#include "precomp.hpp" #include #include using namespace std; using namespace cv; void helpParser() { printf("\nThe CommandLineParser class is designed for command line arguments parsing\n" "Keys map: \n" "Before you start to work with CommandLineParser you have to create a map for keys.\n" " It will look like this\n" " const char* keys =\n" " {\n" " { s| string| 123asd |string parameter}\n" " { d| digit | 100 |digit parameter }\n" " { c|noCamera|false |without camera }\n" " { 1| |some text|help }\n" " { 2| |333 |another help }\n" " };\n" "Usage syntax: \n" " \"{\" - start of parameter string.\n" " \"}\" - end of parameter string\n" " \"|\" - separator between short name, full name, default value and help\n" "Supported syntax: \n" " --key1=arg1 \n" " -key2=arg2 \n" "Usage: \n" " Imagine that the input parameters are next:\n" " -s=string_value --digit=250 --noCamera lena.jpg 10000\n" " CommandLineParser parser(argc, argv, keys) - create a parser object\n" " parser.get(\"s\" or \"string\") will return you first parameter value\n" " parser.get(\"s\", false or \"string\", false) will return you first parameter value\n" " without spaces in end and begin\n" " parser.get(\"d\" or \"digit\") will return you second parameter value.\n" " It also works with 'unsigned int', 'double', and 'float' types>\n" " parser.get(\"c\" or \"noCamera\") will return you true .\n" " If you enter this key in commandline>\n" " It return you false otherwise.\n" " parser.get(\"1\") will return you the first argument without parameter (lena.jpg) \n" " parser.get(\"2\") will return you the second argument without parameter (10000)\n" " It also works with 'unsigned int', 'double', and 'float' types \n" ); } vector split_string(const string& str, const string& delimiters) { vector res; string split_str = str; size_t pos_delim = split_str.find(delimiters); while ( pos_delim != string::npos) { if (pos_delim == 0) { res.push_back(""); split_str.erase(0, 1); } else { res.push_back(split_str.substr(0, pos_delim)); split_str.erase(0, pos_delim + 1); } pos_delim = split_str.find(delimiters); } res.push_back(split_str); return res; } string del_space(string name) { while ((name.find_first_of(' ') == 0) && (name.length() > 0)) name.erase(0, 1); while ((name.find_last_of(' ') == (name.length() - 1)) && (name.length() > 0)) name.erase(name.end() - 1, name.end()); return name; } CommandLineParser::CommandLineParser(int argc, const char* const argv[], const char* keys) { std::string keys_buffer; std::string values_buffer; std::string buffer; std::string curName; std::vector keysVector; std::vector paramVector; std::map >::iterator it; size_t flagPosition; int currentIndex = 1; bool isFound = false; bool withNoKey = false; bool hasValueThroughEq = false; keys_buffer = keys; while (!keys_buffer.empty()) { flagPosition = keys_buffer.find_first_of('}'); flagPosition++; buffer = keys_buffer.substr(0, flagPosition); keys_buffer.erase(0, flagPosition); flagPosition = buffer.find('{'); if (flagPosition != buffer.npos) buffer.erase(flagPosition, (flagPosition + 1)); flagPosition = buffer.find('}'); if (flagPosition != buffer.npos) buffer.erase(flagPosition); paramVector = split_string(buffer, "|"); while (paramVector.size() < 4) paramVector.push_back(""); buffer = paramVector[0]; buffer += '|' + paramVector[1]; //if (buffer == "") CV_ERROR(CV_StsBadArg, "In CommandLineParser need set short and full name"); paramVector.erase(paramVector.begin(), paramVector.begin() + 2); data[buffer] = paramVector; } buffer.clear(); keys_buffer.clear(); paramVector.clear(); for (int i = 1; i < argc; i++) { if (!argv[i]) break; curName = argv[i]; if (curName.find('-') == 0 && ((curName[1] < '0') || (curName[1] > '9'))) { while (curName.find('-') == 0) curName.erase(curName.begin(), (curName.begin() + 1)); } else withNoKey = true; if (curName.find('=') != curName.npos) { hasValueThroughEq = true; buffer = curName; curName.erase(curName.find('=')); buffer.erase(0, (buffer.find('=') + 1)); } values_buffer = del_space(values_buffer); for(it = data.begin(); it != data.end(); it++) { keys_buffer = it->first; keysVector = split_string(keys_buffer, "|"); for (size_t j = 0; j < keysVector.size(); j++) keysVector[j] = del_space(keysVector[j]); values_buffer = it->second[0]; if (((curName == keysVector[0]) || (curName == keysVector[1])) && hasValueThroughEq) { it->second[0] = buffer; isFound = true; break; } if (!hasValueThroughEq && ((curName == keysVector[0]) || (curName == keysVector[1])) && ( values_buffer.find("false") != values_buffer.npos || values_buffer == "" )) { it->second[0] = "true"; isFound = true; break; } if (!hasValueThroughEq && (values_buffer.find("false") == values_buffer.npos) && ((curName == keysVector[0]) || (curName == keysVector[1]))) { it->second[0] = argv[++i]; isFound = true; break; } if (withNoKey) { std::string noKeyStr = it->first; if(atoi(noKeyStr.c_str()) == currentIndex) { it->second[0] = curName; currentIndex++; isFound = true; break; } } } withNoKey = false; hasValueThroughEq = false; isFound = false; } } bool CommandLineParser::has(const std::string& keys) { std::map >::iterator it; std::vector keysVector; for(it = data.begin(); it != data.end(); it++) { keysVector = split_string(it->first, "|"); for (size_t i = 0; i < keysVector.size(); i++) keysVector[i] = del_space(keysVector[i]); if (keysVector.size() == 1) keysVector.push_back(""); if ((del_space(keys).compare(keysVector[0]) == 0) || (del_space(keys).compare(keysVector[1]) == 0)) return true; } return false; } std::string CommandLineParser::getString(const std::string& keys) { std::map >::iterator it; std::vector valueVector; for(it = data.begin(); it != data.end(); it++) { valueVector = split_string(it->first, "|"); for (size_t i = 0; i < valueVector.size(); i++) valueVector[i] = del_space(valueVector[i]); if (valueVector.size() == 1) valueVector.push_back(""); if ((del_space(keys).compare(valueVector[0]) == 0) || (del_space(keys).compare(valueVector[1]) == 0)) return it->second[0]; } return string(); } template _Tp CommandLineParser::fromStringNumber(const std::string& str)//the default conversion function for numbers { return getData<_Tp>(str); } void CommandLineParser::printParams() { int col_p = 30; int col_d = 50; std::map >::iterator it; std::vector keysVector; std::string buf; for(it = data.begin(); it != data.end(); it++) { keysVector = split_string(it->first, "|"); for (size_t i = 0; i < keysVector.size(); i++) keysVector[i] = del_space(keysVector[i]); cout << " "; buf = ""; if (keysVector[0] != "") { buf = "-" + keysVector[0]; if (keysVector[1] != "") buf += ", --" + keysVector[1]; } else if (keysVector[1] != "") buf += "--" + keysVector[1]; if (del_space(it->second[0]) != "") buf += "=[" + del_space(it->second[0]) + "]"; cout << setw(col_p-2) << left << buf; if ((int)buf.length() > col_p-2) { cout << endl << " "; cout << setw(col_p-2) << left << " "; } buf = ""; if (del_space(it->second[1]) != "") buf += del_space(it->second[1]); for(;;) { bool tr = ((int)buf.length() > col_d-2) ? true: false; std::string::size_type pos = 0; if (tr) { pos = buf.find_first_of(' '); for(;;) { if (buf.find_first_of(' ', pos + 1 ) < (std::string::size_type)(col_d-2) && buf.find_first_of(' ', pos + 1 ) != std::string::npos) pos = buf.find_first_of(' ', pos + 1); else break; } pos++; cout << setw(col_d-2) << left << buf.substr(0, pos) << endl; } else { cout << setw(col_d-2) << left << buf<< endl; break; } buf.erase(0, pos); cout << " "; cout << setw(col_p-2) << left << " "; } } } template<> bool CommandLineParser::get(const std::string& name, bool space_delete) { std::string str_buf = getString(name); if (space_delete && str_buf != "") { str_buf = del_space(str_buf); } if (str_buf == "true") return true; return false; } template<> std::string CommandLineParser::analyzeValue(const std::string& str, bool space_delete) { if (space_delete) { return del_space(str); } return str; } template<> int CommandLineParser::analyzeValue(const std::string& str, bool /*space_delete*/) { return fromStringNumber(str); } template<> unsigned int CommandLineParser::analyzeValue(const std::string& str, bool /*space_delete*/) { return fromStringNumber(str); } template<> uint64 CommandLineParser::analyzeValue(const std::string& str, bool /*space_delete*/) { return fromStringNumber(str); } template<> float CommandLineParser::analyzeValue(const std::string& str, bool /*space_delete*/) { return fromStringNumber(str); } template<> double CommandLineParser::analyzeValue(const std::string& str, bool /*space_delete*/) { return fromStringNumber(str); }