示例#1
0
  /**
   * Return the parent tile.
   *
   * Note that the parent tile will cover a 4 times bigger region than the current tile.
   *
   * Note that for tiles with level 0 no parent tile will exist. The method will assert in this case!
   */
  TileId TileId::GetParent() const
  {
    Magnification zoomedOutMagnification;

    assert(magnification.GetLevel()>0);

    zoomedOutMagnification.SetLevel(magnification.GetLevel()-1);

    return TileId(zoomedOutMagnification,x/2,y/2);
  }
  bool OptimizeAreasLowZoomGenerator::HandleAreas(const ImportParameter& parameter,
                                                  Progress& progress,
                                                  const TypeConfig& typeConfig,
                                                  FileWriter& writer,
                                                  const TypeInfoSet& types,
                                                  std::list<TypeData>& typesData)
  {
    FileScanner scanner;
    // Everything smaller than 2mm should get dropped. Width, height and DPI come from the Nexus 4
    double dpi=320.0;
    double pixel=2.0/* mm */ * dpi / 25.4 /* inch */;

    progress.Info("Minimum visible size in pixel: "+NumberToString((unsigned long)pixel));

    try {
      scanner.Open(AppendFileToDir(parameter.GetDestinationDirectory(),
                                   AreaDataFile::AREAS_DAT),
                   FileScanner::Sequential,
                   parameter.GetWayDataMemoryMaped());

      TypeInfoSet                      typesToProcess(types);
      std::vector<std::list<AreaRef> > allAreas(typeConfig.GetTypeCount());

      while (true) {
        //
        // Load type data
        //

        TypeInfoSet loadedTypes;

        if (!GetAreas(typeConfig,
                      parameter,
                      progress,
                      scanner,
                      typesToProcess,
                      allAreas,
                      loadedTypes)) {
          return false;
        }

        typesToProcess.Remove(loadedTypes);

        for (const auto& type : loadedTypes) {
          progress.SetAction("Optimizing type "+ type->GetName());

          for (uint32_t level=parameter.GetOptimizationMinMag();
               level<=parameter.GetOptimizationMaxMag();
               level++) {
            Magnification      magnification; // Magnification, we optimize for
            std::list<AreaRef> optimizedAreas;

            magnification.SetLevel(level);

            OptimizeAreas(allAreas[type->GetIndex()],
                          optimizedAreas,
                          1280,768,
                          dpi,
                          pixel,
                          magnification,
                          parameter.GetOptimizationWayMethod());

            if (optimizedAreas.empty()) {
              progress.Debug("Empty optimization result for level "+NumberToString(level)+", no index generated");

              TypeData typeData;

              typeData.type=type;
              typeData.optLevel=level;

              typesData.push_back(typeData);

              continue;
            }

            progress.Info("Optimized from "+NumberToString(allAreas[type->GetIndex()].size())+" to "+NumberToString(optimizedAreas.size())+" areas");

            /*
            size_t optAreas=optimizedAreas.size();
            size_t optRoles=0;
            size_t optNodes=0;

            for (std::list<AreaRef>::const_iterator a=optimizedAreas.begin();
                a!=optimizedAreas.end();
                ++a) {
              AreaRef area=*a;

              optRoles+=area->rings.size();

              for (size_t r=0; r<area->rings.size(); r++) {
                optNodes+=area->rings[r].nodes.size();
              }
            }*/

            /*
            std::cout << "Areas: " << origAreas << " => " << optAreas << std::endl;
            std::cout << "Roles: " << origRoles << " => " << optRoles << std::endl;
            std::cout << "Nodes: " << origNodes << " => " << optNodes << std::endl;*/

            TypeData typeData;

            typeData.type=type;
            typeData.optLevel=level;

            GetAreaIndexLevel(parameter,
                              optimizedAreas,
                              typeData);

            //std::cout << "Resulting index level: " << typeData.indexLevel << ", " << typeData.indexCells << ", " << typeData.indexEntries << std::endl;

            FileOffsetFileOffsetMap offsets;

            WriteAreas(typeConfig,
                       writer,
                       optimizedAreas,
                       offsets);

            if (!WriteAreaBitmap(progress,
                                 writer,
                                 optimizedAreas,
                                 offsets,
                                 typeData)) {
              return false;
            }

            typesData.push_back(typeData);
          }

          allAreas[type->GetIndex()].clear();
        }

        if (typesToProcess.Empty()) {
          break;
        }
      }

      scanner.Close();
    }
    catch (IOException& e) {
      progress.Error(e.GetDescription());
      return false;
    }

    return true;
  }