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/*==LICENSE==*
CyanWorlds.com Engine - MMOG client, server and tools
Copyright (C) 2011 Cyan Worlds, Inc.
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 3 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, see <http://www.gnu.org/licenses/>.
You can contact Cyan Worlds, Inc. by email legal@cyan.com
or by snail mail at:
Cyan Worlds, Inc.
14617 N Newport Hwy
Mead, WA 99021
*==LICENSE==*/
#include "plConfigInfo.h"
#include "hsStlUtils.h"
#include <fstream>
#include <algorithm>
#include <stdarg.h>
#include <sstream>
const std::string& plConfigInfo::GlobalSection()
{
static std::string section("global");
return section;
}
plConfigInfo::plConfigInfo()
{
}
plConfigInfo::plConfigInfo(const plConfigInfo & src)
: fSections(src.fSections)
{
}
plConfigInfo & plConfigInfo::operator =(const plConfigInfo & src)
{
fSections = src.fSections;
return *this;
}
void plConfigInfo::Clear()
{
fSections.clear();
}
void plConfigInfo::RemoveSection(const std::string & section)
{
fSections.erase(section.c_str());
}
void plConfigInfo::RemoveKey(const std::string & section, const std::string & key)
{
Sections::iterator si = fSections.find(section.c_str());
if (si != fSections.end())
fSections[section.c_str()].RemoveKey(key);
}
bool plConfigInfo::HasSection(const std::string & section) const
{
return fSections.find(section.c_str())!=fSections.end();
}
bool plConfigInfo::HasKey(const std::string & section, const std::string & key)
{
Sections::iterator si = fSections.find(section.c_str());
if (si == fSections.end())
return false;
return (si->second.HasKey(key));
}
bool plConfigInfo::HasKeyAny(const std::string & key)
{
for (Sections::iterator si=fSections.begin(); si!=fSections.end(); ++si)
{
if (si->second.HasKey(key))
return true;
}
return false;
}
bool plConfigInfo::HasKeyIn(const std::string & key, const char * section1, ...)
{
const char * section = section1;
va_list va;
va_start(va,section1);
std::vector<std::string> sections;
while (section)
{
sections.push_back( section );
section = va_arg(va,const char *);
}
va_end(va);
return HasKeyIn( key, sections );
}
bool plConfigInfo::HasKeyIn(const std::string & key, const std::vector<std::string> & sections )
{
for ( int i=0; i<sections.size(); i++ )
{
const char * section = sections[i].c_str();
if (HasSection(section))
{
if (fSections[section].HasKey(key))
return true;
}
}
return false;
}
bool plConfigInfo::KeyHasValue(const std::string & section, const std::string & key, const std::string & value)
{
Sections::iterator si = fSections.find(section.c_str());
if (si == fSections.end())
return false;
return si->second.KeyHasValue(key,value);
}
bool plConfigInfo::KeyHasValue(const std::string & section, const std::string & key, int value)
{
Sections::iterator si = fSections.find(section.c_str());
if (si == fSections.end())
return false;
return si->second.KeyHasValue(key,value);
}
bool plConfigInfo::KeyHasValue(const std::string & section, const std::string & key, double value)
{
Sections::iterator si = fSections.find(section.c_str());
if (si == fSections.end())
return false;
return si->second.KeyHasValue(key,value);
}
bool plConfigInfo::AddValue(const std::string & section, const std::string & key, const std::string & value, KAddValueMode mode)
{
fSections[section.c_str()].AddValue(key,value,mode);
return true;
}
bool plConfigInfo::AddValue(const std::string & section, const std::string & key, int value, KAddValueMode mode)
{
char buf[20];
sprintf(buf, "%d", value);
std::string v(buf);
return AddValue(section,key,v,mode);
}
bool plConfigInfo::AddValue(const std::string & section, const std::string & key, double value, KAddValueMode mode)
{
char buf[30];
sprintf(buf, "%f", value);
std::string v(buf);
return AddValue(section,key,v,mode);
}
