/*! @file SimpleOpt.h @version 3.5 @brief A cross-platform command line library which can parse almost any of the standard command line formats in use today. It is designed explicitly to be portable to any platform and has been tested on Windows and Linux. See CSimpleOptTempl for the class definition. @section features FEATURES - MIT Licence allows free use in all software (including GPL and commercial) - multi-platform (Windows 95/98/ME/NT/2K/XP, Linux, Unix) - supports all lengths of option names:
- switch character only (e.g. use stdin for input)
-o short (single character)
-long long (multiple character, single switch character)
--longer long (multiple character, multiple switch characters)
- supports all types of arguments for options:
--option short/long option flag (no argument)
--option ARG short/long option with separate required argument
--option=ARG short/long option with combined required argument
--option[=ARG] short/long option with combined optional argument
-oARG short option with combined required argument
-o[ARG] short option with combined optional argument
- supports options with multiple or variable numbers of arguments:
--multi ARG1 ARG2 Multiple arguments
--multi N ARG-1 ARG-2 ... ARG-N Variable number of arguments
- supports case-insensitive option matching on short, long and/or word arguments. - supports options which do not use a switch character. i.e. a special word which is construed as an option. e.g. "foo.exe open /directory/file.txt" - supports clumping of multiple short options (no arguments) in a string e.g. "foo.exe -abcdef file1" <==> "foo.exe -a -b -c -d -e -f file1" - automatic recognition of a single slash as equivalent to a single hyphen on Windows, e.g. "/f FILE" is equivalent to "-f FILE". - file arguments can appear anywhere in the argument list: "foo.exe file1.txt -a ARG file2.txt --flag file3.txt file4.txt" files will be returned to the application in the same order they were supplied on the command line - short-circuit option matching: "--man" will match "--mandate" invalid options can be handled while continuing to parse the command line valid options list can be changed dynamically during command line processing, i.e. accept different options depending on an option supplied earlier in the command line. - implemented with only a single C++ header file - optionally use no C runtime or OS functions - char, wchar_t and Windows TCHAR in the same program - complete working examples included - compiles cleanly at warning level 4 (Windows/VC.NET 2003), warning level 3 (Windows/VC6) and -Wall (Linux/gcc) @section usage USAGE The SimpleOpt class is used by following these steps:
  1. Include the SimpleOpt.h header file 
            \#include "SimpleOpt.h"
  2. Define an array of valid options for your program. 
    @link CSimpleOptTempl::SOption CSimpleOpt::SOption @endlink g_rgOptions[] = {
    { OPT_FLAG, _T("-a"),     SO_NONE    }, // "-a"
    { OPT_FLAG, _T("-b"),     SO_NONE    }, // "-b"
    { OPT_ARG,  _T("-f"),     SO_REQ_SEP }, // "-f ARG"
    { OPT_HELP, _T("-?"),     SO_NONE    }, // "-?"
    { OPT_HELP, _T("--help"), SO_NONE    }, // "--help"
    SO_END_OF_OPTIONS                       // END
};
    Note that all options must start with a hyphen even if the slash will be accepted. This is because the slash character is automatically converted into a hyphen to test against the list of options. For example, the following line matches both "-?" and "/?" (on Windows). 
            { OPT_HELP, _T("-?"),     SO_NONE    }, // "-?"
  3. Instantiate a CSimpleOpt object supplying argc, argv and the option table 
    @link CSimpleOptTempl CSimpleOpt @endlink args(argc, argv, g_rgOptions);
  4. Process the arguments by calling Next() until it returns false. On each call, first check for an error by calling LastError(), then either handle the error or process the argument. 
