[case testTrivialFunction]
def f() -> int:
    return 1
[out]
def f():
L0:
    return 2
[case testFunctionArgument]
def f(x: int) -> int:
    return x
[out]
def f(x):
    x :: int
L0:
    return x


[case testExplicitNoneReturn]
def f() -> None:
    return
[out]
def f():
L0:
    return 1

[case testExplicitNoneReturn2]
def f() -> None:
    return None
[out]
def f():
L0:
    return 1

[case testAssignment]
def f() -> int:
    x = 1
    y = x
    return y
[out]
def f():
    x, y :: int
L0:
    x = 2
    y = x
    return y

[case testAssignmentTwice]
def f(x: int) -> None:
    y = 1
    y = x
    return
[out]
def f(x):
    x, y :: int
L0:
    y = 2
    y = x
    return 1

[case testIntArithmetic]
def f(x: int, y: int) -> int:
    return x * (y + 1)
[out]
def f(x, y):
    x, y, r0, r1 :: int
L0:
    r0 = CPyTagged_Add(y, 2)
    r1 = CPyTagged_Multiply(x, r0)
    return r1

[case testIf]
def f(x: int, y: int) -> int:
    if x < y:
        x = 1
    return x
[out]
def f(x, y):
    x, y :: int
    r0 :: native_int
    r1 :: bit
    r2 :: native_int
    r3, r4, r5 :: bit
L0:
    r0 = x & 1
    r1 = r0 != 0
    if r1 goto L2 else goto L1 :: bool
L1:
    r2 = y & 1
    r3 = r2 != 0
    if r3 goto L2 else goto L3 :: bool
L2:
    r4 = CPyTagged_IsLt_(x, y)
    if r4 goto L4 else goto L5 :: bool
L3:
    r5 = x < y :: signed
    if r5 goto L4 else goto L5 :: bool
L4:
    x = 2
L5:
    return x

[case testIfElse]
def f(x: int, y: int) -> int:
    if x < y:
        x = 1
    else:
        x = 2
    return x
[out]
def f(x, y):
    x, y :: int
    r0 :: native_int
    r1 :: bit
    r2 :: native_int
    r3, r4, r5 :: bit
L0:
    r0 = x & 1
    r1 = r0 != 0
    if r1 goto L2 else goto L1 :: bool
L1:
    r2 = y & 1
    r3 = r2 != 0
    if r3 goto L2 else goto L3 :: bool
L2:
    r4 = CPyTagged_IsLt_(x, y)
    if r4 goto L4 else goto L5 :: bool
L3:
    r5 = x < y :: signed
    if r5 goto L4 else goto L5 :: bool
L4:
    x = 2
    goto L6
L5:
    x = 4
L6:
    return x

[case testAnd1]
def f(x: int, y: int) -> int:
    if x < y and x > y:
        x = 1
    else:
        x = 2
    return x
[out]
def f(x, y):
    x, y :: int
    r0 :: native_int
    r1 :: bit
    r2 :: native_int
    r3, r4, r5 :: bit
    r6 :: native_int
    r7 :: bit
    r8 :: native_int
    r9, r10, r11 :: bit
L0:
    r0 = x & 1
    r1 = r0 != 0
    if r1 goto L2 else goto L1 :: bool
L1:
    r2 = y & 1
    r3 = r2 != 0
    if r3 goto L2 else goto L3 :: bool
L2:
    r4 = CPyTagged_IsLt_(x, y)
    if r4 goto L4 else goto L9 :: bool
L3:
    r5 = x < y :: signed
    if r5 goto L4 else goto L9 :: bool
L4:
    r6 = x & 1
    r7 = r6 != 0
    if r7 goto L6 else goto L5 :: bool
L5:
    r8 = y & 1
    r9 = r8 != 0
    if r9 goto L6 else goto L7 :: bool
L6:
    r10 = CPyTagged_IsLt_(y, x)
    if r10 goto L8 else goto L9 :: bool
L7:
    r11 = x > y :: signed
    if r11 goto L8 else goto L9 :: bool
L8:
    x = 2
    goto L10
L9:
    x = 4
L10:
    return x

[case testAnd2]
def f(x: object, y: object) -> str:
    return str(x) or str(y)
[out]
def f(x, y):
    x, y :: object
    r0 :: str
    r1 :: int32
    r2 :: bit
    r3 :: bool
    r4, r5 :: str
L0:
    r0 = PyObject_Str(x)
    r1 = PyObject_IsTrue(r0)
    r2 = r1 >= 0 :: signed
    r3 = truncate r1: int32 to builtins.bool
    if r3 goto L1 else goto L2 :: bool
L1:
    r4 = r0
    goto L3
L2:
    r5 = PyObject_Str(y)
    r4 = r5
L3:
    return r4

[case testOr]
def f(x: int, y: int) -> int:
    if x < y or x > y:
        x = 1
    else:
        x = 2
    return x
[out]
def f(x, y):
    x, y :: int
    r0 :: native_int
    r1 :: bit
    r2 :: native_int
    r3, r4, r5 :: bit
    r6 :: native_int
    r7 :: bit
    r8 :: native_int
    r9, r10, r11 :: bit
L0:
    r0 = x & 1
    r1 = r0 != 0
    if r1 goto L2 else goto L1 :: bool
L1:
    r2 = y & 1
    r3 = r2 != 0
    if r3 goto L2 else goto L3 :: bool
L2:
    r4 = CPyTagged_IsLt_(x, y)
    if r4 goto L8 else goto L4 :: bool
L3:
    r5 = x < y :: signed
    if r5 goto L8 else goto L4 :: bool
L4:
    r6 = x & 1
    r7 = r6 != 0
    if r7 goto L6 else goto L5 :: bool
L5:
    r8 = y & 1
    r9 = r8 != 0
    if r9 goto L6 else goto L7 :: bool
L6:
    r10 = CPyTagged_IsLt_(y, x)
    if r10 goto L8 else goto L9 :: bool
L7:
    r11 = x > y :: signed
    if r11 goto L8 else goto L9 :: bool
L8:
    x = 2
    goto L10
L9:
    x = 4
L10:
    return x

[case testOr2]
def f(x: object, y: object) -> str:
    return str(x) and str(y)
[out]
def f(x, y):
    x, y :: object
    r0 :: str
    r1 :: int32
    r2 :: bit
    r3 :: bool
    r4, r5 :: str
L0:
    r0 = PyObject_Str(x)
    r1 = PyObject_IsTrue(r0)
    r2 = r1 >= 0 :: signed
    r3 = truncate r1: int32 to builtins.bool
    if r3 goto L2 else goto L1 :: bool
L1:
    r4 = r0
    goto L3
L2:
    r5 = PyObject_Str(y)
    r4 = r5
L3:
    return r4

[case testSimpleNot]
def f(x: int, y: int) -> int:
    if not (x < y):
        x = 1
    return x
[out]
def f(x, y):
    x, y :: int
    r0 :: native_int
    r1 :: bit
    r2 :: native_int
    r3, r4, r5 :: bit
L0:
    r0 = x & 1
    r1 = r0 != 0
    if r1 goto L2 else goto L1 :: bool
L1:
    r2 = y & 1
    r3 = r2 != 0
    if r3 goto L2 else goto L3 :: bool
L2:
    r4 = CPyTagged_IsLt_(x, y)
    if r4 goto L5 else goto L4 :: bool
L3:
    r5 = x < y :: signed
    if r5 goto L5 else goto L4 :: bool
L4:
    x = 2
L5:
    return x

[case testNotAnd]
def f(x: int, y: int) -> int:
    if not (x < y and x > y):
        x = 1
    return x
[out]
def f(x, y):
    x, y :: int
    r0 :: native_int
    r1 :: bit
    r2 :: native_int
    r3, r4, r5 :: bit
    r6 :: native_int
    r7 :: bit
    r8 :: native_int
    r9, r10, r11 :: bit
L0:
    r0 = x & 1
    r1 = r0 != 0
    if r1 goto L2 else goto L1 :: bool
L1:
    r2 = y & 1
    r3 = r2 != 0
    if r3 goto L2 else goto L3 :: bool
L2:
    r4 = CPyTagged_IsLt_(x, y)
    if r4 goto L4 else goto L8 :: bool
L3:
    r5 = x < y :: signed
    if r5 goto L4 else goto L8 :: bool
L4:
    r6 = x & 1
    r7 = r6 != 0
    if r7 goto L6 else goto L5 :: bool
L5:
    r8 = y & 1
    r9 = r8 != 0
    if r9 goto L6 else goto L7 :: bool
L6:
    r10 = CPyTagged_IsLt_(y, x)
    if r10 goto L9 else goto L8 :: bool
L7:
    r11 = x > y :: signed
    if r11 goto L9 else goto L8 :: bool
L8:
    x = 2
L9:
    return x

[case testWhile]
def f(x: int, y: int) -> int:
    while x > y:
        x = x - y
    return x
[out]
def f(x, y):
    x, y :: int
    r0 :: native_int
    r1 :: bit
    r2 :: native_int
    r3, r4, r5 :: bit
    r6 :: int
L0:
L1:
    r0 = x & 1
    r1 = r0 != 0
    if r1 goto L3 else goto L2 :: bool
L2:
    r2 = y & 1
    r3 = r2 != 0
    if r3 goto L3 else goto L4 :: bool
L3:
    r4 = CPyTagged_IsLt_(y, x)
    if r4 goto L5 else goto L6 :: bool
L4:
    r5 = x > y :: signed
    if r5 goto L5 else goto L6 :: bool
L5:
    r6 = CPyTagged_Subtract(x, y)
    x = r6
    goto L1
L6:
    return x

[case testWhile2]
def f(x: int, y: int) -> int:
    x = 1
    while x > y:
        x = x - y
    return x
[out]
def f(x, y):
    x, y :: int
    r0 :: native_int
    r1 :: bit
    r2 :: native_int
    r3, r4, r5 :: bit
    r6 :: int
L0:
    x = 2
L1:
    r0 = x & 1
    r1 = r0 != 0
    if r1 goto L3 else goto L2 :: bool
L2:
    r2 = y & 1
    r3 = r2 != 0
    if r3 goto L3 else goto L4 :: bool
L3:
    r4 = CPyTagged_IsLt_(y, x)
    if r4 goto L5 else goto L6 :: bool
L4:
    r5 = x > y :: signed
    if r5 goto L5 else goto L6 :: bool
L5:
    r6 = CPyTagged_Subtract(x, y)
    x = r6
    goto L1
L6:
    return x

[case testImplicitNoneReturn]
def f() -> None:
    pass
[out]
def f():
L0:
    return 1

[case testImplicitNoneReturn2]
def f() -> None:
    x = 1
[out]
def f():
    x :: int
L0:
    x = 2
    return 1

[case testImplicitNoneReturnAndIf]
def f(x: int, y: int) -> None:
    if x < y:
        x = 1
    else:
        y = 2
[out]
def f(x, y):
    x, y :: int
    r0 :: native_int
    r1 :: bit
    r2 :: native_int
    r3, r4, r5 :: bit
L0:
    r0 = x & 1
    r1 = r0 != 0
    if r1 goto L2 else goto L1 :: bool
L1:
    r2 = y & 1
    r3 = r2 != 0
    if r3 goto L2 else goto L3 :: bool
L2:
    r4 = CPyTagged_IsLt_(x, y)
    if r4 goto L4 else goto L5 :: bool
L3:
    r5 = x < y :: signed
    if r5 goto L4 else goto L5 :: bool
L4:
    x = 2
    goto L6
L5:
    y = 4
L6:
    return 1

