sapphire/src/tools/event_object_parser/main.cpp

#include <stdio.h>
#include <cstdint>
#include <string>
#include <iostream>
#include <chrono>
#include <fstream>
#include <regex>
#include <map>
#include <vector>
#include <set>
#include <variant>
#include <Util/Util.h>

#include "pcb.h"
#include "lgb.h"
#include "sgb.h"

#ifndef STANDALONE

#include <GameData.h>
#include <File.h>
#include <DatCat.h>
#include <ExdData.h>
#include <ExdCat.h>
#include <Exd.h>

#include <experimental/filesystem>

#endif

namespace fs = std::experimental::filesystem;

// garbage to ignore models
bool ignoreModels = false;
std::string gamePath( "C:\\SquareEnix\\FINAL FANTASY XIV - A Realm Reborn\\game\\sqpack" );
std::unordered_map< uint32_t, std::string > eobjNameMap;
std::unordered_map< uint16_t, std::string > zoneNameMap;
std::unordered_map< uint16_t, std::vector< std::pair< uint16_t, std::string > > > zoneInstanceMap;
uint32_t zoneId;

struct instanceContent
{
  uint32_t id;
  std::string name;
  std::string zoneName;
  uint8_t type;
};

std::vector< instanceContent > contentList;

std::set< std::string > zoneDumpList;

xiv::dat::GameData* data1 = nullptr;
xiv::exd::ExdData* eData = nullptr;

enum class TerritoryTypeExdIndexes :
  size_t
{
  TerritoryType = 0,
  Path = 1
};

using namespace std::chrono_literals;

struct face
{
  int32_t f1, f2, f3;
};

void initExd( const std::string& gamePath )
{
  data1 = data1 ? data1 : new xiv::dat::GameData( gamePath );
  eData = eData ? eData : new xiv::exd::ExdData( *data1 );
}

int parseBlockEntry( char* data, std::vector< PCB_BLOCK_ENTRY >& entries, int gOff )
{
  int offset = 0;
  bool isgroup = true;
  while( isgroup )
  {
    PCB_BLOCK_ENTRY block_entry;
    memcpy( &block_entry.header, data + offset, sizeof( block_entry.header ) );
    isgroup = block_entry.header.type == 0x30;

    //printf( " BLOCKHEADER_%X: type: %i, group_size: %i\n", gOff + offset, block_entry.header.type, block_entry.header.group_size );

    if( isgroup )
    {
      parseBlockEntry( data + offset + 0x30, entries, gOff + offset );
      offset += block_entry.header.group_size;
    }
    else
    {
      /*   printf( "\tnum_v16: %i, num_indices: %i, num_vertices: %i\n\n",
                 block_entry.header.num_v16, block_entry.header.num_indices, block_entry.header.num_vertices );*/
      int doffset = sizeof( block_entry.header ) + offset;
      uint16_t block_size = sizeof( block_entry.header ) +
                            block_entry.header.num_vertices * 3 * 4 +
                            block_entry.header.num_v16 * 6 +
                            block_entry.header.num_indices * 6;

      if( block_entry.header.num_vertices != 0 )
      {
        block_entry.data.vertices.resize( block_entry.header.num_vertices );

        int32_t size_vertexbuffer = block_entry.header.num_vertices * 3;
        memcpy( &block_entry.data.vertices[ 0 ], data + doffset, size_vertexbuffer * 4 );
        doffset += size_vertexbuffer * 4;
      }
      if( block_entry.header.num_v16 != 0 )
      {
        block_entry.data.vertices_i16.resize( block_entry.header.num_v16 );
        int32_t size_unknownbuffer = block_entry.header.num_v16 * 6;
        memcpy( &block_entry.data.vertices_i16[ 0 ], data + doffset, size_unknownbuffer );
        doffset += block_entry.header.num_v16 * 6;
      }
      if( block_entry.header.num_indices != 0 )
      {
        block_entry.data.indices.resize( block_entry.header.num_indices );
        int32_t size_indexbuffer = block_entry.header.num_indices * 12;
        memcpy( &block_entry.data.indices[ 0 ], data + doffset, size_indexbuffer );
        doffset += size_indexbuffer;
      }
      entries.push_back( block_entry );
    }
  }

  return 0;
}

void dumpLevelExdEntries( uint32_t zoneId, const std::string& name = std::string() )
{
  static auto& cat = eData->get_category( "Level" );
  static auto exd = static_cast< xiv::exd::Exd >( cat.get_data_ln( xiv::exd::Language::none ) );