bool plConfigInfo::AddValues(const std::string & section, const std::string & key, const std::vector<std::string> & values, KAddValueMode mode)
{
return fSections[section.c_str()].AddValues(key,values);
}
plKeysAndValues plConfigInfo::GetSection(const std::string & section, bool & found)
{
found = HasSection(section);
if (found)
return fSections[section.c_str()];
else
return plKeysAndValues(); // empty
}
std::vector<std::string> plConfigInfo::GetSectionNames()
{
std::vector<std::string> results;
for (Sections::const_iterator ii=fSections.begin(); ii!=fSections.end(); ++ii)
results.push_back(ii->first.c_str());
return results;
}
std::string plConfigInfo::GetValue(const std::string & section, const std::string & key, const std::string & defval, bool * outFound) const
{
return fSections[section.c_str()].GetValue(key,defval,outFound);
}
int plConfigInfo::GetValue(const std::string & section, const std::string & key, int defval, bool * outFound) const
{
return fSections[section.c_str()].GetValue(key,defval,outFound);
}
double plConfigInfo::GetValue(const std::string & section, const std::string & key, double defval, bool * outFound) const
{
return fSections[section.c_str()].GetValue(key,defval,outFound);
}
std::vector<std::string> plConfigInfo::GetAllValues(const std::string & section, const std::string & key) const
{
Sections::iterator si = fSections.find(section.c_str());
if (si != fSections.end())
return si->second.GetAllValues(key);
std::vector<std::string> empty;
return empty;
}
std::string plConfigInfo::GetValueAny(const std::string & key, const std::string & defval, bool * outFound) const
{
if (outFound) *outFound=false;
for (Sections::iterator si=fSections.begin(); si!=fSections.end(); ++si)
if (si->second.HasKey(key))
return si->second.GetValue(key,defval,outFound);
return defval;
}
int plConfigInfo::GetValueAny(const std::string & key, int defval, bool * outFound) const
{
if (outFound) *outFound=false;
for (Sections::iterator si=fSections.begin(); si!=fSections.end(); ++si)
if (si->second.HasKey(key))
return si->second.GetValue(key,defval,outFound);
return defval;
}
double plConfigInfo::GetValueAny(const std::string & key, double defval, bool * outFound) const
{
if (outFound) *outFound=false;
for (Sections::iterator si=fSections.begin(); si!=fSections.end(); ++si)
if (si->second.HasKey(key))
return si->second.GetValue(key,defval,outFound);
return defval;
}
std::vector<std::string> plConfigInfo::GetAllValuesAny(const std::string & key) const
{
for (Sections::iterator si=fSections.begin(); si!=fSections.end(); ++si)
if (si->second.HasKey(key))
return si->second.GetAllValues(key);
std::vector<std::string> empty;
return empty;
}
std::string plConfigInfo::GetValueIn(const std::string & key, const std::string & defval, bool * outFound, const char * section1, ...) const
{
if (outFound) *outFound=false;
const char * section = section1;
va_list sections;
va_start(sections,section1);
while (section)
{
if (HasSection(section))
{
plKeysAndValues & kv = fSections[section];
if (kv.HasKey(key))
return kv.GetValue(key,defval,outFound);
}
section = va_arg(sections,const char *);
}
va_end(sections);
return defval;
}
std::string plConfigInfo::GetValueIn(const std::string & key, const std::string & defval, bool * outFound, const std::vector<std::string> & sections ) const
{
if (outFound) *outFound=false;
for ( int i=0; i<sections.size(); i++ )
{
if (HasSection(sections[i]))
{
plKeysAndValues & kv = fSections[sections[i].c_str()];
if (kv.HasKey(key))
return kv.GetValue(key,defval,outFound);
}
}
return defval;
}
int plConfigInfo::GetValueIn(const std::string & key, int defval, bool * outFound, const char * section1, ...) const
{
if (outFound) *outFound=false;
const char * section = section1;
va_list sections;
va_start(sections,section1);
