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food.patch
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420 lines (410 loc) · 25.4 KB
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--- MightyPPL_new_original.cpp 2025-11-16 21:36:51.513042869 +0000
+++ MightyPPL_new_food.cpp 2025-11-16 21:36:51.505042870 +0000
@@ -1730,14 +1730,201 @@
name = "M";
clocks.insert({0, "x0"}); // clock 0 is needed anyway
+ clocks.insert({1, "x"});
+
+ locations.push_back(monitaal::location_t(true, 0, "ell_0", empty_invariant));
+ locations.push_back(monitaal::location_t(true, 1, "ell_1", empty_invariant));
+ locations.push_back(monitaal::location_t(true, 2, "ell_2", empty_invariant));
+ locations.push_back(monitaal::location_t(true, 3, "ell_p", empty_invariant));
+ locations.push_back(monitaal::location_t(true, 4, "ell_b", empty_invariant));
+ locations.push_back(monitaal::location_t(true, 5, "ell_c", empty_invariant));
+
+
+ label = bdd_ithvar(nnf_formula->props.at("p_l0"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l1"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l2"))
+ & !bdd_ithvar(nnf_formula->props.at("p_p"))
+ & !bdd_ithvar(nnf_formula->props.at("p_b"))
+ & !bdd_ithvar(nnf_formula->props.at("p_c"));
+ reset.push_back(1);
+ guard.push_back(monitaal::constraint_t::lower_non_strict(1, 0));
+ bdd_edges.push_back(monitaal::bdd_edge_t(0, 0, guard, reset, label));
+ guard.clear();
+ reset.clear();
+
+ label = !bdd_ithvar(nnf_formula->props.at("p_l0"))
+ & bdd_ithvar(nnf_formula->props.at("p_l1"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l2"))
+ & !bdd_ithvar(nnf_formula->props.at("p_p"))
+ & !bdd_ithvar(nnf_formula->props.at("p_b"))
+ & !bdd_ithvar(nnf_formula->props.at("p_c"));
+ reset.push_back(1);
+ guard.push_back(monitaal::constraint_t::lower_non_strict(1, 0));
+ bdd_edges.push_back(monitaal::bdd_edge_t(1, 1, guard, reset, label));
+ guard.clear();
+ reset.clear();
+
+ label = !bdd_ithvar(nnf_formula->props.at("p_l0"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l1"))
+ & bdd_ithvar(nnf_formula->props.at("p_l2"))
+ & !bdd_ithvar(nnf_formula->props.at("p_p"))
+ & !bdd_ithvar(nnf_formula->props.at("p_b"))
+ & !bdd_ithvar(nnf_formula->props.at("p_c"));
+ reset.push_back(1);
+ guard.push_back(monitaal::constraint_t::lower_non_strict(1, 0));
+ bdd_edges.push_back(monitaal::bdd_edge_t(2, 2, guard, reset, label));
+ guard.clear();
+ reset.clear();
+
+ label = !bdd_ithvar(nnf_formula->props.at("p_l0"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l1"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l2"))
+ & bdd_ithvar(nnf_formula->props.at("p_p"))
+ & !bdd_ithvar(nnf_formula->props.at("p_b"))
+ & !bdd_ithvar(nnf_formula->props.at("p_c"));
+ reset.push_back(1);
+ guard.push_back(monitaal::constraint_t::lower_non_strict(1, 0));
+ bdd_edges.push_back(monitaal::bdd_edge_t(3, 3, guard, reset, label));
+ guard.clear();
+ reset.clear();
+
+ label = !bdd_ithvar(nnf_formula->props.at("p_l0"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l1"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l2"))
+ & !bdd_ithvar(nnf_formula->props.at("p_p"))
+ & bdd_ithvar(nnf_formula->props.at("p_b"))
+ & !bdd_ithvar(nnf_formula->props.at("p_c"));
+ reset.push_back(1);
+ guard.push_back(monitaal::constraint_t::lower_non_strict(1, 0));
+ bdd_edges.push_back(monitaal::bdd_edge_t(4, 4, guard, reset, label));
+ guard.clear();
+ reset.clear();
+
+ label = !bdd_ithvar(nnf_formula->props.at("p_l0"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l1"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l2"))
+ & !bdd_ithvar(nnf_formula->props.at("p_p"))
+ & !bdd_ithvar(nnf_formula->props.at("p_b"))
+ & bdd_ithvar(nnf_formula->props.at("p_c"));
+ reset.push_back(1);
+ guard.push_back(monitaal::constraint_t::lower_non_strict(1, 0));
+ bdd_edges.push_back(monitaal::bdd_edge_t(5, 5, guard, reset, label));
+ guard.clear();
+ reset.clear();
+
