/Postmodern

A Common Lisp PostgreSQL programming interface

Primary LanguageCommon Lispzlib LicenseZlib

Postmodern

A Common Lisp PostgreSQL programming interface

Postmodern is a Common Lisp library for interacting with PostgreSQL databases. It is under active development. Features are:

  • Efficient communication with the database server without need for foreign libraries.
  • Support for UTF-8 on Unicode-aware Lisp implementations
  • A syntax for mixing SQL and Lisp code
  • Convenient support for prepared statements and stored procedures
  • A metaclass for simple database-access objects

The biggest differences between this library and CLSQL/CommonSQL or cl-dbi are that Postmodern has no intention of being portable across different SQL implementations (it embraces non-standard PostgreSQL features), and approaches extensions like lispy SQL and database access objects in a quite different way. This library was written because the CLSQL approach did not really work for me, your mileage may vary.

Contents


Dependencies


The library depends on usocket (except on SBCL and ACL, where the built-in socket library is used), md5, closer-mop, bordeaux-threads if you want thread-safe connection pools, and CL+SSL when SSL connections are needed.

Postmodern itself is split into four different packages, some of which can be used independently. Simple-date is a very basic implementation of date and time objects, used to support storing and retrieving time-related SQL types. CL-postgres is the low-level library used for interfacing with a PostgreSQL server over a socket. S-SQL is used to compile s-expressions to strings of SQL code, escaping any Lisp values inside, and doing as much as possible of the work at compile time. Finally, Postmodern itself is the library that tries to put all these things together into a convenient programming interface.

License


Postmodern is released under a zlib-style license. Which approximately means you can use the code in whatever way you like, except for passing it off as your own or releasing a modified version without indication that it is not the original.

Download and installation


We suggest using quicklisp for installation.

A git repository with the most recent changes can be viewed or checked out at https://github.com/marijnh/Postmodern

Quickstart


This quickstart is intended to give you a feel of the way coding with Postmodern works. Further details about the workings of the library can be found in the reference manual.

Assuming you have already installed it, first load and use the system:

    (ql:quickload :postmodern)
    (use-package :postmodern)

If you have a PostgreSQL server running on localhost, with a database called 'testdb' on it, which is accessible for user 'foucault' with password 'surveiller', you can connect like this:

    (connect-toplevel "testdb" "foucault" "surveiller" "localhost")

Which will establish a connection to be used by all code, except for that wrapped in a with-connection form, which takes the same arguments but only establishes the connection locally.

Now for a basic sanity test:

    (query "select 22, 'Folie et déraison', 4.5")
    ;; => ((22 "Folie et déraison" 9/2))

That should work. query is the basic way to send queries to the database. The same query can be expressed like this:

    (query (:select 22 "Folie et déraison" 4.5))
    ;; => ((22 "Folie et déraison" 9/2))

In many contexts, query strings and lists starting with keywords can be used interchangeably. The lists will be compiled to SQL. The S-SQL manual describes the syntax used by these expressions. Lisp values occurring in them are automatically escaped. In the above query, only constant values are used, but it is possible to transparently use run-time values as well:

    (defun database-powered-addition (a b)
      (query (:select (:+ a b)) :single))
    (database-powered-addition 1030 204)
    ;; => 1234

That last argument, :single, indicates that we want the result not as a list of lists (for the result rows), but as a single value, since we know that we are only selecting one value. Some other options are :rows, :row, :column, :alists, and :none. Their precise effect is documented in the reference manual.

You do not have to pull in the whole result of a query at once, you can also iterate over it with the doquery macro:

    (doquery (:select 'x 'y :from 'some-imaginary-table) (x y)
      (format t "On this row, x = ~A and y = ~A.~%" x y))

This is what a database-access class looks like:

        (defclass country ()
          ((name :col-type string :initarg :name
                 :reader country-name)
          (inhabitants :col-type integer :initarg :inhabitants
                 :accessor country-inhabitants)
          (sovereign :col-type (or db-null string) :initarg :sovereign
                     :accessor country-sovereign))
      (:metaclass dao-class)
      (:keys name))

The above defines a class that can be used to handle records in a table with three columns: name, inhabitants, and sovereign. In simple cases, the information above is enough to define the table as well:

    (dao-table-definition 'country)
    ;; => "CREATE TABLE country (
    ;;      name TEXT NOT NULL,
    ;;      inhabitants INTEGER NOT NULL,
    ;;      sovereign TEXT,
    ;;      PRIMARY KEY (name))"
    (execute (dao-table-definition 'country))

This defines our table in the database. execute works like query, but does not expect any results back.

