usse/funda-scraper/venv/lib/python3.10/site-packages/mypyc/test-data/irbuild-tuple.test

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2023-02-20 22:38:24 +00:00
[case testTupleGet]
from typing import Tuple
def f(x: Tuple[Tuple[int, bool], bool]) -> int:
return x[0][0]
[out]
def f(x):
x :: tuple[tuple[int, bool], bool]
r0 :: tuple[int, bool]
r1 :: int
L0:
r0 = x[0]
r1 = r0[0]
return r1
[case testTupleNew]
from typing import Tuple
def f() -> int:
t = (True, 1)
return t[1]
[out]
def f():
r0, t :: tuple[bool, int]
r1 :: int
L0:
r0 = (1, 2)
t = r0
r1 = t[1]
return r1
[case testTupleLen]
from typing import Tuple
def f(x: Tuple[bool, bool, int]) -> int:
return len(x)
[out]
def f(x):
x :: tuple[bool, bool, int]
L0:
return 6
[case testSequenceTuple]
from typing import List
def f(x: List[bool]) -> bool:
return tuple(x)[1]
[out]
def f(x):
x :: list
r0 :: tuple
r1 :: object
r2 :: bool
L0:
r0 = PyList_AsTuple(x)
r1 = CPySequenceTuple_GetItem(r0, 2)
r2 = unbox(bool, r1)
return r2
[case testSequenceTupleLen]
from typing import Tuple
def f(x: Tuple[int, ...]) -> int:
return len(x)
[out]
def f(x):
x :: tuple
r0 :: ptr
r1 :: native_int
r2 :: short_int
L0:
r0 = get_element_ptr x ob_size :: PyVarObject
r1 = load_mem r0 :: native_int*
keep_alive x
r2 = r1 << 1
return r2
[case testSequenceTupleForced]
from typing import Tuple
def f() -> int:
t = (1, 2) # type: Tuple[int, ...]
return t[1]
[out]
def f():
r0 :: tuple[int, int]
r1 :: object
t :: tuple
r2 :: object
r3 :: int
L0:
r0 = (2, 4)
r1 = box(tuple[int, int], r0)
t = r1
r2 = CPySequenceTuple_GetItem(t, 2)
r3 = unbox(int, r2)
return r3
[case testTupleDisplay]
from typing import Sequence, Tuple
def f(x: Sequence[int], y: Sequence[int]) -> Tuple[int, ...]:
return (1, 2, *x, *y, 3)
[out]
def f(x, y):
x, y :: object
r0 :: list
r1, r2 :: object
r3, r4, r5 :: ptr
r6, r7, r8 :: object
r9 :: int32
r10 :: bit
r11 :: tuple
L0:
r0 = PyList_New(2)
r1 = object 1
r2 = object 2
r3 = get_element_ptr r0 ob_item :: PyListObject
r4 = load_mem r3 :: ptr*
set_mem r4, r1 :: builtins.object*
r5 = r4 + WORD_SIZE*1
set_mem r5, r2 :: builtins.object*
keep_alive r0
r6 = CPyList_Extend(r0, x)
r7 = CPyList_Extend(r0, y)
r8 = object 3
r9 = PyList_Append(r0, r8)
r10 = r9 >= 0 :: signed
r11 = PyList_AsTuple(r0)
return r11
[case testTupleFor]
from typing import Tuple, List
def f(xs: Tuple[str, ...]) -> None:
for x in xs:
pass
[out]
def f(xs):
xs :: tuple
r0 :: short_int
r1 :: ptr
r2 :: native_int
r3 :: short_int
r4 :: bit
r5 :: object
r6, x :: str
r7 :: short_int
L0:
r0 = 0
L1:
r1 = get_element_ptr xs ob_size :: PyVarObject
r2 = load_mem r1 :: native_int*
keep_alive xs
r3 = r2 << 1
r4 = r0 < r3 :: signed
if r4 goto L2 else goto L4 :: bool
L2:
r5 = CPySequenceTuple_GetItem(xs, r0)
r6 = cast(str, r5)
x = r6
L3:
r7 = r0 + 2
r0 = r7
goto L1
L4:
return 1
[case testNamedTupleAttribute]
from typing import NamedTuple
NT = NamedTuple('NT', [('x', int), ('y', int)])
def f(nt: NT, b: bool) -> int:
if b:
return nt.x
return nt.y
[out]
def f(nt, b):
nt :: tuple
b :: bool
r0 :: object
r1 :: int
r2 :: object
r3 :: int
L0:
if b goto L1 else goto L2 :: bool
L1:
r0 = CPySequenceTuple_GetItem(nt, 0)
r1 = unbox(int, r0)
return r1
L2:
r2 = CPySequenceTuple_GetItem(nt, 2)
r3 = unbox(int, r2)
return r3
[case testTupleOperatorIn]
def f(i: int) -> bool:
return i in [1, 2, 3]
[out]
def f(i):
i :: int
r0 :: native_int
r1, r2 :: bit
r3 :: bool
r4 :: bit
r5 :: bool
r6 :: native_int
r7, r8 :: bit
r9 :: bool
r10 :: bit
r11 :: bool
r12 :: native_int
r13, r14 :: bit
r15 :: bool
r16 :: bit
L0:
r0 = i & 1
r1 = r0 == 0
if r1 goto L1 else goto L2 :: bool
L1:
r2 = i == 2
r3 = r2
goto L3
L2:
r4 = CPyTagged_IsEq_(i, 2)
r3 = r4
L3:
if r3 goto L4 else goto L5 :: bool
L4:
r5 = r3
goto L9
L5:
r6 = i & 1