    while (args.Next()) {
    if (args.LastError() == SO_SUCCESS) {
        handle option: use OptionId(), OptionText() and OptionArg()
    }
    else {
        handle error: see ESOError enums
    }
}
  5. Process all non-option arguments with File(), Files() and FileCount() 
    ShowFiles(args.FileCount(), args.Files());
@section notes NOTES - In MBCS mode, this library is guaranteed to work correctly only when all option names use only ASCII characters. - Note that if case-insensitive matching is being used then the first matching option in the argument list will be returned. @section licence MIT LICENCE The licence text below is the boilerplate "MIT Licence" used from: http://www.opensource.org/licenses/mit-license.php Copyright (c) 2006-2007, Brodie Thiesfield Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ /*! @mainpage
Library SimpleOpt
Author Brodie Thiesfield [code at jellycan dot com]
Source http://code.jellycan.com/simpleopt/
@section SimpleOpt SimpleOpt A cross-platform library providing a simple method to parse almost any of the standard command-line formats in use today. See the @link SimpleOpt.h SimpleOpt @endlink documentation for full details. @section SimpleGlob SimpleGlob A cross-platform file globbing library providing the ability to expand wildcards in command-line arguments to a list of all matching files. See the @link SimpleGlob.h SimpleGlob @endlink documentation for full details. */ #ifndef INCLUDED_SimpleOpt #define INCLUDED_SimpleOpt // Default the max arguments to a fixed value. If you want to be able to // handle any number of arguments, then predefine this to 0 and it will // use an internal dynamically allocated buffer instead. #ifdef SO_MAX_ARGS # define SO_STATICBUF SO_MAX_ARGS #else # include // malloc, free # include // memcpy # define SO_STATICBUF 50 #endif //! Error values typedef enum _ESOError { //! No error SO_SUCCESS = 0, /*! It looks like an option (it starts with a switch character), but it isn't registered in the option table. */ SO_OPT_INVALID = -1, /*! Multiple options matched the supplied option text. Only returned when NOT using SO_O_EXACT. */ SO_OPT_MULTIPLE = -2, /*! Option doesn't take an argument, but a combined argument was supplied. */ SO_ARG_INVALID = -3, /*! SO_REQ_CMB style-argument was supplied to a SO_REQ_SEP option Only returned when using SO_O_PEDANTIC. */ SO_ARG_INVALID_TYPE = -4, //! Required argument was not supplied SO_ARG_MISSING = -5, /*! Option argument looks like another option. Only returned when NOT using SO_O_NOERR. */ SO_ARG_INVALID_DATA = -6 } ESOError; //! Option flags enum _ESOFlags { /*! Disallow partial matching of option names */ SO_O_EXACT = 0x0001, /*! Disallow use of slash as an option marker on Windows. Un*x only ever recognizes a hyphen. */ SO_O_NOSLASH = 0x0002, /*! Permit arguments on single letter options with no equals sign. e.g. -oARG or -o[ARG] */ SO_O_SHORTARG = 0x0004, /*! Permit single character options to be clumped into a single option string. e.g. "-a -b -c" <==> "-abc" */ SO_O_CLUMP = 0x0008, /*! Process the entire argv array for options, including the argv[0] entry. */ SO_O_USEALL = 0x0010, /*! Do not generate an error for invalid options. errors for missing arguments will still be generated. invalid options will be treated as files. invalid options in clumps will be silently ignored. */ SO_O_NOERR = 0x0020, /*! Validate argument type pedantically. Return an error when a separated argument "-opt arg" is supplied by the user as a combined argument "-opt=arg". By default this is not considered an error. */ SO_O_PEDANTIC = 0x0040, /*! Case-insensitive comparisons for short arguments */ SO_O_ICASE_SHORT = 0x0100, /*! Case-insensitive comparisons for long arguments */ SO_O_ICASE_LONG = 0x0200, /*! Case-insensitive comparisons for word arguments i.e. arguments without any hyphens at the start. */ SO_O_ICASE_WORD = 0x0400, /*! Case-insensitive comparisons for all arg types */ SO_O_ICASE = 0x0700 }; /*! Types of arguments that options may have. Note that some of the _ESOFlags are not compatible with all argument types. SO_O_SHORTARG requires that relevant options use either SO_REQ_CMB or SO_OPT. SO_O_CLUMP requires that relevant options use only SO_NONE. */ typedef enum _ESOArgType { /*! No argument. Just the option flags. e.g. -o --opt */ SO_NONE, /*! Required separate argument. e.g. -o ARG --opt ARG */ SO_REQ_SEP, /*! Required combined argument. e.g. -oARG -o=ARG --opt=ARG */ SO_REQ_CMB, /*! Optional combined argument. e.g. -o[ARG] -o[=ARG] --opt[=ARG] */ SO_OPT, /*! Multiple separate arguments. The actual number of arguments is determined programatically at the time the argument is processed. e.g. -o N ARG1 ARG2 ... ARGN --opt N ARG1 ARG2 ... ARGN */ SO_MULTI } ESOArgType; //! this option definition must be the last entry in the table #define SO_END_OF_OPTIONS { -1, NULL, SO_NONE } #ifdef _DEBUG # ifdef _MSC_VER # include # define SO_ASSERT(b) _ASSERTE(b) # else # include # define SO_ASSERT(b) assert(b) # endif #else # define SO_ASSERT(b) //!< assertion used to test input data #endif // --------------------------------------------------------------------------- // MAIN TEMPLATE CLASS // --------------------------------------------------------------------------- /*! @brief Implementation of the SimpleOpt class */ template class CSimpleOptTempl { public: /*! @brief Structure used to define all known options. */ struct SOption { /*! ID to return for this flag. Optional but must be >= 0 */ int nId; /*! arg string to search for, e.g. "open", "-", "-f", "--file" Note that on Windows the slash option marker will be converted to a hyphen so that "-f" will also match "/f". */ const SOCHAR * pszArg; /*! type of argument accepted by this option */ ESOArgType nArgType; }; /*! @brief Initialize the class. Init() must be called later. */ CSimpleOptTempl() : m_rgShuffleBuf(NULL) { Init(0, NULL, NULL, 0); } /*! @brief Initialize the class in preparation for use. */ CSimpleOptTempl( int argc, SOCHAR * argv[], const SOption * a_rgOptions, int a_nFlags = 0 ) : m_rgShuffleBuf(NULL) { Init(argc, argv, a_rgOptions, a_nFlags); } #ifndef SO_MAX_ARGS /*! @brief Deallocate any allocated memory. */ ~CSimpleOptTempl() { if (m_rgShuffleBuf) free(m_rgShuffleBuf); } #endif /*! @brief Initialize the class in preparation for calling Next. The table of options pointed to by a_rgOptions does not need to be valid at the time that Init() is called. However on every call to Next() the table pointed to must be a valid options table with the last valid entry set to SO_END_OF_OPTIONS. NOTE: the array pointed to by a_argv will be modified by this class and must not be used or modified outside of member calls to this class. @param a_argc Argument array size @param a_argv Argument array @param a_rgOptions Valid option array @param a_nFlags Optional flags to modify the processing of the arguments @return true Successful @return false if SO_MAX_ARGC > 0: Too many arguments if SO_MAX_ARGC == 0: Memory allocation failure */ bool Init( int a_argc, SOCHAR * a_argv[], const SOption * a_rgOptions, int a_nFlags = 0 ); /*! @brief Change the current options table during option parsing. @param a_rgOptions Valid option array */ inline void SetOptions(const SOption * a_rgOptions) { m_rgOptions = a_rgOptions; } /*! @brief Change the current flags during option parsing. Note that changing the SO_O_USEALL flag here will have no affect. It must be set using Init() or the constructor. @param a_nFlags Flags to modify the processing of the arguments */ inline void SetFlags(int a_nFlags) { m_nFlags = a_nFlags; } /*! @brief Query if a particular flag is set */ inline bool HasFlag(int a_nFlag) const { return (m_nFlags & a_nFlag) == a_nFlag; } /*! @brief Advance to the next option if available. When all options have been processed it will return false. When true has been returned, you must check for an invalid or