Updated SQLite (markdown)

SQLite.md

@@ -1,85 +1,17 @@
-<!-- Name: SQLite -->
-<!-- Version: 11 -->
-<!-- Last-Modified: 2010/11/13 10:07:41 -->
-<!-- Author: kunitoki -->
-
-
 Mapnik's PluginArchitecture supports the use of different input formats.
 
-One such plugin supports the sqlite ([SQLite](http://en.wikipedia.org/wiki/SQLite)) / spatialite ([Spatialite](http://www.gaia-gis.it/spatialite)) extension to the popular SQLite database.
+One such plugin supports the sqlite ([SQLite](http://en.wikipedia.org/wiki/SQLite)). The plugin works with two types of geometry storage methods - raw OGC WKB and ([Spatialite](http://www.gaia-gis.it/spatialite)) geometries.
 
-# Installation
+You can create a pure SQLite + WKB geometry based sqlite db using ogr like:
 
-Make sure that running _python scons/scons.py DEBUG=y_ shows the following line
+    ogr2ogr -f SQLite test.sqlite some.shp
 
-    Checking for C library sqlite3... yes
+You can create a spatialite enabled db also using ogr:
 
-To check if the sqlite plugin built and was installed correctly, try the usual Python _from mapnik import *_ on a DEBUG=y build, and look for the following debug line
+   ogr2ogr -f SQLite test.sqlite some.shp -dsco SPATIALITE=YES
 
-    registered datasource : sqlite
 
-# Creating an example database
-
-## Getting the tools
-
-First of all we need a bit of external tools for loading and preparing our first spatial database with sqlite.
-Go to [Spatialite](http://www.gaia-gis.it/spatialite-2.3/) and download (depending on your arch) the "spatialite executable [statically linked, no deps]" and unpack them in a directory of choice. Also download and unpack [InitSpatialiteSql](http://www.gaia-gis.it/spatialite/init_spatialite-2.2.sql.zip) in the same directory.
-
-If you have problems with your spatial indexes (mbr calculated wrong in tables idx_table_geometry), you will need to rebuild spatialite-2.3 yourself using a recent version of GEOS (>=3.0.3): refer to [Spatialite](http://www.gaia-gis.it/spatialite-2.3) compilation guide.
-
-## Prepare the data
-
-Now execute spatialite on a new empty database:
-
-    user@geo ~/spatialite/ $ spatialite spatial_test.sqlite
-    SpatiaLite version ..: 2.3	Supported Extensions:
-    	- 'VirtualShape'	[direct Shapefile access]
-    	- 'VirtualText		[direct CSV/TXT access]
-    	- 'VirtualNetwork	[Dijkstra shortest path]
-    	- 'RTree'		[Spatial Index - R*Tree]
-    	- 'MbrCache'		[Spatial Index - MBR cache]
-    	- 'VirtualFDO'		[FDO-OGR interoperability]
-    	- 'SpatiaLite'		[Spatial SQL - OGC]
-    PROJ.4 version ......: Rel. 4.6.1, 21 August 2008
-    GEOS version ........: 3.0.0-CAPI-1.4.1
-    SQLite version ......: 3.6.6.1
-    Enter ".help" for instructions
-    spatialite> 
-
-From the spatialite shell you must initialize the spatialite tables (_geom_cols_ref_sys_, _geometry_columns_, _spatial_ref_sys_):
-
-    spatialite> .read init_spatialite-2.2.sql ASCII
-    1
-
-We import a shapefile directly inside our database (in this example using utf-8 encoding, 3004 as SRID(epsg) and 'geom' as the geometry column). This will take care of creating the table for us, executing *AddGeometryColumn* which will initialize the _geometry_columns_ table and add a BLOB column to our table for the geometry, then it will insert the rows into it:
-
-    spatialite> .loadshp bridges bridges UTF-8 3004 geom
-    ========
-    Loading shapefile at 'bridges' into SQLite table 'bridges'
-    BEGIN;
-    CREATE TABLE bridges (
-    PK_UID INTEGER PRIMARY KEY AUTOINCREMENT,
-    ANNO_COSTR INTEGER,
-    RAG_GIUR INTEGER,
-    DECORAZ TEXT);
-    SELECT AddGeometryColumn('bridges', 'geom', 3004, 'MULTIPOLYGON', 2);
-    INSERT INTO ponte (
-    PK_UID,ANNO_COSTR,RAG_GIUR,DECORAZ,geom)
-    VALUES (1,0,1,'',GeomFromWkb(X'010600000001000000010300000001000000150000001A...',3004));
-    ...
-    COMMIT;
-    
-    Inserted 499 rows into 'bridges' from SHAPEFILE
-    ========
-
-At this point we can decide also to create the R*Tree index on this table, for speed spatial access to the table:
-
-    spatialite> select CreateSpatialIndex('bridges', 'geom');
-    1
-
-You can now exit the spatialite shell:
-
-    spatialite> .quit
+The main difference is that a spatialite enabled db will include a spatial index inside the database. A pure SQLite db will not contain a spatial index, but Mapnik will create one on the fly.
 
 # Parameters
 
@@ -129,4 +61,4 @@ A Sqlite datasource may be created as follows:
     }
 ```
 
-## Further References
+## Further References