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expansions: add BDD method

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This commit is contained in:
Antoine Martin 2023-01-20 14:28:35 +01:00
parent 806b7319b9
commit f4b2637c04
2 changed files with 233 additions and 39 deletions
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260
spot/tl/expansions.cc
View file

@ -18,6 +18,7 @@
// along with this program. If not, see <http://www.gnu.org/licenses/>. // along with this program. If not, see <http://www.gnu.org/licenses/>.
#include "config.h" #include "config.h"
#include <spot/misc/minato.hh>
#include <spot/priv/robin_hood.hh> #include <spot/priv/robin_hood.hh>
#include <spot/tl/expansions.hh> #include <spot/tl/expansions.hh>
#include <spot/twa/bdddict.hh> #include <spot/twa/bdddict.hh>
@ -33,10 +34,10 @@ namespace spot
public: public:
using exp_map = expansion_builder::exp_map; using exp_map = expansion_builder::exp_map;
expansion_basic() expansion_basic(bdd_dict_ptr d)
{} {}
expansion_basic(exp_map&& m) expansion_basic(exp_map&& m, bdd_dict_ptr d)
: bdd2formula_(m) : bdd2formula_(m)
, formula2bdd_() , formula2bdd_()
{} {}
@ -81,10 +82,10 @@ namespace spot
public: public:
using exp_map = expansion_builder::exp_map; using exp_map = expansion_builder::exp_map;
expansion_merge_formulas() expansion_merge_formulas(bdd_dict_ptr d)
{} {}
expansion_merge_formulas(exp_map&& m) expansion_merge_formulas(exp_map&& m, bdd_dict_ptr d)
: res_() : res_()
, terms_(m.begin(), m.end()) , terms_(m.begin(), m.end())
{} {}
@ -163,6 +164,182 @@ namespace spot
} }
} }
class expansion_bdd final : expansion_builder
{
public:
using exp_map = expansion_builder::exp_map;
expansion_bdd(bdd_dict_ptr d)
: anon_set_(bddtrue)
, d_(d)
{}
expansion_bdd(exp_map&& m, bdd_dict_ptr d)
: anon_set_(bddtrue)
, d_(d)
{
for (const auto& [letter, suffix] : m)
{
insert(letter, suffix);
}
}
expansion_bdd(const expansion_bdd&) = delete;
expansion_bdd&
operator=(const expansion_bdd& other) = delete;
expansion_bdd&
operator=(const expansion_bdd&& other)
{
d_->unregister_all_my_variables(this);
anon_set_ = std::move(other.anon_set_);
exp_ = std::move(other.exp_);
res_ = std::move(other.res_);
formula2bdd_ = std::move(other.formula2bdd_);
bdd2formula_ = std::move(other.bdd2formula_);
d_ = other.d_;
d_->register_all_variables_of(&other, this);
return *this;
}
~expansion_bdd()
{
d_->unregister_all_my_variables(this);
}
void insert(bdd letter, formula suffix) final;
void finalize() final;
exp_map& result() final
{
return res_;
}
bool empty() final
{
return formula2bdd_.empty();
}
void clear() final
{
formula2bdd_.clear();
bdd2formula_.clear();
exp_ = bddfalse;
anon_set_ = bddtrue;
res_.clear();
}
private:
bdd exp_;
bdd anon_set_;
std::map<formula, int> formula2bdd_;
std::map<int, formula> bdd2formula_;
exp_map res_;
bdd_dict_ptr d_;
formula var_to_formula(int var);
formula conj_bdd_to_sere(bdd b);
};
formula
expansion_bdd::var_to_formula(int var)
{
formula f = bdd2formula_[var];
assert(f);
return f;
}
formula
expansion_bdd::conj_bdd_to_sere(bdd b)
{
if (b == bddtrue)
return formula::tt();
if (b == bddfalse)
return formula::ff();
// Unroll the first loop of the next do/while loop so that we
// do not have to create v when b is not a conjunction.
