gtn/.venv/Lib/site-packages/mypyc/test-data/run-primitives.test

# Test cases for misc primitives (compile and run)
#
# Please only add tests that don't have an obvious place in type-specific test
# files such as run-strings.test, run-lists.test, etc.

[case testGenericEquality]
def eq(a: object, b: object) -> bool:
    if a == b:
        return True
    else:
        return False
def ne(a: object, b: object) -> bool:
    if a != b:
        return True
    else:
        return False
def f(o: object) -> bool:
    if [1, 2] == o:
        return True
    else:
        return False
[file driver.py]
from native import eq, ne, f
assert eq('xz', 'x' + 'z')
assert not eq('x', 'y')
assert not ne('xz', 'x' + 'z')
assert ne('x', 'y')
assert f([1, 2])
assert not f([2, 2])
assert not f(1)

[case testGenericBinaryOps]
from typing import Any
def add(x: Any, y: Any) -> Any:
    return x + y
def subtract(x: Any, y: Any) -> Any:
    return x - y
def multiply(x: Any, y: Any) -> Any:
    return x * y
def floor_div(x: Any, y: Any) -> Any:
    return x // y
def true_div(x: Any, y: Any) -> Any:
    return x / y
def remainder(x: Any, y: Any) -> Any:
    return x % y
def power(x: Any, y: Any) -> Any:
    return x ** y
def lshift(x: Any, y: Any) -> Any:
    return x << y
def rshift(x: Any, y: Any) -> Any:
    return x >> y
def num_and(x: Any, y: Any) -> Any:
    return x & y
def num_xor(x: Any, y: Any) -> Any:
    return x ^ y
def num_or(x: Any, y: Any) -> Any:
    return x | y
def lt(x: Any, y: Any) -> Any:
    if x < y:
        return True
    else:
        return False
def le(x: Any, y: Any) -> Any:
    if x <= y:
        return True
    else:
        return False
def gt(x: Any, y: Any) -> Any:
    if x > y:
        return True
    else:
        return False
def ge(x: Any, y: Any) -> Any:
    if x >= y:
        return True
    else:
        return False
def contains(x: Any, y: Any) -> Any:
    if x in y:
        return True
    else:
        return False
def identity(x: Any, y: Any) -> Any:
    if x is y:
        return True
    else:
        return False
def disidentity(x: Any, y: Any) -> Any:
    if x is not y:
        return True
    else:
        return False
def not_eq_cond(a: Any, b: Any) -> bool:
    if not (a == b):
        return True
    else:
        return False
def eq2(a: Any, b: Any) -> bool:
    return a == b
def slice1(x: Any) -> Any:
    return x[:]
def slice2(x: Any, y: Any) -> Any:
    return x[y:]
def slice3(x: Any, y: Any) -> Any:
    return x[:y]
def slice4(x: Any, y: Any, z: Any) -> Any:
    return x[y:z]
def slice5(x: Any, y: Any, z: Any, zz: Any) -> Any:
    return x[y:z:zz]
[file driver.py]
from native import *
assert add(5, 6) == 11
assert add('x', 'y') == 'xy'
assert subtract(8, 3) == 5
assert multiply(8, 3) == 24
assert floor_div(8, 3) == 2
assert true_div(7, 2) == 3.5
assert remainder(11, 4) == 3
assert remainder('%.3d', 5) == '005'
assert remainder('%d-%s', (5, 'xy')) == '5-xy'
assert power(3, 4) == 81
assert lshift(5, 3) == 40
assert rshift(41, 3) == 5
assert num_and(99, 56) == 32
assert num_xor(99, 56) == 91
assert num_or(99, 56) == 123
assert lt('a', 'b')
assert not lt('a', 'a')
assert not lt('b', 'a')
assert not gt('a', 'b')
assert not gt('a', 'a')
assert gt('b', 'a')
assert le('a', 'b')
assert le('a', 'a')
assert not le('b', 'a')
assert not ge('a', 'b')
assert ge('a', 'a')
assert ge('b', 'a')
assert contains('x', 'axb')
assert not contains('X', 'axb')
assert contains('x', {'x', 'y'})
a = [1, 3, 5]
assert slice1(a) == a
assert slice1(a) is not a
assert slice2(a, 1) == [3, 5]
assert slice3(a, -1) == [1, 3]
assert slice4(a, 1, -1) == [3]
assert slice5(a, 2, 0, -1) == [5, 3]
o1, o2 = object(), object()
assert identity(o1, o1)
assert not identity(o1, o2)
assert not disidentity(o1, o1)
assert disidentity(o1, o2)
assert eq2('xz', 'x' + 'z')
assert not eq2('x', 'y')
assert not not_eq_cond('xz', 'x' + 'z')
assert not_eq_cond('x', 'y')

