Ejemplo n.º 1
0
  bool AreaAreaIndexGenerator::Import(const TypeConfigRef& typeConfig,
                                      const ImportParameter& parameter,
                                      Progress& progress)
  {
    FileScanner               scanner;
    size_t                    areas=0;         // Number of areas found
    size_t                    areasConsumed=0; // Number of areas consumed
    std::vector<double>       cellWidth;
    std::vector<double>       cellHeight;
    std::map<Pixel,AreaLeaf>  leafs;
    std::map<Pixel,AreaLeaf>  newAreaLeafs;

    cellWidth.resize(parameter.GetAreaAreaIndexMaxMag()+1);
    cellHeight.resize(parameter.GetAreaAreaIndexMaxMag()+1);

    for (size_t i=0; i<cellWidth.size(); i++) {
      cellWidth[i]=360.0/pow(2.0,(int)i);
    }

    for (size_t i=0; i<cellHeight.size(); i++) {
      cellHeight[i]=180.0/pow(2.0,(int)i);
    }

    //
    // Writing index file
    //

    progress.SetAction("Generating 'areaarea.idx'");

    FileWriter writer;
    FileOffset topLevelOffset=0;
    FileOffset topLevelOffsetOffset; // Offset of the toplevel entry

    if (!writer.Open(AppendFileToDir(parameter.GetDestinationDirectory(),
                                     "areaarea.idx"))) {
      progress.Error("Cannot create 'areaarea.idx'");
      return false;
    }

    if (!scanner.Open(AppendFileToDir(parameter.GetDestinationDirectory(),
                                         "areas.dat"),
                         FileScanner::Sequential,
                         parameter.GetWayDataMemoryMaped())) {
      progress.Error("Cannot open 'areas.dat'");
      return false;
    }

    writer.WriteNumber((uint32_t)parameter.GetAreaAreaIndexMaxMag()); // MaxMag

    if (!writer.GetPos(topLevelOffsetOffset)) {
      progress.Error("Cannot read current file position");
      return false;
    }

    if (!writer.WriteFileOffset(topLevelOffset)) {
      progress.Error("Cannot write top level entry offset");
      return false;
    }

    int l=parameter.GetAreaAreaIndexMaxMag();

    while (l>=0) {
      size_t areaLevelEntries=0;

      progress.Info(std::string("Storing level ")+NumberToString(l)+"...");

      newAreaLeafs.clear();

      SetOffsetOfChildren(leafs,newAreaLeafs);

      leafs=newAreaLeafs;

      // Areas

      if (areas==0 ||
          (areas>0 && areas>areasConsumed)) {
        uint32_t areaCount=0;

        progress.Info(std::string("Scanning areas.dat for areas of index level ")+NumberToString(l)+"...");

        if (!scanner.GotoBegin()) {
          progress.Error("Cannot go to begin of way file");
        }

        if (!scanner.Read(areaCount)) {
          progress.Error("Error while reading number of data entries in file");
          return false;
        }

        areas=0;
        for (uint32_t a=1; a<=areaCount; a++) {
          progress.SetProgress(a,areaCount);

          FileOffset offset;
          Area       area;

          scanner.GetPos(offset);

          if (!area.Read(typeConfig,
                         scanner)) {
            progress.Error(std::string("Error while reading data entry ")+
                           NumberToString(a)+" of "+
                           NumberToString(areaCount)+
                           " in file '"+
                           scanner.GetFilename()+"'");
            return false;
          }

          areas++;

          double minLon;
          double maxLon;
          double minLat;
          double maxLat;

          area.GetBoundingBox(minLon,maxLon,minLat,maxLat);

          //
          // Calculate highest level where the bounding box completely
          // fits in the cell size and assign area to the tiles that
          // hold the geometric center of the tile.
          //

          int level=parameter.GetAreaAreaIndexMaxMag();
          while (level>=0) {
            if (maxLon-minLon<=cellWidth[level] &&
                maxLat-minLat<=cellHeight[level]) {
              break;
            }

            level--;
          }

          if (level==l) {
            //
            // Renormated coordinate space (everything is >=0)
            //

            minLon+=180;
            maxLon+=180;
            minLat+=90;
            maxLat+=90;

            //
            // Calculate minimum and maximum tile ids that are covered
            // by the area
            //
            uint32_t minyc=(uint32_t)floor(minLat/cellHeight[level]);
            uint32_t maxyc=(uint32_t)ceil(maxLat/cellHeight[level]);
            uint32_t minxc=(uint32_t)floor(minLon/cellWidth[level]);
            uint32_t maxxc=(uint32_t)ceil(maxLon/cellWidth[level]);

