org.eclipse.efm.symbex/cmake/cvc4-1.4-patch/options/options_template.cpp - gerrit/efm/org.eclipse.efm-symbex - Git at Google

 /*********************                                                        */
 /*! \file options_template.cpp
  ** \verbatim
  ** Original author: Morgan Deters
  ** Major contributors: none
  ** Minor contributors (to current version): Kshitij Bansal
  ** This file is part of the CVC4 project.
  ** Copyright (c) 2009-2014  New York University and The University of Iowa
  ** See the file COPYING in the top-level source directory for licensing
  ** information.\endverbatim
  **
  ** \brief Contains code for handling command-line options.
  **
  ** Contains code for handling command-line options
  **/

 #if !defined(_BSD_SOURCE) && defined(__MINGW32__) && !defined(__MINGW64__)
 // force use of optreset; mingw32 croaks on argv-switching otherwise
 #  include "cvc4autoconfig.h"
 #  define _BSD_SOURCE
 #  undef HAVE_DECL_OPTRESET
 #  define HAVE_DECL_OPTRESET 1
 #  define CVC4_IS_NOT_REALLY_BSD
 #endif /* !_BSD_SOURCE && __MINGW32__ && !__MINGW64__ */

 #ifdef __MINGW64__
 #define _BSD_SOURCE // Needed to avoid 'optreset' error at link
 extern int optreset;
 #endif /* __MINGW64__ */

 #include <getopt.h>

 // clean up
 #ifdef CVC4_IS_NOT_REALLY_BSD
 #  undef _BSD_SOURCE
 #endif /* CVC4_IS_NOT_REALLY_BSD */

 #include <cstdio>
 #include <cstdlib>
 #include <new>
 #include <string>
 #include <sstream>
 #include <limits>
 #include <unistd.h>
 #include <string.h>
 #include <stdint.h>
 #include <time.h>

 #include "expr/expr.h"
 #include "util/configuration.h"
 #include "util/didyoumean.h"
 #include "util/exception.h"
 #include "util/language.h"
 #include "util/tls.h"

 ${include_all_option_headers}

 #line 58 "${template}"

 #include "util/output.h"
 #include "options/options_holder.h"
 #include "cvc4autoconfig.h"
 #include "options/base_options_handlers.h"

 ${option_handler_includes}

 #line 67 "${template}"

 using namespace CVC4;
 using namespace CVC4::options;

 namespace CVC4 {

 CVC4_THREADLOCAL(Options*) Options::s_current = NULL;

 /**
  * This is a default handler for options of built-in C++ type.  This
  * template is really just a helper for the handleOption() template,
  * below.  Variants of this template handle numeric and non-numeric,
  * integral and non-integral, signed and unsigned C++ types.
  * handleOption() makes sure to instantiate the right one.
  *
  * This implements default behavior when e.g. an option is
  * unsigned but the user specifies a negative argument; etc.
  */
 template <class T, bool is_numeric, bool is_integer>
 struct OptionHandler {
   static T handle(std::string option, std::string optionarg);
 };/* struct OptionHandler<> */

 /** Variant for integral C++ types */
 template <class T>
 struct OptionHandler<T, true, true> {
   static T handle(std::string option, std::string optionarg) {
     try {
       Integer i(optionarg, 10);

       if(! std::numeric_limits<T>::is_signed && i < 0) {
         // unsigned type but user gave negative argument
         throw OptionException(option + " requires a nonnegative argument");
       } else if(i < std::numeric_limits<T>::min()) {
         // negative overflow for type
         std::stringstream ss;
         ss << option << " requires an argument >= " << std::numeric_limits<T>::min();
         throw OptionException(ss.str());
       } else if(i > std::numeric_limits<T>::max()) {
         // positive overflow for type
         std::stringstream ss;
         ss << option << " requires an argument <= " << std::numeric_limits<T>::max();
         throw OptionException(ss.str());
       }

       if(std::numeric_limits<T>::is_signed) {
         return T(i.getLong());
       } else {
         return T(i.getUnsignedLong());
       }
     } catch(std::invalid_argument&) {
       // user gave something other than an integer
       throw OptionException(option + " requires an integer argument");
     }
   }
 };/* struct OptionHandler<T, true, true> */

 /** Variant for numeric but non-integral C++ types */
 template <class T>
 struct OptionHandler<T, true, false> {
   static T handle(std::string option, std::string optionarg) {
     std::stringstream in(optionarg);
     long double r;
     in >> r;
     if(! in.eof()) {
       // we didn't consume the whole string (junk at end)
       throw OptionException(option + " requires a numeric argument");
     }

     if(! std::numeric_limits<T>::is_signed && r < 0.0) {
       // unsigned type but user gave negative value
       throw OptionException(option + " requires a nonnegative argument");
     } else if(r < -std::numeric_limits<T>::max()) {
       // negative overflow for type
       std::stringstream ss;
       ss << option << " requires an argument >= " << -std::numeric_limits<T>::max();
       throw OptionException(ss.str());
     } else if(r > std::numeric_limits<T>::max()) {
       // positive overflow for type
       std::stringstream ss;
       ss << option << " requires an argument <= " << std::numeric_limits<T>::max();
       throw OptionException(ss.str());
     }

     return T(r);
   }
 };/* struct OptionHandler<T, true, false> */

 /** Variant for non-numeric C++ types */
 template <class T>
 struct OptionHandler<T, false, false> {
   static T handle(std::string option, std::string optionarg) {
     T::unsupported_handleOption_call___please_write_me;
     // The above line causes a compiler error if this version of the template
     // is ever instantiated (meaning that a specialization is missing).  So
     // don't worry about the segfault in the next line, the "return" is only
     // there to keep the compiler from giving additional, distracting errors
     // and warnings.
     return *(T*)0;
   }
 };/* struct OptionHandler<T, false, false> */

