gtn/.venv/Lib/site-packages/mypyc/test-data/irbuild-glue-methods.test

# Test cases for glue methods.
#
# These are used when subclass method signature has a different representation
# compared to the base class.

[case testSubclassSpecialize2]
class A:
    def foo(self, x: int) -> object:
        return str(x)
class B(A):
    def foo(self, x: object) -> object:
        return x
class C(B):
    def foo(self, x: object) -> int:
        return id(x)

def use_a(x: A, y: int) -> object:
    return x.foo(y)

def use_b(x: B, y: object) -> object:
    return x.foo(y)

def use_c(x: C, y: object) -> int:
    return x.foo(y)
[out]
def A.foo(self, x):
    self :: __main__.A
    x :: int
    r0 :: str
L0:
    r0 = CPyTagged_Str(x)
    return r0
def B.foo(self, x):
    self :: __main__.B
    x :: object
L0:
    return x
def B.foo__A_glue(self, x):
    self :: __main__.B
    x :: int
    r0, r1 :: object
L0:
    r0 = box(int, x)
    r1 = B.foo(self, r0)
    return r1
def C.foo(self, x):
    self :: __main__.C
    x :: object
    r0 :: int
L0:
    r0 = CPyTagged_Id(x)
    return r0
def C.foo__B_glue(self, x):
    self :: __main__.C
    x :: object
    r0 :: int
    r1 :: object
L0:
    r0 = C.foo(self, x)
    r1 = box(int, r0)
    return r1
def C.foo__A_glue(self, x):
    self :: __main__.C
    x :: int
    r0 :: object
    r1 :: int
    r2 :: object
L0:
    r0 = box(int, x)
    r1 = C.foo(self, r0)
    r2 = box(int, r1)
    return r2
def use_a(x, y):
    x :: __main__.A
    y :: int
    r0 :: object
L0:
    r0 = x.foo(y)
    return r0
def use_b(x, y):
    x :: __main__.B
    y, r0 :: object
L0:
    r0 = x.foo(y)
    return r0
def use_c(x, y):
    x :: __main__.C
    y :: object
    r0 :: int
L0:
    r0 = x.foo(y)
    return r0

[case testPropertyDerivedGen]
from typing import Callable
class BaseProperty:
    @property
    def value(self) -> object:
        return self._incrementer

    @property
    def bad_value(self) -> object:
        return self._incrementer

    @property
    def next(self) -> BaseProperty:
        return BaseProperty(self._incrementer + 1)

    def __init__(self, value: int) -> None:
        self._incrementer = value

class DerivedProperty(BaseProperty):
    @property
    def value(self) -> int:
        return self._incrementer

    @property
    def bad_value(self) -> object:
        return self._incrementer

    @property
    def next(self) -> DerivedProperty:
        return DerivedProperty(self._incr_func, self._incr_func(self.value))

    def __init__(self, incr_func: Callable[[int], int], value: int) -> None:
        BaseProperty.__init__(self, value)
        self._incr_func = incr_func


class AgainProperty(DerivedProperty):
    @property
    def next(self) -> AgainProperty:
        return AgainProperty(self._incr_func, self._incr_func(self._incr_func(self.value)))

