/* * Copyright (C) 2002-2011 The DOSBox Team * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "dosbox.h" #include "cross.h" #include "setup.h" #include "control.h" #include "support.h" #include #include #include #include #include #include #include #include using namespace std; static std::string current_config_dir; // Set by parseconfigfile so Prop_path can use it to construct the realpath void Value::destroy() throw(){ if (type == V_STRING) delete _string; } Value& Value::copy(Value const& in) throw(WrongType) { if (this != &in) { //Selfassigment! if(type != V_NONE && type != in.type) throw WrongType(); destroy(); plaincopy(in); } return *this; } void Value::plaincopy(Value const& in) throw(){ type = in.type; _int = in._int; _double = in._double; _bool = in._bool; _hex = in._hex; if(type == V_STRING) _string = new string(*in._string); } Value::operator bool () const throw(WrongType) { if(type != V_BOOL) throw WrongType(); return _bool; } Value::operator Hex () const throw(WrongType) { if(type != V_HEX) throw WrongType(); return _hex; } Value::operator int () const throw(WrongType) { if(type != V_INT) throw WrongType(); return _int; } Value::operator double () const throw(WrongType) { if(type != V_DOUBLE) throw WrongType(); return _double; } Value::operator char const* () const throw(WrongType) { if(type != V_STRING) throw WrongType(); return _string->c_str(); } bool Value::operator==(Value const& other) { if(this == &other) return true; if(type != other.type) return false; switch(type){ case V_BOOL: if(_bool == other._bool) return true; break; case V_INT: if(_int == other._int) return true; break; case V_HEX: if(_hex == other._hex) return true; break; case V_DOUBLE: if(_double == other._double) return true; break; case V_STRING: if((*_string) == (*other._string)) return true; break; default: E_Exit("comparing stuff that doesn't make sense"); break; } return false; } bool Value::SetValue(string const& in,Etype _type) throw(WrongType) { /* Throw exception if the current type isn't the wanted type * Unless the wanted type is current. */ if(_type == V_CURRENT && type == V_NONE) throw WrongType(); if(_type != V_CURRENT) { if(type != V_NONE && type != _type) throw WrongType(); type = _type; } bool retval = true; switch(type){ case V_HEX: retval = set_hex(in); break; case V_INT: retval = set_int(in); break; case V_BOOL: retval = set_bool(in); break; case V_STRING: set_string(in); break; case V_DOUBLE: retval = set_double(in); break; case V_NONE: case V_CURRENT: default: /* Shouldn't happen!/Unhandled */ throw WrongType(); break; } return retval; } bool Value::set_hex(std::string const& in) { istringstream input(in); input.flags(ios::hex); Bits result = INT_MIN; input >> result; if(result == INT_MIN) return false; _hex = result; return true; } bool Value::set_int(string const &in) { istringstream input(in); Bits result = INT_MIN; input >> result; if(result == INT_MIN) return false; _int = result; return true; } bool Value::set_double(string const &in) { istringstream input(in); double result = std::numeric_limits::infinity(); input >> result; if(result == std::numeric_limits::infinity()) return false; _double = result; return true; } bool Value::set_bool(string const &in) { istringstream input(in); string result; input >> result; lowcase(result); _bool = true; // TODO if(!result.size()) return false; if(result=="0" || result=="disabled" || result=="false" || result=="off") { _bool = false; } else if(result=="1" || result=="enabled" || result=="true" || result=="on") { _bool = true; } else return false; return true; } void Value::set_string(string const & in) { if(!