 /** Handle an option of type T in the default way. */
 template <class T>
 T handleOption(std::string option, std::string optionarg) {
   return OptionHandler<T, std::numeric_limits<T>::is_specialized, std::numeric_limits<T>::is_integer>::handle(option, optionarg);
 }

 /** Handle an option of type std::string in the default way. */
 template <>
 std::string handleOption<std::string>(std::string option, std::string optionarg) {
   return optionarg;
 }

 /**
  * Run handler, and any user-given predicates, for option T.
  * If a user specifies a :handler or :predicates, it overrides this.
  */
 template <class T>
 typename T::type runHandlerAndPredicates(T, std::string option, std::string optionarg, SmtEngine* smt) {
   // By default, parse the option argument in a way appropriate for its type.
   // E.g., for "unsigned int" options, ensure that the provided argument is
   // a nonnegative integer that fits in the unsigned int type.

   return handleOption<typename T::type>(option, optionarg);
 }

 template <class T>
 void runBoolPredicates(T, std::string option, bool b, SmtEngine* smt) {
   // By default, nothing to do for bool.  Users add things with
   // :predicate in options files to provide custom checking routines
   // that can throw exceptions.
 }

 ${all_custom_handlers}

 #line 204 "${template}"

 #ifdef CVC4_DEBUG
 #  define USE_EARLY_TYPE_CHECKING_BY_DEFAULT true
 #else /* CVC4_DEBUG */
 #  define USE_EARLY_TYPE_CHECKING_BY_DEFAULT false
 #endif /* CVC4_DEBUG */

 #if defined(CVC4_MUZZLED) || defined(CVC4_COMPETITION_MODE)
 #  define DO_SEMANTIC_CHECKS_BY_DEFAULT false
 #else /* CVC4_MUZZLED || CVC4_COMPETITION_MODE */
 #  define DO_SEMANTIC_CHECKS_BY_DEFAULT true
 #endif /* CVC4_MUZZLED || CVC4_COMPETITION_MODE */

 Options::Options() :
   d_holder(new options::OptionsHolder()) {
 }

 Options::Options(const Options& options) :
   d_holder(new options::OptionsHolder(*options.d_holder)) {
 }

 Options::~Options() {
   delete d_holder;
 }

 options::OptionsHolder::OptionsHolder() : ${all_modules_defaults}
 {
 }

 #line 234 "${template}"

 static const std::string mostCommonOptionsDescription = "\
 Most commonly-used CVC4 options:${common_documentation}";

 #line 239 "${template}"

 static const std::string optionsDescription = mostCommonOptionsDescription + "\n\
 \n\
 Additional CVC4 options:${remaining_documentation}";

 #line 245 "${template}"

 static const std::string optionsFootnote = "\n\
 [*] Each of these options has a --no-OPTIONNAME variant, which reverses the\n\
     sense of the option.\n\
 ";

 static const std::string languageDescription = "\
 Languages currently supported as arguments to the -L / --lang option:\n\
   auto                           attempt to automatically determine language\n\
   cvc4 | presentation | pl       CVC4 presentation language\n\
   smt1 | smtlib1                 SMT-LIB format 1.2\n\
   smt | smtlib | smt2 | smtlib2  SMT-LIB format 2.0\n\
   tptp                           TPTP format (cnf and fof)\n\
 \n\
 Languages currently supported as arguments to the --output-lang option:\n\
   auto                           match output language to input language\n\
   cvc4 | presentation | pl       CVC4 presentation language\n\
   cvc3                           CVC3 presentation language\n\
   smt1 | smtlib1                 SMT-LIB format 1.2\n\
   smt | smtlib | smt2 | smtlib2  SMT-LIB format 2.0\n\
   z3str                          SMT-LIB 2.0 with Z3-str string constraints\n\
   tptp                           TPTP format\n\
   ast                            internal format (simple syntax trees)\n\
 ";

 std::string Options::getDescription() const {
   return optionsDescription;
 }

 void Options::printUsage(const std::string msg, std::ostream& out) {
   out << msg << optionsDescription << std::endl
       << optionsFootnote << std::endl << std::flush;
 }

 void Options::printShortUsage(const std::string msg, std::ostream& out) {
   out << msg << mostCommonOptionsDescription << std::endl
       << optionsFootnote << std::endl
       << "For full usage, please use --help." << std::endl << std::endl << std::flush;
 }

 void Options::printLanguageHelp(std::ostream& out) {
   out << languageDescription << std::flush;
 }

 /**
  * This is a table of long options.  By policy, each short option
  * should have an equivalent long option (but the reverse isn't the
  * case), so this table should thus contain all command-line options.
  *
  * Each option in this array has four elements:
  *
  * 1. the long option string
  * 2. argument behavior for the option:
  *    no_argument - no argument permitted
  *    required_argument - an argument is expected
  *    optional_argument - an argument is permitted but not required
  * 3. this is a pointer to an int which is set to the 4th entry of the
  *    array if the option is present; or NULL, in which case
  *    getopt_long() returns the 4th entry
  * 4. the return value for getopt_long() when this long option (or the
  *    value to set the 3rd entry to; see #3)
  *
  * If you add something here, you should add it in src/main/usage.h
  * also, to document it.
  *
  * If you add something that has a short option equivalent, you should
  * add it to the getopt_long() call in parseOptions().
  */
 static struct option cmdlineOptions[] = {${all_modules_long_options}
   { NULL, no_argument, NULL, '\0' }
 };/* cmdlineOptions */

