@Override public IResponse execute(ISolver solver) { SMT.Configuration smtConfig = solver.smt(); if (!(solver instanceof Solver_test)) { return smtConfig.responseFactory.error( "This kind of solver (" + solver.getClass() + ") is not able to execute a what command", null); } IPrinter printer = smtConfig.defaultPrinter; SymbolTable symTable = ((Solver_test) solver).symTable; Iterator<IIdentifier> iter = ids().iterator(); if (!iter.hasNext()) { // No arguments - print everything in the symbol table SymbolTable.Iterator symiter = symTable.iterator(); while (symiter.hasNext()) { SymbolTable.Entry n = symiter.next(); smtConfig.log.logOut(printer.toString(n.name) + " : " + printer.toString(n.sort)); } } else { while (iter.hasNext()) { IIdentifier s = iter.next(); ISort.IDefinition sortDef = symTable.lookupSort(s); if (sortDef != null) smtConfig.log.logOut(printer.toString(s) + " : " + printer.toString(sortDef)); else { Map<Integer, List<SymbolTable.Entry>> map = symTable.lookup(s); if (map != null && map.size() != 0) { for (List<SymbolTable.Entry> entrylist : map.values()) { for (SymbolTable.Entry entry : entrylist) { smtConfig.log.logOut(printer.toString(s) + " : " + printer.toString(entry.sort)); } } } else { smtConfig.log.logOut(printer.toString(s) + " : -no entry- "); } } } } return smtConfig.responseFactory.success(); }
@Override public IResponse execute(ISolver solver) { return solver.declare_fun(this); }
@Override public IResponse execute(ISolver solver) { return solver.assertExpr(formula); }