while (section)
{
if (HasSection(section))
{
plKeysAndValues & kv = fSections[section];
if (kv.HasKey(key))
return kv.GetValue(key,defval,outFound);
}
section = va_arg(sections,const char *);
}
va_end(sections);
return defval;
}
int plConfigInfo::GetValueIn(const std::string & key, int defval, bool * outFound, const std::vector<std::string> & sections ) const
{
if (outFound) *outFound=false;
for ( int i=0; i<sections.size(); i++ )
{
if (HasSection(sections[i]))
{
plKeysAndValues & kv = fSections[sections[i].c_str()];
if (kv.HasKey(key))
return kv.GetValue(key,defval,outFound);
}
}
return defval;
}
double plConfigInfo::GetValueIn(const std::string & key, double defval, bool * outFound, const char * section1, ...) const
{
if (outFound) *outFound=false;
const char * section = section1;
va_list sections;
va_start(sections,section1);
while (section)
{
if (HasSection(section))
{
plKeysAndValues & kv = fSections[section];
if (kv.HasKey(key))
return kv.GetValue(key,defval,outFound);
}
section = va_arg(sections,const char *);
}
va_end(sections);
return defval;
}
double plConfigInfo::GetValueIn(const std::string & key, double defval, bool * outFound, const std::vector<std::string> & sections ) const
{
if (outFound) *outFound=false;
for ( int i=0; i<sections.size(); i++ )
{
if (HasSection(sections[i]))
{
plKeysAndValues & kv = fSections[sections[i].c_str()];
if (kv.HasKey(key))
return kv.GetValue(key,defval,outFound);
}
}
return defval;
}
std::vector<std::string> plConfigInfo::GetAllValuesIn(const std::string & key, const char * section1, ...)
{
const char * section = section1;
va_list sections;
va_start(sections,section1);
std::vector<std::string> result;
while (section)
{
if (HasSection(section))
{
plKeysAndValues & kv = fSections[section];
if (kv.HasKey(key))
{
std::vector<std::string> values = kv.GetAllValues(key);
result.insert(result.end(),values.begin(),values.end());
}
}
section = va_arg(sections,const char *);
}
va_end(sections);
return result;
}
bool plConfigInfo::GetSectionIterators(Sections::const_iterator & iter, Sections::const_iterator & end) const
{
iter = fSections.begin();
end = fSections.end();
return true;
}
bool plConfigInfo::GetKeyIterators(const xtl::istring & section, Keys::const_iterator & iter, Keys::const_iterator & end) const
{
Sections::const_iterator si = fSections.find(section);
if (si==fSections.end())
return false;
return fSections[section].GetKeyIterators(iter, end);
}
bool plConfigInfo::GetValueIterators(const xtl::istring & section, const xtl::istring & key, Values::const_iterator & iter, Values::const_iterator & end) const
{
Sections::const_iterator si = fSections.find(section);
if (si==fSections.end())
return false;
return fSections[section].GetValueIterators(key, iter, end);
}
bool plConfigInfo::ReadFrom(plConfigSource * src, KAddValueMode mode)
{
return src->ReadInto(*this,mode);
}
bool plConfigInfo::WriteTo(plConfigSource * src)
{
return src->WriteOutOf(*this);
}
////////////////////////////////////////////////
void plConfigSource::SplitAt(std::string & key, std::string & value, char splitter, std::string & in)
{
if(in.length() == 0)
return;
int t = in.find(splitter);
if(t == std::string::npos)
{
key = in;
return;
}
key.assign(in.substr(0,t));
value.assign(in.substr(t+1,in.size()-t-1));
}
bool plConfigSource::ReadString(const std::string & in)
{
std::string work = in;
xtl::trim(work);
// comment
if (work[0] == '#')
return true;
// comment
if (work[0] == ';')
return true;
// section
if (work[0] == '[')
{
int close = work.find_first_of("]");
if(close == std::string::npos)
return false;
fCurrSection = work.substr(1,close-1);
fEffectiveSection = fCurrSection;
return true;
}
// key=value
std::string key, value;
SplitAt(key, value, '=', work);
// dot notation makes section change for this key=value only.
