330 likes | 449 Views
Who Needs Google Maps? (when you’ve got SQL Server). Alastair Aitchison. Google Maps. Snazzy Logo. Search for Location. Map Display. Route between locations. Bing Maps. Snazzy Logo. Search for Location. Map Display. Route between locations. Yahoo Maps. Snazzy Logo.
E N D
Who Needs Google Maps?(when you’ve got SQL Server) Alastair Aitchison
Google Maps Snazzy Logo Search for Location Map Display Route between locations
Bing Maps Snazzy Logo Search for Location Map Display Route between locations
Yahoo Maps Snazzy Logo Route between locations Map Display Search for Location
MapQuest Snazzy Logo Search for Location Route between locations Map Display
Requirements Checklist • Snazzy Logo • Pannable, Zoomable Map Display • Search for a Location • Calculate Route Between Destinations This will involve: Importing data from shapefiles, integrating with SQLCLR, using SSRS, passing spatial data to/from stored procedures, and more!
Requirement #1 : Snazzy Logo • Take a brand name and add on “maps” • Therefore…
Requirements Checklist • Snazzy Logo a • Pannable, Zoomable Map Display • Search for a Location • Calculate Route Between Destinations
Ordnance Survey Open Data • Free, “lite” OS datasets • Different products, e.g: • VectorMap(features) • Gazetteer (placenames) • CodePoint Open (p’codes) • Download or DVD • ESRI Shapefile format
Loading Shapefiles to SQL Server • SQL Server does not support shapefiles • Use 3rd party tools • Commercial: Safe FME, Manifold • Free: OGR2OGR, Shape2SQL • Check .prj file to determine geography/geometry and correct SRID
Requirement #2 : Map Display • What visualisation options does SQL Server provide? • SSMS Spatial Results tab (SQL 2008/R2) • SSRS Map Component (SQL 2008 R2 only) • No new options in SQL Denali
Requirement #2 : Map Display • SSMS Spatial Results tab + Available after SELECTing geometry/geography data + Pannable, zoomable, labelled - Max 5,000 features - Only for use in SSMS - not embeddable / exportable • SSRS Map Component (SQL 2008 R2) + Good for analysis – drilldown by clicking shapes etc. + Can be exported as static image • Slow and static. Not “slippy” interface
A Silverlight Map Display App • Silverlight provides UI and Graphics classes • SqlServer.Types.dll not Silverlight compatible • Use intermediary web service • OS Eastings / Northings -> Screen (x,y)
SProc to Retrieve OS Tiles CREATEPROCEDURE [dbo].[GetSettlementDataForTile] @TileBoundsgeometry AS BEGIN DECLARE@TileHeightfloat= (@TileBounds.STPointN(3).STY - @TileBounds.STPointN(2).STY); DECLARE @Res float= @TileHeight/256; SELECTgeom27700.STIntersection(@TileBounds).Reduce(@Res) FROMSettlement_AreaWITH(index(geom27700_sidx)) WHEREgeom27700.STIntersects(@TileBounds)= 1 END
Requirements Checklist • Snazzy Logo a • Pannable, Zoomable Map Display a • Search for a Location • Calculate Route Between Destinations
Geocoding (Location Searching) • Not really a Spatial Operation • Address text parsing / search SELECT * FROM OSLocator WHERE ROADNAME = @RoadName • Fuzzy matching with full-text search • RegEx matching for Postcode • Supplied address is freetext user input so be cautious of SQL injection attacks etc.
Requirements Checklist • Snazzy Logo a • Pannable, Zoomable Map Display a • Search for a Location a • Calculate Route Between Destinations
Routing • Not sufficient to have a table of LineStrings • Network topology – how are roads connected? • Graph theory: Node (Point) Edge (LineString)
Brute Force Routing with T-SQL • Recursive CTE • Anchor member selects LineString edges that begin at chosen start node • Recursive member joins from STEndPoint() of last edge to STStartPoint() of next edge • Create geometry of route already travelled to avoid infinite loops • Expand outwards until end node found
Smart Routing with SQLCLR • A* algorithm • Heuristics prioritise edges more likely to lie on least cost route to goal • “Least cost” does not have to mean “shortest” • Additional properties of each node: g: cost of route already travelled to reach this node h: estimated remaining cost from this node to goal f: g + h
A* Algorithm in Operation A B C Start D Goal E
A* Algorithm in Operation A B C 8.2 2.8 Start D Goal 3 7 10.2 2 E
A* Algorithm in Operation A B C 8.2 2.8 Start D Goal X 10.2 2 E
A* Algorithm in Operation A B C 1 8.5 2.8 Start D Goal X 10.2 2 E
A* Algorithm in Operation A B C 1 8.5 2.8 Start D Goal X 10.2 2 Goal reached! Route cost: 12.2 E
Requirements Checklist • Snazzy Logo a • Pannable, Zoomable Map Display a • Search for a Location a • Calculate Route Between Destinations a Put it all together and what have you got?
Want More? : @alastaira #sqlbits8 : http://alastaira.wordpress.com MSDN Spatial Forum: http://social.msdn.microsoft.com/Forums/en-GB/sqlspatial/threads