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-- Test cases for vec[i64]. These also partially cover other unboxed item types,
-- which use a similar runtime representation.
[case testVecI64CreateEmpty]
from librt.vecs import vec, append
from mypy_extensions import i64
def f() -> vec[i64]:
    return vec[i64]()
    r0 :: vec[i64]
    r0 = VecI64Api.alloc(0, 0)
    return r0
[case testVecI64Len_64bit]
from librt.vecs import vec
from mypy_extensions import i64
def f(v: vec[i64]) -> i64:
    l = len(v)
    return l
    v :: vec[i64]
    r0 :: native_int
    l :: i64
    r0 = v.len
    return l
[case testVecI64Len_32bit]
from librt.vecs import vec
from mypy_extensions import i64
def f(v: vec[i64]) -> i64:
    l = len(v)
    return l
    v :: vec[i64]
    r0 :: native_int
    r1, l :: i64
    r0 = v.len
    r1 = extend signed r0: native_int to i64
    return l
[case testVecI64GetItem_64bit]
from librt.vecs import vec
from mypy_extensions import i64
def f(v: vec[i64], i: i64) -> i64:
    return v[i]
def f(v, i):
    v :: vec[i64]
    i :: i64
    r0 :: native_int
    r1 :: bit
    r2 :: i64
    r3 :: bit
    r4 :: bool
    r5 :: i64
    r6 :: object
    r7 :: ptr
    r8 :: i64
    r9 :: ptr
    r10 :: i64
    r0 = v.len
    r1 = i < r0 :: unsigned
    if r1 goto L4 else goto L1 :: bool
    r2 = i + r0
    r3 = r2 < r0 :: unsigned
    if r3 goto L3 else goto L2 :: bool
    r4 = raise IndexError
    unreachable
    r5 = r2
    goto L5
    r6 = v.buf
    r7 = get_element_ptr r6 items :: VecI64BufObject
    r8 = r5 * 8
    r9 = r7 + r8
    r10 = load_mem r9 :: i64*
    keep_alive v
    return r10
[case testVecI64GetItem_32bit]
# The IR is quite verbose, but it's acceptable since 32-bit targets are not common any more
from librt.vecs import vec
from mypy_extensions import i64
def f(v: vec[i64], i: i64) -> i64:
    return v[i]
def f(v, i):
    v :: vec[i64]
    i :: i64
    r0 :: native_int
    r1 :: i64
    r2 :: bit
    r3 :: i64
    r4 :: bit
    r5 :: bool
    r6 :: i64
    r7, r8 :: bit
    r9 :: native_int
    r10 :: object
    r11 :: ptr
    r12 :: native_int
    r13 :: ptr
    r14 :: i64
    r0 = v.len
    r1 = extend signed r0: native_int to i64
    r2 = i < r1 :: unsigned
    if r2 goto L4 else goto L1 :: bool
    r3 = i + r1
    r4 = r3 < r1 :: unsigned
    if r4 goto L3 else goto L2 :: bool
    r5 = raise IndexError
    unreachable
    r6 = r3
    goto L5
    r7 = r6 < 2147483648 :: signed
    if r7 goto L6 else goto L8 :: bool
    r8 = r6 >= -2147483648 :: signed
    if r8 goto L7 else goto L8 :: bool
    r9 = truncate r6: i64 to native_int
    goto L9
    CPyInt32_Overflow()
    unreachable
    r10 = v.buf
    r11 = get_element_ptr r10 items :: VecI64BufObject
    r12 = r9 * 8
    r13 = r11 + r12
    r14 = load_mem r13 :: i64*
    keep_alive v
    return r14
