docs: Add notes on heap allocation caused by bound method refs.
Peter Hinch
Damien George
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@ -112,5 +112,14 @@ Functions
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the heap may be locked) and scheduling a function to call later will lift
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the heap may be locked) and scheduling a function to call later will lift
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those restrictions.
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those restrictions.
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There is a finite stack to hold the scheduled functions and `schedule`
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Note: If `schedule()` is called from a preempting IRQ, when memory
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allocation is not allowed and the callback to be passed to `schedule()` is
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a bound method, passing this directly will fail. This is because creating a
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reference to a bound method causes memory allocation. A solution is to
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create a reference to the method in the class constructor and to pass that
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reference to `schedule()`. This is discussed in detail here
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:ref:`reference documentation <isr_rules>` under "Creation of Python
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objects".
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There is a finite stack to hold the scheduled functions and `schedule()`
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will raise a `RuntimeError` if the stack is full.
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will raise a `RuntimeError` if the stack is full.
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@ -124,6 +124,32 @@ A means of creating an object without employing a class or globals is as follows
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The compiler instantiates the default ``buf`` argument when the function is
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The compiler instantiates the default ``buf`` argument when the function is
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loaded for the first time (usually when the module it's in is imported).
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loaded for the first time (usually when the module it's in is imported).
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An instance of object creation occurs when a reference to a bound method is
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created. This means that an ISR cannot pass a bound method to a function. One
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solution is to create a reference to the bound method in the class constructor
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and to pass that reference in the ISR. For example:
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.. code:: python
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class Foo():
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def __init__(self):
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self.bar_ref = self.bar # Allocation occurs here
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self.x = 0.1
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tim = pyb.Timer(4)
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tim.init(freq=2)
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tim.callback(self.cb)
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def bar(self, _):
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self.x *= 1.2
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print(self.x)
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def cb(self, t):
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# Passing self.bar would cause allocation.
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micropython.schedule(self.bar_ref, 0)
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Other techniques are to define and instantiate the method in the constructor
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or to pass :meth:`Foo.bar` with the argument *self*.
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Use of Python objects
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Use of Python objects
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~~~~~~~~~~~~~~~~~~~~~
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~~~~~~~~~~~~~~~~~~~~~
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@ -179,6 +205,9 @@ interrupt occurs while the previous callback is executing, a further instance of
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for execution; this will run after the current instance has completed. A sustained high interrupt repetition
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for execution; this will run after the current instance has completed. A sustained high interrupt repetition
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rate therefore carries a risk of unconstrained queue growth and eventual failure with a ``RuntimeError``.
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rate therefore carries a risk of unconstrained queue growth and eventual failure with a ``RuntimeError``.
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If the callback to be passed to `schedule()` is a bound method, consider the
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note in "Creation of Python objects".
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Exceptions
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Exceptions
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----------
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----------
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