/* -*- mode: C++; indent-tabs-mode: nil; -*- * * This file is a part of LEMON, a generic C++ optimization library. * * Copyright (C) 2003-2009 * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport * (Egervary Research Group on Combinatorial Optimization, EGRES). * * Permission to use, modify and distribute this software is granted * provided that this copyright notice appears in all copies. For * precise terms see the accompanying LICENSE file. * * This software is provided "AS IS" with no warranty of any kind, * express or implied, and with no claim as to its suitability for any * purpose. * */ #include namespace lemon { void ArgParser::_showHelp(void *p) { (static_cast(p))->showHelp(); exit(1); } ArgParser::ArgParser(int argc, const char * const *argv) :_argc(argc), _argv(argv), _command_name(argv[0]) { funcOption("-help","Print a short help message",_showHelp,this); synonym("help","-help"); synonym("h","-help"); } ArgParser::~ArgParser() { for(Opts::iterator i=_opts.begin();i!=_opts.end();++i) if(i->second.self_delete) switch(i->second.type) { case BOOL: delete i->second.bool_p; break; case STRING: delete i->second.string_p; break; case DOUBLE: delete i->second.double_p; break; case INTEGER: delete i->second.int_p; break; case UNKNOWN: break; case FUNC: break; } } ArgParser &ArgParser::intOption(const std::string &name, const std::string &help, int value, bool obl) { ParData p; p.int_p=new int(value); p.self_delete=true; p.help=help; p.type=INTEGER; p.mandatory=obl; _opts[name]=p; return *this; } ArgParser &ArgParser::doubleOption(const std::string &name, const std::string &help, double value, bool obl) { ParData p; p.double_p=new double(value); p.self_delete=true; p.help=help; p.type=DOUBLE; p.mandatory=obl; _opts[name]=p; return *this; } ArgParser &ArgParser::boolOption(const std::string &name, const std::string &help, bool value, bool obl) { ParData p; p.bool_p=new bool(value); p.self_delete=true; p.help=help; p.type=BOOL; p.mandatory=obl; _opts[name]=p; return *this; } ArgParser &ArgParser::stringOption(const std::string &name, const std::string &help, std::string value, bool obl) { ParData p; p.string_p=new std::string(value); p.self_delete=true; p.help=help; p.type=STRING; p.mandatory=obl; _opts[name]=p; return *this; } ArgParser &ArgParser::refOption(const std::string &name, const std::string &help, int &ref, bool obl) { ParData p; p.int_p=&ref; p.self_delete=false; p.help=help; p.type=INTEGER; p.mandatory=obl; _opts[name]=p; return *this; } ArgParser &ArgParser::refOption(const std::string &name, const std::string &help, double &ref, bool obl) { ParData p; p.double_p=&ref; p.self_delete=false; p.help=help; p.type=DOUBLE; p.mandatory=obl; _opts[name]=p; return *this; } ArgParser &ArgParser::refOption(const std::string &name, const std::string &help, bool &ref, bool obl) { ParData p; p.bool_p=&ref; p.self_delete=false; p.help=help; p.type=BOOL; p.mandatory=obl; _opts[name]=p; ref = false; return *this; } ArgParser &ArgParser::refOption(const std::string &name, const std::string &help, std::string &ref, bool obl) { ParData p; p.string_p=&ref; p.self_delete=false; p.help=help; p.type=STRING; p.mandatory=obl; _opts[name]=p; return *this; } ArgParser &ArgParser::funcOption(const std::string &name, const std::string &help, void (*func)(void *),void *data) { ParData p; p.func_p.p=func; p.func_p.data=data; p.self_delete=false; p.help=help; p.type=FUNC; p.mandatory=false; _opts[name]=p; return *this; } ArgParser &ArgParser::optionGroup(const std::string &group, const std::string &opt) { Opts::iterator i = _opts.find(opt); LEMON_ASSERT(i!=_opts.end(), "Unknown option: '"+opt+"'"); LEMON_ASSERT(!(i->second.ingroup), "Option already in option group: '"+opt+"'"); GroupData &g=_groups[group]; g.opts.push_back(opt); i->second.ingroup=true; return *this; } ArgParser &ArgParser::onlyOneGroup(const std::string &group) { GroupData &g=_groups[group]; g.only_one=true; return *this; } ArgParser &ArgParser::synonym(const std::string &syn, const std::string &opt) { Opts::iterator o = _opts.find(opt); Opts::iterator s = _opts.find(syn); LEMON_ASSERT(o!=_opts.end(), "Unknown option: '"+opt+"'"); LEMON_ASSERT(s==_opts.end(), "Option already used: '"+syn+"'"); ParData p; p.help=opt; p.mandatory=false; p.syn=true; _opts[syn]=p; o->second.has_syn=true; return *this; } ArgParser &ArgParser::mandatoryGroup(const std::string &group) { GroupData &g=_groups[group]; g.mandatory=true; return *this; } ArgParser &ArgParser::other(const std::string &name, const std::string &help) { _others_help.push_back(OtherArg(name,help)); return *this; } void ArgParser::show(std::ostream &os,Opts::const_iterator i) const { os << "-" << i->first; if(i->second.has_syn) for(Opts::const_iterator j=_opts.begin();j!