The coordinator for the ADO.NET implementation is <a
href="mailto:rodrigo@ximian.com">Rodrigo Moya</a>, with
the collaboration of <a href="mailto:danmorg@sc.rr.com">Daniel
- Morgan</a>.
+ Morgan</a> and <a href="mailto:tim@timcoleman.com">Tim Coleman</a>.
+
* Action plan
The current plan to implement ADO.NET is as follows:
- <b>Step 1:</b> SqlClient:
+ <b>Step 1:</b> Initial <a href="http://msdn.microsoft.com/library/en-us/cpref/html/frlrfsystemdatasqlclient.asp?frame=true">System.Data.SqlClient</a> Provider:
<ul>
- * Implementation of System.Data.SqlClient based on
- the <a href="http://www.postgresql.org/idocs/">PostgreSQL C API</a>
-
+ * Initial implementation of System.Data.SqlClient is based on
+ the <a href="http://www.postgresql.org/idocs/">PostgreSQL C API</a> which is a
+ client API to the PostgreSQL DBMS. PostgreSQL was chosen so we could quickly
+ create and test the System.Data classes.
+
* Once the <a href="http://msdn.microsoft.com/library/en-us/cpref/html/frlrfsystemdatasqlclient.asp?frame=true">System.Data.SqlClient</a>
code is functional and is usable by other people, we willl move it to
- System.Data.PostgreSQL, and will convert the existing
+ Mono.Data.PostgreSQL, and will convert the existing
System.Data.SqlClient to be just a wrapper around
- System.Data.PostgreSQL.
+ Mono.Data.PostgreSQL.
</ul>
<b>Step 2:</b> <a href="http://msdn.microsoft.com/library/en-us/cpref/html/frlrfSystemDataOleDb.asp?frame=true">System.Data.OleDb</a> Provider:
<ul>
- * On Unix systems: System.Data.OleDb will use the
+ * <p>On Unix systems: System.Data.OleDb uses the
<a href="http://www.gnome-db.org/">LibGDA</a>
engine.
- LibGDA is a data access engine like ADO/OLE-DB, but for Unix. It is
- used by Gnome-Db and libgnomedb. There is work under way to get libgda
- working under Windows by the Gnome-Db developers.
-
- * On Windows systems: System.Data.OleDb will use OLE-DB as
- its engine. It may have the option of using libgda too.
+ <p>LibGDA is a data access engine like ADO/OLE-DB, but for Unix. The
+ GDA in libGDA stands for GNU/GNOME Data Access, but it does not require GNOME.
+ It only requires glib2 and libxml2. LibGDA is used by
+ libgnomedb, GNOME-DB, and gaSQL.
+
+ <p>There is work under way to get libgda working under
+ Windows using Cygwin by the GNOME-DB developers.
+
+ <p>LibGDA has providers for MySQL, PostgreSQL, XML, ODBC,
+ Oracle, Interbase, Sybase/SQL server (via FreeTDS), IBM DB2,
+ SQLite and MDB Tools
+ (MS Access support).
+
+ * On Windows systems: System.Data.OleDb will use libgda as well,
+ if we can get it working, or OLE-DB as
+ its engine.
</ul>
<b>Step 3:</b> <a href="http://msdn.microsoft.com/library/en-us/cpref/html/frlrfsystemdatasqlclient.asp?frame=true">System.Data.SqlClient</a> Provider:
<p>Once Step 1 has been completed and the PostgreSQL
provider support has been moved to its own place at
- System.Data.PostgreSQL, we will use
+ Mono.Data.PostgreSQL, we will use
<a href="http://www.freetds.org/">FreeTDS</a> as the basis
for providing access to Microsoft SQL Server databases.
- FreeTDS is a C API for Unix and Windows that implements
+ <P>FreeTDS is a C API for Unix and Windows that implements
the TDS (Tabular Data Stream) protocol used in accessing
- Microsoft SQL Server and Sybase databases.
+ Microsoft SQL Server and Sybase databases. A .NET Data Provider could be
+ created for Sybase databases as well, but this would be put in Mono.Data.Sybase.