[case testRecursion]
def f(n: int) -> int:
    if n <= 1:
        return 1
    else:
        return f(n - 1) + f(n - 2)
[out]
def f(n):
    n :: int
    r0 :: native_int
    r1, r2, r3 :: bit
    r4, r5, r6, r7, r8 :: int
L0:
    r0 = n & 1
    r1 = r0 != 0
    if r1 goto L1 else goto L2 :: bool
L1:
    r2 = CPyTagged_IsLt_(2, n)
    if r2 goto L4 else goto L3 :: bool
L2:
    r3 = n <= 2 :: signed
    if r3 goto L3 else goto L4 :: bool
L3:
    return 2
L4:
    r4 = CPyTagged_Subtract(n, 2)
    r5 = f(r4)
    r6 = CPyTagged_Subtract(n, 4)
    r7 = f(r6)
    r8 = CPyTagged_Add(r5, r7)
    return r8
L5:
    unreachable

[case testReportTypeCheckError]
def f() -> None:
    return 1 # E: No return value expected

[case testReportSemanticaAnalysisError1]
def f(x: List[int]) -> None: pass # E: Name 'List' is not defined \
                                  # N: Did you forget to import it from "typing"? (Suggestion: "from typing import List")

[case testReportSemanticaAnalysisError2]
def f() -> None:
    x # E: Name 'x' is not defined

[case testElif]
def f(n: int) -> int:
    if n < 0:
        x = 1
    elif n == 0:
        x = 1
    else:
        x = 2
    return x
[out]
def f(n):
    n :: int
    r0 :: native_int
    r1, r2, r3 :: bit
    x :: int
    r4 :: bit
L0:
    r0 = n & 1
    r1 = r0 != 0
    if r1 goto L1 else goto L2 :: bool
L1:
    r2 = CPyTagged_IsLt_(n, 0)
    if r2 goto L3 else goto L4 :: bool
L2:
    r3 = n < 0 :: signed
    if r3 goto L3 else goto L4 :: bool
L3:
    x = 2
    goto L8
L4:
    r4 = n == 0
    if r4 goto L5 else goto L6 :: bool
L5:
    x = 2
    goto L7
L6:
    x = 4
L7:
L8:
    return x

[case testUnaryMinus]
def f(n: int) -> int:
    return -1
[out]
def f(n):
    n, r0 :: int
L0:
    r0 = CPyTagged_Negate(2)
    return r0

[case testConditionalExpr]
def f(n: int) -> int:
    return 0 if n == 0 else 1
[out]
def f(n):
    n :: int
    r0 :: bit
    r1 :: int
L0:
    r0 = n == 0
    if r0 goto L1 else goto L2 :: bool
L1:
    r1 = 0
    goto L3
L2:
    r1 = 2
L3:
    return r1

[case testOperatorAssignment]
def f() -> int:
    x = 0
    x += 1
    return x
[out]
def f():
    x, r0 :: int
L0:
    x = 0
    r0 = CPyTagged_Add(x, 2)
    x = r0
    return x

[case testTrue]
def f() -> bool:
    return True
[out]
def f():
L0:
    return 1

[case testFalse]
def f() -> bool:
    return False
[out]
def f():
L0:
    return 0
[case testBoolCond]
def f(x: bool) -> bool:
    if x:
        return False
    else:
        return True
[out]
def f(x):
    x :: bool
L0:
    if x goto L1 else goto L2 :: bool
L1:
    return 0
L2:
    return 1
L3:
    unreachable

[case testPycall]
import testmodule

def f(x: int) -> int:
    return testmodule.factorial(x)
[file testmodule.py]
def factorial(x: int) -> int:
    if x == 0:
        return 1
    else:
        return x * factorial(x-1)
[out]
def f(x):
    x :: int
    r0 :: object
    r1 :: str
    r2, r3, r4 :: object
    r5 :: int
L0:
    r0 = testmodule :: module
    r1 = load_global CPyStatic_unicode_2 :: static  ('factorial')
    r2 = CPyObject_GetAttr(r0, r1)
    r3 = box(int, x)
    r4 = PyObject_CallFunctionObjArgs(r2, r3, 0)
    r5 = unbox(int, r4)
    return r5

[case testFromImport]
from testmodule import g

def f(x: int) -> int:
    return g(x)
[file testmodule.py]
def g(x: int) -> int:
    return x + 1
[out]
def f(x):
    x :: int
    r0 :: dict
    r1 :: str
    r2, r3, r4 :: object
    r5 :: int
L0:
    r0 = __main__.globals :: static
    r1 = load_global CPyStatic_unicode_2 :: static  ('g')
    r2 = CPyDict_GetItem(r0, r1)
    r3 = box(int, x)
    r4 = PyObject_CallFunctionObjArgs(r2, r3, 0)
    r5 = unbox(int, r4)
    return r5

[case testPrintFullname]
import builtins
def f(x: int) -> None:
    builtins.print(5)
[out]
def f(x):
    x :: int
    r0 :: object
    r1 :: str
    r2, r3, r4 :: object
L0:
    r0 = builtins :: module
    r1 = load_global CPyStatic_unicode_1 :: static  ('print')
    r2 = CPyObject_GetAttr(r0, r1)
    r3 = box(short_int, 10)
    r4 = PyObject_CallFunctionObjArgs(r2, r3, 0)
    return 1

[case testPrint]
import builtins
def f(x: int) -> None:
    print(5)
[out]
def f(x):
    x :: int
    r0 :: object
    r1 :: str
    r2, r3, r4 :: object
L0:
    r0 = builtins :: module
    r1 = load_global CPyStatic_unicode_1 :: static  ('print')
    r2 = CPyObject_GetAttr(r0, r1)
    r3 = box(short_int, 10)
    r4 = PyObject_CallFunctionObjArgs(r2, r3, 0)
    return 1

[case testUnicodeLiteral]
def f() -> str:
    x = "some string"
    return "some other string"
[out]
def f():
    r0, x, r1 :: str
L0:
    r0 = load_global CPyStatic_unicode_1 :: static  ('some string')
    x = r0
    r1 = load_global CPyStatic_unicode_2 :: static  ('some other string')
    return r1

[case testBytesLiteral]
def f() -> bytes:
    x = b'\xf0'
    return b'1234'
[out]
def f():
    r0, x, r1 :: object
L0:
    r0 = load_global CPyStatic_bytes_1 :: static  (b'\xf0')
    x = r0
    r1 = load_global CPyStatic_bytes_2 :: static  (b'1234')
    return r1

[case testPyMethodCall1]
from typing import Any
def f(x: Any) -> int:
    y: int = x.pop()
    return x.pop()
[out]
def f(x):
    x :: object
    r0 :: str
    r1 :: object
    r2, y :: int
    r3 :: str
    r4 :: object
    r5 :: int
L0:
    r0 = load_global CPyStatic_unicode_3 :: static  ('pop')
    r1 = CPyObject_CallMethodObjArgs(x, r0, 0)
    r2 = unbox(int, r1)
    y = r2
    r3 = load_global CPyStatic_unicode_3 :: static  ('pop')
    r4 = CPyObject_CallMethodObjArgs(x, r3, 0)
    r5 = unbox(int, r4)
    return r5

[case testObjectType]
def g(y: object) -> None:
    g(y)
    g([1])
    g(None)
[out]
def g(y):
    y :: object
    r0 :: None
    r1 :: list
    r2 :: object
    r3, r4 :: ptr
    r5 :: None
    r6 :: object
    r7 :: None
L0:
    r0 = g(y)
    r1 = PyList_New(1)
    r2 = box(short_int, 2)
    r3 = get_element_ptr r1 ob_item :: PyListObject
    r4 = load_mem r3, r1 :: ptr*
    set_mem r4, r2, r1 :: builtins.object*
    r5 = g(r1)
    r6 = box(None, 1)
    r7 = g(r6)
    return 1

[case testCoerceToObject1]
def g(y: object) -> object:
    g(1)
    a = [y]
    a[0] = (1, 2)
    y = True
    return 3
[out]
def g(y):
    y, r0, r1 :: object
    r2 :: list
    r3, r4 :: ptr
    a :: list
    r5 :: tuple[int, int]
    r6 :: object
    r7 :: bit
    r8, r9 :: object
L0:
    r0 = box(short_int, 2)
    r1 = g(r0)
    r2 = PyList_New(1)
    r3 = get_element_ptr r2 ob_item :: PyListObject
    r4 = load_mem r3, r2 :: ptr*
    set_mem r4, y, r2 :: builtins.object*
    a = r2
    r5 = (2, 4)
    r6 = box(tuple[int, int], r5)
    r7 = CPyList_SetItem(a, 0, r6)
    r8 = box(bool, 1)
    y = r8
    r9 = box(short_int, 6)
    return r9

[case testCoerceToObject2]
class A:
    x: object
    n: int
def f(a: A, o: object) -> None:
    a.x = 1
    o = a.n
[out]
def f(a, o):
    a :: __main__.A
    o, r0 :: object
    r1 :: bool
    r2 :: int
    r3 :: object
L0:
    r0 = box(short_int, 2)
    a.x = r0; r1 = is_error
    r2 = a.n
    r3 = box(int, r2)
    o = r3
    return 1

[case testDownCast]
from typing import cast, List, Tuple
class A: pass
def f(x: object) -> None:
    n = cast(int, x)
    b = cast(bool, x)
    a = cast(A, x)
    l = cast(List[int], x)
    t = cast(Tuple[int, A], x)
[out]
def f(x):
    x :: object
    r0, n :: int
    r1, b :: bool
    r2, a :: __main__.A
    r3, l :: list
    r4, t :: tuple[int, __main__.A]
L0:
    r0 = unbox(int, x)
    n = r0
    r1 = unbox(bool, x)
    b = r1
    r2 = cast(__main__.A, x)
    a = r2
    r3 = cast(list, x)
    l = r3
    r4 = unbox(tuple[int, __main__.A], x)
    t = r4
    return 1

[case testDownCastSpecialCases]
from typing import cast, Optional, Tuple
class A: pass
def f(o: Optional[A], n: int, t: Tuple[int, ...]) -> None:
    a = cast(A, o)
    m = cast(bool, n)
    tt: Tuple[int, int]
    t = tt
[out]
def f(o, n, t):
    o :: union[__main__.A, None]
    n :: int
    t :: tuple
    r0, a :: __main__.A
    r1 :: object
    r2, m :: bool
    tt :: tuple[int, int]
    r3 :: object
L0:
    r0 = cast(__main__.A, o)
    a = r0
    r1 = box(int, n)
    r2 = unbox(bool, r1)
    m = r2
    r3 = box(tuple[int, int], tt)
    t = r3
    return 1

[case testSuccessfulCast]
from typing import cast, Optional, Tuple, List, Dict
class A: pass
def f(o: object,
      p: Optional[A],
      n: int,
      b: bool,
      t: Tuple[int, ...],
      s: Tuple[int, int],
      a: A,
      l: List[A],
      d: Dict[int, str]) -> None:
    o = cast(object, o)
    p = cast(Optional[A], p)
    n = cast(int, n)
    b = cast(bool, b)
    t = cast(Tuple[int, ...], t)
    s = cast(Tuple[int, int], s)
    o = cast(object, n)
    a = cast(A, a)
    l2 = cast(List[object], l)
    d2 = cast(Dict[object, str], d)
[out]
def f(o, p, n, b, t, s, a, l, d):
    o :: object
    p :: union[__main__.A, None]
    n :: int
    b :: bool
    t :: tuple
    s :: tuple[int, int]
    a :: __main__.A
    l :: list
    d :: dict
    r0 :: object
    l2 :: list
    d2 :: dict
L0:
    o = o
    p = p
    n = n
    b = b
    t = t
    s = s
    r0 = box(int, n)
    o = r0
    a = a
    l2 = l
    d2 = d
    return 1

