Leviathan/Client/Game/pfx1.h

#ifndef _PFX1_H_
#define _PFX1_H_
#include <kfile/KFiler.h>

class KFT_pfx_emitter
{
public:
	KFT_pfx_emitter()
	{
		m_pObj = NULL;
		m_pMem_start_time = NULL;
		m_pMem_int_life_time = NULL;
		m_pMem_start_pos = NULL;
		m_pMem_velocity = NULL;
		m_pMem_bool_directional = NULL;
		m_pMem_nx3_name_size = NULL;
		m_pMem_nx3_aniname_array = NULL;
		m_pMem_nx3_filename_array = NULL;
	}
	KFT_pfx_emitter( KFiler *filer )
	{
		m_pObj = filer->CreateTemplateObject( "pfx_emitter" );
		m_pMem_start_time = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "start_time" ));
		m_pMem_int_life_time = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "int_life_time" ));
		m_pMem_start_pos = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "start_pos" ));
		m_pMem_velocity = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "velocity" ));
		m_pMem_bool_directional = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "bool_directional" ));
		m_pMem_nx3_name_size = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "nx3_name_size" ));
		m_pMem_nx3_aniname_array = reinterpret_cast<KSimpleDataArrayObject*>(m_pObj->GetMemberObject( "nx3_aniname_array" ));
		m_pMem_nx3_filename_array = reinterpret_cast<KSimpleDataArrayObject*>(m_pObj->GetMemberObject( "nx3_filename_array" ));
	}
	KFT_pfx_emitter( KTemplateDataObject *pObj )
	{
		m_pObj = pObj;
		m_pMem_start_time = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "start_time" ));
		m_pMem_int_life_time = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "int_life_time" ));
		m_pMem_start_pos = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "start_pos" ));
		m_pMem_velocity = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "velocity" ));
		m_pMem_bool_directional = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "bool_directional" ));
		m_pMem_nx3_name_size = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "nx3_name_size" ));
		m_pMem_nx3_aniname_array = reinterpret_cast<KSimpleDataArrayObject*>(m_pObj->GetMemberObject( "nx3_aniname_array" ));
		m_pMem_nx3_filename_array = reinterpret_cast<KSimpleDataArrayObject*>(m_pObj->GetMemberObject( "nx3_filename_array" ));
	}
	~KFT_pfx_emitter()
	{
	}
	void SetDataObject( KTemplateDataObject *pObj )
	{
		m_pObj = pObj;
		m_pMem_start_time = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "start_time" ));
		m_pMem_int_life_time = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "int_life_time" ));
		m_pMem_start_pos = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "start_pos" ));
		m_pMem_velocity = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "velocity" ));
		m_pMem_bool_directional = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "bool_directional" ));
		m_pMem_nx3_name_size = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "nx3_name_size" ));
		m_pMem_nx3_aniname_array = reinterpret_cast<KSimpleDataArrayObject*>(m_pObj->GetMemberObject( "nx3_aniname_array" ));
		m_pMem_nx3_filename_array = reinterpret_cast<KSimpleDataArrayObject*>(m_pObj->GetMemberObject( "nx3_filename_array" ));
	}
	unsigned long GetValue_start_time()
	{
		unsigned long res;
		m_pMem_start_time->GetDWORD( &res );
		return res;
	}
	void SetValue_start_time( unsigned long value )
	{
		m_pMem_start_time->SetDWORD( value );
	}
	float GetValue_int_life_time()
	{
		float res;
		m_pMem_int_life_time->GetFloat( &res );
		return res;
	}
	void SetValue_int_life_time( float value )
	{
		m_pMem_int_life_time->SetFloat( value );
	}
	float GetValue_start_pos()
	{
		float res;
		m_pMem_start_pos->GetFloat( &res );
		return res;
	}
	void SetValue_start_pos( float value )
	{
		m_pMem_start_pos->SetFloat( value );
	}
	float GetValue_velocity()
	{
		float res;
		m_pMem_velocity->GetFloat( &res );
		return res;
	}
	void SetValue_velocity( float value )
	{
		m_pMem_velocity->SetFloat( value );
	}
	unsigned long GetValue_bool_directional()
	{
		unsigned long res;
		m_pMem_bool_directional->GetDWORD( &res );
		return res;