</ul>
<b>Step 4:</b> <a href="http://msdn.microsoft.com/downloads/sample.asp?url=/MSDN-FILES/027/001/668/msdncompositedoc.xml&frame=true">System.Data.Odbc</a> Provider:
<ul>
* We will create a .NET Managaed Provider for ODBC
in System.Data.Odbc for those using ODBC.
- On Unix and Windows, <a href="http://www.unixodbc.org/">unixODBC</a> will be used.
+ On Unix and Windows, <a href="http://www.unixodbc.org/">unixODBC</a> mabye used.
+ iODBC is an alternative to using unixODBC.
+
+ <p>unixODBC works on Unix and Windows. Well, I have not actually
+ used it on Cygwin, but it does build and install without problems.
- unixODBC works on Unix and Windows. Providers exist for
+ <p>unixODBC has providers for:
Oracle, Microsoft SQL Server and Sybase via FreeTDS,
- MySQL, PostgreSQL, IBM DB2, Interbase, and others.
+ MySQL, PostgreSQL, Informix, IBM DB2 (Universal Database),
+ Interbase, miniSQL (mSQL), AdabasD, Empress, YARD SQL, and others.
</ul>
<b>Step 5:</b> Other System.Data providers:
<ul>
- * The idea in Microsoft .NET System.Data seems to be to have
- a managed provider for each supported DBMS. So, apart
- from System.Data.OleDb (generic) and System.Data.SqlClient,
- we'll need to have System.Data.MySQL,
- System.Data.Oracle, and System.Data.PostgreSQL. Others,
+ * <p>The idea in Microsoft .NET System.Data is to have
+ a managed provider for each supported DBMS. System.Data.SqlClient
+ for Microsoft SQL Server.
+ System.Data.OracleClient for Oracle 8i and 9i.
+
+ <p>We will need to have Mono.Data.MySQL, Mono.Data.PostgreSQL,
+ Mono.Data.DB2, and Mono.Data.miniSQL. Others,
of course, are welcomed.
+
+ <p>System.Data has been designed so
+ non-database providers can be created too.
</ul>
* Current Status
- <p>We are still working on Step 1, but we are planning the other steps.
+ <p>We are working on Steps 1, 2, and 5. We have only just begun on
+ steps 2 and 5 though. We still have tons and tons of stuff to do.
If you have any ideas, let us know.
+ <p>For Step 1, the PostgreSQL is starting to come together - it
+ still needs a lot of work.
+
+ <p>For Step 2, Rodrigo Moya has been working on System.Data.OleDb which uses libgda
+ which is an OLE-DB/ADO data access for Unix. The C-Sharp bindings to libgda
+ currently work - meaning they can compile, run, and you can connect to a
+ PostgreSQL database via libgda via the C-Sharp bindings to libgda. Basic
+ functionality (execution of commands, data retrieval, transactions, etc) are
+ now working. Current focus is on filling up the missing pieces (Data adapters
+ mainly).
+
+ <p>For Step 3, we need someone to start the FreeTDS .NET Data Provider so
+ we can have data access to Microsoft SQL Server and Sybase databases, or either
+ add the support in libgda.
+
+ <p>For Step 4, we need someone to start the unixODBC .NET Data Provider, or add
+ the support in libgda.
+
+ <p>For Step 5, we have just begun creating a Mono.Data .NET Provider - a MySQL
+ .NET Provider that uses the MySQL C Client Library. This provider is
+ found in Mono.Data.MySql. We can currently connect and do a SQL INSERT and insert
+ a row into a MySQL database. However, it currently only works on Cygwin because
+ the MySQL client library libmySQL.dll is different
+ from the library on Linux libmysqlclient.dll. Another problem, mysql thread functions
+ do not load for some reason. Also, the provider only runs if you use "mint" (the Mono
+ runtime interpreter). It does not work on "mono" (the Mono Just-In-Time compiler).
+ The C# Bindings to MySQL are thanks to Brad Meril.
