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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.


Click on the 2phidget22.jpg button in the menu bar to go to the Phidget22 version of this page.

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Language - Python

From Phidgets Legacy Support
Python Python is an object oriented programming language developed by the Python Software Foundation, is powerful and easy to learn.

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 Python specifically.

Python is capable of using the complete Phidget API, including events. We also provide example code in Python for all Phidget devices.

Python can be developed with Windows, OS X and Linux. We provide instructions on how to set up your environment for command line, IDLE, and Eclipse with PyDev.

Only Python 2.5 or higher is supported (2.6 on Mac).

You can compare Python with our other supported languages.

Quick Downloads

Just need the Python documentation, drivers, libraries, and examples? Here they are:

Documentation

Example Code

Libraries and Drivers


Getting started with Python

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

Instructions are divided up by operating system. Choose:

Windows (XP/Vista/7/8)

Description of Library

Python programs on Windows depend on the following. The installers in the Quick Downloads section put only the phidget21.dll into your system. You will need to manually put the Phidget Python Module into your system.

  • phidget21.dll contains the actual Phidget library, which is used at run-time. By default, it is placed in C:\Windows\System32.
  • Phidget Python Module is the Phidget library for Python.
  • setup.py is used to install the Phidget module into the standard location for third party Python modules. On typical Python environments, this setup will install the Phidget Python module in the site-packages directory.

If you do not want to use our installer, you can download the phidget21.dll and refer to our Windows page for manual installation instructions.

The first thing you will have to do is to install the Phidget Python Module. Afterwards, Running the examples and writing your own code can be fairly compiler-specific, so we include instructions for each environment below.

Installing the Phidget Python Module

Please start by downloading Phidget Python Module. After extracting the file, open up a command line terminal, traverse to the directory containing setup.py and enter the following to install the Phidget Python module into the Python environment.

python setup.py install

Command Line

Use Our Examples

Please ensure that the Phidget Python Module is installed onto your system.

Next, download the examples and unpack them into a folder. While these examples were written in Python 3.0, they are also compatible with Python 2.5 (with a minor modification). It is probably best to start with the HelloWorld program, which will work with any Phidget. There is also an example file for your specific Phidget device. The source file will be named the same as the software object for your device. If you are not sure what the software object for your device is, find your Phidget on our webpage, and then check the API documentation for it.

Now, open up a command line prompt and navigate to the directory of the example folder.

Next, enter the following to run the example:

python example.py

Once you have the Python examples running, we have a teaching section below to help you follow them.

Write Your Own Code

When you are building a project from scratch, or adding Phidget function calls to an existing project, you'll need to configure your environment to properly link the Phidgets Python libraries. Please see the Use Our Examples section for instructions.

Then, in your code, you will need to reference to the Phidget Python library.

from Phidgets.PhidgetException import *
from Phidgets.Events.Events import *

Then, you will also have to add a reference to your particular Phidget. For example, you would include the following line for a PhidgetInterfaceKit:

from Phidgets.Devices.InterfaceKit import *

Please see the examples on how to add a reference to your particular Phidget.

The project now has access to the Phidget function calls and you are ready to begin coding.

The same teaching section which describes the examples also has further resources for programming your Phidget.

IDLE

Use Our Examples

Please ensure that the Phidget Python Module is installed onto your system.

Next, download the examples and unpack them into a folder. While these examples were written in Python 3.0, they are also compatible with Python 2.5 (with a minor modification). It is probably best to start with the HelloWorld program, which will work with any Phidget. There is also an example file for your specific Phidget device. The source file will be named the same as the software object for your device. If you are not sure what the software object for your device is, find your Phidget on our webpage, and then check the API documentation for it. Now, open the example in the IDLE editor.

The only thing left to do is to run the examples! Click on Run → Run Module.

Run?

Once you have the Python examples running, we have a teaching section below to help you follow them.

Write Your Own Code

When you are building a project from scratch, or adding Phidget function calls to an existing project, you'll need to configure your environment to properly link the Phidget Python library. Please see the Use Our Examples section for instructions.

