Template:Language - C Sharp Write Code: Difference between revisions

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{{WriteCode_Intro|C#|CSharp}}
{{WriteCode_Intro|C#|CSharp}}


==== Step One: Initialize and Open ====
=== Step One: Step One: Create and Address ===
You will need to declare your Phidget object in your code. For example, we can declare a digital input object like this:
You will need to declare your Phidget object in your code. For example, we can declare a digital input object like this:
<syntaxhighlight lang=csharp>
<syntaxhighlight lang=csharp>
DigitalInput ch;
DigitalInput ch = new DigitalInput();
</syntaxhighlight>
</syntaxhighlight>




Next, the Phidget object needs to be initialized and opened:
Next, we can address which Phidget we want to connect to by setting parameters such as ''DeviceSerialNumber''.
<syntaxhighlight lang=cSharp>
<syntaxhighlight lang=cSharp>
ch = new DigitalInput();
ch.DeviceSerialNumber = 496911;
ch.Open();
</syntaxhighlight>
</syntaxhighlight>


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try{
try{
   ch = new DigitalInput();
   ch = new DigitalInput();
   ch.Open();
   ch.DeviceSerialNumber = 496911;
}catch(PhidgetException ex){
}catch(PhidgetException ex){
   Console.WriteLine("Error: " + ex.Description);
   Console.WriteLine("Error: " + ex.Description);
Line 27: Line 26:
</syntaxhighlight>
</syntaxhighlight>


==== Step Two: Wait for Attachment of the Phidget ====
=== Step Two: Open and Wait for Attachment ===
Simply calling open does not guarantee you can use the Phidget immediately. To use a Phidget, it must be plugged in (attached). We can handle this by using event driven programming and tracking the attach events. Alternatively, we can modify our code so we wait for an attachment:
After we have specified which Phidget to connect to, we can open the Phidget object like this:
<syntaxhighlight lang=CSharp>
<syntaxhighlight lang=CSharp>
ch = new DigitalInput();
ch.Open(5000);
ch.Open(5000); //wait for attach for 5 seconds, if not time out
</syntaxhighlight>
</syntaxhighlight>


Waiting for attachment will block indefinitely until a connection is made, or until the timeout value is exceeded.
To use a Phidget, it must be plugged in (attached). We can handle this by calling '''Open(''timeout'')''', which will block indefinitely until a connection is made, or until the timeout value is exceeded. Simply calling ''Open'' does not guarantee you can use the Phidget immediately.


Alternately, you could verify the device is attached by using event driven programming and tracking the attach events.


To use events, we have to modify our code slightly:
To use events, we have to modify our code slightly:
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ch = new DigitalInput();
ch = new DigitalInput();
ch.Attach += onAttachHandler;
ch.Attach += onAttachHandler;
ch.Open();
ch.Open(5000);
</syntaxhighlight>
</syntaxhighlight>


Line 51: Line 50:
</syntaxhighlight>
</syntaxhighlight>


==== Step Three: Do Things with the Phidget ====
We recommend using this attach handler to set any initialization parameters for the channel such as DataInterval and ChangeTrigger from within the AttachHandler, so the parameters are set as soon as the device becomes available.
 
=== Step Three: Do Things with the Phidget ===
We recommend the use of event driven programming when working with Phidgets. In a similar way to handling an attach event as described above, we can also add an event handler for a state change event:
We recommend the use of event driven programming when working with Phidgets. In a similar way to handling an attach event as described above, we can also add an event handler for a state change event:
<syntaxhighlight lang=csharp>
<syntaxhighlight lang=csharp>
Line 67: Line 68:
</syntaxhighlight>
</syntaxhighlight>


If you are using multiple Phidgets in your program, check out our page on [[Using Multiple Phidgets]] for information on how to properly address them and use them in events.


If events do not suit your needs, you can also poll the device directly for data using code like this:
If events do not suit your needs, you can also poll the device directly for data using code like this:
Line 73: Line 75:
</syntaxhighlight>
</syntaxhighlight>


==== Step Four: Close and Delete ====
'''Important Note:''' There will be a period of time between the attachment of a Phidget sensor and the availability of the first data from the device. Any attempts to get this data before it is ready will result in an exception. See more information on this on our page for [[Unknown Values]].
 
====Enumerations====
 
Some Phidget devices have functions that deal with specific predefined values called enumerations. Enumerations commonly provide readable names to a set of numbered options.
 
Enumerations with Phidgets in Visual Basic .NET will take the form of '''Phidget22.EnumerationType.Enumeration_Name'''.
 
