = false;
} }
// Finish unwinding stack to print last braces // Finish unwinding stack to print last braces
@ -169,7 +169,7 @@ namespace spot
void void
safra_state::compute_succs(const const_twa_graph_ptr& aut, safra_state::compute_succs(const const_twa_graph_ptr& aut,
const std::vector<unsigned>& bddnums, const std::vector<bdd_id_t>& bddnums,
std::unordered_map<bdd, std::unordered_map<bdd,
std::pair<unsigned, unsigned>, std::pair<unsigned, unsigned>,
bdd_hash>& deltas, bdd_hash>& deltas,
@ -230,7 +230,7 @@ namespace spot
} }
} }
unsigned safra_state::finalize_construction() safra_state::color_t safra_state::finalize_construction()
{ {
unsigned red = -1U; unsigned red = -1U;
unsigned green = -1U; unsigned green = -1U;
@ -320,7 +320,7 @@ namespace spot
} }
void safra_state::update_succ(const std::vector<node_helper::brace_t>& braces, void safra_state::update_succ(const std::vector<node_helper::brace_t>& braces,
unsigned dst, const acc_cond::mark_t acc) state_t dst, const acc_cond::mark_t acc)
{ {
std::vector<node_helper::brace_t> copy = braces; std::vector<node_helper::brace_t> copy = braces;
if (acc.count()) if (acc.count())
@ -356,7 +356,7 @@ namespace spot
} }
// Called only to initialize first state // Called only to initialize first state
safra_state::safra_state(unsigned val, bool init_state, bool accepting_scc) safra_state::safra_state(state_t val, bool init_state, bool accepting_scc)
{ {
if (init_state) if (init_state)
{ {
@ -439,7 +439,7 @@ namespace spot
// Nedded for compute succs // Nedded for compute succs
// Used to convert large bdd to indexes // Used to convert large bdd to indexes
std::unordered_map<bdd, std::pair<unsigned, unsigned>, bdd_hash> deltas; std::unordered_map<bdd, std::pair<unsigned, unsigned>, bdd_hash> deltas;
std::vector<unsigned> bddnums; std::vector<safra_state::bdd_id_t> bddnums;
for (auto& t: aut->edges()) for (auto& t: aut->edges())
{ {
auto it = deltas.find(t.cond); auto it = deltas.find(t.cond);

19
src/twaalgos/safra.hh
View file

@ -41,16 +41,21 @@ namespace spot
class safra_state class safra_state
{ {
public: public:
using nodes_t = std::map<unsigned, std::vector<node_helper::brace_t>>; using state_t = unsigned;
using succs_t = std::vector<std::pair<safra_state, unsigned>>; using color_t = unsigned;
using bdd_id_t = unsigned;
using nodes_t = std::map<state_t, std::vector<node_helper::brace_t>>;
using succs_t = std::vector<std::pair<safra_state, bdd_id_t>>;
using safra_node_t = std::pair<state_t, std::vector<node_helper::brace_t>>;
bool operator<(const safra_state& other) const; bool operator<(const safra_state& other) const;
// Printh the number of states in each brace // Printh the number of states in each brace
safra_state(unsigned state_number, bool init_state = false, safra_state(state_t state_number, bool init_state = false,
bool acceptance_scc = false); bool acceptance_scc = false);
// Given a certain transition_label, compute all the successors of that // Given a certain transition_label, compute all the successors of that
// label, and return that new node. // label, and return that new node.
void compute_succs(const const_twa_graph_ptr& aut, void compute_succs(const const_twa_graph_ptr& aut,
const std::vector<unsigned>& bddnums, const std::vector<bdd_id_t>& bddnums,
std::unordered_map<bdd, std::unordered_map<bdd,
std::pair<unsigned, unsigned>, std::pair<unsigned, unsigned>,
bdd_hash>& deltas, bdd_hash>& deltas,
@ -63,9 +68,9 @@ namespace spot
// A new intermediate node is created with src's braces and with dst as id // A new intermediate node is created with src's braces and with dst as id
// A merge is done if dst already existed in *this // A merge is done if dst already existed in *this
void update_succ(const std::vector<node_helper::brace_t>& braces, void update_succ(const std::vector<node_helper::brace_t>& braces,
unsigned dst, const acc_cond::mark_t acc); state_t dst, const acc_cond::mark_t acc);
// Return the emitted color, red or green // Return the emitted color, red or green
unsigned finalize_construction(); color_t finalize_construction();
// A list of nodes similar to the ones of a // A list of nodes similar to the ones of a
// safra tree. These are constructed in the same way as the powerset // safra tree. These are constructed in the same way as the powerset
// algorithm. // algorithm.
@ -75,7 +80,7 @@ namespace spot
std::vector<size_t> nb_braces_; std::vector<size_t> nb_braces_;
// A bitfield to know if a brace can emit green. // A bitfield to know if a brace can emit green.
std::vector<bool> is_green_; std::vector<bool> is_green_;
unsigned color_; color_t color_;
}; };
SPOT_API twa_graph_ptr SPOT_API twa_graph_ptr