Gadfly (database)

Gadfly (database)

Gadfly is a relational database management system written in Python. Gadfly is a collection of Python modules that provides relational database functionality entirely implemented in Python. It supports a subset of the standard RDBMS Structured Query Language (SQL).

Gadfly runs whereever Python runs and supports client/server on any platform that supports the standard Python socket interface. The file formats used by Gadfly for storage are cross-platform—a gadfly database directory can be moved from Win95 to Linux using a binary copying mechanism and gadfly will read and run the database.

It supports persistent databases consisting of a collection of structured tables with indices, and a large subset of SQL for accessing and modifying those tables. It supports a log based recovery protocol which allows committed operations of a database to be recovered even if the database was not shut down in a proper manner (ie, in the event of a CPU or software crash, [but not in the event of a disk crash] ). It also supports a TCP/IP Client/Server mode where remote clients can access a Gadfly database over a TCP/IP network (such as the Internet) subject to configurable security mechanisms.

Because it lacks (at this time) true concurrency control and file-system based indexing it is not appropriate for very large multiprocess transaction-based systems.

Since Gadfly depends intimately on the kwParsing package it is distributed as part of the kwParsing package, under the same generous copyright.

Gadfly allows Python programs a convenient way to store, retrieve and query tabular data without having to rely on any external database engine or package. That is, Gadfly provides a simple, easy, and relatively efficient in-memory relational database style engine for Python programs, complete with a notion of a "committed, recoverable transaction" and "aborts".

Modern programs depend heavily on tabular data. Furthermore as memory prices continue to drop and inexpensive machines keep growing larger and larger memory capacity it is clear that more and more database-style work can be done on largish data sets in memory, and hence a simple in-memory SQL implementation like Gadfly may be useful for serious work.

Gadfly uses relational style representations and the SQL query language primarily because these are widely understood and familiar to many programmers.

Usage

The main "gadfly" module attempts to faithfully adhere to Greg Stein's Python Database API, as discussed and certified by the Python DB-SIG.

Concurrent database updates are not supported. The "databases" are currently designed to be written/modified by one process in isolation. Multiple processes can access a Gadfly database when accesses are arbitrated by a tcp/ip Gadfly server process.

Creating a new database

Unlike most Python/database-engine interfaces Gadfly databases must be created using Python. To accomplish this use:

import gadfly connection = gadfly.gadfly()

with no arguments and then startup a database using the startup method:

connection.startup("mydatabase", "mydirectory")

Here "mydirectory" must be a directory which exists and which can be written to in order to store the database files. The startup will create some files in "mydirectory". This will have the effect of clobbering any existing Gadfly database called "mydatabase" in the directory "mydirectory". Gadfly will prevent you from starting up the same connection twice, however.

Note that the first "import gadfly" reads in and initializes some rather large data structures used for parsing SQL, and thus may take longer than other module imports.

Now with your new database you can create tables, populate them, and commit the result when you are happy:

cursor = connection.cursor() cursor.execute("create table ph (nm varchar, ph varchar)") cursor.execute("insert into ph(nm, ph) values ('arw', '3367')") cursor.execute("select * from ph") for x in cursor.fetchall(): print x # prints ('arw', '3367') connection.commit()

Reconnecting to an existing database

Once a database exists you can reconnect to it as follows:

import gadfly connection = gadfly.gadfly("mydatabase", "mydirectory")

This will read in the database tables with the most recently committed values. The initialized database may now be queried and updated:

cursor = connection.cursor() cursor.execute("update ph set nm='aaron' where nm='arw'") cursor.execute("select * from ph") for x in cursor.fetchall(): print x # prints ('aaron', '3367')

If you do not wish to commit updates you may simply not execute a commit on the connection object (which writes out the tables). If you wish to restore the old values from the existing database use:

connection.abort()

Updates are only stored upon a connection.commit(). [Actually, if autocheckpoint is disabled, updates are only stored to table files on checkpoint -- see the documentation on the recovery mechanism.]

Use:

print cursor.pp()

to "pretty print" the result of any evaluation (which might be None for a non-select).

Features

In this version all tables are read into memory upon "connecting" to the database and "touched" tables are written out upon checkpoint. Each table is represented as a separate file in the destination directory, and there is a "data definition" file as well (a list of data definition declarations). During active use a log file appears int the active directory as well, and if the process crashes this log file is used to recover committed operations.The SELECT statement

At this point Gadfly supports quite a lot of the SQL semantics requested in the ODBC 2.0 specification. Please see the SQL constructs page for a more detailed presentation. SQL statements supported include the SELECT:

SELECT [DISTINCT|ALL] expressions or * FROM tables [WHERE condition] [GROUP BY group-expressions] [HAVING aggregate-condition] [union-clause] [ORDER BY columns]

This statement is quite powerful. It reads intuitively as follows:

1.Make all combinations of rows from the tables (FROM line)

2. Eliminate those combinations not satisfying condition (WHERE line)

3.(if GROUP present) form aggregate groups that match on group-expressions

4.(if HAVING present) eliminate aggregate groups that don't satisfy the aggregate-condition.