    @property
    def bad_value(self) -> int:
        return self._incrementer
[out]
def BaseProperty.value(self):
    self :: __main__.BaseProperty
    r0 :: int
    r1 :: object
L0:
    r0 = self._incrementer
    r1 = box(int, r0)
    return r1
def BaseProperty.bad_value(self):
    self :: __main__.BaseProperty
    r0 :: int
    r1 :: object
L0:
    r0 = self._incrementer
    r1 = box(int, r0)
    return r1
def BaseProperty.next(self):
    self :: __main__.BaseProperty
    r0, r1 :: int
    r2 :: __main__.BaseProperty
L0:
    r0 = borrow self._incrementer
    r1 = CPyTagged_Add(r0, 2)
    keep_alive self
    r2 = BaseProperty(r1)
    return r2
def BaseProperty.__init__(self, value):
    self :: __main__.BaseProperty
    value :: int
L0:
    self._incrementer = value
    return 1
def DerivedProperty.value(self):
    self :: __main__.DerivedProperty
    r0 :: int
L0:
    r0 = self._incrementer
    return r0
def DerivedProperty.value__BaseProperty_glue(__mypyc_self__):
    __mypyc_self__ :: __main__.DerivedProperty
    r0 :: int
    r1 :: object
L0:
    r0 = __mypyc_self__.value
    r1 = box(int, r0)
    return r1
def DerivedProperty.bad_value(self):
    self :: __main__.DerivedProperty
    r0 :: int
    r1 :: object
L0:
    r0 = self._incrementer
    r1 = box(int, r0)
    return r1
def DerivedProperty.next(self):
    self :: __main__.DerivedProperty
    r0 :: object
    r1 :: int
    r2, r3, r4 :: object
    r5 :: int
    r6 :: __main__.DerivedProperty
L0:
    r0 = self._incr_func
    r1 = self.value
    r2 = self._incr_func
    r3 = box(int, r1)
    r4 = PyObject_CallFunctionObjArgs(r2, r3, 0)
    r5 = unbox(int, r4)
    r6 = DerivedProperty(r0, r5)
    return r6
def DerivedProperty.next__BaseProperty_glue(__mypyc_self__):
    __mypyc_self__, r0 :: __main__.DerivedProperty
L0:
    r0 = __mypyc_self__.next
    return r0
def DerivedProperty.__init__(self, incr_func, value):
    self :: __main__.DerivedProperty
    incr_func :: object
    value :: int
    r0 :: None
L0:
    r0 = BaseProperty.__init__(self, value)
    self._incr_func = incr_func
    return 1
def AgainProperty.next(self):
    self :: __main__.AgainProperty
    r0 :: object
    r1 :: int
    r2, r3, r4 :: object
    r5 :: int
    r6, r7, r8 :: object
    r9 :: int
    r10 :: __main__.AgainProperty
L0:
    r0 = self._incr_func
    r1 = self.value
    r2 = self._incr_func
    r3 = box(int, r1)
    r4 = PyObject_CallFunctionObjArgs(r2, r3, 0)
    r5 = unbox(int, r4)
    r6 = self._incr_func
    r7 = box(int, r5)
    r8 = PyObject_CallFunctionObjArgs(r6, r7, 0)
    r9 = unbox(int, r8)
    r10 = AgainProperty(r0, r9)
    return r10
def AgainProperty.next__DerivedProperty_glue(__mypyc_self__):
    __mypyc_self__, r0 :: __main__.AgainProperty
L0:
    r0 = __mypyc_self__.next
    return r0
def AgainProperty.next__BaseProperty_glue(__mypyc_self__):
    __mypyc_self__, r0 :: __main__.AgainProperty
L0:
    r0 = __mypyc_self__.next
    return r0
def AgainProperty.bad_value(self):
    self :: __main__.AgainProperty
    r0 :: int
L0:
    r0 = self._incrementer
    return r0
def AgainProperty.bad_value__DerivedProperty_glue(__mypyc_self__):
    __mypyc_self__ :: __main__.AgainProperty
    r0 :: int
    r1 :: object
L0:
    r0 = __mypyc_self__.bad_value
    r1 = box(int, r0)
    return r1
def AgainProperty.bad_value__BaseProperty_glue(__mypyc_self__):
    __mypyc_self__ :: __main__.AgainProperty
    r0 :: int
    r1 :: object
L0:
    r0 = __mypyc_self__.bad_value
    r1 = box(int, r0)
    return r1

[case testPropertyTraitSubclassing]
from mypy_extensions import trait
@trait
class SubclassedTrait:
    @property
    def this(self) -> SubclassedTrait:
        return self

    @property
    def boxed(self) -> object:
        return 3

class DerivingObject(SubclassedTrait):
    @property
    def this(self) -> DerivingObject:
        return self