+
+
+ label = !bdd_ithvar(nnf_formula->props.at("p_l0"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l1"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l2"))
+ & bdd_ithvar(nnf_formula->props.at("p_p"))
+ & !bdd_ithvar(nnf_formula->props.at("p_b"))
+ & !bdd_ithvar(nnf_formula->props.at("p_c"));
+ reset.push_back(1);
+ guard.push_back(monitaal::constraint_t::lower_non_strict(1, 5));
+ bdd_edges.push_back(monitaal::bdd_edge_t(0, 3, guard, reset, label));
+ guard.clear();
+ reset.clear();
+
+ label = !bdd_ithvar(nnf_formula->props.at("p_l0"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l1"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l2"))
+ & !bdd_ithvar(nnf_formula->props.at("p_p"))
+ & bdd_ithvar(nnf_formula->props.at("p_b"))
+ & !bdd_ithvar(nnf_formula->props.at("p_c"));
+ reset.push_back(1);
+ guard.push_back(monitaal::constraint_t::lower_non_strict(1, 7));
+ bdd_edges.push_back(monitaal::bdd_edge_t(0, 4, guard, reset, label));
+ guard.clear();
+ reset.clear();
+
+ label = !bdd_ithvar(nnf_formula->props.at("p_l0"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l1"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l2"))
+ & !bdd_ithvar(nnf_formula->props.at("p_p"))
+ & bdd_ithvar(nnf_formula->props.at("p_b"))
+ & !bdd_ithvar(nnf_formula->props.at("p_c"));
+ reset.push_back(1);
+ guard.push_back(monitaal::constraint_t::lower_non_strict(1, 3));
+ bdd_edges.push_back(monitaal::bdd_edge_t(3, 4, guard, reset, label));
+ guard.clear();
+ reset.clear();
+
+ label = !bdd_ithvar(nnf_formula->props.at("p_l0"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l1"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l2"))
+ & !bdd_ithvar(nnf_formula->props.at("p_p"))
+ & !bdd_ithvar(nnf_formula->props.at("p_b"))
+ & bdd_ithvar(nnf_formula->props.at("p_c"));
+ reset.push_back(1);
+ guard.push_back(monitaal::constraint_t::lower_non_strict(1, 3));
+ bdd_edges.push_back(monitaal::bdd_edge_t(3, 5, guard, reset, label));
+ guard.clear();
+ reset.clear();
+
+ label = !bdd_ithvar(nnf_formula->props.at("p_l0"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l1"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l2"))
+ & !bdd_ithvar(nnf_formula->props.at("p_p"))
+ & !bdd_ithvar(nnf_formula->props.at("p_b"))
+ & bdd_ithvar(nnf_formula->props.at("p_c"));
+ reset.push_back(1);
+ guard.push_back(monitaal::constraint_t::lower_non_strict(1, 1));
+ bdd_edges.push_back(monitaal::bdd_edge_t(4, 5, guard, reset, label));
+ guard.clear();
+ reset.clear();
+
+ label = !bdd_ithvar(nnf_formula->props.at("p_l0"))
+ & bdd_ithvar(nnf_formula->props.at("p_l1"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l2"))
+ & !bdd_ithvar(nnf_formula->props.at("p_p"))
+ & !bdd_ithvar(nnf_formula->props.at("p_b"))
+ & !bdd_ithvar(nnf_formula->props.at("p_c"));
+ reset.push_back(1);
+ guard.push_back(monitaal::constraint_t::lower_non_strict(1, 2));
+ bdd_edges.push_back(monitaal::bdd_edge_t(4, 1, guard, reset, label));
+ guard.clear();
+ reset.clear();
+
+ label = !bdd_ithvar(nnf_formula->props.at("p_l0"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l1"))
+ & bdd_ithvar(nnf_formula->props.at("p_l2"))
+ & !bdd_ithvar(nnf_formula->props.at("p_p"))
+ & !bdd_ithvar(nnf_formula->props.at("p_b"))
+ & !bdd_ithvar(nnf_formula->props.at("p_c"));
+ reset.push_back(1);
+ guard.push_back(monitaal::constraint_t::lower_non_strict(1, 3));
+ bdd_edges.push_back(monitaal::bdd_edge_t(5, 2, guard, reset, label));
+ guard.clear();
+ reset.clear();
+
+ label = !bdd_ithvar(nnf_formula->props.at("p_l0"))
+ & bdd_ithvar(nnf_formula->props.at("p_l1"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l2"))
+ & !bdd_ithvar(nnf_formula->props.at("p_p"))
+ & !bdd_ithvar(nnf_formula->props.at("p_b"))
+ & !bdd_ithvar(nnf_formula->props.at("p_c"));
+ reset.push_back(1);
+ guard.push_back(monitaal::constraint_t::lower_non_strict(1, 1));
+ bdd_edges.push_back(monitaal::bdd_edge_t(2, 1, guard, reset, label));