[case testVecI64Append]
from librt.vecs import vec, append
from mypy_extensions import i64
def f(v: vec[i64], i: i64) -> vec[i64]:
    return append(v, i)
def f(v, i):
    v :: vec[i64]
    i :: i64
    r0 :: vec[i64]
    r0 = VecI64Api.append(v, i)
    return r0
[case testVecI64SetItem_64bit]
from librt.vecs import vec
from mypy_extensions import i64
def f(v: vec[i64], i: i64, x: i64) -> None:
    v[i] = x
def f(v, i, x):
    v :: vec[i64]
    i, x :: i64
    r0 :: native_int
    r1 :: bit
    r2 :: i64
    r3 :: bit
    r4 :: bool
    r5 :: i64
    r6 :: object
    r7 :: ptr
    r8 :: i64
    r9 :: ptr
    r0 = v.len
    r1 = i < r0 :: unsigned
    if r1 goto L4 else goto L1 :: bool
    r2 = i + r0
    r3 = r2 < r0 :: unsigned
    if r3 goto L3 else goto L2 :: bool
    r4 = raise IndexError
    unreachable
    r5 = r2
    goto L5
    r6 = v.buf
    r7 = get_element_ptr r6 items :: VecI64BufObject
    r8 = r5 * 8
    r9 = r7 + r8
    set_mem r9, x :: i64*
    keep_alive v
    return 1
[case testVecI64ConstructFromListExpr]
from librt.vecs import vec
from mypy_extensions import i64
def f() -> vec[i64]:
    return vec[i64]([1, 5, 14])
    r0 :: vec[i64]
    r1 :: object
    r2, r3, r4, r5 :: ptr
    r0 = VecI64Api.alloc(3, 3)
    r1 = r0.buf
    r2 = get_element_ptr r1 items :: VecI64BufObject
    set_mem r2, 1 :: i64*
    r3 = r2 + 8
    set_mem r3, 5 :: i64*
    r4 = r3 + 8
    set_mem r4, 14 :: i64*
    r5 = r4 + 8
    keep_alive r0
    return r0
[case testVecI64ConstructFromListMultiply_64bit]
from librt.vecs import vec
from mypy_extensions import i64
def f(n: i64) -> vec[i64]:
    return vec[i64]([3] * n)
    n :: i64
    r0 :: vec[i64]
    r1 :: object
    r2 :: ptr
    r3 :: i64
    r4, r5 :: ptr
    r6 :: bit
    r7 :: ptr
    r0 = VecI64Api.alloc(n, n)
    r1 = r0.buf
    r2 = get_element_ptr r1 items :: VecI64BufObject
    r3 = n * 8
    r4 = r2 + r3
    r5 = r2
    r6 = r5 < r4 :: unsigned
    if r6 goto L2 else goto L3 :: bool
    set_mem r5, 3 :: i64*
    r7 = r5 + 8
    r5 = r7
    goto L1
    keep_alive r0
    return r0
[case testVecI64ConstructFromListMultiply2]
from librt.vecs import vec
from mypy_extensions import i64
def f(n: i64, x: i64) -> vec[i64]:
    return vec[i64]([x] * 3)
def f(n, x):
    n, x :: i64
    r0 :: vec[i64]
    r1 :: object
    r2 :: ptr
    r3 :: native_int
    r4, r5 :: ptr
    r6 :: bit
    r7 :: ptr
    r0 = VecI64Api.alloc(3, 3)
    r1 = r0.buf
    r2 = get_element_ptr r1 items :: VecI64BufObject
    r3 = 3 * 8
    r4 = r2 + r3
    r5 = r2
    r6 = r5 < r4 :: unsigned
    if r6 goto L2 else goto L3 :: bool
    set_mem r5, x :: i64*
    r7 = r5 + 8
    r5 = r7
    goto L1
    keep_alive r0
    return r0
[case testVecI64ConstructFromListComprehension]
from librt.vecs import vec
from mypy_extensions import i64
def f(n: i64) -> vec[i64]:
    # TODO: Can we pre-allocate a vec with capacity 5?
    return vec[i64]([x + 1 for x in range(i64(5))])
    n :: i64
    r0, r1 :: vec[i64]
    r2, x :: i64
    r3 :: bit
    r4 :: i64
    r5 :: vec[i64]
    r6 :: i64
    r0 = VecI64Api.alloc(0, 0)
    r1 = r0
    r3 = r2 < 5 :: signed
    if r3 goto L2 else goto L4 :: bool
    r4 = x + 1
    r5 = VecI64Api.append(r1, r4)
    r1 = r5
    r6 = r2 + 1
    r2 = r6
    goto L1
    return r1
[case testVecI64FastComprehensionFromList]
from librt.vecs import vec
from mypy_extensions import i64
from typing import List
def f(n: i64, l: List[i64]) -> vec[i64]:
    return vec[i64]([x + 1 for x in l])
def f(n, l):
    n :: i64
    l :: list
    r0 :: native_int
    r1 :: vec[i64]
    r2, r3 :: native_int
    r4 :: bit
    r5 :: object
    r6, x, r7 :: i64
    r8 :: object
    r9 :: ptr
    r10 :: native_int
    r11 :: ptr
    r12 :: native_int
    r0 = var_object_size l
    r1 = VecI64Api.alloc(r0, r0)
    r3 = var_object_size l
    r4 = r2 < r3 :: signed
    if r4 goto L2 else goto L4 :: bool
    r5 = list_get_item_unsafe l, r2
    r6 = unbox(i64, r5)
    r7 = x + 1
    r8 = r1.buf
    r9 = get_element_ptr r8 items :: VecI64BufObject
    r10 = r2 * 8
    r11 = r9 + r10
    set_mem r11, r7 :: i64*
    keep_alive r1
    r12 = r2 + 1
    r2 = r12
    goto L1
    return r1
[case testVecI64FastComprehensionFromVec]
from librt.vecs import vec
from mypy_extensions import i64
from typing import List
def f(n: i64, v: vec[i64]) -> vec[i64]:
    return vec[i64]([x + 1 for x in v])
def f(n, v):
    n :: i64
    v :: vec[i64]
    r0 :: native_int
    r1 :: vec[i64]
    r2, r3 :: native_int
    r4 :: bit
    r5 :: object
    r6 :: ptr
    r7 :: native_int
    r8 :: ptr
    r9, x, r10 :: i64
    r11 :: object
    r12 :: ptr
    r13 :: native_int
    r14 :: ptr
    r15 :: native_int
    r0 = v.len
    r1 = VecI64Api.alloc(r0, r0)
    r3 = v.len
    r4 = r2 < r3 :: signed
    if r4 goto L2 else goto L4 :: bool
    r5 = v.buf
    r6 = get_element_ptr r5 items :: VecI64BufObject
    r7 = r2 * 8
    r8 = r6 + r7
    r9 = load_mem r8 :: i64*
    keep_alive v
    r10 = x + 1
    r11 = r1.buf
    r12 = get_element_ptr r11 items :: VecI64BufObject
    r13 = r2 * 8
    r14 = r12 + r13
    set_mem r14, r10 :: i64*
    keep_alive r1
    r15 = r2 + 1
    r2 = r15
    goto L1
    return r1
[case testVecI64ConstructFromRange]
from librt.vecs import vec, pop
from mypy_extensions import i64
def f() -> vec[i64]:
    # TODO: Can we pre-allocate a vec with capacity 7?
    return vec[i64](range(7))
    r0, r1 :: vec[i64]
    r2 :: short_int
    r3, ___tmp_6 :: i64
    r4 :: bit
    r5 :: i64
    r6 :: vec[i64]
    r7 :: short_int
    r0 = VecI64Api.alloc(0, 0)
    r1 = r0
    r3 = r2 >> 1
    ___tmp_6 = r3
    r4 = int_lt r2, 14
    if r4 goto L2 else goto L4 :: bool
    r5 = r2 >> 1
    ___tmp_6 = r5
    r6 = VecI64Api.append(r1, ___tmp_6)
    r1 = r6
    r7 = r2 + 2
    r2 = r7
    goto L1
    return r1
[case testVecI64ForLoop]
from librt.vecs import vec
from mypy_extensions import i64
def f(v: vec[i64]) -> i64:
    t: i64 = 0
    for x in v:
        t += 1
    return t
    v :: vec[i64]
    t :: i64
    r0, r1 :: native_int
    r2 :: bit
    r3 :: object
    r4 :: ptr
    r5 :: native_int
    r6 :: ptr
    r7, x, r8 :: i64
    r9 :: native_int
    r1 = v.len
    r2 = r0 < r1 :: signed
    if r2 goto L2 else goto L4 :: bool
    r3 = v.buf
    r4 = get_element_ptr r3 items :: VecI64BufObject
    r5 = r0 * 8
    r6 = r4 + r5
    r7 = load_mem r6 :: i64*
    keep_alive v
    r8 = t + 1
    r9 = r0 + 1
    r0 = r9
    goto L1
    return t
[case testVecI64Contains]
from librt.vecs import vec
from mypy_extensions import i64
def contains(v: vec[i64], n: i64) -> bool:
    return n in v
def contains(v, n):
    v :: vec[i64]
    n :: i64
    r0 :: native_int
    r1 :: object
    r2 :: ptr
    r3 :: native_int
    r4, r5 :: ptr
    r6 :: bit
    r7 :: i64
    r8 :: bit
    r9 :: ptr
    r10 :: bool
    r0 = v.len
    r1 = v.buf
    r2 = get_element_ptr r1 items :: VecI64BufObject
    r3 = r0 * 8
    r4 = r2 + r3
    r5 = r2
    r6 = r5 < r4 :: unsigned
    if r6 goto L2 else goto L4 :: bool
    r7 = load_mem r5 :: i64*
    r8 = r7 == n
    if r8 goto L5 else goto L3 :: bool
    r9 = r5 + 8
    r5 = r9
    goto L1
    keep_alive v
    goto L6
    return r10
[case testVecI64GetItemWithInt_64bit]
from librt.vecs import vec
from mypy_extensions import i64
def f(v: vec[i64]) -> i64:
    return v[0]
    v :: vec[i64]
    r0 :: native_int
    r1 :: bit
    r2 :: i64
    r3 :: bit
    r4 :: bool
    r5 :: i64
    r6 :: object
    r7 :: ptr
    r8 :: i64
    r9 :: ptr
    r10 :: i64
    r0 = v.len
    r1 = 0 < r0 :: unsigned
    if r1 goto L4 else goto L1 :: bool
    r2 = 0 + r0
    r3 = r2 < r0 :: unsigned
    if r3 goto L3 else goto L2 :: bool
    r4 = raise IndexError
    unreachable
    r5 = r2
    goto L5
    r6 = v.buf
    r7 = get_element_ptr r6 items :: VecI64BufObject
    r8 = r5 * 8
    r9 = r7 + r8
    r10 = load_mem r9 :: i64*
    keep_alive v
    return r10
[case testVecI64Slicing_64bit]
from librt.vecs import vec
from mypy_extensions import i64
def f(v: vec[i64], n: i64, m: i64) -> None:
    a = v[:]
    b = v[n:]
    c = v[n:m]
    d = v[:m]
    e = v[1:-2]
def f(v, n, m):
    v :: vec[i64]
    n, m :: i64
    r0, a, r1, b, r2, c, r3, d, r4, e :: vec[i64]
    r0 = VecI64Api.slice(v, 0, 4611686018427387903)
    r1 = VecI64Api.slice(v, n, 4611686018427387903)
    r2 = VecI64Api.slice(v, n, m)
    r3 = VecI64Api.slice(v, 0, m)