unrecognized option using the LastError() method. This will be return an error value other than SO_SUCCESS on an error. All standard data (e.g. OptionText(), OptionArg(), OptionId(), etc) will be available depending on the error. After all options have been processed, the remaining files from the command line can be processed in same order as they were passed to the program. @return true option or error available for processing @return false all options have been processed */ bool Next(); /*! Stops processing of the command line and returns all remaining arguments as files. The next call to Next() will return false. */ void Stop(); /*! @brief Return the last error that occurred. This function must always be called before processing the current option. This function is available only when Next() has returned true. */ inline ESOError LastError() const { return m_nLastError; } /*! @brief Return the nId value from the options array for the current option. This function is available only when Next() has returned true. */ inline int OptionId() const { return m_nOptionId; } /*! @brief Return the pszArg from the options array for the current option. This function is available only when Next() has returned true. */ inline const SOCHAR * OptionText() const { return m_pszOptionText; } /*! @brief Return the argument for the current option where one exists. If there is no argument for the option, this will return NULL. This function is available only when Next() has returned true. */ inline SOCHAR * OptionArg() const { return m_pszOptionArg; } /*! @brief Validate and return the desired number of arguments. This is only valid when OptionId() has return the ID of an option that is registered as SO_MULTI. It may be called multiple times each time returning the desired number of arguments. Previously returned argument pointers are remain valid. If an error occurs during processing, NULL will be returned and the error will be available via LastError(). @param n Number of arguments to return. */ SOCHAR ** MultiArg(int n); /*! @brief Returned the number of entries in the Files() array. After Next() has returned false, this will be the list of files (or otherwise unprocessed arguments). */ inline int FileCount() const { return m_argc - m_nLastArg; } /*! @brief Return the specified file argument. @param n Index of the file to return. This must be between 0 and FileCount() - 1; */ inline SOCHAR * File(int n) const { SO_ASSERT(n >= 0 && n < FileCount()); return m_argv[m_nLastArg + n]; } /*! @brief Return the array of files. */ inline SOCHAR ** Files() const { return &m_argv[m_nLastArg]; } private: CSimpleOptTempl(const CSimpleOptTempl &); // disabled CSimpleOptTempl & operator=(const CSimpleOptTempl &); // disabled SOCHAR PrepareArg(SOCHAR * a_pszString) const; bool NextClumped(); void ShuffleArg(int a_nStartIdx, int a_nCount); int LookupOption(const SOCHAR * a_pszOption) const; int CalcMatch(const SOCHAR *a_pszSource, const SOCHAR *a_pszTest) const; // Find the '=' character within a string. inline SOCHAR * FindEquals(SOCHAR *s) const { while (*s && *s != (SOCHAR)'=') ++s; return *s ? s : NULL; } bool IsEqual(SOCHAR a_cLeft, SOCHAR a_cRight, int a_nArgType) const; inline void Copy(SOCHAR ** ppDst, SOCHAR ** ppSrc, int nCount) const { #ifdef SO_MAX_ARGS // keep our promise of no CLIB usage while (nCount-- > 0) *ppDst++ = *ppSrc++; #else memcpy(ppDst, ppSrc, nCount * sizeof(SOCHAR*)); #endif } private: const SOption * m_rgOptions; //!< pointer to options table int m_nFlags; //!< flags int m_nOptionIdx; //!< current argv option index int m_nOptionId; //!< id of current option (-1 = invalid) int m_nNextOption; //!< index of next option int m_nLastArg; //!< last argument, after this are files int m_argc; //!< argc to process SOCHAR ** m_argv; //!< argv const SOCHAR * m_pszOptionText; //!< curr option text, e.g. "-f" SOCHAR * m_pszOptionArg; //!< curr option arg, e.g. "c:\file.txt" SOCHAR * m_pszClump; //!