 #line 318 "${template}"

 static void preemptGetopt(int& argc, char**& argv, const char* opt) {
   const size_t maxoptlen = 128;

   Debug("preemptGetopt") << "preempting getopt() with " << opt << std::endl;

   AlwaysAssert(opt != NULL && *opt != '\0');
   AlwaysAssert(strlen(opt) <= maxoptlen);

   ++argc;
   unsigned i = 1;
   while(argv[i] != NULL && argv[i][0] != '\0') {
     ++i;
   }

   if(argv[i] == NULL) {
     argv = (char**) realloc(argv, (i + 6) * sizeof(char*));
     for(unsigned j = i; j < i + 5; ++j) {
       argv[j] = (char*) malloc(sizeof(char) * maxoptlen);
       argv[j][0] = '\0';
     }
     argv[i + 5] = NULL;
   }

   strncpy(argv[i], opt, maxoptlen - 1);
   argv[i][maxoptlen - 1] = '\0'; // ensure NUL-termination even on overflow
 }

 namespace options {

 /** Set a given Options* as "current" just for a particular scope. */
 class OptionsGuard {
   CVC4_THREADLOCAL_TYPE(Options*)* d_field;
   Options* d_old;
 public:
   OptionsGuard(CVC4_THREADLOCAL_TYPE(Options*)* field, Options* opts) :
     d_field(field),
     d_old(*field) {
     *field = opts;
   }
   ~OptionsGuard() {
     *d_field = d_old;
   }
 };/* class OptionsGuard */

 }/* CVC4::options namespace */

 /**
  * Parse argc/argv and put the result into a CVC4::Options.
  * The return value is what's left of the command line (that is, the
  * non-option arguments).
  */
 std::vector<std::string> Options::parseOptions(int argc, char* main_argv[]) throw(OptionException) {
   options::OptionsGuard guard(&s_current, this);

   const char *progName = main_argv[0];
   SmtEngine* const smt = NULL;

   Debug("options") << "main_argv == " << main_argv << std::endl;

   // Reset getopt(), in the case of multiple calls to parseOptions().
   // This can be = 1 in newer GNU getopt, but older (< 2007) require = 0.
   optind = 0;
 #if HAVE_DECL_OPTRESET
   optreset = 1; // on BSD getopt() (e.g. Mac OS), might need this
 #endif /* HAVE_DECL_OPTRESET */

   // find the base name of the program
   const char *x = strrchr(progName, '/');
   if(x != NULL) {
     progName = x + 1;
   }
   d_holder->binary_name = std::string(progName);

   int extra_argc = 1;
   char **extra_argv = (char**) malloc(2 * sizeof(char*));
   extra_argv[0] = NULL;
   extra_argv[1] = NULL;

   int extra_optind = 0, main_optind = 0;
   int old_optind;
   int *optind_ref = &main_optind;

   char** argv = main_argv;

   std::vector<std::string> nonOptions;

   for(;;) {
     int c = -1;
     optopt = 0;
     std::string option, optionarg;
     Debug("preemptGetopt") << "top of loop, extra_optind == " << extra_optind << ", extra_argc == " << extra_argc << std::endl;
     if((extra_optind == 0 ? 1 : extra_optind) < extra_argc) {
 #if HAVE_DECL_OPTRESET
       if(optind_ref != &extra_optind) {
         optreset = 1; // on BSD getopt() (e.g. Mac OS), might need this
       }
 #endif /* HAVE_DECL_OPTRESET */
       old_optind = optind = extra_optind;
       optind_ref = &extra_optind;
       argv = extra_argv;
       Debug("preemptGetopt") << "in preempt code, next arg is " << extra_argv[optind == 0 ? 1 : optind] << std::endl;
       if(extra_argv[extra_optind == 0 ? 1 : extra_optind][0] != '-') {
         InternalError("preempted args cannot give non-options command-line args (found `%s')", extra_argv[extra_optind == 0 ? 1 : extra_optind]);
       }
       c = getopt_long(extra_argc, extra_argv,
                       "+:${all_modules_short_options}",
                       cmdlineOptions, NULL);
       Debug("preemptGetopt") << "in preempt code, c == " << c << " (`" << char(c) << "') optind == " << optind << std::endl;
       if(optopt == 0 ||
          ( optopt >= ${long_option_value_begin} && optopt <= ${long_option_value_end} )) {
         // long option
         option = argv[old_optind == 0 ? 1 : old_optind];
         optionarg = (optarg == NULL) ? "" : optarg;
       } else {
         // short option
         option = std::string("-") + char(optopt);
         optionarg = (optarg == NULL) ? "" : optarg;
       }
       if(optind >= extra_argc) {
         Debug("preemptGetopt") << "-- no more preempt args" << std::endl;
         unsigned i = 1;
         while(extra_argv[i] != NULL && extra_argv[i][0] != '\0') {
           extra_argv[i][0] = '\0';
           ++i;
         }
         extra_argc = 1;
         extra_optind = 0;
       } else {
         Debug("preemptGetopt") << "-- more preempt args" << std::endl;
         extra_optind = optind;
       }
     }
     if(c == -1) {
 #if HAVE_DECL_OPTRESET
       if(optind_ref != &main_optind) {
         optreset = 1; // on BSD getopt() (e.g. Mac OS), might need this
       }
 #endif /* HAVE_DECL_OPTRESET */
       old_optind = optind = main_optind;
       optind_ref = &main_optind;
       argv = main_argv;
       if(main_optind < argc && main_argv[main_optind][0] != '-') {
         do {
           if(main_optind != 0) {
             nonOptions.push_back(main_argv[main_optind]);
           }
           ++main_optind;
         } while(main_optind < argc && main_argv[main_optind][0] != '-');
         continue;
       }
       Debug("options") << "[ before, optind == " << optind << " ]" << std::endl;
 #if defined(__MINGW32__) || defined(__MINGW64__)
       if(optreset == 1 && optind > 1) {
         // on mingw, optreset will reset the optind, so we have to
         // manually advance argc, argv
         main_argv[optind - 1] = main_argv[0];
         argv = main_argv += optind - 1;
         argc -= optind - 1;
         old_optind = optind = main_optind = 1;
         if(argc > 0) {
           Debug("options") << "looking at : " << argv[0] << std::endl;
         }
         /*c = getopt_long(argc, main_argv,
                         "+:${all_modules_short_options}",
                         cmdlineOptions, NULL);
         Debug("options") << "pre-emptory c is " << c << " (" << char(c) << ")" << std::endl;
         Debug("options") << "optind was reset to " << optind << std::endl;
         optind = main_optind;
         Debug("options") << "I restored optind to " << optind << std::endl;*/
       }
 #endif /* __MINGW32__ || __MINGW64__ */
       Debug("options") << "[ argc == " << argc << ", main_argv == " << main_argv << " ]" << std::endl;
       c = getopt_long(argc, main_argv,
                       "+:${all_modules_short_options}",
                       cmdlineOptions, NULL);
       main_optind = optind;
       Debug("options") << "[ got " << int(c) << " (" << char(c) << ") ]" << std::endl;
       Debug("options") << "[ next option will be at pos: " << optind << " ]" << std::endl;
       if(c == -1) {
         Debug("options") << "done with option parsing" << std::endl;
         break;
       }
       option = argv[old_optind == 0 ? 1 : old_optind];
       optionarg = (optarg == NULL) ? "" : optarg;
     }