_string) _string = new string(); _string->assign(in); } string Value::ToString() const { ostringstream oss; switch(type) { case V_HEX: oss.flags(ios::hex); oss << _hex; break; case V_INT: oss << _int; break; case V_BOOL: oss << boolalpha << _bool; break; case V_STRING: oss << *_string; break; case V_DOUBLE: oss.precision(2); oss << fixed << _double; break; case V_NONE: case V_CURRENT: default: E_Exit("ToString messed up ?"); break; } return oss.str(); } bool Property::CheckValue(Value const& in, bool warn){ if(suggested_values.empty()) return true; for(iter it = suggested_values.begin();it != suggested_values.end();it++) { if ( (*it) == in) { //Match! return true; } } if(warn) LOG_MSG("\"%s\" is not a valid value for variable: %s.\nIt might now be reset to the default value: %s",in.ToString().c_str(),propname.c_str(),default_value.ToString().c_str()); return false; } void Property::Set_help(string const& in) { string result = string("CONFIG_") + propname; upcase(result); MSG_Add(result.c_str(),in.c_str()); } char const* Property::Get_help() { string result = string("CONFIG_") + propname; upcase(result); return MSG_Get(result.c_str()); } bool Prop_int::CheckValue(Value const& in, bool warn) { if(suggested_values.empty() && Property::CheckValue(in,warn)) return true; //No >= and <= in Value type and == is ambigious int mi = min; int ma = max; int va = static_cast(Value(in)); if(mi == -1 && ma == -1) return true; if (va >= mi && va <= ma) return true; if(warn) LOG_MSG("%s lies outside the range %s-%s for variable: %s.\nIt might now be reset to the default value: %s",in.ToString().c_str(),min.ToString().c_str(),max.ToString().c_str(),propname.c_str(),default_value.ToString().c_str()); return false; } bool Prop_double::SetValue(std::string const& input){ Value val; if(!val.SetValue(input,Value::V_DOUBLE)) return false; return SetVal(val,false,true); } //void Property::SetValue(char* input){ // value.SetValue(input, Value::V_CURRENT); //} bool Prop_int::SetValue(std::string const& input){; Value val; if(!val.SetValue(input,Value::V_INT)) return false; bool retval = SetVal(val,false,true); return retval; } bool Prop_string::SetValue(std::string const& input){ //Special version for lowcase stuff std::string temp(input); //suggested values always case insensitive. //If there are none then it can be paths and such which are case sensitive if(!suggested_values.empty()) lowcase(temp); Value val(temp,Value::V_STRING); return SetVal(val,false,true); } bool Prop_string::CheckValue(Value const& in, bool warn){ if(suggested_values.empty()) return true; for(iter it = suggested_values.begin();it != suggested_values.end();it++) { if ( (*it) == in) { //Match! return true; } if((*it).ToString() == "%u") { Bitu value; if(sscanf(in.ToString().c_str(),"%u",&value) == 1) { return true; } } } if(warn) LOG_MSG("\"%s\" is not a valid value for variable: %s.\nIt might now be reset it to default value: %s",in.ToString().c_str(),propname.c_str(),default_value.ToString().c_str()); return false; } bool Prop_path::SetValue(std::string const& input){ //Special version to merge realpath with it Value val(input,Value::V_STRING); bool retval = SetVal(val,false,true); if(input.empty()) { realpath = ""; return false; } std::string workcopy(input); Cross::ResolveHomedir(workcopy); //Parse ~ and friends //Prepend config directory in it exists. Check for absolute paths later if( current_config_dir.empty()) realpath = workcopy; else realpath = current_config_dir + CROSS_FILESPLIT + workcopy; //Absolute paths if (Cross::IsPathAbsolute(workcopy)) realpath = workcopy; return retval; } bool Prop_bool::SetValue(std::string const& input){ return value.SetValue(input,Value::V_BOOL); } bool Prop_hex::SetValue(std::string const& input){ Value val; val.SetValue(input,Value::V_HEX); return SetVal(val,false,true); } void