For example, specifying a SensorType to use the 1142 for a voltage input would look like:
<syntaxhighlight lang=cSharp>
Phidget22.VoltageSensorType.PN_1142
</syntaxhighlight>
and specifying a K-Type thermocouple for a temperature sensor would be:
<syntaxhighlight lang=cSharp>
Phidget22.ThermocoupleType.K
</syntaxhighlight>
The Phidget error code for timing out could be specified as:
<syntaxhighlight lang=cSharp>
Phidget22.ErrorCode.Timeout
</syntaxhighlight>
 
=== Step Four: Close and Delete ===
At the end of your program, be sure to close your device.
At the end of your program, be sure to close your device.
<syntaxhighlight lang=cSharp>
<syntaxhighlight lang=cSharp>
ch.Close()
ch.Close()
</syntaxhighlight>
</syntaxhighlight>

Latest revision as of 16:05, 26 October 2018

Write Code

By following the instructions for your operating system and compiler above, you now have working examples and a project that is configured. This teaching section will help you understand how the examples were written so you can start writing your own code.


Remember: your main reference for writing C# code will be the Phidget22 API Manual and the example code.

Step One: Step One: Create and Address

You will need to declare your Phidget object in your code. For example, we can declare a digital input object like this: 

DigitalInput ch = new DigitalInput();


Next, we can address which Phidget we want to connect to by setting parameters such as DeviceSerialNumber. 

ch.DeviceSerialNumber = 496911;


Although we are not including it on this page, you should include error handling for all Phidget functions. Here is an example of the previous code with error handling: 

try{
  ch = new DigitalInput();
  ch.DeviceSerialNumber = 496911;
}catch(PhidgetException ex){
  Console.WriteLine("Error: " + ex.Description);
}

Step Two: Open and Wait for Attachment

After we have specified which Phidget to connect to, we can open the Phidget object like this: 

ch.Open(5000);

To use a Phidget, it must be plugged in (attached). We can handle this by calling Open(timeout), which will block indefinitely until a connection is made, or until the timeout value is exceeded. Simply calling Open does not guarantee you can use the Phidget immediately.

Alternately, you could verify the device is attached by using event driven programming and tracking the attach events.

To use events, we have to modify our code slightly: 

ch = new DigitalInput();
ch.Attach += onAttachHandler;
ch.Open(5000);

Next, we have to declare the function that will be called when an attach event is fired - in this case the function onAttachHandler will be called. 

void onAttachHandler (object sender, Phidget22.Events.AttachEventArgs e){
  attachedText.Text = "Attached";
}

We recommend using this attach handler to set any initialization parameters for the channel such as DataInterval and ChangeTrigger from within the AttachHandler, so the parameters are set as soon as the device becomes available.

Step Three: Do Things with the Phidget

We recommend the use of event driven programming when working with Phidgets. In a similar way to handling an attach event as described above, we can also add an event handler for a state change event: 

ch = new DigitalInput();
ch.Attach += onAttachHandler;
ch.StateChange += onStateChangeHandler;
ch.Open();

This code will connect a function and an event. In this case, the onStateChangeHandler function will be called when there has been a change to the devices input. Next, we need to create the onStateChangeHandler function: 

void onStateChangeHandler(object sender, Phidget22.Events.DigitalInputStateChangeEventArgs e) {
    stateText.Text = "State: " + e.State;
}

If you are using multiple Phidgets in your program, check out our page on Using Multiple Phidgets for information on how to properly address them and use them in events.

If events do not suit your needs, you can also poll the device directly for data using code like this: 

stateText.Text = "State: " + ch.State;

Important Note: There will be a period of time between the attachment of a Phidget sensor and the availability of the first data from the device. Any attempts to get this data before it is ready will result in an exception. See more information on this on our page for Unknown Values.

Enumerations

Some Phidget devices have functions that deal with specific predefined values called enumerations. Enumerations commonly provide readable names to a set of numbered options.

Enumerations with Phidgets in Visual Basic .NET will take the form of Phidget22.EnumerationType.Enumeration_Name.

For example, specifying a SensorType to use the 1142 for a voltage input would look like: 

Phidget22.VoltageSensorType.PN_1142

and specifying a K-Type thermocouple for a temperature sensor would be: 

Phidget22.ThermocoupleType.K

The Phidget error code for timing out could be specified as: 

Phidget22.ErrorCode.Timeout

Step Four: Close and Delete

At the end of your program, be sure to close your device. 

ch.Close()
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