[case testGenericSetItem]
from typing import Any
def f(x: Any, y: Any, z: Any) -> None:
    x[y] = z
[out]
def f(x, y, z):
    x, y, z :: object
    r0 :: int32
    r1 :: bit
L0:
    r0 = PyObject_SetItem(x, y, z)
    r1 = r0 >= 0 :: signed
    return 1

[case testLoadFloatSum]
def assign_and_return_float_sum() -> float:
    f1 = 1.0
    f2 = 2.0
    f3 = 3.0
    return f1 * f2 + f3
[out]
def assign_and_return_float_sum():
    r0, f1, r1, f2, r2, f3 :: float
    r3 :: object
    r4 :: float
    r5 :: object
    r6 :: float
L0:
    r0 = load_global CPyStatic_float_1 :: static  (1.0)
    f1 = r0
    r1 = load_global CPyStatic_float_2 :: static  (2.0)
    f2 = r1
    r2 = load_global CPyStatic_float_3 :: static  (3.0)
    f3 = r2
    r3 = PyNumber_Multiply(f1, f2)
    r4 = cast(float, r3)
    r5 = PyNumber_Add(r4, f3)
    r6 = cast(float, r5)
    return r6

[case testLoadComplex]
def load() -> complex:
    return 5j+1.0
[out]
def load():
    r0 :: object
    r1 :: float
    r2 :: object
L0:
    r0 = load_global CPyStatic_complex_1 :: static  (5j)
    r1 = load_global CPyStatic_float_2 :: static  (1.0)
    r2 = PyNumber_Add(r0, r1)
    return r2

[case testBigIntLiteral_64bit]
def big_int() -> None:
    a_62_bit = 4611686018427387902
    max_62_bit = 4611686018427387903
    b_63_bit = 4611686018427387904
    c_63_bit = 9223372036854775806
    max_63_bit = 9223372036854775807
    d_64_bit = 9223372036854775808
    max_32_bit = 2147483647
    max_31_bit = 1073741823
[out]
def big_int():
    a_62_bit, max_62_bit, r0, b_63_bit, r1, c_63_bit, r2, max_63_bit, r3, d_64_bit, max_32_bit, max_31_bit :: int
L0:
    a_62_bit = 9223372036854775804
    max_62_bit = 9223372036854775806
    r0 = load_global CPyStatic_int_1 :: static  (4611686018427387904)
    b_63_bit = r0
    r1 = load_global CPyStatic_int_2 :: static  (9223372036854775806)
    c_63_bit = r1
    r2 = load_global CPyStatic_int_3 :: static  (9223372036854775807)
    max_63_bit = r2
    r3 = load_global CPyStatic_int_4 :: static  (9223372036854775808)
    d_64_bit = r3
    max_32_bit = 4294967294
    max_31_bit = 2147483646
    return 1

[case testBigIntLiteral_32bit]
def big_int() -> None:
    a_62_bit = 4611686018427387902
    max_62_bit = 4611686018427387903
    b_63_bit = 4611686018427387904
    c_63_bit = 9223372036854775806
    max_63_bit = 9223372036854775807
    d_64_bit = 9223372036854775808
    max_32_bit = 2147483647
    max_31_bit = 1073741823
[out]
def big_int():
    r0, a_62_bit, r1, max_62_bit, r2, b_63_bit, r3, c_63_bit, r4, max_63_bit, r5, d_64_bit, r6, max_32_bit, max_31_bit :: int
L0:
    r0 = load_global CPyStatic_int_1 :: static  (4611686018427387902)
    a_62_bit = r0
    r1 = load_global CPyStatic_int_2 :: static  (4611686018427387903)
    max_62_bit = r1
    r2 = load_global CPyStatic_int_3 :: static  (4611686018427387904)
    b_63_bit = r2
    r3 = load_global CPyStatic_int_4 :: static  (9223372036854775806)
    c_63_bit = r3
    r4 = load_global CPyStatic_int_5 :: static  (9223372036854775807)
    max_63_bit = r4
    r5 = load_global CPyStatic_int_6 :: static  (9223372036854775808)
    d_64_bit = r5
    r6 = load_global CPyStatic_int_7 :: static  (2147483647)
    max_32_bit = r6
    max_31_bit = 2147483646
    return 1

[case testCallableTypes]
from typing import Callable
def absolute_value(x: int) -> int:
    return x if x > 0 else -x

def call_native_function(x: int) -> int:
    return absolute_value(x)

def call_python_function(x: int) -> int:
    return int(x)

def return_float() -> float:
    return 5.0

def return_callable_type() -> Callable[[], float]:
    return return_float

def call_callable_type() -> float:
    f = return_callable_type()
    return f()
[out]
def absolute_value(x):
    x :: int
    r0 :: native_int
    r1, r2, r3 :: bit
    r4, r5 :: int
L0:
    r0 = x & 1
    r1 = r0 != 0
    if r1 goto L1 else goto L2 :: bool
L1:
    r2 = CPyTagged_IsLt_(0, x)
    if r2 goto L3 else goto L4 :: bool
L2:
    r3 = x > 0 :: signed
    if r3 goto L3 else goto L4 :: bool
L3:
    r4 = x
    goto L5
L4:
    r5 = CPyTagged_Negate(x)
    r4 = r5
L5:
    return r4
def call_native_function(x):
    x, r0 :: int
L0:
    r0 = absolute_value(x)
    return r0
def call_python_function(x):
    x :: int
    r0, r1, r2 :: object
    r3 :: int
L0:
    r0 = load_address PyLong_Type
    r1 = box(int, x)
    r2 = PyObject_CallFunctionObjArgs(r0, r1, 0)
    r3 = unbox(int, r2)
    return r3
def return_float():
    r0 :: float
L0:
    r0 = load_global CPyStatic_float_3 :: static  (5.0)
    return r0
def return_callable_type():
    r0 :: dict
    r1 :: str
    r2 :: object
L0:
    r0 = __main__.globals :: static
    r1 = load_global CPyStatic_unicode_4 :: static  ('return_float')
    r2 = CPyDict_GetItem(r0, r1)
    return r2
def call_callable_type():
    r0, f, r1 :: object
    r2 :: float
L0:
    r0 = return_callable_type()
    f = r0
    r1 = PyObject_CallFunctionObjArgs(f, 0)
    r2 = cast(float, r1)
    return r2

[case testCallableTypesWithKeywordArgs]
from typing import List

def call_python_function_with_keyword_arg(x: str) -> int:
    return int(x, base=2)

def call_python_method_with_keyword_args(xs: List[int], first: int, second: int) -> List[int]:
    xs.insert(0, x=first)
    xs.insert(x=second, i=1)
    return xs

[out]
def call_python_function_with_keyword_arg(x):
    x :: str
    r0 :: object
    r1 :: str
    r2 :: tuple
    r3 :: object
    r4 :: dict
    r5 :: object
    r6 :: int
L0:
    r0 = load_address PyLong_Type
    r1 = load_global CPyStatic_unicode_3 :: static  ('base')
    r2 = PyTuple_Pack(1, x)
    r3 = box(short_int, 4)
    r4 = CPyDict_Build(1, r1, r3)
    r5 = PyObject_Call(r0, r2, r4)
    r6 = unbox(int, r5)
    return r6
def call_python_method_with_keyword_args(xs, first, second):
    xs :: list
    first, second :: int
    r0 :: str
    r1 :: object
    r2 :: str
    r3 :: object
    r4 :: tuple
    r5 :: object
    r6 :: dict
    r7 :: object
    r8 :: str
    r9 :: object
    r10, r11 :: str
    r12 :: tuple
    r13, r14 :: object
    r15 :: dict
    r16 :: object
L0:
    r0 = load_global CPyStatic_unicode_4 :: static  ('insert')
    r1 = CPyObject_GetAttr(xs, r0)
    r2 = load_global CPyStatic_unicode_5 :: static  ('x')
    r3 = box(short_int, 0)
    r4 = PyTuple_Pack(1, r3)
    r5 = box(int, first)
    r6 = CPyDict_Build(1, r2, r5)
    r7 = PyObject_Call(r1, r4, r6)
    r8 = load_global CPyStatic_unicode_4 :: static  ('insert')
    r9 = CPyObject_GetAttr(xs, r8)
    r10 = load_global CPyStatic_unicode_5 :: static  ('x')
    r11 = load_global CPyStatic_unicode_6 :: static  ('i')
    r12 = PyTuple_Pack(0)
    r13 = box(int, second)
    r14 = box(short_int, 2)
    r15 = CPyDict_Build(2, r10, r13, r11, r14)
    r16 = PyObject_Call(r9, r12, r15)
    return xs

[case testObjectAsBoolean]
from typing import List

def obj(x: object) -> int:
    if x:
        return 1
    else:
        return 0

def num(x: int) -> int:
    if x:
        return 1
    else:
        return 0

def lst(x: List[int]) -> int:
    if x:
        return 1
    else:
        return 0
[out]
def obj(x):
    x :: object
    r0 :: int32
    r1 :: bit
    r2 :: bool
L0:
    r0 = PyObject_IsTrue(x)
    r1 = r0 >= 0 :: signed
    r2 = truncate r0: int32 to builtins.bool
    if r2 goto L1 else goto L2 :: bool
L1:
    return 2
L2:
    return 0
L3:
    unreachable
def num(x):
    x :: int
    r0 :: bit
L0:
    r0 = x != 0
    if r0 goto L1 else goto L2 :: bool
L1:
    return 2
L2:
    return 0
L3:
    unreachable
def lst(x):
    x :: list
    r0 :: ptr
    r1 :: native_int
    r2 :: short_int
    r3 :: bit
L0:
    r0 = get_element_ptr x ob_size :: PyVarObject
    r1 = load_mem r0, x :: native_int*
    r2 = r1 << 1
    r3 = r2 != 0
    if r3 goto L1 else goto L2 :: bool
L1:
    return 2
L2:
    return 0
L3:
    unreachable

[case testOptionalAsBoolean]
from typing import Optional

class A: pass

def opt_int(x: Optional[int]) -> int:
    if x:
        return 1
    else:
        return 0

def opt_a(x: Optional[A]) -> int:
    if x:
        return 1
    else:
        return 0

def opt_o(x: Optional[object]) -> int:
    if x:
        return 1
    else:
        return 0
[out]
def opt_int(x):
    x :: union[int, None]
    r0 :: object
    r1 :: bit
    r2 :: int
    r3 :: bit
L0:
    r0 = load_address _Py_NoneStruct
    r1 = x != r0
    if r1 goto L1 else goto L3 :: bool
L1:
    r2 = unbox(int, x)
    r3 = r2 != 0
    if r3 goto L2 else goto L3 :: bool
L2:
    return 2
L3:
    return 0
L4:
    unreachable
def opt_a(x):
    x :: union[__main__.A, None]
    r0 :: object
    r1 :: bit
L0:
    r0 = load_address _Py_NoneStruct
    r1 = x != r0
    if r1 goto L1 else goto L2 :: bool
L1:
    return 2
L2:
    return 0
L3:
    unreachable
def opt_o(x):
    x :: union[object, None]
    r0 :: object
    r1 :: bit
    r2 :: object
    r3 :: int32
    r4 :: bit
    r5 :: bool
L0:
    r0 = load_address _Py_NoneStruct
    r1 = x != r0
    if r1 goto L1 else goto L3 :: bool
L1:
    r2 = cast(object, x)
    r3 = PyObject_IsTrue(r2)
    r4 = r3 >= 0 :: signed
    r5 = truncate r3: int32 to builtins.bool
    if r5 goto L2 else goto L3 :: bool
L2:
    return 2
L3:
    return 0
L4:
    unreachable

