-- Test cases for invoking mypyc on the command line -- -- These are slow -- do not add test cases unless you have a very good reason to do so. [case testCompileMypyc] # cmd: a.py b.py p/__init__.py p/q.py import os.path import p import p.q import a import b print('
', b.g(a.A())) try: a.f('') except TypeError: pass else: assert False for x in [a, b, p, p.q]: assert os.path.splitext(x.__file__)[1] != '.py' [file z.py] [file a.py] import b import c from p import s from typing import NamedTuple print('', ord('A') == 65) # Test full builtins class A: def __init__(self) -> None: self.x = 4 def f(x: int) -> b.B: return b.B(x) class B: def __init__(self, x: int, y: str) -> None: self.x = x print('', f(5).x) print('', c.foo()) assert s.bar(10) == 20 class NT(NamedTuple): x: int print(NT(2)) [file b.py] import a import p.q class B: def __init__(self, x: int) -> None: self.x = x def g(z: 'a.A') -> int: return p.q.foo(z.x) print('', 'here') [file c.py] def foo() -> int: return 10 [file p/__init__.py] [file p/q.py] import p.r def foo(x: int) -> int: return x*p.r.foo(x) [file p/r.py] def foo(x: int) -> int: return x [file p/s.py] def bar(x: int) -> int: return x*2 [out] here True 5 10 NT(x=2)
16 -- This test is here so we can turn it on when we get nervous about -- this case, but is disabled for speed reasons. [case testCompileMypycOne-skip] # cmd: a.py import os.path import a assert os.path.splitext(a.__file__)[1] != '.py' assert a.f(10) == 100 [file a.py] def f(x: int) -> int: return x*x [case testErrorOutput] # cmd: test.py [file test.py] from typing import List, Any, AsyncIterable from typing_extensions import Final from mypy_extensions import trait, mypyc_attr from functools import singledispatch def busted(b: bool) -> None: for i in range(1, 10, 0): # E: range() step can't be zero try: if i == 5: break # E: break inside try/finally block is unimplemented elif i == 4: continue # E: continue inside try/finally block is unimplemented finally: print('oops') print(sum([1,2,3])) x = [1,2] class Foo: a, b = (10, 20) # E: Only assignment to variables is supported in class bodies x[0] = 10 # E: Only assignment to variables is supported in class bodies lol = 20 l = [10] # W: Unsupported default attribute value c = d = 50 # E: Multiple assignment in class bodies not supported if 1+1 == 2: # E: Unsupported statement in class body x = 10 Foo.lol = 50 # E: Only class variables defined as ClassVar can be assigned to def decorator(x: Any) -> Any: return x class NeverMetaclass(type): # E: Inheriting from most builtin types is unimplemented pass class Concrete1: pass @trait class PureTrait: pass @trait class Trait1(Concrete1): pass class Concrete2: pass @trait class Trait2(Concrete2): pass @decorator class NonExt(Concrete1): # E: Non-extension classes may not inherit from extension classes pass class Nope(Trait1, Concrete2): # E: Non-trait bases must appear first in parent list # E: Non-trait MRO must be linear pass @decorator class NonExt2: @property # E: Property setters not supported in non-extension classes def test(self) -> int: pass @test.setter def test(self, x: int) -> None: pass iterator_warning = (i+1 for i in range(10)) # W: Treating generator comprehension as list # But we don't want warnings for these cases: tup = tuple(i+1 for i in range(10)) a_str = " ".join(str(i) for i in range(10)) wtvr = next(i for i in range(10) if i == 5) d1 = {1: 2} # Make sure we can produce an error when we hit the awful None case def f(l: List[object]) -> None: x = None # E: Local variable "x" has inferred type None; add an annotation for i in l: if x is None: x = i @mypyc_attr(allow_interpreted_subclasses=True) class AllowInterp1(Concrete1): # E: Base class "test.Concrete1" does not allow interpreted subclasses pass @mypyc_attr(allow_interpreted_subclasses=True) class AllowInterp2(PureTrait): # E: Base class "test.PureTrait" does not allow interpreted subclasses pass async def async_for(xs: AsyncIterable[int]) -> None: async for x in xs: # E: async for is unimplemented print(x) [x async for x in xs] # E: async comprehensions are unimplemented (x async for x in xs) # E: async comprehensions are unimplemented # W: Treating generator comprehension as list {x async for x in xs} # E: async comprehensions are unimplemented {x: x async for x in xs} # E: async comprehensions are unimplemented class async_ctx: async def __aenter__(self) -> int: pass async def __aexit__(self, x, y, z) -> None: pass async def async_with() -> None: async with async_ctx() as x: # E: async with is unimplemented print(x) async def async_generators() -> AsyncIterable[int]: yield 1 # E: async generators are unimplemented @singledispatch def a(arg) -> None: pass @decorator # E: Calling decorator after registering function not supported @a.register def g(arg: int) -> None: pass @a.register @decorator def h(arg: str) -> None: pass @decorator @decorator # E: Calling decorator after registering function not supported @a.register def i(arg: Foo) -> None: pass