	}
	void SetValue_bool_directional( unsigned long value )
	{
		m_pMem_bool_directional->SetDWORD( value );
	}
	unsigned long GetValue_nx3_name_size()
	{
		unsigned long res;
		m_pMem_nx3_name_size->GetDWORD( &res );
		return res;
	}
	void SetValue_nx3_name_size( unsigned long value )
	{
		m_pMem_nx3_name_size->SetDWORD( value );
	}
	int GetArrayCount_nx3_aniname_array()
	{
		return m_pMem_nx3_aniname_array->GetDataCount();
	}
	const char *GetArrayString_nx3_aniname_array( int index )
	{
		return m_pMem_nx3_aniname_array->GetDataString( index );
	}
	void RefreshArray_nx3_aniname_array()
	{
		m_pMem_nx3_aniname_array->RefreshArray();
	}
	bool SetArrayString_nx3_aniname_array( int index, const char *data )
	{
		return m_pMem_nx3_aniname_array->SetDataString( index, data );
	}
	int GetArrayCount_nx3_filename_array()
	{
		return m_pMem_nx3_filename_array->GetDataCount();
	}
	const char *GetArrayString_nx3_filename_array( int index )
	{
		return m_pMem_nx3_filename_array->GetDataString( index );
	}
	void RefreshArray_nx3_filename_array()
	{
		m_pMem_nx3_filename_array->RefreshArray();
	}
	bool SetArrayString_nx3_filename_array( int index, const char *data )
	{
		return m_pMem_nx3_filename_array->SetDataString( index, data );
	}
	void Save( KFiler &filer )
	{
		filer.AddDataObject( m_pObj );
	}
	static bool Check( KTemplateDataObject *pObj)
	{
		return strcmp( pObj->GetTemplateName(), "pfx_emitter" ) == 0;
	}
private:
	KTemplateDataObject*		m_pObj;
	KSimpleDataObject*		m_pMem_start_time;
	KSimpleDataObject*		m_pMem_int_life_time;
	KSimpleDataObject*		m_pMem_start_pos;
	KSimpleDataObject*		m_pMem_velocity;
	KSimpleDataObject*		m_pMem_bool_directional;
	KSimpleDataObject*		m_pMem_nx3_name_size;
	KSimpleDataArrayObject*		m_pMem_nx3_aniname_array;
	KSimpleDataArrayObject*		m_pMem_nx3_filename_array;
};
class KFTA_pfx_emitter
{
public:
	KFTA_pfx_emitter()
	{
		m_pObj = NULL;
		m_pParent = NULL;
	}
	KFTA_pfx_emitter( KTemplateDataArrayObject* pObj )
	{
		m_pObj = pObj;
		m_pParent = m_pObj->GetParent();
	}
	KFTA_pfx_emitter( KTemplateDataObject *pParent )
	{
		m_pParent = pParent;
		m_pObj = pParent->GetTemplateDataArrayMemberObject( "pfx_emitter" );
	}
	~KFTA_pfx_emitter()
	{
	}
	void SetData( KTemplateDataArrayObject *pObj )
	{
		m_pObj = pObj;
		m_pParent = m_pObj->GetParent();
	}
	void SetArrayInfo( int nCount, const char *varCount, KTemplateDataObject *pParent )
	{
		m_pObj->SetArrayInfo( nCount, varCount, pParent );
	}
	void RefreshArray()
	{
		m_pObj->RefreshArray();
	}
	int GetDataCount()
	{
		return m_pObj->GetDataCount();
	}
	void GetData( int index, KFT_pfx_emitter &obj )
	{
		obj.SetDataObject( m_pObj->GetData( index ) );
	}

private:
	KTemplateDataObject*		m_pParent;
	KTemplateDataArrayObject*		m_pObj;
};
class KFT_pfx_object
{
public:
	KFT_pfx_object()
	{
		m_pObj = NULL;
		m_pMem_point_size = NULL;
		m_pMem_point_array = NULL;
		m_pMem_total_point_vector_length = NULL;
		m_pMem_ofs_z = NULL;
		m_pMem_start_time = NULL;
		m_pMem_life_time = NULL;
		m_pMem_emitter_size = NULL;
		m_pMem_emitter_array = NULL;
		m_pMem_bool_has_polyline = NULL;
		m_pMem_polyline_width = NULL;
		m_pMem_polyline_color = NULL;
		m_pMem_polyline_texname = NULL;
	}
	KFT_pfx_object( KFiler *filer )
	{
		m_pObj = filer->CreateTemplateObject( "pfx_object" );
		m_pMem_point_size = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "point_size" ));
		m_pMem_point_array = reinterpret_cast<KSimpleDataArrayObject*>(m_pObj->GetMemberObject( "point_array" ));
		m_pMem_total_point_vector_length = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "total_point_vector_length" ));
		m_pMem_ofs_z = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "ofs_z" ));
		m_pMem_start_time = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "start_time" ));
		m_pMem_life_time = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "life_time" ));
		m_pMem_emitter_size = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "emitter_size" ));
