Notice: This page contains information for the legacy Phidget21 Library. Phidget21 is out of support. Bugfixes may be considered on a case by case basis. Phidget21 does not support VINT Phidgets, or new USB Phidgets released after 2020. We maintain a selection of legacy devices for sale that are supported in Phidget21. We recommend that new projects be developed against the Phidget22 Library.
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Language - iOS
application are built using the Cocoa Touch framework and the Objective C programming language, both developed by Apple.
Introduction
If this is your first time working with a Phidget, we suggest starting with the Getting Started page for your specific device. This can be found in the user guide for your device. That page will walk you through installing drivers and libraries for your operating system, and will then bring you back here to use iOS specifically.
iOS is capable of using nearly the complete Phidget API, including events. iOS devices can control a Phidget remotely over a network, by using the Phidget Webservice. We also provide example code in iOS for the Phidget InterfaceKit, Hello World examples and a Skeleton starter project.
iOS can be developed with Xcode on OS X..
You can compare iOS with our other supported languages.
Quick Downloads
Just need the iOS documentation, drivers, libraries, and examples? Here they are:
Documentation
Example Code
Libraries and Drivers
Getting Started with Cocoa Touch and Objective C
If you are new to writing code for Phidgets, we recommend starting by running, then modifying existing examples. This will allow you to:
- Make sure your libraries are properly linked
- Go from source code to a test application as quickly as possible
- Ensure your Phidget is hooked up properly
As iOS development is primarily done on Xcode, we provide instructions for Xcode, specifically version 4.0.
Use Our Examples
Download and unpack the Phidget Examples for iOS. The easiest way to confirm that your environment is set up properly will be to compile and run the HelloWorld iOS example. Start by opening the HelloWorld.xcodeproj in Xcode.
Next, select your target destination that you want the application be ran on: an iOS device or simulator.
To run the example, click on the Run
button.
After confirming that the HelloWorld
example is working, you can proceed to run the example for your device. If you aren't sure what the software example for your device is called, check the software object listed in the Getting Started Guide for your Device. Please ensure that you have set your start up project to be the one that matches your device before compiling.
Once you have the iOS examples running, we have a teaching section below to help you follow them.
Write Your Own Code
To write your own code from scratch, start with an Android project in Eclipse (File → New → Android Project). Then....
Step One: Link the Phidget Libraries to your Project
When you download and unzip the Phidget Examples for Android, each project folder will (in addition to the project files themselves) contain three things:
- A libs/ folder (containing an armabi/ folder and a single file called libphidget21.so)
- A jar file containing the general Phidget java library (phidget21.jar)
- A jar file for directly driving USB devices from a USB port on the Android device (PhidgetsUSB.jar)
Copy the libs
folder, the PhidgetsUSB.jar
file, and the phidget21.jar
file to your project folder.
To install libraries to run a Phidget remotely over a network using the Webservice:
- Add the libs/ folder to your project
- To add the libs/ folder in Eclipse, simply place it in the root folder of your project
- Add the phidget21.jar file to your project
- In Eclipse use the top-bar menu: Project → Properties → Java Build Path → Libraries (tab) → Add JAR
Step Two: Give your Program Permission to use the Internet
Add the following to your AndroidManifest.xml
file:
<uses-permission android:name="android.permission.INTERNET"></uses-permission>
Step Three: Include the Phidget Libraries in your Source
Then, in your code, include an import
reference to the library. In Xcode:
// This contains all of the devices and the exceptions
import com.phidgets.*;
// This contains all of the event listeners
import com.phidgets.event.*;
Then you are ready to begin coding!
Follow the Examples
By following the instructions above, you probably now have a working example and want to understand it better so you can change it to do what you want. This section has resources for you to learn from the examples and write your own.
Programming with Phidgets in MATLAB makes extensive use of the mainstream Java Phidgets library, so the Java API reference will be helpful:
- Java API (This is the complete set of functions you have available for all Phidgets)
- Device Specific APIs - The one for your Phidget can be found in its user guide.
To learn the details behind opening, configuring, using, and closing your Phidget, try the General Phidget Programming page. That page also describes using the Phidget in an event-driven manner and in a traditional manner, although you can only use the event code in Android.