int t = key.find('.');
if (t>0 && t<key.size()-1)
{
fEffectiveSection.assign(key.substr(0,t));
key.assign(key.substr(t+1));
}
bool ret=ReadPair(key, value);
fEffectiveSection = fCurrSection;
if(ret && strcmp("LoadIni",key.c_str()) == 0)
{
ret = ReadSubSource( value.c_str() );
}
return ret;
}
bool plConfigSource::ReadPair(std::string & key, std::string & value)
{
hsAssert(fConfigInfo, "plConfigSource::ProcessPair: fConfigInfo not set.");
xtl::trim(key);
xtl::trim(value);
xtl::trim(value,"\"'");
if (key.size() == 0)
return true;
return fConfigInfo->AddValue(fEffectiveSection, key, value, fAddMode);
}
bool plConfigSource::ReadList(char ** l)
{
while(*l != NULL)
{
ReadString(*l);
l++;
}
return true;
}
bool plConfigSource::ReadInto(plConfigInfo & configInfo, KAddValueMode mode)
{
fConfigInfo = &configInfo;
fAddMode = mode;
return true;
}
bool plConfigSource::WriteOutOf(plConfigInfo & configInfo)
{
fConfigInfo = &configInfo;
return true;
}
/////////////////////////////////////////////////
plCmdLineConfigSource::plCmdLineConfigSource(int argc, char ** argv, const char * mySection)
: fArgc(argc)
, fArgv(argv)
, fMySection(mySection?mySection:"")
{}
bool plCmdLineConfigSource::ReadInto(plConfigInfo & configInfo, KAddValueMode mode)
{
int argc = fArgc;
char ** argv = fArgv;
if (!plConfigSource::ReadInto(configInfo, mode))
return false;
fCurrSection = fMySection;
fEffectiveSection = fCurrSection;
if(argc < 1)
return true;
fConfigInfo->AddValue(fEffectiveSection.c_str(), "ARGV0", *argv, fAddMode);
argc--;
argv++;
while(argc > 0)
{
if(ReadString(*argv) != true)
{
// TODO: log error here
return false;
}
argv++;
argc--;
}
return true;
}
/////////////////////////////////////////////////
plEnvConfigSource::plEnvConfigSource(char ** envp, const char * mySection)
: fEnvp(envp)
, fMySection(mySection?mySection:"")
{}
bool plEnvConfigSource::ReadInto(plConfigInfo & configInfo, KAddValueMode mode)
{
if (!plConfigSource::ReadInto(configInfo, mode))
return false;
if (fEnvp != NULL)
{
fCurrSection = fMySection;
fEffectiveSection = fCurrSection;
return ReadList(fEnvp);
}
return true;
}
/////////////////////////////////////////////////
plIniConfigSource::plIniConfigSource(const char * iniFileName)
: fFileName(iniFileName)
{}
bool plIniConfigSource::ReadInto(plConfigInfo & configInfo, KAddValueMode mode)
{
if (!plConfigSource::ReadInto(configInfo, mode))
return false;
fCurrSection = plConfigInfo::GlobalSection();
fEffectiveSection = fCurrSection;
if(fFileName.size() < 2)
return false;
std::ifstream file;
file.open(fFileName.c_str());
if(!file.is_open())
{
// TODO log error here
return false;
}
char buf[4096];
while (!file.eof())
{
file.getline(buf, 4096);
if(!ReadString(buf))
{
// TODO log warning here
}
}
file.close();
return true;
}
bool plIniConfigSource::WriteOutOf(plConfigInfo & configInfo)
{
if (!plConfigSource::WriteOutOf(configInfo))
return false;
std::ofstream file;
file.open(fFileName.c_str());
if(!file.is_open())
{
// TODO log error here
return false;
}
file
<< "# This is an auto-generated file." << std::endl
<< std::endl
;
plConfigInfo::Sections::const_iterator si, se;
plConfigInfo::Keys::const_iterator ki, ke;
plConfigInfo::Values::const_iterator vi, ve;
fConfigInfo->GetSectionIterators(si,se);
