[case testI32BasicOps] from typing import Any, Tuple from mypy_extensions import i16, i32, i64 from testutil import assertRaises def test_box_and_unbox() -> None: values = (list(range(-2**31, -2**31 + 100)) + list(range(-1000, 1000)) + list(range(2**31 - 100, 2**31))) for i in values: o: Any = i x: i32 = o o2: Any = x assert o == o2 assert x == i with assertRaises(OverflowError, "int too large to convert to i32"): o = 2**31 x2: i32 = o with assertRaises(OverflowError, "int too large to convert to i32"): o = -2**32 - 1 x3: i32 = o def div_by_7(x: i32) -> i32: return x // 7 def div_by_neg_7(x: i32) -> i32: return x // -7 def div(x: i32, y: i32) -> i32: return x // y def test_divide_by_constant() -> None: for i in range(-1000, 1000): assert div_by_7(i) == i // 7 for i in range(-2**31, -2**31 + 1000): assert div_by_7(i) == i // 7 for i in range(2**31 - 1000, 2**31): assert div_by_7(i) == i // 7 def test_divide_by_negative_constant() -> None: for i in range(-1000, 1000): assert div_by_neg_7(i) == i // -7 for i in range(-2**31, -2**31 + 1000): assert div_by_neg_7(i) == i // -7 for i in range(2**31 - 1000, 2**31): assert div_by_neg_7(i) == i // -7 def test_divide_by_variable() -> None: values = (list(range(-50, 50)) + list(range(-2**31, -2**31 + 10)) + list(range(2**31 - 10, 2**31))) for x in values: for y in values: if y != 0: if x // y == 2**31: with assertRaises(OverflowError, "integer division overflow"): div(x, y) else: assert div(x, y) == x // y else: with assertRaises(ZeroDivisionError, "integer division or modulo by zero"): div(x, y) def mod_by_7(x: i32) -> i32: return x % 7 def mod_by_neg_7(x: i32) -> i32: return x // -7 def mod(x: i32, y: i32) -> i32: return x % y def test_mod_by_constant() -> None: for i in range(-1000, 1000): assert mod_by_7(i) == i % 7 for i in range(-2**31, -2**31 + 1000): assert mod_by_7(i) == i % 7 for i in range(2**31 - 1000, 2**31): assert mod_by_7(i) == i % 7 def test_mod_by_negative_constant() -> None: for i in range(-1000, 1000): assert mod_by_neg_7(i) == i // -7 for i in range(-2**31, -2**31 + 1000): assert mod_by_neg_7(i) == i // -7 for i in range(2**31 - 1000, 2**31): assert mod_by_neg_7(i) == i // -7 def test_mod_by_variable() -> None: values = (list(range(-50, 50)) + list(range(-2**31, -2**31 + 10)) + list(range(2**31 - 10, 2**31))) for x in values: for y in values: if y != 0: assert mod(x, y) == x % y else: with assertRaises(ZeroDivisionError, "integer division or modulo by zero"): mod(x, y) def test_simple_arithmetic_ops() -> None: zero: i32 = int() one: i32 = zero + 1 two: i32 = one + 1 neg_one: i32 = -one assert one + one == 2 assert one + two == 3 assert one + neg_one == 0 assert one - one == 0 assert one - two == -1 assert one * one == 1 assert one * two == 2 assert two * two == 4 assert two * neg_one == -2 assert neg_one * one == -1 assert neg_one * neg_one == 1 assert two * 0 == 0 assert 0 * two == 0 assert -one == -1 assert -two == -2 assert -neg_one == 1 assert -zero == 0 def test_bitwise_ops() -> None: x: i32 = 1920687484 + int() y: i32 = 383354614 + int() z: i32 = -1879040563 + int() zero: i32 = int() one: i32 = zero + 1 two: i32 = zero + 2 neg_one: i32 = -one assert x & y == 307823732 assert x & z == 268442956 assert z & z == z assert x & zero == 0 assert x | y == 1996218366 assert x | z == -226796035 assert z | z == z assert x | 0 == x assert x ^ y == 1688394634 assert x ^ z == -495238991 assert z ^ z == 0 assert z ^ 0 == z assert x << one == -453592328 assert x << two == -907184656 assert z << two == 1073772340 assert z << 0 == z assert x >> one == 960343742 assert x >> two == 480171871 assert z >> two == -469760141 assert z >> 0 == z assert ~x == -1920687485 assert ~z == 1879040562 assert ~zero == -1 assert ~neg_one == 0 def eq(x: i32, y: i32) -> bool: return x == y def test_eq() -> None: assert eq(int(), int()) assert eq(5 + int(), 5 + int()) assert