API Support
Most of the C API is supported in iOS, with the exception of the local open calls. This is because there are no USB ports on iOS devices, so only the remote open calls can be used.
The following open calls are unsupported:
int CPhidget_open(CPhidgetHandle phid, int serialNumber)
int CPhidget_openLabel(CPhidgetHandle phid, const char * label)
Code Snippets
Specific calls in iOS will differ in syntax from those on the General Phidget Programming page, but the concepts stay the same.
It may help to have the General Phidget Programming page and this section open at the same time, because they parallel each other and you can refer to the Android Java syntax. However, many additional concepts are covered on the General Phidget Programming page on a high level, such as using multiple Phidgets, handling errors, and different styles of programming.
For example, if we were using a Phidget Interface Kit as our device, the general calls would look like this:
Step One: Initialize and Open
For opening a remote Phidget over the network using the Webservice:
InterfaceKitPhidget device;
device = new InterfaceKitPhidget();
// Open first detected Interface Kit, remotely with IP address and port
device.open("192.168.3.33", 5001);
For opening a Phidget directly attached to the tablet's USB port:
InterfaceKitPhidget device;
com.phidgets.usb.Manager.Initialize(this);
device = new InterfaceKitPhidget();
// Open locally, with Phidget in tablet USB port
ik.open("192.168.3.33", 5001);
The direct open call prevents any other instances from retrieving data from the Phidget, including other programs. The one connection per device limit does not apply when exclusively using the Phidget Webservice.
Both open calls will tell the program to continuously try to connect to a Phidget, based on the parameters given, even trying to reconnect if it gets disconnected. This means that simply calling open does not guarantee you can use the Phidget immediately. We can handle this by using event driven programming and tracking the AttachEvents and DetachEvents....
Step Two: Wait for Attachment (plugging in) of the Phidget
To use the Phidget, it must be plugged in and a software event caught (i.e. attached).
Android Java is only event-driven, so you cannot use waitForAttachment()
without hanging and being relatively unsafe with your threads. Instead, you should define an event handler function that you can then synchronize and tie in with the attachment event itself.
First, let's write our handler:
class AttachEventHandler implements Runnable {
Phidget device;
TextView eventOutput;
public AttachEventHandler(Phidget device, TextView eventOutput) {
this.device = device;
this.eventOutput = eventOutput; }
public void run() {
try {
// The actual useful thing our handler does
eventOutput.setText("Hello " + device.getDeviceName() + ", Serial " + Integer.toString(device.getSerialNumber()));
} catch (PhidgetException e) { e.printStackTrace(); }
// Notify whoever called us (and is waiting) that we're done
synchronized(this) { this.notify(); }
}
}
This may seem complex, but really it is just:
- A class wrapper so we can work independently once we get permission from the main thread, and
- A way to call back to the
synchronized()
call to let them know we're done and stay thread safe
Now that we have our 'handler' we can hook it in as an event function to trigger on device attachment:
device.addAttachListener(new AttachListener() {
public void attached(final AttachEvent attachEvent) {
AttachEventHandler handler = new AttachEventHandler(attachEvent.getSource(), eventOutput);
// This is synchronised in case more than one device is attached before one completes attaching
synchronized(handler) {
runOnUiThread(handler);
try { handler.wait(); } catch (InterruptedException e) { e.printStackTrace(); }
}
}
});
Step Three: Do Things with the Phidget
Again, because Android is event driven, use buttons (or timers) to schedule events if you want to poll the device at a certain interval or user specification. Otherwise, simply set the sensitivity and/or data rate (depending on your device type) and catch events as they come in using the handler structure above.
Step Four: Close and Delete
At the end of your program, don’t forget to call close to free any locks on the Phidget.
We can put the close() call for Phidgets in Android within an overridden version of the onDestroy() Android application function. Within it, we simply close the device. For Phidgets directly attached to a USB Android tablet, you should also call Uninitialize():
@Override
protected void onDestroy() {
super.onDestroy();
try { device.close(); } catch (PhidgetException e) { e.printStackTrace(); }
// Uninitialize should only be called for directly connected Phidgets
com.phidgets.usb.Manager.Uninitialize();
}
The complete set of functions you have available for all Phidgets can be found in the Java API. You can also find more description on any device-specific function either in the Device API page for calls available only on your specific Phidget.