Core language¶

Generated Fri 18 Jun 2021 09:19:49 UTC

Classes¶

Special method del not implemented for user-defined classes¶

Sample code:

import gc

class Foo:
    def __del__(self):
        print("__del__")

f = Foo()
del f

gc.collect()

CPy output:	uPy output:
__del__

Method Resolution Order (MRO) is not compliant with CPython¶

Cause: Depth first non-exhaustive method resolution order

Workaround: Avoid complex class hierarchies with multiple inheritance and complex method overrides. Keep in mind that many languages don’t support multiple inheritance at all.

Sample code:

class Foo:
    def __str__(self):
        return "Foo"


class C(tuple, Foo):
    pass


t = C((1, 2, 3))
print(t)

CPy output:	uPy output:
Foo	(1, 2, 3)

When inheriting from multiple classes super() only calls one class¶

Cause: See Method Resolution Order (MRO) is not compliant with CPython

Workaround: See Method Resolution Order (MRO) is not compliant with CPython

Sample code:

class A:
    def __init__(self):
        print("A.__init__")


class B(A):
    def __init__(self):
        print("B.__init__")
        super().__init__()


class C(A):
    def __init__(self):
        print("C.__init__")
        super().__init__()


class D(B, C):
    def __init__(self):
        print("D.__init__")
        super().__init__()


D()

CPy output:	uPy output:
D.__init__ B.__init__ C.__init__ A.__init__	D.__init__ B.__init__ A.__init__

Calling super() getter property in subclass will return a property object, not the value¶

Sample code:

class A:
    @property
    def p(self):
        return {"a": 10}


class AA(A):
    @property
    def p(self):
        return super().p


a = AA()
print(a.p)

CPy output:	uPy output:
{'a': 10}	<property>

Functions¶

Error messages for methods may display unexpected argument counts¶

Cause: MicroPython counts “self” as an argument.

Workaround: Interpret error messages with the information above in mind.

Sample code:

try:
    [].append()
except Exception as e:
    print(e)

CPy output:	uPy output:
append() takes exactly one argument (0 given)	function takes 2 positional arguments but 1 were given

Function objects do not have the `module` attribute¶

Cause: MicroPython is optimized for reduced code size and RAM usage.

Workaround: Use sys.modules[function.__globals__['__name__']] for non-builtin modules.

Sample code:

def f():
    pass


print(f.__module__)

CPy output:	uPy output:
__main__	Traceback (most recent call last): File "<stdin>", line 13, in <module> AttributeError: 'function' object has no attribute '__module__'

User-defined attributes for functions are not supported¶

Cause: MicroPython is highly optimized for memory usage.

Workaround: Use external dictionary, e.g. FUNC_X[f] = 0.

Sample code:

def f():
    pass


f.x = 0
print(f.x)

CPy output:	uPy output:
0	Traceback (most recent call last): File "<stdin>", line 13, in <module> AttributeError: 'function' object has no attribute 'x'

Generator¶

Context manager exit() not called in a generator which does not run to completion¶

Sample code:

class foo(object):
    def __enter__(self):
        print("Enter")

    def __exit__(self, *args):
        print("Exit")


def bar(x):
    with foo():
        while True:
            x += 1
            yield x


def func():
    g = bar(0)
    for _ in range(3):
        print(next(g))


func()

CPy output:	uPy output:
Enter 1 2 3 Exit	Enter 1 2 3

Runtime¶

Local variables aren’t included in locals() result¶

Cause: MicroPython doesn’t maintain symbolic local environment, it is optimized to an array of slots. Thus, local variables can’t be accessed by a name.

Sample code:

def test():
    val = 2
    print(locals())


test()

CPy output:	uPy output:
{'val': 2}	{'test': <function test at 0x7f4bf82f4100>, '__name__': '__main__', '__file__': '<stdin>'}

Code running in eval() function doesn’t have access to local variables¶

Cause: MicroPython doesn’t maintain symbolic local environment, it is optimized to an array of slots. Thus, local variables can’t be accessed by a name. Effectively, eval(expr) in MicroPython is equivalent to eval(expr, globals(), globals()).

Sample code:

val = 1


def test():
    val = 2
    print(val)
    eval("print(val)")


test()

CPy output:	uPy output:
2 2	2 1

import¶

all is unsupported in init.py in MicroPython.¶

Cause: Not implemented.

Workaround: Manually import the sub-modules directly in __init__.py using from . import foo, bar.

Sample code:

from modules3 import *

foo.hello()

CPy output:	uPy output:
hello	Traceback (most recent call last): File "<stdin>", line 9, in <module> NameError: name 'foo' isn't defined

path attribute of a package has a different type (single string instead of list of strings) in MicroPython¶

Cause: MicroPython does’t support namespace packages split across filesystem. Beyond that, MicroPython’s import system is highly optimized for minimal memory usage.

Workaround: Details of import handling is inherently implementation dependent. Don’t rely on such details in portable applications.

Sample code:

import modules

print(modules.__path__)

CPy output:	uPy output:
['/home/micropython/micropython-docs/tests/cpydiff/modules']	../tests/cpydiff//modules

Failed to load modules are still registered as loaded¶

Cause: To make module handling more efficient, it’s not wrapped with exception handling.

Workaround: Test modules before production use; during development, use del sys.modules["name"], or just soft or hard reset the board.

Sample code:

import sys

try:
    from modules import foo
except NameError as e:
    print(e)
try:
    from modules import foo

    print("Should not get here")
except NameError as e:
    print(e)

CPy output:	uPy output:
foo name 'xxx' is not defined foo name 'xxx' is not defined	foo name 'xxx' isn't defined Should not get here

MicroPython does’t support namespace packages split across filesystem.¶

Cause: MicroPython’s import system is highly optimized for simplicity, minimal memory usage, and minimal filesystem search overhead.

Workaround: Don’t install modules belonging to the same namespace package in different directories. For MicroPython, it’s recommended to have at most 3-component module search paths: for your current application, per-user (writable), system-wide (non-writable).

Sample code:

import sys

sys.path.append(sys.path[1] + "/modules")
sys.path.append(sys.path[1] + "/modules2")

import subpkg.foo
import subpkg.bar

print("Two modules of a split namespace package imported")

CPy output:	uPy output:
Two modules of a split namespace package imported	Traceback (most recent call last): File "<stdin>", line 13, in <module> ImportError: no module named 'subpkg.bar'

Core language¶

Classes¶

Special method __del__ not implemented for user-defined classes¶

Method Resolution Order (MRO) is not compliant with CPython¶

When inheriting from multiple classes super() only calls one class¶

Calling super() getter property in subclass will return a property object, not the value¶

Functions¶

Error messages for methods may display unexpected argument counts¶

Function objects do not have the __module__ attribute¶

User-defined attributes for functions are not supported¶

Generator¶

Context manager __exit__() not called in a generator which does not run to completion¶

Runtime¶

Local variables aren’t included in locals() result¶

Code running in eval() function doesn’t have access to local variables¶

import¶

__all__ is unsupported in __init__.py in MicroPython.¶

__path__ attribute of a package has a different type (single string instead of list of strings) in MicroPython¶

Failed to load modules are still registered as loaded¶

MicroPython does’t support namespace packages split across filesystem.¶

Special method del not implemented for user-defined classes¶

Function objects do not have the `module` attribute¶

Context manager exit() not called in a generator which does not run to completion¶

all is unsupported in init.py in MicroPython.¶

path attribute of a package has a different type (single string instead of list of strings) in MicroPython¶