CWE-ou-minkata/Sources/Plasma/PubUtilLib/plContainer/plConfigInfo.cpp

/*==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/>.

Additional permissions under GNU GPL version 3 section 7

If you modify this Program, or any covered work, by linking or
combining it with any of RAD Game Tools Bink SDK, Autodesk 3ds Max SDK,
NVIDIA PhysX SDK, Microsoft DirectX SDK, OpenSSL library, Independent
JPEG Group JPEG library, Microsoft Windows Media SDK, or Apple QuickTime SDK
(or a modified version of those libraries),
containing parts covered by the terms of the Bink SDK EULA, 3ds Max EULA,
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 or by snail mail at:
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*==LICENSE==*/
#include "plConfigInfo.h"

#include "hsTypes.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;
}