  std::string fileName( name + "_" + std::to_string( zoneId ) + "_Level" + ".csv" );
  std::ofstream outfile( fileName, std::ios::trunc );
  std::cout << "[Info] Writing level.exd entries to " << fileName << "\n";
  if( outfile.good() )
  {
    outfile.close();
    outfile.open( fileName, std::ios::app );
    static auto rows = exd.get_rows();
    for( auto& row : rows )
    {
      auto id = row.first;
      auto& fields = row.second;
      auto x = std::get< float >( fields.at( 0 ) );
      auto y = std::get< float >( fields.at( 1 ) );
      auto z = std::get< float >( fields.at( 2 ) );
      auto yaw = std::get< float >( fields.at( 3 ) );
      auto radius = std::get< float >( fields.at( 4 ) );
      auto type = std::get< uint8_t >( fields.at( 5 ) );
      auto objectid = std::get< uint32_t >( fields.at( 6 ) );
      auto zone = std::get< uint16_t >( fields.at( 9 ) );

      if( zone == zoneId )
      {
        std::string outStr(
          std::to_string( id ) + ", " + std::to_string( objectid ) + ", " +
          std::to_string( x ) + ", " + std::to_string( y ) + ", " + std::to_string( z ) + ", " +
          std::to_string( yaw ) + ", " + std::to_string( radius ) + ", " + std::to_string( type ) + "\n"
        );
        outfile.write( outStr.c_str(), outStr.size() );
      }
    }
  }
}

std::string zoneNameToPath( const std::string& name )
{
  std::string path;
  bool found = false;

#ifdef STANDALONE
  auto inFile = std::ifstream( "territorytype.exh.csv" );
  if( inFile.good() )
  {
     std::string line;
     std::regex re( "(\\d+),\"(.*)\",\"(.*)\",.*" );
     while( std::getline( inFile, line ) )
     {
        std::smatch match;
        if( std::regex_match( line, match, re )
        {
           auto tmpId = std::stoul( match[1].str() );
           if( !found && name == match[2].str() )
           {
              zoneId = tmpId;
              path = match[3].str();
              found = true;
           }
           zoneNameMap[tmpId] = match[2].str();
        }
     }
     inFile.close();
  }
#else

  auto& cat = eData->get_category( "TerritoryType" );
  auto exd = static_cast< xiv::exd::Exd >( cat.get_data_ln( xiv::exd::Language::none ) );
  for( auto& row : exd.get_rows() )
  {
    auto& fields = row.second;
    auto teriName = std::get< std::string >(
      fields.at( static_cast< size_t >( TerritoryTypeExdIndexes::TerritoryType ) ) );
    if( teriName.empty() )
      continue;
    auto teriPath = std::get< std::string >( fields.at( static_cast< size_t >( TerritoryTypeExdIndexes::Path ) ) );
    if( !found && ( Sapphire::Util::toLowerCopy( name) == Sapphire::Util::toLowerCopy( teriName ) ) )
    {
      path = teriPath;
      found = true;
      zoneId = row.first;
    }
    zoneNameMap[ row.first ] = teriName;
  }
#endif

  if( found )
  {
    //path = path.substr( path.find_first_of( "/" ) + 1, path.size() - path.find_first_of( "/" ));
    //path = std::string( "ffxiv/" ) + path;
    path = std::string( "bg/" ) + path.substr( 0, path.find( "/level/" ) );
    std::cout << "[Info] " << "Found path for " << name << ": " << path << std::endl;
  }
  else
  {
    throw std::runtime_error( "Unable to find path for " + name +
                              ".\n\tPlease double check spelling or open 0a0000.win32.index with FFXIV Explorer and extract territorytype.exh as CSV\n\tand copy territorytype.exh.csv into pcb_reader.exe directory if using standalone" );
  }

  return path;
}

void loadEobjNames()
{
  auto& cat = eData->get_category( "EObjName" );
  auto exd = static_cast< xiv::exd::Exd >( cat.get_data_ln( xiv::exd::Language::en ) );
  for( auto& row : exd.get_rows() )
  {
    auto id = row.first;
    auto& fields = row.second;
    auto name = std::get< std::string >( fields.at( 0 ) );

    if( !name.empty() )
      eobjNameMap[ id ] = name;
  }
}

void writeEobjEntry( std::ofstream& out, LGB_ENTRY* pObj )
{
  static std::string mapRangeStr( "\"MapRange\", " );
  static std::string eobjStr( "\"EObj\", " );