		m_pMem_emitter_array = reinterpret_cast<KTemplateDataArrayObject*>(m_pObj->GetMemberObject( "emitter_array" ));
		m_pMem_bool_has_polyline = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "bool_has_polyline" ));
		m_pMem_polyline_width = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "polyline_width" ));
		m_pMem_polyline_color = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "polyline_color" ));
		m_pMem_polyline_texname = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "polyline_texname" ));
	}
	KFT_pfx_object( KTemplateDataObject *pObj )
	{
		m_pObj = pObj;
		m_pMem_point_size = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "point_size" ));
		m_pMem_point_array = reinterpret_cast<KSimpleDataArrayObject*>(m_pObj->GetMemberObject( "point_array" ));
		m_pMem_total_point_vector_length = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "total_point_vector_length" ));
		m_pMem_ofs_z = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "ofs_z" ));
		m_pMem_start_time = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "start_time" ));
		m_pMem_life_time = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "life_time" ));
		m_pMem_emitter_size = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "emitter_size" ));
		m_pMem_emitter_array = reinterpret_cast<KTemplateDataArrayObject*>(m_pObj->GetMemberObject( "emitter_array" ));
		m_pMem_bool_has_polyline = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "bool_has_polyline" ));
		m_pMem_polyline_width = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "polyline_width" ));
		m_pMem_polyline_color = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "polyline_color" ));
		m_pMem_polyline_texname = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "polyline_texname" ));
	}
	~KFT_pfx_object()
	{
	}
	void SetDataObject( KTemplateDataObject *pObj )
	{
		m_pObj = pObj;
		m_pMem_point_size = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "point_size" ));
		m_pMem_point_array = reinterpret_cast<KSimpleDataArrayObject*>(m_pObj->GetMemberObject( "point_array" ));
		m_pMem_total_point_vector_length = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "total_point_vector_length" ));
		m_pMem_ofs_z = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "ofs_z" ));
		m_pMem_start_time = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "start_time" ));
		m_pMem_life_time = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "life_time" ));
		m_pMem_emitter_size = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "emitter_size" ));
		m_pMem_emitter_array = reinterpret_cast<KTemplateDataArrayObject*>(m_pObj->GetMemberObject( "emitter_array" ));
		m_pMem_bool_has_polyline = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "bool_has_polyline" ));
		m_pMem_polyline_width = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "polyline_width" ));
		m_pMem_polyline_color = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "polyline_color" ));
		m_pMem_polyline_texname = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "polyline_texname" ));
	}
	unsigned long GetValue_point_size()
	{
		unsigned long res;
		m_pMem_point_size->GetDWORD( &res );
		return res;
	}
	void SetValue_point_size( unsigned long value )
	{
		m_pMem_point_size->SetDWORD( value );
	}
	int GetArrayCount_point_array()
	{
		return m_pMem_point_array->GetDataCount();
	}
	void GetArrayValue_point_array( int index, float *data, size_t data_size, int count )
	{
		m_pMem_point_array->GetDataFloat( index, data, data_size, count );
	}
	void RefreshArray_point_array()
	{
		m_pMem_point_array->RefreshArray();
	}
	void SetArrayValue_point_array( int index, const float *data, int count = 1 )
	{
		m_pMem_point_array->SetDataFloat( index, data, count );
	}
	float GetValue_total_point_vector_length()
	{
		float res;
		m_pMem_total_point_vector_length->GetFloat( &res );
		return res;
	}
	void SetValue_total_point_vector_length( float value )
	{
		m_pMem_total_point_vector_length->SetFloat( value );
	}