+
<p>We are able to do simple CREATE TABLE, DROP TABLE, UPDATE, INSERT, and
DELETE SQL commands using the ExecuteNonQuery method in SqlCommand.
+ <p>We can execute multiple queries and do a NextResult() in SqlDataReader()
+ to get the next result set.
+
<p>We are also able to do simple aggregate functions,
ie, count(), sum(), min(), and max()
in a simple SELECT SQL query using the ExecuteScalar() now.
<p>We are also able to retrieve data with a simple SELECT SQL query
using ExecuteReader() which returns a SqlDataReader. We are able to
use GetSchemaTable() to get the meta data about the table columns.
- We are able to Read() to get each row from the result set. We are able to get
- String data (char, bpchar (character), text, varchar), Int16 (int2 or smallint),
- Int32 (int4 or integer), Int64 (int8 or bigint), DateTime (time, date, timestamp),
+ We are able to Read() to get each row from the result set.
+
+ <p>Here is a sample of code that is based on PostgresTest.cs and
+ TestSqlDataReader.cs tests:
+<pre>
+
+ static void SelectData (IDbConnection cnc) {
+
+ IDbCommand selectCommand = cnc.CreateCommand();
+ IDataReader reader;
+
+ selectCommand.CommandType = CommandType.Text;
+ selectCommand.CommandText =
+ "select * from pg_user;" + \r
+ "select * from pg_tables;" + \r
+ "select * from pg_database";\r
+
+ reader = selectCommand.ExecuteReader ();
+
+ do {\r
+ // get the DataTable that holds\r
+ // the schema\r
+ DataTable dt = rdr.GetSchemaTable();\r
+\r
+ if(rdr.RecordsAffected != -1) {\r
+ // Results for \r
+ // SQL INSERT, UPDATE, DELETE Commands \r
+ // have RecordsAffected >= 0\r
+ Console.WriteLine("Result is from a SQL Command (INSERT,UPDATE,DELETE). Records Affected: " + rdr.RecordsAffected);\r
+ }\r
+ else if (dt == null)\r
+ Console.WriteLine("Result is from a SQL Command not (INSERT,UPDATE,DELETE). Records Affected: " + rdr.RecordsAffected);\r
+ else {\r
+ // Results for\r
+ // SQL not INSERT, UPDATE, nor DELETE\r
+ // have RecordsAffected = -1\r
+ Console.WriteLine("Result is from a SQL SELECT Query. Records Affected: " + rdr.RecordsAffected);\r
+ \r
+ // Results for a SQL Command (CREATE TABLE, SET, etc)\r
+ // will have a null reference returned from GetSchemaTable()\r
+ // \r
+ // Results for a SQL SELECT Query\r
+ // will have a DataTable returned from GetSchemaTable()\r
+\r
+ results++;\r
+ Console.WriteLine("Result Set " + results + "...");\r
+ \r
+ // number of columns in the table\r
+ Console.WriteLine(" Total Columns: " +\r
+ dt.Columns.Count);\r
+\r
+ // display the schema\r
+ foreach (DataRow schemaRow in dt.Rows) {\r
+ foreach (DataColumn schemaCol in dt.Columns)\r
+ Console.WriteLine(schemaCol.ColumnName + \r
+ " = " + \r
+ schemaRow[schemaCol]);\r
+ Console.WriteLine();\r
+ }\r
+\r
+ int nRows = 0;\r
+ string output, metadataValue, dataValue;\r
+ // Read and display the rows\r
+ Console.WriteLine("Gonna do a Read() now...");\r
+ while(rdr.Read()) {\r
+ Console.WriteLine(" Row " + nRows + ": ");\r
+ \r
+ for(c = 0; c < rdr.FieldCount; c++) {\r
+ // column meta data \r
+ DataRow dr = dt.Rows[c];\r
+ metadataValue = \r
+ " Col " + \r
+ c + ": " + \r
+ dr["ColumnName"];\r
+ \r
+ // column data\r
+ if(rdr.IsDBNull(c) == true)\r
+ dataValue = " is NULL";\r
+ else\r
+ dataValue = \r
+ ": " + \r
+ rdr.GetValue(c);\r
+ \r
+ // display column meta data and data\r
+ output = metadataValue + dataValue; \r
+ Console.WriteLine(output);\r
+ }\r
+ nRows++;\r
+ }\r
+ Console.WriteLine(" Total Rows: " + \r
+ nRows);\r
+ } \r
+ } while(rdr.NextResult());\r
+ Console.WriteLine("Total Result sets: " + results);\r
+ \r
+ rdr.Close();\r
+ }
+
+</pre>
+
+ <p>We are able to get
+ String data (char, character, text, varchar), Int16 (smallint),
+ Int32 (integer), Int64 (bigint), DateTime (time, date, timestamp),
Boolean (boolean), Single (float), and Double (double).