Prop_multival::make_default_value(){ Bitu i = 1; Property *p = section->Get_prop(0); if(!p) return; std::string result = p->Get_Default_Value().ToString(); while( (p = section->Get_prop(i++)) ) { std::string props = p->Get_Default_Value().ToString(); if(props == "") continue; result += seperator; result += props; } Value val(result,Value::V_STRING); SetVal(val,false,true); } //TODO checkvalue stuff bool Prop_multival_remain::SetValue(std::string const& input) { Value val(input,Value::V_STRING); bool retval = SetVal(val,false,true); std::string local(input); int i = 0,number_of_properties = 0; Property *p = section->Get_prop(0); //No properties in this section. do nothing if(!p) return false; while( (section->Get_prop(number_of_properties)) ) number_of_properties++; string::size_type loc = string::npos; while( (p = section->Get_prop(i++)) ) { //trim leading seperators loc = local.find_first_not_of(seperator); if(loc != string::npos) local.erase(0,loc); loc = local.find_first_of(seperator); string in = "";//default value /* when i == number_of_properties add the total line. (makes more then * one string argument possible for parameters of cpu) */ if(loc != string::npos && i < number_of_properties) { //seperator found in = local.substr(0,loc); local.erase(0,loc+1); } else if(local.size()) { //last argument or last property in = local; local = ""; } //Test Value. If it fails set default Value valtest (in,p->Get_type()); if(!p->CheckValue(valtest,true)) { make_default_value(); return false; } p->SetValue(in); } return retval; } //TODO checkvalue stuff bool Prop_multival::SetValue(std::string const& input) { Value val(input,Value::V_STRING); bool retval = SetVal(val,false,true); std::string local(input); int i = 0; Property *p = section->Get_prop(0); //No properties in this section. do nothing if(!p) return false; string::size_type loc = string::npos; while( (p = section->Get_prop(i++)) ) { //trim leading seperators loc = local.find_first_not_of(seperator); if(loc != string::npos) local.erase(0,loc); loc = local.find_first_of(seperator); string in = "";//default value if(loc != string::npos) { //seperator found in = local.substr(0,loc); local.erase(0,loc+1); } else if(local.size()) { //last argument in = local; local = ""; } //Test Value. If it fails set default Value valtest (in,p->Get_type()); if(!p->CheckValue(valtest,true)) { make_default_value(); return false; } p->SetValue(in); } return retval; } const std::vector& Property::GetValues() const { return suggested_values; } const std::vector& Prop_multival::GetValues() const { Property *p = section->Get_prop(0); //No properties in this section. do nothing if(!p) return suggested_values; int i =0; while( (p = section->Get_prop(i++)) ) { std::vector v = p->GetValues(); if(!v.empty()) return p->GetValues(); } return suggested_values; } /* void Section_prop::Add_double(char const * const _propname, double _value) { Property* test=new Prop_double(_propname,_value); properties.push_back(test); }*/ void Property::Set_values(const char * const *in) { Value::Etype type = default_value.type; int i = 0; while (in[i]) { Value val(in[i],type); suggested_values.push_back(val); i++; } } Prop_int* Section_prop::Add_int(string const& _propname, Property::Changeable::Value when, int _value) { Prop_int* test=new Prop_int(_propname,when,_value); properties.push_back(test); return test; } Prop_string* Section_prop::Add_string(string const& _propname, Property::Changeable::Value when, char const * const _value) { Prop_string* test=new Prop_string(_propname,when,_value); properties.push_back(test); return test; } Prop_path* Section_prop::Add_path(string const& _propname, Property::Changeable::Value when, char const * const _value) { Prop_path* test=new Prop_path(_propname,when,_value); properties.push_back(test); return test; } Prop_bool* Section_prop::Add_bool(string const& _propname, Property::Changeable::Value when, bool _value) { Prop_bool* test=new Prop_bool(_propname,when,_value); properties.push_back(test); return test; } Prop_hex* Section_prop::Add_hex(string const& _propname, Property::Changeable::Value when, Hex _value) { Prop_hex* test=new Prop_hex(_propname,when,_value); properties.push_back(test); return test; } Prop_multival* Section_prop::Add_multi(std::string const& _propname, Property::Changeable::Value when,std::string const& sep) { Prop_multival* test = new Prop_multival(_propname,when,sep); properties.push_back(test); return test; } Prop_multival_remain* Section_prop::Add_multiremain(std::string const& _propname, Property::Changeable::Value when,std::string const& sep) { Prop_multival_remain* test = new Prop_multival_remain(_propname,when,sep); properties.push_back(test); return test; } int Section_prop::Get_int(string const&_propname) const { for(const_it tel=properties.begin();tel!=properties.end();tel++){ if((*tel)->propname==_propname){ return ((*tel)->GetValue()); } } return 0; } bool Section_prop::Get_bool(string const& _propname) const { for(const_it tel=properties.begin();tel!=properties.end();tel++){ if((*tel)->propname==_propname){ return ((*tel)->GetValue()); } } return false; } double Section_prop::Get_double(string const& _propname) const { for(const_it tel=properties.begin();tel!=properties.end();tel++){ if((*tel)->propname==_propname){ return ((*tel)->GetValue()); } } return 0.0; } Prop_path* Section_prop::Get_path(string const& _propname) const { for(const_it tel=properties.begin();tel!=properties.end();tel++){ if((*tel)->propname==_propname){ Prop_path* val = dynamic_cast((*tel)); if(val) return val; else return NULL; } } return NULL; } Prop_multival* Section_prop::Get_multival(string const& _propname) const { for(const_it tel=properties.begin();tel!=properties.end();tel++){ if((*tel)->propname==_propname){ Prop_multival* val = dynamic_cast((*tel)); if(val) return val; else return NULL; } } return NULL; } Prop_multival_remain* Section_prop::Get_multivalremain(string const& _propname) const { for(const_it tel=properties.begin();tel!=properties.end();tel++){ if((*tel)->propname==_propname){ Prop_multival_remain* val = dynamic_cast((*tel)); if(val) return val; else return NULL; } } return NULL; } Property* Section_prop::Get_prop(int index){ for(it tel=properties.begin();tel!=properties.end();tel++){ if(!index--) return (*tel); } return NULL; } const char* Section_prop::Get_string(string const& _propname) const { for(const_it tel=properties.begin();tel!=properties.end();tel++){ if((*tel)->propname==_propname){ return ((*tel)->GetValue()); } } return ""; } Hex Section_prop::Get_hex(string const& _propname) const { for(const_it tel=properties.begin();tel!=properties.end();tel++){ if((*tel)->propname==_propname){ return ((*tel)->GetValue()); } } return 0; } void trim(string& in) { string::size_type loc = in.find_first_not_of(" \r\t\f\n"); if(loc != string::npos) in.erase(0,loc); loc = in.find_last_not_of(" \r\t\f\n"); if(loc != string::npos) in.erase(loc+1); } //TODO double c_str bool Section_prop::HandleInputline(string const& gegevens){ string str1 = gegevens; string::size_type loc = str1.find('='); if(loc == string::npos) return false; string name = str1.substr(0,loc); string val = str1.substr(loc + 1); /* trim the results incase there were spaces somewhere */ trim(name);trim(val); for(it tel=properties.begin();tel!