for (si; si!=se; ++si)
{
file << std::endl << "[" << si->first.c_str() << "]"<< std::endl;
if (fConfigInfo->GetKeyIterators(si->first, ki, ke))
for (ki; ki!=ke; ++ki)
{
if (fConfigInfo->GetValueIterators(si->first, ki->first, vi, ve))
for (vi; vi!=ve; ++vi)
{
file << ki->first.c_str() << "=" << vi->c_str() << std::endl;
}
}
}
file.close();
return true;
}
/////////////////////////////////////////////////
plIniStreamConfigSource::plIniStreamConfigSource(hsStream * stream)
: fStream(stream)
{}
bool plIniStreamConfigSource::ReadInto(plConfigInfo & configInfo, KAddValueMode mode)
{
if (!plConfigSource::ReadInto(configInfo, mode))
return false;
fCurrSection = "global";
fEffectiveSection = fCurrSection;
if ( !fStream )
return false;
char buf[4096];
while (!fStream->AtEnd())
{
fStream->ReadLn( buf, sizeof(buf) );
if(!ReadString(buf))
{
// TODO log warning here
}
}
return true;
}
bool plIniStreamConfigSource::WriteOutOf(plConfigInfo & configInfo)
{
if (!plConfigSource::WriteOutOf(configInfo))
return false;
if ( !fStream )
return false;
std::stringstream ss;
plConfigInfo::Sections::const_iterator si, se;
plConfigInfo::Keys::const_iterator ki, ke;
plConfigInfo::Values::const_iterator vi, ve;
fConfigInfo->GetSectionIterators(si,se);
for (si; si!=se; ++si)
{
ss << std::endl << "[" << si->first.c_str() << "]"<< std::endl;
if (fConfigInfo->GetKeyIterators(si->first, ki, ke))
for (ki; ki!=ke; ++ki)
{
if (fConfigInfo->GetValueIterators(si->first, ki->first, vi, ve))
for (vi; vi!=ve; ++vi)
{
ss << ki->first.c_str() << "=" << vi->c_str() << std::endl;
}
}
}
fStream->WriteString( ss.str().c_str() );
return true;
}
/////////////////////////////////////////////////
plIniSectionConfigSource::plIniSectionConfigSource(const char * iniFileName, std::vector<std::string> & sections)
: plIniConfigSource(iniFileName)
{
for (int i=0; i<sections.size(); i++)
fSections.push_back(sections[i].c_str());
}
bool plIniSectionConfigSource::ReadPair(std::string & key, std::string & value)
{
hsAssert(fConfigInfo, "plConfigSource::ProcessPair: fConfigInfo not set.");
// the current section must be in list of sections.
std::vector<xtl::istring>::iterator ii = std::find(fSections.begin(), fSections.end(), fCurrSection.c_str());
if (ii==fSections.end())
return true;
xtl::trim(key);
xtl::trim(value);
xtl::trim(value,"\"'");
if (key.size() == 0)
return true;
if (key == "section")
fSections.push_back(value.c_str());
return fConfigInfo->AddValue(fEffectiveSection, key, value, fAddMode);
}
bool plIniSectionConfigSource::ReadSubSource( const char * name )
{
std::vector<std::string> sections;
for ( int i=0; i<fSections.size(); i++ )
sections.push_back( fSections[i].c_str() );
return fConfigInfo->ReadFrom(&plIniSectionConfigSource( name, sections ));
}
/////////////////////////////////////////////////
plIniNoSectionsConfigSource::plIniNoSectionsConfigSource(const char * filename)
: fFileName(filename)
{
fEffectiveSection = fCurrSection = "";
}
bool plIniNoSectionsConfigSource::ReadString(const std::string & in)
{
std::string work = in;
xtl::trim(work);
// ignore comments
if (work[0]=='#' || work[0]==';')
return true;
// ignore sections
if (work[0] == '[')
return true;
// parse key value