  uint32_t id;
  uint32_t unknown = 0, unknown2 = 0;
  std::string name;
  std::string typeStr;
  uint32_t eobjlevelHierachyId = 0;

  if( pObj->getType() == LgbEntryType::EventObject )
  {
    auto pEobj = reinterpret_cast< LGB_EOBJ_ENTRY* >( pObj );
    id = pEobj->header.eobjId;
    unknown = pEobj->header.unknown;
    name = eobjNameMap[ id ];
    typeStr = eobjStr;
    eobjlevelHierachyId = pEobj->header.levelHierachyId;
  }
  else if( pObj->getType() == LgbEntryType::MapRange )
  {
    auto pMapRange = reinterpret_cast< LGB_MAPRANGE_ENTRY* >( pObj );
    id = pMapRange->header.unknown;
    unknown = pMapRange->header.unknown2;
    unknown2 = pMapRange->header.unknown3;
    typeStr = mapRangeStr;
  }

  std::string outStr(
    std::to_string( id ) + ", " + typeStr + "\"" + name + "\", " +
    std::to_string( pObj->header.translation.x ) + ", " + std::to_string( pObj->header.translation.y ) + ", " +
    std::to_string( pObj->header.translation.z ) +
    ", " + std::to_string( eobjlevelHierachyId ) + "\n"
  );
  out.write( outStr.c_str(), outStr.size() );
}

void loadAllInstanceContentEntries()
{
  auto& catInstance = eData->get_category( "ContentFinderCondition" );
  auto& territoryTypeSheet = eData->get_category( "TerritoryType" );
  auto& instanceContentSheet = eData->get_category( "InstanceContent" );

  auto exdInstance = static_cast< xiv::exd::Exd >( catInstance.get_data_ln( xiv::exd::Language::en ) );
  auto instanceContentData = static_cast< xiv::exd::Exd >( instanceContentSheet.get_data_ln( xiv::exd::Language::en ) );

  if( zoneNameMap.size() == 0 )
  {
    zoneNameToPath( "f1d1" );
  }

  std::ofstream out( "instancecontent.csv", std::ios::trunc );
  if( out.good() )
  {
    out.close();
  }
  out.open( "instancecontent.csv", std::ios::app );
  if( !out.good() )
  {
    throw std::runtime_error( "Unable to create instancecontent.csv!" );
  }
  std::cout << "[Info] Writing instancecontent.csv\n";

  for( auto& row : exdInstance.get_rows() )
  {
    auto id = row.first;
    auto& fields = row.second;

    auto contentLinkType = std::get< uint8_t >( fields.at( 2 ) );
    auto contentLink = std::get< uint16_t >( fields.at( 3 ) );

    std::string name;
    uint8_t type = 0;

    if( contentLinkType == 1 )
    {
      // instancecontent
      auto row = instanceContentData.get_row( contentLink );

      name = std::get< std::string >( row.at( 3 ) );
      type = std::get< uint8_t >( row.at( 0 ) );
      id = contentLink;
    }
//    else if( contentLinkType == 2 )
//    {
//      // partycontent
//      auto row = partyContentData.get_row( contentLink );
//
//      name = std::get< std::string >( row.at( 2 ) );
//    }
//    else if( contentLinkType == 3 )
//    {
//      // publiccontent
//      auto row = publicContentData.get_row( contentLink );
//
//      name = std::get< std::string >( row.at( 3 ) );
//    }
//    else if( contentLinkType == 4 )
//    {
//      // goldsaucercontent
//    }
    else
    {
      continue;
    }


    if( name.empty() )
      continue;

    auto teri = std::get< uint16_t >( fields.at( 1 ) );
    auto i = 0;
    while( ( i = name.find( ' ' ) ) != std::string::npos )
      name = name.replace( name.begin() + i, name.begin() + i + 1, { '_' } );
    std::string outStr(
      std::to_string( id ) + ", \"" + name + "\", \"" + zoneNameMap[ teri ] + "\"," + std::to_string( teri ) + "\n"
    );
    out.write( outStr.c_str(), outStr.size() );
    //zoneInstanceMap[zoneId].push_back( std::make_pair( id, name ) );
    zoneDumpList.emplace( zoneNameMap[ teri ] );

    std::string remove = "★_ '()[]-\x1a\x1\x2\x1f\x1\x3.:";
    Sapphire::Util::eraseAllIn( name, remove );
    name[ 0 ] = toupper( name[ 0 ] );
    contentList.push_back( { id, name, zoneNameMap[ teri ], type } );
  }
  out.close();
}

