option java_package = "net.osmand.binary"; //protoc --java_out=../.. osmand_odb.proto // // STORAGE LAYER: Storing primitives. // // IMPORTANT : These messages are not intented to be parsed by google engine (because of the size) // The main difference that size of that messages is not var int and is always fixed int size message OsmAndStructure { required uint32 version = 1; // encoded as fixed32 length delimited repeated OsmAndMapIndex mapIndex = 2; // encoded as fixed32 length delimited repeated OsmAndAddressIndex addressIndex = 3; // encoded as fixed32 length delimited repeated OsmAndTransportIndex transportIndex = 4; // last field should version again (to check consistency) required uint32 versionConfirm = 32; } /** String table, contains the common strings in each block. */ message StringTable { repeated string s = 1; } message OsmAndMapIndex { // encoded as fixed32 length delimited repeated MapRootLevel levels = 1; } message MapRootLevel { required int32 maxZoom = 1; required int32 minZoom = 2; required int32 left = 3; required int32 right = 4; required int32 top = 5; required int32 bottom = 6; // encoded as fixed32 length delimited repeated MapTree root = 7; } message MapTree { required sint32 left = 1; // delta encoded required sint32 right = 2; // delta encoded required sint32 top = 3; // delta encoded required sint32 bottom = 4; // delta encoded optional StringTable stringTable = 5; optional uint64 baseId = 6; // encoded as fixed32 length delimited repeated MapTree subtrees = 7; repeated MapData leafs = 8; } /// Simple messages message MapData { required bytes coordinates = 1; // array of delta x,y sint32 (CodedIinputStream) >> 5 // first x delta to Tree.left, y to delta Tree.top (next delta to previous) required bytes types = 2; // array of fixed int16 required sint64 id = 3; // delta encoded optional uint32 stringId = 4; optional bytes restrictions = 5; // array of SInt64 delta encoded (to baseId !) optional int32 highwayMeta = 6; } /// Address messages message OsmAndAddressIndex { required string name = 1; optional string name_en = 2; // encoded as fixed32 length delimited optional CitiesIndex cities = 5; // cities and towns // encoded as fixed32 length delimited optional PostcodesIndex postcodes = 6; // encoded as fixed32 length delimited optional CitiesIndex villages = 7; // suburbs and villages } message CitiesIndex { // encoded as fixed32 length delimited repeated CityIndex cities = 1; } message PostcodesIndex { // encoded as fixed32 length delimited repeated PostcodeIndex postcodes = 1; } message CityIndex { // should be written the first required uint32 city_type = 1; // 0-5 enum CityType required string name = 2; optional string name_en = 3; optional uint64 id = 4; required fixed32 x = 5; // x tile of 31 zoom required fixed32 y = 6; // y tile of 31 zoom optional InteresectedStreets intersections = 14; repeated StreetIndex streets = 18; } message InteresectedStreets { repeated StreetIntersection intersections = 5; } message StreetIntersection { required uint32 intersectedStreet1 = 2; // index of street in parent list required uint32 intersectedStreet2 = 3; // index of street in parent list required sint32 intersectedX = 4; // delta encoded to parent x 24 zoom required sint32 intersectedY = 5; // delta encoded to parent y 24 zoom } message PostcodeIndex { required string postcode = 1; required fixed32 x = 2; // x tile of 31 zoom required fixed32 y = 3; // y tile of 31 zoom repeated StreetIndex streets = 5; } message StreetIndex { required string name = 1; optional string name_en = 2; required sint32 x = 3; // delta encoded to parent 24 zoom required sint32 y = 4; // delta encoded to parent 24 zoom optional uint64 id = 6; repeated BuildingIndex buildings = 18; } message BuildingIndex { required string name = 1; optional string name_en = 2; optional uint64 id = 5; optional string postcode = 6; required sint32 x = 3; // delta encoded to street 24 zoom required sint32 y = 4; // delta encoded to street 24 zoom } // transport messages message TransportRoutes { repeated TransportRoute routes = 6; } message TransportRoute { required uint64 id = 1; optional uint32 type = 3; // reference in string table optional uint32 operator = 4; // reference in string table optional string ref = 5; optional uint32 name = 6; // reference in string table optional uint32 name_en = 7; // reference in string table optional uint32 distance = 8; // distance in meters repeated TransportRouteStop directStops = 15; repeated TransportRouteStop reverseStops = 16; } message TransportRouteStop { required sint64 id = 1; // delta encoded to previous stop (first stop is delta to 0) required sint32 dx = 2; // delta encoded to previous stop (24 zoom) required sint32 dy = 3; // delta encoded to previous stop (24 zoom) required uint32 name = 6; // index in message table optional uint32 name_en = 7; // index in message table } message TransportStop { required sint32 dx = 1; // delta encoded to parent (24 zoom) to left required sint32 dy = 2; // delta encoded to parent (24 zoom) to top required sint64 id = 5; // delta encoded to parent base id required uint32 name = 6; // index in message table optional uint32 name_en = 7; // index in message table repeated uint32 routes = 16; // -shift to transport route containing that stop // TransportStop.Message.start - routes[i] = TransportRoute.Message.start - sizeof(TransportRoute.Message.length) // message is started when body is started } message TransportStopsTree { required sint32 left = 1; // delta encoded (24 zoom) required sint32 right = 2; // delta encoded (24 zoom) required sint32 top = 3; // delta encoded (24 zoom) required sint32 bottom = 4; // delta encoded (24 zoom) // encoded as fixed32 length delimited repeated TransportStopsTree subtrees = 7; repeated TransportStop leafs = 8; // written as last optional uint64 baseId = 16; } message OsmAndTransportIndex { // encoded as fixed32 length delimited optional TransportRoutes routes = 3; // routes // encoded as fixed32 length delimited optional TransportStopsTree stops = 6; required StringTable stringTable = 9; }