    @property
    def boxed(self) -> int:
        return 5
[out]
def SubclassedTrait.this(self):
    self :: __main__.SubclassedTrait
L0:
    return self
def SubclassedTrait.boxed(self):
    self :: __main__.SubclassedTrait
    r0 :: object
L0:
    r0 = object 3
    return r0
def DerivingObject.this(self):
    self :: __main__.DerivingObject
L0:
    return self
def DerivingObject.this__SubclassedTrait_glue(__mypyc_self__):
    __mypyc_self__, r0 :: __main__.DerivingObject
L0:
    r0 = __mypyc_self__.this
    return r0
def DerivingObject.boxed(self):
    self :: __main__.DerivingObject
L0:
    return 10
def DerivingObject.boxed__SubclassedTrait_glue(__mypyc_self__):
    __mypyc_self__ :: __main__.DerivingObject
    r0 :: int
    r1 :: object
L0:
    r0 = __mypyc_self__.boxed
    r1 = box(int, r0)
    return r1

[case testI64GlueWithExtraDefaultArg]
from mypy_extensions import i64

class C:
    def f(self) -> None: pass

class D(C):
    def f(self, x: i64 = 44) -> None: pass
[out]
def C.f(self):
    self :: __main__.C
L0:
    return 1
def D.f(self, x, __bitmap):
    self :: __main__.D
    x :: i64
    __bitmap, r0 :: u32
    r1 :: bit
L0:
    r0 = __bitmap & 1
    r1 = r0 == 0
    if r1 goto L1 else goto L2 :: bool
L1:
    x = 44
L2:
    return 1
def D.f__C_glue(self):
    self :: __main__.D
    r0 :: None
L0:
    r0 = D.f(self, 0, 0)
    return r0

[case testI64GlueWithSecondDefaultArg]
from mypy_extensions import i64

class C:
    def f(self, x: i64 = 11) -> None: pass
class D(C):
    def f(self, x: i64 = 12, y: i64 = 13) -> None: pass
[out]
def C.f(self, x, __bitmap):
    self :: __main__.C
    x :: i64
    __bitmap, r0 :: u32
    r1 :: bit
L0:
    r0 = __bitmap & 1
    r1 = r0 == 0
    if r1 goto L1 else goto L2 :: bool
L1:
    x = 11
L2:
    return 1
def D.f(self, x, y, __bitmap):
    self :: __main__.D
    x, y :: i64
    __bitmap, r0 :: u32
    r1 :: bit
    r2 :: u32
    r3 :: bit
L0:
    r0 = __bitmap & 1
    r1 = r0 == 0
    if r1 goto L1 else goto L2 :: bool
L1:
    x = 12
L2:
    r2 = __bitmap & 2
    r3 = r2 == 0
    if r3 goto L3 else goto L4 :: bool
L3:
    y = 13
L4:
    return 1
def D.f__C_glue(self, x, __bitmap):
    self :: __main__.D
    x :: i64
    __bitmap :: u32
    r0 :: None
L0:
    r0 = D.f(self, x, 0, __bitmap)
    return r0

[case testI64GlueWithInvalidOverride]
from mypy_extensions import i64

class C:
    def f(self, x: i64, y: i64 = 5) -> None: pass
    def ff(self, x: int) -> None: pass
class CC(C):
    def f(self, x: i64 = 12, y: i64 = 5) -> None: pass  # Line 7
    def ff(self, x: int = 12) -> None: pass

class D:
    def f(self, x: int) -> None: pass
class DD(D):
    def f(self, x: i64) -> None: pass  # Line 13

class E:
    def f(self, x: i64) -> None: pass
class EE(E):
    def f(self, x: int) -> None: pass  # Line 18
[out]
main:7: error: An argument with type "i64" cannot be given a default value in a method override
main:13: error: Incompatible argument type "i64" (base class has type "int")
main:18: error: Incompatible argument type "int" (base class has type "i64")