Then, in your code, you will need to reference to the Phidget Python library.

from Phidgets.PhidgetException import *
from Phidgets.Events.Events import *

Then, you will also have to add a reference to your particular Phidget. For example, you would include the following line for a PhidgetInterfaceKit:

from Phidgets.Devices.InterfaceKit import *

Please see the examples on how to add a reference to your particular Phidget.

The project now has access to the Phidget function calls and you are ready to begin coding.

The same teaching section which describes the examples also has further resources for programming your Phidget.

Eclipse with PyDev

Use Our Examples

1. Please ensure that the Phidget Python Module is installed onto your system.

2. Next, download the examples and unpack them into a folder. While these examples were written in Python 3.0, they are also compatible with Python 2.5 (with a minor modification). It is probably best to start with the HelloWorld program, which will work with any Phidget. There is also an example file for your specific Phidget device. The source file will be named the same as the software object for your device. If you are not sure what the software object for your device is, find your Phidget on our webpage, and then check the API documentation for it. You will need this example source code to be imported into your project later on.

3. Next, a new project will need to be created. Generate a new PyDev project with a descriptive name such as PhidgetTest.

New Project

4. To import the example program into your project, right click the Project and select Import.

Import File

5. On the next screen, select File System and proceed to the next screen.

Import File

6. Browse to the directory where you extracted the examples into, and select the example you wish to open.

Import File

7. The only thing left to do is to run the examples! Click on Run → Run.

Run?

Once you have the Python examples running, we have a teaching section below to help you follow them.

Write Your Own Code

When you are building a project from scratch, or adding Phidget function calls to an existing project, you'll need to configure your environment to properly link the Phidget Python library. Please see the Use Our Examples section for instructions.

Then, in your code, you will need to include a reference to the Phidget Python library.

from Phidgets.PhidgetException import *
from Phidgets.Events.Events import *

You will also have to add a reference to your particular Phidget. For example, you would include the following line for a PhidgetInterfaceKit:

from Phidgets.Devices.InterfaceKit import *

Please see the examples on how to add a reference to your particular Phidget.

The project now has access to the Phidget function calls and you are ready to begin coding.

The same teaching section which describes the examples also has further resources for programming your Phidget.

OS X

The first step in using Python on Mac is to install the Phidget libraries. Compile and install them as explained on the OS - OS X page, which also describes the different Phidget files, their installed locations, and their roles....

The next step is to install the Phidget Python module. Download it here:

Then, unpack the module and enter the root of the newly unzipped directory. There will be a script in the base directory called setup.py. This is used the same way as most other distributed Python modules - from a command line type:

python setup.py install

This will build the module and install the built python module files into your site-packages directory.

Use Our Examples

First, download the examples:

Unpack them, and enter the root directory. You will find examples specific to each Phidget device, as well as a HelloWorld.py example. The HelloWorld.py code is probably the easiest example to run as it will work with any Phidget device. Or you can use the example specific to your Phidget. The source file will be named the same as the software object for your device. If you are not sure what the software object for your device is, find your Phidget on our webpage, and then check the API documentation for it.

The Phidget examples were written in Python 3.0 and this tutorial assumes its use. However, they should still be compatible with Python 2.6. To run the examples using Python 2.5, you will need to modify the example code in the exception handling to read “except RuntimeError, e:”, instead of “except RuntimeError as e:”.

If needed, make those changes to the HelloWorld.py example or the one for your Phidget.

python HelloWorld.py

Write Your Own Code

When writing your code from scratch, you start it as you would any Python code, such as within a text editor like Emacs, Vi, Gedit, or Kate. In your .py source code file, you must include a reference to the Phidget module:

from Phidgets.PhidgetException import *
from Phidgets.Events.Events import *

In addition, you should include the module functions for your specific device. In the case of the Interface Kit, this would be:

from Phidgets.Devices.InterfaceKit import *

For other devices, it would be the software object you found when running the examples above. Then, you would run your Python code the same way as the examples.

To learn how to write your own code for your Phidget, and to learn more about our API, we have a teaching section to help you follow the provided Python examples and which has resources such as the API reference.