[case testRaise]
def foo() -> None:
    raise Exception()

def bar() -> None:
    raise Exception
[out]
def foo():
    r0 :: object
    r1 :: str
    r2, r3 :: object
L0:
    r0 = builtins :: module
    r1 = load_global CPyStatic_unicode_1 :: static  ('Exception')
    r2 = CPyObject_GetAttr(r0, r1)
    r3 = PyObject_CallFunctionObjArgs(r2, 0)
    CPy_Raise(r3)
    unreachable
def bar():
    r0 :: object
    r1 :: str
    r2 :: object
L0:
    r0 = builtins :: module
    r1 = load_global CPyStatic_unicode_1 :: static  ('Exception')
    r2 = CPyObject_GetAttr(r0, r1)
    CPy_Raise(r2)
    unreachable

[case testModuleTopLevel_toplevel]
x = 1
print(x)

def f() -> None:
    print(x)
[out]
def f():
    r0 :: dict
    r1 :: str
    r2 :: object
    r3 :: int
    r4 :: object
    r5 :: str
    r6, r7, r8 :: object
L0:
    r0 = __main__.globals :: static
    r1 = load_global CPyStatic_unicode_1 :: static  ('x')
    r2 = CPyDict_GetItem(r0, r1)
    r3 = unbox(int, r2)
    r4 = builtins :: module
    r5 = load_global CPyStatic_unicode_2 :: static  ('print')
    r6 = CPyObject_GetAttr(r4, r5)
    r7 = box(int, r3)
    r8 = PyObject_CallFunctionObjArgs(r6, r7, 0)
    return 1
def __top_level__():
    r0, r1 :: object
    r2 :: bit
    r3 :: str
    r4 :: object
    r5 :: dict
    r6 :: str
    r7 :: object
    r8 :: int32
    r9 :: bit
    r10 :: dict
    r11 :: str
    r12 :: object
    r13 :: int
    r14 :: object
    r15 :: str
    r16, r17, r18 :: object
L0:
    r0 = builtins :: module
    r1 = load_address _Py_NoneStruct
    r2 = r0 != r1
    if r2 goto L2 else goto L1 :: bool
L1:
    r3 = load_global CPyStatic_unicode_0 :: static  ('builtins')
    r4 = PyImport_Import(r3)
    builtins = r4 :: module
L2:
    r5 = __main__.globals :: static
    r6 = load_global CPyStatic_unicode_1 :: static  ('x')
    r7 = box(short_int, 2)
    r8 = CPyDict_SetItem(r5, r6, r7)
    r9 = r8 >= 0 :: signed
    r10 = __main__.globals :: static
    r11 = load_global CPyStatic_unicode_1 :: static  ('x')
    r12 = CPyDict_GetItem(r10, r11)
    r13 = unbox(int, r12)
    r14 = builtins :: module
    r15 = load_global CPyStatic_unicode_2 :: static  ('print')
    r16 = CPyObject_GetAttr(r14, r15)
    r17 = box(int, r13)
    r18 = PyObject_CallFunctionObjArgs(r16, r17, 0)
    return 1

[case testCallOverloaded]
import m
def f() -> str:
    return m.f(1)
[file m.pyi]
from typing import overload
@overload
def f(x: int) -> str: ...
@overload
def f(x: str) -> int: ...
[out]
def f():
    r0 :: object
    r1 :: str
    r2, r3, r4 :: object
    r5 :: str
L0:
    r0 = m :: module
    r1 = load_global CPyStatic_unicode_2 :: static  ('f')
    r2 = CPyObject_GetAttr(r0, r1)
    r3 = box(short_int, 2)
    r4 = PyObject_CallFunctionObjArgs(r2, r3, 0)
    r5 = cast(str, r4)
    return r5

[case testCallOverloadedNative]
from typing import overload, Union

@overload
def foo(x: int) -> int: ...

@overload
def foo(x: str) -> str: ...

def foo(x: Union[int, str]) -> Union[int, str]:
    return x

def main() -> None:
    x = foo(0)
[out]
def foo(x):
    x :: union[int, str]
L0:
    return x
def main():
    r0 :: object
    r1 :: union[int, str]
    r2, x :: int
L0:
    r0 = box(short_int, 0)
    r1 = foo(r0)
    r2 = unbox(int, r1)
    x = r2
    return 1

[case testCallOverloadedNativeSubclass]
from typing import overload, Union

class A:
    x: int
class B(A):
    y: int

@overload
def foo(x: int) -> B: ...

@overload
def foo(x: Union[int, str]) -> A: ...

def foo(x: Union[int, str]) -> A:
    if isinstance(x, int):
        return B()
    return A()

def main() -> None:
    x = foo(0)
[out]
def foo(x):
    x :: union[int, str]
    r0 :: object
    r1 :: int32
    r2 :: bit
    r3 :: bool
    r4 :: __main__.B
    r5 :: __main__.A
L0:
    r0 = load_address PyLong_Type
    r1 = PyObject_IsInstance(x, r0)
    r2 = r1 >= 0 :: signed
    r3 = truncate r1: int32 to builtins.bool
    if r3 goto L1 else goto L2 :: bool
L1:
    r4 = B()
    return r4
L2:
    r5 = A()
    return r5
def main():
    r0 :: object
    r1 :: __main__.A
    r2, x :: __main__.B
L0:
    r0 = box(short_int, 0)
    r1 = foo(r0)
    r2 = cast(__main__.B, r1)
    x = r2
    return 1

[case testFunctionCallWithKeywordArgs]
def f(x: int, y: str) -> None: pass

def g() -> None:
    f(y='a', x=0)
    f(1, y='b')
[out]
def f(x, y):
    x :: int
    y :: str
L0:
    return 1
def g():
    r0 :: str
    r1 :: None
    r2 :: str
    r3 :: None
L0:
    r0 = load_global CPyStatic_unicode_1 :: static  ('a')
    r1 = f(0, r0)
    r2 = load_global CPyStatic_unicode_2 :: static  ('b')
    r3 = f(2, r2)
    return 1

[case testMethodCallWithKeywordArgs]
class A:
    def f(self, x: int, y: str) -> None: pass

def g(a: A) -> None:
    a.f(y='a', x=0)
    a.f(1, y='b')
[out]
def A.f(self, x, y):
    self :: __main__.A
    x :: int
    y :: str
L0:
    return 1
def g(a):
    a :: __main__.A
    r0 :: str
    r1 :: None
    r2 :: str
    r3 :: None
L0:
    r0 = load_global CPyStatic_unicode_4 :: static  ('a')
    r1 = a.f(0, r0)
    r2 = load_global CPyStatic_unicode_5 :: static  ('b')
    r3 = a.f(2, r2)
    return 1

[case testStarArgs]
from typing import Tuple
def f(a: int, b: int, c: int) -> Tuple[int, int, int]:
    return a, b, c
def g() -> Tuple[int, int, int]:
    return f(*(1, 2, 3))
def h() -> Tuple[int, int, int]:
    return f(1, *(2, 3))
[out]
def f(a, b, c):
    a, b, c :: int
    r0 :: tuple[int, int, int]
L0:
    r0 = (a, b, c)
    return r0
def g():
    r0 :: tuple[int, int, int]
    r1 :: dict
    r2 :: str
    r3 :: object
    r4 :: list
    r5, r6 :: object
    r7 :: tuple
    r8 :: dict
    r9 :: object
    r10 :: tuple[int, int, int]
L0:
    r0 = (2, 4, 6)
    r1 = __main__.globals :: static
    r2 = load_global CPyStatic_unicode_3 :: static  ('f')
    r3 = CPyDict_GetItem(r1, r2)
    r4 = PyList_New(0)
    r5 = box(tuple[int, int, int], r0)
    r6 = CPyList_Extend(r4, r5)
    r7 = PyList_AsTuple(r4)
    r8 = PyDict_New()
    r9 = PyObject_Call(r3, r7, r8)
    r10 = unbox(tuple[int, int, int], r9)
    return r10
def h():
    r0 :: tuple[int, int]
    r1 :: dict
    r2 :: str
    r3 :: object
    r4 :: list
    r5 :: object
    r6, r7 :: ptr
    r8, r9 :: object
    r10 :: tuple
    r11 :: dict
    r12 :: object
    r13 :: tuple[int, int, int]
L0:
    r0 = (4, 6)
    r1 = __main__.globals :: static
    r2 = load_global CPyStatic_unicode_3 :: static  ('f')
    r3 = CPyDict_GetItem(r1, r2)
    r4 = PyList_New(1)
    r5 = box(short_int, 2)
    r6 = get_element_ptr r4 ob_item :: PyListObject
    r7 = load_mem r6, r4 :: ptr*
    set_mem r7, r5, r4 :: builtins.object*
    r8 = box(tuple[int, int], r0)
    r9 = CPyList_Extend(r4, r8)
    r10 = PyList_AsTuple(r4)
    r11 = PyDict_New()
    r12 = PyObject_Call(r3, r10, r11)
    r13 = unbox(tuple[int, int, int], r12)
    return r13

[case testStar2Args]
from typing import Tuple
def f(a: int, b: int, c: int) -> Tuple[int, int, int]:
    return a, b, c
def g() -> Tuple[int, int, int]:
    return f(**{'a': 1, 'b': 2, 'c': 3})
def h() -> Tuple[int, int, int]:
    return f(1, **{'b': 2, 'c': 3})
[out]
def f(a, b, c):
    a, b, c :: int
    r0 :: tuple[int, int, int]
L0:
    r0 = (a, b, c)
    return r0
def g():
    r0, r1, r2 :: str
    r3, r4, r5 :: object
    r6, r7 :: dict
    r8 :: str
    r9 :: object
    r10 :: tuple
    r11 :: dict
    r12 :: int32
    r13 :: bit
    r14 :: object
    r15 :: tuple[int, int, int]
L0:
    r0 = load_global CPyStatic_unicode_3 :: static  ('a')
    r1 = load_global CPyStatic_unicode_4 :: static  ('b')
    r2 = load_global CPyStatic_unicode_5 :: static  ('c')
    r3 = box(short_int, 2)
    r4 = box(short_int, 4)
    r5 = box(short_int, 6)
    r6 = CPyDict_Build(3, r0, r3, r1, r4, r2, r5)
    r7 = __main__.globals :: static
    r8 = load_global CPyStatic_unicode_6 :: static  ('f')
    r9 = CPyDict_GetItem(r7, r8)
    r10 = PyTuple_Pack(0)
    r11 = PyDict_New()
    r12 = CPyDict_UpdateInDisplay(r11, r6)
    r13 = r12 >= 0 :: signed
    r14 = PyObject_Call(r9, r10, r11)
    r15 = unbox(tuple[int, int, int], r14)
    return r15
def h():
    r0, r1 :: str
    r2, r3 :: object
    r4, r5 :: dict
    r6 :: str
    r7, r8 :: object
    r9 :: tuple
    r10 :: dict
    r11 :: int32
    r12 :: bit
    r13 :: object
    r14 :: tuple[int, int, int]
L0:
    r0 = load_global CPyStatic_unicode_4 :: static  ('b')
    r1 = load_global CPyStatic_unicode_5 :: static  ('c')
    r2 = box(short_int, 4)
    r3 = box(short_int, 6)
    r4 = CPyDict_Build(2, r0, r2, r1, r3)
    r5 = __main__.globals :: static
    r6 = load_global CPyStatic_unicode_6 :: static  ('f')
    r7 = CPyDict_GetItem(r5, r6)
    r8 = box(short_int, 2)
    r9 = PyTuple_Pack(1, r8)
    r10 = PyDict_New()
    r11 = CPyDict_UpdateInDisplay(r10, r4)
    r12 = r11 >= 0 :: signed
    r13 = PyObject_Call(r7, r9, r10)
    r14 = unbox(tuple[int, int, int], r13)
    return r14

