Danny Robson
2f5ecd46c7
Keeping the bool valueoption getter in the header was causing duplicate definitions in the built static library.
579 lines
15 KiB
C++
579 lines
15 KiB
C++
/*
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* This file is part of libgim.
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*
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* libgim is free software: you can redistribute it and/or modify it under the
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* terms of the GNU General Public License as published by the Free Software
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* Foundation, either version 3 of the License, or (at your option) any later
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* version.
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*
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* libgim is distributed in the hope that it will be useful, but WITHOUT ANY
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* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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* FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
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* details.
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*
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* You should have received a copy of the GNU General Public License
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* along with libgim. If not, see <http://www.gnu.org/licenses/>.
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*
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* Copyright 2013 Danny Robson <danny@nerdcruft.net>
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*/
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#include "options.hpp"
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#include "config.h"
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#include "debug.hpp"
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#include "string.hpp"
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#include "types.hpp"
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#include "types/casts.hpp"
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#include <algorithm>
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#include <cassert>
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#include <cmath>
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#include <cstdint>
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#include <cstdlib>
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#include <cstring>
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#include <cstring>
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#include <iostream>
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#include <stdexcept>
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using namespace std;
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using namespace util;
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/*
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* Generic option operations, failure or default modes
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*/
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option::option (char _letter,
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const char *_name,
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const char *_desc,
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bool _required):
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m_shortopt (_letter),
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m_longopt (_name),
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m_description(_desc),
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m_required (_required),
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m_found (false)
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{ reset(); }
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void
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option::execute (void) {
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throw runtime_error(
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"Cannot provide no value for the option '" + m_longopt + "'"
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);
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}
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void
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option::execute (const string& data) {
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assert(data.size() > 0);
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throw runtime_error(
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"Cannot provide a value for the option '" + m_longopt + "'"
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);
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}
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ostream&
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operator<< (ostream & os, const option& opt) {
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os << (opt.is_required () ? " -" : "[-" ) << opt.shortopt ()
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<< (opt.is_required () ? " \t" : "]\t") << opt.longopt ()
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<< "\t" << opt.description ();
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return os;
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}
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void
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option::finish (void) {
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if (m_required && !m_found)
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throw runtime_error ("Required argument not found: " + m_longopt);
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}
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/*
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* Nulloption
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*/
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nulloption::nulloption (char _letter,
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const char *_name,
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const char *_desc,
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bool _required):
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option (_letter, _name, _desc, _required)
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{ ; }
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/*
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* Present option
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*/
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presentoption::presentoption (char _letter,
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const char *_name,
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const char *_desc,
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bool *_data,
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bool _required):
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option (_letter, _name, _desc, _required),
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m_data (_data)
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{ ; }
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void
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presentoption::execute (void) {
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*m_data = true;
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m_found = true;
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}
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/*
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* Value option
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*/
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namespace util {
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template<>
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bool&
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valueoption<bool>::get_arg(const std::string& arg, bool *val) {
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if (arg == "true" || arg == "yes" || arg == "1")
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*val = true;
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else if (arg == "false" || arg == "no" || arg == "0")
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*val = false;
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else
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throw std::domain_error("Invalid form for boolean argument");
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return *val;
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}
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}
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/*
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* bytesoption
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*/
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bytesoption::bytesoption (char _letter,
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const char *_name,
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const char *_desc,
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size_t *_data,
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bytestype _type,
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bytesmodifier _modifier,
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bool _required):
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valueoption<size_t> (_letter, _name, _desc, _data, _required),
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m_type (_type),
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m_modifier (_modifier)
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{ ; }
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bytesoption::bytestype
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bytesoption::type_from_character (char c) {
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switch (c) {
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case 'e':
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case 'E':
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return BYTES_EXA;
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case 'p':
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case 'P':
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return BYTES_PETA;
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case 't':
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case 'T':
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return BYTES_TERA;
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case 'g':
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case 'G':
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return BYTES_GIGA;
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case 'm':
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case 'M':
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return BYTES_MEGA;
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case 'k':
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case 'K':
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return BYTES_KILO;
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default:
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throw domain_error("Invalid magnitude specifier");
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}
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}
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void
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bytesoption::execute (const std::string& data) {
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// We shouldn't get this far into processing with a zero sized argument,
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// that's what the null data execute function is for.
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assert (data.size () > 0);
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size_t defaultvalue = *m_data;
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try {
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bytesmodifier modifier = m_modifier;
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size_t cursor = data.size () - 1;
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// Consume an optional trailing `byte' type
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if (data[cursor] == 'B' || data[cursor] == 'b') {
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if (cursor == 0)
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throw invalid_argument ("Size is too short");
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--cursor;
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}
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// Check if we explicitly request base2
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if (data[cursor] == 'i') {
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modifier = BYTES_BASE2;
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if (cursor == 0)
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throw invalid_argument("Size is too short");
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--cursor;
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}
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// Determine what constant factor is needed for the raw size
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uint64_t multiplier = 1;
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uint64_t modifier_factor;
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switch (modifier) {
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case BYTES_BASE2:
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modifier_factor = 1024;
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break;
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case BYTES_BASE10:
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modifier_factor = 1000;
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break;
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default:
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unreachable ();
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}
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// Find the difference in magnitude between what is desired, and what
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// is specified by the user. Raise the multiplier by that magnitude.