     Debug("preemptGetopt") << "processing option " << c << " (`" << char(c) << "'), " << option << std::endl;

     switch(c) {
 ${all_modules_option_handlers}

 #line 511 "${template}"

     case ':':
       // This can be a long or short option, and the way to get at the
       // name of it is different.
       throw OptionException(std::string("option `") + option + "' missing its required argument");

     case '?':
     default:
       if( ( optopt == 0 || ( optopt >= ${long_option_value_begin} && optopt <= ${long_option_value_end} ) ) &&
           !strncmp(argv[optind - 1], "--thread", 8) &&
           strlen(argv[optind - 1]) > 8 ) {
         if(! isdigit(argv[optind - 1][8])) {
           throw OptionException(std::string("can't understand option `") + option + "': expected something like --threadN=\"--option1 --option2\", where N is a nonnegative integer");
         }
         std::vector<std::string>& threadArgv = d_holder->threadArgv;
         char *end;
         long tnum = strtol(argv[optind - 1] + 8, &end, 10);
         if(tnum < 0 || (*end != '\0' && *end != '=')) {
           throw OptionException(std::string("can't understand option `") + option + "': expected something like --threadN=\"--option1 --option2\", where N is a nonnegative integer");
         }
         if(threadArgv.size() <= size_t(tnum)) {
           threadArgv.resize(tnum + 1);
         }
         if(threadArgv[tnum] != "") {
           threadArgv[tnum] += " ";
         }
         if(*end == '\0') { // e.g., we have --thread0 "foo"
           if(argc <= optind) {
             throw OptionException(std::string("option `") + option + "' missing its required argument");
           }
           Debug("options") << "thread " << tnum << " gets option " << argv[optind] << std::endl;
           threadArgv[tnum] += argv[(*optind_ref)++];
         } else { // e.g., we have --thread0="foo"
           if(end[1] == '\0') {
             throw OptionException(std::string("option `") + option + "' missing its required argument");
           }
           Debug("options") << "thread " << tnum << " gets option " << (end + 1) << std::endl;
           threadArgv[tnum] += end + 1;
         }
         Debug("options") << "thread " << tnum << " now has " << threadArgv[tnum] << std::endl;
         break;
       }

       throw OptionException(std::string("can't understand option `") + option + "'"
                             + suggestCommandLineOptions(option));
     }
   }

   Debug("options") << "returning " << nonOptions.size() << " non-option arguments." << std::endl;

   free(extra_argv);

   return nonOptions;
 }

 std::string Options::suggestCommandLineOptions(const std::string& optionName) throw() {
   DidYouMean didYouMean;

   const char* opt;
   for(size_t i = 0; (opt = cmdlineOptions[i].name) != NULL; ++i) {
     didYouMean.addWord(std::string("--") + cmdlineOptions[i].name);
   }

   return didYouMean.getMatchAsString(optionName.substr(0, optionName.find('=')));
 }

 static const char* smtOptions[] = {
   ${all_modules_smt_options},
 #line 580 "${template}"
   NULL
 };/* smtOptions[] */

 std::vector<std::string> Options::suggestSmtOptions(const std::string& optionName) throw() {
   std::vector<std::string> suggestions;

   const char* opt;
   for(size_t i = 0; (opt = smtOptions[i]) != NULL; ++i) {
     if(std::strstr(opt, optionName.c_str()) != NULL) {
       suggestions.push_back(opt);
     }
   }

   return suggestions;
 }

 SExpr Options::getOptions() const throw() {
   std::vector<SExpr> opts;

