-- Test cases for packed/specialized vec item types other than i64, such as

-- vec[i32] and vec[float]. Since many of the code paths are the same as for

-- vec[i64], only test a subset of functionality.

--

-- vec[i64] test cases are in irbuild-vec-i64.test.

[case testVecMiscCreateEmpty]

from librt.vecs import vec

from mypy_extensions import i32, i16, u8

def create_float() -> vec[float]:

return vec[float]()

def create_i32() -> vec[i32]:

return vec[i32]()

def create_i16() -> vec[i16]:

return vec[i16]()

def create_u8() -> vec[u8]:

return vec[u8]()

def create_bool() -> vec[bool]:

return vec[bool]()

[out]

def create_float():

r0 :: vec[float]

L0:

r0 = VecFloatApi.alloc(0, 0)

return r0

def create_i32():

r0 :: vec[i32]

L0:

r0 = VecI32Api.alloc(0, 0)

return r0

def create_i16():

r0 :: vec[i16]

L0:

r0 = VecI16Api.alloc(0, 0)

return r0

def create_u8():

r0 :: vec[u8]

L0:

r0 = VecU8Api.alloc(0, 0)

return r0

def create_bool():

r0 :: vec[bool]

L0:

r0 = VecBoolApi.alloc(0, 0)

return r0

[case testVecMiscCreateFromList]

from librt.vecs import vec

from mypy_extensions import i64, i32

def create_i32() -> vec[i32]:

return vec[i32]([1, -5])

[out]

def create_i32():

r0 :: vec[i32]

r1 :: object

r2, r3, r4 :: ptr

L0:

r0 = VecI32Api.alloc(2, 2)

r1 = r0.buf

r2 = get_element_ptr r1 items :: VecI32BufObject

set_mem r2, 1 :: i32*

r3 = r2 + 4

set_mem r3, -5 :: i32*

r4 = r3 + 4

keep_alive r0

return r0

[case testVecMiscLen_64bit]

from librt.vecs import vec

from mypy_extensions import i64, i32

def len_i32(v: vec[i32]) -> i64:

return len(v)

[out]

def len_i32(v):

v :: vec[i32]

r0 :: native_int

L0:

r0 = v.len

return r0

[case testVecMiscAppend]

from librt.vecs import vec, append

from mypy_extensions import i32

def append_float(v: vec[float]) -> vec[float]:

return append(v, 1.5)

def append_i32(v: vec[i32]) -> vec[i32]:

return append(v, 123)

[out]

def append_float(v):

v, r0 :: vec[float]

L0:

r0 = VecFloatApi.append(v, 1.5)

return r0

def append_i32(v):

v, r0 :: vec[i32]

L0:

r0 = VecI32Api.append(v, 123)

return r0

[case testVecMiscGetItem_64bit]

from librt.vecs import vec

from mypy_extensions import i64

def get_item_bool(v: vec[bool], i: i64) -> bool:

return v[i]

[out]

def get_item_bool(v, i):

v :: vec[bool]

i :: i64

r0 :: native_int

r1 :: bit

r2 :: i64

r3 :: bit

r4 :: bool

r5 :: i64

r6 :: object

r7 :: ptr

r8 :: i64

r9 :: ptr

r10 :: bool

L0:

r0 = v.len

r1 = i < r0 :: unsigned

if r1 goto L4 else goto L1 :: bool

L1:

r2 = i + r0

r3 = r2 < r0 :: unsigned

if r3 goto L3 else goto L2 :: bool

L2:

r4 = raise IndexError

unreachable

L3:

r5 = r2

goto L5

L4:

r5 = i

L5:

r6 = v.buf

r7 = get_element_ptr r6 items :: VecBoolBufObject

r8 = r5 * 1

r9 = r7 + r8

r10 = load_mem r9 :: builtins.bool*

keep_alive v

return r10

[case testVecMiscPop]

from librt.vecs import vec, pop

from mypy_extensions import i64

def pop_float(v: vec[float], i: i64) -> float:

v, x = pop(v)

return x

[out]

def pop_float(v, i):

v :: vec[float]

i :: i64

r0 :: tuple[vec[float], float]

r1 :: vec[float]

r2 :: float

r3 :: vec[float]

r4, x :: float

L0:

r0 = VecFloatApi.pop(v, -1)

r1 = borrow r0[0]

r2 = borrow r0[1]

keep_alive steal r0

r3 = unborrow r1

v = r3

r4 = unborrow r2

x = r4

return x

[case testVecMiscRemove]

from librt.vecs import vec, remove

def remove_float(v: vec[float]) -> vec[float]:

return remove(v, 1.5)