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bytestype specified = m_type;
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try {
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specified = type_from_character (data[cursor]);
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// If the character is a digit, it just means the user skipped the
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// size specifier, which is ok.
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} catch (domain_error x) {
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if (!isdigit (data[cursor]))
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throw invalid_argument ("Not a size");
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// Falsely increment the cursor if there's no size specifier...
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++cursor;
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}
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// ... so that we can easily decrement the cursor without special logic
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// after reading the specifiers.
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--cursor;
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multiplier = static_cast<uintmax_t> (std::pow (modifier_factor, (int)specified));
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get_arg (data.substr(0, cursor + 1), m_data);
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*m_data *= multiplier;
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} catch (...) {
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// Ensure that we haven't nuked a default value due to a half
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// completed calculation followed by an exception.
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*m_data = defaultvalue;
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throw;
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}
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m_found = true;
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}
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/*
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* Internal helper options. Print help and usage.
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* A callback to the processor which triggers output of the help message.
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*
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* This should never be instanced by a user of the system. The processor will
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* automatically adds this to its available options where needed.
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*/
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class helpoption : public option {
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protected:
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static const char HELP_CHARACTER;
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static const char *HELP_NAME;
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static const char *HELP_DESCRIPTION;
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processor * m_processor;
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public:
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helpoption (processor * _processor):
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option (HELP_CHARACTER, HELP_NAME, HELP_DESCRIPTION, false),
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m_processor (_processor)
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{ ; }
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virtual void execute (void);
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virtual void execute (const std::string& data)
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{ option::execute (data); }
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};
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const char helpoption::HELP_CHARACTER = 'h';
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const char *helpoption::HELP_NAME = "help";
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const char *helpoption::HELP_DESCRIPTION =
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"display help and usage information";
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void
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helpoption::execute (void) {
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m_processor->print_usage ();
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exit (EXIT_SUCCESS);
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}
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/*
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* Command line processing options
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*/
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processor::processor () {
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add_option (make_unique<helpoption> (this));
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}
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processor::~processor ()
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{ ; }
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void
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processor::print_usage (void) {
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cout << "Usage: " << m_command << " [options]" << endl;
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for (const auto &i: m_options)
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cout << '\t' << *i << endl;
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}
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/**
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* Parse a single argument in short form. We are given an offset into the
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* argument array, and arguments. Establishes whether a value is present and
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* passes control over to the option.
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*
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* The format of the options are "-f [b]" || "-abcde"
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*
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* @param pos the current offset into the argument array
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* @param argc the size of the argument array
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* @param argv the argument array given to the application
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*
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* @return the number of tokens consumed for this option; must be at least 1.
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*/
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unsigned int
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processor::parse_short (int pos, int argc, const char **argv) {
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assert (pos > 0);
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assert (pos < argc);
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assert (argv[pos] != NULL);
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const char *arg = argv[pos];
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// Must begin with a dash, then have at least one non-dash character
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assert (arg[0] == '-');
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assert (arg[1] != '-');
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assert (strlen(arg) >= 2);
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// Check if we have a value option, Ie `-a [val]`
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// First: must be of form '-[a-zA-Z]'.
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if (strlen (arg) == 2) {
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// Second: the next segment (which contains the value) shouldn't begin
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// with a dash.
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if (pos + 1 < argc && argv[pos+1][0] != '-') {
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option * o = m_shortopt[arg[1]];
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if (!o)
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throw runtime_error ("Cannot match option");
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o->execute (argv[pos+1]);
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return 2;
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}
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}
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// We must have a string of no-value flags, `-abcdef...`, execute each
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// option in the list after the dash.
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for(unsigned int i = 1; i < strlen (arg); ++i) {
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option * o = m_shortopt[arg[i]];
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if (!o)
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throw runtime_error ("Cannot match option");
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o->execute ();
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}
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return 1;
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}
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/**
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* Parse a single argument in long form. We are given an offset into the
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* argument array, and arguments. Establishes whether a value is present and
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* passes control over to the option.
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*
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* The format of the options are "--foo[=bar]"
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*
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* @param pos the current offset into the argument array
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* @param argc the size of the argument array
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* @param argv the argument array given to the application`--foo[=bar]`
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*
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* @return the number of tokens consumed for this option; must be 1.