void readFileToBuffer( const std::string& path, std::vector< char >& buf )
{
  auto inFile = std::ifstream( path, std::ios::binary );
  if( inFile.good() )
  {
    inFile.seekg( 0, inFile.end );
    int32_t fileSize = ( int32_t ) inFile.tellg();
    buf.resize( fileSize );
    inFile.seekg( 0, inFile.beg );
    inFile.read( &buf[ 0 ], fileSize );
    inFile.close();
  }
  else
  {
    throw std::runtime_error( "Unable to open " + path );
  }
}

int main( int argc, char* argv[] )
{
  auto startTime = std::chrono::system_clock::now();
  auto entryStartTime = std::chrono::system_clock::now();

  std::vector< std::string > argVec( argv + 1, argv + argc );
  // todo: support expansions
  std::string zoneName = "r2t2";
  bool dumpInstances = ignoreModels = std::remove_if( argVec.begin(), argVec.end(), []( auto arg )
  { return arg == "--instance-dump"; } ) != argVec.end();
  ignoreModels = true;
  dumpInstances = true;
  if( argc > 1 )
  {
    zoneName = argv[ 1 ];
    if( argc > 2 )
    {
      std::string tmpPath( argv[ 2 ] );
      if( !tmpPath.empty() )
        gamePath = argv[ 2 ];
    }
  }

  std::map< uint8_t, std::string > instanceContentTypeMap;
  instanceContentTypeMap[ 0 ] = "";
  instanceContentTypeMap[ 1 ] = "raids";
  instanceContentTypeMap[ 2 ] = "dungeons";
  instanceContentTypeMap[ 3 ] = "guildhests";
  instanceContentTypeMap[ 4 ] = "trials";
  instanceContentTypeMap[ 5 ] = "pvp/thefeast";
  instanceContentTypeMap[ 6 ] = "pvp";
  instanceContentTypeMap[ 7 ] = "questbattles";
  instanceContentTypeMap[ 8 ] = "hallofthenovice";
  instanceContentTypeMap[ 9 ] = "deepdungeon";
  instanceContentTypeMap[ 10 ] = "treasurehunt";
  instanceContentTypeMap[ 11 ] = "events";
  instanceContentTypeMap[ 12 ] = "pvp/rivalwings";
  instanceContentTypeMap[ 13 ] = "maskedcarnivale"; // todo: better name?
  instanceContentTypeMap[ 14 ] = "goldsaucer/mahjong";
  instanceContentTypeMap[ 15 ] = "goldsaucer";

  if( !fs::exists( "instance.tmpl" ) )
    throw std::runtime_error( "instance.tmpl is missing in working directory" );

  initExd( gamePath );
  if( dumpInstances )
  {
    loadAllInstanceContentEntries();
  }
  else
  {
    zoneDumpList.emplace( zoneName );
  }

  for( auto entry : contentList )
  {
    std::string eobjects = "";
    entryStartTime = std::chrono::system_clock::now();
    zoneName = entry.zoneName;
    try
    {
      const auto& zonePath = zoneNameToPath( zoneName );

      std::string listPcbPath( zonePath + "/collision/list.pcb" );
      std::string bgLgbPath( zonePath + "/level/bg.lgb" );
      std::string planmapLgbPath( zonePath + "/level/planmap.lgb" );
      std::string collisionFilePath( zonePath + "/collision/" );
      std::vector< char > section;
      std::vector< char > section1;
      std::vector< char > section2;

#ifndef STANDALONE
      const xiv::dat::Cat& test = data1->getCategory( "bg" );

      auto test_file = data1->getFile( bgLgbPath );
      section = test_file->access_data_sections().at( 0 );

      auto planmap_file = data1->getFile( planmapLgbPath );
      section2 = planmap_file->access_data_sections().at( 0 );

#else
      {
         readFileToBuffer( bgLgbPath, section );
         readFileToBuffer( listPcbPath, section1 );
      }
#endif

      std::vector< std::string > stringList;

      uint32_t offset1 = 0x20;

      loadEobjNames();
      //dumpLevelExdEntries( zoneId, zoneName );
//      std::string eobjFileName( entry.name + "_eobj.csv" );
//      std::ofstream eobjOut( eobjFileName, std::ios::trunc );
//      if( !eobjOut.good() )
//        throw std::string( "Unable to create " + zoneName +
//                           "_eobj.csv for eobj entries. Run as admin or check there isnt already a handle on the file." ).c_str();
//
//      eobjOut.close();
//      eobjOut.open( eobjFileName, std::ios::app );
//
//      if( !eobjOut.good() )
//        throw std::string( "Unable to create " + zoneName +
//                           "_eobj.csv for eobj entries. Run as admin or check there isnt already a handle on the file." ).c_str();