< clumped single character options SOCHAR m_szShort[3]; //!< temp for clump and combined args ESOError m_nLastError; //!< error status from the last call SOCHAR ** m_rgShuffleBuf; //!< shuffle buffer for large argc }; // --------------------------------------------------------------------------- // IMPLEMENTATION // --------------------------------------------------------------------------- template bool CSimpleOptTempl::Init( int a_argc, SOCHAR * a_argv[], const SOption * a_rgOptions, int a_nFlags ) { m_argc = a_argc; m_nLastArg = a_argc; m_argv = a_argv; m_rgOptions = a_rgOptions; m_nLastError = SO_SUCCESS; m_nOptionIdx = 0; m_nOptionId = -1; m_pszOptionText = NULL; m_pszOptionArg = NULL; m_nNextOption = (a_nFlags & SO_O_USEALL) ? 0 : 1; m_szShort[0] = (SOCHAR)'-'; m_szShort[2] = (SOCHAR)'\0'; m_nFlags = a_nFlags; m_pszClump = NULL; #ifdef SO_MAX_ARGS if (m_argc > SO_MAX_ARGS) { m_nLastError = SO_ARG_INVALID_DATA; m_nLastArg = 0; return false; } #else if (m_rgShuffleBuf) { free(m_rgShuffleBuf); } if (m_argc > SO_STATICBUF) { m_rgShuffleBuf = (SOCHAR**) malloc(sizeof(SOCHAR*) * m_argc); if (!m_rgShuffleBuf) { return false; } } #endif return true; } template bool CSimpleOptTempl::Next() { #ifdef SO_MAX_ARGS if (m_argc > SO_MAX_ARGS) { SO_ASSERT(!"Too many args! Check the return value of Init()!"); return false; } #endif // process a clumped option string if appropriate if (m_pszClump && *m_pszClump) { // silently discard invalid clumped option bool bIsValid = NextClumped(); while (*m_pszClump && !bIsValid && HasFlag(SO_O_NOERR)) { bIsValid = NextClumped(); } // return this option if valid or we are returning errors if (bIsValid || !HasFlag(SO_O_NOERR)) { return true; } } SO_ASSERT(!m_pszClump || !*m_pszClump); m_pszClump = NULL; // init for the next option m_nOptionIdx = m_nNextOption; m_nOptionId = -1; m_pszOptionText = NULL; m_pszOptionArg = NULL; m_nLastError = SO_SUCCESS; // find the next option SOCHAR cFirst; int nTableIdx = -1; int nOptIdx = m_nOptionIdx; while (nTableIdx < 0 && nOptIdx < m_nLastArg) { SOCHAR * pszArg = m_argv[nOptIdx]; m_pszOptionArg = NULL; // find this option in the options table cFirst = PrepareArg(pszArg); if (pszArg[0] == (SOCHAR)'-') { // find any combined argument string and remove equals sign m_pszOptionArg = FindEquals(pszArg); if (m_pszOptionArg) { *m_pszOptionArg++ = (SOCHAR)'\0'; } } nTableIdx = LookupOption(pszArg); // if we didn't find this option but if it is a short form // option then we try the alternative forms if (nTableIdx < 0 && !m_pszOptionArg && pszArg[0] == (SOCHAR)'-' && pszArg[1] && pszArg[1] != (SOCHAR)'-' && pszArg[2]) { // test for a short-form with argument if appropriate if (HasFlag(SO_O_SHORTARG)) { m_szShort[1] = pszArg[1]; int nIdx = LookupOption(m_szShort); if (nIdx >= 0 && (m_rgOptions[nIdx].nArgType == SO_REQ_CMB || m_rgOptions[nIdx].nArgType == SO_OPT)) { m_pszOptionArg = &pszArg[2]; pszArg = m_szShort; nTableIdx = nIdx; } } // test for a clumped short-form option string and we didn't // match on the short-form argument above if (nTableIdx < 0 && HasFlag(SO_O_CLUMP)) { m_pszClump = &pszArg[1]; ++m_nNextOption; if (nOptIdx > m_nOptionIdx) { ShuffleArg(m_nOptionIdx, nOptIdx - m_nOptionIdx); } return Next(); } } // The option wasn't found. If it starts with a switch character // and we are not suppressing errors for invalid options then it // is reported as an error, otherwise it is data. if (nTableIdx < 0) { if (!HasFlag(SO_O_NOERR) && pszArg[0] == (SOCHAR)'-') { m_pszOptionText = pszArg; break; } pszArg[0] = cFirst; ++nOptIdx; if (m_pszOptionArg) { *(--m_pszOptionArg) = (SOCHAR)'='; } } } // end of options if (nOptIdx >= m_nLastArg) { if (nOptIdx > m_nOptionIdx) { ShuffleArg(m_nOptionIdx, nOptIdx - m_nOptionIdx); } return false; } ++m_nNextOption; // get the option id ESOArgType nArgType = SO_NONE; if (nTableIdx < 0) { m_nLastError = (ESOError) nTableIdx; // error code } else { m_nOptionId = m_rgOptions[nTableIdx].nId; m_pszOptionText = m_rgOptions[nTableIdx].pszArg; // ensure that the arg type is valid nArgType = m_rgOptions[nTableIdx].nArgType; switch (nArgType) { case SO_NONE: if (m_pszOptionArg) { m_nLastError = SO_ARG_INVALID; } break; case SO_REQ_SEP: if (m_pszOptionArg) { // they wanted separate args, but we got a combined one, // unless we are pedantic, just accept it. if (HasFlag(SO_O_PEDANTIC)) { m_nLastError = SO_ARG_INVALID_TYPE; } } // more processing after we shuffle break; case SO_REQ_CMB: if (!m_pszOptionArg) { m_nLastError = SO_ARG_MISSING; } break; case SO_OPT: // nothing to do break; case SO_MULTI: // nothing to do. Caller must now check for valid arguments // using GetMultiArg() break; } } // shuffle the files out of the way if (nOptIdx > m_nOptionIdx) { ShuffleArg(m_nOptionIdx, nOptIdx - m_nOptionIdx); } // we need to return the separate arg if required, just re-use the // multi-arg code because it all does the same thing if ( nArgType == SO_REQ_SEP && !m_pszOptionArg && m_nLastError == SO_SUCCESS) { SOCHAR ** ppArgs = MultiArg(1); if (ppArgs) { m_pszOptionArg = *ppArgs; } } return true; } template void CSimpleOptTempl::Stop() { if (m_nNextOption < m_nLastArg) { ShuffleArg(m_nNextOption, m_nLastArg - m_nNextOption); } } template SOCHAR CSimpleOptTempl::PrepareArg( SOCHAR * a_pszString ) const { #ifdef _WIN32 // On Windows we can accept the forward slash as a single character // option delimiter, but it cannot replace the '-' option used to // denote stdin. On Un*x paths may start with slash so it may not // be used to start an option. if (!HasFlag(SO_O_NOSLASH) && a_pszString[0] == (SOCHAR)'/' && a_pszString[1] && a_pszString[1] != (SOCHAR)'-') { a_pszString[0] = (SOCHAR)'-'; return (SOCHAR)'/'; } #endif return a_pszString[0]; } template bool CSimpleOptTempl::NextClumped() { // prepare for the next clumped option m_szShort[1] = *m_pszClump++; m_nOptionId = -1; m_pszOptionText = NULL; m_pszOptionArg = NULL; m_nLastError = SO_SUCCESS; // lookup this option, ensure that we are using exact matching int nSavedFlags = m_nFlags; m_nFlags = SO_O_EXACT; int nTableIdx = LookupOption(m_szShort); m_nFlags = nSavedFlags; // unknown option if (nTableIdx < 0) { m_nLastError = (ESOError) nTableIdx; // error code return false; } // valid option m_pszOptionText = m_rgOptions[nTableIdx].pszArg; ESOArgType nArgType = m_rgOptions[nTableIdx].nArgType; if (nArgType == SO_NONE) { m_nOptionId = m_rgOptions[nTableIdx].nId; return true; } if (nArgType == SO_REQ_CMB && *m_pszClump) { m_nOptionId = m_rgOptions[nTableIdx].nId; m_pszOptionArg = m_pszClump; while (*m_pszClump) ++m_pszClump; // must point to an empty string return true; } // invalid option as it requires an argument m_nLastError = SO_ARG_MISSING; return true; } // Shuffle arguments to the end of the argv array. // // For example: // argv[] = { "0", "1", "2", "3", "4", "5", "6", "7", "8" }; // // ShuffleArg(1, 1) = { "0", "2", "3", "4", "5", "6", "7", "8", "1" }; // ShuffleArg(5, 2) = { "0", "1", "2", "3", "4", "7", "8", "5", "6" }; // ShuffleArg(2, 4) = { "0", "1", "6", "7", "8", "2", "3", "4", "5" }; template void CSimpleOptTempl::ShuffleArg( int a_nStartIdx, int a_nCount ) { SOCHAR * staticBuf[SO_STATICBUF]; SOCHAR ** buf = m_rgShuffleBuf ? m_rgShuffleBuf : staticBuf; int nTail = m_argc - a_nStartIdx - a_nCount; // make a copy of the elements to be moved Copy(buf, m_argv + a_nStartIdx, a_nCount); // move the tail down Copy(m_argv + a_nStartIdx, m_argv + a_nStartIdx + a_nCount, nTail); // append the moved elements to the tail Copy(m_argv + a_nStartIdx + nTail, buf, a_nCount); // update the index of the last unshuffled arg m_nLastArg -= a_nCount; } // match on the long format strings. partial matches will be // accepted only if that feature is enabled. template int CSimpleOptTempl::LookupOption( const SOCHAR * a_pszOption ) const { int nBestMatch = -1; // index of best match so far int nBestMatchLen = 0; // matching characters of best