Linux

Python has excellent support on Linux.

The first step in using Python on Linux is to install the Phidget libraries. These are the core Phidget libraries, written in C, which when compiled become part of the programming libraries available to your system. Download, compile, and install from the links and instructions on the main Linux page. That Linux page also describes the different Phidget files, their installed locations, and their roles.

The next step is to install the Phidget Python module. Download it here:

Then, unpack the module and enter the root of the newly unzipped directory. There will be a script in the base directory called setup.py. This is used the same way as most other distributed Python modules - from a command line type:

python setup.py install

This will build the module and install the built python module files into your site-packages directory.

Use Our Examples

First, download the examples:

Unpack them, and enter the root directory. You will find examples specific to each Phidget device, as well as a HelloWorld.py example. The HelloWorld.py code is probably the easiest example to run as it will work with any Phidget device. Or you can use the example specific to your Phidget. The source file will be named the same as the software object for your device. If you are not sure what the software object for your device is, find your Phidget on our webpage, and then check the API documentation for it.

The Phidget examples were written in Python 3.0 and this tutorial assumes its use. However, they should still be compatible with Python 2.6. To run the examples using Python 2.5, you will need to modify the example code in the exception handling to read “except RuntimeError, e:”, instead of “except RuntimeError as e:”.

If needed, make those changes to the HelloWorld.py example or the one for your Phidget.

Then, if you have not set up your udev rules for USB access, you will need to run the Python example as root:

sudo python HelloWorld.py

Write Your Own Code

When writing your code from scratch, you start it as you would any Python code on Linux, such as within a text editor like Emacs, Vi, Gedit, or Kate. In your .py source code file, you must include a reference to the Phidget module:

from Phidgets.PhidgetException import *
from Phidgets.Events.Events import *

In addition, you should include the module functions for your specific device. In the case of the Interface Kit, this would be:

from Phidgets.Devices.InterfaceKit import *

For other devices, it would be the software object you found when running the examples above. Then, you would run your Python code the same way as the examples.

To learn how to write your own code for your Phidget, and to learn more about our API, we have a teaching section to help you follow the provided Python examples and which has resources such as the API reference.

Follow the Examples

By following the instructions for your operating system and compiler 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 teaching section has resources for you to learn from the examples and write your own.

Your main reference for writing Python code will be our Python API information, with syntax for all of our functions:

  • Python 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, both of which are available in Python.

Example Flow

The Hello World example has this general structure so you can follow along. We also have an in-depth general introduction to writing Phidget code (like open, read data, etc), as well as the Python API for specific syntax:

// ----- Event and Other Functions -----

Create any Language-Specific Functions (exception handling)

Create General Attach, Detach, and Error Handling Functions:

On attach: Print Hello Message
On detach: Print Goodbye Message

 

In Python, you can name these event functions whatever you like. You will then pass their function names to the Phidget library below in the Main Code section. This hooks them into the actual events when they occur.
In the example code, the event functions common to all Phidgets are called things like AttachHandler() and DetachHandler(), etc.

Some event functions will be specific to each device, like when a tag is read on an RFID board, or when a sensor value changes on an Interface Kit. Other functions are given in the examples to show you more detail on using your Phidget. For example, DeviceInitialize() will show what needs to be set up for your Phidget before using it.

// ----- Main Code -----

Create Manager Software Object
Hook Event Functions created above to Device
Open Device

Wait for 'Enter' key character input
Handle on-going attach and detach events
Print Hello and Goodbye messages
Exit upon input

Close Device

Delete Device

 

Creating a Phidget software object in Python is specific to the Phidget. For a Phidget Spatial, for example, this would involve creating a Spatial object. The examples show how to do this and other API functions.

The object provides device specific methods and properties which are available from the API for your specific Phidget.

Code Snippets

Specific calls in Python 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 Python 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

# Create
try:
  device = InterfaceKit()	
except RuntimeError as e:
  print("Runtime Error: %s" % e.message)

# Open
try:
  device.openPhidget()
except PhidgetException as e:
  print (Phidget Exception %i: %s % (e.code, e.detail))		
  exit(1)

The variable device is now a handle for the Phidget. This example is specific to the Interface Kit because the call InterfaceKit() is used. For another device, use the correspondingly named call in the Python API.