   ${all_modules_get_options}

 #line 602 "${template}"

   return SExpr(opts);
 }

 #undef USE_EARLY_TYPE_CHECKING_BY_DEFAULT
 #undef DO_SEMANTIC_CHECKS_BY_DEFAULT

 }/* CVC4 namespace */
	/********************* */
	/*! \file options_template.cpp
	** \verbatim
	** Original author: Morgan Deters
	** Major contributors: none
	** Minor contributors (to current version): Kshitij Bansal
	** This file is part of the CVC4 project.
	** Copyright (c) 2009-2014 New York University and The University of Iowa
	** See the file COPYING in the top-level source directory for licensing
	** information.\endverbatim
	**
	** \brief Contains code for handling command-line options.
	**
	** Contains code for handling command-line options
	**/

	#if !defined(_BSD_SOURCE) && defined(__MINGW32__) && !defined(__MINGW64__)
	// force use of optreset; mingw32 croaks on argv-switching otherwise
	# include "cvc4autoconfig.h"
	# define _BSD_SOURCE
	# undef HAVE_DECL_OPTRESET
	# define HAVE_DECL_OPTRESET 1
	# define CVC4_IS_NOT_REALLY_BSD
	#endif /* !_BSD_SOURCE && __MINGW32__ && !__MINGW64__ */

	#ifdef __MINGW64__
	#define _BSD_SOURCE // Needed to avoid 'optreset' error at link
	extern int optreset;
	#endif /* __MINGW64__ */

	#include <getopt.h>

	// clean up
	#ifdef CVC4_IS_NOT_REALLY_BSD
	# undef _BSD_SOURCE
	#endif /* CVC4_IS_NOT_REALLY_BSD */

	#include <cstdio>
	#include <cstdlib>
	#include <new>
	#include <string>
	#include <sstream>
	#include <limits>
	#include <unistd.h>
	#include <string.h>
	#include <stdint.h>
	#include <time.h>

	#include "expr/expr.h"
	#include "util/configuration.h"
	#include "util/didyoumean.h"
	#include "util/exception.h"
	#include "util/language.h"
	#include "util/tls.h"

	${include_all_option_headers}

	#line 58 "${template}"

	#include "util/output.h"
	#include "options/options_holder.h"
	#include "cvc4autoconfig.h"
	#include "options/base_options_handlers.h"

	${option_handler_includes}

	#line 67 "${template}"

	using namespace CVC4;
	using namespace CVC4::options;

	namespace CVC4 {

	CVC4_THREADLOCAL(Options*) Options::s_current = NULL;

	/**
	* This is a default handler for options of built-in C++ type. This
	* template is really just a helper for the handleOption() template,
	* below. Variants of this template handle numeric and non-numeric,
	* integral and non-integral, signed and unsigned C++ types.
	* handleOption() makes sure to instantiate the right one.
	*
	* This implements default behavior when e.g. an option is
	* unsigned but the user specifies a negative argument; etc.
	*/
	template <class T, bool is_numeric, bool is_integer>
	struct OptionHandler {
	static T handle(std::string option, std::string optionarg);
	};/* struct OptionHandler<> */

	/** Variant for integral C++ types */
	template <class T>
	struct OptionHandler<T, true, true> {
	static T handle(std::string option, std::string optionarg) {
	try {
	Integer i(optionarg, 10);

	if(! std::numeric_limits<T>::is_signed && i < 0) {
	// unsigned type but user gave negative argument
	throw OptionException(option + " requires a nonnegative argument");
	} else if(i < std::numeric_limits<T>::min()) {
	// negative overflow for type
	std::stringstream ss;
	ss << option << " requires an argument >= " << std::numeric_limits<T>::min();
	throw OptionException(ss.str());
	} else if(i > std::numeric_limits<T>::max()) {
	// positive overflow for type
	std::stringstream ss;
	ss << option << " requires an argument <= " << std::numeric_limits<T>::max();
	throw OptionException(ss.str());
	}

	if(std::numeric_limits<T>::is_signed) {
	return T(i.getLong());
	} else {
	return T(i.getUnsignedLong());
	}
	} catch(std::invalid_argument&) {
	// user gave something other than an integer
	throw OptionException(option + " requires an integer argument");
	}
	}
	};/* struct OptionHandler<T, true, true> */

	/** Variant for numeric but non-integral C++ types */
	template <class T>
	struct OptionHandler<T, true, false> {
	static T handle(std::string option, std::string optionarg) {
	std::stringstream in(optionarg);
	long double r;
	in >> r;
	if(! in.eof()) {
	// we didn't consume the whole string (junk at end)
	throw OptionException(option + " requires a numeric argument");
	}

	if(! std::numeric_limits<T>::is_signed && r < 0.0) {
	// unsigned type but user gave negative value
	throw OptionException(option + " requires a nonnegative argument");
	} else if(r < -std::numeric_limits<T>::max()) {
	// negative overflow for type
	std::stringstream ss;
	ss << option << " requires an argument >= " << -std::numeric_limits<T>::max();
	throw OptionException(ss.str());
	} else if(r > std::numeric_limits<T>::max()) {
	// positive overflow for type
	std::stringstream ss;
	ss << option << " requires an argument <= " << std::numeric_limits<T>::max();
	throw OptionException(ss.str());
	}

	return T(r);
	}
	};/* struct OptionHandler<T, true, false> */

	/** Variant for non-numeric C++ types */
	template <class T>
	struct OptionHandler<T, false, false> {
	static T handle(std::string option, std::string optionarg) {
	T::unsupported_handleOption_call___please_write_me;
	// The above line causes a compiler error if this version of the template
	// is ever instantiated (meaning that a specialization is missing). So
	// don't worry about the segfault in the next line, the "return" is only
	// there to keep the compiler from giving additional, distracting errors
	// and warnings.
	return (T)0;
	}
	};/* struct OptionHandler<T, false, false> */