5. compute the columns to keep (SELECT line).

6.(if union-clause present) combine (union, difference, intersect) the result with the result of another select statement.

7. if DISTINCT, throw out redundant entries.

8.(if ORDER present) order the result by the columns (ascending or descending as specified, with precedence as listed).

The actual implementation in gadfly is much more optimal than the intuitive reading, particularly at steps 1 and 2 (which are combined via optimizing transformations and hash join algorithms).

Conditions may include equalities, and inequalities of expressions. Conditions may also be combined using AND, OR, NOT. Expressions include column names, constants, and standard arithmetic operations over them.

Embedded queries supported include subquery expressions, expr IN (subselect), quantified comparisons, and the EXISTS (subselect) predicate.

Aggregate tests and computations can only be applied after the GROUPing and before the columns are selected (steps 3,4,5). Aggregate operations include COUNT(*), COUNT(expression), AVG(expression), SUM(expression), MAX(expression), MIN(expression), and the non-standard MEDIAN(expression). These may be applied to DISTINCT values (throwing out redundancies, as in COUNT(DISTINCT drinker). if no GROUPing is present the aggregate computations apply to the entire result after step 2.

There is much more to know about the SELECT statement. The test suite test/test_gadfly.py gives numerous examples of SELECT statements.

Please examine gadfly/grammar.py for a precise definition of the supported syntax. Please find any of the 500 books on SQL for a description of the meaning of these constructs. Please inform me if any of them give the wrong result when executed in Gadfly!Table creation and "data types"

Create tables using the CREATE TABLE statement:

CREATE TABLE name (colname datatype [, colname datatype...] )

Data types currently "supported" are integer, float, and varchar. They are ignored by the implementation, anything that is hashable and marshallable can currently go in any column (but that is likely to change). For example:

create table frequents (drinker varchar, bar varchar, perweek integer)

At present you can put tuples, complexes, or anything else into a column specified as "varchar". Don't count on that always being true, please.Other supported statements

Gadfly also supports the searched DELETE and UPDATE; INSERT VALUES and INSERT subselect; CREATE/DROP INDEX, and DROP TABLE. These have the informal syntax:

DELETE FROM table WHERE condition

UPDATE table SET col=expr [, col=expr...] WHERE condition

INSERT INTO table [(column [, column...] )] values (value [, value...] )

INSERT INTO table [(column [, column...] )] subselect

CREATE [UNIQUE] INDEX name ON table (column [, column...] )

DROP TABLE table

DROP INDEX name

Again, see the test/test_gadfly.py file for examples like:

delete from templikes where be='rollingrock'

update templikes set dr='norman' where dr='norm'

insert into ph(nm,ph) values ('nan', '0356')

insert into templikes(dr, be) select drinker, beer from likes

create index sbb on serves (beer, bar)

drop table templikes

drop index tdindex

Multiple statements may be executed in one cursor.execute(S) by separating the statements with semicolons in S, for example S might have the string value:

drop index tdindex; drop table templikes

(no final semicolon please!).

Please see gftest.py for examples of most of these. Remember that SQL is case insensitive (capitalization of keywords doesn't matter). Please see sqlgram.py for a precise definition of all supported constructsDynamic Values

Expressions also include the special expression '?' (the ODBC-style dynamic expression) as in:

insertstat = "insert into ph(nm,ph) values (?, ?)" cursor.execute(insertstat, ('nan', "0356")) cursor.execute(insertstat, ('bill', "2356")) cursor.execute(insertstat, ('tom', "4356"))

Dynamic values allow the cursor to use the same parsed expression many times for a similar operation. Above the insertstat is parsed and bound to the database only once. Using dynamic attributes should speed up accesses. Thus the above should run much faster than the equivalent:

cursor.execute("insert into ph(nm,ph) values ('nan', '0356')"); cursor.execute("insert into ph(nm,ph) values ('bill', '2356')"); cursor.execute("insert into ph(nm,ph) values ('tom', '4356')");

Dynamic attributes can appear in other statements containing expressions (such as SELECTs, UPDATEs and DELETEs too).

For SELECT, UPDATE, and DELETE the dynamic expression substitutions must consist of a single tuple, as in:

stat = "select * from ph where nm=?" cursor.execute(stat, ("nan",)) ... cursor.execute(stat, ("bob",)) ...

Since the dynamic substitution eliminates the need for parsing and binding (expensive operations!) the above should run faster than the equivalent:

cursor.execute("select * from ph where nm='nan'") ... cursor.execute("select * from ph where nm='bob'") ...