    r4 = VecI64Api.slice(v, 1, -2)
    return 1
[case testVecI64Remove]
from librt.vecs import vec, remove
from mypy_extensions import i64
def rem(v: vec[i64], n: i64) -> None:
    v = remove(v, n)
def rem(v, n):
    v :: vec[i64]
    n :: i64
    r0 :: vec[i64]
    r0 = VecI64Api.remove(v, n)
    return 1
[case testVecI64PopLast]
from typing import Tuple
from librt.vecs import vec, pop
from mypy_extensions import i64
def pop_last(v: vec[i64]) -> Tuple[vec[i64], i64]:
    return pop(v)
def pop_last(v):
    v :: vec[i64]
    r0 :: tuple[vec[i64], i64]
    r0 = VecI64Api.pop(v, -1)
    return r0
[case testVecI64PopNth_64bit]
from typing import Tuple
from librt.vecs import vec, pop
from mypy_extensions import i64
def pop_nth(v: vec[i64], n: i64) -> Tuple[vec[i64], i64]:
    return pop(v, n)
def pop_nth(v, n):
    v :: vec[i64]
    n :: i64
    r0 :: tuple[vec[i64], i64]
    r0 = VecI64Api.pop(v, n)
    return r0
[case testVecI64InPlaceOp_64bit]
from librt.vecs import vec, remove
from mypy_extensions import i64
def inplace(v: vec[i64], n: i64, m: i64) -> None:
    v[n] += m
def inplace(v, n, m):
    v :: vec[i64]
    n, m :: i64
    r0 :: native_int
    r1 :: bit
    r2 :: i64
    r3 :: bit
    r4 :: bool
    r5 :: i64
    r6 :: object
    r7 :: ptr
    r8 :: i64
    r9 :: ptr
    r10, r11 :: i64
    r12 :: native_int
    r13 :: bit
    r14 :: i64
    r15 :: bit
    r16 :: bool
    r17 :: i64
    r18 :: object
    r19 :: ptr
    r20 :: i64
    r21 :: ptr
    r0 = v.len
    r1 = n < r0 :: unsigned
    if r1 goto L4 else goto L1 :: bool
    r2 = n + r0
    r3 = r2 < r0 :: unsigned
    if r3 goto L3 else goto L2 :: bool
    r4 = raise IndexError
    unreachable
    r5 = r2
    goto L5
    r6 = v.buf
    r7 = get_element_ptr r6 items :: VecI64BufObject
    r8 = r5 * 8
    r9 = r7 + r8
    r10 = load_mem r9 :: i64*
    keep_alive v
    r11 = r10 + m
    r12 = v.len
    r13 = n < r12 :: unsigned
    if r13 goto L9 else goto L6 :: bool
    r14 = n + r12
    r15 = r14 < r12 :: unsigned
    if r15 goto L8 else goto L7 :: bool
    r16 = raise IndexError
    unreachable
    r17 = r14
    goto L10
    r17 = n
    r18 = v.buf
    r19 = get_element_ptr r18 items :: VecI64BufObject
    r20 = r17 * 8
    r21 = r19 + r20
    set_mem r21, r11 :: i64*
    keep_alive v
    return 1
[case testVecI64Narrow]
from librt.vecs import vec
from mypy_extensions import i64
from typing import Optional, Union
def f(x: Optional[vec[i64]]) -> None:
    if x is not None:
        len(x)
def g(x: Union[vec[i64], str]) -> None:
    if isinstance(x, vec):
        len(x)
    x :: union[vec[i64], None]
    r0 :: object
    r1 :: bit
    r2 :: vec[i64]
    r3 :: native_int
    r0 = load_address _Py_NoneStruct
    r1 = x != r0
    if r1 goto L1 else goto L2 :: bool
    r2 = unbox(vec[i64], x)
    r3 = r2.len
    return 1
    x :: union[vec[i64], str]
    r0 :: bit
    r1 :: vec[i64]
    r2 :: native_int
    r0 = CPyVec_Check(x)
    if r0 goto L1 else goto L2 :: bool
    r1 = unbox(vec[i64], x)
    r2 = r1.len
    return 1
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