match int nLastMatchLen = 0; // matching characters of last best match for (int n = 0; m_rgOptions[n].nId >= 0; ++n) { // the option table must use hyphens as the option character, // the slash character is converted to a hyphen for testing. SO_ASSERT(m_rgOptions[n].pszArg[0] != (SOCHAR)'/'); int nMatchLen = CalcMatch(m_rgOptions[n].pszArg, a_pszOption); if (nMatchLen == -1) { return n; } if (nMatchLen > 0 && nMatchLen >= nBestMatchLen) { nLastMatchLen = nBestMatchLen; nBestMatchLen = nMatchLen; nBestMatch = n; } } // only partial matches or no match gets to here, ensure that we // don't return a partial match unless it is a clear winner if (HasFlag(SO_O_EXACT) || nBestMatch == -1) { return SO_OPT_INVALID; } return (nBestMatchLen > nLastMatchLen) ? nBestMatch : SO_OPT_MULTIPLE; } // calculate the number of characters that match (case-sensitive) // 0 = no match, > 0 == number of characters, -1 == perfect match template int CSimpleOptTempl::CalcMatch( const SOCHAR * a_pszSource, const SOCHAR * a_pszTest ) const { if (!a_pszSource || !a_pszTest) { return 0; } // determine the argument type int nArgType = SO_O_ICASE_LONG; if (a_pszSource[0] != '-') { nArgType = SO_O_ICASE_WORD; } else if (a_pszSource[1] != '-' && !a_pszSource[2]) { nArgType = SO_O_ICASE_SHORT; } // match and skip leading hyphens while (*a_pszSource == (SOCHAR)'-' && *a_pszSource == *a_pszTest) { ++a_pszSource; ++a_pszTest; } if (*a_pszSource == (SOCHAR)'-' || *a_pszTest == (SOCHAR)'-') { return 0; } // find matching number of characters in the strings int nLen = 0; while (*a_pszSource && IsEqual(*a_pszSource, *a_pszTest, nArgType)) { ++a_pszSource; ++a_pszTest; ++nLen; } // if we have exhausted the source... if (!*a_pszSource) { // and the test strings, then it's a perfect match if (!*a_pszTest) { return -1; } // otherwise the match failed as the test is longer than // the source. i.e. "--mant" will not match the option "--man". return 0; } // if we haven't exhausted the test string then it is not a match // i.e. "--mantle" will not best-fit match to "--mandate" at all. if (*a_pszTest) { return 0; } // partial match to the current length of the test string return nLen; } template bool CSimpleOptTempl::IsEqual( SOCHAR a_cLeft, SOCHAR a_cRight, int a_nArgType ) const { // if this matches then we are doing case-insensitive matching if (m_nFlags & a_nArgType) { if (a_cLeft >= 'A' && a_cLeft <= 'Z') a_cLeft += 'a' - 'A'; if (a_cRight >= 'A' && a_cRight <= 'Z') a_cRight += 'a' - 'A'; } return a_cLeft == a_cRight; } // calculate the number of characters that match (case-sensitive) // 0 = no match, > 0 == number of characters, -1 == perfect match template SOCHAR ** CSimpleOptTempl::MultiArg( int a_nCount ) { // ensure we have enough arguments if (m_nNextOption + a_nCount > m_nLastArg) { m_nLastError = SO_ARG_MISSING; return NULL; } // our argument array SOCHAR ** rgpszArg = &m_argv[m_nNextOption]; // Ensure that each of the following don't start with an switch character. // Only make this check if we are returning errors for unknown arguments. if (!HasFlag(SO_O_NOERR)) { for (int n = 0; n < a_nCount; ++n) { SOCHAR ch = PrepareArg(rgpszArg[n]); if (rgpszArg[n][0] == (SOCHAR)'-') { rgpszArg[n][0] = ch; m_nLastError = SO_ARG_INVALID_DATA; return NULL; } rgpszArg[n][0] = ch; } } // all good m_nNextOption += a_nCount; return rgpszArg; } // --------------------------------------------------------------------------- // TYPE DEFINITIONS // --------------------------------------------------------------------------- /*! @brief ASCII/MBCS version of CSimpleOpt */ typedef CSimpleOptTempl CSimpleOptA; /*! @brief wchar_t version of CSimpleOpt */ typedef CSimpleOptTempl CSimpleOptW; #if defined(_UNICODE) /*! @brief TCHAR version dependent on if _UNICODE is defined */ # define CSimpleOpt CSimpleOptW #else /*! @brief TCHAR version dependent on if _UNICODE is defined */ # define CSimpleOpt CSimpleOptA #endif #endif // INCLUDED_SimpleOpt