[case testFunctionCallWithDefaultArgs]
def f(x: int, y: int = 3, z: str = "test") -> None:
    return None

def g() -> None:
    f(2)
    f(y = 3, x = 6)
[out]
def f(x, y, z):
    x, y :: int
    z, r0 :: str
L0:
    if is_error(y) goto L1 else goto L2
L1:
    y = 6
L2:
    if is_error(z) goto L3 else goto L4
L3:
    r0 = load_global CPyStatic_unicode_1 :: static  ('test')
    z = r0
L4:
    return 1
def g():
    r0 :: int
    r1 :: str
    r2 :: None
    r3 :: str
    r4 :: None
L0:
    r0 = <error> :: int
    r1 = <error> :: str
    r2 = f(4, r0, r1)
    r3 = <error> :: str
    r4 = f(12, 6, r3)
    return 1

[case testMethodCallWithDefaultArgs]
class A:
    def f(self, x: int, y: int = 3, z: str = "test") -> None:
        return None

def g() -> None:
    a = A()
    a.f(2)
    a.f(y = 3, x = 6)
[out]
def A.f(self, x, y, z):
    self :: __main__.A
    x, y :: int
    z, r0 :: str
L0:
    if is_error(y) goto L1 else goto L2
L1:
    y = 6
L2:
    if is_error(z) goto L3 else goto L4
L3:
    r0 = load_global CPyStatic_unicode_4 :: static  ('test')
    z = r0
L4:
    return 1
def g():
    r0, a :: __main__.A
    r1 :: int
    r2 :: str
    r3 :: None
    r4 :: str
    r5 :: None
L0:
    r0 = A()
    a = r0
    r1 = <error> :: int
    r2 = <error> :: str
    r3 = a.f(4, r1, r2)
    r4 = <error> :: str
    r5 = a.f(12, 6, r4)
    return 1

[case testListComprehension]
from typing import List

def f() -> List[int]:
    return [x*x for x in [1,2,3] if x != 2 if x != 3]
[out]
def f():
    r0, r1 :: list
    r2, r3, r4 :: object
    r5, r6, r7, r8 :: ptr
    r9 :: short_int
    r10 :: ptr
    r11 :: native_int
    r12 :: short_int
    r13 :: bit
    r14 :: object
    r15, x :: int
    r16 :: native_int
    r17, r18 :: bit
    r19 :: bool
    r20, r21 :: bit
    r22 :: native_int
    r23, r24 :: bit
    r25 :: bool
    r26, r27 :: bit
    r28 :: int
    r29 :: object
    r30 :: int32
    r31 :: bit
    r32 :: short_int
L0:
    r0 = PyList_New(0)
    r1 = PyList_New(3)
    r2 = box(short_int, 2)
    r3 = box(short_int, 4)
    r4 = box(short_int, 6)
    r5 = get_element_ptr r1 ob_item :: PyListObject
    r6 = load_mem r5, r1 :: ptr*
    set_mem r6, r2, r1 :: builtins.object*
    r7 = r6 + WORD_SIZE*1
    set_mem r7, r3, r1 :: builtins.object*
    r8 = r6 + WORD_SIZE*2
    set_mem r8, r4, r1 :: builtins.object*
    r9 = 0
L1:
    r10 = get_element_ptr r1 ob_size :: PyVarObject
    r11 = load_mem r10, r1 :: native_int*
    r12 = r11 << 1
    r13 = r9 < r12 :: signed
    if r13 goto L2 else goto L14 :: bool
L2:
    r14 = CPyList_GetItemUnsafe(r1, r9)
    r15 = unbox(int, r14)
    x = r15
    r16 = x & 1
    r17 = r16 == 0
    if r17 goto L3 else goto L4 :: bool
L3:
    r18 = x != 4
    r19 = r18
    goto L5
L4:
    r20 = CPyTagged_IsEq_(x, 4)
    r21 = r20 ^ 1
    r19 = r21
L5:
    if r19 goto L7 else goto L6 :: bool
L6:
    goto L13
L7:
    r22 = x & 1
    r23 = r22 == 0
    if r23 goto L8 else goto L9 :: bool
L8:
    r24 = x != 6
    r25 = r24
    goto L10
L9:
    r26 = CPyTagged_IsEq_(x, 6)
    r27 = r26 ^ 1
    r25 = r27
L10:
    if r25 goto L12 else goto L11 :: bool
L11:
    goto L13
L12:
    r28 = CPyTagged_Multiply(x, x)
    r29 = box(int, r28)
    r30 = PyList_Append(r0, r29)
    r31 = r30 >= 0 :: signed
L13:
    r32 = r9 + 2
    r9 = r32
    goto L1
L14:
    return r0

[case testDictComprehension]
from typing import Dict
def f() -> Dict[int, int]:
    return {x: x*x for x in [1,2,3] if x != 2 if x != 3}
[out]
def f():
    r0 :: dict
    r1 :: list
    r2, r3, r4 :: object
    r5, r6, r7, r8 :: ptr
    r9 :: short_int
    r10 :: ptr
    r11 :: native_int
    r12 :: short_int
    r13 :: bit
    r14 :: object
    r15, x :: int
    r16 :: native_int
    r17, r18 :: bit
    r19 :: bool
    r20, r21 :: bit
    r22 :: native_int
    r23, r24 :: bit
    r25 :: bool
    r26, r27 :: bit
    r28 :: int
    r29, r30 :: object
    r31 :: int32
    r32 :: bit
    r33 :: short_int
L0:
    r0 = PyDict_New()
    r1 = PyList_New(3)
    r2 = box(short_int, 2)
    r3 = box(short_int, 4)
    r4 = box(short_int, 6)
    r5 = get_element_ptr r1 ob_item :: PyListObject
    r6 = load_mem r5, r1 :: ptr*
    set_mem r6, r2, r1 :: builtins.object*
    r7 = r6 + WORD_SIZE*1
    set_mem r7, r3, r1 :: builtins.object*
    r8 = r6 + WORD_SIZE*2
    set_mem r8, r4, r1 :: builtins.object*
    r9 = 0
L1:
    r10 = get_element_ptr r1 ob_size :: PyVarObject
    r11 = load_mem r10, r1 :: native_int*
    r12 = r11 << 1
    r13 = r9 < r12 :: signed
    if r13 goto L2 else goto L14 :: bool
L2:
    r14 = CPyList_GetItemUnsafe(r1, r9)
    r15 = unbox(int, r14)
    x = r15
    r16 = x & 1
    r17 = r16 == 0
    if r17 goto L3 else goto L4 :: bool
L3:
    r18 = x != 4
    r19 = r18
    goto L5
L4:
    r20 = CPyTagged_IsEq_(x, 4)
    r21 = r20 ^ 1
    r19 = r21
L5:
    if r19 goto L7 else goto L6 :: bool
L6:
    goto L13
L7:
    r22 = x & 1
    r23 = r22 == 0
    if r23 goto L8 else goto L9 :: bool
L8:
    r24 = x != 6
    r25 = r24
    goto L10
L9:
    r26 = CPyTagged_IsEq_(x, 6)
    r27 = r26 ^ 1
    r25 = r27
L10:
    if r25 goto L12 else goto L11 :: bool
L11:
    goto L13
L12:
    r28 = CPyTagged_Multiply(x, x)
    r29 = box(int, x)
    r30 = box(int, r28)
    r31 = CPyDict_SetItem(r0, r29, r30)
    r32 = r31 >= 0 :: signed
L13:
    r33 = r9 + 2
    r9 = r33
    goto L1
L14:
    return r0

[case testLoopsMultipleAssign]
from typing import List, Tuple
def f(l: List[Tuple[int, int, int]]) -> List[int]:
    for x, y, z in l:
        pass
    return [x+y+z for x, y, z in l]
[out]
def f(l):
    l :: list
    r0 :: short_int
    r1 :: ptr
    r2 :: native_int
    r3 :: short_int
    r4 :: bit
    r5 :: object
    r6 :: tuple[int, int, int]
    r7, x, r8, y, r9, z :: int
    r10 :: short_int
    r11 :: list
    r12 :: short_int
    r13 :: ptr
    r14 :: native_int
    r15 :: short_int
    r16 :: bit
    r17 :: object
    r18 :: tuple[int, int, int]
    r19, x_2, r20, y_2, r21, z_2, r22, r23 :: int
    r24 :: object
    r25 :: int32
    r26 :: bit
    r27 :: short_int
L0:
    r0 = 0
L1:
    r1 = get_element_ptr l ob_size :: PyVarObject
    r2 = load_mem r1, l :: native_int*
    r3 = r2 << 1
    r4 = r0 < r3 :: signed
    if r4 goto L2 else goto L4 :: bool
L2:
    r5 = CPyList_GetItemUnsafe(l, r0)
    r6 = unbox(tuple[int, int, int], r5)
    r7 = r6[0]
    x = r7
    r8 = r6[1]
    y = r8
    r9 = r6[2]
    z = r9
L3:
    r10 = r0 + 2
    r0 = r10
    goto L1
L4:
    r11 = PyList_New(0)
    r12 = 0
L5:
    r13 = get_element_ptr l ob_size :: PyVarObject
    r14 = load_mem r13, l :: native_int*
    r15 = r14 << 1
    r16 = r12 < r15 :: signed
    if r16 goto L6 else goto L8 :: bool
L6:
    r17 = CPyList_GetItemUnsafe(l, r12)
    r18 = unbox(tuple[int, int, int], r17)
    r19 = r18[0]
    x_2 = r19
    r20 = r18[1]
    y_2 = r20
    r21 = r18[2]
    z_2 = r21
    r22 = CPyTagged_Add(x_2, y_2)
    r23 = CPyTagged_Add(r22, z_2)
    r24 = box(int, r23)
    r25 = PyList_Append(r11, r24)
    r26 = r25 >= 0 :: signed
L7:
    r27 = r12 + 2
    r12 = r27
    goto L5
L8:
    return r11

[case testProperty]
class PropertyHolder:
    @property
    def value(self) -> int:
        return self.left + self.right if self.is_add else self.left - self.right
    def __init__(self, left: int, right: int, is_add: bool) -> None:
        self.left = left
        self.right = right
        self.is_add = is_add
    def twice_value(self) -> int:
        return 2 * self.value
[out]
def PropertyHolder.value(self):
    self :: __main__.PropertyHolder
    r0 :: bool
    r1, r2, r3, r4, r5, r6, r7 :: int
L0:
    r0 = self.is_add
    if r0 goto L1 else goto L2 :: bool
L1:
    r1 = self.left
    r2 = self.right
    r3 = CPyTagged_Add(r1, r2)
    r4 = r3
    goto L3
L2:
    r5 = self.left
    r6 = self.right
    r7 = CPyTagged_Subtract(r5, r6)
    r4 = r7
L3:
    return r4
def PropertyHolder.__init__(self, left, right, is_add):
    self :: __main__.PropertyHolder
    left, right :: int
    is_add, r0, r1, r2 :: bool
L0:
    self.left = left; r0 = is_error
    self.right = right; r1 = is_error
    self.is_add = is_add; r2 = is_error
    return 1
def PropertyHolder.twice_value(self):
    self :: __main__.PropertyHolder
    r0, r1 :: int
L0:
    r0 = self.value
    r1 = CPyTagged_Multiply(4, r0)
    return r1