The handle device is then used for all the Python function calls using the Phidget for its device-specific functions - in this case, Interface Kit specific functions. Every type of Phidget also inherits functionality from the Phidget base class.

Note that open() opens the software object, but not hardware. So, it is not a guarantee you can use the Phidget immediately. The different types of open can be used with parameters to try and get the first device it can find, open based on its serial number, or even open across the network. The API manual lists all of the available modes that open provides.

Also note that you can catch exceptions thrown by the Phidget library as we did above when using the openPhidget() call. In other words, this should probably be present around most of your Phidget calls, especially when you are learning how to use the Phidget and debugging your code:

try:
  # Your code goes here
except PhidgetException as e:
  print (Phidget Exception %i: %s % (e.code, e.detail))		
  exit(1)

Step Two: Wait for Attachment (plugging in) of the Phidget

To use the Phidget, it must be plugged in (attached). We can handle this simply by calling waitForAttachment. This function works for any Phidget. WaitForAttachment will block indefinitely until a connection is made to the Phidget, or an optional timeout is exceeded:

device.waitForAttach(10000)
print ("%d attached!" % (device.getSerialNum()))

Sometimes, it makes more sense to handle the attachment via an event. This would be in instances where the Phidget is being plugged and unplugged, and you want to handle these incidents. Or, when you want to use event-driven programming because you have a GUI-driven program. In these cases, an event-driven code snippet to handle the attachment might look something like this:

def AttachHandler(event):
    attachedDevice = event.device
    serialNumber = attachedDevice.getSerialNum()
    deviceName = attachedDevice.getDeviceName()
    print("Hello to Device " + str(deviceName) + ", Serial Number: " + str(serialNumber))

# Insert code for -creating- device here....

try:
    device.setOnAttachHandler(AttachHandler)
except PhidgetException as e: 
    # Insert code for handling any exceptions
    # A common exception will occur if you do not create the device properly above

# Insert code for -opening- device here....

Step Three: Do Things with the Phidget

You can read data and interact with your Phidget both by polling it for its current state (or to set a state), or by catching events that trigger when the data changes.

For our | Phidget Interface Kit, the polling method of getting the current sensor state and setting an output state looks something like this:

# Get a data point from Analog Port 0
device.getSensorValue(0)

# Set digital output port 0 to be on
device.setOutputState(0, 1)

To catch data changes via events, you would use something like this:

def sensorChanged(e):
  print (Sensor %i: %i % (e.index, e.value))
  return 0

# Insert code to create an Interface Kit called 'device'

# Hook our function above into the device object
device.setOnSensorChangeHandler(sensorChanged)

# Insert code to open 'device'

Step Four: Close and Delete

At the end of your program, don’t forget to call closePhidget() to free any locks on the Phidget that the openPhidget() call put in place!

device.closePhidget()

More How-To's

The General Phidget Programming page gives more information about:

The complete set of functions you have available for all Phidgets can be found in the Python API. You can also find more description on any device-specific function in the Device API page for your specific Phidget, which can be found in its user guide.

Common Problems and Solutions/Workarounds

OS X: My application hangs when using multiple devices in a single Python application.

A call to open may hang indefinitely if multiple devices are being programmed in a single Python application. To circumvent this, allow the application to delay a short period between open calls. For most environments, a 1.25 millisecond delay is enough. For example:

import time
...
interface_kit.openPhidget(94695)
time.sleep(0.00125)
rfid.openPhidget(33502)


All Operating Systems: The examples produce an error while running in a Python 2.5 environment.

Running the examples produces an error similar to the following:

InterfaceKit-simple.py:33: Warning: 'as' will become a reserved keyword in Python 2.6
  File "InterfaceKit-simple.py", line 33
    except RuntimeError as e:
SyntaxError: invalid syntax

To run the example code in Python 2.5, all the lines containing:

except RuntimeError as e:

will need to be replaced with:

except Runtime, e:

And then it should run.