r7 = r6 == 0
if r7 goto L6 else goto L7 :: bool
L6:
r8 = i == 4
r9 = r8
goto L8
L7:
r10 = CPyTagged_IsEq_(i, 4)
r9 = r10
L8:
r5 = r9
L9:
if r5 goto L10 else goto L11 :: bool
L10:
r11 = r5
goto L15
L11:
r12 = i & 1
r13 = r12 == 0
if r13 goto L12 else goto L13 :: bool
L12:
r14 = i == 6
r15 = r14
goto L14
L13:
r16 = CPyTagged_IsEq_(i, 6)
r15 = r16
L14:
r11 = r15
L15:
return r11
[case testTupleBuiltFromList]
def f(val: int) -> bool:
return val % 2 == 0
def test() -> None:
source = [1, 2, 3]
a = tuple(f(x) for x in source)
[out]
def f(val):
val, r0 :: int
r1 :: native_int
r2, r3 :: bit
r4 :: bool
r5 :: bit
L0:
r0 = CPyTagged_Remainder(val, 4)
r1 = r0 & 1
r2 = r1 == 0
if r2 goto L1 else goto L2 :: bool
L1:
r3 = r0 == 0
r4 = r3
goto L3
L2:
r5 = CPyTagged_IsEq_(r0, 0)
r4 = r5
L3:
return r4
def test():
r0 :: list
r1, r2, r3 :: object
r4, r5, r6, r7 :: ptr
source :: list
r8 :: ptr
r9 :: native_int
r10 :: tuple
r11 :: short_int
r12 :: ptr
r13 :: native_int
r14 :: short_int
r15 :: bit
r16 :: object
r17, x :: int
r18 :: bool
r19 :: object
r20 :: bit
r21 :: short_int
a :: tuple
L0:
r0 = PyList_New(3)
r1 = object 1
r2 = object 2
r3 = object 3
r4 = get_element_ptr r0 ob_item :: PyListObject
r5 = load_mem r4 :: ptr*
set_mem r5, r1 :: builtins.object*
r6 = r5 + WORD_SIZE*1
set_mem r6, r2 :: builtins.object*
r7 = r5 + WORD_SIZE*2
set_mem r7, r3 :: builtins.object*
keep_alive r0
source = r0
r8 = get_element_ptr source ob_size :: PyVarObject
r9 = load_mem r8 :: native_int*
keep_alive source
r10 = PyTuple_New(r9)
r11 = 0
L1:
r12 = get_element_ptr source ob_size :: PyVarObject
r13 = load_mem r12 :: native_int*
keep_alive source
r14 = r13 << 1
r15 = r11 < r14 :: signed
if r15 goto L2 else goto L4 :: bool
L2:
r16 = CPyList_GetItemUnsafe(source, r11)
r17 = unbox(int, r16)
x = r17
r18 = f(x)
r19 = box(bool, r18)
r20 = CPySequenceTuple_SetItemUnsafe(r10, r11, r19)
L3:
r21 = r11 + 2
r11 = r21
goto L1
L4:
a = r10
return 1
[case testTupleBuiltFromStr]
def f2(val: str) -> str:
return val + "f2"
def test() -> None:
source = "abc"
a = tuple(f2(x) for x in source)
[out]
def f2(val):
val, r0, r1 :: str
L0:
r0 = 'f2'
r1 = PyUnicode_Concat(val, r0)
return r1
def test():
r0, source :: str
r1 :: native_int
r2 :: bit
r3 :: tuple
r4 :: short_int
r5 :: native_int
r6 :: bit
r7 :: short_int
r8 :: bit
r9, x, r10 :: str
r11 :: bit
r12 :: short_int
a :: tuple
L0:
r0 = 'abc'
source = r0
r1 = CPyStr_Size_size_t(source)
r2 = r1 >= 0 :: signed
r3 = PyTuple_New(r1)
r4 = 0
L1:
r5 = CPyStr_Size_size_t(source)
r6 = r5 >= 0 :: signed
r7 = r5 << 1
r8 = r4 < r7 :: signed
if r8 goto L2 else goto L4 :: bool
L2:
r9 = CPyStr_GetItem(source, r4)
x = r9
r10 = f2(x)
r11 = CPySequenceTuple_SetItemUnsafe(r3, r4, r10)
L3:
r12 = r4 + 2
r4 = r12
goto L1
L4:
a = r3
return 1
[case testTupleBuiltFromVariableLengthTuple]
from typing import Tuple
def f(val: bool) -> bool:
return not val
def test(source: Tuple[bool, ...]) -> None:
a = tuple(f(x) for x in source)
[out]
def f(val):
val, r0 :: bool
L0:
r0 = val ^ 1
return r0
def test(source):
source :: tuple
r0 :: ptr
r1 :: native_int
r2 :: tuple
r3 :: short_int
r4 :: ptr
r5 :: native_int
r6 :: short_int
r7 :: bit
r8 :: object
r9, x, r10 :: bool
r11 :: object
r12 :: bit
r13 :: short_int
a :: tuple
L0:
r0 = get_element_ptr source ob_size :: PyVarObject
r1 = load_mem r0 :: native_int*
keep_alive source
r2 = PyTuple_New(r1)
r3 = 0
L1:
r4 = get_element_ptr source ob_size :: PyVarObject
r5 = load_mem r4 :: native_int*
keep_alive source
r6 = r5 << 1
r7 = r3 < r6 :: signed
if r7 goto L2 else goto L4 :: bool
L2:
r8 = CPySequenceTuple_GetItem(source, r3)
r9 = unbox(bool, r8)
x = r9
r10 = f(x)
r11 = box(bool, r10)
r12 = CPySequenceTuple_SetItemUnsafe(r2, r3, r11)
L3:
r13 = r3 + 2
r3 = r13
goto L1
L4:
a = r2
return 1