Lazarus Database Overview

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This tutorial is about getting Lazarus to work with a variety of existing databases.

Please expand on this section.

Lazarus and MySQL

Get MySQL working in Linux or Windows

Follow the instructions in the MySQL User Manual. Make sure that the mysqld daemon runs reliably, and that all potential users (including root, mysql, yourself and anybody else that may need it) have as many privileges as they need, from as many hosts as may be needed (including 'localhost', the local host's name, any other hosts on your network) as far as is consistent with security. It is preferable that all users including root have passwords. Test the action of the database system using the examples given in the manual, and check that all users really do have reliable access.

Get MySQL working for FPC in text mode

There is a directory with an example program in $(fpcsrcdir)/packages/base/mysql/. You can find the fpc source directory in Lazarus: Environment menu -> Environment Options -> Paths tab -> FPC source directory. Possible paths for the mysql directory are /usr/share/fpcsrc/packages/base/mysql/ (rpm install) or C:\lazarus\fpcsrc\packages\base\mysql\ (windows). This directory also contains the units mysql.pp, mysql_com.pp and mysql_version.pp. Before running the test script, you need to create a database called testdb: do this by logging into the mysql monitor (as root with full privileges) and issuing the following SQL statement


then make sure that all relevant users have appropriate access privileges to it

GRANT ALL ON testdb TO johnny-user IDENTIFIED BY 'johnnyspassword'; 

There is a script called mkdb which you should now try to run:

sh ./mkdb

This will probably fail, as the system will not allow an anonymous user to access the database. So change the script using an editor so that the line invoking mysql reads:

mysql -u root -p  ${1-testdb} << EOF >/dev/null

and try running it again, entering your password when prompted. With luck you might have managed to create the test database: test it (while logged in to the mysql monitor) by issuing the mysql statement

select * from FPdev;

You should see a table listing the ID, username and email address of some of the FPC developers.

Now try to run the test program testdb.pp (this may need to be compiled, and will almost certainly fail on the first attempt!!).

I found that the program could not connect to mysql for several reasons:

  • My system (SuSE Linux v9.0) installs mysql v4.0.15, not the version3 for which the package was designed.
  • The program needs to have user names and passwords to get access to the database.
  • The compiler needs to know where to find the mysql libraries (IF YOU HAVEN'T INSTALLED THE MYSQL DEVELOPMENT LIBRARIES, DO SO NOW!)

I created a copy of testdb.pp called trydb.pp, rather than editing the original - this means that the original files still get fixed in subsequent CVS updates. I also copied the files found in the subdirectory mysql/ver40/ into the main mysql/ subdirectory, renaming them mysql_v4.pp, mysql_com_v4.pp and mysql_version_v4.pp, being sure to rename the units within each file correspondingly. I changed the uses statement in trydb.pp to

uses mysql_v4

and the statement in mysql_v4.pp to

uses mysql_com_v4

I added a line to /etc/fpc.cfg to point to my libraries:


The following step might not be necessary if the devel-libraries are installed as the links will be created for you, but it never hurts to check. I had to find the real name of the mysqlclint library in the /usr/lib directory and in my case I had to issue the shell command:

ln -s lmysqlclient

to make a symbolic link allowing FPC to find the library. For good measure I also created the link

ln -s mysqlclient

and placed similar links in various other directories: not strictly necessary, but just in case ...! Some users might need to add the following link:

ln -s

I modified trydb.pp to include user details, initially by adding host, user and password as constants:

  host : Pchar= 'localhost';
  user : Pchar= 'myusername';
  passwd: Pchar = 'mypassword';

I also found that I couldn't connect to mysql using the mysql_connect() call, but had to use mysql_real_connect() which has many more parameters. To complicate things further, the number of parameters seems to have changed between version3 (where there are seven) and version4 (where there are eight). Before using mysql_real_connect I had to use mysql_init() which is not found in the original mysql.pp but is found in mysql_v4.pp.