- Other More data types will follow later on.
-
- <p>Parameters and stored procedures have not been tested and most likely
- do not work.
+ More data types will come later. Note, the types that do work still
+ need thorough testing.
+
+ <p>Rows that are returned which contain columns that are NULL are handled now.
+ The SqlDataReader method IsDBNull() needs to be called to determine
+ if a field IS NULL before trying to read data from that field.
+
+ <p>Calling PostgreSQL stored procedures works. It does not work perfectly. It may not
+ even work to specification - yet. If you want to test it yourself, look at
+ TestSqlDataReader.cs or PostgresTest.cs in
+ mcs/class/System.Data/Test.
+
+ <p>Below, I have some sample code you can
+ use to call a PostgreSQL stored procedure named "version". This stored
+ procedure returns a string containing the PostgreSQL server version. Notice
+ the CommandType is StoredProcedure and the method ExecuteScalar() is called.
+
+ <p>ExecuteScalar() is a lightweight method in class SqlCommand that only returns
+ one row and one column as one object - even if there is more than row or column.
+
+<pre>
+ static string GetDatabaseServerVersion (SqlConnection cnc)
+ {
+ SqlCommand cmd = cnc.CreateCommand ();
+ string data;
+
+ cmd.CommandType = CommandType.StoredProcedure;
+ cmd.CommandText = "version";
+
+ data = (string) cmd.ExecuteScalar ();
+
+ return data;
+ }
+</pre>
+
+ <p>We have the beginnings of Parameters support PostgreSQL. Only
+ Input Parameters are currently supported. Output, Input/Output,
+ and Return parameters still need to be done.
<p>A lot of functionality in System.Data is missing, but the
infrastructure is starting to come together.
- <p>Need help on the DataSet/DataAdaptor/DataTable/DataRelation/XML
+ <p>A lot of Exceptions need to be thrown for various exceptions. However,
+ SqlException, SqlErrorCollection, and SqlError have been partially
+ implemented.
+
+ <p>Tim Coleman and Rodrigo Moya got the beginnings of the
+ SqlDataAdapter/DataSet/DataTable/DataRow to work. Currently,
+ the SqlDataAdapter can Fill() relational data into a DataTable in a DataSet.
+ See the test mcs/class/System.Data/Test/TestSqlDataAdapter.cs to see it in action.
+ Below, I show a snippets from the test:
+
+<pre>
+ string connectionString;
+ string sqlQuery;
+ SqlDataAdapter adapter;
+ DataSet dataSet = null;
+
+ connectionString =
+ "host=localhost;" +
+ "dbname=test;" +
+ "user=postgres";
+
+ sqlQuery = "select * from pg_tables";
+
+ adapter = new SqlDataAdapter (sqlQuery,
+ connectionString);
+
+ dataSet = new DataSet ();
+
+ adapter.Fill (dataSet);
+
+ if (dataSet != null) {
+ foreach (DataRow row in dataSet.Tables["Table"].Rows)
+ Console.WriteLine("tablename: " + row["tablename"]);
+ }
+</pre>
+
+ <p>We do need help on the DataSet/DataAdaptor/DataTable/DataRelation/XML
functionality so we can integrate with
- the ASP.NET controls and Windows.Forms.