      LGB_FILE bgLgb( &section[ 0 ], "bg" );
      LGB_FILE planmapLgb( &section2[ 0 ], "planmap" );

      std::vector< LGB_FILE > lgbList{ bgLgb, planmapLgb };
      uint32_t max_index = 0;

      //if( ignoreModels )
      {
        std::map< std::string, SGB_FILE > sgbFiles;

        auto loadSgbFile = [ & ]( const std::string& fileName )->bool
        {
          SGB_FILE sgbFile;
          try
          {
            char* dataSection = nullptr;
            //std::cout << fileName << " ";
#ifndef STANDALONE
            auto file = data1->getFile( fileName );
            auto sections = file->get_data_sections();
            dataSection = &sections.at( 0 )[ 0 ];
#else
            std::vector< char > buf;
            readFileToBuffer( fileName, buf );
            dataSection = &buf[0];
#endif
            sgbFile = SGB_FILE( &dataSection[ 0 ] );
            sgbFiles.insert( std::make_pair( fileName, sgbFile ) );
            return true;
          }
          catch( std::exception& e )
          {
            std::cout << "[Error] " << "Unable to load SGB " << fileName << "\n\tError:\n\t" << e.what() << "\n";
            sgbFiles.insert( std::make_pair( fileName, sgbFile ) );
          }
          return false;
        };

        std::cout << "[Info] " << ( ignoreModels ? "Dumping MapRange and EObj" : "Writing obj file " ) << "\n";
        uint32_t totalGroups = 0;
        uint32_t totalGroupEntries = 0;

        uint32_t count = 0;
        for( const auto& lgb : lgbList )
        {
          std::map< std::string, uint32_t > nameMap;
          for( const auto& group : lgb.groups )
          {
            //std::cout << "\t" << group.name << " Size " << group.header.entryCount << "\n";
            totalGroups++;
            for( const auto& pEntry : group.entries )
            {
              auto pGimmick = dynamic_cast< LGB_GIMMICK_ENTRY* >( pEntry.get() );
              auto pBgParts = dynamic_cast< LGB_BGPARTS_ENTRY* >( pEntry.get() );

              std::string fileName( "" );
              fileName.resize( 256 );
              totalGroupEntries++;

              if( pEntry->getType() == LgbEntryType::EventObject )
              {
                auto pObj = pEntry.get();
                static std::string eobjStr( "\"EObj\", " );

                uint32_t id;
                uint32_t unknown = 0, unknown2 = 0;
                std::string name;
                std::string typeStr;
                uint32_t eobjlevelHierachyId = 0;

                auto pEobj = reinterpret_cast< LGB_EOBJ_ENTRY* >( pObj );
                id = pEobj->header.eobjId;
                unknown = pEobj->header.unknown;


                typeStr = eobjStr;
                eobjlevelHierachyId = pEobj->header.levelHierachyId;

                std::string states = "";
                std::string gimmickName = "";
                for( const auto& pEntry1 : group.entries )
                {
                  auto pGObj = pEntry1.get();
                  if( pGObj->getType() == LgbEntryType::Gimmick )
                  {
                    if( pGObj->header.unknown == pEobj->header.levelHierachyId )
                    {
                      auto pGObjR = reinterpret_cast< LGB_GIMMICK_ENTRY* >( pGObj );
                      char* dataSection = nullptr;
                      //std::cout << fileName << " ";

                      auto file = data1->getFile( pGObjR->gimmickFileName );
                      auto sections = file->get_data_sections();
                      dataSection = &sections.at( 0 )[ 0 ];
                      auto sgbFile = SGB_FILE( &dataSection[ 0 ] );

                      auto pos = pGObjR->gimmickFileName.find_last_of( "/" );

                      if( pos != std::string::npos )
                      {
                        name = pGObjR->gimmickFileName.substr( pos + 1 );
                        name = name.substr( 0, name.length() - 4 );
                        gimmickName = name;
                      }

                      if( sgbFile.stateEntries.size() > 0 )
                      {
                        states = "    // States -> ";
                        for( auto entries1 : sgbFile.stateEntries )
                        {
                          states += entries1.name + " (id: " + std::to_string( entries1.header.id ) + ") ";
                        }
                        states += "\n";
                      }

                      break;