	/** Handle an option of type T in the default way. */
	template <class T>
	T handleOption(std::string option, std::string optionarg) {
	return OptionHandler<T, std::numeric_limits<T>::is_specialized, std::numeric_limits<T>::is_integer>::handle(option, optionarg);
	}

	/** Handle an option of type std::string in the default way. */
	template <>
	std::string handleOption<std::string>(std::string option, std::string optionarg) {
	return optionarg;
	}

	/**
	* Run handler, and any user-given predicates, for option T.
	* If a user specifies a :handler or :predicates, it overrides this.
	*/
	template <class T>
	typename T::type runHandlerAndPredicates(T, std::string option, std::string optionarg, SmtEngine* smt) {
	// By default, parse the option argument in a way appropriate for its type.
	// E.g., for "unsigned int" options, ensure that the provided argument is
	// a nonnegative integer that fits in the unsigned int type.

	return handleOption<typename T::type>(option, optionarg);
	}

	template <class T>
	void runBoolPredicates(T, std::string option, bool b, SmtEngine* smt) {
	// By default, nothing to do for bool. Users add things with
	// :predicate in options files to provide custom checking routines
	// that can throw exceptions.
	}

	${all_custom_handlers}

	#line 204 "${template}"

	#ifdef CVC4_DEBUG
	# define USE_EARLY_TYPE_CHECKING_BY_DEFAULT true
	#else /* CVC4_DEBUG */
	# define USE_EARLY_TYPE_CHECKING_BY_DEFAULT false
	#endif /* CVC4_DEBUG */

	#if defined(CVC4_MUZZLED) \|\| defined(CVC4_COMPETITION_MODE)
	# define DO_SEMANTIC_CHECKS_BY_DEFAULT false
	#else /* CVC4_MUZZLED \|\| CVC4_COMPETITION_MODE */
	# define DO_SEMANTIC_CHECKS_BY_DEFAULT true
	#endif /* CVC4_MUZZLED \|\| CVC4_COMPETITION_MODE */

	Options::Options() :
	d_holder(new options::OptionsHolder()) {
	}

	Options::Options(const Options& options) :
	d_holder(new options::OptionsHolder(*options.d_holder)) {
	}

	Options::~Options() {
	delete d_holder;
	}

	options::OptionsHolder::OptionsHolder() : ${all_modules_defaults}
	{
	}

	#line 234 "${template}"

	static const std::string mostCommonOptionsDescription = "\
	Most commonly-used CVC4 options:${common_documentation}";

	#line 239 "${template}"

	static const std::string optionsDescription = mostCommonOptionsDescription + "\n\
	\n\
	Additional CVC4 options:${remaining_documentation}";

	#line 245 "${template}"

	static const std::string optionsFootnote = "\n\
	[*] Each of these options has a --no-OPTIONNAME variant, which reverses the\n\
	sense of the option.\n\
	";

	static const std::string languageDescription = "\
	Languages currently supported as arguments to the -L / --lang option:\n\
	auto attempt to automatically determine language\n\
	cvc4 \| presentation \| pl CVC4 presentation language\n\
	smt1 \| smtlib1 SMT-LIB format 1.2\n\
	smt \| smtlib \| smt2 \| smtlib2 SMT-LIB format 2.0\n\
	tptp TPTP format (cnf and fof)\n\
	\n\
	Languages currently supported as arguments to the --output-lang option:\n\
	auto match output language to input language\n\
	cvc4 \| presentation \| pl CVC4 presentation language\n\
	cvc3 CVC3 presentation language\n\
	smt1 \| smtlib1 SMT-LIB format 1.2\n\
	smt \| smtlib \| smt2 \| smtlib2 SMT-LIB format 2.0\n\
	z3str SMT-LIB 2.0 with Z3-str string constraints\n\
	tptp TPTP format\n\
	ast internal format (simple syntax trees)\n\
	";

	std::string Options::getDescription() const {
	return optionsDescription;
	}

	void Options::printUsage(const std::string msg, std::ostream& out) {
	out << msg << optionsDescription << std::endl
	<< optionsFootnote << std::endl << std::flush;
	}

	void Options::printShortUsage(const std::string msg, std::ostream& out) {
	out << msg << mostCommonOptionsDescription << std::endl
	<< optionsFootnote << std::endl
	<< "For full usage, please use --help." << std::endl << std::endl << std::flush;
	}

	void Options::printLanguageHelp(std::ostream& out) {
	out << languageDescription << std::flush;
	}

	/**
	* This is a table of long options. By policy, each short option
	* should have an equivalent long option (but the reverse isn't the
	* case), so this table should thus contain all command-line options.
	*
	* Each option in this array has four elements:
	*
	* 1. the long option string
	* 2. argument behavior for the option:
	* no_argument - no argument permitted
	* required_argument - an argument is expected
	* optional_argument - an argument is permitted but not required
	* 3. this is a pointer to an int which is set to the 4th entry of the
	* array if the option is present; or NULL, in which case
	* getopt_long() returns the 4th entry
	* 4. the return value for getopt_long() when this long option (or the
	* value to set the 3rd entry to; see #3)
	*
	* If you add something here, you should add it in src/main/usage.h
	* also, to document it.
	*
	* If you add something that has a short option equivalent, you should
	* add it to the getopt_long() call in parseOptions().
	*/
	static struct option cmdlineOptions[] = {${all_modules_long_options}
	{ NULL, no_argument, NULL, '\0' }
	};/* cmdlineOptions */

