From: Andrew Reynolds Date: Fri, 1 Oct 2021 13:58:14 +0000 (-0500) Subject: Add the print benchmark utility (#7196) X-Git-Tag: cvc5-1.0.0~1141 X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=971ae785a4789776e6fe36121c80b69162c2fd27;p=cvc5.git Add the print benchmark utility (#7196) This utility is capable of printing a vector of Node as a valid (SMT-LIB) benchmark with no prior bookkeeping. It also optionally allows for taking a vector Node corresponding to define-fun. It will be used to replace the old internal benchmark dumping infrastructure which was error prone. --- diff --git a/src/smt/print_benchmark.cpp b/src/smt/print_benchmark.cpp new file mode 100644 index 000000000..c1913e209 --- /dev/null +++ b/src/smt/print_benchmark.cpp @@ -0,0 +1,278 @@ +/****************************************************************************** + * Top contributors (to current version): + * Andrew Reynolds + * + * This file is part of the cvc5 project. + * + * Copyright (c) 2009-2021 by the authors listed in the file AUTHORS + * in the top-level source directory and their institutional affiliations. + * All rights reserved. See the file COPYING in the top-level source + * directory for licensing information. + * **************************************************************************** + * + * Print benchmark utility. + */ + +#include "smt/print_benchmark.h" + +#include "expr/dtype.h" +#include "expr/node_algorithm.h" +#include "printer/printer.h" + +using namespace cvc5::kind; + +namespace cvc5 { +namespace smt { + +void PrintBenchmark::printAssertions(std::ostream& out, + const std::vector& defs, + const std::vector& assertions) +{ + std::unordered_set types; + std::unordered_set typeVisited; + for (const Node& a : defs) + { + expr::getTypes(a, types, typeVisited); + } + for (const Node& a : assertions) + { + expr::getTypes(a, types, typeVisited); + } + // print the declared types first + std::unordered_set alreadyPrintedDeclSorts; + for (const TypeNode& st : types) + { + // note that we must get all "component types" of a type, so that + // e.g. U is printed as a sort declaration when we have type (Array U Int). + std::unordered_set ctypes; + expr::getComponentTypes(st, ctypes); + for (const TypeNode& stc : ctypes) + { + // get all connected datatypes to this one + std::vector connectedTypes; + getConnectedSubfieldTypes(stc, connectedTypes, alreadyPrintedDeclSorts); + // now, separate into sorts and datatypes + std::vector datatypeBlock; + for (const TypeNode& ctn : connectedTypes) + { + if (stc.isSort()) + { + d_printer->toStreamCmdDeclareType(out, stc); + } + else if (stc.isDatatype()) + { + datatypeBlock.push_back(ctn); + } + } + // print the mutually recursive datatype block if necessary + if (!datatypeBlock.empty()) + { + d_printer->toStreamCmdDatatypeDeclaration(out, datatypeBlock); + } + } + } + + // global visited cache for expr::getSymbols calls + std::unordered_set visited; + + // print the definitions + std::unordered_map> defMap; + std::vector defSyms; + // first, record all the defined symbols + for (const Node& a : defs) + { + bool isRec; + Node defSym; + Node defBody; + decomposeDefinition(a, isRec, defSym, defBody); + if (!defSym.isNull()) + { + Assert(defMap.find(defSym) == defMap.end()); + defMap[defSym] = std::pair(isRec, defBody); + defSyms.push_back(defSym); + } + } + // go back and print the definitions + std::unordered_set alreadyPrintedDecl; + std::unordered_set alreadyPrintedDef; + + std::unordered_map>::const_iterator itd; + for (const Node& s : defSyms) + { + std::vector recDefs; + std::vector ordinaryDefs; + std::unordered_set syms; + getConnectedDefinitions( + s, recDefs, ordinaryDefs, syms, defMap, alreadyPrintedDef, visited); + // print the declarations that are encountered for the first time in this + // block + printDeclaredFuns(out, syms, alreadyPrintedDecl); + // print the ordinary definitions + for (const Node& f : ordinaryDefs) + { + itd = defMap.find(f); + Assert(itd != defMap.end()); + Assert(!itd->second.first); + d_printer->toStreamCmdDefineFunction(out, f, itd->second.second); + // a definition is also a declaration + alreadyPrintedDecl.insert(f); + } + // print a recursive function definition