+ the ASP.NET controls and Windows.Forms controls by allowing the controls to bind
+ to a data source. Gonzalo, Gaurav, Leen, Patrik, Duncan, and others are
+ working very hard on the ASP.NET support. If you want to help,
+ contact <a href="mailto:gonzalo@ximian.com">Gonzalo Paniagua Javier</a>
- <P>Need to add XML support in System.Data.
+ <P>Need to add XML support in System.Data. This involves working on
+ the classes: DataSet and XmlDataDocument and the ExecuteXmlReader() in SqlCommand.
<p>The System.Data.dll gets built with the rest of the class library.
To compile the System.Data.dll assembly separately, you need:
- <b>On GNU/Linux and Unix</b>
+ <b>On Unix</b>
<ul>
* update your mono sources. Be sure you have latest mcs.exe
compilation on Linux.
* compile System.Data.dll:
-
- cd mcs/class/System.Data
- mcs --target library -o System.Data.dll @list
+<pre>
+ cd mcs/class/System.Data<br>
+ mcs --target library -o System.Data.dll @list
+</pre>
</ul>
<b>On Windows</b>
<ul>
* update your mono sources. Be sure you have latest mcs.exe
- and .dll's. You can use the same method as Linux, or you can use NAnt.
+ and .dll's. You can use the same method as Linux,
+ or you can use NAnt.
* To use NAnt:
- cd mcs/class/System.Data
- ../../nant/NAnt.exe
+<pre>
+ cd mcs/class/System.Data
+ ../../nant/NAnt.exe
+</pre>
This will automatically copy the System.Data.dll to Test.
- If you need to do a clean for the System.Data.dll assembly,
- cd mcs/class/System.Data and run ../../nant/NAnt.exe clean
+ If you need to do a clean for the System.Data.dll assembly,<br><br>
+
+<pre>
+ cd mcs/class/System.Data
+ ../../nant/NAnt.exe clean
+</pre>
</ul>
* Testing
one locally. PostgreSQL is the DBMS used for the initial
implementation of System.Data.SqlClient.
- <p>Why? Because it is open source, has a client
- library that is easy to use, PostgreSQL on Windows is easy to install on
+ <p>Why? Because it is free software, has a client
+ library that is easy to use, PostgreSQL is easy to install on
Unix and Windows (using the Cygwin install program), not difficult to setup after
installation, and it runs under: Linux,
Windows (via cygwin and ipc-daemon), Unix, and
<p>Installation instructions for PostgreSQL DBMS:
- <b>On GNU/Linux and Unix</b>
+ <b>On Unix</b>
<ul>
* Read the PostgreSQL Installation Instructions
at \usr\doc\postgresql-x.x.x\html\installation.html
- * Depending on your GNU/Linux distribution or Unix,
+ * Depending on your Unix system,
PostgreSQL maybe already installed, a database user 'postgres' created,
a linux user 'postgres' created and initdb ran. Or maybe not.
chown postgres /usr/local/pgsql/data\r
su - postgres\r
initdb -D /usr/local/pgsql/data\r
- postmaster -i -D /usr/local/pgsql/data >logfile 2>&1 &\r
+ postmaster -i -D /usr/local/pgsql/data\r
createdb test\r
psql test
</pre>
* In the /usr/local/pgsql/data/pg_hba.conf file, you need
to have the AUTH_TYPE set to md5. You can read more on this at
- /usr/doc/postgresql-7.2.1/html/client-authentication.html or wherever your
+ /usr/doc/postgresql-7.2.1/html/client-authentication.html
+ or wherever your
PostgreSQL html docs are located. See the 2nd line below,
host 127.0.0.1 has an AUTH_TYPE md5 in pg_hba.conf.