formula res = var_to_formula(bdd_var(b));
bdd high = bdd_high(b);
if (high == bddfalse)
{
res = formula::Not(res);
b = bdd_low(b);
}
else
{
assert(bdd_low(b) == bddfalse);
b = high;
}
if (b == bddtrue)
return res;
std::vector<formula> v{std::move(res)};
do
{
res = var_to_formula(bdd_var(b));
high = bdd_high(b);
if (high == bddfalse)
{
res = formula::Not(res);
b = bdd_low(b);
}
else
{
assert(bdd_low(b) == bddfalse);
b = high;
}
assert(b != bddfalse);
v.emplace_back(std::move(res));
}
while (b != bddtrue);
return formula::multop(op::AndRat, std::move(v));
}
void expansion_bdd::insert(bdd letter, formula suffix)
{
int anon_var_num;
auto it = formula2bdd_.find(suffix);
if (it != formula2bdd_.end())
{
anon_var_num = it->second;
}
else
{
anon_var_num = d_->register_anonymous_variables(1, this);
formula2bdd_.insert({suffix, anon_var_num});
bdd2formula_.insert({anon_var_num, suffix});
}
bdd var = bdd_ithvar(anon_var_num);
anon_set_ &= var;
exp_ |= letter & var;
}
void expansion_bdd::finalize()
{
minato_isop isop(exp_);
bdd cube;
while ((cube = isop.next()) != bddfalse)
{
bdd letter = bdd_exist(cube, anon_set_);
bdd suffix = bdd_existcomp(cube, anon_set_);
formula dest = conj_bdd_to_sere(suffix);
auto it = res_.insert({letter, dest});
if (!it.second)
{
auto it2 = it.first;
it2->second = formula::OrRat({it2->second, dest});
}
}
}
// FIXME: could probably just return a map directly // FIXME: could probably just return a map directly
static std::vector<std::string> static std::vector<std::string>
formula_aps(formula f) formula_aps(formula f)
@ -252,11 +429,11 @@ namespace spot
return formula::OrRat(res); return formula::OrRat(res);
} }
expansion_t
expansion(formula f, const bdd_dict_ptr& d, void *owner)
{
using expansion_type = expansion_merge_formulas;
template<typename ExpansionBuilder>
expansion_t
expansion_impl(formula f, const bdd_dict_ptr& d, void *owner, expansion_builder::expand_opt opts)
{
if (f.is_boolean()) if (f.is_boolean())
{ {
auto f_bdd = formula_to_bdd(f, d, owner); auto f_bdd = formula_to_bdd(f, d, owner);
@ -280,9 +457,9 @@ namespace spot
case op::Concat: case op::Concat:
{ {
auto exps = expansion(f[0], d, owner); auto exps = expansion(f[0], d, owner, opts);
expansion_type res; ExpansionBuilder res(d);
for (const auto& [bdd_l, form] : exps) for (const auto& [bdd_l, form] : exps)
{ {
res.insert(bdd_l, formula::Concat({form, f.all_but(0)})); res.insert(bdd_l, formula::Concat({form, f.all_but(0)}));
@ -290,7 +467,7 @@ namespace spot
if (f[0].accepts_eword()) if (f[0].accepts_eword())
{ {
auto exps_rest = expansion(f.all_but(0), d, owner); auto exps_rest = expansion(f.all_but(0), d, owner, opts);
for (const auto& [bdd_l, form] : exps_rest) for (const auto& [bdd_l, form] : exps_rest)
{ {
res.insert(bdd_l, form); res.insert(bdd_l, form);
@ -315,15 +492,15 @@ namespace spot
auto E_i_j_minus = formula::FStar(E, min, max); auto E_i_j_minus = formula::FStar(E, min, max);
auto exp = expansion(E, d, owner); auto exp = expansion(E, d, owner, opts);