[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 = self._incrementer
    r1 = CPyTagged_Add(r0, 2)
    r2 = BaseProperty(r1)
    return r2
def BaseProperty.__init__(self, value):
    self :: __main__.BaseProperty
    value :: int
    r0 :: bool
L0:
    self._incrementer = value; r0 = is_error
    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
    r1 :: bool
L0:
    r0 = BaseProperty.__init__(self, value)
    self._incr_func = incr_func; r1 = is_error
    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 = box(short_int, 6)
    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 testNativeIndex]
from typing import List
class A:
    def __getitem__(self, index: int) -> int: pass

def g(a: A, b: List[int], c: int) -> int:
    return a[c] + b[c]
[out]
def A.__getitem__(self, index):
    self :: __main__.A
    index :: int
L0:
    unreachable
def g(a, b, c):
    a :: __main__.A
    b :: list
    c, r0 :: int
    r1 :: object
    r2, r3 :: int
L0:
    r0 = a.__getitem__(c)
    r1 = CPyList_GetItem(b, c)
    r2 = unbox(int, r1)
    r3 = CPyTagged_Add(r0, r2)
    return r3

[case testTypeAlias_toplevel]
from typing import List, NewType, NamedTuple
Lol = NamedTuple('Lol', (('a', int), ('b', str)))
x = Lol(1, '')
Foo = List[int]
Bar = NewType('Bar', Foo)
y = Bar([1,2,3])
[out]
def __top_level__():
    r0, r1 :: object
    r2 :: bit
    r3 :: str
    r4, r5, r6 :: object
    r7 :: bit
    r8 :: str
    r9, r10 :: object
    r11 :: dict
    r12 :: str
    r13 :: object
    r14 :: str
    r15 :: int32
    r16 :: bit
    r17 :: str
    r18 :: object
    r19 :: str
    r20 :: int32
    r21 :: bit
    r22 :: str
    r23 :: object
    r24 :: str
    r25 :: int32
    r26 :: bit
    r27, r28 :: str
    r29 :: object
    r30 :: tuple[str, object]
    r31 :: object
    r32 :: str
    r33 :: object
    r34 :: tuple[str, object]
    r35 :: object
    r36 :: tuple[object, object]
    r37 :: object
    r38 :: dict
    r39 :: str
    r40, r41 :: object
    r42 :: dict
    r43 :: str
    r44 :: int32
    r45 :: bit
    r46 :: str
    r47 :: dict
    r48 :: str
    r49, r50, r51 :: object
    r52 :: tuple
    r53 :: dict
    r54 :: str
    r55 :: int32
    r56 :: bit
    r57 :: dict
    r58 :: str
    r59, r60, r61 :: object
    r62 :: dict
    r63 :: str
    r64 :: int32
    r65 :: bit
    r66 :: str
    r67 :: dict
    r68 :: str
    r69 :: object
    r70 :: dict
    r71 :: str
    r72, r73 :: object
    r74 :: dict
    r75 :: str
    r76 :: int32
    r77 :: bit
    r78 :: list
    r79, r80, r81 :: object
    r82, r83, r84, r85 :: ptr
    r86 :: dict
    r87 :: str
    r88, r89 :: object
    r90 :: dict
    r91 :: str
    r92 :: int32
    r93 :: bit
L0:
    r0 = builtins :: module
    r1 = load_address _Py_NoneStruct
    r2 = r0 != r1
    if r2 goto L2 else goto L1 :: bool
L1:
    r3 = load_global CPyStatic_unicode_0 :: static  ('builtins')
    r4 = PyImport_Import(r3)
    builtins = r4 :: module
L2:
    r5 = typing :: module
    r6 = load_address _Py_NoneStruct
    r7 = r5 != r6
    if r7 goto L4 else goto L3 :: bool
L3:
    r8 = load_global CPyStatic_unicode_1 :: static  ('typing')
    r9 = PyImport_Import(r8)
    typing = r9 :: module
L4:
    r10 = typing :: module
    r11 = __main__.globals :: static
    r12 = load_global CPyStatic_unicode_2 :: static  ('List')
    r13 = CPyObject_GetAttr(r10, r12)
    r14 = load_global CPyStatic_unicode_2 :: static  ('List')
    r15 = CPyDict_SetItem(r11, r14, r13)
    r16 = r15 >= 0 :: signed
    r17 = load_global CPyStatic_unicode_3 :: static  ('NewType')
    r18 = CPyObject_GetAttr(r10, r17)
    r19 = load_global CPyStatic_unicode_3 :: static  ('NewType')
    r20 = CPyDict_SetItem(r11, r19, r18)
    r21 = r20 >= 0 :: signed
    r22 = load_global CPyStatic_unicode_4 :: static  ('NamedTuple')
    r23 = CPyObject_GetAttr(r10, r22)
    r24 = load_global CPyStatic_unicode_4 :: static  ('NamedTuple')
    r25 = CPyDict_SetItem(r11, r24, r23)
    r26 = r25 >= 0 :: signed
    r27 = load_global CPyStatic_unicode_5 :: static  ('Lol')
    r28 = load_global CPyStatic_unicode_6 :: static  ('a')
    r29 = load_address PyLong_Type
    r30 = (r28, r29)
    r31 = box(tuple[str, object], r30)
    r32 = load_global CPyStatic_unicode_7 :: static  ('b')
    r33 = load_address PyUnicode_Type
    r34 = (r32, r33)
    r35 = box(tuple[str, object], r34)
    r36 = (r31, r35)
    r37 = box(tuple[object, object], r36)
    r38 = __main__.globals :: static
    r39 = load_global CPyStatic_unicode_4 :: static  ('NamedTuple')
    r40 = CPyDict_GetItem(r38, r39)
    r41 = PyObject_CallFunctionObjArgs(r40, r27, r37, 0)
    r42 = __main__.globals :: static
    r43 = load_global CPyStatic_unicode_5 :: static  ('Lol')
    r44 = CPyDict_SetItem(r42, r43, r41)
    r45 = r44 >= 0 :: signed
    r46 = load_global CPyStatic_unicode_8 :: static
    r47 = __main__.globals :: static
    r48 = load_global CPyStatic_unicode_5 :: static  ('Lol')
    r49 = CPyDict_GetItem(r47, r48)
    r50 = box(short_int, 2)
    r51 = PyObject_CallFunctionObjArgs(r49, r50, r46, 0)
    r52 = cast(tuple, r51)
    r53 = __main__.globals :: static
    r54 = load_global CPyStatic_unicode_9 :: static  ('x')
    r55 = CPyDict_SetItem(r53, r54, r52)
    r56 = r55 >= 0 :: signed
    r57 = __main__.globals :: static
    r58 = load_global CPyStatic_unicode_2 :: static  ('List')
    r59 = CPyDict_GetItem(r57, r58)
    r60 = load_address PyLong_Type
    r61 = PyObject_GetItem(r59, r60)
    r62 = __main__.globals :: static
    r63 = load_global CPyStatic_unicode_10 :: static  ('Foo')
    r64 = CPyDict_SetItem(r62, r63, r61)
    r65 = r64 >= 0 :: signed
    r66 = load_global CPyStatic_unicode_11 :: static  ('Bar')
    r67 = __main__.globals :: static
    r68 = load_global CPyStatic_unicode_10 :: static  ('Foo')
    r69 = CPyDict_GetItem(r67, r68)
    r70 = __main__.globals :: static
    r71 = load_global CPyStatic_unicode_3 :: static  ('NewType')
    r72 = CPyDict_GetItem(r70, r71)
    r73 = PyObject_CallFunctionObjArgs(r72, r66, r69, 0)
    r74 = __main__.globals :: static
    r75 = load_global CPyStatic_unicode_11 :: static  ('Bar')
    r76 = CPyDict_SetItem(r74, r75, r73)
    r77 = r76 >= 0 :: signed
    r78 = PyList_New(3)
    r79 = box(short_int, 2)
    r80 = box(short_int, 4)
    r81 = box(short_int, 6)
    r82 = get_element_ptr r78 ob_item :: PyListObject
    r83 = load_mem r82, r78 :: ptr*
    set_mem r83, r79, r78 :: builtins.object*
    r84 = r83 + WORD_SIZE*1
    set_mem r84, r80, r78 :: builtins.object*
    r85 = r83 + WORD_SIZE*2
    set_mem r85, r81, r78 :: builtins.object*
    r86 = __main__.globals :: static
    r87 = load_global CPyStatic_unicode_11 :: static  ('Bar')
    r88 = CPyDict_GetItem(r86, r87)
    r89 = PyObject_CallFunctionObjArgs(r88, r78, 0)
    r90 = __main__.globals :: static
    r91 = load_global CPyStatic_unicode_12 :: static  ('y')
    r92 = CPyDict_SetItem(r90, r91, r89)
    r93 = r92 >= 0 :: signed
    return 1

[case testChainedConditional]
def g(x: int) -> int:
    return x
def f(x: int, y: int, z: int) -> bool:
    return g(x) < g(y) > g(z)
[out]
def g(x):
    x :: int
L0:
    return x
def f(x, y, z):
    x, y, z, r0, r1 :: int
    r2 :: native_int
    r3 :: bit
    r4 :: native_int
    r5, r6, r7 :: bit
    r8 :: bool
    r9 :: bit
    r10 :: bool
    r11 :: int
    r12 :: native_int
    r13 :: bit
    r14 :: native_int
    r15, r16, r17 :: bit
    r18 :: bool
    r19 :: bit
L0:
    r0 = g(x)
    r1 = g(y)
    r2 = r0 & 1
    r3 = r2 == 0
    r4 = r1 & 1
    r5 = r4 == 0
    r6 = r3 & r5
    if r6 goto L1 else goto L2 :: bool
L1:
    r7 = r0 < r1 :: signed
    r8 = r7
    goto L3
L2:
    r9 = CPyTagged_IsLt_(r0, r1)
    r8 = r9
L3:
    if r8 goto L5 else goto L4 :: bool
L4:
    r10 = r8
    goto L9
L5:
    r11 = g(z)
    r12 = r1 & 1
    r13 = r12 == 0
    r14 = r11 & 1
    r15 = r14 == 0
    r16 = r13 & r15
    if r16 goto L6 else goto L7 :: bool
L6:
    r17 = r1 > r11 :: signed
    r18 = r17
    goto L8
L7:
    r19 = CPyTagged_IsLt_(r11, r1)
    r18 = r19
L8:
    r10 = r18
L9:
    return r10

[case testEq]
class A:
    def __eq__(self, x: object) -> bool:
        return NotImplemented
[out]
def A.__eq__(self, x):
    self :: __main__.A
    x, r0 :: object
L0:
    r0 = load_address _Py_NotImplementedStruct
    return r0
def A.__ne__(__mypyc_self__, rhs):
    __mypyc_self__ :: __main__.A
    rhs, r0, r1 :: object
    r2 :: bit
    r3 :: int32
    r4 :: bit
    r5 :: bool
    r6 :: object
L0:
    r0 = __mypyc_self__.__eq__(rhs)
    r1 = load_address _Py_NotImplementedStruct
    r2 = r0 == r1
    if r2 goto L2 else goto L1 :: bool
L1:
    r3 = PyObject_Not(r0)
    r4 = r3 >= 0 :: signed
    r5 = truncate r3: int32 to builtins.bool
    r6 = box(bool, r5)
    return r6
L2:
    return r1

[case testDecorators_toplevel]
from typing import Callable

def a(f: Callable[[], None]) -> Callable[[], None]:
    def g() -> None:
        print('Entering')
        f()
        print('Exited')
    return g

def b(f: Callable[[], None]) -> Callable[[], None]:
    def g() -> None:
        print('---')
        f()
        print('---')
    return g

@a
@b
def c() -> None:
    @a
    @b
    def d() -> None:
        print('d')
    print('c')
    d()