<pre>
- # TYPE DATABASE IP_ADDRESS MASK AUTH_TYPE AUTH_ARGUMENT
+ # TYPE DATABASE IP_ADDRESS MASK AUTH_TYPE
local all trust
host all 127.0.0.1 255.255.255.255 md5
<b>On Windows</b>
<ul>
- * Use the <a href="http://www.cygwin.com/">Cygwin</a> installer to install the PostgreSQL DBMS. It is
+ * Use the <a href="http://www.cygwin.com/">Cygwin</a> installer to
+ install the PostgreSQL DBMS. It is
found in the database category.
* <p>Read the file postgres-x.x.README at /usr/doc/Cygwin and read
LD_LIBRARY_PATH=c:\cygwin\usr\local\lib;c:\cygwin\usr\lib;
</pre>
- <p><b>4.</b> Start the ipc-daemon that came with the cygipc package. There
+ <p><b>4.</b> Start the ipc-daemon that came with the cygipc
+ package. There
are two ways to do this: run it from the command line as:
<p>
<pre>
mkdir /usr/local/pgsql/data\r
initdb -D /usr/local/pgsql/data\r
-postmaster -D /usr/local/pgsql/data >logfile 2>&1 &\r
+postmaster -D /usr/local/pgsql/data\r
createdb test\r
psql test
</pre>
<p>When you need to connect to the database,
you will need ipc-daemon and postmaster running. Start ipc-daemon
- before any of the command above.
+ before any of the command above. If you restart your computer, you
+ need to start ipc-daemon and postmaster either manually or as a
+ service.
<p>psql is a command-line PostgreSQL client tool to
enter and run SQL commands and queries.
mono PostgresTest.exe
</pre>
- <p>You should get something like:
+ <p>Below, I show how the output from PostgresTest. I have omitted a lot
+ of the meta data for the columns except two columns. The classes
+ used were from System.Data.SqlClient and were used to connect to a
+ PostgreSQL database and retrieve data.
<p>
<pre>
- danmorg@DANPC ~/mono/mcs/class/System.Data/Test\r
- $ mcs PostgresTest.cs -r System.Data.dll\r
\r
- danmorg@DANPC ~/mono/mcs/class/System.Data/Test\r
- $ mono PostgresTest.exe\r
- Postgres provider specific tests...\r
+danmorg@DANPC ~/mono/mcs/class/System.Data/Test\r
+$ mcs PostgresTest.cs -r System.Data.dll\r
\r
- Drop table:\r
- Error (don't worry about this one)SqlError:PGRES_FATAL_ERROR ERROR: table "mono\r
- _postgres_test" does not exist\r
- <Stack Trace>\r
+danmorg@DANPC ~/mono/mcs/class/System.Data/Test\r
+$ mono PostgresTest.exe\r
+ Postgres provider specific tests...\r
\r
- Create table with all supported types:\r
- OK\r
- Insert values for all known types:\r
- OK\r
- Update values:\r
- OK\r
- Insert values for all known types:\r
- OK\r
- Aggregate: count(*)\r
- Agg Result: 2\r
- Aggregate: min(text_value)\r
- Agg Result: This is a text\r
- Aggregate: max(int4_value)\r
- Agg Result: 1048000\r
- Aggregate: sum(int4_value)\r
- Agg Result: 1048003\r
- Select values from the database:\r
- Get Schema.\r
- dt.Columns.Count: 12\r
- * Column Name: boolean_value\r
- MaxLength: 1\r
- Type: System.Boolean\r
- * Column Name: int2_value\r
- MaxLength: 2\r
- Type: System.Int16\r
- * Column Name: int4_value\r
- MaxLength: 4\r
- Type: System.Int32\r
- * Column Name: bigint_value\r
- MaxLength: 8\r
- Type: System.Int64\r
