// -*- c++ -*- // GetPot Version $$Version$$ $$Date$$ // // WEBSITE: http://getpot.sourceforge.net // // NOTE: The LPGL License for this library is only valid in case that // it is not used for the production or development of applications // dedicated to military industry. This is what the author calls // the 'unofficial peace version of the LPGL'. // // This library is free software; you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as // published by the Free Software Foundation; either version 2.1 of the // License, or (at your option) any later version. // // This library 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 // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 // USA // // (C) 2001-2005 Frank R. Schaefer //========================================================================== #ifndef __include_guard_GETPOT_H__ #define __include_guard_GETPOT_H__ #if defined(WIN32) || defined(SOLARIS_RAW) || (__GNUC__ == 2) || defined(__HP_aCC) #define strtok_r(a, b, c) strtok(a, b) #endif // WINDOWS or SOLARIS or gcc 2.* or HP aCC extern "C" { // leave the 'extern C' to make it 100% sure to work - // expecially with older distributions of header files. #ifndef WIN32 // this is necessary (depending on OS) #include #endif #include #include #include } #include #include #include #include #include #include // not every compiler distribution includes // // with typedef std::vector STRING_VECTOR; #define victorate(TYPE, VARIABLE, ITERATOR) \ std::vector::const_iterator ITERATOR = (VARIABLE).begin(); \ for(; (ITERATOR) != (VARIABLE).end(); (ITERATOR)++) class GetPot { //-------- inline void __basic_initialization(); public: // (*) constructors, destructor, assignment operator ----------------------- inline GetPot(); inline GetPot(const GetPot&); inline GetPot(const int argc_, char** argv_, const char* FieldSeparator=0x0); inline GetPot(const char* FileName, const char* CommentStart=0x0, const char* CommentEnd=0x0, const char* FieldSeparator=0x0); inline ~GetPot(); inline GetPot& operator=(const GetPot&); // (*) absorbing contents of another GetPot object inline void absorb(const GetPot& That); // -- for ufo detection: recording requested arguments, options etc. inline void clear_requests(); inline void disable_request_recording() { __request_recording_f = false; } inline void enable_request_recording() { __request_recording_f = true; } // (*) direct access to command line arguments ----------------------------- inline const std::string operator[](unsigned Idx) const; inline int get(unsigned Idx, int Default) const; inline double get(unsigned Idx, const double& Default) const; inline const std::string get(unsigned Idx, const char* Default) const; inline unsigned size() const; // (*) flags --------------------------------------------------------------- inline bool options_contain(const char* FlagList) const; inline bool argument_contains(unsigned Idx, const char* FlagList) const; // (*) variables ----------------------------------------------------------- // -- scalar values inline int operator()(const char* VarName, int Default) const; inline double operator()(const char* VarName, const double& Default) const; inline const std::string operator()(const char* VarName, const char* Default) const; // -- vectors inline int operator()(const char* VarName, int Default, unsigned Idx) const; inline double operator()(const char* VarName, const double& Default, unsigned Idx) const; inline const std::string operator()(const char* VarName, const char* Default, unsigned Idx) const; // -- setting variables // i) from outside of GetPot (considering prefix etc.) // ii) from inside, use '__set_variable()' below inline void set(const char* VarName, const char* Value, const bool Requested = true); inline void set(const char* VarName, const double& Value, const bool Requested = true); inline void set(const char* VarName, const int Value, const bool Requested = true); inline unsigned vector_variable_size(const char* VarName) const; inline STRING_VECTOR get_variable_names() const; inline STRING_VECTOR get_section_names() const; // (*) cursor oriented functions ------------------------------------------- inline void set_prefix(const char* Prefix) { prefix = std::string(Prefix); } inline bool search_failed() const { return search_failed_f; } // -- enable/disable search for an option in loop inline void disable_loop() { search_loop_f = false; } inline void enable_loop() { search_loop_f = true; } // -- reset cursor to position '1' inline void reset_cursor(); inline void init_multiple_occurrence(); // -- search for a certain option and set cursor to position inline bool search(const char* option); inline bool search(unsigned No, const char* P, ...); // -- get argument at cursor++ inline int next(int Default); inline double next(const double& Default); inline const std::string next(const char* Default); // -- search for option and get argument at cursor++ inline int follow(int Default, const char* Option); inline double follow(const double& Default, const char* Option); inline const std::string follow(const char* Default, const char* Option); // -- search for one of the given options and get argument that follows it inline int follow(int Default, unsigned No, const char* Option, ...); inline double follow(const double& Default, unsigned No, const char* Option, ...); inline const std::string follow(const char* Default, unsigned No, const char* Option, ...); // -- lists of nominuses following an option inline std::vector nominus_followers(const char* Option); inline std::vector nominus_followers(unsigned No, ...); // -- directly followed arguments inline int direct_follow(int Default, const char* Option); inline double direct_follow(const double& Default, const char* Option); inline const std::string direct_follow(const char* Default, const char* Option); inline std::vector string_tails(const char* StartString); inline std::vector int_tails(const char* StartString, const int Default = 1); inline std::vector double_tails(const char* StartString, const double Default = 1.0); // (*) nominus arguments --------------------------------------------------- inline STRING_VECTOR nominus_vector() const; inline unsigned nominus_size() const { return static_cast(idx_nominus.size()); } inline std::string next_nominus(); // (*) unidentified flying objects ----------------------------------------- inline STRING_VECTOR unidentified_arguments(unsigned Number, const char* Known, ...) const; inline STRING_VECTOR unidentified_arguments(const STRING_VECTOR& Knowns) const; inline STRING_VECTOR unidentified_arguments() const; inline STRING_VECTOR unidentified_options(unsigned Number, const char* Known, ...) const; inline STRING_VECTOR unidentified_options(const STRING_VECTOR& Knowns) const; inline STRING_VECTOR unidentified_options() const; inline std::string unidentified_flags(const char* Known, int ArgumentNumber /* =-1 */) const; inline STRING_VECTOR unidentified_variables(unsigned Number, const char* Known, ...) const; inline STRING_VECTOR unidentified_variables(const STRING_VECTOR& Knowns) const; inline STRING_VECTOR unidentified_variables() const; inline STRING_VECTOR unidentified_sections(unsigned Number, const char* Known, ...) const; inline STRING_VECTOR unidentified_sections(const STRING_VECTOR& Knowns) const; inline STRING_VECTOR unidentified_sections() const; inline STRING_VECTOR unidentified_nominuses(unsigned Number, const char* Known, ...) const; inline STRING_VECTOR unidentified_nominuses(const STRING_VECTOR& Knowns) const; inline STRING_VECTOR unidentified_nominuses() const; // (*) output -------------------------------------------------------------- inline int print() const; private: // (*) Type Declaration ---------------------------------------------------- struct variable { //----------- // Variable to be specified on the command line or