[out]
def g_a_obj.__get__(__mypyc_self__, instance, owner):
    __mypyc_self__, instance, owner, r0 :: object
    r1 :: bit
    r2 :: object
L0:
    r0 = load_address _Py_NoneStruct
    r1 = instance == r0
    if r1 goto L1 else goto L2 :: bool
L1:
    return __mypyc_self__
L2:
    r2 = PyMethod_New(__mypyc_self__, instance)
    return r2
def g_a_obj.__call__(__mypyc_self__):
    __mypyc_self__ :: __main__.g_a_obj
    r0 :: __main__.a_env
    r1, g :: object
    r2 :: str
    r3 :: object
    r4 :: str
    r5, r6, r7, r8 :: object
    r9 :: str
    r10 :: object
    r11 :: str
    r12, r13 :: object
L0:
    r0 = __mypyc_self__.__mypyc_env__
    r1 = r0.g
    g = r1
    r2 = load_global CPyStatic_unicode_3 :: static  ('Entering')
    r3 = builtins :: module
    r4 = load_global CPyStatic_unicode_4 :: static  ('print')
    r5 = CPyObject_GetAttr(r3, r4)
    r6 = PyObject_CallFunctionObjArgs(r5, r2, 0)
    r7 = r0.f
    r8 = PyObject_CallFunctionObjArgs(r7, 0)
    r9 = load_global CPyStatic_unicode_5 :: static  ('Exited')
    r10 = builtins :: module
    r11 = load_global CPyStatic_unicode_4 :: static  ('print')
    r12 = CPyObject_GetAttr(r10, r11)
    r13 = PyObject_CallFunctionObjArgs(r12, r9, 0)
    return 1
def a(f):
    f :: object
    r0 :: __main__.a_env
    r1 :: bool
    r2 :: __main__.g_a_obj
    r3, r4 :: bool
    r5 :: object
L0:
    r0 = a_env()
    r0.f = f; r1 = is_error
    r2 = g_a_obj()
    r2.__mypyc_env__ = r0; r3 = is_error
    r0.g = r2; r4 = is_error
    r5 = r0.g
    return r5
def g_b_obj.__get__(__mypyc_self__, instance, owner):
    __mypyc_self__, instance, owner, r0 :: object
    r1 :: bit
    r2 :: object
L0:
    r0 = load_address _Py_NoneStruct
    r1 = instance == r0
    if r1 goto L1 else goto L2 :: bool
L1:
    return __mypyc_self__
L2:
    r2 = PyMethod_New(__mypyc_self__, instance)
    return r2
def g_b_obj.__call__(__mypyc_self__):
    __mypyc_self__ :: __main__.g_b_obj
    r0 :: __main__.b_env
    r1, g :: object
    r2 :: str
    r3 :: object
    r4 :: str
    r5, r6, r7, r8 :: object
    r9 :: str
    r10 :: object
    r11 :: str
    r12, r13 :: object
L0:
    r0 = __mypyc_self__.__mypyc_env__
    r1 = r0.g
    g = r1
    r2 = load_global CPyStatic_unicode_6 :: static  ('---')
    r3 = builtins :: module
    r4 = load_global CPyStatic_unicode_4 :: static  ('print')
    r5 = CPyObject_GetAttr(r3, r4)
    r6 = PyObject_CallFunctionObjArgs(r5, r2, 0)
    r7 = r0.f
    r8 = PyObject_CallFunctionObjArgs(r7, 0)
    r9 = load_global CPyStatic_unicode_6 :: static  ('---')
    r10 = builtins :: module
    r11 = load_global CPyStatic_unicode_4 :: static  ('print')
    r12 = CPyObject_GetAttr(r10, r11)
    r13 = PyObject_CallFunctionObjArgs(r12, r9, 0)
    return 1
def b(f):
    f :: object
    r0 :: __main__.b_env
    r1 :: bool
    r2 :: __main__.g_b_obj
    r3, r4 :: bool
    r5 :: object
L0:
    r0 = b_env()
    r0.f = f; r1 = is_error
    r2 = g_b_obj()
    r2.__mypyc_env__ = r0; r3 = is_error
    r0.g = r2; r4 = is_error
    r5 = r0.g
    return r5
def __mypyc_d_decorator_helper_____mypyc_c_decorator_helper___obj.__get__(__mypyc_self__, instance, owner):
    __mypyc_self__, instance, owner, r0 :: object
    r1 :: bit
    r2 :: object
L0:
    r0 = load_address _Py_NoneStruct
    r1 = instance == r0
    if r1 goto L1 else goto L2 :: bool
L1:
    return __mypyc_self__
L2:
    r2 = PyMethod_New(__mypyc_self__, instance)
    return r2
def __mypyc_d_decorator_helper_____mypyc_c_decorator_helper___obj.__call__(__mypyc_self__):
    __mypyc_self__ :: __main__.__mypyc_d_decorator_helper_____mypyc_c_decorator_helper___obj
    r0 :: __main__.__mypyc_c_decorator_helper___env
    r1, d :: object
    r2 :: str
    r3 :: object
    r4 :: str
    r5, r6 :: object
L0:
    r0 = __mypyc_self__.__mypyc_env__
    r1 = r0.d
    d = r1
    r2 = load_global CPyStatic_unicode_7 :: static  ('d')
    r3 = builtins :: module
    r4 = load_global CPyStatic_unicode_4 :: static  ('print')
    r5 = CPyObject_GetAttr(r3, r4)
    r6 = PyObject_CallFunctionObjArgs(r5, r2, 0)
    return 1
def __mypyc_c_decorator_helper__():
    r0 :: __main__.__mypyc_c_decorator_helper___env
    r1 :: __main__.__mypyc_d_decorator_helper_____mypyc_c_decorator_helper___obj
    r2 :: bool
    r3 :: dict
    r4 :: str
    r5, r6 :: object
    r7 :: dict
    r8 :: str
    r9, r10 :: object
    r11 :: bool
    r12 :: str
    r13 :: object
    r14 :: str
    r15, r16, r17, r18 :: object
L0:
    r0 = __mypyc_c_decorator_helper___env()
    r1 = __mypyc_d_decorator_helper_____mypyc_c_decorator_helper___obj()
    r1.__mypyc_env__ = r0; r2 = is_error
    r3 = __main__.globals :: static
    r4 = load_global CPyStatic_unicode_8 :: static  ('b')
    r5 = CPyDict_GetItem(r3, r4)
    r6 = PyObject_CallFunctionObjArgs(r5, r1, 0)
    r7 = __main__.globals :: static
    r8 = load_global CPyStatic_unicode_9 :: static  ('a')
    r9 = CPyDict_GetItem(r7, r8)
    r10 = PyObject_CallFunctionObjArgs(r9, r6, 0)
    r0.d = r10; r11 = is_error
    r12 = load_global CPyStatic_unicode_10 :: static  ('c')
    r13 = builtins :: module
    r14 = load_global CPyStatic_unicode_4 :: static  ('print')
    r15 = CPyObject_GetAttr(r13, r14)
    r16 = PyObject_CallFunctionObjArgs(r15, r12, 0)
    r17 = r0.d
    r18 = PyObject_CallFunctionObjArgs(r17, 0)
    return 1
def __top_level__():
    r0, r1 :: object
    r2 :: bit
    r3 :: str
    r4, r5, r6 :: object
    r7 :: bit
    r8 :: str
    r9, r10 :: object
    r11 :: dict
    r12 :: str
    r13 :: object
    r14 :: str
    r15 :: int32
    r16 :: bit
    r17 :: dict
    r18 :: str
    r19 :: object
    r20 :: dict
    r21 :: str
    r22, r23 :: object
    r24 :: dict
    r25 :: str
    r26, r27 :: object
    r28 :: dict
    r29 :: str
    r30 :: int32
    r31 :: bit
L0:
    r0 = builtins :: module
    r1 = load_address _Py_NoneStruct
    r2 = r0 != r1
    if r2 goto L2 else goto L1 :: bool
L1:
    r3 = load_global CPyStatic_unicode_0 :: static  ('builtins')
    r4 = PyImport_Import(r3)
    builtins = r4 :: module
L2:
    r5 = typing :: module
    r6 = load_address _Py_NoneStruct
    r7 = r5 != r6
    if r7 goto L4 else goto L3 :: bool
L3:
    r8 = load_global CPyStatic_unicode_1 :: static  ('typing')
    r9 = PyImport_Import(r8)
    typing = r9 :: module
L4:
    r10 = typing :: module
    r11 = __main__.globals :: static
    r12 = load_global CPyStatic_unicode_2 :: static  ('Callable')
    r13 = CPyObject_GetAttr(r10, r12)
    r14 = load_global CPyStatic_unicode_2 :: static  ('Callable')
    r15 = CPyDict_SetItem(r11, r14, r13)
    r16 = r15 >= 0 :: signed
    r17 = __main__.globals :: static
    r18 = load_global CPyStatic_unicode_11 :: static  ('__mypyc_c_decorator_helper__')
    r19 = CPyDict_GetItem(r17, r18)
    r20 = __main__.globals :: static
    r21 = load_global CPyStatic_unicode_8 :: static  ('b')
    r22 = CPyDict_GetItem(r20, r21)
    r23 = PyObject_CallFunctionObjArgs(r22, r19, 0)
    r24 = __main__.globals :: static
    r25 = load_global CPyStatic_unicode_9 :: static  ('a')
    r26 = CPyDict_GetItem(r24, r25)
    r27 = PyObject_CallFunctionObjArgs(r26, r23, 0)
    r28 = __main__.globals :: static
    r29 = load_global CPyStatic_unicode_10 :: static  ('c')
    r30 = CPyDict_SetItem(r28, r29, r27)
    r31 = r30 >= 0 :: signed
    return 1

[case testDecoratorsSimple_toplevel]
from typing import Callable

def a(f: Callable[[], None]) -> Callable[[], None]:
    def g() -> None:
        print('Entering')
        f()
        print('Exited')
    return g

[out]
def g_a_obj.__get__(__mypyc_self__, instance, owner):
    __mypyc_self__, instance, owner, r0 :: object
    r1 :: bit
    r2 :: object
L0:
    r0 = load_address _Py_NoneStruct
    r1 = instance == r0
    if r1 goto L1 else goto L2 :: bool
L1:
    return __mypyc_self__
L2:
    r2 = PyMethod_New(__mypyc_self__, instance)
    return r2
def g_a_obj.__call__(__mypyc_self__):
    __mypyc_self__ :: __main__.g_a_obj
    r0 :: __main__.a_env
    r1, g :: object
    r2 :: str
    r3 :: object
    r4 :: str
    r5, r6, r7, r8 :: object
    r9 :: str
    r10 :: object
    r11 :: str
    r12, r13 :: object
L0:
    r0 = __mypyc_self__.__mypyc_env__
    r1 = r0.g
    g = r1
    r2 = load_global CPyStatic_unicode_3 :: static  ('Entering')
    r3 = builtins :: module
    r4 = load_global CPyStatic_unicode_4 :: static  ('print')
    r5 = CPyObject_GetAttr(r3, r4)
    r6 = PyObject_CallFunctionObjArgs(r5, r2, 0)
    r7 = r0.f
    r8 = PyObject_CallFunctionObjArgs(r7, 0)
    r9 = load_global CPyStatic_unicode_5 :: static  ('Exited')
    r10 = builtins :: module
    r11 = load_global CPyStatic_unicode_4 :: static  ('print')
    r12 = CPyObject_GetAttr(r10, r11)
    r13 = PyObject_CallFunctionObjArgs(r12, r9, 0)
    return 1
def a(f):
    f :: object
    r0 :: __main__.a_env
    r1 :: bool
    r2 :: __main__.g_a_obj
    r3, r4 :: bool
    r5 :: object
L0:
    r0 = a_env()
    r0.f = f; r1 = is_error
    r2 = g_a_obj()
    r2.__mypyc_env__ = r0; r3 = is_error
    r0.g = r2; r4 = is_error
    r5 = r0.g
    return r5
def __top_level__():
    r0, r1 :: object
    r2 :: bit
    r3 :: str
    r4, r5, r6 :: object
    r7 :: bit
    r8 :: str
    r9, r10 :: object
    r11 :: dict
    r12 :: str
    r13 :: object
    r14 :: str
    r15 :: int32
    r16 :: bit
L0:
    r0 = builtins :: module
    r1 = load_address _Py_NoneStruct
    r2 = r0 != r1
    if r2 goto L2 else goto L1 :: bool
L1:
    r3 = load_global CPyStatic_unicode_0 :: static  ('builtins')
    r4 = PyImport_Import(r3)
    builtins = r4 :: module
L2:
    r5 = typing :: module
    r6 = load_address _Py_NoneStruct
    r7 = r5 != r6
    if r7 goto L4 else goto L3 :: bool
L3:
    r8 = load_global CPyStatic_unicode_1 :: static  ('typing')
    r9 = PyImport_Import(r8)
    typing = r9 :: module
L4:
    r10 = typing :: module
    r11 = __main__.globals :: static
    r12 = load_global CPyStatic_unicode_2 :: static  ('Callable')
    r13 = CPyObject_GetAttr(r10, r12)
    r14 = load_global CPyStatic_unicode_2 :: static  ('Callable')
    r15 = CPyDict_SetItem(r11, r14, r13)
    r16 = r15 >= 0 :: signed
    return 1