- * Column Name: float_value\r
- MaxLength: 4\r
- Type: System.Single\r
- * Column Name: double_value\r
- MaxLength: 8\r
- Type: System.Double\r
- * Column Name: char_value\r
- MaxLength: -1\r
- Type: System.String\r
- * Column Name: varchar_value\r
- MaxLength: -1\r
- Type: System.String\r
- * Column Name: text_value\r
- MaxLength: -1\r
- Type: System.String\r
- * Column Name: time_value\r
- MaxLength: 8\r
- Type: System.DateTime\r
- * Column Name: date_value\r
- MaxLength: 4\r
- Type: System.DateTime\r
- * Column Name: timestamp_value\r
- MaxLength: 8\r
- Type: System.DateTime\r
- Row 0:\r
- Col 0: boolean_value: False\r
- Col 1: int2_value: 5\r
- Col 2: int4_value: 3\r
- Col 3: bigint_value: 9\r
- Col 4: float_value: 3.141590\r
- Col 5: double_value: 3.141593\r
- Col 6: char_value: Mono.Data!\r
- Col 7: varchar_value: It was not me!\r
- Col 8: text_value: We got data!\r
- Col 9: time_value: Monday, 01 January 1 21:13:14\r
- Col 10: date_value: Tuesday, 29 February 2000 00:00:00\r
- Col 11: timestamp_value: Sunday, 29 February 2004 14:00:11\r
- Row 1:\r
- Col 0: boolean_value: True\r
- Col 1: int2_value: -22\r
- Col 2: int4_value: 1048000\r
- Col 3: bigint_value: 123456789012345\r
- Col 4: float_value: 3.141590\r
- Col 5: double_value: 3.141593\r
- Col 6: char_value: This is a char\r
- Col 7: varchar_value: This is a varchar\r
- Col 8: text_value: This is a text\r
- Col 9: time_value: Monday, 01 January 1 21:13:14\r
- Col 10: date_value: Tuesday, 29 February 2000 00:00:00\r
- Col 11: timestamp_value: Sunday, 29 February 2004 14:00:11\r
- Rows: 2\r
+ Drop table:\r
+Error (don't worry about this one)SqlError:PGRES_FATAL_ERROR ERROR: table "mono\r
+_postgres_test" does not exist\r
+ <Stack Trace>\r
+\r
+ Create table with all supported types:\r
+OK\r
+ Insert values for all known types:\r
+OK\r
+ Update values:\r
+OK\r
+ Insert values for all known types:\r
+OK\r
+Aggregate: count(*)\r
+Agg Result: 2\r
+Aggregate: min(text_value)\r
+Agg Result: This is a text\r
+Aggregate: max(int4_value)\r
+Agg Result: 1048000\r
+Aggregate: sum(int4_value)\r
+Agg Result: 1048003\r
+ Select values from the database:\r
+Result is from a SELECT SQL Query. Records Affected: -1\r
+Result Set 1...\r
+ Total Columns: 28\r
+ColumnName = boolean_value\r
+ColumnOrdinal = 1\r
+ColumnSize = 1\r
+NumericPrecision = 0\r
+NumericScale = 0\r
+IsUnique = False\r
+IsKey =\r
+BaseCatalogName =\r
+BaseColumnName = boolean_value\r
+BaseSchemaName =\r
+BaseTableName =\r
+DataType = System.Boolean\r
+AllowDBNull = False\r
+ProviderType = 16\r
+IsAliased = False\r
+IsExpression = False\r
+IsIdentity = False\r
+IsAutoIncrement = False\r
+IsRowVersion = False\r
+IsHidden = False\r
+IsLong = False\r
+IsReadOnly = False\r
+\r
+ ...\r
+\r
+ ColumnName = null_timestamp_value\r
+ ColumnOrdinal = 28\r
+ ColumnSize = 8\r
+ NumericPrecision = 0\r
+ NumericScale = 0\r
+ IsUnique = False\r
+ IsKey =\r
+ BaseCatalogName =\r
+ BaseColumnName = null_timestamp_value\r
+ BaseSchemaName =\r
+ BaseTableName =\r
+ DataType = System.DateTime\r