Let us add a few countries:

    (insert-dao (make-instance 'country :name "The Netherlands"
                                        :inhabitants 16800000
                                        :sovereign "Willem-Alexander"))
    (insert-dao (make-instance 'country :name "Croatia"
                                        :inhabitants 4400000))

Then, to update Croatia's population, we could do this:

    (let ((croatia (get-dao 'country "Croatia")))
      (setf (country-inhabitants croatia) 4500000)
      (update-dao croatia))
    (query (:select '* :from 'country))
    ;; => (("The Netherlands" 16800000 "Willem-Alexander")
    ;;     ("Croatia" 4500000 :NULL))

Next, to demonstrate a bit more of the S-SQL syntax, here is the query the utility function list-tables uses to get a list of the tables in a database:

    (sql (:select 'relname :from 'pg-catalog.pg-class
          :inner-join 'pg-catalog.pg-namespace :on (:= 'relnamespace 'pg-namespace.oid)
          :where (:and (:= 'relkind "r")
                       (:not-in 'nspname (:set "pg_catalog" "pg_toast"))
                       (:pg-catalog.pg-table-is-visible 'pg-class.oid))))
    ;; => "(SELECT relname FROM pg_catalog.pg_class
    ;;      INNER JOIN pg_catalog.pg_namespace ON (relnamespace = pg_namespace.oid)
    ;;      WHERE ((relkind = 'r') and (nspname NOT IN ('pg_catalog', 'pg_toast'))
    ;;             and pg_catalog.pg_table_is_visible(pg_class.oid)))"

sql is a macro that will simply compile a query, it can be useful for seeing how your queries are expanded or if you want to do something unexpected with them.

As you can see, lists starting with keywords are used to express SQL commands and operators (lists starting with something else will be evaluated and then inserted into the query). Quoted symbols name columns or tables (keywords can also be used but might introduce ambiguities). The syntax supports subqueries, multiple joins, stored procedures, etc. See the S-SQL reference manual for a complete treatment.

Finally, here is an example of the use of prepared statements:

    (defprepared sovereign-of
      (:select 'sovereign :from 'country :where (:= 'name '$1))
      :single!)
    (sovereign-of "The Netherlands")
    ;; => "Willem-Alexander"

The defprepared macro creates a function that takes the same amount of arguments as there are $X placeholders in the given query. The query will only be parsed and planned once (per database connection), which can be faster, especially for complex queries.

    (disconnect-toplevel)

Reference


The reference manuals for the different components of Postmodern are kept in separate files. For using the library in the most straightforward way, you only really need to read the Postmodern reference and glance over the S-SQL reference. The simple-date reference explains the time-related data types included in Postmodern, and the CL-postgres reference might be useful if you just want a low-level library for talking to a PostgreSQL server.

Caveats and to-dos


Timezones

It is important to understand how postgresql (not postmodern) handles timestamps and timestamps with time zones. Postgresql keeps everything in UTC, it does not store a timezone even in a timezone aware column. If you use a timestamp with timezone column, postgresql will calculate the UTC time and will normalize the timestamp data to UTC. When you later select the record, postgresql will look at the timezone for the postgresql session, retrieve the data and then provide the data recalculated from UTC to the timezone for that postgresql session. There is a good writeup of timezones at http://blog.untrod.com/2016/08/actually-understanding-timezones-in-postgresql.html and http://phili.pe/posts/timestamps-and-time-zones-in-postgresql/.

With that in mind, Simple-date has no concept of time zones. If you really need your time-keeping to be reliable and/or universal you should either not use the types it provides or think really hard about the way you handle time zones.

A lot of work has been done on local-time, which solves the same problem as simple-date, but does understand time zones. We are considering the best ways to make life easier for users of the two libraries.

Portability

The Lisp code in Postmodern is theoretically portable across implementations, and seems to work on all major ones. Some work is currently being done to support Genera. Implementations that do not have meta-object protocol support will not have DAOs, but all other parts of the library should work (all widely used implementations do support this).

The library will definitely not work for PostgreSQL versions older than 7.4 (it uses a client/server protocol that was introduced in that version). On versions prior to 8.1, retrieving date and time objects is broken, because their binary representation was changed. Part of the functionality of insert-dao (automatic defaulting of unbound slots) only works in PostgreSQL 8.2 and up.

Things that should be implemented

It would be a nice feature if Postmodern could help you with defining your database schemas and, more importantly, updating your databases when your code changes. It would theoretically not be hard to build a function that compares a schema on the Lisp side with the state of the database, and helps you to interactively update your database. PostgreSQL has a quite complete introspection system. Unfortunately it would be a lot of work to implement this, since databases can contain so many different types of entities (tables, views, indices, procedures, constraints, sequences, etc.) which are all created, changed, and dropped in different ways.

Resources