	#line 318 "${template}"

	static void preemptGetopt(int& argc, char*& argv, const char opt) {
	const size_t maxoptlen = 128;

	Debug("preemptGetopt") << "preempting getopt() with " << opt << std::endl;

	AlwaysAssert(opt != NULL && *opt != '\0');
	AlwaysAssert(strlen(opt) <= maxoptlen);

	++argc;
	unsigned i = 1;
	while(argv[i] != NULL && argv[i][0] != '\0') {
	++i;
	}

	if(argv[i] == NULL) {
	argv = (char*) realloc(argv, (i + 6) sizeof(char*));
	for(unsigned j = i; j < i + 5; ++j) {
	argv[j] = (char) malloc(sizeof(char) maxoptlen);
	argv[j][0] = '\0';
	}
	argv[i + 5] = NULL;
	}

	strncpy(argv[i], opt, maxoptlen - 1);
	argv[i][maxoptlen - 1] = '\0'; // ensure NUL-termination even on overflow
	}

	namespace options {

	/** Set a given Options* as "current" just for a particular scope. */
	class OptionsGuard {
	CVC4_THREADLOCAL_TYPE(Options) d_field;
	Options* d_old;
	public:
	OptionsGuard(CVC4_THREADLOCAL_TYPE(Options) field, Options* opts) :
	d_field(field),
	d_old(*field) {
	*field = opts;
	}
	~OptionsGuard() {
	*d_field = d_old;
	}
	};/* class OptionsGuard */

	}/* CVC4::options namespace */

	/**
	* Parse argc/argv and put the result into a CVC4::Options.
	* The return value is what's left of the command line (that is, the
	* non-option arguments).
	*/
	std::vector<std::string> Options::parseOptions(int argc, char* main_argv[]) throw(OptionException) {
	options::OptionsGuard guard(&s_current, this);

	const char *progName = main_argv[0];
	SmtEngine* const smt = NULL;

	Debug("options") << "main_argv == " << main_argv << std::endl;

	// Reset getopt(), in the case of multiple calls to parseOptions().
	// This can be = 1 in newer GNU getopt, but older (< 2007) require = 0.
	optind = 0;
	#if HAVE_DECL_OPTRESET
	optreset = 1; // on BSD getopt() (e.g. Mac OS), might need this
	#endif /* HAVE_DECL_OPTRESET */

	// find the base name of the program
	const char *x = strrchr(progName, '/');
	if(x != NULL) {
	progName = x + 1;
	}
	d_holder->binary_name = std::string(progName);

	int extra_argc = 1;
	char extra_argv = (char) malloc(2 * sizeof(char*));
	extra_argv[0] = NULL;
	extra_argv[1] = NULL;

	int extra_optind = 0, main_optind = 0;
	int old_optind;
	int *optind_ref = &main_optind;

	char** argv = main_argv;

	std::vector<std::string> nonOptions;

	for(;;) {
	int c = -1;
	optopt = 0;
	std::string option, optionarg;
	Debug("preemptGetopt") << "top of loop, extra_optind == " << extra_optind << ", extra_argc == " << extra_argc << std::endl;
	if((extra_optind == 0 ? 1 : extra_optind) < extra_argc) {
	#if HAVE_DECL_OPTRESET
	if(optind_ref != &extra_optind) {
	optreset = 1; // on BSD getopt() (e.g. Mac OS), might need this
	}
	#endif /* HAVE_DECL_OPTRESET */
	old_optind = optind = extra_optind;
	optind_ref = &extra_optind;
	argv = extra_argv;
	Debug("preemptGetopt") << "in preempt code, next arg is " << extra_argv[optind == 0 ? 1 : optind] << std::endl;
	if(extra_argv[extra_optind == 0 ? 1 : extra_optind][0] != '-') {
	InternalError("preempted args cannot give non-options command-line args (found `%s')", extra_argv[extra_optind == 0 ? 1 : extra_optind]);
	}
	c = getopt_long(extra_argc, extra_argv,
	"+:${all_modules_short_options}",
	cmdlineOptions, NULL);
	Debug("preemptGetopt") << "in preempt code, c == " << c << " (`" << char(c) << "') optind == " << optind << std::endl;
	if(optopt == 0 \|\|
	( optopt >= ${long_option_value_begin} && optopt <= ${long_option_value_end} )) {
	// long option
	option = argv[old_optind == 0 ? 1 : old_optind];
	optionarg = (optarg == NULL) ? "" : optarg;
	} else {
	// short option
	option = std::string("-") + char(optopt);
	optionarg = (optarg == NULL) ? "" : optarg;
	}
	if(optind >= extra_argc) {
	Debug("preemptGetopt") << "-- no more preempt args" << std::endl;
	unsigned i = 1;
	while(extra_argv[i] != NULL && extra_argv[i][0] != '\0') {
	extra_argv[i][0] = '\0';
	++i;
	}
	extra_argc = 1;
	extra_optind = 0;
	} else {
	Debug("preemptGetopt") << "-- more preempt args" << std::endl;
	extra_optind = optind;
	}
	}
	if(c == -1) {
	#if HAVE_DECL_OPTRESET
	if(optind_ref != &main_optind) {
	optreset = 1; // on BSD getopt() (e.g. Mac OS), might need this
	}
	#endif /* HAVE_DECL_OPTRESET */
	old_optind = optind = main_optind;
	optind_ref = &main_optind;
	argv = main_argv;
	if(main_optind < argc && main_argv[main_optind][0] != '-') {
	do {
	if(main_optind != 0) {
	nonOptions.push_back(main_argv[main_optind]);
	}
	++main_optind;
	} while(main_optind < argc && main_argv[main_optind][0] != '-');
	continue;
	}
	Debug("options") << "[ before, optind == " << optind << " ]" << std::endl;
	#if defined(__MINGW32__) \|\| defined(__MINGW64__)
	if(optreset == 1 && optind > 1) {
	// on mingw, optreset will reset the optind, so we have to
	// manually advance argc, argv
	main_argv[optind - 1] = main_argv[0];
	argv = main_argv += optind - 1;
	argc -= optind - 1;
	old_optind = optind = main_optind = 1;
	if(argc > 0) {
	Debug("options") << "looking at : " << argv[0] << std::endl;
	}
	/*c = getopt_long(argc, main_argv,
	"+:${all_modules_short_options}",
	cmdlineOptions, NULL);
	Debug("options") << "pre-emptory c is " << c << " (" << char(c) << ")" << std::endl;
	Debug("options") << "optind was reset to " << optind << std::endl;
	optind = main_optind;
	Debug("options") << "I restored optind to " << optind << std::endl;*/
	}
	#endif /* __MINGW32__ \|\| __MINGW64__ */
	Debug("options") << "[ argc == " << argc << ", main_argv == " << main_argv << " ]" << std::endl;
	c = getopt_long(argc, main_argv,
	"+:${all_modules_short_options}",
	cmdlineOptions, NULL);
	main_optind = optind;
	Debug("options") << "[ got " << int(c) << " (" << char(c) << ") ]" << std::endl;
	Debug("options") << "[ next option will be at pos: " << optind << " ]" << std::endl;
	if(c == -1) {
	Debug("options") << "done with option parsing" << std::endl;
	break;
	}
	option = argv[old_optind == 0 ? 1 : old_optind];
	optionarg = (optarg == NULL) ? "" : optarg;
	}