block + if (!recDefs.empty()) + { + std::vector lambdas; + for (const Node& f : recDefs) + { + lambdas.push_back(defMap[f].second); + // a recursive definition is also a declaration + alreadyPrintedDecl.insert(f); + } + d_printer->toStreamCmdDefineFunctionRec(out, recDefs, lambdas); + } + } + + // print the remaining declared symbols + std::unordered_set syms; + for (const Node& a : assertions) + { + expr::getSymbols(a, syms, visited); + } + printDeclaredFuns(out, syms, alreadyPrintedDecl); + + // print the assertions + for (const Node& a : assertions) + { + d_printer->toStreamCmdAssert(out, a); + } +} +void PrintBenchmark::printAssertions(std::ostream& out, + const std::vector& assertions) +{ + std::vector defs; + printAssertions(out, defs, assertions); +} + +void PrintBenchmark::printDeclaredFuns(std::ostream& out, + const std::unordered_set& funs, + std::unordered_set& alreadyPrinted) +{ + for (const Node& f : funs) + { + Assert(f.isVar()); + if (alreadyPrinted.find(f) == alreadyPrinted.end()) + { + d_printer->toStreamCmdDeclareFunction(out, f); + } + } + alreadyPrinted.insert(funs.begin(), funs.end()); +} + +void PrintBenchmark::getConnectedSubfieldTypes( + TypeNode tn, + std::vector& connectedTypes, + std::unordered_set& processed) +{ + if (processed.find(tn) != processed.end()) + { + return; + } + processed.insert(tn); + if (tn.isSort()) + { + connectedTypes.push_back(tn); + } + else if (tn.isDatatype()) + { + connectedTypes.push_back(tn); + std::unordered_set subfieldTypes = + tn.getDType().getSubfieldTypes(); + for (const TypeNode& ctn : subfieldTypes) + { + getConnectedSubfieldTypes(ctn, connectedTypes, processed); + } + } +} + +void PrintBenchmark::getConnectedDefinitions( + Node n, + std::vector& recDefs, + std::vector& ordinaryDefs, + std::unordered_set& syms, + const std::unordered_map>& defMap, + std::unordered_set& processedDefs, + std::unordered_set& visited) +{ + // does it have a definition? + std::unordered_map>::const_iterator it = + defMap.find(n); + if (it == defMap.end()) + { + // an ordinary declared symbol + syms.insert(n); + return; + } + if (processedDefs.find(n) != processedDefs.end()) + { + return; + } + processedDefs.insert(n); + if (!it->second.first) + { + // an ordinary define-fun symbol + ordinaryDefs.push_back(n); + } + else + { + // a recursively defined symbol + recDefs.push_back(n); + // get the symbols in the body + std::unordered_set symsBody; + expr::getSymbols(it->second.second, symsBody, visited); + for (const Node& s : symsBody) + { + getConnectedDefinitions( + s, recDefs, ordinaryDefs, syms, defMap, processedDefs, visited); + } + } +} + +bool PrintBenchmark::decomposeDefinition(Node a, + bool& isRecDef, + Node& sym, + Node& body) +{ + if (a.getKind() == EQUAL && a[0].isVar()) + { + // an ordinary define-fun + isRecDef = false; + sym = a[0]; + body = a[1]; + return true; + } + else if (a.getKind() == FORALL && a[1].getKind() == EQUAL + && a[1][0].getKind() == APPLY_UF) + { + isRecDef = true; + sym = a[1][0].getOperator(); + body = NodeManager::currentNM()->mkNode(LAMBDA, a[0], a[1][1]); + return true; + } + else + { + Warning() << "Unhandled definition: " << a << std::endl; + } + return false; +} + +void PrintBenchmark::printBenchmark(std::ostream& out, + const std::string& logic, + const std::vector& defs, + const std::vector& assertions) +{ + d_printer->toStreamCmdSetBenchmarkLogic(out, logic); + printAssertions(out, defs, assertions); + d_printer->toStreamCmdCheckSat(out); +} + +} // namespace smt +} // namespace cvc5 diff --git a/src/smt/print_benchmark.h b/src/smt/print_benchmark.h new file mode 100644 index 000000000..387b3cccc --- /dev/null +++ b/src/smt/print_benchmark.h @@ -0,0 +1,137 @@ +/****************************************************************************** + * Top contributors (to current version): + * Andrew Reynolds + * + * This file is part of the cvc5 project. + * + * Copyright (c) 2009-2021 by the authors listed in the file AUTHORS + * in the top-level source directory and their institutional affiliations. + * All rights reserved. See the file COPYING in the top-level source + * directory for licensing information. + * **************************************************************************** + * + * Print