std::string key, value;
SplitAt(key, value, '=', work);
return ReadPair(key, value);
}
bool plIniNoSectionsConfigSource::ReadInto(plConfigInfo & configInfo, KAddValueMode mode)
{
if (!plConfigSource::ReadInto(configInfo, mode))
return false;
if(fFileName.size() < 2)
return false;
std::ifstream file;
file.open(fFileName.c_str());
if(!file.is_open())
{
// TODO log error here
return false;
}
char buf[4096];
while (!file.eof())
{
file.getline(buf, 4096);
if(!ReadString(buf))
{
// TODO log warning here
}
}
file.close();
return true;
}
bool plIniNoSectionsConfigSource::WriteOutOf(plConfigInfo & configInfo)
{
if (!plConfigSource::WriteOutOf(configInfo))
return false;
std::ofstream file;
file.open(fFileName.c_str());
if(!file.is_open())
{
// TODO log error here
return false;
}
file
<< "# This is an auto-generated file." << std::endl
<< std::endl
;
plConfigInfo::Sections::const_iterator si, se;
plConfigInfo::Keys::const_iterator ki, ke;
plConfigInfo::Values::const_iterator vi, ve;
fConfigInfo->GetSectionIterators(si,se);
for (si; si!=se; ++si)
{
if (fConfigInfo->GetKeyIterators(si->first, ki, ke))
for (ki; ki!=ke; ++ki)
{
if (fConfigInfo->GetValueIterators(si->first, ki->first, vi, ve))
for (vi; vi!=ve; ++vi)
{
file << ki->first.c_str() << "=" << vi->c_str() << std::endl;
}
}
}
file.close();
return true;
}
/////////////////////////////////////////////////
bool plDebugConfigSource::WriteOutOf(plConfigInfo & configInfo)
{
if (!plConfigSource::WriteOutOf(configInfo))
return false;
plConfigInfo::Sections::const_iterator si, se;
plConfigInfo::Keys::const_iterator ki, ke;
plConfigInfo::Values::const_iterator vi, ve;
char buf[1024];
fConfigInfo->GetSectionIterators(si,se);
for (si; si!=se; ++si)
{
sprintf(buf,"\n[%s]\n",si->first.c_str());
hsStatusMessage(buf);
if (fConfigInfo->GetKeyIterators(si->first, ki, ke))
for (ki; ki!=ke; ++ki)
{
if (fConfigInfo->GetValueIterators(si->first, ki->first, vi, ve))
for (vi; vi!=ve; ++vi)
{
sprintf(buf,"%s=%s\n",ki->first.c_str(),vi->c_str());
hsStatusMessage(buf);
}
}
}
return true;
}
////////////////////////////////////////////////////////////////////
void plConfigValueBase::ConfigRead(plConfigInfo * opts)
{
if (fReadEvaluate())
{
std::string value;
bool found;
value = opts->GetValue(GetConfigGroup(),GetConfigName(),"",&found);
if (found)
SetValue(fReadModify(value).c_str());
}
}
void plConfigValueBase::ConfigWrite(plConfigInfo * opts)
{
if (fWriteEvaluate())
{
opts->AddValue(GetConfigGroup(),GetConfigName(),fWriteModify(GetValue()),kAlwaysAdd);
}
}
void plConfigValueBase::SetValue(const char * value)
{
ISetValue(fSetModify(value).c_str());
}
std::string plConfigValueBase::GetValue() const
{
return fGetModify(IGetValue());
}
void plConfigValueBase::SetReadEvaluate(plClass * targetObj, TEvaluate evalFunc)
{
fReadEvaluate = plEvaluate(targetObj,evalFunc);
}
void plConfigValueBase::SetWriteEvaluate(plClass * targetObj, TEvaluate evalFunc)
{
fWriteEvaluate = plEvaluate(targetObj,evalFunc);
}
void plConfigValueBase::SetWriteEvaluate(plClass * targetObj, TEvaluateConst evalFunc)
{
fWriteEvaluate = plEvaluate(targetObj,evalFunc);
}
void plConfigValueBase::SetReadModify(plClass * targetObj, TModify modifyFunc)
{
fReadModify = plModify(targetObj,modifyFunc);