eq(-5 + int(), -5 + int()) assert not eq(int(), 1 + int()) assert not eq(5 + int(), 6 + int()) assert not eq(-5 + int(), -6 + int()) assert not eq(-5 + int(), 5 + int()) def test_comparisons() -> None: one: i32 = 1 + int() one2: i32 = 1 + int() two: i32 = 2 + int() assert one < two assert not (one < one2) assert not (two < one) assert two > one assert not (one > one2) assert not (one > two) assert one <= two assert one <= one2 assert not (two <= one) assert two >= one assert one >= one2 assert not (one >= two) assert one == one2 assert not (one == two) assert one != two assert not (one != one2) def test_mixed_comparisons() -> None: i32_3: i32 = int() + 3 int_5 = int() + 5 assert i32_3 < int_5 assert int_5 > i32_3 b = i32_3 > int_5 assert not b int_largest = int() + (1 << 31) - 1 assert int_largest > i32_3 int_smallest = int() - (1 << 31) assert i32_3 > int_smallest int_too_big = int() + (1 << 31) int_too_small = int() - (1 << 31) - 1 with assertRaises(OverflowError): assert i32_3 < int_too_big with assertRaises(OverflowError): assert int_too_big < i32_3 with assertRaises(OverflowError): assert i32_3 > int_too_small with assertRaises(OverflowError): assert int_too_small < i32_3 def test_mixed_arithmetic_and_bitwise_ops() -> None: i32_3: i32 = int() + 3 int_5 = int() + 5 assert i32_3 + int_5 == 8 assert int_5 - i32_3 == 2 assert i32_3 << int_5 == 96 assert int_5 << i32_3 == 40 assert i32_3 ^ int_5 == 6 assert int_5 | i32_3 == 7 int_largest = int() + (1 << 31) - 1 assert int_largest - i32_3 == 2147483644 int_smallest = int() - (1 << 31) assert int_smallest + i32_3 == -2147483645 int_too_big = int() + (1 << 31) int_too_small = int() - (1 << 31) - 1 with assertRaises(OverflowError): assert i32_3 & int_too_big with assertRaises(OverflowError): assert int_too_small & i32_3 def test_coerce_to_and_from_int() -> None: for shift in range(0, 32): for sign in 1, -1: for delta in range(-5, 5): n = sign * (1 << shift) + delta if -(1 << 31) <= n < (1 << 31): x: i32 = n m: int = x assert m == n def test_explicit_conversion_to_i32() -> None: x = i32(5) assert x == 5 y = int() - 113 x = i32(y) assert x == -113 n64: i64 = 1733 x = i32(n64) assert x == 1733 n32: i32 = -1733 x = i32(n32) assert x == -1733 z = i32(x) assert z == -1733 a: i16 = int() + 19764 assert i32(a) == 19764 a = int() - 1 assert i32(a) == -1 def test_explicit_conversion_overflow() -> None: max_i32 = int() + 2**31 - 1 x = i32(max_i32) assert x == 2**31 - 1 assert int(x) == max_i32 min_i32 = int() - 2**31 y = i32(min_i32) assert y == -2**31 assert int(y) == min_i32 too_big = int() + 2**31 with assertRaises(OverflowError): x = i32(too_big) too_small = int() - 2**31 - 1 with assertRaises(OverflowError): x = i32(too_small) def test_i32_from_large_small_literal() -> None: x = i32(2**31 - 1) assert x == 2**31 - 1 x = i32(-2**31) assert x == -2**31 def test_i32_truncate_from_i64() -> None: large = i64(2**32 + 157 + int()) x = i32(large) assert x == 157 small = i64(-2**32 - 157 + int()) x = i32(small) assert x == -157 large2 = i64(2**31 + int()) x = i32(large2) assert x == -2**31 small2 = i64(-2**31 - 1 - int()) x = i32(small2) assert x == 2**31 - 1 def from_float(x: float) -> i32: return i32(x) def test_explicit_conversion_from_float() -> None: assert from_float(0.0) == 0 assert from_float(1.456) == 1 assert from_float(-1234.567) == -1234 assert from_float(2**31 - 1) == 2**31 - 1 assert from_float(-2**31) == -2**31 # The error message could be better, but this is acceptable with assertRaises(OverflowError, "int too large to convert to i32"): assert from_float(float(2**31)) with assertRaises(OverflowError, "int too large to convert to i32"): # One ulp below the lowest valid i64 value from_float(float(-2**31 - 2048)) def test_tuple_i32() -> None: a: i32 = 1 b: i32 = 2 t = (a, b) a, b = t assert a == 1 assert b == 2 x: Any = t tt: Tuple[i32, i32] = x assert tt == (1, 2)