=properties.end();tel++){ if(!strcasecmp((*tel)->propname.c_str(),name.c_str())){ return (*tel)->SetValue(val); } } return false; } void Section_prop::PrintData(FILE* outfile) const { /* Now print out the individual section entries */ for(const_it tel=properties.begin();tel!=properties.end();tel++){ fprintf(outfile,"%s=%s\n",(*tel)->propname.c_str(),(*tel)->GetValue().ToString().c_str()); } } //TODO geen noodzaak voor 2 keer c_str string Section_prop::GetPropValue(string const& _property) const{ for(const_it tel=properties.begin();tel!=properties.end();tel++){ if(!strcasecmp((*tel)->propname.c_str(),_property.c_str())){ return (*tel)->GetValue().ToString(); } } return NO_SUCH_PROPERTY; } bool Section_line::HandleInputline(string const& line){ data+=line; data+="\n"; return true; } void Section_line::PrintData(FILE* outfile) const { fprintf(outfile,"%s",data.c_str()); } string Section_line::GetPropValue(string const& /* _property*/) const { return NO_SUCH_PROPERTY; } bool Config::PrintConfig(char const * const configfilename) const { char temp[50];char helpline[256]; FILE* outfile=fopen(configfilename,"w+t"); if(outfile==NULL) return false; /* Print start of configfile and add an return to improve readibility. */ fprintf(outfile,MSG_Get("CONFIGFILE_INTRO"),VERSION); fprintf(outfile,"\n"); for (const_it tel=sectionlist.begin(); tel!=sectionlist.end(); tel++){ /* Print out the Section header */ Section_prop *sec = dynamic_cast(*tel); strcpy(temp,(*tel)->GetName()); lowcase(temp); fprintf(outfile,"[%s]\n",temp); if (sec) { Property *p; size_t i = 0, maxwidth = 0; while ((p = sec->Get_prop(i++))) { size_t w = strlen(p->propname.c_str()); if (w > maxwidth) maxwidth = w; } i=0; char prefix[80]; snprintf(prefix,80, "\n# %*s ", maxwidth, ""); while ((p = sec->Get_prop(i++))) { std::string help = p->Get_help(); std::string::size_type pos = std::string::npos; while ((pos = help.find("\n", pos+1)) != std::string::npos) { help.replace(pos, 1, prefix); } fprintf(outfile, "# %*s: %s", maxwidth, p->propname.c_str(), help.c_str()); std::vector values = p->GetValues(); if (!values.empty()) { fprintf(outfile, "%s%s:", prefix, MSG_Get("CONFIG_SUGGESTED_VALUES")); std::vector::iterator it = values.begin(); while (it != values.end()) { if((*it).ToString() != "%u") { //Hack hack hack. else we need to modify GetValues, but that one is const... if (it != values.begin()) fputs(",", outfile); fprintf(outfile, " %s", (*it).ToString().c_str()); } ++it; } fprintf(outfile,"."); } fprintf(outfile, "\n"); } } else { upcase(temp); strcat(temp,"_CONFIGFILE_HELP"); const char * helpstr=MSG_Get(temp); char * helpwrite=helpline; while (*helpstr) { *helpwrite++=*helpstr; if (*helpstr == '\n') { *helpwrite=0; fprintf(outfile,"# %s",helpline); helpwrite=helpline; } helpstr++; } } fprintf(outfile,"\n"); (*tel)->PrintData(outfile); fprintf(outfile,"\n"); /* Always an empty line between sections */ } fclose(outfile); return true; } Section_prop* Config::AddSection_prop(char const * const _name,void (*_initfunction)(Section*),bool canchange){ Section_prop* blah = new Section_prop(_name); blah->AddInitFunction(_initfunction,canchange); sectionlist.push_back(blah); return blah; } Section_prop::~Section_prop() { //ExecuteDestroy should be here else the destroy functions use destroyed properties ExecuteDestroy(true); /* Delete properties themself (properties stores the pointer of a prop */ for(it prop = properties.begin(); prop != properties.end(); prop++) delete (*prop); } Section_line* Config::AddSection_line(char const * const _name,void (*_initfunction)(Section*)){ Section_line* blah = new Section_line(_name); blah->AddInitFunction(_initfunction); sectionlist.push_back(blah); return blah; } void Config::Init() { for (const_it tel=sectionlist.begin(); tel!