}
void plConfigValueBase::SetWriteModify(plClass * targetObj, TModify modifyFunc)
{
fWriteModify = plModify(targetObj,modifyFunc);
}
void plConfigValueBase::SetGetModify(plClass * targetObj, TModify modifyFunc)
{
fGetModify = plModify(targetObj,modifyFunc);
}
void plConfigValueBase::SetSetModify(plClass * targetObj, TModify modifyFunc)
{
fSetModify = plModify(targetObj,modifyFunc);
}
////////////////////////////////////////////////////////////////////
plConfigGroup::plConfigGroup(const char * groupName)
: fGroupName(groupName)
{}
bool plConfigGroup::Read(plConfigSource * src)
{
if (!fOpts.ReadFrom(src))
return false;
for (int i=0; i<fItems.size(); i++)
fItems[i]->ConfigRead(&fOpts);
return true;
}
bool plConfigGroup::Write(plConfigSource * src)
{
for (int i=0; i<fItems.size(); i++)
fItems[i]->ConfigWrite(&fOpts);
return fOpts.WriteTo(src);
}
void plConfigGroup::AddItem(plConfigValueBase * item, const char * name)
{
item->SetConfigGroup(fGroupName.c_str());
if (name)
item->SetConfigName(name);
fItems.push_back(item);
}
////////////////////////////////////////////////////////////////////
plConfigAggregateValue::plConfigAggregateValue(
const char * name,
plConfigValueBase * item1,
plConfigValueBase * item2,
plConfigValueBase * item3,
plConfigValueBase * item4,
plConfigValueBase * item5,
plConfigValueBase * item6,
plConfigValueBase * item7)
{
SetConfigName(name);
AddItems(item1,item2,item3,item4,item5,item6,item7);
}
void plConfigAggregateValue::AddItems(
plConfigValueBase * item1,
plConfigValueBase * item2,
plConfigValueBase * item3,
plConfigValueBase * item4,
plConfigValueBase * item5,
plConfigValueBase * item6,
plConfigValueBase * item7)
{
fItems.clear();
if (item1) AddItem(item1);
if (item2) AddItem(item2);
if (item3) AddItem(item3);
if (item4) AddItem(item4);
if (item5) AddItem(item5);
if (item6) AddItem(item6);
if (item7) AddItem(item7);
}
void plConfigAggregateValue::ISetValue(const char * value)
{
std::string work = value;
int p=0,i=0;
do
{
xtl::trim(work);
p = work.find(" ");
fItems[i]->SetValue(work.substr(0,p).c_str());
work.erase(0,p);
i++;
} while (i<fItems.size() && p!=std::string::npos);
}
std::string plConfigAggregateValue::IGetValue() const
{
std::string value;
for (int i=0; i<fItems.size(); i++)
{
value.append(fItems[i]->GetValue());
value.append(" ");
}
return xtl::trim(value);
}
void plConfigAggregateValue::AddItem(plConfigValueBase * item)
{
fItems.push_back(item);
}
////////////////////////////////////////////////////////////////////
plWWWAuthenticateConfigSource::plWWWAuthenticateConfigSource(const std::string& auth)
: fAuth(auth)
{
fEffectiveSection = fCurrSection = "";
}
bool plWWWAuthenticateConfigSource::ReadInto(plConfigInfo & configInfo, KAddValueMode mode)
{
if (!plConfigSource::ReadInto(configInfo, mode))
return false;
fCurrSection = "global";
fEffectiveSection = fCurrSection;
unsigned int i = 0;
while (i < fAuth.size())
{
bool inQuote = false;
unsigned int begin = i,end;
while (i < fAuth.size()
&& ((fAuth[i] != ',' && !inQuote) || inQuote))
{
if (fAuth[i] == '"')
inQuote = ! inQuote;
i++;
}
end = i;
std::string buf;
buf.assign(fAuth,begin,end-begin);
if(!ReadString(buf.c_str()))
{
// TODO log warning here
}
i++;
}
return true;
}