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Revision as of 21:29, 2 November 2011
Phidgets can run on a variety of Operating Systems, and be driven by a variety of Programming Languages.
To simply plug a Phidget in to your computer and have basic data printed to your computer screen, you can use the Phidget Manager on Windows and Mac OSX.
To work directly with a Phidget and do things with the data you collect from it, you will need to write code.
This page provides links to all of the Phidget-supported operating systems and languages. It also provides an overview of general Phidget use in code, and of the two different types of code design you can use to create your project.
To control a Phidget via code, you will need:
- High-Level Drivers (also called the Phidget Manager on Windows and Mac)
- Language-Specific Drivers
- Example Code
- An API Reference list of functions you can use in your language and on your device
The high-level drivers can be found on the page for your operating system. The language-specific drivers, examples, and APIs can be found on the page for your programming language. Both are below.
Operating System Support
Phidgets can run directly on these operating systems:
- OS - Windows
- OS - Mac OSX
- OS - Linux
- OS - Windows CE ??
- OS - Android (3.1 and above)
Phidgets can be driven remotely by these operating systems:
Language Support
We provide a variety of supported languages for using Phidgets.
Although each language has its own drivers, many languages also depend on the high-level drivers being installed as well. These can be found on the operating system pages above.
Phidgets can be programmed either by an event-driven model, or by traditional linear code. All languages below support linear code. Some languages support our complete API, which includes support for event-driven design.
If you are flexible on what language you can use, we suggest choosing a language which supports event-driven code.
Phidgets have libraries to support Event Driven Code in the following languages:
- Language - C/C++
- ...
Phidgets have libraries to support only Linear Code in the following languages:
General Phidget Programming
To use your Phidget within code, you'll want to:
- Create a Phidget software
object
, which gives you access to the functions specific to that device - Open the Phidget using the
object
- Ensure a Phidget is attached (plugged in) by using the
object
- Use functions that the
object
provides, like turning on LEDs, reading sensors, triggering events on data change, etc - When you are done, close and delete the
object
Creating a Software Object
Phidget devices are controlled using software objects. All software device objects have a common API and set of functions that allow you to open it, close it, and set a few listeners to general events such as attach (plug in), detach (unplug), and errors.
But when you create an actual software object, it is a software object specific to your device.
For example, in Java:
// Create a new Accelerometer object
AccelerometerPhidget device = new AccelerometerPhidget();
// Create a new RFID device object
RFIDPhidget device = new RFIDPhidget();
Or in C:
// Create a new Accelerometer object
CPhidgetAccelerometerHandle device = 0;
CPhidgetAccelerometer_create(&device);
// Create a new RFID device object
CPhidgetRFIDHandle device = 0;
CPhidgetRFID_create(&device);
Each software object has an API and available functions which are specific to that device. For example, the RFID device API includes a function to turn on the RFID antenna. The accelerometer device API includes a function to set the sensitivity on each axis.
Opening the Phidget
Phidgets can either be opened when attached directly to a computer, or they can be opened remotely using the Phidget Webservice. This section deals primarily with opening Phidgets directly.
Once you have created your software object, you can call the open()
on that object. For example, in Java:
device.open();
Or in C:
CPhidget_open((CPhidgetHandle) device, -1);
All specific language calls can be found in the API documentation located on each individual language page.
Specific Uses
To use this general API to actually run a Phidget, use the Phidget Manager object within code. See the Hello World
example in any language.
Different Code Styles
User and device actions can be handled by either:
- Letting the program tell you when they happen and then doing something (event driven code)
- Polling for things to happen then doing something (linear code)
Choosing A Code Style
The style of programming you choose (and hence the language you might prefer) would depend on what you want to do with the Phidget. The two sections, Event Driven Code and Linear Code below give benefits, drawbacks, and general examples of each style.
The styles can also mix. For example, you can take a defined set of steps at first such as turning on an LED or antenna (linear code) and then doing nothing until an output change event is fired (event code).
With languages that support both styles, you can mix and match. For languages that support only linear code (see the Language Support Categories above) you can only use the linear style.
Examples in pseudo-code are given below for each style type so you can see how your language choice can affect your code design.
Event Driven Code
Event driven code allows for smooth handling of complex programs. Event driven code is useful for:
- Handling multiple Phidgets
- Handling active plugging or unplugging of the Phidget (multiple attach and detach events)
- Working behind a GUI, as many GUIs are already event driven
- Capturing all sensor data - or input and output - device changes
Without event driven code, you will need to constantly poll the device to see if any state has changed. If you poll at a slower rate than your input or output changes, you will not capture all data.
Event driven code is usually not as useful or efficient for:
- Only one open and close event
- Using only one device
- Having the user (or program) put changes onto the device (in contrast to reading data from the device)
In addition, event driven code is relatively hard to design well. It may help to draw out a flowchart, state machine, or at least a pseudo-code outline of your system design and all events you wish to handle before writing code.
All Supported Languages that handle event driven code have examples of how to write such code on the specific language pages. Event driven examples follow this structure, and places to start changing this structure are noted:
// --- Event Functions ---
Create any Language-Specific Functions (error handling, etc)
Create General Attach, Detach, and Error Handling Functions
On attach: Initialize hardware (antennas, etc)
On detach: Reset any state variables (attached boolean, etc)
Create Hardware-Specific Functions
// ****** Add your own handling code for these data change events ******
On data input change: Notify using basic output (screen message, turn on LED, etc)
// --- Main Code ---
Create Device Software Object
Attach Event Functions created above to Device
Open Device
// ****** Change the look and structure of this loop for your GUI ******
Loop waiting for events and user input:
If device attached:
Get and Print various device statuses on request via user input
Exit upon specific user input
Close Device
Delete Device
Linear Code
Linear code is often more compact and straightforward compared to event driven code. But, linear code cannot easily handle the same level of complexity that event-driven code can. Linear code is useful for:
- Simple, single-device applications
- Non-GUI applications (GUIs usually are event driven)
- The user driving the device rather than listening to it
Linear code is relatively easy to design well. When the code example in the Event Driven Code section above is translated into linear code, we lose the ability to handle multiple attach and detach events (plugging and unplugging of the Phidget). We also lose the ability to have all of the sensor data or event changes come to us, instead we have to ask for them. However, the code structure is much simpler:
Create Device Software Object
Open Device
Wait for Device Attachment
Initialize any hardware (antennas, etc)
Loop waiting for requests from user input:
Get and Print various device statuses on request by input
Exit upon specific user input
Close Device
Delete Device
If you find that in linear code you have a highly complex if
loop driving your program, you should consider switching to event driven code. This type of awkward if-loop might look like this:
Create Device Software Object
Open Device
Loop Until Exit Requested {
if No Device Attached {
Wait For Attachment until Timeout
if Wait Timeout Reached {
break
} else {
Initialize Device
}
} else { // Device Is Attached
if Device Data Type 1 Changed {
Do Something
}
if Device Data Type 2 Changed {
Do Something Else
}
// ... More data change functions here
}
Collect User Input
}
Close Device
Delete Device
On the other hand, you can probably see that if your language does not give the option for events, you can use this structure to mimic what events would enable you to do.