	float GetValue_ofs_z()
	{
		float res;
		m_pMem_ofs_z->GetFloat( &res );
		return res;
	}
	void SetValue_ofs_z( float value )
	{
		m_pMem_ofs_z->SetFloat( value );
	}
	unsigned long GetValue_start_time()
	{
		unsigned long res;
		m_pMem_start_time->GetDWORD( &res );
		return res;
	}
	void SetValue_start_time( unsigned long value )
	{
		m_pMem_start_time->SetDWORD( value );
	}
	unsigned long GetValue_life_time()
	{
		unsigned long res;
		m_pMem_life_time->GetDWORD( &res );
		return res;
	}
	void SetValue_life_time( unsigned long value )
	{
		m_pMem_life_time->SetDWORD( value );
	}
	unsigned long GetValue_emitter_size()
	{
		unsigned long res;
		m_pMem_emitter_size->GetDWORD( &res );
		return res;
	}
	void SetValue_emitter_size( unsigned long value )
	{
		m_pMem_emitter_size->SetDWORD( value );
	}
	void GetMemberTemplateArray_emitter_array( KFTA_pfx_emitter &obj )
	{
		obj.SetData( m_pMem_emitter_array );
	}
	unsigned long GetValue_bool_has_polyline()
	{
		unsigned long res;
		m_pMem_bool_has_polyline->GetDWORD( &res );
		return res;
	}
	void SetValue_bool_has_polyline( unsigned long value )
	{
		m_pMem_bool_has_polyline->SetDWORD( value );
	}
	float GetValue_polyline_width()
	{
		float res;
		m_pMem_polyline_width->GetFloat( &res );
		return res;
	}
	void SetValue_polyline_width( float value )
	{
		m_pMem_polyline_width->SetFloat( value );
	}
	unsigned long GetValue_polyline_color()
	{
		unsigned long res;
		m_pMem_polyline_color->GetDWORD( &res );
		return res;
	}
	void SetValue_polyline_color( unsigned long value )
	{
		m_pMem_polyline_color->SetDWORD( value );
	}
	bool GetString_polyline_texname( char *data, int &nLen )
	{
		return m_pMem_polyline_texname->GetString( data, nLen );
	}
	bool SetString_polyline_texname( const char *data, int nLen )
	{
		return m_pMem_polyline_texname->SetString( data, nLen );
	}
	void Save( KFiler &filer )
	{
		filer.AddDataObject( m_pObj );
	}
	static bool Check( KTemplateDataObject *pObj)
	{
		return strcmp( pObj->GetTemplateName(), "pfx_object" ) == 0;
	}
private:
	KTemplateDataObject*		m_pObj;
	KSimpleDataObject*		m_pMem_point_size;
	KSimpleDataArrayObject*		m_pMem_point_array;
	KSimpleDataObject*		m_pMem_total_point_vector_length;
	KSimpleDataObject*		m_pMem_ofs_z;
	KSimpleDataObject*		m_pMem_start_time;
	KSimpleDataObject*		m_pMem_life_time;
	KSimpleDataObject*		m_pMem_emitter_size;
	KTemplateDataArrayObject*		m_pMem_emitter_array;
	KSimpleDataObject*		m_pMem_bool_has_polyline;
	KSimpleDataObject*		m_pMem_polyline_width;
	KSimpleDataObject*		m_pMem_polyline_color;
	KSimpleDataObject*		m_pMem_polyline_texname;
};
class KFTA_pfx_object
{
public:
	KFTA_pfx_object()
	{
		m_pObj = NULL;
		m_pParent = NULL;
	}
	KFTA_pfx_object( KTemplateDataArrayObject* pObj )
	{
		m_pObj = pObj;
		m_pParent = m_pObj->GetParent();
	}
	KFTA_pfx_object( KTemplateDataObject *pParent )
	{
		m_pParent = pParent;
		m_pObj = pParent->GetTemplateDataArrayMemberObject( "pfx_object" );
	}
	~KFTA_pfx_object()
	{
	}
	void SetData( KTemplateDataArrayObject *pObj )
	{
		m_pObj = pObj;
		m_pParent = m_pObj->GetParent();
	}
	void SetArrayInfo( int nCount, const char *varCount, KTemplateDataObject *pParent )
	{
		m_pObj->SetArrayInfo( nCount, varCount, pParent );
	}
	void RefreshArray()
	{
		m_pObj->RefreshArray();
	}
	int GetDataCount()
	{
		return m_pObj->GetDataCount();
	}
	void GetData( int index, KFT_pfx_object &obj )
	{
		obj.SetDataObject( m_pObj->GetData( index ) );
	}

private:
	KTemplateDataObject*		m_pParent;
	KTemplateDataArrayObject*		m_pObj;
};
class KFT_pfx_chain_header
{
public:
	KFT_pfx_chain_header()
	{
		m_pObj = NULL;
		m_pMem_pfx_object_size = NULL;
		m_pMem_pfx_object_array = NULL;
		m_pMem_bool_directional = NULL;
		m_pMem_mag = NULL;
		m_pMem_bool_end_together = NULL;
	}
	KFT_pfx_chain_header( KFiler *filer )
	{
		m_pObj = filer->CreateTemplateObject( "pfx_chain_header" );
		m_pMem_pfx_object_size = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "pfx_object_size" ));