expansion_type res; ExpansionBuilder res(d);
for (const auto& [li, ei] : exp) for (const auto& [li, ei] : exp)
{ {
res.insert(li, formula::Fusion({ei, E_i_j_minus})); res.insert(li, formula::Fusion({ei, E_i_j_minus}));
if (ei.accepts_eword() && f.min() != 0) if (ei.accepts_eword() && f.min() != 0)
{ {
for (const auto& [ki, fi] : expansion(E_i_j_minus, d, owner)) for (const auto& [ki, fi] : expansion(E_i_j_minus, d, owner, opts))
{ {
// FIXME: build bdd once // FIXME: build bdd once
if ((li & ki) != bddfalse) if ((li & ki) != bddfalse)
@ -345,9 +522,9 @@ namespace spot
? formula::unbounded() ? formula::unbounded()
: (f.max() - 1); : (f.max() - 1);
auto exps = expansion(f[0], d, owner); auto exps = expansion(f[0], d, owner, opts);
expansion_type res; ExpansionBuilder res(d);
for (const auto& [bdd_l, form] : exps) for (const auto& [bdd_l, form] : exps)
{ {
res.insert(bdd_l, formula::Concat({form, formula::Star(f[0], min, max)})); res.insert(bdd_l, formula::Concat({form, formula::Star(f[0], min, max)}));
@ -360,14 +537,14 @@ namespace spot
case op::AndNLM: case op::AndNLM:
{ {
formula rewrite = rewrite_and_nlm(f); formula rewrite = rewrite_and_nlm(f);
return expansion(rewrite, d, owner); return expansion(rewrite, d, owner, opts);
} }
case op::first_match: case op::first_match:
{ {
auto exps = expansion(f[0], d, owner); auto exps = expansion(f[0], d, owner, opts);
expansion_type ndet_res; ExpansionBuilder ndet_res(d);
for (const auto& [bdd_l, form] : exps) for (const auto& [bdd_l, form] : exps)
{ {
ndet_res.insert(bdd_l, form); ndet_res.insert(bdd_l, form);
@ -394,7 +571,7 @@ namespace spot
return ndet_res.result(); return ndet_res.result();
} }
expansion_type res; ExpansionBuilder res(d);
// TODO: extraire en fonction indépendante + lambda choix wrapper // TODO: extraire en fonction indépendante + lambda choix wrapper
std::vector<formula> dests; std::vector<formula> dests;
for (bdd l: minterms_of(or_labels, support)) for (bdd l: minterms_of(or_labels, support))
@ -415,13 +592,13 @@ namespace spot
case op::Fusion: case op::Fusion:
{ {
expansion_type res; ExpansionBuilder res(d);
formula E = f[0]; formula E = f[0];
formula F = f.all_but(0); formula F = f.all_but(0);
expansion_t Ei = expansion(E, d, owner); expansion_t Ei = expansion(E, d, owner, opts);
// TODO: std::option // TODO: std::option
expansion_t Fj = expansion(F, d, owner); expansion_t Fj = expansion(F, d, owner, opts);
for (const auto& [li, ei] : Ei) for (const auto& [li, ei] : Ei)
{ {
@ -440,10 +617,10 @@ namespace spot
case op::AndRat: case op::AndRat:
{ {
expansion_type res; ExpansionBuilder res(d);
for (const auto& sub_f : f) for (const auto& sub_f : f)
{ {
auto exps = expansion(sub_f, d, owner); auto exps = expansion(sub_f, d, owner, opts);
if (exps.empty()) if (exps.empty())
{ {
@ -456,12 +633,12 @@ namespace spot
if (res.empty()) if (res.empty())
{ {
res = expansion_type(std::move(exps)); res = ExpansionBuilder(std::move(exps), d);
res.finalize(); res.finalize();
continue; continue;
} }
expansion_type new_res; ExpansionBuilder new_res(d);