=sectionlist.end(); tel++){ (*tel)->ExecuteInit(); } } void Section::AddInitFunction(SectionFunction func,bool canchange) { initfunctions.push_back(Function_wrapper(func,canchange)); } void Section::AddDestroyFunction(SectionFunction func,bool canchange) { destroyfunctions.push_front(Function_wrapper(func,canchange)); } void Section::ExecuteInit(bool initall) { typedef std::list::iterator func_it; for (func_it tel=initfunctions.begin(); tel!=initfunctions.end(); tel++) { if(initall || (*tel).canchange) (*tel).function(this); } } void Section::ExecuteDestroy(bool destroyall) { typedef std::list::iterator func_it; for (func_it tel=destroyfunctions.begin(); tel!=destroyfunctions.end(); ) { if(destroyall || (*tel).canchange) { (*tel).function(this); tel=destroyfunctions.erase(tel); //Remove destroyfunction once used } else tel++; } } Config::~Config() { reverse_it cnt=sectionlist.rbegin(); while (cnt!=sectionlist.rend()) { delete (*cnt); cnt++; } } Section* Config::GetSection(int index){ for (it tel=sectionlist.begin(); tel!=sectionlist.end(); tel++){ if (!index--) return (*tel); } return NULL; } //c_str() 2x Section* Config::GetSection(string const& _sectionname) const{ for (const_it tel=sectionlist.begin(); tel!=sectionlist.end(); tel++){ if (!strcasecmp((*tel)->GetName(),_sectionname.c_str())) return (*tel); } return NULL; } Section* Config::GetSectionFromProperty(char const * const prop) const{ for (const_it tel=sectionlist.begin(); tel!=sectionlist.end(); tel++){ if ((*tel)->GetPropValue(prop) != NO_SUCH_PROPERTY) return (*tel); } return NULL; } bool Config::ParseConfigFile(char const * const configfilename){ //static bool first_configfile = true; ifstream in(configfilename); if (!in) return false; const char * settings_type; settings_type = (configfiles.size() == 0)? "primary":"additional"; configfiles.push_back(configfilename); LOG_MSG("CONFIG:Loading %s settings from config file %s", settings_type,configfilename); //Get directory from configfilename, used with relative paths. current_config_dir=configfilename; std::string::size_type pos = current_config_dir.rfind(CROSS_FILESPLIT); if(pos == std::string::npos) pos = 0; //No directory then erase string current_config_dir.erase(pos); string gegevens; Section* currentsection = NULL; Section* testsec = NULL; while (getline(in,gegevens)) { /* strip leading/trailing whitespace */ trim(gegevens); if(!gegevens.size()) continue; switch(gegevens[0]){ case '%': case '\0': case '#': case ' ': case '\n': continue; break; case '[': { string::size_type loc = gegevens.find(']'); if(loc == string::npos) continue; gegevens.erase(loc); testsec = GetSection(gegevens.substr(1)); if(testsec != NULL ) currentsection = testsec; testsec = NULL; } break; default: try { if(currentsection) currentsection->HandleInputline(gegevens); } catch(const char* message) { message=0; //EXIT with message } break; } } current_config_dir.clear();//So internal changes don't use the path information return true; } /*const char* Config::GetPrimaryConfigFile() { return configfile.c_str(); }*/ void Config::ParseEnv(char ** envp) { for(char** env=envp; *env;env++) { char copy[1024]; safe_strncpy(copy,*env,1024); if(strncasecmp(copy,"DOSBOX_",7)) continue; char* sec_name = ©[7]; if(!(*sec_name)) continue; char* prop_name = strrchr(sec_name,'_'); if(!prop_name || !(*prop_name)) continue; *prop_name++=0; Section* sect = GetSection(sec_name); if(!sect) continue; sect->HandleInputline(prop_name); } } void Config::SetStartUp(void (*_function)(void)) { _start_function=_function; } void Config::StartUp(void) { initialised=true; (*_start_function)(); } bool CommandLine::FindExist(char const * const name,bool remove) { cmd_it it; if (!(FindEntry(name,it,false))) return false; if (remove) cmds.erase(it); return true; } bool CommandLine::FindHex(char const * const name,int & value,bool remove) { cmd_it it,it_next; if (!