in input files. // (i.e. of the form var='12 312 341') // -- constructors, destructors, assignment operator variable(); variable(const variable&); variable(const char* Name, const char* Value, const char* FieldSeparator); ~variable(); variable& operator=(const variable& That); void take(const char* Value, const char* FieldSeparator); // -- get a specific element in the string vector // (return 0 if not present) const std::string* get_element(unsigned Idx) const; // -- data memebers std::string name; // identifier of variable STRING_VECTOR value; // value of variable stored in vector std::string original; // value of variable as given on command line }; // (*) member variables -------------------------------------------------------------- std::string prefix; // prefix automatically added in queries std::string section; // (for dollar bracket parsing) STRING_VECTOR section_list; // list of all parsed sections // -- argument vector STRING_VECTOR argv; // vector of command line arguments stored as strings unsigned cursor; // cursor for argv bool search_loop_f; // shall search start at beginning after // // reaching end of arg array ? bool search_failed_f; // flag indicating a failed search() operation // // (e.g. next() functions react with 'missed') // -- nominus vector int nominus_cursor; // cursor for nominus_pointers std::vector idx_nominus; // indecies of 'no minus' arguments // -- variables // (arguments of the form "variable=value") std::vector variables; // -- comment delimiters std::string _comment_start; std::string _comment_end; // -- field separator (separating elements of a vector) std::string _field_separator; // -- some functions return a char pointer to a temporarily existing string // this container makes them 'available' until the getpot object is destroyed. std::vector __internal_string_container; // -- keeping track about arguments that are requested, so that the UFO detection // can be simplified STRING_VECTOR _requested_arguments; STRING_VECTOR _requested_variables; STRING_VECTOR _requested_sections; bool __request_recording_f; // speed: request recording can be turned off // -- if an argument is requested record it and the 'tag' the section branch to which // it belongs. Caution: both functions mark the sections as 'tagged'. void __record_argument_request(const std::string& Arg); void __record_variable_request(const std::string& Arg); // (*) helper functions ---------------------------------------------------- // set variable from inside GetPot (no prefix considered) inline void __set_variable(const char* VarName, const char* Value); // -- produce three basic data vectors: // - argument vector // - nominus vector // - variable dictionary inline void __parse_argument_vector(const STRING_VECTOR& ARGV); // -- helpers for argument list processing // * search for a variable in 'variables' array inline const variable* __find_variable(const char*) const; // * support finding directly followed arguments inline const char* __match_starting_string(const char* StartString); // * support search for flags in a specific argument inline bool __check_flags(const std::string& Str, const char* FlagList) const; // * type conversion if possible inline int __convert_to_type(const std::string& String, int Default) const; inline double __convert_to_type(const std::string& String, double Default) const; // * prefix extraction const std::string __get_remaining_string(const std::string& String, const std::string& Start) const; // * search for a specific string inline bool __search_string_vector(const STRING_VECTOR& Vec, const std::string& Str) const; // -- helpers to parse input file // create an argument vector based on data found in an input file, i.e.: // 1) delete comments (in between '_comment_start' '_comment_end') // 2) contract assignment expressions, such as // my-variable = '007 J. B.' // into // my-variable='007 J. B.' // 3) interprete sections like '[../my-section]' etc. inline void __skip_whitespace(std::istream& istr); inline const std::string __get_next_token(std::istream& istr); inline const std::string __get_string(std::istream& istr); inline const std::string __get_until_closing_bracket(std::istream& istr); inline STRING_VECTOR __read_in_stream(std::istream& istr); inline STRING_VECTOR __read_in_file(const char* FileName); inline std::string __process_section_label(const std::string& Section, STRING_VECTOR& section_stack); // -- dollar bracket expressions std::string __DBE_expand_string(const std::string str); std::string __DBE_expand(const std::string str); const GetPot::variable* __DBE_get_variable(const std::string str); STRING_VECTOR __DBE_get_expr_list(const std::string str, const unsigned ExpectedNumber); std::string __double2string(const double& Value) const { // -- converts a double integer into a string char* tmp = new char[128]; #ifndef WIN32 snprintf(tmp, (int)sizeof(char)*128, "%e", Value); #else _snprintf(tmp, sizeof(char)*128, "%e", Value); #endif std::string result(tmp); delete [] tmp; return result; } std::string __int2string(const int& Value) const { // -- converts an integer into a string char* tmp = new char[128]; #ifndef WIN32 snprintf(tmp, (int)sizeof(char)*128, "%i", Value); #else _snprintf(tmp, sizeof(char)*128, "%i", Value); #endif std::string result(tmp); delete [] tmp; return result; } STRING_VECTOR __get_section_tree(const std::string& FullPath) { // -- cuts a variable name into a tree of sub-sections. this is requested for recording // requested sections when dealing with 'ufo' detection. STRING_VECTOR result; const char* Start = FullPath.c_str(); for(char *p = (char*)Start; *p ; p++) { if( *p == '/' ) { *p = '\0'; // set terminating zero for convinience const std::string Section = Start; *p = '/'; // reset slash at place result.push_back(Section); } } return result; } }; /////////////////////////////////////////////////////////////////////////////// // (*) constructors, destructor, assignment operator //............................................................................. // inline void GetPot::__basic_initialization() { cursor = 0; nominus_cursor = -1; search_failed_f = true; search_loop_f = true; prefix = ""; section = ""; // automatic request recording for later ufo detection __request_recording_f = true; // comment start and end strings _comment_start = std::string("#"); _comment_end = std::string("\n"); // default: separate vector elements by whitespaces _field_separator = " \t\n"; } inline GetPot::GetPot() { __basic_initialization(); STRING_VECTOR _apriori_argv; _apriori_argv.push_back(std::string("Empty")); __parse_argument_vector(_apriori_argv); } inline GetPot::GetPot(const int argc_, char ** argv_, const char* FieldSeparator /* =0x0 */) // leave 'char**' non-const to honor less capable compilers ... { // TODO: Ponder over the problem when the argument list is of size = 0. // This is 'sabotage', but it can still occur if the user specifies // it himself. assert(argc_ >= 1); __basic_initialization(); // if specified -> overwrite default string if( FieldSeparator ) _field_separator = std::string(FieldSeparator); // -- make an internal copy of the argument list: STRING_VECTOR _apriori_argv; // -- for the sake of clarity: we do want to include the first argument in the argument vector ! // it will not be a nominus argument, though. This gives us a minimun vector size of one // which facilitates error checking in many functions. Also the user will be able to // retrieve the name of his application by "get[0]" _apriori_argv.push_back(std::string(argv_[0])); int i=1; for(; i overwrite default strings if( CommentStart ) _comment_start = std::string(CommentStart); if( CommentEnd ) _comment_end = std::string(CommentEnd); if( FieldSeparator ) _field_separator = FieldSeparator; STRING_VECTOR _apriori_argv; // -- file name is element of argument vector, however, it is