for (const auto& [l_key, l_val] : exps) for (const auto& [l_key, l_val] : exps)
{ {
for (const auto& [r_key, r_val] : res.result()) for (const auto& [r_key, r_val] : res.result())
@ -481,16 +658,16 @@ namespace spot
case op::OrRat: case op::OrRat:
{ {
expansion_type res; ExpansionBuilder res(d);
for (const auto& sub_f : f) for (const auto& sub_f : f)
{ {
auto exps = expansion(sub_f, d, owner); auto exps = expansion(sub_f, d, owner, opts);
if (exps.empty()) if (exps.empty())
continue; continue;
if (res.empty()) if (res.empty())
{ {
res = expansion_type(std::move(exps)); res = ExpansionBuilder(std::move(exps), d);
continue; continue;
} }
@ -509,18 +686,29 @@ namespace spot
SPOT_UNIMPLEMENTED(); SPOT_UNIMPLEMENTED();
} }
return {}; return {};
} }
expansion_t
expansion(formula f, const bdd_dict_ptr& d, void *owner, expansion_builder::expand_opt opts)
{
if (opts & expansion_builder::Basic)
return expansion_impl<expansion_basic>(f, d, owner, opts);
else if (opts & expansion_builder::MergeSuffix)
return expansion_impl<expansion_merge_formulas>(f, d, owner, opts);
else // expansion_builder::Bdd
return expansion_impl<expansion_bdd>(f, d, owner, opts);
}
twa_graph_ptr twa_graph_ptr
expand_automaton(formula f, bdd_dict_ptr d) expand_automaton(formula f, bdd_dict_ptr d, expansion_builder::expand_opt opts)
{ {
auto finite = expand_finite_automaton(f, d); auto finite = expand_finite_automaton(f, d, opts);
return from_finite(finite); return from_finite(finite);
} }
twa_graph_ptr twa_graph_ptr
expand_finite_automaton(formula f, bdd_dict_ptr d) expand_finite_automaton(formula f, bdd_dict_ptr d, expansion_builder::expand_opt opts)
{ {
auto aut = make_twa_graph(d); auto aut = make_twa_graph(d);
@ -575,7 +763,7 @@ namespace spot
? acc_mark ? acc_mark
: acc_cond::mark_t(); : acc_cond::mark_t();
auto exp = expansion(curr_f, d, aut.get()); auto exp = expansion(curr_f, d, aut.get(), opts);
for (const auto& [letter, suffix] : exp) for (const auto& [letter, suffix] : exp)
{ {

12
spot/tl/expansions.hh
View file

@ -42,17 +42,23 @@ namespace spot
virtual exp_map& result() = 0; virtual exp_map& result() = 0;
virtual bool empty() = 0; virtual bool empty() = 0;
virtual void clear() = 0; virtual void clear() = 0;
enum expand_opt {
Deterministic = 1,
Basic = 2,
MergeSuffix = 4,
Bdd = 8,
};
}; };
SPOT_API expansion_t SPOT_API expansion_t
expansion(formula f, const bdd_dict_ptr& d, void *owner); expansion(formula f, const bdd_dict_ptr& d, void *owner, expansion_builder::expand_opt opts);
SPOT_API formula SPOT_API formula
expansion_to_formula(expansion_t e, bdd_dict_ptr& d); expansion_to_formula(expansion_t e, bdd_dict_ptr& d);
SPOT_API twa_graph_ptr SPOT_API twa_graph_ptr
expand_automaton(formula f, bdd_dict_ptr d); expand_automaton(formula f, bdd_dict_ptr d, expansion_builder::expand_opt opts);
SPOT_API twa_graph_ptr SPOT_API twa_graph_ptr
expand_finite_automaton(formula f, bdd_dict_ptr d); expand_finite_automaton(formula f, bdd_dict_ptr d, expansion_builder::expand_opt opts);
} }