(FindEntry(name,it,true))) return false; it_next=it;it_next++; sscanf((*it_next).c_str(),"%X",&value); if (remove) cmds.erase(it,++it_next); return true; } bool CommandLine::FindInt(char const * const name,int & value,bool remove) { cmd_it it,it_next; if (!(FindEntry(name,it,true))) return false; it_next=it;it_next++; value=atoi((*it_next).c_str()); if (remove) cmds.erase(it,++it_next); return true; } bool CommandLine::FindString(char const * const name,std::string & value,bool remove) { cmd_it it,it_next; if (!(FindEntry(name,it,true))) return false; it_next=it;it_next++; value=*it_next; if (remove) cmds.erase(it,++it_next); return true; } bool CommandLine::FindCommand(unsigned int which,std::string & value) { if (which<1) return false; if (which>cmds.size()) return false; cmd_it it=cmds.begin(); for (;which>1;which--) it++; value=(*it); return true; } bool CommandLine::FindEntry(char const * const name,cmd_it & it,bool neednext) { for (it=cmds.begin();it!=cmds.end();it++) { if (!strcasecmp((*it).c_str(),name)) { cmd_it itnext=it;itnext++; if (neednext && (itnext==cmds.end())) return false; return true; } } return false; } bool CommandLine::FindStringBegin(char const* const begin,std::string & value, bool remove) { size_t len = strlen(begin); for (cmd_it it=cmds.begin();it!=cmds.end();it++) { if (strncmp(begin,(*it).c_str(),len)==0) { value=((*it).c_str() + len); if (remove) cmds.erase(it); return true; } } return false; } bool CommandLine::FindStringRemain(char const * const name,std::string & value) { cmd_it it;value=""; if (!FindEntry(name,it)) return false; it++; for (;it!=cmds.end();it++) { value+=" "; value+=(*it); } return true; } bool CommandLine::GetStringRemain(std::string & value) { if(!cmds.size()) return false; cmd_it it=cmds.begin();value=(*it++); for(;it != cmds.end();it++) { value+=" "; value+=(*it); } return true; } unsigned int CommandLine::GetCount(void) { return (unsigned int)cmds.size(); } void CommandLine::FillVector(std::vector & vector) { for(cmd_it it=cmds.begin(); it != cmds.end(); it++) { vector.push_back((*it)); } // add back the \" if the parameter contained a space for(Bitu i = 0; i < vector.size(); i++) { if(vector[i].find(' ') != std::string::npos) { vector[i] = "\""+vector[i]+"\""; } } } int CommandLine::GetParameterFromList(const char* const params[], std::vector & output) { // return values: 0 = P_NOMATCH, 1 = P_NOPARAMS // TODO return nomoreparams int retval = 1; output.clear(); enum { P_START, P_FIRSTNOMATCH, P_FIRSTMATCH } parsestate = P_START; cmd_it it = cmds.begin(); while(it!=cmds.end()) { bool found = false; for(Bitu i = 0; *params[i]!=0; i++) { if (!strcasecmp((*it).c_str(),params[i])) { // found a parameter found = true; switch(parsestate) { case P_START: retval = i+2; parsestate = P_FIRSTMATCH; break; case P_FIRSTMATCH: case P_FIRSTNOMATCH: return retval; } } } if(!found) switch(parsestate) { case P_START: retval = 0; // no match parsestate = P_FIRSTNOMATCH; output.push_back(*it); break; case P_FIRSTMATCH: case P_FIRSTNOMATCH: output.push_back(*it); break; } cmd_it itold = it; it++; cmds.erase(itold); } return retval; /* bool CommandLine::FindEntry(char const * const name,cmd_it & it,bool neednext) { for (it=cmds.begin();it!=cmds.end();it++) { if (!strcasecmp((*it).c_str(),name)) { cmd_it itnext=it;itnext++; if (neednext && (itnext==cmds.end())) return false; return true; } } return false; */ /* cmd_it it=cmds.begin();value=(*it++); while(it != cmds.end()) { if(params. it++; } */ // find next parameter //return -1; } CommandLine::CommandLine(int argc,char const * const argv[]) { if (argc>0) { file_name=argv[0]; } int i=1; while (i