So the code for connection to the database is now:

{ a few extra variables}
  alloc : PMYSQL;
{main program fragment}
 if paramcount=1 then
Writeln ('Allocating Space...');
 alloc := mysql_init(PMYSQL(@qmysql));
 Write ('Connecting to MySQL...');
 sock :=  mysql_real_connect(alloc, host, user, passwd, database, 0, nil, 0);
 if sock=Nil then
   Writeln (stderr,'Couldnt connect to MySQL.');
   Writeln (stderr, 'Error was: ', mysql_error(@qmysql));
 Writeln ('Done.');
 Writeln ('Connection data:');
{$ifdef Unix}
 writeln ('Mysql_port      : ',mysql_port);
 writeln ('Mysql_unix_port : ',mysql_unix_port);
 writeln ('Host info       : ',mysql_get_host_info(sock));
 writeln ('Server info     : ',mysql_stat(sock));
 writeln ('Client info     : ',mysql_get_client_info);
 Writeln ('Selecting Database ',DataBase,'...');
 if mysql_select_db(sock,DataBase) < 0 then
   Writeln (stderr,'Couldnt select database ',Database);
   Writeln (stderr,mysql_error(sock));
   halt (1);
{... as original contents of testdb.pp}

Now - ready to start compiling trydb.pp?

 fpc trydb

success! Now run it:


whoopee! I got the listing of the FPC developers!

A few extra refinements: make the entry of user details and the mysql commands interactive, using variables rather than constants, and allow several SQL commands to be entered, until we issue the quit command: see the full program listing, where user details are entered from the console, and the program goes into a loop where SQL commands are entered from the console (without the terminal semicolon) and the responses are printed out, until 'quit' is entered from the keyboard.

See Sample Console Listing.

Connecting to MySQL from a Lazarus Application

This tutorial shows how to connect Lazarus to the MySQL database, and execute simple queries, using only the basic Lazarus components; it uses no Data Aware components, but illustrates the principles of interfacing with the database.

Create a new project in Lazarus:

Project -> New Project -> Application

A new automatically generated Form will appear.

Enlarge the form to fill about half of the screen, then re-name the form and its caption to 'TryMySQL'.

From the Standard Component tab place three Edit Boxes on the upper left side of the Form, and immediately above each box place a label. Change the names and captions to 'Host' (and HostLLabel,HostEdit), 'UserName' (and UserLabel, UserEdit) and 'Password' (with PasswdLabel and PasswdEdit). Alternatively you could use LabelledEdit components from the Additional tab.

Select the Passwd Edit box and find the PasswordChar property: change this to * or some other character, so that when you type in a password the characters do not appear on your screen but are echoed by a series of *s. Make sure that the Text property of each edit box is blank.

Now place another Edit box and label at the top of the right side of your form. Change the label to 'Enter SQL Command' and name it CommandEdit.

Place three Buttons on the form: two on the left under the Edit boxes, and one on the right under the command box.

Label the buttons on the left 'Connect to Database' (ConnectButton)and 'Exit' (ExitButton) and the one on the right 'Send Query' (QueryButton).

Place a large Memo Box labelled and named 'Results' (ResultMemo) on the lower right, to fill most of the available space. Find its ScrollBars property and select ssAutoBoth so that scroll bars appear automatically if text fills the space. Make the WordWrap property True.

Place a Status Bar (from the Common Controls tab) at the bottom of the Form, and make its SimpleText property 'TryMySQL'.

A screenshot of the Form can be seen here: Mysql Example Screenshot

Now we need to write some event handlers.

The three Edit boxes on the left are for entry of hostname, username and password. When these have been entered satisfactorily, the Connect Button is clicked. The OnCLick event handler for this button is based on part of the text-mode FPC program above.

The responses from the database cannot now be written using the Pascal write or writeln statements: rather, the replies have to be converted into strings and displayed in the Memo box. Whereas the Pascal write and writeln statements are capable of performing a lot of type conversion 'on the fly', the use of a memo box for text output necessitates the explicit conversion of data types to the correct form of string, so Pchar variables have to be converted to strings using StrPas, and integers have to be converted with IntToStr.

Strings are displayed in the Memo box using

procedure ShowString (S : string);
(* display a string in a Memo box *)
       trymysqlForm1.ResultsMemo.Lines.Add (S)

The ConnectButton event handler thus becomes:

procedure TtrymysqlForm1.ConnectButtonClick(Sender: TObject);
(* Connect to MySQL using user data from Text entry boxes on Main Form *)
var strg: string;
 dummy1 :=  trymysqlForm1.HostEdit.text+#0;
 host := @dummy1[1];
 dummy2 := trymysqlForm1.UserEdit.text+#0;
 user := @dummy2[1] ;
 dummy3 := trymysqlForm1.PasswdEdit.text+#0;
 passwd := @dummy3[1] ;
 alloc := mysql_init(PMYSQL(@qmysql));
 sock :=  mysql_real_connect(alloc, host, user, passwd, database, 0, nil, 0);
 if sock=Nil then
     strg :='Couldnt connect to MySQL.'; showstring (strg);
     Strg :='Error was: '+ StrPas(mysql_error(@qmysql)); showstring (strg);
     trymysqlForm1.statusBar1.simpletext := 'Connected to MySQL';
     strg := 'Now choosing database : ' + database; showstring (strg);
{$ifdef Unix}
     strg :='Mysql_port      : '+ IntToStr(mysql_port); showstring (strg);
     strg :='Mysql_unix_port : ' + StrPas(mysql_unix_port); showstring (strg);
     Strg :='Host info       : ' + StrPas(mysql_get_host_info(sock));
     showstring (strg);
     Strg :='Server info     : ' + StrPas(mysql_stat(sock)); showstring (strg);
     Strg :='Client info     : ' + Strpas(mysql_get_client_info);  showstring (strg);
     trymysqlForm1.statusbar1.simpletext := 'Selecting Database ' + DataBase +'...';
 if mysql_select_db(sock,DataBase) < 0 then
   strg :='Couldnt select database '+ Database; ShowString (strg);
   Strg := mysql_error(sock); ShowString (strg);

The Text Box on the right allows entry of a SQL statement, without a terminal semicolon; when you are satisfied with its content or syntax, the SendQuery button is pressed, and the query is processed, with results being written in the ResultsMemo box.

The SendQuery event handler is again based on the FPC text-mode version, except that once again explicit type-conversion has to be done before strings are displayed in the box.

A difference from the text-mode FPC program is that if an error condition is detected, the program does not halt and MySQL is not closed; instead, control is returned to the main form and an opportunity is given to correct the entry before the command is re-submitted. The application finally exits (with closure of MySQL) when the Exit Button is clicked.

The code for SendQuery follows:

procedure TtrymysqlForm1.QueryButtonClick(Sender: TObject);
 dumquery, strg: string;
     dumquery := TrymysqlForm1.CommandEdit.text;
     dumquery := dumquery+#0;
     query := @dumquery[1];
     trymysqlForm1.statusbar1.simpletext := 'Executing query : '+ dumQuery +'...';
     strg := 'Executing query : ' + dumQuery; showstring (strg);
     if (mysql_query(sock,Query) < 0) then
       Strg :='Query failed '+ StrPas(mysql_error(sock)); showstring (strg);
       recbuf := mysql_store_result(sock);
       if RecBuf=Nil then
         Strg :='Query returned nil result.'; showstring (strg);
         strg :='Number of records returned  : ' + IntToStr(mysql_num_rows (recbuf));
         Showstring (strg);
         Strg :='Number of fields per record : ' + IntToStr(mysql_num_fields(recbuf));
         showstring (strg);
         rowbuf := mysql_fetch_row(recbuf);
         while (rowbuf <>nil) do
              Strg :='(Id: '+ rowbuf[0]+', Name: ' + rowbuf[1]+ ', Email : ' +
               rowbuf[2] +')';
              showstring (strg);
              rowbuf := mysql_fetch_row(recbuf);

Save your Project, and press Run -> Run

Download MYSQL Source Code

A full listing of the program is available here Sample Source Code

Lazarus and Postgresql

Please write me!

Lazarus and SQLite

by Luiz Américo


TSqliteDataset is a TDataset descendent class that accesses sqlite2.8.x databases. Below is a list of the principal advantages and disadvantages:


  • Flexible: programmers can choose to use or not to use the SQL language, allowing them to work with simple table layouts or any complex layout that SQL allows
  • Automatic database update: no need to update the database manually with SQL statements, a single method take cares of it
  • Fast: it caches the data in memory, making browsing in the dataset fast
  • No server instalation/configuration: just ship together with sqlite dynamic library


  • Requires external file (sqlite library)


  • fpc 2.0.0
  • Lazarus 0.9.8 or newer or a recent 0.9.7
  • sqlite runtime library 2.8.15 or above (get from

Before initiating a lazarus projects, ensure that:

  • the sqlite library is on the system PATH or in the executable directory
  • under Linux, put cmem as the first unit in uses clause of the main program

How To Use (Basic Usage)

Install the package found at /components/sqlite directory (see instructions here)

At design time set the following properties:

  • FileName: path of the sqlite file [required]
  • TableName: name of the table used in the sql statement [required]
  • Sql: a SQL select statement [optional]

Creating a Table (Dataset)

Double click in the component icon or use the 'Create Table' item of the popup menu that appears when clicking the right mouse button. A simple self-explaining table editor will be show.

