-- Test cases for nested vecs

[case testVecNestedCreateEmpty]

from librt.vecs import vec, append

from mypy_extensions import i64

def f() -> vec[vec[str]]:

return vec[vec[str]]()

def g() -> vec[vec[i64]]:

return vec[vec[i64]]()

[out]

def f():

r0 :: object

r1 :: ptr

r2 :: vec[vec[str]]

L0:

r0 = load_address PyUnicode_Type

r1 = r0

r2 = VecNestedApi.alloc(0, 0, r1, 1)

return r2

def g():

r0 :: vec[vec[i64]]

L0:

r0 = VecNestedApi.alloc(0, 0, 2, 1)

return r0

[case testVecNestedAppend]

from librt.vecs import vec, append

def f(v: vec[vec[str]], vv: vec[str]) -> vec[vec[str]]:

return append(v, vv)

[out]

def f(v, vv):

v :: vec[vec[str]]

vv :: vec[str]

r0 :: native_int

r1 :: object

r2, r3 :: VecNestedBufItem{len:native_int, buf:object_nrc}

r4 :: vec[vec[str]]

L0:

r0 = vv.len

r1 = vv.buf

r2 = set_element undef VecNestedBufItem, len, r0

r3 = set_element r2, buf, r1

r4 = VecNestedApi.append(v, r3)

keep_alive vv

return r4

[case testVecNestedVecI64Append]

from librt.vecs import vec, append

from mypy_extensions import i64

def f(v: vec[vec[i64]], vv: vec[i64]) -> vec[vec[i64]]:

return append(v, vv)

[out]

def f(v, vv):

v :: vec[vec[i64]]

vv :: vec[i64]

r0 :: native_int

r1 :: object

r2, r3 :: VecNestedBufItem{len:native_int, buf:object_nrc}

r4 :: vec[vec[i64]]

L0:

r0 = vv.len

r1 = vv.buf

r2 = set_element undef VecNestedBufItem, len, r0

r3 = set_element r2, buf, r1

r4 = VecNestedApi.append(v, r3)

keep_alive vv

return r4

[case testVecNestedLen_64bit]

from librt.vecs import vec

from mypy_extensions import i64

from typing import Optional

def f(v: vec[vec[str]]) -> i64:

return len(v)

def g(v: vec[vec[i64]]) -> i64:

return len(v)

[out]

def f(v):

v :: vec[vec[str]]

r0 :: native_int

L0:

r0 = v.len

return r0

def g(v):

v :: vec[vec[i64]]

r0 :: native_int

L0:

r0 = v.len

return r0

[case testVecNestedGetItem_64bit]

from librt.vecs import vec

from mypy_extensions import i64

def f(v: vec[vec[str]], n: i64) -> vec[str]:

return v[n]

[out]

def f(v, n):

v :: vec[vec[str]]

n :: i64

r0 :: native_int

r1 :: bit

r2 :: i64

r3 :: bit

r4 :: bool

r5 :: i64

r6 :: object

r7 :: ptr

r8 :: i64

r9 :: ptr

r10 :: vec[str]

L0:

r0 = v.len

r1 = n < r0 :: unsigned

if r1 goto L4 else goto L1 :: bool

L1:

r2 = n + 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 = n

L5:

r6 = v.buf

r7 = get_element_ptr r6 items :: VecNestedBufObject

r8 = r5 * 16

r9 = r7 + r8

r10 = load_mem r9 :: vec[str]*

keep_alive v

return r10

[case testVecNestedI64GetItem_64bit]

from librt.vecs import vec

from mypy_extensions import i64

def f(v: vec[vec[i64]], n: i64) -> vec[i64]:

return v[n]

[out]

def f(v, n):

v :: vec[vec[i64]]

n :: i64

r0 :: native_int

r1 :: bit

r2 :: i64

r3 :: bit

r4 :: bool

r5 :: i64

r6 :: object

r7 :: ptr

r8 :: i64

r9 :: ptr

r10 :: vec[i64]

L0:

r0 = v.len

r1 = n < r0 :: unsigned

if r1 goto L4 else goto L1 :: bool

L1:

r2 = n + 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 = n

L5:

r6 = v.buf

r7 = get_element_ptr r6 items :: VecNestedBufObject

r8 = r5 * 16

r9 = r7 + r8

r10 = load_mem r9 :: vec[i64]*

keep_alive v

return r10

[case testVecNestedI64GetItemWithBorrow_64bit]

from librt.vecs import vec

from mypy_extensions import i64

def f(v: vec[vec[i64]], n: i64) -> i64:

return v[n][n]

[out]

def f(v, n):

v :: vec[vec[i64]]

n :: i64

r0 :: native_int

r1 :: bit

r2 :: i64

r3 :: bit

r4 :: bool

r5 :: i64

r6 :: object

r7 :: ptr

r8 :: i64

r9 :: ptr

r10 :: vec[i64]

r11 :: native_int

r12 :: bit

r13 :: i64

r14 :: bit

r15 :: bool

r16 :: i64

r17 :: object

r18 :: ptr

r19 :: i64

r20 :: ptr

r21 :: i64

L0:

r0 = v.len

r1 = n < r0 :: unsigned

if r1 goto L4 else goto L1 :: bool

L1:

r2 = n + 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 = n

L5:

r6 = v.buf

r7 = get_element_ptr r6 items :: VecNestedBufObject

r8 = r5 * 16

r9 = r7 + r8

r10 = borrow load_mem r9 :: vec[i64]*

r11 = r10.len

r12 = n < r11 :: unsigned

if r12 goto L9 else goto L6 :: bool

L6:

r13 = n + r11

r14 = r13 < r11 :: unsigned

if r14 goto L8 else goto L7 :: bool

L7:

r15 = raise IndexError

unreachable

L8:

r16 = r13

goto L10

L9:

r16 = n

L10:

r17 = r10.buf

r18 = get_element_ptr r17 items :: VecI64BufObject

r19 = r16 * 8

r20 = r18 + r19

r21 = load_mem r20 :: i64*

keep_alive v, r10

return r21

[case testVecDoublyNestedGetItem_64bit]

from librt.vecs import vec

from mypy_extensions import i64

def f(v: vec[vec[vec[str]]], n: i64) -> vec[vec[str]]:

return v[n]

[out]

def f(v, n):

v :: vec[vec[vec[str]]]

n :: i64

r0 :: native_int

r1 :: bit

r2 :: i64

r3 :: bit

r4 :: bool

r5 :: i64

r6 :: object

r7 :: ptr

r8 :: i64

r9 :: ptr

r10 :: vec[vec[str]]

L0:

r0 = v.len

r1 = n < r0 :: unsigned

if r1 goto L4 else goto L1 :: bool

L1:

r2 = n + 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 = n

L5:

r6 = v.buf

r7 = get_element_ptr r6 items :: VecNestedBufObject

r8 = r5 * 16

r9 = r7 + r8

r10 = load_mem r9 :: vec[vec[str]]*

keep_alive v

return r10