Difference between revisions of "Language - Swift"

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=== Documentation ===
=== Documentation ===
*{{Phidget22API}} (select C from the drop-down menu)
=== Example Code ===
=== Example Code ===

Revision as of 17:25, 11 December 2017

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Example Code


Getting Started with Swift

Welcome to using Phidgets with Swift! By using Swift, you will have access to the complete Phidget22 API, including events. We also provide example code in Swift for multiple Phidget classes.


If you haven't already, please visit the iOS page before you continue reading. There you will be instructed on how to properly set up your development machine so you can follow the guides below!


Use Our Examples

One of the best ways to start programming with Phidgets is to use our example code as a guide. In order to run the examples for iOS you will need to download Xcode from the Mac App Store.

Now that you have Xcode installed, download the Swift example:

You have previously downloaded the Phidget iOS libraries on the iOS page, but here they are again, just in case:

Next, unpack the Swift example and navigate to Phidget.xcodeproj. Open the file in Xcode:

Swift open.png

With Phidgets as your target, navigate to Build Settings and find the Header Search Paths setting:

Ios header.png

The header file phidget22.h was included in the Phidget iOS libraries download. Add a reference to the folder that contains phidget22.h under the Header Search Paths setting:

Ios header path.png

Next, find the Other Linker Flags setting:

Ios linker.png

Add a reference to the Phidget libraries that were included in the Phidget iOS libraries download:

Ios linker path.png

Now that the library files are linked, simply select the type of device you would like the application to run on and press play:

Ios simulator.png

The application will detect any servers that are currently online and have Phidgets connected. Here is an example output:

Ios PhidgetApp MainScreen.png

After confirming that the Phidgets Example is working, you can proceed to run the example for your specific device. Do this by selecting your server and then continue to navigate through the hierarchy until you reach your device. After tapping your device, the example will show automatically. Currently, we have example programs for the following classes:

  • DigitalInput
  • DigitalOutput
  • VoltageInput
  • VoltageRatioInput

Here is an example of what the VoltageInput example looks like:

Ios example run.png

You should now have the example up and running for your device. Play around with the device and experiment with some of the functionality. When you are ready, the next step is configuring your project and writing your own code!

Configure Your Project

Whether you are building a project from scratch, or adding Phidget functionality to an existing project, you will need to configure your development environment to properly link the Phidget libraries. To begin:

Create a new Xcode project:

Cocoa CreateProject.png

Next, select an iOS application. For this tutorial's purposes, we will use a Single View Application:

IOS SingleView.png

Name the project, select Swift as the language, and choose which devices will be supported:

IOS NameProject Swift.png

Now that your project is created, you need to add references to the Phidget iOS libraries. This is covered in detail above in the use our examples section.

After you have linked the Phidget iOS libraries, simply add a reference to phidget22.h in your bridging header file:

#import "phidget22.h"

Success! The project now has access to Phidgets and we are ready to begin coding.

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 {{{1}}} code will be the Phidget22 API Manual and the example code.

Step One: Initialize and Open

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

var ch:PhidgetDigitalInput? = nil

Next, the Phidget object needs to be initialized and opened:


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:

var res:PhidgetReturnCode = EPHIDGET_OK

res = PhidgetDigitalInput_create(&ch)
if(res != EPHIDGET_OK){

res = Phidget_open(ch)
if(res != EPHIDGET_OK){

Step Two: Wait for Attachment (Plugging In) of the Phidget

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:

Phidget_openWaitForAttachment(ch, 5000)

Waiting for attachment will block indefinitely until a connection is made, or until the timeout value is exceeded.

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

Phidget_setOnAttachHandler(ch, gotAttach, bridge(self))

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

let gotAttach: @convention(c)(PhidgetHandle?, UnsafeMutableRawPointer?) -> () = {phid,context in
    DispatchQueue.main.async(execute: {
        let myObject = Unmanaged<YourViewController>.fromOpaque(context!).takeUnretainedValue()

The bridge function mentioned above is described here:

func bridge<T : AnyObject>(_ obj : T) -> UnsafeMutableRawPointer {
    return Unmanaged.passUnretained(obj).toOpaque()

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:

Phidget_setOnAttachHandler(ch, gotAttach, bridge(self))
PhidgetDigitalInput_setOnStateChangeHandler(ch, gotStateChange, bridge(self))

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

let gotStateChange: @convention(c)(PhidgetDigitalInputHandle?, UnsafeMutableRawPointer?, CInt) -> () = {_,context,cState in
    var state:Int32 = cState
    DispatchQueue.main.async(execute: {
        let myObject = Unmanaged<YourViewController>.fromOpaque(context!).takeUnretainedValue()

Above, the onStateChangeHandler method is invoked on the main thread. Event data is stored as an Int32.

The method onStateChangeHandler is defined as follows:

func onStateChangeHandler(_ state:Int32){
    if  state == 0{
        stateLabel.text = "False"
        stateLabel.text = "True"

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

var state = 0

PhidgetDigitalOutput_getState(ch, &state)
stateLabel.text = state ? "True" : "False"

Step Four: Close and Delete

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


Further Reading

Phidget Programming Basics - Here you can find the basic concepts to help you get started with making your own programs that use Phidgets.

Data Interval/Change Trigger - Learn about these two properties that control how much data comes in from your sensors.

Using Multiple Phidgets - It can be difficult to figure out how to use more than one Phidget in your program. This page will guide you through the steps.

Polling vs. Events - Your program can gather data in either a polling-driven or event-driven manner. Learn the difference to determine which is best for your application.

Logging, Exceptions, and Errors - Learn about all the tools you can use to debug your program.

Phidget Network Server - Phidgets can be controlled and communicated with over your network- either wirelessly or over ethernet.