+ AllowDBNull = False\r
+ ProviderType = 1184\r
+ IsAliased = False\r
+ IsExpression = False\r
+ IsIdentity = False\r
+ IsAutoIncrement = False\r
+ IsRowVersion = False\r
+ IsHidden = False\r
+ IsLong = False\r
+ IsReadOnly = False\r
+\r
+ Gonna do a Read() now...\r
+ Row 0:\r
+ Col 0: boolean_value: False\r
+ Col 1: int2_value: 5\r
+ Col 2: int4_value: 3\r
+ Col 3: bigint_value: 9\r
+ Col 4: float_value: 3.141590\r
+ Col 5: double_value: 3.14159\r
+ Col 6: numeric_value: 123456789012.345\r
+ Col 7: char_value: Mono.Data!\r
+ Col 8: varchar_value: It was not me!\r
+ Col 9: text_value: We got data!\r
+ Col 10: point_value: (1,0)\r
+ Col 11: time_value: 01/01/1 21:13:14\r
+ Col 12: date_value: 02/29/2000 00:00:00\r
+ Col 13: timestamp_value: 02/29/2004 14:00:11\r
+ Col 14: null_boolean_value is NULL\r
+ Col 15: null_int2_value is NULL\r
+ Col 16: null_int4_value is NULL\r
+ Col 17: null_bigint_value is NULL\r
+ Col 18: null_float_value is NULL\r
+ Col 19: null_double_value is NULL\r
+ Col 20: null_numeric_value is NULL\r
+ Col 21: null_char_value is NULL\r
+ Col 22: null_varchar_value is NULL\r
+ Col 23: null_text_value is NULL\r
+ Col 24: null_point_value is NULL\r
+ Col 25: null_time_value is NULL\r
+ Col 26: null_date_value is NULL\r
+ Col 27: null_timestamp_value is NULL\r
+ Row 1:\r
+ Col 0: boolean_value: True\r
+ Col 1: int2_value: -22\r
+ Col 2: int4_value: 1048000\r
+ Col 3: bigint_value: 123456789012345\r
+ Col 4: float_value: 3.141590\r
+ Col 5: double_value: 3.14159\r
+ Col 6: numeric_value: 123456789012.345\r
+ Col 7: char_value: This is a char\r
+ Col 8: varchar_value: This is a varchar\r
+ Col 9: text_value: This is a text\r
+ Col 10: point_value: (1,0)\r
+ Col 11: time_value: 01/01/1 21:13:14\r
+ Col 12: date_value: 02/29/2000 00:00:00\r
+ Col 13: timestamp_value: 02/29/2004 14:00:11\r
+ Col 14: null_boolean_value is NULL\r
+ Col 15: null_int2_value is NULL\r
+ Col 16: null_int4_value is NULL\r
+ Col 17: null_bigint_value is NULL\r
+ Col 18: null_float_value is NULL\r
+ Col 19: null_double_value is NULL\r
+ Col 20: null_numeric_value is NULL\r
+ Col 21: null_char_value is NULL\r
+ Col 22: null_varchar_value is NULL\r
+ Col 23: null_text_value is NULL\r
+ Col 24: null_point_value is NULL\r
+ Col 25: null_time_value is NULL\r
+ Col 26: null_date_value is NULL\r
+ Col 27: null_timestamp_value is NULL\r
+ Total Rows Retrieved: 2\r
+ Total Result sets: 1\r
+ Call ExecuteReader with a SQL Command. (Not INSERT,UPDATE,DELETE\r
+ ).\r
+ Result is from a SQL Command not (INSERT,UPDATE,DELETE). Records Affected: -1\r
+ Total Result sets: 0\r
+ Call ExecuteReader with a SQL Command. (Is INSERT,UPDATE,DELETE)\r
+ .\r
+ Result is from a SQL Command (INSERT,UPDATE,DELETE). Records Affected: 1\r
+ Total Result sets: 0\r
+ Calling stored procedure version()\r
+ Result: PostgreSQL 7.2.1 on i686-pc-cygwin, compiled by GCC 2.95.3-5\r
+ Database Server Version: PostgreSQL 7.2.1 on i686-pc-cygwin, compiled by GCC 2.9\r
+ 5.3-5\r
Clean up...\r
- Drop table...\r
+ Drop table...\r
OK\r
RESULT: 0\r
\r