[case testGenericMiscOps]
from typing import Any
def neg(x: Any) -> Any:
    return -x
def pos(x: Any) -> Any:
    return +x
def invert(x: Any) -> Any:
    return ~x
def get_item(o: Any, k: Any) -> Any:
    return o[k]
def set_item(o: Any, k: Any, v: Any) -> Any:
    o[k] = v
[file driver.py]
from native import *
assert neg(6) == -6
assert pos(6) == 6
assert invert(6) == -7
d = {'x': 5}
assert get_item(d, 'x') == 5
set_item(d, 'y', 6)
assert d['y'] == 6

[case testAnyAttributeAndMethodAccess]
from typing import Any, List
class C:
    a: int
    def m(self, x: int, a: List[int]) -> int:
        return self.a + x + a[0]
def get_a(x: Any) -> Any:
    return x.a
def set_a(x: Any, y: Any) -> None:
    x.a = y
def call_m(x: Any) -> Any:
    return x.m(1, [3])
[file driver.py]
from native import C, get_a, set_a, call_m
class D:
    def m(self, x, a):
        return self.a + x + a[0]

c = C()
c.a = 6
d = D()
d.a = 2
assert get_a(c) == 6
assert get_a(d) == 2
assert call_m(c) == 10
assert call_m(d) == 6
set_a(c, 5)
assert c.a == 5
set_a(d, 4)
assert d.a == 4
try:
    get_a(object())
except AttributeError:
    pass
else:
    assert False
try:
    call_m(object())
except AttributeError:
    pass
else:
    assert False
try:
    set_a(object(), 5)
except AttributeError:
    pass
else:
    assert False

[case testFloat]
def assign_and_return_float_sum() -> float:
    f1 = 1.0
    f2 = 2.0
    f3 = 3.0
    return f1 * f2 + f3

def from_int(i: int) -> float:
    return float(i)

def to_int(x: float) -> int:
    return int(x)

def get_complex() -> complex:
    return 5.2j + 3.5 + 1j

[file driver.py]
from native import assign_and_return_float_sum, from_int, to_int, get_complex
sum = 0.0
for i in range(10):
    sum += assign_and_return_float_sum()
assert sum == 50.0

assert str(from_int(10)) == '10.0'
assert str(to_int(3.14)) == '3'
assert str(to_int(3)) == '3'
assert get_complex() == 3.5 + 6.2j

[case testDel]
from typing import List
from testutil import assertRaises

def printDict(dict) -> None:
    l = list(dict.keys()) # type: List[str]
    l.sort()
    for key in l:
        print(key, dict[key])
    print("#########")

def delList() -> None:
    l = [1, 2, 3]
    print(tuple(l))
    del l[1]
    print(tuple(l))

def delDict() -> None:
    d = {"one":1, "two":2}
    printDict(d)
    del d["one"]
    printDict(d)

def delListMultiple() -> None:
    l = [1, 2, 3, 4, 5, 6, 7]
    print(tuple(l))
    del l[1], l[2], l[3]
    print(tuple(l))

def delDictMultiple() -> None:
    d = {"one":1, "two":2, "three":3, "four":4}
    printDict(d)
    del d["two"], d["four"]
    printDict(d)

class Dummy():
    __deletable__ = ('x', 'y')

    def __init__(self, x: int, y: int) -> None:
        self.x = x
        self.y = y

def delAttribute() -> None:
    dummy = Dummy(1, 2)
    del dummy.x
    with assertRaises(AttributeError):
        dummy.x

def delAttributeMultiple() -> None:
    dummy = Dummy(1, 2)
    del dummy.x, dummy.y
    with assertRaises(AttributeError):
        dummy.x
    with assertRaises(AttributeError):
        dummy.y

def delLocal(b: bool) -> int:
    dummy = 10
    if b:
        del dummy
    return dummy

def delLocalLoop() -> None:
    # Try deleting a local in a loop to make sure the control flow analysis works
    dummy = 1
    for i in range(10):
        print(dummy)
        dummy *= 2
        if i == 4:
            del dummy

global_var = 10
del global_var

[file driver.py]
from native import (
    delList, delDict, delListMultiple, delDictMultiple, delAttribute,
    delAttributeMultiple, delLocal, delLocalLoop,
)
import native
from testutil import assertRaises

delList()
delDict()
delListMultiple()
delDictMultiple()
delAttribute()
delAttributeMultiple()
with assertRaises(AttributeError):
    native.global_var
with assertRaises(NameError, 'local variable "dummy" referenced before assignment'):
    delLocal(True)
assert delLocal(False) == 10
with assertRaises(NameError, 'local variable "dummy" referenced before assignment'):
    delLocalLoop()
[out]
(1, 2, 3)
(1, 3)
one 1
two 2
#########
two 2
#########
(1, 2, 3, 4, 5, 6, 7)
(1, 3, 5, 7)
four 4
one 1
three 3
two 2
#########
one 1
three 3
#########
1
2
4
8
16