std::string current_prefix,
uint32_t& current_step_id)
{
- return "";
+ int step_id = current_step_id;
+ std::vector<std::string> current_assumptions;
+ const std::vector<Node>& args = pfn->getArguments();
+ std::unordered_map<Node, std::string> new_assumptions = assumptions;
+ std::unordered_map<Node, std::string> new_steps = steps;
+
+ // If the proof node is untranslated a problem might have occured during
+ // postprocessing
+ if (args.size() < 3 || pfn->getRule() != PfRule::ALETHE_RULE)
+ {
+ Trace("alethe-printer")
+ << "... printing failed! Encountered untranslated Node. "
+ << pfn->getResult() << " " << pfn->getRule() << " "
+ << " / " << args << std::endl;
+ return "";
+ }
+
+ // Get the alethe proof rule
+ AletheRule arule = getAletheRule(args[0]);
+
+ // In case the rule is an anchor it is printed before its children.
+ if (arule == AletheRule::ANCHOR_SUBPROOF || arule == AletheRule::ANCHOR_BIND)
+ {
+ // Look up if subproof has already been printed
+ auto it = steps.find(args[2]);
+ if (it != steps.end())
+ {
+ Trace("alethe-printer")
+ << "... subproof is already printed " << pfn->getResult() << " "
+ << arule << " / " << args << std::endl;
+ return it->second;
+ }
+
+ // Otherwise, print anchor
+ std::string current_t =
+ current_prefix + "t" + std::to_string(current_step_id);
+ Trace("alethe-printer")
+ << "... print anchor " << pfn->getResult() << " " << arule << " "
+ << " / " << args << std::endl;
+ out << "(anchor :step " << current_t;
+
+ // Append index of anchor to prefix so that all steps in the subproof use it
+ current_prefix.append("t" + std::to_string(current_step_id) + ".");
+
+ // Reset the current step id s.t. the numbering inside the subproof starts
+ // with 1
+ current_step_id = 1;
+
+ // If the subproof is a bind the arguments need to be printed as
+ // assignments, i.e. args=[(= v0 v1)] is printed as (:= (v0 Int) v1).
+ if (arule == AletheRule::ANCHOR_BIND)
+ {
+ out << " :args (";
+ for (size_t j = 3, size = args.size(); j < size; j++)
+ {
+ out << "(:= (" << args[j][0] << " " << args[j][0].getType() << ") "
+ << args[j][1] << ")" << (j != args.size() - 1 ? " " : "");
+ }
+ out << ")";
+ }
+ // In all other cases there are no arguments
+ out << ")\n";
+
+ // If the subproof is a genuine subproof the arguments are printed as
+ // assumptions. To be able to discharge the assumptions afterwards we need
+ // to store them.
+ if (arule == AletheRule::ANCHOR_SUBPROOF)
+ {
+ for (size_t i = 3, size = args.size(); i < size; i++)
+ {
+ std::string assumption_name =
+ current_prefix + "a" + std::to_string(i - 3);
+ Trace("alethe-printer")
+ << "... print assumption " << args[i] << std::endl;
+ out << "(assume " << assumption_name << " " << args[i] << ")\n";
+ new_assumptions[args[i]] = assumption_name;
+ current_assumptions.push_back(assumption_name);
+ }
+ }
+ }
+
+ // Assumptions are printed at the anchor and therefore have to be in the list
+ // of assumptions when an assume is reached.
+ else if (arule == AletheRule::ASSUME)
+ {
+ Trace("alethe-printer")
+ << "... reached assumption " << pfn->getResult() << " " << arule << " "
+ << " / " << args << " " << std::endl;
+
+ auto it = assumptions.find(args[2]);
+ if (it != assumptions.end())
+ {
+ Trace("alethe-printer") << "... found assumption in list "
+ << ": " << args[2] << "/" << assumptions
+ << " " << it->second << std::endl;
+ return it->second;
+ }
+
+ Trace("alethe-printer") << "... printing failed! Encountered assumption "
+ "that has not been printed! "
+ << args[2] << "/" << assumptions << std::endl;
+ return "";
+ }
+
+ // Print children
+ std::vector<std::string> child_prefixes;
+
+ const std::vector<std::shared_ptr<ProofNode>>& children = pfn->getChildren();
+ for (const std::shared_ptr<ProofNode>& child : children)
+ {
+ std::string child_prefix = printInternal(out,
+ child,
+ new_assumptions,
+ new_steps,
+ current_prefix,
+ current_step_id);
+ new_steps[args[2]] = child_prefix;
+ child_prefixes.push_back(child_prefix);
+ }
+
+ // If the rule is a subproof a final subproof step needs to be printed
+ if (arule == AletheRule::ANCHOR_SUBPROOF || arule == AletheRule::ANCHOR_BIND)
+ {
+ Trace("alethe-printer") << "... print anchor node " << pfn->getResult()
+ << " " << arule << " / " << args << std::endl;
+
+ current_prefix.pop_back();
+ out << "(step " << current_prefix << " " << args[2] << " :rule " << arule;
+
+ new_steps[args[2]] = current_prefix;
+
+ // Reset step id to the number before the subproof + 1
+ current_step_id = step_id + 1;
+
+ // Discharge assumptions in the case of subproof
+ // The assumptions of this level have been stored in current_assumptions
+ if (arule == AletheRule::ANCHOR_SUBPROOF)
+ {
+ out << " :discharge (";
+ for (size_t j = 0, size = current_assumptions.size(); j < size; j++)
+ {
+ out << current_assumptions[j]
+ << (j != current_assumptions.size() - 1 ? " " : "");
+ }
+ out << ")";
+ }
+ out << ")\n";
+ return current_prefix;
+ }
+
+ // If the current step is already printed return its id
+ auto it = new_steps.find(args[2]);
+ if (it != new_steps.end())
+ {
+ Trace("alethe-printer")
+ << "... step is already printed " << pfn->getResult() << " " << arule
+ << " / " << args << std::endl;
+ return it->second;
+ }
+
+ // Print current step
+ Trace("alethe-printer") << "... print node " << pfn->getResult() << " "
+ << arule << " / " << args << std::endl;
+ std::string current_t =
+ current_prefix + "t" + std::to_string(current_step_id);
+ out << "(step " << current_t << " " << args[2] << " :rule " << arule;
+ current_step_id++;
+ if (args.size() > 3)
+ {
+ out << " :args (";
+ for (size_t i = 3, size = args.size(); i < size; i++)
+ {
+ if (arule == AletheRule::FORALL_INST)
+ {
+ out << "(:= " << args[i][0] << " " << args[i][1] << ")";
+ }
+ else
+ {
+ out << args[i];
+ }
+ if (i != args.size() - 1)
+ {
+ out << " ";
+ }
+ }
+ out << ")";
+ }
+ if (pfn->getChildren().size() >= 1)
+ {
+ out << " :premises (";
+ for (size_t i = 0, size = child_prefixes.size(); i < size; i++)
+ {
+ out << child_prefixes[i] << (i != size - 1? " " : "");
+ }
+ out << "))\n";
+ }
+ else
+ {
+ out << ")\n";
+ }
+ return current_t;
}
} // namespace proof
projects / cvc5.git / commitdiff