+ guard.clear();
+ reset.clear();
+
+ label = bdd_ithvar(nnf_formula->props.at("p_l0"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l1"))
+ & !bdd_ithvar(nnf_formula->props.at("p_l2"))
+ & !bdd_ithvar(nnf_formula->props.at("p_p"))
+ & !bdd_ithvar(nnf_formula->props.at("p_b"))
+ & !bdd_ithvar(nnf_formula->props.at("p_c"));
+ reset.push_back(1);
+ guard.push_back(monitaal::constraint_t::lower_non_strict(1, 3));
+ bdd_edges.push_back(monitaal::bdd_edge_t(1, 0, guard, reset, label));
+ guard.clear();
+ reset.clear();
- locations.push_back(monitaal::location_t(true, 0, "s0", empty_invariant));
- // 0 -> 0, true
- label = bdd_true();
- bdd_edges.push_back(monitaal::bdd_edge_t(0, 0, guard, reset, label));
model = monitaal::TAwithBDDEdges(name, clocks, locations, bdd_edges, 0); // last arg: initial location id
clocks.clear();
@@ -1751,15 +1938,210 @@
out_str << std::endl << std::endl;
out_str << "# " << "M" << std::endl;
out_str << "process:" << "M" << std::endl;
+ out_str << "clock:1:x" << std::endl; // for timed lamp
out_str << "location:" << "M" << ":ell_0{initial: : labels: accept_M}" << std::endl;
+ out_str << "location:" << "M" << ":ell_1{labels: accept_M}" << std::endl;
+ out_str << "location:" << "M" << ":ell_2{labels: accept_M}" << std::endl;
+ out_str << "location:" << "M" << ":ell_p{labels: accept_M}" << std::endl;
+ out_str << "location:" << "M" << ":ell_b{labels: accept_M}" << std::endl;
+ out_str << "location:" << "M" << ":ell_c{labels: accept_M}" << std::endl;
+
+ out_str << "edge:" << "M" << ":ell_0:ell_0:a{provided: g == 0 && turn == " << components_counter
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l0")) << " >= 1"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l1")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l2")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_p")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_b")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_c")) << " % 2 == 0"
+ << " && x >= 0 : do: turn = 0; x = 0; ";
+ for (auto i = 0; i < num_all_props; ++i) {
+ out_str << "p_" << i + 1 << " = 2" << (i == num_all_props - 1 ? "" : "; ");
+ }
+ out_str << "}" << std::endl;
+
+ out_str << "edge:" << "M" << ":ell_1:ell_1:a{provided: g == 0 && turn == " << components_counter
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l0")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l1")) << " >= 1"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l2")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_p")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_b")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_c")) << " % 2 == 0"
+ << " && x >= 0 : do: turn = 0; x = 0; ";
+ for (auto i = 0; i < num_all_props; ++i) {
+ out_str << "p_" << i + 1 << " = 2" << (i == num_all_props - 1 ? "" : "; ");
+ }
+ out_str << "}" << std::endl;
+
+ out_str << "edge:" << "M" << ":ell_2:ell_2:a{provided: g == 0 && turn == " << components_counter
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l0")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l1")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l2")) << " >= 1"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_p")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_b")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_c")) << " % 2 == 0"
+ << " && x >= 0 : do: turn = 0; x = 0; ";
+ for (auto i = 0; i < num_all_props; ++i) {
+ out_str << "p_" << i + 1 << " = 2" << (i == num_all_props - 1 ? "" : "; ");
+ }
+ out_str << "}" << std::endl;
+ out_str << "edge:" << "M" << ":ell_p:ell_p:a{provided: g == 0 && turn == " << components_counter
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l0")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l1")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l2")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_p")) << " >= 1"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_b")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_c")) << " % 2 == 0"