not parsed for // variable assignments or nominuses. _apriori_argv.push_back(std::string(FileName)); STRING_VECTOR args = __read_in_file(FileName); _apriori_argv.insert(_apriori_argv.begin()+1, args.begin(), args.end()); __parse_argument_vector(_apriori_argv); } inline GetPot::GetPot(const GetPot& That) { GetPot::operator=(That); } inline GetPot::~GetPot() { // may be some return strings had to be created, delete now ! victorate(char*, __internal_string_container, it) delete [] *it; } inline GetPot& GetPot::operator=(const GetPot& That) { if (&That == this) return *this; _comment_start = That._comment_start; _comment_end = That._comment_end; argv = That.argv; variables = That.variables; prefix = That.prefix; cursor = That.cursor; nominus_cursor = That.nominus_cursor; search_failed_f = That.search_failed_f; idx_nominus = That.idx_nominus; search_loop_f = That.search_loop_f; return *this; } inline void GetPot::absorb(const GetPot& That) { if (&That == this) return; STRING_VECTOR __tmp(That.argv); __tmp.erase(__tmp.begin()); __parse_argument_vector(__tmp); } inline void GetPot::clear_requests() { _requested_arguments.erase(_requested_arguments.begin(), _requested_arguments.end()); _requested_variables.erase(_requested_variables.begin(), _requested_variables.end()); _requested_sections.erase(_requested_sections.begin(), _requested_sections.end()); } inline void GetPot::__parse_argument_vector(const STRING_VECTOR& ARGV) { if( ARGV.size() == 0 ) return; // build internal databases: // 1) array with no-minus arguments (usually used as filenames) // 2) variable assignments: // 'variable name' '=' number | string STRING_VECTOR section_stack; STRING_VECTOR::const_iterator it = ARGV.begin(); section = ""; // -- do not parse the first argument, so that it is not interpreted a s a nominus or so. argv.push_back(*it); ++it; // -- loop over remaining arguments unsigned i=1; for(; it != ARGV.end(); ++it, ++i) { std::string arg = *it; if( arg.length() == 0 ) continue; // -- [section] labels if( arg.length() > 1 && arg[0] == '[' && arg[arg.length()-1] == ']' ) { // (*) sections are considered 'requested arguments' if( __request_recording_f ) _requested_arguments.push_back(arg); const std::string Name = __DBE_expand_string(arg.substr(1, arg.length()-2)); section = __process_section_label(Name, section_stack); // new section --> append to list of sections if( find(section_list.begin(), section_list.end(), section) == section_list.end() ) if( section.length() != 0 ) section_list.push_back(section); argv.push_back(arg); } else { arg = section + __DBE_expand_string(arg); argv.push_back(arg); } // -- separate array for nominus arguments if( arg[0] != '-' ) idx_nominus.push_back(unsigned(i)); // -- variables: does arg contain a '=' operator ? const char* p = arg.c_str(); for(; *p ; p++) { if( *p == '=' ) { // (*) record for later ufo detection // arguments carriying variables are always treated as 'requested' arguments. // as a whole! That is 'x=4712' is considered a requested argument. // // unrequested variables have to be detected with the ufo-variable // detection routine. if( __request_recording_f ) _requested_arguments.push_back(arg); // set terminating 'zero' to treat first part as single string // => arg (from start to 'p') = Name of variable // p+1 (until terminating zero) = value of variable char* o = (char*)p++; *o = '\0'; // set temporary terminating zero // __set_variable(...) // calls __find_variable(...) which registers the search // temporarily disable this const bool tmp = __request_recording_f; __request_recording_f = false; __set_variable(arg.c_str(), p); // v-name = c_str() bis 'p', value = rest __request_recording_f = tmp; *o = '='; // reset the original '=' break; } } } } inline STRING_VECTOR GetPot::__read_in_file(const char* FileName) { std::ifstream i(FileName); if( ! i ) return STRING_VECTOR(); // argv[0] == the filename of the file that was read in return __read_in_stream(i); } inline STRING_VECTOR GetPot::__read_in_stream(std::istream& istr) { STRING_VECTOR brute_tokens; while(istr) { __skip_whitespace(istr); const std::string Token = __get_next_token(istr); if( Token.length() == 0 || Token[0] == EOF) break; brute_tokens.push_back(Token); } // -- reduce expressions of token1'='token2 to a single // string 'token1=token2' // -- copy everything into 'argv' // -- arguments preceded by something like '[' name ']' (section) // produce a second copy of each argument with a prefix '[name]argument' unsigned i1 = 0; unsigned i2 = 1; unsigned i3 = 2; STRING_VECTOR arglist; while( i1 < brute_tokens.size() ) { const std::string& SRef = brute_tokens[i1]; // 1) concatinate 'abcdef' '=' 'efgasdef' to 'abcdef=efgasdef' // note: java.lang.String: substring(a,b) = from a to b-1 // C++ string: substr(a,b) = from a to a + b if( i2 < brute_tokens.size() && brute_tokens[i2] == "=" ) { if( i3 >= brute_tokens.size() ) arglist.push_back(brute_tokens[i1] + brute_tokens[i2]); else arglist.push_back(brute_tokens[i1] + brute_tokens[i2] + brute_tokens[i3]); i1 = i3+1; i2 = i3+2; i3 = i3+3; continue; } else { arglist.push_back(SRef); i1=i2; i2=i3; i3++; } } return arglist; } inline void GetPot::__skip_whitespace(std::istream& istr) // find next non-whitespace while deleting comments { int tmp = istr.get(); do { // -- search a non whitespace while( isspace(tmp) ) { tmp = istr.get(); if( ! istr ) return; } // -- look if characters match the comment starter string const std::istream::pos_type Pos = istr.tellg(); unsigned i=0; for(; i<_comment_start.length() ; ++i) { if( tmp != _comment_start[i] ) { // HACK: The following line throws off msvc8: // istr.seekg(Pos); // -- one step more backwards, since 'tmp' already at non-whitespace istr.unget(); return; } tmp = istr.get(); if( ! istr ) { istr.unget(); return; } } // 'tmp' contains last character of _comment_starter // -- comment starter found -> search for comment ender unsigned match_no=0; while(1+1 == 2) { tmp = istr.get(); if( ! istr ) { istr.unget(); return; } if( tmp == _comment_end[match_no] ) { match_no++; if( match_no == _comment_end.length() ) { istr.unget(); break; // shuffle more whitespace, end of comment found } } else match_no = 0; } tmp = istr.get(); } while( istr ); istr.unget(); } inline const std::string GetPot::__get_next_token(std::istream& istr) // get next concatinates string token. consider quotes that embrace // whitespaces { std::string token; int tmp = 0; int last_letter = 0; while(1+1 == 2) { last_letter = tmp; tmp = istr.get(); if( tmp == EOF || ((tmp == ' ' || tmp == '\t' || tmp == '\n') && last_letter != '\\') ) { return token; } else if( tmp == '\'' && last_letter != '\\' ) { // QUOTES: un-backslashed quotes => it's a string token += __get_string(istr); continue; } else if( tmp == '{' && last_letter == '$') { token += '{' + __get_until_closing_bracket(istr); continue; } else if( tmp == '$' && last_letter == '\\') { token += tmp; tmp = 0; // so that last_letter will become = 0, not '$'; continue; } else if( tmp == '\\' && last_letter != '\\') continue; // don't append un-backslashed backslashes token += tmp; } } inline const std::string GetPot::__get_string(std::istream& istr) // parse input until next matching ' { std::string str; int tmp = 0; int last_letter = 0; while(1 + 1 == 2) { last_letter = tmp; tmp = istr.get(); if( tmp == EOF) return str; // un-backslashed quotes => it's the end of the string else if( tmp == '\'' && last_letter != '\\') return str; else if( tmp == '\\' && last_letter != '\\') continue; // don't append str += tmp; } } inline const std::string GetPot::__get_until_closing_bracket(std::istream& istr) // parse input until next matching } { std::string str = ""; int tmp = 0; int last_letter = 0; int brackets = 1; while(1 + 1 == 2) { last_letter = tmp; tmp = istr.get(); if( tmp == EOF) return str; else if( tmp == '{' && last_letter == '$') brackets += 1; else if( tmp == '}') { brackets -= 1; // un-backslashed brackets => it's the end of the string if( brackets == 0) return str + '}'; else if( tmp == '\\' && last_letter != '\\') continue; // do not append an unbackslashed backslash } str += tmp; } } inline std::string GetPot::__process_section_label(const std::string& Section, STRING_VECTOR& section_stack) { std::string sname = Section; // 1) subsection of actual section ('./' prefix) if( sname.length() >= 2 && sname.substr(0, 2) == "./" ) { sname = sname.substr(2); } // 2) subsection of parent section ('../' prefix) else if( sname.length() >= 3 && sname.substr(0, 3) == "../" ) { do { if( section_stack.end() != section_stack.begin() ) section_stack.pop_back(); sname = sname.substr(3); } while( sname.substr(0, 3) == "../" ); } // 3) subsection of the root-section else { section_stack.erase(section_stack.begin(), section_stack.end()); // [] => back to root section } if( sname != "" ) { // parse section name for 'slashes' unsigned i=0; while( i < sname.length() ) { if( sname[i] == '/' ) { section_stack.push_back(sname.substr(0,i)); if( i+1 < sname.length()-1 ) sname = sname.substr(i+1); i = 0; } else ++i; } section_stack.push_back(sname); } std::string section = ""; if( section_stack.size() != 0 ) { victorate(std::string, section_stack, it) section += *it + "/"; } return section; } // convert string to DOUBLE, if not possible return Default inline double GetPot::__convert_to_type(const std::string& String, double Default) const { double tmp; if( sscanf(String.c_str(),"%lf", &tmp) != 1 ) return Default; return tmp; } // convert string to INT, if not possible return Default inline int GetPot::__convert_to_type(const std::string& String, int Default) const { // NOTE: intermediate results may be floating points, so that the string // may look like 2.0e1 (i.e. float format) => use float conversion // in any case. return (int)__convert_to_type(String, (double)Default); } ////////////////////////////////////////////////////////////////////////////// // (*) cursor oriented functions //............................................................................. inline const std::string GetPot::__get_remaining_string(const std::string& String, const std::string& Start) const // Checks if 'String' begins with 'Start' and returns the remaining String. // Returns None if String does not begin with Start. { if( Start == "" ) return String; // note: java.lang.String: substring(a,b) = from a to b-1 // C++ string: substr(a,b) = from a to a + b if( String.find(Start) == 0 ) return String.substr(Start.length()); else return ""; } // -- search for a certain argument and set cursor to position inline bool GetPot::search(const char* Option) { unsigned OldCursor = cursor; const std::string SearchTerm = prefix + Option; // (*) record requested arguments for later ufo detection __record_argument_request(SearchTerm); if( OldCursor >= argv.size() ) OldCursor = static_cast(argv.size()) - 1; search_failed_f = true; // (*) first loop from cursor position until end unsigned c = cursor; for(; c < argv.size(); c++) { if( argv[c] == SearchTerm ) { cursor = c; search_failed_f = false; return true; } } if( ! search_loop_f ) return false; // (*) second loop from 0 to old cursor position for(c = 1; c < OldCursor; c++) { if( argv[c] == SearchTerm ) { cursor = c; search_failed_f = false; return true; } } // in case nothing is found the cursor stays where it was return false; } inline bool GetPot::search(unsigned No, const char* P, ...) { // (*) recording the requested arguments happens in subroutine 'search' if( No == 0 ) return false; // search for the first argument if( search(P) == true ) return true; // start interpreting variable argument list va_list ap; va_start(ap, P); unsigned i = 1; for(; i < No; ++i) { char* Opt = va_arg(ap, char *); if( search(Opt) == true ) break; } if( i < No ) { ++i; // loop was left before end of array --> hit but // make sure that the rest of the search terms is marked // as requested. for(; i < No; ++i) { char* Opt = va_arg(ap, char *); // (*) record requested arguments for later ufo detection __record_argument_request(Opt); } va_end(ap); return true; } va_end(ap); // loop was left normally --> no hit return false; } inline void GetPot::reset_cursor() { search_failed_f = false; cursor = 0; } inline void GetPot::init_multiple_occurrence() { disable_loop(); reset_cursor(); } /////////////////////////////////////////////////////////////////////////////// // (*) direct access to command line arguments //............................................................................. // inline const std::string GetPot::operator[](unsigned idx) const { return idx < argv.size() ? argv[idx] : ""; } inline int GetPot::get(unsigned Idx, int Default) const { if( Idx >= argv.size() ) return Default; return __convert_to_type(argv[Idx], Default); } inline double GetPot::get(unsigned Idx, const double& Default) const { if( Idx >= argv.size() ) return Default; return __convert_to_type(argv[Idx], Default); } inline const std::string GetPot::get(unsigned Idx, const char* Default) const { if( Idx >= argv.size() ) return Default; else return argv[Idx]; } inline unsigned GetPot::size() const { return static_cast(argv.size()); } // -- next() function group inline int GetPot::next(int Default) { if( search_failed_f ) return Default; cursor++; if( cursor >= argv.size() ) { cursor = static_cast(argv.size()); return Default; } // (*) record requested argument for later ufo detection __record_argument_request(argv[cursor]); const std::string Remain = __get_remaining_string(argv[cursor], prefix); return Remain != "" ? __convert_to_type(Remain, Default) : Default; } inline double GetPot::next(const double& Default) { if( search_failed_f ) return Default; cursor++; if( cursor >= argv.size() ) { cursor = static_cast(argv.size()); return Default; } // (*) record requested argument for later ufo detection __record_argument_request(argv[cursor]); std::string Remain = __get_remaining_string(argv[cursor], prefix); return Remain != "" ? __convert_to_type(Remain, Default) : Default; } inline const std::string GetPot::next(const char* Default) { if( search_failed_f ) return Default; cursor++; if( cursor >= argv.size() ) { cursor = static_cast(argv.size()); return Default; } // (*) record requested argument for later ufo detection __record_argument_request(argv[cursor]); const std::string Remain = __get_remaining_string(argv[cursor], prefix); if( Remain == "" ) return Default; // (*) function returns a pointer to a char array (inside Remain) // this array will be deleted, though after this function call. // To ensure propper functioning, create a copy inside *this // object and only delete it, when *this is deleted. char* result = new char[Remain.length()+1]; strncpy(result, Remain.c_str(), Remain.length()+1); // store the created string internally, delete if when object deleted __internal_string_container.push_back(result); return result; } // -- follow() function group // distinct option to be searched for inline int GetPot::follow(int Default, const char* Option) { // (*) record requested of argument is entirely handled in 'search()' and 'next()' if( search(Option) == false ) return Default; return next(Default); } inline double GetPot::follow(const double& Default, const char* Option) { // (*) record requested of argument is entirely handled in 'search()' and 'next()' if( search(Option) == false ) return Default; return next(Default); } inline const std::string GetPot::follow(const char* Default, const char* Option) { // (*) record requested of argument is entirely handled in 'search()' and 'next()' if( search(Option) == false ) return Default; return next(Default); } // -- second follow() function group // multiple option to be searched for inline int GetPot::follow(int Default, unsigned No, const