C++ (Cpp) Databaseの例

プログラミング言語: C++ (Cpp)

名前空間/パッケージ名: osmscout

クラス/型: Database

hotexamples.comのコード掲載数: 3

C++ (Cpp) Database - 3件のコード例が見つかりました。すべてオープンソースプロジェクトから抽出されたC++ (Cpp)のosmscout::Databaseの実例で、最も評価が高いものを厳選しています。コード例の評価を行っていただくことで、より質の高いコード例が表示されるようになります。

よく使われるメソッド

表示非表示

GetObjects(2)

GetTypeConfig(1)

Open(1)

よく使われるメソッド

GetObjects (2)

GetTypeConfig (1)

Open (1)

コード例 #1

ファイルを表示

ファイル: DrawMapOpenGL.cpp プロジェクト: bolidehi/libosmscout

    bool Initialize(const std::string& map,
                    const std::string& style)
    {
        osmscout::DatabaseParameter databaseParameter;

        databaseParameter.SetDebugPerformance(true);

        database=new osmscout::Database(databaseParameter);

        if (!database->Open(map.c_str())) {
            std::cerr << "Cannot open database" << std::endl;

            return false;
        }

        styleConfig=new osmscout::StyleConfig(database->GetTypeConfig());

        if (!osmscout::LoadStyleConfig(style.c_str(),
                                       *styleConfig)) {
            std::cerr << "Cannot open style" << std::endl;
        }

        searchParameter.SetUseLowZoomOptimization(true);

        return true;
    }

コード例 #2

ファイルを表示

ファイル: DrawMapOpenGL.cpp プロジェクト: bolidehi/libosmscout

    bool LoadData(const osmscout::Projection& projection,
                  osmscout::MapData& data)
    {
        osmscout::TypeSet              nodeTypes;
        std::vector<osmscout::TypeSet> wayTypes;
        osmscout::TypeSet              areaTypes;

        styleConfig->GetNodeTypesWithMaxMag(projection.GetMagnification(),
                                            nodeTypes);

        styleConfig->GetWayTypesByPrioWithMaxMag(projection.GetMagnification(),
                wayTypes);

        styleConfig->GetAreaTypesWithMaxMag(projection.GetMagnification(),
                                            areaTypes);

        return database->GetObjects(nodeTypes,
                                    wayTypes,
                                    areaTypes,
                                    projection.GetLonMin(),
                                    projection.GetLatMin(),
                                    projection.GetLonMax(),
                                    projection.GetLatMax(),
                                    projection.GetMagnification(),
                                    searchParameter,
                                    data.nodes,
                                    data.ways,
                                    data.areas);
    }

コード例 #3

ファイルを表示

ファイル: searchdb_build.cpp プロジェクト: lanixXx/scratch

bool buildTable(Kompex::SQLiteStatement * stmt,
                int32_t &name_id,
                boost::unordered_map<std::string,int32_t> &table_names,
                std::string const &sql_table_name,
                std::vector<Tile*> list_tiles,
                osmscout::Database &map,
                osmscout::TypeSet const &typeSet,
                bool allow_duplicate_nodes,
                bool allow_duplicate_ways,
                bool allow_duplicate_areas)
{
    // spec area search parameter
    osmscout::AreaSearchParameter area_search_param;
    area_search_param.SetUseLowZoomOptimization(false);

    // create the sql statement
    std::string stmt_insert = "INSERT INTO "+sql_table_name;
    stmt_insert +=
            "(id,node_offsets,way_offsets,area_offsets) VALUES("
            "@id,@node_offsets,@way_offsets,@area_offsets);";

    try   {
        stmt->BeginTransaction();
        stmt->Sql(stmt_insert);
    }
    catch(Kompex::SQLiteException &exception)   {
        qDebug() << "ERROR: SQLite exception with insert statement:"
                 << QString::fromStdString(exception.GetString());
        return false;
    }

    // osmscout may return nearby results again so we make
    // sure offsets are only included once if requested
    std::set<osmscout::FileOffset> set_node_offsets;
    std::set<osmscout::FileOffset> set_way_offsets;
    std::set<osmscout::FileOffset> set_area_offsets;

    // container for blob memory we delete after
    // committing the sql transaction
    std::vector<char*> list_blobs;