 Here is all field types supported by TSqliteDataset: 

Retrieving the data

After creating the table or with a previously created Table, open the dataset with Open method. If the SQL property was not set then all records from all fields will be retrieved, the same if you set the SQL to:

 SQL:='Select * from TABLENAME'; 

Applying changes to the underlying datafile

To use the ApplyUpdates function, the dataset must contain at least one field that fills the requirements for a Primary Key (values must be UNIQUE and not NULL)

It's possible to do that in two ways:

  • Set PrimaryKey property to the name of a Primary Key field
  • Add an AutoInc field (This is easier since the TSqliteDataSet automatically handles it as a Primary Key)

If one of the two conditions is set then just call


PS1: If both conditions are set, the field corresponding to PrimaryKey is used to apply the updates.

PS2: Setting PrimaryKey to a field that is not a Primary Key will lead to loss of data if ApplyUpdates is called, so ensure that the chosen field contains not Null and Unique values before using it.


  • Although it has been tested with 10000 records and worked fine, TSqliteDataset keeps all the data in memory, so remenber to retrieve only the necessary data (principally with Memo Fields).
  • The same datafile (Filename property) can host several tables/datasets
  • Several datasets (different combinations of fields) can be created using the same table simultaneously
  • It's possible to filter the data using WHERE statements in the sql, closing and reopening the dataset (or calling RefetchData method). But in this case, the order and number of fields must remain the same
  • It's also possible to use complex SQL statements using aliases, joins, views in multiple tables (remember that they must reside in the same datafile), but in this case ApplyUpdates won't work. If someone wants to use complex queries and to apply the updates to the datafile, mail me and I will give some hints how to do that
  • Setting filename to a sqlite2.x datafile not created by TSqliteDataset and opening it is allowed but some fields won't have the correct field type detected. These will be treated as string fields.

Generic examples can be found at fpc/fcl/db/sqlite CVS directory

Luiz Américo pascalive(at)bol(dot)com(dot)br

Lazarus and MSSQL

Please write me!

Lazarus and Interbase / Firebird

See Install Packages. On this page is a first small example en explanation about how to connect to an IB or FB server.

Also work with the latest Zeoslib (from cvs).

Lazarus and dBase

Tony Maro

You might also want to visit the beginnings of the TDbf Tutorial page

FPC includes a simple database component that is similar in function to the Delphi TTable component called "TDbf" (TDbf Website) that supports a very basic subset of features for dBase files. It is not installed by default, so you will first need to install the Lazarus package from the "lazarus/components/tdbf" directory and rebuild your Lazarus IDE. It will then appear next to the TDatasource in your component palette.

The TDbf component has an advantage over other database components in that it doesn't require any sort of runtime database engine, however it's not the best option for large database applications.

It's very easy to use. Simply, put, drop a TDbf on your form, set the runtime path to the directory that your database files will be in, set the table name, and link it to your TDatasource component.

Real functionality requires a bit more effort, however. If a table doesn't already exist, you'll need to create it programmatically, unless there's a compatible table designer I'm not familiar with.

Attempting to open a non-existant table will generate an error. Tables can be created programmatically through the component after the runtime path and table name are set.

For instance, to create a table called "dvds" to store your dvd collection you would drop it on your form, set the runtime path, and set the table name to "dvds". The resulting file will be called "dvds.dbf".

In your code, insert the following:

   Dbf1.FilePathFull = '/path/to/my/database';
   Dbf1.TableName = 'dvds';
   With Dbf1.FieldDefs do begin
       Add('Name', ftString, 80, True);
       Add('Description', ftMemo, 0, False);
       Add('Rating', ftString, 5, False);

When this code is run, your DVD collection table will be created. After that, all data aware components linked through the TDatasource to this component will allow easy access to the data.

Adding indexes is a little different from your typical TTable. It must be done after the database is open. It's also the same method you use to rebuild the indexes. For instance:

   Dbf1.Exclusive := True;
   Dbf1.AddIndex('dvdsname','Name',[ixPrimary, ixUnique, ixCaseInsensitive]);
   Dbf1.AddIndex('rating.ndx', 'Rating', [ixCaseInsensitive]);

The first (primary) index will be a file called "dvdsname.mdx" and the second will be a file named "rating.ndx" so in a multiple table database you must be careful not to use the same file name again.

I will try to add a more detailed example at a later date, but hopefully this will get those old Delphi programmers up and running with databases in Lazarus!

Translations of this Page

Related Links

Creating Databases Applications with Lazarus using the DB-unit
Creating a database application using MySQL
Creating a database application using the Zeos components

Contributors and Changes

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