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URL: https://www.cdata.com/kb/tech/postgresql-ado-chart.rst

โ‡ฑ DataBind Charts to PostgreSQL Data

DataBind Charts to PostgreSQL Data

๐Ÿ‘ Jerod Johnson
Jerod Johnson
Director, Technology Evangelism
Use the standard ADO.NET procedures for databinding to provide bidirectional access to PostgreSQL data from controls in the Visual Studio toolbox. This article demonstrates a graphical approach using wizards in Visual Studio, as well as how to databind with only a few lines of code.

DataBinding facilitates two-way interaction with data through UI controls. Using the CData ADO.NET Provider for PostgreSQL streamlines the process of binding PostgreSQL data to Windows Forms and Web controls within Visual Studio. In this article, we will demonstrate using wizards to establish a binding between PostgreSQL data and a chart that dynamically updates. Additionally, the code walk-through section will guide you through the creation of a chart using just 10 lines of code.

Binding Data to a Chart

DataBinding to a Chart consists of three steps: Instantiate the control, configure the data source, and databind.

Configure the Connection and Select Database Objects

To create a chart control and establish a connection to PostgreSQL, follow the steps outlined below using the Data Source Configuration Wizard. Within the wizard, you'll have the option to choose the specific PostgreSQL entities you wish to bind to.

  1. In a Windows Forms project, drag and drop a Chart control from the toolbox to the form. In the Data section of the Chart properties, select DataSource and then select Add Project Data Source from the menu. ๐Ÿ‘ Add a data source to be bound to the chart.
  2. In the Data Source Configuration Wizard that appears, select Database -> Dataset.
  3. In the Choose Your Data Connection step, click New Connection.

  4. In the Add Connection dialog, click Change to select the CData PostgreSQL Data Source.

    Below is a typical connection string:

    User=postgres;Password=admin;Database=postgres;Server=127.0.0.1;Port=5432;

    To connect to PostgreSQL, set the Server, Port (the default port is 5432), and Database connection properties and set the User and Password you wish to use to authenticate to the server. If the Database property is not specified, the data provider connects to the user's default database.

    SSH Connectivity for PostgreSQL

    You can use SSH (Secure Shell) to authenticate with PostgreSQL, whether the instance is hosted on-premises or in supported cloud environments. SSH authentication ensures that access is encrypted (as compared to direct network connections).

    SSH Connections to PostgreSQL in Password Auth Mode

    To connect to PostgreSQL via SSH in Password Auth mode, set the following connection properties:

    • User: PostgreSQL User name
    • Password: PostgreSQL Password
    • Database: PostgreSQL database name
    • Server: PostgreSQL Server name
    • Port: PostgreSQL port number like 3306
    • UserSSH: "true"
    • SSHAuthMode: "Password"
    • SSHPort: SSH Port number
    • SSHServer: SSH Server name
    • SSHUser: SSH User name
    • SSHPassword: SSH Password

    SSH Connections to PostgreSQL in Public Key Auth Mode

    To connect to PostgreSQL via SSH in Password Auth mode, set the following connection properties:

    • User: PostgreSQL User name
    • Password: PostgreSQL Password
    • Database: PostgreSQL database name
    • Server: PostgreSQL Server name
    • Port: PostgreSQL port number like 3306
    • UserSSH: "true"
    • SSHAuthMode: "Public_Key"
    • SSHPort: SSH Port number
    • SSHServer: SSH Server name
    • SSHUser: SSH User name
    • SSHClientCret: the path for the public key certificate file

    When you configure the connection, you may also want to set the Max Rows connection property. This will limit the number of rows returned, which is especially helpful for improving performance when designing reports and visualizations.

    ๐Ÿ‘ Connection properties for the selected data source in the Add Connection dialog. (Salesforce is shown.)
  5. Choose the database objects you want to work with. This example uses the Orders table. ๐Ÿ‘ Select database objects. (Salesforce is shown.)

DataBind

After adding the data source and selecting database objects, you can bind the objects to the chart. This example assigns the x-axis to ShipName and the y-axis to ShipCity.

  1. In the Chart properties, click the button in the Series property to open the Series Collection Editor.
  2. In the Series properties, select the columns you want for the x- and y-axes: Select columns from the menu in the XValueMember and YValueMember properties.
๐Ÿ‘ The axes of the chart defined in the Series Collection Editor.

The chart is now databound to the PostgreSQL data. Run the chart to display the current data. ๐Ÿ‘ The chart, filled with data at run time.

Code Walk-through

DataBinding to PostgreSQL data requires only a few lines of code and can be completed in three easy steps.

  1. Connect to PostgreSQL.
  2. Create the PostgreSQLDataAdapter to execute the query and create a DataSet to be filled with its results.
  3. DataBind the result set to the chart.

Below is the complete code: 

PostgreSQLConnection conn = new PostgreSQLConnection("User=postgres;Password=admin;Database=postgres;Server=127.0.0.1;Port=5432;");
PostgreSQLCommand comm = new PostgreSQLCommand("SELECT ShipName, ShipCity FROM Orders", conn);
PostgreSQLDataAdapter da = new PostgreSQLDataAdapter(comm);
DataSet dataset = new DataSet();
da.Fill(dataset);

chart1.DataSource = dataset; 
chart1.Series[0].XValueMember = "ShipName";
chart1.Series[0].YValueMembers = "ShipCity";
// Insert code for additional chart formatting here.
chart1.DataBind();

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