gtkgl module: drop

[xonotic/netradiant.git] / radiant / preferencedictionary.h

/*
   Copyright (C) 2001-2006, William Joseph.
   All Rights Reserved.

   This file is part of GtkRadiant.

   GtkRadiant 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.

   GtkRadiant 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 GtkRadiant; if not, write to the Free Software
   Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
 */

#if !defined( INCLUDED_PREFERENCEDICTIONARY_H )
#define INCLUDED_PREFERENCEDICTIONARY_H

#include "preferencesystem.h"
#include "xml/ixml.h"
#include "stream/stringstream.h"
#include "generic/callback.h"
#include "versionlib.h"
#include <map>

class PreferenceDictionary : public PreferenceSystem
{
class PreferenceEntry
{
Property<const char *> m_cb;
public:
PreferenceEntry( const Property<const char *>& cb )
        : m_cb( cb ){
}
void importString( const char* string ){
        m_cb.set( string );
}
void exportString( const Callback<void(const char *)> & importer ){
        m_cb.get( importer );
}
};

typedef std::map<CopiedString, PreferenceEntry> PreferenceEntries;
PreferenceEntries m_preferences;

typedef std::map<CopiedString, CopiedString> PreferenceCache;
PreferenceCache m_cache;

public:
typedef PreferenceEntries::iterator iterator;

iterator begin(){
        return m_preferences.begin();
}
iterator end(){
        return m_preferences.end();
}
iterator find( const char* name ){
        return m_preferences.find( name );
}

void registerPreference( const char* name, const Property<const char *>& cb ){
        m_preferences.insert( PreferenceEntries::value_type( name, PreferenceEntry( cb ) ) );
        PreferenceCache::iterator i = m_cache.find( name );
        if ( i != m_cache.end() ) {
                cb.set( i->second.c_str() );
                m_cache.erase( i );
        }
}

void importPref( const char* name, const char* value ){
        PreferenceEntries::iterator i = m_preferences.find( name );
        if ( i != m_preferences.end() ) {
                ( *i ).second.importString( value );
        }
        else
        {
                m_cache.erase( name );
                m_cache.insert( PreferenceCache::value_type( name, value ) );
        }
}
};

inline void XMLPreference_importString( XMLImporter& importer, const char* value ){
        importer.write( value, string_length( value ) );
}
typedef ReferenceCaller<XMLImporter, void(const char*), XMLPreference_importString> XMLPreferenceImportStringCaller;

class XMLPreferenceDictionaryExporter : public XMLExporter
{
class XMLQPrefElement : public XMLElement
{
const char* m_version;
public:
XMLQPrefElement( const char* version ) : m_version( version ){
}
const char* name() const {
        return "qpref";
}
const char* attribute( const char* name ) const {
        if ( string_equal( name, "version" ) ) {
                return m_version;
        }
        return "";
}
void forEachAttribute( XMLAttrVisitor& visitor ) const {
        visitor.visit( "version", m_version );
}
};

class XMLPreferenceElement : public XMLElement
{
const char* m_name;
public:
XMLPreferenceElement( const char* name )
        : m_name( name ){
}
const char* name() const {
        return "epair";
}
const char* attribute( const char* name ) const {
        if ( string_equal( name, "name" ) ) {
                return m_name;
        }
        return "";
}
void forEachAttribute( XMLAttrVisitor& visitor ) const {
        visitor.visit( "name", m_name );
}
};

typedef PreferenceDictionary PreferenceEntries;
PreferenceEntries& m_preferences;
const char* m_version;
public:
XMLPreferenceDictionaryExporter( PreferenceDictionary& preferences, const char* version )
        : m_preferences( preferences ), m_version( version ){
}

void exportXML( XMLImporter& importer ){
        importer.write( "\n", 1 );

        XMLQPrefElement qpref_element( m_version );
        importer.pushElement( qpref_element );
        importer.write( "\n", 1 );

        for ( PreferenceEntries::iterator i = m_preferences.begin(); i != m_preferences.end(); ++i )
        {
                XMLPreferenceElement epair_element( ( *i ).first.c_str() );

                importer.pushElement( epair_element );

                ( *i ).second.exportString( XMLPreferenceImportStringCaller( importer ) );

                importer.popElement( epair_element.name() );
                importer.write( "\n", 1 );
        }

        importer.popElement( qpref_element.name() );
        importer.write( "\n", 1 );
}
};

class XMLPreferenceDictionaryImporter : public XMLImporter
{
struct xml_state_t
{
        enum ETag
        {
                tag_qpref,
                tag_qpref_ignore,
                tag_epair,
                tag_epair_ignore
        };

        xml_state_t( ETag tag )
                : m_tag( tag ){
        }

        ETag m_tag;
        CopiedString m_name;
        StringOutputStream m_ostream;
};

typedef std::vector<xml_state_t> xml_stack_t;
xml_stack_t m_xml_stack;

typedef PreferenceDictionary PreferenceEntries;
PreferenceEntries& m_preferences;
Version m_version;
public:
XMLPreferenceDictionaryImporter( PreferenceDictionary& preferences, const char* version )
        : m_preferences( preferences ), m_version( version_parse( version ) ){
}

void pushElement( const XMLElement& element ){
        if ( m_xml_stack.empty() ) {
                if ( string_equal( element.name(), "qpref" ) ) {
                        Version dataVersion( version_parse( element.attribute( "version" ) ) );
                        if ( !version_compatible( m_version, dataVersion ) ) {
                                globalOutputStream() << "qpref import: data version " << dataVersion << " is not compatible with code version " << m_version << "\n";
                                m_xml_stack.push_back( xml_state_t::tag_qpref_ignore );
                        }
                        else
                        {
                                globalOutputStream() << "qpref import: data version " << dataVersion << " is compatible with code version " << m_version << "\n";
                                m_xml_stack.push_back( xml_state_t::tag_qpref );
                        }
                }
                else
                {
                        // not valid
                }
        }
        else
        {
                switch ( m_xml_stack.back().m_tag )
                {
                case xml_state_t::tag_qpref:
                        if ( string_equal( element.name(), "epair" ) ) {
                                m_xml_stack.push_back( xml_state_t::tag_epair );
                                m_xml_stack.back().m_name = element.attribute( "name" );
                        }
                        else
                        {
                                // not valid
                        }
                        break;
                case xml_state_t::tag_qpref_ignore:
                        if ( string_equal( element.name(), "epair" ) ) {
                                m_xml_stack.push_back( xml_state_t::tag_epair_ignore );
                        }
                        else
                        {
                                // not valid
                        }
                        break;
                case xml_state_t::tag_epair:
                case xml_state_t::tag_epair_ignore:
                        // not valid
                        break;
                }
        }

}
void popElement( const char* name ){
        if ( m_xml_stack.back().m_tag == xml_state_t::tag_epair ) {
                m_preferences.importPref( m_xml_stack.back().m_name.c_str(), m_xml_stack.back().m_ostream.c_str() );
        }
        m_xml_stack.pop_back();
}
std::size_t write( const char* buffer, std::size_t length ){
        return m_xml_stack.back().m_ostream.write( buffer, length );
}
};

#endif