char* P, ...) { // (*) record requested of argument is entirely handled in 'search()' and 'next()' if( No == 0 ) return Default; if( search(P) == true ) return next(Default); va_list ap; va_start(ap, P); unsigned i=1; for(; i GetPot::nominus_followers(const char* Option) { std::vector result_list; if( search(Option) == false ) return result_list; while( 1 + 1 == 2 ) { ++cursor; if( cursor >= argv.size() ) { cursor = argv.size() - 1; return result_list; } if( argv[cursor].length() >= 1 ) { if( argv[cursor][0] == '-' ) { return result_list; } // -- record for later ufo-detection __record_argument_request(argv[cursor]); // -- append to the result list result_list.push_back(argv[cursor]); } } } inline std::vector GetPot::nominus_followers(unsigned No, ...) { std::vector result_list; // (*) record requested of argument is entirely handled in 'search()' // and 'nominus_followers()' if( No == 0 ) return result_list; va_list ap; va_start(ap, No); for(unsigned i=0; i tmp = nominus_followers(Option); result_list.insert(result_list.end(), tmp.begin(), tmp.end()); // std::cerr << "option = '" << Option << "'" << std::endl; // std::cerr << "length = " << tmp.size() << std::endl; // std::cerr << "new result list = <"; // for(std::vector::const_iterator it = result_list.begin(); // it != result_list.end(); ++it) // std::cerr << *it << ", "; // std::cerr << ">\n"; } va_end(ap); return result_list; } /////////////////////////////////////////////////////////////////////////////// // (*) directly connected options //............................................................................. // inline int GetPot::direct_follow(int Default, const char* Option) { const char* FollowStr = __match_starting_string(Option); if( FollowStr == 0x0 ) return Default; // (*) record requested of argument for later ufo-detection __record_argument_request(std::string(Option) + FollowStr); if( ++cursor >= static_cast(argv.size()) ) cursor = static_cast(argv.size()); return __convert_to_type(FollowStr, Default); } inline double GetPot::direct_follow(const double& Default, const char* Option) { const char* FollowStr = __match_starting_string(Option); if( FollowStr == 0 ) return Default; // (*) record requested of argument for later ufo-detection __record_argument_request(std::string(Option) + FollowStr); if( ++cursor >= static_cast(argv.size()) ) cursor = static_cast(argv.size()); return __convert_to_type(FollowStr, Default); } inline const std::string GetPot::direct_follow(const char* Default, const char* Option) { if( search_failed_f ) return Default; const char* FollowStr = __match_starting_string(Option); if( FollowStr == 0 ) return Default; // (*) record requested of argument for later ufo-detection if( FollowStr ) __record_argument_request(std::string(Option) + FollowStr); if( ++cursor >= static_cast(argv.size()) ) cursor = static_cast(argv.size()); return std::string(FollowStr); } inline std::vector GetPot::string_tails(const char* StartString) { std::vector result; const unsigned N = static_cast(strlen(StartString)); std::vector::iterator it = argv.begin(); unsigned idx = 0; while( it != argv.end() ) { // (*) does start string match the given option? // NO -> goto next option if( strncmp(StartString, (*it).c_str(), N) != 0) { ++it; ++idx; continue; } // append the found tail to the result vector result.push_back((*it).substr(N)); // adapt the nominus vector std::vector::iterator nit = idx_nominus.begin(); for(; nit != idx_nominus.end(); ++nit) { if( *nit == idx ) { idx_nominus.erase(nit); for(; nit != idx_nominus.end(); ++nit) *nit -= 1; break; } } // erase the found option argv.erase(it); // 100% safe solution: set iterator back to the beginning. // (normally, 'it--' would be enough, but who knows how the // iterator is implemented and .erase() definitely invalidates // the current iterator position. if( argv.empty() ) break; it = argv.begin(); } cursor = 0; nominus_cursor = -1; return result; } inline std::vector GetPot::int_tails(const char* StartString, const int Default /* = -1 */) { std::vector result; const unsigned N = static_cast(strlen(StartString)); std::vector::iterator it = argv.begin(); unsigned idx = 0; while( it != argv.end() ) { // (*) does start string match the given option? // NO -> goto next option if( strncmp(StartString, (*it).c_str(), N) != 0) { ++it; ++idx; continue; } // append the found tail to the result vector result.push_back(__convert_to_type((*it).substr(N), Default)); // adapt the nominus vector std::vector::iterator nit = idx_nominus.begin(); for(; nit != idx_nominus.end(); ++nit) { if( *nit == idx ) { idx_nominus.erase(nit); for(; nit != idx_nominus.end(); ++nit) *nit -= 1; break; } } // erase the found option argv.erase(it); // 100% safe solution: set iterator back to the beginning. // (normally, 'it--' would be enough, but who knows how the // iterator is implemented and .erase() definitely invalidates // the current iterator position. if( argv.empty() ) break; it = argv.begin(); } cursor = 0; nominus_cursor = -1; return result; } inline std::vector GetPot::double_tails(const char* StartString, const double Default /* = -1.0 */) { std::vector result; const unsigned N = static_cast(strlen(StartString)); std::vector::iterator it = argv.begin(); unsigned idx = 0; while( it != argv.end() ) { // (*) does start string match the given option? // NO -> goto next option if( strncmp(StartString, (*it).c_str(), N) != 0) { ++it; ++idx; continue; } // append the found tail to the result vector result.push_back(__convert_to_type((*it).substr(N), Default)); // adapt the nominus vector std::vector::iterator nit = idx_nominus.begin(); for(; nit != idx_nominus.end(); ++nit) { if( *nit == idx ) { idx_nominus.erase(nit); for(; nit != idx_nominus.end(); ++nit) *nit -= 1; break; } } // erase the found option argv.erase(it); // 100% safe solution: set iterator back to the beginning. // (normally, 'it--' would be enough, but who knows how the // iterator is implemented and .erase() definitely invalidates // the current iterator position. if( argv.empty() ) break; it = argv.begin(); } cursor = 0; nominus_cursor = -1; return result; } inline const char* GetPot::__match_starting_string(const char* StartString) // pointer to the place where the string after // the match inside the found argument starts. // 0 no argument matches the starting string. { const unsigned N = static_cast(strlen(StartString)); unsigned OldCursor = cursor; if( OldCursor >= static_cast(argv.size()) ) OldCursor = static_cast(argv.size()) - 1; search_failed_f = true; // (*) first loop from cursor position until end unsigned c = cursor; for(; c < argv.size(); c++) { if( strncmp(StartString, argv[c].c_str(), N) == 0) { cursor = c; search_failed_f = false; return &(argv[c].c_str()[N]); } } if( ! search_loop_f ) return false; // (*) second loop from 0 to old cursor position for(c = 1; c < OldCursor; c++) { if( strncmp(StartString, argv[c].c_str(), N) == 0) { cursor = c; search_failed_f = false; return &(argv[c].c_str()[N]); } } return 0; } /////////////////////////////////////////////////////////////////////////////// // (*) search for flags //............................................................................. // inline bool GetPot::options_contain(const char* FlagList) const { // go through all arguments that start with a '-' (but not '--') std::string str; STRING_VECTOR::const_iterator it = argv.begin(); for(; it != argv.end(); ++it) { str = __get_remaining_string(*it, prefix); if( str.length() >= 2 && str[0] == '-' && str[1] != '-' ) if( __check_flags(str, FlagList) ) return true; } return false; } inline bool GetPot::argument_contains(unsigned Idx, const char* FlagList) const { if( Idx >= argv.size() ) return false; // (*) record requested of argument for later ufo-detection // an argument that is checked for flags is considered to be 