		m_pMem_pfx_object_array = reinterpret_cast<KTemplateDataArrayObject*>(m_pObj->GetMemberObject( "pfx_object_array" ));
		m_pMem_bool_directional = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "bool_directional" ));
		m_pMem_mag = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "mag" ));
		m_pMem_bool_end_together = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "bool_end_together" ));
	}
	KFT_pfx_chain_header( KTemplateDataObject *pObj )
	{
		m_pObj = pObj;
		m_pMem_pfx_object_size = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "pfx_object_size" ));
		m_pMem_pfx_object_array = reinterpret_cast<KTemplateDataArrayObject*>(m_pObj->GetMemberObject( "pfx_object_array" ));
		m_pMem_bool_directional = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "bool_directional" ));
		m_pMem_mag = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "mag" ));
		m_pMem_bool_end_together = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "bool_end_together" ));
	}
	~KFT_pfx_chain_header()
	{
	}
	void SetDataObject( KTemplateDataObject *pObj )
	{
		m_pObj = pObj;
		m_pMem_pfx_object_size = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "pfx_object_size" ));
		m_pMem_pfx_object_array = reinterpret_cast<KTemplateDataArrayObject*>(m_pObj->GetMemberObject( "pfx_object_array" ));
		m_pMem_bool_directional = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "bool_directional" ));
		m_pMem_mag = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "mag" ));
		m_pMem_bool_end_together = reinterpret_cast<KSimpleDataObject*>(m_pObj->GetMemberObject( "bool_end_together" ));
	}
	unsigned long GetValue_pfx_object_size()
	{
		unsigned long res;
		m_pMem_pfx_object_size->GetDWORD( &res );
		return res;
	}
	void SetValue_pfx_object_size( unsigned long value )
	{
		m_pMem_pfx_object_size->SetDWORD( value );
	}
	void GetMemberTemplateArray_pfx_object_array( KFTA_pfx_object &obj )
	{
		obj.SetData( m_pMem_pfx_object_array );
	}
	unsigned long GetValue_bool_directional()
	{
		unsigned long res;
		m_pMem_bool_directional->GetDWORD( &res );
		return res;
	}
	void SetValue_bool_directional( unsigned long value )
	{
		m_pMem_bool_directional->SetDWORD( value );
	}
	float GetValue_mag()
	{
		float res;
		m_pMem_mag->GetFloat( &res );
		return res;
	}
	void SetValue_mag( float value )
	{
		m_pMem_mag->SetFloat( value );
	}
	unsigned long GetValue_bool_end_together()
	{
		unsigned long res;
		m_pMem_bool_end_together->GetDWORD( &res );
		return res;
	}
	void SetValue_bool_end_together( unsigned long value )
	{
		m_pMem_bool_end_together->SetDWORD( value );
	}
	void Save( KFiler &filer )
	{
		filer.AddDataObject( m_pObj );
	}
	static bool Check( KTemplateDataObject *pObj)
	{
		return strcmp( pObj->GetTemplateName(), "pfx_chain_header" ) == 0;
	}
private:
	KTemplateDataObject*		m_pObj;
	KSimpleDataObject*		m_pMem_pfx_object_size;
	KTemplateDataArrayObject*		m_pMem_pfx_object_array;
	KSimpleDataObject*		m_pMem_bool_directional;
	KSimpleDataObject*		m_pMem_mag;
	KSimpleDataObject*		m_pMem_bool_end_together;
};
class KFTA_pfx_chain_header
{
public:
	KFTA_pfx_chain_header()
	{
		m_pObj = NULL;
		m_pParent = NULL;
	}
	KFTA_pfx_chain_header( KTemplateDataArrayObject* pObj )
	{
		m_pObj = pObj;
		m_pParent = m_pObj->GetParent();
	}
	KFTA_pfx_chain_header( KTemplateDataObject *pParent )
	{
		m_pParent = pParent;
		m_pObj = pParent->GetTemplateDataArrayMemberObject( "pfx_chain_header" );
	}
	~KFTA_pfx_chain_header()
	{
	}
	void SetData( KTemplateDataArrayObject *pObj )
	{
		m_pObj = pObj;
		m_pParent = m_pObj->GetParent();
	}
	void SetArrayInfo( int nCount, const char *varCount, KTemplateDataObject *pParent )
	{
		m_pObj->SetArrayInfo( nCount, varCount, pParent );
	}
	void RefreshArray()
	{
		m_pObj->RefreshArray();
	}
	int GetDataCount()
	{
		return m_pObj->GetDataCount();
	}
	void GetData( int index, KFT_pfx_chain_header &obj )
	{
		obj.SetDataObject( m_pObj->GetData( index ) );
	}

private:
	KTemplateDataObject*		m_pParent;
	KTemplateDataArrayObject*		m_pObj;
};
#endif