	Debug("preemptGetopt") << "processing option " << c << " (`" << char(c) << "'), " << option << std::endl;

	switch(c) {
	${all_modules_option_handlers}

	#line 511 "${template}"

	case ':':
	// This can be a long or short option, and the way to get at the
	// name of it is different.
	throw OptionException(std::string("option `") + option + "' missing its required argument");

	case '?':
	default:
	if( ( optopt == 0 \|\| ( optopt >= ${long_option_value_begin} && optopt <= ${long_option_value_end} ) ) &&
	!strncmp(argv[optind - 1], "--thread", 8) &&
	strlen(argv[optind - 1]) > 8 ) {
	if(! isdigit(argv[optind - 1][8])) {
	throw OptionException(std::string("can't understand option `") + option + "': expected something like --threadN=\"--option1 --option2\", where N is a nonnegative integer");
	}
	std::vector<std::string>& threadArgv = d_holder->threadArgv;
	char *end;
	long tnum = strtol(argv[optind - 1] + 8, &end, 10);
	if(tnum < 0 \|\| (end != '\0' && end != '=')) {
	throw OptionException(std::string("can't understand option `") + option + "': expected something like --threadN=\"--option1 --option2\", where N is a nonnegative integer");
	}
	if(threadArgv.size() <= size_t(tnum)) {
	threadArgv.resize(tnum + 1);
	}
	if(threadArgv[tnum] != "") {
	threadArgv[tnum] += " ";
	}
	if(*end == '\0') { // e.g., we have --thread0 "foo"
	if(argc <= optind) {
	throw OptionException(std::string("option `") + option + "' missing its required argument");
	}
	Debug("options") << "thread " << tnum << " gets option " << argv[optind] << std::endl;
	threadArgv[tnum] += argv[(*optind_ref)++];
	} else { // e.g., we have --thread0="foo"
	if(end[1] == '\0') {
	throw OptionException(std::string("option `") + option + "' missing its required argument");
	}
	Debug("options") << "thread " << tnum << " gets option " << (end + 1) << std::endl;
	threadArgv[tnum] += end + 1;
	}
	Debug("options") << "thread " << tnum << " now has " << threadArgv[tnum] << std::endl;
	break;
	}

	throw OptionException(std::string("can't understand option `") + option + "'"
	+ suggestCommandLineOptions(option));
	}
	}

	Debug("options") << "returning " << nonOptions.size() << " non-option arguments." << std::endl;

	free(extra_argv);

	return nonOptions;
	}

	std::string Options::suggestCommandLineOptions(const std::string& optionName) throw() {
	DidYouMean didYouMean;

	const char* opt;
	for(size_t i = 0; (opt = cmdlineOptions[i].name) != NULL; ++i) {
	didYouMean.addWord(std::string("--") + cmdlineOptions[i].name);
	}

	return didYouMean.getMatchAsString(optionName.substr(0, optionName.find('=')));
	}

	static const char* smtOptions[] = {
	${all_modules_smt_options},
	#line 580 "${template}"
	NULL
	};/* smtOptions[] */

	std::vector<std::string> Options::suggestSmtOptions(const std::string& optionName) throw() {
	std::vector<std::string> suggestions;

	const char* opt;
	for(size_t i = 0; (opt = smtOptions[i]) != NULL; ++i) {
	if(std::strstr(opt, optionName.c_str()) != NULL) {
	suggestions.push_back(opt);
	}
	}

	return suggestions;
	}

	SExpr Options::getOptions() const throw() {
	std::vector<SExpr> opts;

	${all_modules_get_options}

	#line 602 "${template}"

	return SExpr(opts);
	}

	#undef USE_EARLY_TYPE_CHECKING_BY_DEFAULT
	#undef DO_SEMANTIC_CHECKS_BY_DEFAULT

	}/* CVC4 namespace */