[out]

def remove_float(v):

v, r0 :: vec[float]

L0:

r0 = VecFloatApi.remove(v, 1.5)

return r0

[case testVecMiscSlice]

from librt.vecs import vec, remove

from mypy_extensions import i64

def remove_float(v: vec[float], x: i64, y: i64) -> vec[float]:

return v[x:y]

[out]

def remove_float(v, x, y):

v :: vec[float]

x, y :: i64

r0 :: vec[float]

L0:

r0 = VecFloatApi.slice(v, x, y)

return r0

[case testVecMiscForLoop]

from librt.vecs import vec, remove

from mypy_extensions import i64, i16

def for_bool(v: vec[i16]) -> i16:

s: i16 = 0

for x in v:

s += x

return s

[out]

def for_bool(v):

v :: vec[i16]

s :: i16

r0, r1 :: native_int

r2 :: bit

r3 :: object

r4 :: ptr

r5 :: native_int

r6 :: ptr

r7, x, r8 :: i16

r9 :: native_int

L0:

s = 0

r0 = 0

L1:

r1 = v.len

r2 = r0 < r1 :: signed

if r2 goto L2 else goto L4 :: bool

L2:

r3 = v.buf

r4 = get_element_ptr r3 items :: VecI16BufObject

r5 = r0 * 2

r6 = r4 + r5

r7 = load_mem r6 :: i16*

x = r7

keep_alive v

r8 = s + x

s = r8

L3:

r9 = r0 + 1

r0 = r9

goto L1

L4:

return s

[case testVecMiscNestedGetItem_64bit]

from librt.vecs import vec

from mypy_extensions import i64, i32

def get_item_nested(v: vec[vec[i32]], i: i64) -> vec[i32]:

return v[i]

[out]

def get_item_nested(v, i):

v :: vec[vec[i32]]

i :: i64

r0 :: native_int

r1 :: bit

r2 :: i64

r3 :: bit

r4 :: bool

r5 :: i64

r6 :: object

r7 :: ptr

r8 :: i64

r9 :: ptr

r10 :: vec[i32]

L0:

r0 = v.len

r1 = i < r0 :: unsigned

if r1 goto L4 else goto L1 :: bool

L1:

r2 = i + r0

r3 = r2 < r0 :: unsigned

if r3 goto L3 else goto L2 :: bool

L2:

r4 = raise IndexError

unreachable

L3:

r5 = r2

goto L5

L4:

r5 = i

L5:

r6 = v.buf

r7 = get_element_ptr r6 items :: VecNestedBufObject

r8 = r5 * 16

r9 = r7 + r8

r10 = load_mem r9 :: vec[i32]*

keep_alive v

return r10

[case testVecMiscNestedPop_64bit]

from librt.vecs import vec, pop

from mypy_extensions import i64, i32

def get_item_nested(v: vec[vec[i32]], i: i64) -> vec[i32]:

v, x = pop(v, i)

return x

[out]

def get_item_nested(v, i):

v :: vec[vec[i32]]

i :: i64

r0 :: tuple[vec[vec[i32]], VecNestedBufItem{len:native_int, buf:object_nrc}]

r1, r2 :: vec[vec[i32]]

r3, r4 :: VecNestedBufItem{len:native_int, buf:object_nrc}

r5 :: vec[i32]

r6 :: tuple[vec[vec[i32]], vec[i32]]

r7 :: vec[vec[i32]]

r8 :: vec[i32]

r9 :: vec[vec[i32]]

r10, x :: vec[i32]

L0:

r0 = VecNestedApi.pop(v, i)

r1 = borrow r0[0]

r2 = unborrow r1

r3 = borrow r0[1]

r4 = unborrow r3

r5 = VecI32Api.convert_from_nested(r4)

r6 = (r2, r5)

keep_alive steal r0

r7 = borrow r6[0]

r8 = borrow r6[1]

keep_alive steal r6

r9 = unborrow r7

v = r9

r10 = unborrow r8

x = r10

return x