+ << " && x >= 0 : do: turn = 0; x = 0; ";
+ for (auto i = 0; i < num_all_props; ++i) {
+ out_str << "p_" << i + 1 << " = 2" << (i == num_all_props - 1 ? "" : "; ");
+ }
+ out_str << "}" << std::endl;
+ out_str << "edge:" << "M" << ":ell_b:ell_b:a{provided: g == 0 && turn == " << components_counter
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l0")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l1")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l2")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_p")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_b")) << " >= 1"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_c")) << " % 2 == 0"
+ << " && x >= 0 : do: turn = 0; x = 0; ";
+ for (auto i = 0; i < num_all_props; ++i) {
+ out_str << "p_" << i + 1 << " = 2" << (i == num_all_props - 1 ? "" : "; ");
+ }
+ out_str << "}" << std::endl;
+
+ out_str << "edge:" << "M" << ":ell_c:ell_c:a{provided: g == 0 && turn == " << components_counter
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l0")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l1")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l2")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_p")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_b")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_c")) << " >= 1"
+ << " && x >= 0 : do: turn = 0; x = 0; ";
+ for (auto i = 0; i < num_all_props; ++i) {
+ out_str << "p_" << i + 1 << " = 2" << (i == num_all_props - 1 ? "" : "; ");
+ }
+ out_str << "}" << std::endl;
+
+
+ out_str << "edge:" << "M" << ":ell_0:ell_p:a{provided: g == 0 && turn == " << components_counter
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l0")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l1")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l2")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_p")) << " >= 1"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_b")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_c")) << " % 2 == 0"
+ << " && x >= 5 : do: turn = 0; x = 0; ";
+ for (auto i = 0; i < num_all_props; ++i) {
+ out_str << "p_" << i + 1 << " = 2" << (i == num_all_props - 1 ? "" : "; ");
+ }
+ out_str << "}" << std::endl;
- out_str << "edge:" << "M" << ":ell_0:ell_0:a{provided: g == 0 && turn == " << components_counter << " : do: turn = 0; ";
+ out_str << "edge:" << "M" << ":ell_0:ell_b:a{provided: g == 0 && turn == " << components_counter
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l0")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l1")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l2")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_p")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_b")) << " >= 1"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_c")) << " % 2 == 0"
+ << " && x >= 7 : do: turn = 0; x = 0; ";
for (auto i = 0; i < num_all_props; ++i) {
out_str << "p_" << i + 1 << " = 2" << (i == num_all_props - 1 ? "" : "; ");
}
out_str << "}" << std::endl;
+ out_str << "edge:" << "M" << ":ell_p:ell_b:a{provided: g == 0 && turn == " << components_counter
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l0")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l1")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l2")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_p")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_b")) << " >= 1"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_c")) << " % 2 == 0"
+ << " && x >= 3 : do: turn = 0; x = 0; ";
+ for (auto i = 0; i < num_all_props; ++i) {
+ out_str << "p_" << i + 1 << " = 2" << (i == num_all_props - 1 ? "" : "; ");
+ }
+ out_str << "}" << std::endl;
+
+ out_str << "edge:" << "M" << ":ell_p:ell_c:a{provided: g == 0 && turn == " << components_counter