[case testAnyAllG]
from typing import Iterable

def call_any(l: Iterable[int]) -> bool:
    return any(i == 0 for i in l)

def call_all(l: Iterable[int]) -> bool:
    return all(i == 0 for i in l)

[out]
def call_any(l):
    l :: object
    r0 :: bool
    r1, r2 :: object
    r3, i :: int
    r4 :: native_int
    r5, r6 :: bit
    r7 :: bool
    r8, r9 :: bit
L0:
    r0 = 0
    r1 = PyObject_GetIter(l)
L1:
    r2 = PyIter_Next(r1)
    if is_error(r2) goto L9 else goto L2
L2:
    r3 = unbox(int, r2)
    i = r3
    r4 = i & 1
    r5 = r4 == 0
    if r5 goto L3 else goto L4 :: bool
L3:
    r6 = i == 0
    r7 = r6
    goto L5
L4:
    r8 = CPyTagged_IsEq_(i, 0)
    r7 = r8
L5:
    if r7 goto L6 else goto L7 :: bool
L6:
    r0 = 1
    goto L11
L7:
L8:
    goto L1
L9:
    r9 = CPy_NoErrOccured()
L10:
L11:
    return r0
def call_all(l):
    l :: object
    r0 :: bool
    r1, r2 :: object
    r3, i :: int
    r4 :: native_int
    r5, r6 :: bit
    r7 :: bool
    r8 :: bit
    r9 :: bool
    r10 :: bit
L0:
    r0 = 1
    r1 = PyObject_GetIter(l)
L1:
    r2 = PyIter_Next(r1)
    if is_error(r2) goto L9 else goto L2
L2:
    r3 = unbox(int, r2)
    i = r3
    r4 = i & 1
    r5 = r4 == 0
    if r5 goto L3 else goto L4 :: bool
L3:
    r6 = i == 0
    r7 = r6
    goto L5
L4:
    r8 = CPyTagged_IsEq_(i, 0)
    r7 = r8
L5:
    r9 = r7 ^ 1
    if r9 goto L6 else goto L7 :: bool
L6:
    r0 = 0
    goto L11
L7:
L8:
    goto L1
L9:
    r10 = CPy_NoErrOccured()
L10:
L11:
    return r0

[case testSetAttr1]
from typing import Any, Dict, List
def lol(x: Any):
    setattr(x, 'x', '5')

[out]
def lol(x):
    x :: object
    r0, r1 :: str
    r2 :: int32
    r3 :: bit
    r4 :: object
L0:
    r0 = load_global CPyStatic_unicode_5 :: static  ('x')
    r1 = load_global CPyStatic_unicode_6 :: static  ('5')
    r2 = PyObject_SetAttr(x, r0, r1)
    r3 = r2 >= 0 :: signed
    r4 = box(None, 1)
    return r4

[case testFinalModuleInt]
from typing import Final

x: Final = 1
y: Final = 2

def f(a: bool) -> int:
    if a:
        return x
    else:
        return y
[out]
def f(a):
    a :: bool
L0:
    if a goto L1 else goto L2 :: bool
L1:
    return 2
L2:
    return 4
L3:
    unreachable

[case testFinalModuleStr]
from typing import Final

x: Final = 'x'
y: Final = 'y'

def f(a: bool) -> str:
    if a:
        return x
    else:
        return y
[out]
def f(a):
    a :: bool
    r0, r1 :: str
L0:
    if a goto L1 else goto L2 :: bool
L1:
    r0 = load_global CPyStatic_unicode_3 :: static  ('x')
    return r0
L2:
    r1 = load_global CPyStatic_unicode_4 :: static  ('y')
    return r1
L3:
    unreachable

[case testFinalModuleBool]
from typing import Final

x: Final = True
y: Final = False

def f(a: bool) -> bool:
    if a:
        return x
    else:
        return y
[out]
def f(a):
    a :: bool
L0:
    if a goto L1 else goto L2 :: bool
L1:
    return 1
L2:
    return 0
L3:
    unreachable

[case testFinalClass]
from typing import Final

class C:
    x: Final = 1
    y: Final = 2

def f(a: bool) -> int:
    if a:
        return C.x
    else:
        return C.y
[out]
def C.__mypyc_defaults_setup(__mypyc_self__):
    __mypyc_self__ :: __main__.C
    r0, r1 :: bool
L0:
    __mypyc_self__.x = 2; r0 = is_error
    __mypyc_self__.y = 4; r1 = is_error
    return 1
def f(a):
    a :: bool
L0:
    if a goto L1 else goto L2 :: bool
L1:
    return 2
L2:
    return 4
L3:
    unreachable

[case testFinalStaticList]
from typing import Final

x: Final = [1]

def f() -> int:
    return x[0]
[out]
def f():
    r0 :: list
    r1 :: bool
    r2 :: object
    r3 :: int
L0:
    r0 = __main__.x :: static
    if is_error(r0) goto L1 else goto L2
L1:
    r1 = raise NameError('value for final name "x" was not set')
    unreachable
L2:
    r2 = CPyList_GetItemShort(r0, 0)
    r3 = unbox(int, r2)
    return r3

[case testFinalStaticTuple]
from typing import Final

x: Final = (1, 2)

def f() -> int:
    return x[0]
[out]
def f():
    r0 :: tuple[int, int]
    r1 :: bool
    r2 :: int
L0:
    r0 = __main__.x :: static
    if is_error(r0) goto L1 else goto L2
L1:
    r1 = raise NameError('value for final name "x" was not set')
    unreachable
L2:
    r2 = r0[0]
    return r2

[case testFinalStaticInt]
from typing import Final

x: Final = 1 + 1

def f() -> int:
    return x - 1
[out]
def f():
    r0 :: int
    r1 :: bool
    r2 :: int
L0:
    r0 = __main__.x :: static
    if is_error(r0) goto L1 else goto L2
L1:
    r1 = raise NameError('value for final name "x" was not set')
    unreachable
L2:
    r2 = CPyTagged_Subtract(r0, 2)
    return r2

[case testFinalRestrictedTypeVar]
from typing import TypeVar
if False:
    from typing import Final

FOO = 10  # type: Final

Targ = TypeVar('Targ', int, str)
def foo(z: Targ) -> None:
    FOO
[out]
def foo(z):
    z :: object
L0:
    return 1

[case testDirectlyCall__bool__]
class A:
    def __bool__(self) -> bool:
        return True
class B(A):
    def __bool__(self) -> bool:
        return False

def lol(x: A) -> int:
    if x:
        return 1
    else:
        return 0

[out]
def A.__bool__(self):
    self :: __main__.A
L0:
    return 1
def B.__bool__(self):
    self :: __main__.B
L0:
    return 0
def lol(x):
    x :: __main__.A
    r0 :: bool
L0:
    r0 = x.__bool__()
    if r0 goto L1 else goto L2 :: bool
L1:
    return 2
L2:
    return 0
L3:
    unreachable

[case testRevealType]
def f(x: int) -> None:
    reveal_type(x)  # type: ignore
[out]
def f(x):
    x :: int
    r0 :: object
    r1 :: str
    r2, r3, r4 :: object
L0:
    r0 = builtins :: module
    r1 = load_global CPyStatic_unicode_1 :: static  ('reveal_type')
    r2 = CPyObject_GetAttr(r0, r1)
    r3 = box(int, x)
    r4 = PyObject_CallFunctionObjArgs(r2, r3, 0)
    return 1

[case testCallCWithStrJoinMethod]
from typing import List
def f(x: str, y: List[str]) -> str:
    return x.join(y)
[out]
def f(x, y):
    x :: str
    y :: list
    r0 :: str
L0:
    r0 = PyUnicode_Join(x, y)
    return r0

[case testCallCWithToListFunction]
from typing import List, Iterable, Tuple, Dict
# generic object
def f(x: Iterable[int]) -> List[int]:
    return list(x)

# need coercing
def g(x: Tuple[int, int, int]) -> List[int]:
    return list(x)

# non-list object
def h(x: Dict[int, str]) -> List[int]:
    return list(x)

[out]
def f(x):
    x :: object
    r0 :: list
L0:
    r0 = PySequence_List(x)
    return r0
def g(x):
    x :: tuple[int, int, int]
    r0 :: object
    r1 :: list
L0:
    r0 = box(tuple[int, int, int], x)
    r1 = PySequence_List(r0)
    return r1
def h(x):
    x :: dict
    r0 :: list
L0:
    r0 = PySequence_List(x)
    return r0

[case testBoolFunction]
def f(x: object) -> bool:
    return bool(x)
[out]
def f(x):
    x :: object
    r0 :: int32
    r1 :: bit
    r2 :: bool
L0:
    r0 = PyObject_IsTrue(x)
    r1 = r0 >= 0 :: signed
    r2 = truncate r0: int32 to builtins.bool
    return r2

[case testLocalImportSubmodule]
def f() -> int:
    import p.m
    return p.x
[file p/__init__.py]
x = 1
[file p/m.py]
[out]
def f():
    r0 :: dict
    r1, r2 :: object
    r3 :: bit
    r4 :: str
    r5 :: object
    r6 :: dict
    r7 :: str
    r8 :: object
    r9 :: str
    r10 :: int32
    r11 :: bit
    r12 :: dict
    r13 :: str
    r14 :: object
    r15 :: str
    r16 :: object
    r17 :: int
L0:
    r0 = __main__.globals :: static
    r1 = p.m :: module
    r2 = load_address _Py_NoneStruct
    r3 = r1 != r2
    if r3 goto L2 else goto L1 :: bool
L1:
    r4 = load_global CPyStatic_unicode_1 :: static  ('p.m')
    r5 = PyImport_Import(r4)
    p.m = r5 :: module
L2:
    r6 = PyImport_GetModuleDict()
    r7 = load_global CPyStatic_unicode_2 :: static  ('p')
    r8 = CPyDict_GetItem(r6, r7)
    r9 = load_global CPyStatic_unicode_2 :: static  ('p')
    r10 = CPyDict_SetItem(r0, r9, r8)
    r11 = r10 >= 0 :: signed
    r12 = PyImport_GetModuleDict()
    r13 = load_global CPyStatic_unicode_2 :: static  ('p')
    r14 = CPyDict_GetItem(r12, r13)
    r15 = load_global CPyStatic_unicode_3 :: static  ('x')
    r16 = CPyObject_GetAttr(r14, r15)
    r17 = unbox(int, r16)
    return r17