The serial type in PostgreSQL is not really a type though, so this behavior is expected. The serial type is really short-hand for defining an integer column and a corresponding sequence object
with a specific naming convention and setting the default value to the next value of the sequence. So this is what we will do in this exercise after we have already exported our data to PostgreSQL. The script we are about to demonstrate will generate an sQL script containing all the CREATE SEQUENCE, and ALTER TABLE ALTER COLUMN SET DEFAULT .. needed to convert our integer column to a serial column.
This exercise is a continuation of our How to bulk export tables from MS Access. Now while this approach will work for other databases besides PostgreSQL, you'll probably need to fiddle with the subroutine to make it work for some other databases. PostgreSQL is fairly ANSI-SQL standard so not too much fiddling should be required to port to SQL Server, MySQL, Oracle etc.
Unlike the prior Visual basic subroutine we showed that exports the tables, this just creates an SQL script that you run on the already created PostgreSQL database that contains the exported data. We didn't test the quote option though we coded it in the subroutine, since like we said we hate having to quote fields. If perchance you are one of those folks that likes to put spaces in your field names to make it more englishy, then you'll need to quote or revise the other routine to convert your spaces to _ or some other thing.
Despite all the nasty things people say about MS Access, it does have fairly database agnostic, easy to use import and export tools and a not too shabby query wizard and query tool. But of course, it's not a server side database so at a certain point won't scale for database storage. You can still use it as a front-end to a server-side database such as PostgreSQL or SQL Server. So once you outgrow it for data storage, you'll probably want a quick way to export your data out. Unfortunately, well at least in the 2003 version, while you can bulk link tables from an ODBC connection, you can only export one table at a time using the "select table" right-click export. In this article we'll show a quick and dirty export MS Access Visual basic sub routine we use to export all tables. This we've only tested on MS Access 2003, so if you are using higher, you might need to customize it a bit. This script should work fine for exporting to any database connection with modification of the connection string.
In the last article we said you can't have a LEFT JOIN with LATERAL. Turns out we were mistaken and YES indeed you can and when you do it is equivalent or more powerful than SQL Server's OUTER APPLY.
Let us say that in our query we wanted all my zips returned but for ones that had keys where the value is in a certain range, we want those keys returned. we'd do this. The fact we need all even if they have no such keys necessitates us putting the condition in the ON rather than the WHERE.
SELECT zip, (h).key, (h).valueAs val
FROM zcta5 AS foo
LEFT JOIN LATERAL each(hstore(foo)-'zip'::text)As h
A while ago we demonstrated how to create cross tabulation tables using tablefunc extension aka (Pivot Tables) (basically collapsing
rows into columns).
Recently someone asked me how to do the reverse (convert columns to rows). He found a solution to the problem here: http://stackoverflow.com/questions/1128737/unpivot-and-postgresql
using a combination of array and unnest. That approach is very similar to SQL Server's built-in Pivot SQL predicate.
The solution seemed
nice enough except similar to the SQL Server Unpivot, it required knowing the column names beforehand so very hard to genericize.
So would it be possible to accomplish this feat without knowing the columns names (except for the key) and be able to do it with one SQL statement. I realized that the
PostgreSQL hstore extension fit the bill nicely. In this article I'll demonstrate both approaches by creating a view