I'm surprised this hasn't been posted yet. Any interesting tricks that you know about in Postgres? Obscure config options and scaling/perf tricks are particularly welcome.
I'm sure we can beat the 9 comments on the corresponding MySQL thread :)
closed as too broad by Bjørn-Roger Kringsjå, gnat, greg-449, Mark Rotteveel, deviantfan Oct 17 '14 at 9:48
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Since postgres is a lot more sane than MySQL, there are not that many "tricks" to report on ;-)
A few other performance related things to keep in mind:
Here's a few things I've found useful that aren't config or performance related per se.
To see what's currently happening:
Search misc functions:
Find size of database:
Find size of all databases:
Find size of tables and indexes:
Or, to list all tables and indexes (probably easier to make a view of this):
Oh, and you can nest transactions, rollback partial transactions++
The easiest trick to let postgresql perform a lot better (apart from setting and using proper indexes of course) is just to give it more RAM to work with (if you have not done so already). On most default installations the value for shared_buffers is way too low (in my opinion). You can set
in postgresql.conf. Divide this number by 128 to get an approximation of the amount of memory (in MB) postgres can claim. If you up it enough this will make postgresql fly. Don't forget to restart postgresql.
On Linux systems, when postgresql won't start again you will probably have hit the kernel.shmmax limit. Set it higher with
To make this persist between boots, add a kernel.shmmax entry to /etc/sysctl.conf.
A whole bunch of Postgresql tricks can be found here:
Postgres has a very powerful datetime handling facility thanks to its INTERVAL support.
You can cast many strings to an INTERVAL type.
I'll start. Whenever I switch to Postgres from SQLite, I usually have some really big datasets. The key is to load your tables with COPY FROM rather than doing INSERTS. See documentation:
The following example copies a table to the client using the vertical bar (|) as the field delimiter:
To copy data from a file into the country table:
One of the things I really like about postgre is some of the data types supported in columns. For example, there are column types made for storing Network Addresses and Arrays. The corresponding functions (Network Addresses / Arrays) for these column types let you do a lot of complex operations inside queries that you'd have to do by processing results through code in MySQL or other database engines.
Arrays are really cool once you get to know 'em. Lets say you would like to store some hyper links between pages. You might start by thinking about creating a Table kinda like this:
If you needed to index the tail column, and you had, say 200,000,000 links-rows (like wikipedia would give you), you would find yourself with a huge Table and a huge Index.
However, with PostgreSQL, you could use this Table format instead:
To get all heads for a link you could send a command like this (unnest() is standard since 8.4):
This query is surprisingly fast when it is compared with the first option (unnest() is fast and the Index is way way smaller). Furthermore, your Table and Index will take up much less RAM-memory and HD-space, especially when your Arrays are so long that they are compressed to a Toast Table. Arrays are really powerful.
Note: while unnest() will generate rows out of an Array, array_agg() will aggregate rows into an Array.
Materialized Views are pretty easy to setup:
That creates a new table, my_matview, with the columns and values of my_view. Triggers or a cron script can then be setup to keep the data up to date, or if you're lazy:
You don't need to learn how to decipher "explain analyze" output, there is a tool: http://explain.depesz.com
pgcrypto: more cryptographic functions than many programming languages' crypto modules provide, all accessible direct from the database. It makes cryptographic stuff incredibly easy to Just Get Right.
A database can be copied with:
The documentation says:
but it works well for me and is much faster than
Memory storage for throw-away data/global variables
You can create a tablespace that lives in the RAM, and tables (possibly unlogged, in 9.1) in that tablespace to store throw-away data/global variables that you'd like to share across sessions.
These are documented in an obscure area of the manual:
It's occasionally faster than acquiring multitudes of row-level locks, and they can be used to work around cases where FOR UPDATE isn't implemented (such as recursive CTE queries).
This is my favorites list of lesser know features.
Nearly every SQL statement is transactional in Postgres. If you turn off autocommit the following is possible:
Range types and exclusion constraint
To my knowledge Postgres is the only RDBMS that lets you create a constraint that checks if two ranges overlap. An example is a table that contains product prices with a "valid from" and "valid until" date:
The execution plan for the above on a table with 700.000 rows:
To avoid inserting rows with overlapping validity ranges a simple (and efficient) unique constraint can be defined:
Instead of requiring a "real" date far in the future Postgres can compare dates to infinity. E.g. when not using a date range you can do the following
Writeable common table expressions
You can delete, insert and select in a single statement:
The above will delete all orders older than 10 years, move them to the
It's convenient to rename an old database rather than mysql can do. Just using the following command:
1.) When you need append notice to query, you can use nested comment
2.) Remove Trailing spaces from all the
3.) We can use a window function for very effective removing of duplicate rows:
Some PostgreSQL's optimized version (with ctid):
4.) When we need to identify server's state, then we can use a function:
5.) Get functions's DDL command.
6.) Safely changing column data type in PostgreSQL
You can see from the above table that I have used the data type – ‘character varying’ for ‘id’
But it returns:
That means we can’t simply change the data type because data is already there in the column. Since the data is of type ‘character varying’ postgres cant expect it as integer though we entered integers only. So now, as postgres suggested we can use the ‘USING’ expression to cast our data into integers.
7.) Know who is connected to the Database
8.) Reloading PostgreSQL Configuration files without Restarting Server
PostgreSQL configuration parameters are located in special files like postgresql.conf and pg_hba.conf. Often, you may need to change these parameters. But for some parameters to take effect we often need to reload the configuration file. Of course, restarting server will do it. But in a production environment it is not preferred to restarting the database, which is being used by thousands, just for setting some parameters. In such situations, we can reload the configuration files without restarting the server by using the following function:
9.) Getting the data directory path of the current Database cluster
It is possible that in a system, multiple instances(cluster) of PostgreSQL is set up, generally, in different ports or so. In such cases, finding which directory(physical storage directory) is used by which instance is a hectic task. In such cases, we can use the following command in any database in the cluster of our interest to get the directory path:
The same function can be used to change the data directory of the cluster, but it requires a server restarts:
10.) Find a CHAR is DATE or not
Usage: the following will return True
11.) Change the owner in PostgreSQL