=_opts.end();++j) if(j->second.syn&&j->second.help==i->first) os << "|-" << j->first; switch(i->second.type) { case STRING: os << " str"; break; case INTEGER: os << " int"; break; case DOUBLE: os << " num"; break; default: break; } } void ArgParser::show(std::ostream &os,Groups::const_iterator i) const { GroupData::Opts::const_iterator o=i->second.opts.begin(); while(o!=i->second.opts.end()) { show(os,_opts.find(*o)); ++o; if(o!=i->second.opts.end()) os<<'|'; } } void ArgParser::showHelp(Opts::const_iterator i) const { if(i->second.help.size()==0||i->second.syn) return; std::cerr << " "; show(std::cerr,i); std::cerr << std::endl; std::cerr << " " << i->second.help << std::endl; } void ArgParser::showHelp(std::vector::const_iterator i) const { if(i->help.size()==0) return; std::cerr << " " << i->name << std::endl << " " << i->help << std::endl; } void ArgParser::shortHelp() const { const unsigned int LINE_LEN=77; const std::string indent(" "); std::cerr << "Usage:\n " << _command_name; int pos=_command_name.size()+2; for(Groups::const_iterator g=_groups.begin();g!=_groups.end();++g) { std::ostringstream cstr; cstr << ' '; if(!g->second.mandatory) cstr << '['; show(cstr,g); if(!g->second.mandatory) cstr << ']'; if(pos+cstr.str().size()>LINE_LEN) { std::cerr << std::endl << indent; pos=indent.size(); } std::cerr << cstr.str(); pos+=cstr.str().size(); } for(Opts::const_iterator i=_opts.begin();i!=_opts.end();++i) if(!i->second.ingroup&&!i->second.syn) { std::ostringstream cstr; cstr << ' '; if(!i->second.mandatory) cstr << '['; show(cstr,i); if(!i->second.mandatory) cstr << ']'; if(pos+cstr.str().size()>LINE_LEN) { std::cerr << std::endl << indent; pos=indent.size(); } std::cerr << cstr.str(); pos+=cstr.str().size(); } for(std::vector::const_iterator i=_others_help.begin(); i!=_others_help.end();++i) { std::ostringstream cstr; cstr << ' ' << i->name; if(pos+cstr.str().size()>LINE_LEN) { std::cerr << std::endl << indent; pos=indent.size(); } std::cerr << cstr.str(); pos+=cstr.str().size(); } std::cerr << std::endl; } void ArgParser::showHelp() const { shortHelp(); std::cerr << "Where:\n"; for(std::vector::const_iterator i=_others_help.begin(); i!=_others_help.end();++i) showHelp(i); for(Opts::const_iterator i=_opts.begin();i!=_opts.end();++i) showHelp(i); exit(1); } void ArgParser::unknownOpt(std::string arg) const { std::cerr << "\nUnknown option: " << arg << "\n"; std::cerr << "\nType '" << _command_name << " --help' to obtain a short summary on the usage.\n\n"; exit(1); } void ArgParser::requiresValue(std::string arg, OptType t) const { std::cerr << "Argument '" << arg << "' requires a"; switch(t) { case STRING: std::cerr << " string"; break; case INTEGER: std::cerr << "n integer"; break; case DOUBLE: std::cerr << " floating point"; break; default: break; } std::cerr << " value\n\n"; showHelp(); } void ArgParser::checkMandatories() const { bool ok=true; for(Opts::const_iterator i=_opts.begin();i!=_opts.end();++i) if(i->second.mandatory&&!i->second.set) { if(ok) std::cerr << _command_name << ": The following mandatory arguments are missing.\n"; ok=false; showHelp(i); } for(Groups::const_iterator i=_groups.begin();i!=_groups.end();++i) if(i->second.mandatory||i->second.only_one) { int set=0; for(GroupData::Opts::const_iterator o=i->second.opts.begin(); o!=i->second.opts.end();++o) if(_opts.find(*o)->second.set) ++set; if(i->second.mandatory&&!set) { std::cerr << _command_name << ": At least one of the following arguments is mandatory.\n"; ok=false; for(GroupData::Opts::const_iterator o=i->second.opts.begin(); o!=i->second.opts.end();++o) showHelp(_opts.find(*o)); } if(i->second.only_one&&set>1) { std::cerr << _command_name << ": At most one of the following arguments can be given.\n"; ok=false; for(GroupData::Opts::const_iterator o=i->second.opts.begin(); o!=i->second.opts.end();++o) showHelp(_opts.find(*o)); } } if(!ok) { std::cerr << "\nType '" << _command_name << " --help' to obtain a short summary on the usage.\n\n"; exit(1); } } ArgParser &ArgParser::parse() { for(int ar=1; ar<_argc; ++ar) { std::string arg(_argv[ar]); if (arg[0] != '-' || arg.size() == 1) { _file_args.push_back(arg); } else { Opts::iterator i = _opts.find(arg.substr(1)); if(i==_opts.end()) unknownOpt(arg); else { if(i->second.syn) i=_opts.find(i->second.help); ParData &p(i->second); if (p.type==BOOL) *p.bool_p=true; else if (p.type==FUNC) p.func_p.p(p.func_p.data); else if(++ar==_argc) requiresValue(arg, p.type); else { std::string val(_argv[ar]); std::istringstream vals(val); switch(p.type) { case STRING: *p.string_p=val; break; case INTEGER: vals >> *p.int_p; break; case DOUBLE: vals >> *p.double_p; break; default: break; } if(p.type!=STRING&&(!vals||!vals.eof())) requiresValue(arg, p.type); } p.set = true; } } } checkMandatories(); return *this; } }