'requested' ((GetPot*)this)->__record_argument_request(argv[Idx]); if( prefix == "" ) // search argument for any flag in flag list return __check_flags(argv[Idx], FlagList); // if a prefix is set, then the argument index is the index // inside the 'namespace' // => only check list of arguments that start with prefix unsigned no_matches = 0; unsigned i=0; for(; i::const_iterator it = idx_nominus.begin(); for(; it != idx_nominus.end(); ++it) { nv.push_back(argv[*it]); // (*) record for later ufo-detection // when a nominus vector is requested, the entire set of nominus arguments are // tagged as 'requested' ((GetPot*)this)->__record_argument_request(argv[*it]); } return nv; } inline std::string GetPot::next_nominus() { if( nominus_cursor < int(idx_nominus.size()) - 1 ) { const std::string Tmp = argv[idx_nominus[++nominus_cursor]]; // (*) record for later ufo-detection __record_argument_request(Tmp); // -- cannot use the Tmp variable, since it is temporary and c_str() will return a pointer // to something that does no longer exist. return Tmp; } return std::string(""); } /////////////////////////////////////////////////////////////////////////////// // (*) variables //............................................................................. // inline int GetPot::operator()(const char* VarName, int Default) const { // (*) recording of requested variables happens in '__find_variable()' const variable* sv = __find_variable(VarName); if( sv == 0 ) return Default; return __convert_to_type(sv->original, Default); } inline double GetPot::operator()(const char* VarName, const double& Default) const { // (*) recording of requested variables happens in '__find_variable()' const variable* sv = __find_variable(VarName); if( sv == 0 ) return Default; return __convert_to_type(sv->original, Default); } inline const std::string GetPot::operator()(const char* VarName, const char* Default) const { // (*) recording of requested variables happens in '__find_variable()' const variable* sv = __find_variable(VarName); if( sv == 0 ) return Default; // -- returning a c_str() pointer is OK here, since the variable remains existant, // while 'sv' of course is delete at the end of the function. return sv->original; } inline int GetPot::operator()(const char* VarName, int Default, unsigned Idx) const { // (*) recording of requested variables happens in '__find_variable()' const variable* sv = __find_variable(VarName); if( sv == 0 ) return Default; const std::string* element = sv->get_element(Idx); if( element == 0 ) return Default; return __convert_to_type(*element, Default); } inline double GetPot::operator()(const char* VarName, const double& Default, unsigned Idx) const { // (*) recording of requested variables happens in '__find_variable()' const variable* sv = __find_variable(VarName); if( sv == 0 ) return Default; const std::string* element = sv->get_element(Idx); if( element == 0 ) return Default; return __convert_to_type(*element, Default); } inline const std::string GetPot::operator()(const char* VarName, const char* Default, unsigned Idx) const { // (*) recording of requested variables happens in '__find_variable()' const variable* sv = __find_variable(VarName); if( sv == 0 ) return Default; const std::string* element = sv->get_element(Idx); if( element == 0 ) return Default; return *element; } inline void GetPot::__record_argument_request(const std::string& Name) { if( ! __request_recording_f ) return; // (*) record requested variable for later ufo detection _requested_arguments.push_back(Name); // (*) record considered section for ufo detection STRING_VECTOR STree = __get_section_tree(Name); victorate(std::string, STree, it) if( find(_requested_sections.begin(), _requested_sections.end(), *it) == _requested_sections.end() ) if( section.length() != 0 ) _requested_sections.push_back(*it); } inline void GetPot::__record_variable_request(const std::string& Name) { if( ! __request_recording_f ) return; // (*) record requested variable for later ufo detection _requested_variables.push_back(Name); // (*) record considered section for ufo detection STRING_VECTOR STree = __get_section_tree(Name); victorate(std::string, STree, it) if( find(_requested_sections.begin(), _requested_sections.end(), *it) == _requested_sections.end() ) if( section.length() != 0 ) _requested_sections.push_back(*it); } // (*) following functions are to be used from 'outside', after getpot has parsed its // arguments => append an argument in the argument vector that reflects the addition inline void GetPot::__set_variable(const char* VarName, const char* Value) { const GetPot::variable* Var = __find_variable(VarName); if( Var == 0 ) variables.push_back(variable(VarName, Value, _field_separator.c_str())); else ((GetPot::variable*)Var)->take(Value, _field_separator.c_str()); } inline void GetPot::set(const char* VarName, const char* Value, const bool Requested /* = yes */) { const std::string Arg = prefix + std::string(VarName) + std::string("=") + std::string(Value); argv.push_back(Arg); __set_variable(VarName, Value); // if user does not specify the variable as 'not being requested' it will be // considered amongst the requested variables if( Requested ) __record_variable_request(Arg); } inline void GetPot::set(const char* VarName, const double& Value, const bool Requested /* = yes */) { __set_variable(VarName, __double2string(Value).c_str()); } inline void GetPot::set(const char* VarName, const int Value, const bool Requested /* = yes */) { __set_variable(VarName, __int2string(Value).c_str()); } inline unsigned GetPot::vector_variable_size(const char* VarName) const { const variable* sv = __find_variable(VarName); if( sv == 0 ) return 0; return static_cast(sv->value.size()); } inline STRING_VECTOR GetPot::get_variable_names() const { STRING_VECTOR result; std::vector::const_iterator it = variables.begin(); for(; it != variables.end(); ++it) { const std::string Tmp = __get_remaining_string((*it).name, prefix); if( Tmp != "" ) result.push_back(Tmp); } return result; } inline STRING_VECTOR GetPot::get_section_names() const { return section_list; } inline const GetPot::variable* GetPot::__find_variable(const char* VarName) const { const std::string Name = prefix + VarName; // (*) record requested variable for later ufo detection ((GetPot*)this)->__record_variable_request(Name); std::vector::const_iterator it = variables.begin(); for(; it != variables.end(); ++it) { if( (*it).name == Name ) return &(*it); } return 0; } /////////////////////////////////////////////////////////////////////////////// // (*) ouput (basically for debugging reasons //............................................................................. // inline int GetPot::print() const { std::cout << "argc = " << static_cast(argv.size()) << std::endl; STRING_VECTOR::const_iterator it = argv.begin(); for(; it != argv.end(); ++it) std::cout << *it << std::endl; std::cout << std::endl; return 1; } // (*) dollar bracket expressions (DBEs) ------------------------------------ // // 1) Entry Function: __DBE_expand_string() // Takes a string such as // // "${+ ${x} ${y}} Subject-${& ${section} ${subsection}}: ${title}" // // calls __DBE_expand() for each of the expressions // // ${+ ${x} ${y}} // ${& ${section} ${subsection}} // ${Title} // // and returns the string // // "4711 Subject-1.01: Mit den Clowns kamen die Schwaene" // // assuming that // x = "4699" // y = "12" // section = "1." // subsection = "01" // title = "Mit den Clowns kamen die Schwaene" // // 2) __DBE_expand(): // // checks for the command, i.e. the 'sign' that follows '${' // divides the argument list into sub-expressions using // __DBE_get_expr_list() // // ${+ ${x} ${y}} -> "${x}" "${y}" // ${& ${section} ${subsection}} -> "${section}" "${subsection}" // ${Title} -> Nothing, variable expansion // // 3) __DBE_expression_list(): // // builds a