hyperion.ng/dependencies/build/getoptPlusPlus/getoptpp.cc

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/* (C) 2011 Viktor Lofgren
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "getoptpp.h"
#include <stdexcept>
#include <cassert>
using namespace std;
namespace vlofgren {
/*
*
* Class OptionsParser
*
*
*/
OptionsParser::OptionsParser(const char* programDesc) : fprogramDesc(programDesc) {}
OptionsParser::~OptionsParser() {}
ParameterSet& OptionsParser::getParameters() {
return parameters;
}
void OptionsParser::parse(int argc, const char* argv[]) throw(runtime_error)
{
argv0 = argv[0];
if(argc == 1) return;
vector<string> v(&argv[1], &argv[argc]);
ParserState state(/* *this,*/ v);
for(; !state.end(); state.advance()) {
std::list<Parameter*>::iterator i;
for(i = parameters.parameters.begin();
i != parameters.parameters.end(); i++)
{
int n = 0;
try
{
n = (*i)->receive(state);
}
catch(Parameter::ExpectedArgument &)
{
throw Parameter::ExpectedArgument(state.get() + ": expected an argument");
}
catch(Parameter::UnexpectedArgument &)
{
throw Parameter::UnexpectedArgument(state.get() + ": did not expect an argument");
}
catch(Switchable::SwitchingError &)
{
throw Parameter::ParameterRejected(state.get() + ": parameter already set");
}
catch(Parameter::ParameterRejected & pr) {
std::string what = pr.what();
if(what.length())
{
throw Parameter::ParameterRejected(state.get() + ": " + what);
}
throw Parameter::ParameterRejected(state.get() + " (unspecified error)");
}
for (int j = 1; j < n; ++j)
{
state.advance();
}
if(n != 0)
{
break;
}
}
if(i == parameters.parameters.end()) {
std::string file = state.get();
if(file == "--") {
state.advance();
break;
}
else if(file.at(0) == '-')
throw Parameter::ParameterRejected(string("Bad parameter: ") + file);
else files.push_back(state.get());
}
}
if(!state.end()) for(; !state.end(); state.advance()) {
files.push_back(state.get());
}
}
void OptionsParser::usage() const {
cerr << fprogramDesc << endl;
cerr << "Build time: " << __DATE__ << " " << __TIME__ << endl << endl;
cerr << "Usage: " << programName() << " [OPTIONS]" << endl << endl;
cerr << "Parameters: " << endl;
std::list<Parameter*>::const_iterator i;
for(i = parameters.parameters.begin();
i != parameters.parameters.end(); i++)
{
cerr.width(31);
cerr << std::left << " " + (*i)->usageLine();
cerr.width(40);
cerr << std::left << (*i)->description() << endl;
}
}
const vector<string>& OptionsParser::getFiles() const {
return files;
}
const string& OptionsParser::programName() const {
return argv0;
}
/*
* Parameter set
*
*
*/
ParameterSet::ParameterSet(const ParameterSet& ps) {
throw new runtime_error("ParameterSet not copyable");
}
ParameterSet::~ParameterSet() {
for(std::list<Parameter*>::iterator i = parameters.begin();
i != parameters.end(); i++)
{
delete *i;
}
}
/* The typical use case for command line arguments makes linear searching completely
* acceptable here.
*/
Parameter& ParameterSet::operator[](char c) const {
for(std::list<Parameter*>::const_iterator i = parameters.begin(); i!= parameters.end(); i++) {
if((*i)->shortOption() == c) return *(*i);
}
throw out_of_range("ParameterSet["+string(&c)+string("]"));
}
Parameter& ParameterSet::operator[](const string& param) const {
for(std::list<Parameter*>::const_iterator i = parameters.begin(); i!= parameters.end(); i++) {
if((*i)->longOption() == param) return *(*i);
}
throw out_of_range("ParameterSet["+param+"]");
}
/*
*
* Class ParserState
*
*
*/
ParserState::ParserState(/*OptionsParser &opts, */vector<string>& args) :
/*opts(opts),*/ arguments(args), iterator(args.begin())
{
}
const string ParserState::peek() const {
vector<string>::const_iterator next = iterator+1;
if(next != arguments.end()) return *next;
else return "";
}
const string ParserState::get() const {
if(!end()) return *iterator;
else return "";
}
void ParserState::advance() {
iterator++;
}
bool ParserState::end() const {
return iterator == arguments.end();
}
/*
*
* Class Parameter
*
*
*/
Parameter::Parameter(char shortOption, const std::string & longOption, const std::string & description) :
fshortOption(shortOption), flongOption(longOption), fdescription(description)
{
}
Parameter::~Parameter() {}
const string& Parameter::description() const { return fdescription; }
const string& Parameter::longOption() const { return flongOption; }
bool Parameter::hasShortOption() const { return fshortOption != 0x0; }
char Parameter::shortOption() const { assert(hasShortOption()); return fshortOption; }
/*
*
* Class Switchable
*
*
*/
bool Switchable::isSet() const { return fset; }
Switchable::~Switchable() {};
Switchable::Switchable() : fset(false) {}
void MultiSwitchable::set() throw (Switchable::SwitchingError) { fset = true; }
MultiSwitchable::~MultiSwitchable() {}
void UniquelySwitchable::set() throw (Switchable::SwitchingError) {
if(UniquelySwitchable::isSet()) throw Switchable::SwitchingError();
fset = true;
}
UniquelySwitchable::~UniquelySwitchable() {}
PresettableUniquelySwitchable::~PresettableUniquelySwitchable() {}
bool PresettableUniquelySwitchable::isSet() const {
return UniquelySwitchable::isSet() || fpreset.isSet();
}
void PresettableUniquelySwitchable::set() throw (Switchable::SwitchingError)
{
UniquelySwitchable::set();
}
void PresettableUniquelySwitchable::preset() {
fpreset.set();
}
/*
*
* PODParameter specializations
*
*
*
*/
template<>
PODParameter<string>::PODParameter(char shortOption, const char *longOption,
const char* description) : CommonParameter<PresettableUniquelySwitchable>(shortOption, longOption, description) {
preset();
}
template<>
int PODParameter<int>::validate(const string &s) throw(Parameter::ParameterRejected)
{
// This is sadly necessary for strto*-functions to operate on
// const char*. The function doesn't write to the memory, though,
// so it's quite safe.
char* cstr = const_cast<char*>(s.c_str());
if(*cstr == '\0') throw ParameterRejected("No argument given");
long l = strtol(cstr, &cstr, 10);
if(*cstr != '\0') throw ParameterRejected("Expected int");
if(l > INT_MAX || l < INT_MIN) {
throw ParameterRejected("Expected int");
}
return l;
}
template<>
long PODParameter<long>::validate(const string &s) throw(Parameter::ParameterRejected)
{
char* cstr = const_cast<char*>(s.c_str());
if(*cstr == '\0') throw ParameterRejected("No argument given");
long l = strtol(cstr, &cstr, 10);
if(*cstr != '\0') throw ParameterRejected("Expected long");
return l;
}
template<>
double PODParameter<double>::validate(const string &s) throw(Parameter::ParameterRejected)
{
char* cstr = const_cast<char*>(s.c_str());
if(*cstr == '\0') throw ParameterRejected("No argument given");
double d = strtod(cstr, &cstr);
if(*cstr != '\0') throw ParameterRejected("Expected double");
return d;
}
template<>
string PODParameter<string>::validate(const string &s) throw(Parameter::ParameterRejected)
{
return s;
}
} //namespace