            Entry entry;

            entry.type=area.GetType()->GetId();
            entry.offset=offset;

            // Add this area to the tile where the center of the area lies in.
            leafs[Pixel((minxc+maxxc)/2,(minyc+maxyc)/2)].areas.push_back(entry);
            areaLevelEntries++;

            areasConsumed++;
          }
        }
      }

      progress.Debug(std::string("Writing ")+NumberToString(leafs.size())+" leafs ("+
                     NumberToString(areaLevelEntries)+") "+
                     "to index of level "+NumberToString(l)+"...");

      // Remember the offset of one cell in level '0'
      if (l==0) {
        if (!writer.GetPos(topLevelOffset)) {
          progress.Error("Cannot read top level entry offset");
          return false;
        }
      }

      /*
      uint32_t minX=std::numeric_limits<uint32_t>::max();
      uint32_t minY=std::numeric_limits<uint32_t>::max();
      uint32_t maxX=std::numeric_limits<uint32_t>::min();
      uint32_t maxY=std::numeric_limits<uint32_t>::min();

      std::map<TypeId,size_t> useMap;

      for (std::map<Pixel,AreaLeaf>::const_iterator leaf=leafs.begin();
           leaf!=leafs.end();
           ++leaf) {
        minX=std::min(minX,leaf->first.x);
        maxX=std::max(maxX,leaf->first.x);
        minY=std::min(minY,leaf->first.y);
        maxY=std::max(maxY,leaf->first.y);

        for (std::list<Entry>::const_iterator entry=leaf->second.areas.begin();
             entry!=leaf->second.areas.end();
             entry++) {
          std::map<TypeId,size_t>::iterator u=useMap.find(entry->type);

          if (u==useMap.end()) {
            useMap[entry->type]=1;
          }
          else {
            u->second++;
          }
        }
      }*/

      /*
      std::cout << "[" << minX << "-" << maxX << "]x[" << minY << "-" << maxY << "] => " << leafs.size() << "/" << (maxX-minX+1)*(maxY-minY+1) << " " << (int)BytesNeededToAddressFileData(leafs.size()) << " " << ByteSizeToString(BytesNeededToAddressFileData(leafs.size())*(maxX-minX+1)*(maxY-minY+1)) << std::endl;

      for (std::map<TypeId,size_t>::const_iterator u=useMap.begin();
          u!=useMap.end();
          ++u) {
        std::cout << "* " << u->first << " " << typeConfig.GetTypeInfo(u->first).GetName() << " " << u->second << std::endl;
      }*/

      if (!WriteIndexLevel(parameter,
                           writer,
                           (int)l,
                           leafs)) {
        return false;
      }

      l--;
    }

    writer.SetPos(topLevelOffsetOffset);
    writer.WriteFileOffset(topLevelOffset);

    return !writer.HasError() && writer.Close();
  }
Ejemplo n.º 2
0
  /**
   * Scans all areas. If an areas is of one of the given merge types, index all node ids
   * into the given NodeUseMap for all outer rings of the given area.
   */
  bool MergeAreasGenerator::ScanAreaNodeIds(Progress& progress,
                                            const TypeConfig& typeConfig,
                                            FileScanner& scanner,
                                            const TypeInfoSet& mergeTypes,
                                            std::unordered_set<Id>& nodeUseMap)
  {
    uint32_t areaCount=0;

    progress.SetAction("Scanning for nodes joining areas from '"+scanner.GetFilename()+"'");

    scanner.GotoBegin();

    scanner.Read(areaCount);

    uint8_t type;
    Id      id;
    Area    data;

    std::unordered_set<Id> usedOnceSet;

    for (uint32_t current=1; current<=areaCount; current++) {
      progress.SetProgress(current,areaCount);

      scanner.Read(type);
      scanner.Read(id);

      data.ReadImport(typeConfig,
                      scanner);

      if (!mergeTypes.IsSet(data.GetType())) {
        continue;
      }

      // We insert every node id only once per area, because we want to
      // find nodes that are shared by *different* areas.

      std::unordered_set<Id> nodeIds;

      for (const auto& ring: data.rings) {
        if (!ring.IsOuterRing()) {
          continue;
        }

        for (const auto node : ring.nodes) {
          Id id=node.GetId();

          if (nodeIds.find(id)==nodeIds.end()) {
            auto entry=usedOnceSet.find(id);

            if (entry!=usedOnceSet.end()) {
              nodeUseMap.insert(id);
            }
            else {
              usedOnceSet.insert(id);
            }
            nodeIds.insert(id);
          }
        }
      }
    }

    return true;
  }