If you repeat several similar queries multiple times, associate each query "template string" with a unique cursor object so that each template must be parsed and bound only once. Note that some relatively complex queries from the test suite run 2 to 3 times faster after they have been parsed and bound, even without the kjbuckets builtin. With kjbuckets the same ran 5 to 10 times faster.Multiple Batch Inserts and Dynamic Values

For the special case of INSERT VALUES a list of substitution tuples allows the query engine to perform the inserts in optimized batch mode. Thus the fastest way to perform the three inserts given earlier is:

data = [('nan', "0356")), ('bill', "2356"), ('tom', "4356")] stat = "insert into ph(nm,ph) values (?, ?)" cursor.execute(stat, data)

...and it would be even faster if the cursor had previously executed the stat with different data (since then no parsing or binding would occur).Introspection

By default a gadfly database now automatically includes "introspective" tables which allow a gadfly query to "query the shape of the database" -- for example to view table names and names of rows in tables:

>>> g = gadfly() >>> g.startup("dbtest", "dbtest") >>> c = g.cursor() >>> c.execute("select * from __table_names__") >>> print c.pp() IS_VIEW | TABLE_NAME =

1 | __TABLE_NAMES__ 1 | DUAL 1 | __DATADEFS__ 1 | __COLUMNS__ 1 | __INDICES__ 1 | __INDEXCOLS__

Here DUAL is a standard one row/one column test table (from the Oracle tradition) and the other tables provide information about the database schema:

>>> c.execute("create table t1 (a varchar, b varchar)") >>> c.execute("create table t2 (b varchar, c varchar)") >>> c.execute("create unique index t1a on t1(a)") >>> c.execute("create index t1b on t1(b)") >>> c.execute("select * from __table_names__") >>> print c.pp() IS_VIEW | TABLE_NAME =

0 | T1 1 | __DATADEFS__ 1 | __INDICES__ 0 | T2 1 | __TABLE_NAMES__ 1 | __COLUMNS__ 1 | DUAL 1 | __INDEXCOLS__ >>> c.execute("select * from __columns__") >>> print c.pp() COLUMN_NAME | TABLE_NAME =

A | T1 B | T1 NAME | __DATADEFS__ DEFN | __DATADEFS__ INDEX_NAME | __INDICES__ TABLE_NAME | __INDICES__ IS_UNIQUE | __INDICES__ TABLE_NAME | __TABLE_NAMES__ IS_VIEW | __TABLE_NAMES__ B | T2 C | T2 COLUMN1 | DUAL TABLE_NAME | __COLUMNS__ COLUMN_NAME | __COLUMNS__ INDEX_NAME | __INDEXCOLS__ COLUMN_NAME | __INDEXCOLS__ >>> c.execute("select * from __indices__") >>> print c.pp() IS_UNIQUE | TABLE_NAME | INDEX_NAME =

0 | T1 | T1B 1 | T1 | T1A >>> c.execute("select * from __indexcols__") >>> print c.pp() COLUMN_NAME | INDEX_NAME =

B | T1B A | T1A >>> c.execute("select * from dual") >>> print c.pp() COLUMN1 =

0

Interactive testing

After installation, you may interactively test the created database from the same directory using the interactive interpreter, for example, as in:

Python 2.1.3 (#1, Apr 30 2002, 19:37:40) [GCC 2.96 20000731 (Red Hat Linux 7.1 2.96-96)] on linux2 Type "copyright", "credits" or "license" for more information. >>> >>> from gadfly import gadfly >>> connection = gadfly("test", "dbtest") >>> cursor = connection.cursor() >>> cursor.execute("select * from frequents") >>> cursor.description (('DRINKER', None, None, None, None, None, None), ('PERWEEK', None, None, None, None, None, None), ('BAR', None, None, None, None, None, None)) >>> print cursor.pp() DRINKER | PERWEEK | BAR =

adam | 1 | lolas woody | 5 | cheers sam | 5 | cheers norm | 3 | cheers wilt | 2 | joes norm | 1 | joes lola | 6 | lolas norm | 2 | lolas woody | 1 | lolas pierre | 0 | frankies >>>

Architecture

The SQL grammar is described in grammar.py, the binding of the grammar constructs to semantic objects is performed in bindings.py, the semantic objects and their execution strategies is defined in semantics.py. The semantics use a lot of classical and non-classical logic (cylindric logic, to be precise) as well as optimization heuristics to define a relatively efficient and hopefully correct implementation of SQL. I recommend the brave have a look at semantics.py for a look into the 12 years of research into databases, logic, and programming languages that contributed bits to this work. The underlying logic (in a different framework) is given in A. Watters, "Interpreting a Reconstructed Relational Calculus", ACM SIGMOD Proceedings, 1993, Washington DC, pp. 367-376.

The most basic data structures of the implementation are given in either kjbuckets0.py or the faster kjbucketsmodule.c, which implement the same data type signatures in Python and in a C extension to Python respectively.

The database.py module is a simple wrapper that provides a standard DBAPI interface to the system.

The test suite test/test_gadfly.py attempts to provide a regression test and a demonstration of the system.

The SQL parser also requires the kwParsing parser generation package, which consists of a number of additional python modules.

External links

* [http://gadfly.sourceforge.net/ Sourceforge homepage for Gadfly]
* [http://gadfly.sourceforge.net/faq.html Gadfly FAQ]


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