    // keep track of the number of transactions and
    // commit after a certain limit
    size_t transaction_limit=5000;
    size_t transaction_count=0;

    for(size_t i=0; i < list_tiles.size(); i++)   {
        // for each tile

        // get objects from osmscout
        GeoBoundingBox const &bbox = list_tiles[i]->bbox;
        std::vector<osmscout::NodeRef> listNodes;
        std::vector<osmscout::WayRef>  listWays;
        std::vector<osmscout::AreaRef> listAreas;
        map.GetObjects(bbox.minLon,bbox.minLat,
                       bbox.maxLon,bbox.maxLat,
                       typeSet,
                       listNodes,
                       listWays,
                       listAreas);

        // merge all of the object refs into one list
        // of MapObjects so its easier to manage
        std::vector<MapObject> list_map_objects;
        list_map_objects.reserve(listNodes.size()+listWays.size()+listAreas.size());

        for(size_t j=0; j < listNodes.size(); j++)   {
            osmscout::NodeRef &nodeRef = listNodes[j];

            if(nodeRef->GetName().empty())   {
                continue;
            }
            if(!allow_duplicate_nodes)   {
                if(set_node_offsets.count(nodeRef->GetFileOffset()) != 0)   {
                    continue;
                }
                set_node_offsets.insert(nodeRef->GetFileOffset());
            }
            MapObject map_object;
            map_object.name     = nodeRef->GetName();
            map_object.offset   = nodeRef->GetFileOffset();
            map_object.type     = osmscout::refNode;
            list_map_objects.push_back(map_object);
        }
        for(size_t j=0; j < listWays.size(); j++)   {
            osmscout::WayRef &wayRef = listWays[j];

            if(wayRef->GetName().empty())   {
                continue;
            }
            if(!allow_duplicate_ways)   {
                if(set_way_offsets.count(wayRef->GetFileOffset()) != 0)   {
                    continue;
                }
                set_way_offsets.insert(wayRef->GetFileOffset());
            }
            MapObject map_object;
            map_object.name     = wayRef->GetName();
            map_object.offset   = wayRef->GetFileOffset();
            map_object.type     = osmscout::refWay;
            list_map_objects.push_back(map_object);
        }
        for(size_t j=0; j < listAreas.size(); j++)   {
            osmscout::AreaRef &areaRef = listAreas[j];

            if(areaRef->rings.front().GetName().empty())   {
                continue;
            }
            if(!allow_duplicate_areas)   {
                if(set_area_offsets.count(areaRef->GetFileOffset()) != 0)   {
                    continue;
                }
                set_area_offsets.insert(areaRef->GetFileOffset());
            }
            MapObject map_object;
            map_object.name     = areaRef->rings.front().GetName();
            map_object.offset   = areaRef->GetFileOffset();
            map_object.type     = osmscout::refArea;
            list_map_objects.push_back(map_object);
        }

        // create structs to sort file offsets by name lookup
        // [name_lookup_id] [list_offsets]
        boost::unordered_map<int32_t,OffsetGroup> entry_admin_regions;

        for(size_t j=0; j < list_map_objects.size(); j++)   {

            MapObject &map_object = list_map_objects[j];

            // add name_lookup up to table_names
            std::string name_lookup = convNameToLookup(map_object.name);
            int32_t name_lookup_id;

            // check if this lookup string already exists
            if(table_names.count(name_lookup) == 0)   {
                // insert lookup string
                std::pair<std::string,int32_t> data;
                data.first  = name_lookup;
                data.second = name_id;
                table_names.insert(data);

                name_lookup_id = name_id;
                name_id++;
            }
            else   {
                name_lookup_id = table_names.find(name_lookup)->second;
            }

            // check if this lookup string already exists
            if(entry_admin_regions.count(name_lookup_id) == 0)   {
                // insert new list of offsets
                std::pair<int32_t,OffsetGroup> data;
                data.first = name_lookup_id;
                entry_admin_regions.insert(data);
            }

            // add offset to list
            boost::unordered_map<int32_t,OffsetGroup>::iterator it;
            it = entry_admin_regions.find(name_lookup_id);
            if(map_object.type == osmscout::refNode)   {
                it->second.node_offsets.push_back(map_object.offset);
            }
            else if(map_object.type == osmscout::refWay)   {
                it->second.way_offsets.push_back(map_object.offset);
            }
            else if(map_object.type == osmscout::refArea)   {
                it->second.area_offsets.push_back(map_object.offset);
            }
        }

        //qDebug() << list_tiles[i]->id << ":" << entry_admin_regions.size();