vector of unbracketed whitespace separated strings, i.e. // // " ${Number}.a ${: Das Marmorbild} AB-${& Author= ${Eichendorf}-1870}" // // is split into a vector // // [0] ${Number}.a // [1] ${: Das Marmorbild} // [2] AB-${& Author= ${Eichendorf}}-1870 // // Each sub-expression is expanded using expand(). //--------------------------------------------------------------------------- inline std::string GetPot::__DBE_expand_string(const std::string str) { // Parses for closing operators '${ }' and expands them letting // white spaces and other letters as they are. std::string new_string = ""; unsigned open_brackets = 0; unsigned first = 0; unsigned i = 0; for(; i 0) { open_brackets -= 1; if( open_brackets == 0 ) { const std::string Replacement = __DBE_expand(str.substr(first, i - first)); new_string += Replacement; } } else if( open_brackets == 0 ) new_string += str[i]; } return new_string; } inline STRING_VECTOR GetPot::__DBE_get_expr_list(const std::string str_, const unsigned ExpectedNumber) // ensures that the resulting vector has the expected number // of arguments, but they may contain an error message { std::string str = str_; // Separates expressions by non-bracketed whitespaces, expands them // and puts them into a list. unsigned i=0; // (1) eat initial whitespaces for(; i < str.size(); ++i) if( ! isspace(str[i]) ) break; STRING_VECTOR expr_list; unsigned open_brackets = 0; std::vector start_idx; unsigned start_new_string = i; unsigned l = static_cast(str.size()); // (2) search for ${ } expressions ... while( i < l ) { const char letter = str[i]; // whitespace -> end of expression if( isspace(letter) && open_brackets == 0) { expr_list.push_back(str.substr(start_new_string, i - start_new_string)); bool no_breakout_f = true; for(++i; i < l ; ++i) { if( ! isspace(str[i]) ) { no_breakout_f = false; start_new_string = i; break; } } if( no_breakout_f ) { // end of expression list if( expr_list.size() < ExpectedNumber ) { const std::string pre_tmp("<< ${ }: missing arguments>>"); STRING_VECTOR tmp(ExpectedNumber - expr_list.size(), pre_tmp); expr_list.insert(expr_list.end(), tmp.begin(), tmp.end()); } return expr_list; } } // dollar-bracket expression if( str.length() >= i+2 && str.substr(i, 2) == "${" ) { open_brackets++; start_idx.push_back(i+2); } else if( letter == '}' && open_brackets > 0) { int start = start_idx[start_idx.size()-1]; start_idx.pop_back(); const std::string Replacement = __DBE_expand(str.substr(start, i-start)); if( start - 3 < (int)0) str = Replacement + str.substr(i+1); else str = str.substr(0, start-2) + Replacement + str.substr(i+1); l = static_cast(str.size()); i = start + static_cast(Replacement.size()) - 3; open_brackets--; } ++i; } // end of expression list expr_list.push_back(str.substr(start_new_string, i-start_new_string)); if( expr_list.size() < ExpectedNumber ) { const std::string pre_tmp("<< ${ }: missing arguments>>"); STRING_VECTOR tmp(ExpectedNumber - expr_list.size(), pre_tmp); expr_list.insert(expr_list.end(), tmp.begin(), tmp.end()); } return expr_list; } inline const GetPot::variable* GetPot::__DBE_get_variable(std::string VarName) { static GetPot::variable ev; std::string secure_Prefix = prefix; prefix = section; // (1) first search in currently active section const GetPot::variable* var = __find_variable(VarName.c_str()); if( var != 0 ) { prefix = secure_Prefix; return var; } // (2) search in root name space prefix = ""; var = __find_variable(VarName.c_str()); if( var != 0 ) { prefix = secure_Prefix; return var; } prefix = secure_Prefix; // error occured => variable name == "" char* tmp = new char[VarName.length() + 25]; #ifndef WIN32 snprintf(tmp, (int)sizeof(char)*(VarName.length() + 25), #else _snprintf(tmp, sizeof(char)*(VarName.length() + 25), #endif "<<${ } variable '%s' undefined>>", VarName.c_str()); ev.name = ""; ev.original = std::string(tmp); delete [] tmp; return &ev; } inline std::string GetPot::__DBE_expand(const std::string expr) { // ${: } pure text if( expr[0] == ':' ) return expr.substr(1); // ${& expr expr ... } text concatination else if( expr[0] == '&' ) { const STRING_VECTOR A = __DBE_get_expr_list(expr.substr(1), 1); STRING_VECTOR::const_iterator it = A.begin(); std::string result = *it++; for(; it != A.end(); ++it) result += *it; return result; } // ${<-> expr expr expr} text replacement else if( expr.length() >= 3 && expr.substr(0, 3) == "<->" ) { STRING_VECTOR A = __DBE_get_expr_list(expr.substr(3), 3); std::string::size_type tmp = 0; const std::string::size_type L = A[1].length(); while( (tmp = A[0].find(A[1])) != std::string::npos ) { A[0].replace(tmp, L, A[2]); } return A[0]; } // ${+ ...}, ${- ...}, ${* ...}, ${/ ...} expressions else if( expr[0] == '+' ) { STRING_VECTOR A = __DBE_get_expr_list(expr.substr(1), 2); STRING_VECTOR::const_iterator it = A.begin(); double result = __convert_to_type(*it++, 0.0); for(; it != A.end(); ++it) result += __convert_to_type(*it, 0.0); return __double2string(result); } else if( expr[0] == '-' ) { STRING_VECTOR A = __DBE_get_expr_list(expr.substr(1), 2); STRING_VECTOR::const_iterator it = A.begin(); double result = __convert_to_type(*it++, 0.0); for(; it != A.end(); ++it) result -= __convert_to_type(*it, 0.0); return __double2string(result); } else if( expr[0] == '*' ) { STRING_VECTOR A = __DBE_get_expr_list(expr.substr(1), 2); STRING_VECTOR::const_iterator it = A.begin(); double result = __convert_to_type(*it++, 0.0); for(; it != A.end(); ++it) result *= __convert_to_type(*it, 0.0); return __double2string(result); } else if( expr[0] == '/' ) { STRING_VECTOR A = __DBE_get_expr_list(expr.substr(1), 2); STRING_VECTOR::const_iterator it = A.begin(); double result = __convert_to_type(*it++, 0.0); if( result == 0 ) return "0.0"; for(; it != A.end(); ++it) { const double Q = __convert_to_type(*it, 0.0); if( Q == 0.0 ) return "0.0"; result /= Q; } return __double2string(result); } // ${^ ... } power expressions else if( expr[0] == '^' ) { STRING_VECTOR A = __DBE_get_expr_list(expr.substr(1), 2); STRING_VECTOR::const_iterator it = A.begin(); double result = __convert_to_type(*it++, 0.0); for(; it != A.end(); ++it) result = pow(result, __convert_to_type(*it, 0.0)); return __double2string(result); } // ${== } ${<= } ${>= } comparisons (return the number of the first 'match' else if( expr.length() >= 2 && ( expr.substr(0,2) == "==" || expr.substr(0,2) == ">=" || expr.substr(0,2) == "<=" || expr[0] == '>' || expr[0] == '<')) { // differentiate between two and one sign operators unsigned op = 0; enum { EQ, GEQ, LEQ, GT, LT }; if ( expr.substr(0, 2) == "==" ) op = EQ; else if ( expr.substr(0, 2) == ">=" ) op = GEQ; else if ( expr.substr(0, 2) == "<=" ) op = LEQ; else if ( expr[0] == '>' ) op = GT; else /* "<" */ op = LT; STRING_VECTOR a; if ( op == GT || op == LT ) a = __DBE_get_expr_list(expr.substr(1), 2); else a = __DBE_get_expr_list(expr.substr(2), 2); std::string x_orig = a[0]; double x = __convert_to_type(x_orig, 1e37); unsigned i = 1; STRING_VECTOR::const_iterator y_orig = a.begin(); for(y_orig++; y_orig != a.end(); y_orig++) { double y = __convert_to_type(*y_orig, 1e37); // set the strings as reference if one wasn't a number if ( x == 1e37 || y == 1e37 ) { // it's a string comparison if( (op == EQ && x_orig == *y_orig) || (op == GEQ && x_orig >= *y_orig) || (op == LEQ && x_orig <= *y_orig) || (op == GT && x_orig > *y_orig) || (op == LT && x_orig < *y_orig) ) return __int2string(i); } else { // it's a number comparison if( (op == EQ && x == y) || (op == GEQ && x >= y) || (op == LEQ && x <= y) || (op == GT && x > y) || (op == LT && x < y) ) return __int2string(i); } ++i; } // nothing fulfills the condition => return 0 return "0"; } // ${?? expr expr} select else if( expr.length() >= 2 && expr.substr(0, 2) == "??" ) { STRING_VECTOR a = __DBE_get_expr_list(expr.substr(2), 2); double x = __convert_to_type(a[0], 1e37); // last