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*/
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unsigned int
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processor::parse_long (int pos, int argc, const char ** argv) {
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assert (pos > 0);
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assert (pos < argc);
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assert (argv[pos] != NULL);
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const char *arg = argv[pos];
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// We must have at least two hyphens, and two letters (else a short opt)
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assert (arg[0] == '-');
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assert (arg[1] == '-');
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assert (strlen (arg) >= 4);
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// Skip past the dashes to the argument name
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arg += 2;
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// If there's an equals it's has a value to extract
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const char *data = strchr (arg, '=');
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if (data) {
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arg = strndup (arg, sign_cast<size_t> (data - arg));
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//arg = strndup (arg, data - arg); // Copy just the arg name
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++data; // Skip the '='
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}
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option *o = m_longopt[arg];
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if (!o)
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throw runtime_error ("Cannot match option");
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if (data)
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o->execute (data);
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else
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o->execute ();
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return 1;
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}
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/**
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* Pass long and short options to specific parsing handlers.
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*
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* Establishes enough context to determine if the argument is long, short, or
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* none. The functions parse_long and parse_short are given the task of
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* dispatching control to the relevant option handlers.
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*
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* @param argc the raw parameter from the application main
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* @param argv the raw parameter from the application main
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*/
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void
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processor::parse_args (int argc, const char ** argv) {
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// While technically we can have zero arguments, for practical purposes
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// this is a reasonable method at catching odd errors in the library.
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assert (argc > 0);
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assert (argv[0]);
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m_command.assign (argv[0]);
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// Must make sure each option has a chance to reset state (clear flags,
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// etc) between parses
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for (auto &i: m_options)
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i->reset ();
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const int FIRST_ARGUMENT = 1;
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try {
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for (int i = FIRST_ARGUMENT; i < argc; ++i) {
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// An argument must begin with a dash, if not we've reached the
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// end of the argument lists or we have a parsing error.
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if (argv[i][0] != '-')
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return;
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// An argument must consist of at least one non-dash character
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if (strlen (argv[i]) <= 1)
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throw runtime_error ("Invalid argument");
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// Actually hand off args to be parsed. Subtract one from the
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// tokens consumed, as the for loop increments tokens too.
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unsigned int consumed;
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if (argv[i][1] != '-')
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consumed = parse_short (i, argc, argv);
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else
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consumed = parse_long (i, argc, argv);
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assert (consumed >= 1);
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i += sign_cast<int> (consumed - 1);
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}
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} catch (runtime_error &x) {
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print_usage ();
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exit (EXIT_FAILURE);
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}
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for (auto &i: m_options)
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i->finish ();
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}
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void
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processor::add_option (std::unique_ptr<option> opt) {
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if (m_shortopt.find (opt->shortopt ()) != m_shortopt.end ())
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throw logic_error ("Short option already exists");
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if (m_longopt.find (opt->longopt ()) != m_longopt.end ())
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throw logic_error ("Long option already exists");
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m_shortopt[opt->shortopt ()] = opt.get ();
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m_longopt [opt->longopt ()] = opt.get ();
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m_options.push_back (move (opt));
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}
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std::unique_ptr<option>
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processor::remove_option (char letter) {
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// Locate the option by short name
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const auto s_candidate = m_shortopt.find (letter);
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if (s_candidate == m_shortopt.end ())
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throw logic_error ("Cannot remove an option which is not present");
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option *target = (*s_candidate).second;
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// Locate the long option entry
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const auto l_candidate = m_longopt.find (target->longopt ());
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assert (l_candidate != m_longopt.end ());
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// Remove all references and return
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auto prime = std::find_if (
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m_options.begin (),
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m_options.end (),
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[&target] (std::unique_ptr<option> &rhs) { return rhs.get () == target; }
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);
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std::unique_ptr<option> opt = move (*prime);
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m_shortopt.erase (s_candidate);
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m_longopt.erase (l_candidate);
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m_options.erase (prime);
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return opt;
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}
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std::unique_ptr<option>
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processor::remove_option (const char *name) {
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// Locate the option by long name
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const auto l_candidate = m_longopt.find (name);
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if (l_candidate == m_longopt.end ())
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throw logic_error ("Cannot remove an option which is not present");
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option *target = (*l_candidate).second;
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// Locate the short option entry
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const auto s_candidate = m_shortopt.find (target->shortopt ());
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assert (s_candidate != m_shortopt.end ());
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// Remove all references and return
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auto prime = std::find_if (
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m_options.begin (),
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m_options.end (),
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[&target] (std::unique_ptr<option> &rhs) { return rhs.get () == target; }
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);
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std::unique_ptr<option> opt = move (*prime);
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m_shortopt.erase (s_candidate);
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m_longopt.erase (l_candidate);
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m_options.erase (prime);
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return opt;
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}
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/* Parse args from a stream, one arg per line
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*/
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|
//void parse_stream (std::istream & is) {
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// unique_ptr<char[]> buffer (new char [MAX_CHUNK_LENGTH + 1]);
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//}
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