Playing with Rainbow Hat I learned a few things about Python as a result I found out what a decorator is, the difference between args and kwargs and threads. I also learned that a lot of guides don’t understand either.
If you can’t explain it simply, you don’t understand it well enough1.
Decorators
Rainbow Hat documentation says, “use touch handlers either by passing in a function by name or using the method as a decorator”.
Learning Python (Lutz, 2013) dedicates a chapter to decorators and sums it up well:
In short, decorators provide a way to insert automatically run code at the end of function and class definition statements—at the end of a def for function decorators, and at the end of a class for class decorators2.
With similar notation to Java’s annotations:
@decorator_function def function(arguments): ...Python is running one function through another and binding the result to the original function name.
def function(arguments):
...
function = decorator_function(function)For example, Python has a built-in function that returns a static method staticmethod(function). To make example_func static, we put:
@staticmethod
def example_func(arg)
...Which is rebound to:
staticmethod(example_func)(arg)So now I know what a decorator is in Python, I used it for the buttons. What to use them for though? I figure that they should control speed of LED, sequence, or colour. That’s going to need a thread running as an event handler.
A short digression on arguments
What is a key-worded argument? Lots of documentation refers to *args and **kwargs but had no idea what it was. Arguments passed to functions are read left to right:
function('Dougie', 42)But we can also use a key-value pair:
function(name='Dougie', age=42)Apart from improving readability in the function call, default arguments can be assigned in the function definition:
def function(name='Dougie', age=42)By convention these are referred to as arg and kwarg. That just leaves the *. Python lets you define functions that take any number of arguments, assembling them into a tuple. If you use key-value arguments, it assembles a dictionary.
def function(**kwargs): {...}Now the clever(er) bit because if you do the same on the function call, Python unpacks the argument into individual arguments (*arg) or key-value pairs (**kwarg).
function(**kwargs)Back to the main thread
The Rainbow Hat has buttons, so I want to use these to control rainbow speed. This seems suited to a thread running an event handler. The syntax for the thread library (hopefully explaining the digression) is:
thread.start_new_thread (function_name, (*args, **kwargs))Concurrency in Python is a post in its own right. The CPython interpreter bytecode isn’t fully thread safe. There are different interpretations of what that means so I’ll use the Open University definition:
A class is considered thread-safe if its instances behave under concurrent method calls as if they were called sequentially3).
Python source code is compiled to bytecode which is run in a VM as machine code. To ensure only one thread executes bytecode at once the current thread has to hold a global lock (Global Interpreter Lock (GIL)).
This means multiple processor cores aren’t being used. In this application it doesn’t matter because the interpreter emulates concurrency by routinely switching threads.
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