element is always the default argument if( x == 1e37 || x < 0 || x >= a.size() - 1 ) return a[a.size()-1]; // round x to closest integer return a[int(x+0.5)]; } // ${? expr expr expr} if then else conditions else if( expr[0] == '?' ) { STRING_VECTOR a = __DBE_get_expr_list(expr.substr(1), 2); if( __convert_to_type(a[0], 0.0) == 1.0 ) return a[1]; else if( a.size() > 2 ) return a[2]; } // ${! expr} maxro expansion else if( expr[0] == '!' ) { const GetPot::variable* Var = __DBE_get_variable(expr.substr(1)); // error if( Var->name == "" ) return std::string(Var->original); const STRING_VECTOR A = __DBE_get_expr_list(Var->original, 2); return A[0]; } // ${@: } - string subscription else if( expr.length() >= 2 && expr.substr(0,2) == "@:" ) { const STRING_VECTOR A = __DBE_get_expr_list(expr.substr(2), 2); double x = __convert_to_type(A[1], 1e37); // last element is always the default argument if( x == 1e37 || x < 0 || x >= A[0].size() - 1) return "<<1st index out of range>>"; if( A.size() > 2 ) { double y = __convert_to_type(A[2], 1e37); if ( y != 1e37 && y > 0 && y <= A[0].size() - 1 && y > x ) return A[0].substr(int(x+0.5), int(y+1.5) - int(x+0.5)); else if( y == -1 ) return A[0].substr(int(x+0.5)); return "<<2nd index out of range>>"; } else { char* tmp = new char[2]; tmp[0] = A[0][int(x+0.5)]; tmp[1] = '\0'; std::string result(tmp); delete [] tmp; return result; } } // ${@ } - vector subscription else if( expr[0] == '@' ) { STRING_VECTOR A = __DBE_get_expr_list(expr.substr(1), 2); const GetPot::variable* Var = __DBE_get_variable(A[0]); // error if( Var->name == "" ) { // make a copy of the string if an error occured // (since the error variable is a static variable inside get_variable()) return std::string(Var->original); } double x = __convert_to_type(A[1], 1e37); // last element is always the default argument if (x == 1e37 || x < 0 || x >= Var->value.size() ) return "<<1st index out of range>>"; if ( A.size() > 2) { double y = __convert_to_type(A[2], 1e37); int begin = int(x+0.5); int end = 0; if ( y != 1e37 && y > 0 && y <= Var->value.size() && y > x) end = int(y+1.5); else if( y == -1 ) end = static_cast(Var->value.size()); else return "<<2nd index out of range>>"; std::string result = *(Var->get_element(begin)); int i = begin+1; for(; i < end; ++i) result += std::string(" ") + *(Var->get_element(i)); return result; } else return *(Var->get_element(int(x+0.5))); } const STRING_VECTOR A = __DBE_get_expr_list(expr, 1); const GetPot::variable* B = __DBE_get_variable(A[0]); // make a copy of the string if an error occured // (since the error variable is a static variable inside get_variable()) if( B->name == "" ) return std::string(B->original); // (psuggs@pobox.com mentioned to me the warning MSVC++6.0 produces // with: else return B->original (thanks)) return B->original; } /////////////////////////////////////////////////////////////////////////////// // (*) unidentified flying objects //............................................................................. // inline bool GetPot::__search_string_vector(const STRING_VECTOR& VecStr, const std::string& Str) const { victorate(std::string, VecStr, itk) { if( *itk == Str ) return true; } return false; } inline STRING_VECTOR GetPot::unidentified_arguments(unsigned Number, const char* KnownArgument1, ...) const { STRING_VECTOR known_arguments; // (1) create a vector of known arguments if( Number == 0 ) return STRING_VECTOR(); va_list ap; va_start(ap, KnownArgument1); known_arguments.push_back(std::string(KnownArgument1)); unsigned i=1; for(; i it is not necessary to separate requested options from the list STRING_VECTOR option_list; victorate(std::string, _requested_arguments, it) { const std::string arg = *it; if( arg.length() == 0 ) continue; if( arg[0] == '-' ) option_list.push_back(arg); } return unidentified_options(option_list); } inline STRING_VECTOR GetPot::unidentified_options(const STRING_VECTOR& Knowns) const { STRING_VECTOR ufos; STRING_VECTOR::const_iterator it = argv.begin(); ++it; // forget about argv[0] (application or filename) for(; it != argv.end(); ++it) { // -- argument belongs to prefixed section ? const std::string arg = __get_remaining_string(*it, prefix); if( arg == "" ) continue; // is argument really an option (starting with '-') ? if( arg.length() < 1 || arg[0] != '-' ) continue; if( __search_string_vector(Knowns, arg) == false) ufos.push_back(*it); } return ufos; } inline std::string GetPot::unidentified_flags(const char* KnownFlagList, int ArgumentNumber=-1) const // Two modes: // ArgumentNumber >= 0 check specific argument // ArgumentNumber == -1 check all options starting with one '-' // for flags { std::string ufos; STRING_VECTOR known_arguments; std::string KFL(KnownFlagList); // (2) iteration over '-' arguments (options) if( ArgumentNumber == -1 ) { STRING_VECTOR::const_iterator it = argv.begin(); ++it; // forget about argv[0] (application or filename) for(; it != argv.end(); ++it) { // -- argument belongs to prefixed section ? const std::string arg = __get_remaining_string(*it, prefix); if( arg == "" ) continue; // -- does arguments start with '-' (but not '--') if ( arg.length() < 2 ) continue; else if( arg[0] != '-' ) continue; else if( arg[1] == '-' ) continue; // -- check out if flags inside option are contained in KnownFlagList const char* p=arg.c_str(); p++; // skip starting minus for(; *p != '\0' ; p++) if( KFL.find(*p) == std::string::npos ) ufos += *p; } } // (1) check specific argument else { // -- only check arguments that start with prefix int no_matches = 0; unsigned i=1; for(; i check it for flags const char* p = Remain.c_str(); p++; // skip starting minus for(; *p != '\0' ; p++) if( KFL.find(*p) == std::string::npos ) ufos += *p; return ufos; } } } } return ufos; } inline STRING_VECTOR GetPot::unidentified_variables(unsigned Number, const char* KnownVariable1, ...) const { STRING_VECTOR known_variables; // create vector of known arguments if( Number == 0 ) return STRING_VECTOR(); va_list ap; va_start(ap, KnownVariable1); known_variables.push_back(std::string(KnownVariable1)); unsigned i=1; for(; i it is not necessary to separate requested nominus from the list return unidentified_nominuses(_requested_arguments); } inline STRING_VECTOR GetPot::unidentified_nominuses(const STRING_VECTOR& Knowns) const { STRING_VECTOR ufos; // (2) iterate over all arguments STRING_VECTOR::const_iterator it = argv.begin(); ++it; // forget about argv[0] (application or filename) for(; it != argv.end(); ++it) { // -- check if nominus part of prefix const std::string arg = __get_remaining_string(*it, prefix); if( arg == "" ) continue; if( arg.length() < 1 ) continue; // option ? --> not a nomius if( arg[0] == '-' ) continue; // section ? --> not a real nominus if( arg[0] == '[' && arg[arg.length()-1] == ']' ) continue; // variable definition ? --> not a real nominus bool continue_f = false; unsigned i=0; for(; i= value.size() ) return 0; else return &(value[Idx]); } inline void GetPot::variable::take(const char* Value, const char* FieldSeparator) { original = std::string(Value); // separate string by white space delimiters using 'strtok' // thread safe usage of strtok (no static members) char* spt = 0; // make a copy of the 'Value' char* copy = new char[strlen(Value)+1]; strcpy(copy, Value); char* follow_token = strtok_r(copy, FieldSeparator, &spt); if( value.size() != 0 ) value.erase(value.begin(), value.end()); while(follow_token != 0) { value.push_back(std::string(follow_token)); follow_token = strtok_r(NULL, FieldSeparator, &spt); } delete [] copy; } inline GetPot::variable::~variable() {} inline GetPot::variable& GetPot::variable::operator=(const GetPot::variable& That) { if( &That != this) { name = That.name; value = That.value; original = That.original; } return *this; } #undef victorate #endif // __include_guard_GETPOT_H__