                    }
                  }
                }
                int state = 4;

                if( eobjNameMap.find( id ) != eobjNameMap.end() )
                {
                  name = eobjNameMap[ id ];
                  std::string remove = "★_ '()[]-\x1a\x1\x2\x1f\x1\x3.:";
                  Sapphire::Util::eraseAllIn( name, remove );

                  name[ 0 ] = toupper( name[ 0 ] );
                }
                if( name.empty() )
                  name = "unknown_" + std::to_string( count++ );

                if( id == 2000182 || gimmickName == "sgvf_w_lvd_b0095" )
                {
                  state = 5;
                  name = "Entrance";
                }

                auto count1 = 0;
                if( nameMap.find( name ) == nameMap.end() )
                {
                  nameMap[ name ] = 0;
                }
                else
                {
                  nameMap[ name ] = ++nameMap[ name ];
                  count1 = nameMap[ name ];
                }

                if( count1 > 0 )
                  name = name + "_" + std::to_string( count1 );

                eobjects += "    instance.registerEObj( \"" + name + "\", " + std::to_string( id ) +
                            ", " + std::to_string( eobjlevelHierachyId ) + ", " + std::to_string( state ) +
                            ", " +
                            "{ " + std::to_string( pObj->header.translation.x ) + "f, "
                            + std::to_string( pObj->header.translation.y ) + "f, "
                            + std::to_string( pObj->header.translation.z ) + "f }, " +
                            std::to_string( pObj->header.scale.x ) + "f, " +

                            // for whatever reason, the rotation inside the sgbs is the inverse of what the game uses
                            std::to_string( pObj->header.rotation.y * -1.f ) + "f ); \n" + states;


                std::string outStr(
                  std::to_string( id ) + ", " + typeStr + "\"" + name + "\", " +
                  std::to_string( pObj->header.translation.x ) + ", " +
                  std::to_string( pObj->header.translation.y ) + ", " +
                  std::to_string( pObj->header.translation.z ) + ", " +
                  std::to_string( eobjlevelHierachyId ) + "\n"
                );
                //eobjOut.write( outStr.c_str(), outStr.size() );
              }
            }
          }
        }
        std::cout << "[Info] " << "Total Groups " << totalGroups << " Total entries " << totalGroupEntries << "\n";
      }
      std::cout << "[Success] " << "Exported " << zoneName << " in " <<
                std::chrono::duration_cast< std::chrono::seconds >(
                  std::chrono::system_clock::now() - entryStartTime ).count() << " seconds\n";
    }
    catch( std::exception& e )
    {
      std::cout << "[Error] " << e.what() << std::endl;
      std::cout << "[Error] "
                << "Unable to extract collision data.\n\tIf using standalone ensure your working directory folder layout is \n\tbg/[ffxiv|ex1|ex2]/teri/type/zone/[level|collision]"
                << std::endl;
      std::cout << std::endl;
      std::cout << "[Info] " << "Usage: pcb_reader2 territory \"path/to/game/sqpack/ffxiv\" " << std::endl;
    }
    std::cout << "\n\n\n";

    std::ifstream t( "instance.tmpl" );
    std::string instanceTpl( ( std::istreambuf_iterator< char >( t ) ),
                             std::istreambuf_iterator< char >() );

    auto result = std::regex_replace( instanceTpl, std::regex( "\\INSTANCE_NAME" ), entry.name );
    result = std::regex_replace( result, std::regex( "\\INSTANCE_ID" ), std::to_string( entry.id ) );
    result = std::regex_replace( result, std::regex( "\\EOBJ_INIT" ), eobjects );


    std::string subdir = "";

    auto subdirIt = instanceContentTypeMap.find( entry.type );
    if( subdirIt != instanceContentTypeMap.end() )
      subdir = subdirIt->second + "/";

    fs::path outDir( "instances/" + subdir );
    fs::create_directories( outDir );

    std::ofstream outH( outDir.string() + entry.name + ".cpp" );
    outH << result;
    outH.close();

  }


  std::cout << "\n\n\n[Success] Finished all tasks in " <<
            std::chrono::duration_cast< std::chrono::seconds >( std::chrono::system_clock::now() - startTime ).count()
            << " seconds\n";

//  getchar();

  if( eData )
    delete eData;
  if( data1 )
    delete data1;
  return 0;
}