        // write information for this tile to the database
        boost::unordered_map<int32_t,OffsetGroup>::iterator it;
        for(it  = entry_admin_regions.begin();
            it != entry_admin_regions.end(); ++it)   {
            // convert offsets to byte arrays
            char * data_node_offsets = NULL; size_t sz_node_offsets=0;
            char * data_way_offsets  = NULL; size_t sz_way_offsets=0;
            char * data_area_offsets = NULL; size_t sz_area_offsets=0;

            OffsetGroup &g = it->second;

//            // ### debug start
//            if(g_table_nameid_count.count(it->first) == 0)   {
//                std::pair<int64_t,int64_t> debugdata;
//                debugdata.first = it->first;
//                debugdata.second =
//                        g.node_offsets.size()+
//                        g.way_offsets.size()+
//                        g.area_offsets.size();
//                g_table_nameid_count.insert(debugdata);
//            }
//            else   {
//                std::map<int64_t,int64_t>::iterator d_it;
//                d_it = g_table_nameid_count.find(it->first);
//                d_it->second +=
//                        g.node_offsets.size()+
//                        g.way_offsets.size()+
//                        g.area_offsets.size();
//            }
//            // ### debug end

            if(!(g.node_offsets.empty()))   {
                sz_node_offsets = sizeof(osmscout::FileOffset)*g.node_offsets.size();
                data_node_offsets = new char[sz_node_offsets];
                memcpy(data_node_offsets,&(g.node_offsets[0]),sz_node_offsets);
                list_blobs.push_back(data_node_offsets);
            }
            if(!(g.way_offsets.empty()))   {
                sz_way_offsets = sizeof(osmscout::FileOffset)*g.way_offsets.size();
                data_way_offsets = new char[sz_way_offsets];
                memcpy(data_way_offsets,&(g.way_offsets[0]),sz_way_offsets);
                list_blobs.push_back(data_way_offsets);
            }
            if(!(g.area_offsets.empty()))   {
                sz_area_offsets = sizeof(osmscout::FileOffset)*g.area_offsets.size();
                data_area_offsets = new char[sz_area_offsets];
                memcpy(data_area_offsets,&(g.area_offsets[0]),sz_area_offsets);
                list_blobs.push_back(data_area_offsets);
            }

            if(data_node_offsets == NULL &&
               data_way_offsets  == NULL &&
               data_area_offsets == NULL)   {
                continue;
            }

            // prepare sql
            try   {

                // cat name_id and tile_id into one id
                // get mask for bitlength
                int32_t mask = pow(2,g_sz_bits_tile_id)-1;

                int64_t id = it->first;             // name_id
                id = id << g_sz_bits_tile_id;       // bitshift
                id |= (list_tiles[i]->id & mask);   // 24 most sig bits of tile_id

                stmt->BindInt64(1,id);

                if(data_node_offsets)   {
                    stmt->BindBlob(2,data_node_offsets,sz_node_offsets);
                }
                else   {
                    stmt->BindNull(2);
                }
                if(data_way_offsets)   {
                    stmt->BindBlob(3,data_way_offsets,sz_way_offsets);
                }
                else   {
                    stmt->BindNull(3);
                }
                if(data_area_offsets)   {
                    stmt->BindBlob(4,data_area_offsets,sz_area_offsets);
                }
                else   {
                    stmt->BindNull(4);
                }

                stmt->Execute();
                stmt->Reset();

                if(transaction_count > transaction_limit)   {
                    stmt->FreeQuery();
                    stmt->CommitTransaction();

                    stmt->BeginTransaction();
                    stmt->Sql(stmt_insert);
                    transaction_count=0;
                }
                transaction_count++;
            }
            catch(Kompex::SQLiteException &exception)   {
                qDebug() << "ERROR: SQLite exception writing tile data:"
                         << QString::fromStdString(exception.GetString());
                qDebug() << "ERROR: id:" << list_tiles[i]->id;
                qDebug() << "ERROR: name_lookup_id:" << it->first;
                qDebug() << "ERROR:" << sz_node_offsets << sz_way_offsets << sz_area_offsets;
                return false;
            }
        }
        // debug
//        qDebug() << i << "/" << list_tiles.size();
    }

    stmt->FreeQuery();
    stmt->CommitTransaction();

    // free up blob memory
    for(size_t i=0; i < list_blobs.size(); i++)   {
        delete[] list_blobs[i];
    }

    return true;
}