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l0")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l1")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l2")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_p")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_b")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_c")) << " >= 1"
+ << " && x >= 3 : do: turn = 0; x = 0; ";
+ for (auto i = 0; i < num_all_props; ++i) {
+ out_str << "p_" << i + 1 << " = 2" << (i == num_all_props - 1 ? "" : "; ");
+ }
+ out_str << "}" << std::endl;
+
+ out_str << "edge:" << "M" << ":ell_b:ell_c:a{provided: g == 0 && turn == " << components_counter
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l0")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l1")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l2")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_p")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_b")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_c")) << " >= 1"
+ << " && x >= 1 : do: turn = 0; x = 0; ";
+ for (auto i = 0; i < num_all_props; ++i) {
+ out_str << "p_" << i + 1 << " = 2" << (i == num_all_props - 1 ? "" : "; ");
+ }
+ out_str << "}" << std::endl;
+
+ out_str << "edge:" << "M" << ":ell_b:ell_1:a{provided: g == 0 && turn == " << components_counter
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l0")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l1")) << " >= 1"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l2")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_p")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_b")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_c")) << " % 2 == 0"
+ << " && x >= 2 : do: turn = 0; x = 0; ";
+ for (auto i = 0; i < num_all_props; ++i) {
+ out_str << "p_" << i + 1 << " = 2" << (i == num_all_props - 1 ? "" : "; ");
+ }
+ out_str << "}" << std::endl;
+
+ out_str << "edge:" << "M" << ":ell_c:ell_2:a{provided: g == 0 && turn == " << components_counter
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l0")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l1")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l2")) << " >= 1"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_p")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_b")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_c")) << " % 2 == 0"
+ << " && x >= 3 : do: turn = 0; x = 0; ";
+ for (auto i = 0; i < num_all_props; ++i) {
+ out_str << "p_" << i + 1 << " = 2" << (i == num_all_props - 1 ? "" : "; ");
+ }
+ out_str << "}" << std::endl;
+
+ out_str << "edge:" << "M" << ":ell_2:ell_1:a{provided: g == 0 && turn == " << components_counter
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l0")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l1")) << " >= 1"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l2")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_p")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_b")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_c")) << " % 2 == 0"
+ << " && x >= 1 : do: turn = 0; x = 0; ";
+ for (auto i = 0; i < num_all_props; ++i) {
+ out_str << "p_" << i + 1 << " = 2" << (i == num_all_props - 1 ? "" : "; ");
+ }
+ out_str << "}" << std::endl;
+
+ out_str << "edge:" << "M" << ":ell_1:ell_0:a{provided: g == 0 && turn == " << components_counter
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l0")) << " >= 1"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l1")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_l2")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_p")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_b")) << " % 2 == 0"
+ << " && p_" << std::to_string(nnf_formula->props.at("p_c")) << " % 2 == 0"
+ << " && x >= 3 : do: turn = 0; x = 0; ";
+ for (auto i = 0; i < num_all_props; ++i) {
+ out_str << "p_" << i + 1 << " = 2" << (i == num_all_props - 1 ? "" : "; ");
+ }
+ out_str << "}" << std::endl;
+
+
} else {
out_str << "\t<template>" << std::endl;