benchmark utility. + */ + +#include "cvc5_private.h" + +#ifndef CVC5__SMT__PRINT_BENCHMARK_H +#define CVC5__SMT__PRINT_BENCHMARK_H + +#include +#include + +#include "expr/node.h" + +namespace cvc5 { + +class Printer; + +namespace smt { + +/** + * A utility for printing a benchmark. This utility requires no bookkeeping + * about which commands have been executed. It reconstructs the set of + * commands that would have been required for generating a benchmark based on + * a list of nodes. + */ +class PrintBenchmark +{ + public: + PrintBenchmark(const Printer* p) : d_printer(p) {} + /** + * Print assertions. This prints a parsable set of commands on the output + * stream out that defines (recursive) functions in defs, and asserts + * assertions. It does not print a set-logic or check-sat command. + * + * Each node in defs is either of the form: + * (1) (= s t), where s is a (non-recursively) defined function, where + * the term t may be a lambda if s has non-zero arity. + * (2) (forall V (= (s V) t)), where s is a recursively defined function. + */ + void printAssertions(std::ostream& out, + const std::vector& defs, + const std::vector& assertions); + /** + * Print assertions, without special handling of defined functions. + */ + void printAssertions(std::ostream& out, const std::vector& assertions); + + /** + * Print benchmark, which prints a parsable benchmark on the output stream + * out. It relies on the printAssertions method above, as well as printing + * the logic based on given string and a final check-sat command. + * + * For the best printing, defs should be given in the order in which + * the symbols were declared. If this is not the case, then we may e.g. + * group blocks of definitions that were not grouped in the input. + */ + void printBenchmark(std::ostream& out, + const std::string& logic, + const std::vector& defs, + const std::vector& assertions); + + private: + /** + * print declared symbols in funs but not processed; updates processed to + * include what was printed + */ + void printDeclaredFuns(std::ostream& out, + const std::unordered_set& funs, + std::unordered_set& processed); + /** + * Get the connected types. This traverses subfield types of datatypes and + * adds to connectedTypes everything that is necessary for printing tn. + * + * @param tn The type to traverse + * @param connectedTypes The types that tn depends on + * @param process The types we have already processed. We update this set + * with those added to connectedTypes. + */ + void getConnectedSubfieldTypes(TypeNode tn, + std::vector& connectedTypes, + std::unordered_set& processed); + /** + * Get connected definitions for symbol v. + * + * @param recDefs The recursive function definitions that v depends on + * @param ordinaryDefs The non-recursive definitions that v depends on + * @param syms The declared symbols that v depends on + * @param defMap Map from symbols to their definitions + * @param processedDefs The (recursive or non-recursive) definitions we have + * processed already. We update this with symbols we add to recDefs and + * ordinaryDefs. + * @param visited The set of terms we have already visited when searching for + * free symbols. This set is updated for the bodies of definitions processed + * in this call. + */ + void getConnectedDefinitions( + Node v, + std::vector& recDefs, + std::vector& ordinaryDefs, + std::unordered_set& syms, + const std::unordered_map>& defMap, + std::unordered_set& processedDefs, + std::unordered_set& visited); + /** + * Decompose definition assertion a. + * + * @param a The definition assertion + * @param isRecDef Updated to true if a is a recursive function definition (a + * quantified formula) + * @param sym Updated to the symbol that a defines + * @param body Update to the term that defines sym + * @return true if the definition was successfully inferred + */ + bool decomposeDefinition(Node a, bool& isRecDef, Node& sym, Node& body); + /** + * Pointer to the printer we are using, which is responsible for printing + * individual commands. + */ + const Printer* d_printer; +}; + +} // namespace smt +} // namespace cvc5 + +#endif /* CVC5__SMT__PRINT_BENCHMARK_H */