ladybird/Tests/AK/TestOptional.cpp
Ali Mohammad Pur 5e1499d104 Everywhere: Rename {Deprecated => Byte}String
This commit un-deprecates DeprecatedString, and repurposes it as a byte
string.
As the null state has already been removed, there are no other
particularly hairy blockers in repurposing this type as a byte string
(what it _really_ is).

This commit is auto-generated:
  $ xs=$(ack -l \bDeprecatedString\b\|deprecated_string AK Userland \
    Meta Ports Ladybird Tests Kernel)
  $ perl -pie 's/\bDeprecatedString\b/ByteString/g;
    s/deprecated_string/byte_string/g' $xs
  $ clang-format --style=file -i \
    $(git diff --name-only | grep \.cpp\|\.h)
  $ gn format $(git ls-files '*.gn' '*.gni')
2023-12-17 18:25:10 +03:30

271 lines
6.6 KiB
C++

/*
* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2021, Daniel Bertalan <dani@danielbertalan.dev>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibTest/TestCase.h>
#include <AK/ByteString.h>
#include <AK/Optional.h>
#include <AK/Vector.h>
TEST_CASE(basic_optional)
{
Optional<int> x;
EXPECT_EQ(x.has_value(), false);
x = 3;
EXPECT_EQ(x.has_value(), true);
EXPECT_EQ(x.value(), 3);
}
TEST_CASE(move_optional)
{
Optional<int> x;
EXPECT_EQ(x.has_value(), false);
x = 3;
EXPECT_EQ(x.has_value(), true);
EXPECT_EQ(x.value(), 3);
Optional<int> y;
y = move(x);
EXPECT_EQ(y.has_value(), true);
EXPECT_EQ(y.value(), 3);
EXPECT_EQ(x.has_value(), false);
}
TEST_CASE(optional_rvalue_ref_qualified_getters)
{
struct DontCopyMe {
DontCopyMe() { }
~DontCopyMe() = default;
DontCopyMe(DontCopyMe&&) = default;
DontCopyMe& operator=(DontCopyMe&&) = default;
DontCopyMe(DontCopyMe const&) = delete;
DontCopyMe& operator=(DontCopyMe const&) = delete;
int x { 13 };
};
auto make_an_optional = []() -> Optional<DontCopyMe> {
return DontCopyMe {};
};
EXPECT_EQ(make_an_optional().value().x, 13);
EXPECT_EQ(make_an_optional().value_or(DontCopyMe {}).x, 13);
}
TEST_CASE(optional_leak_1)
{
struct Structure {
Optional<ByteString> str;
};
// This used to leak, it does not anymore.
Vector<Structure> vec;
vec.append({ "foo" });
EXPECT_EQ(vec[0].str.has_value(), true);
EXPECT_EQ(vec[0].str.value(), "foo");
}
TEST_CASE(short_notation)
{
Optional<StringView> value = "foo"sv;
EXPECT_EQ(value->length(), 3u);
EXPECT_EQ(*value, "foo");
}
TEST_CASE(comparison_without_values)
{
Optional<StringView> opt0;
Optional<StringView> opt1;
Optional<ByteString> opt2;
EXPECT_EQ(opt0, opt1);
EXPECT_EQ(opt0, opt2);
}
TEST_CASE(comparison_with_values)
{
Optional<StringView> opt0;
Optional<StringView> opt1 = "foo"sv;
Optional<ByteString> opt2 = "foo"sv;
Optional<StringView> opt3 = "bar"sv;
EXPECT_NE(opt0, opt1);
EXPECT_EQ(opt1, opt2);
EXPECT_NE(opt1, opt3);
}
TEST_CASE(comparison_to_underlying_types)
{
Optional<ByteString> opt0;
EXPECT_NE(opt0, ByteString());
EXPECT_NE(opt0, "foo");
Optional<StringView> opt1 = "foo"sv;
EXPECT_EQ(opt1, "foo");
EXPECT_NE(opt1, "bar");
EXPECT_EQ(opt1, ByteString("foo"));
}
TEST_CASE(comparison_with_numeric_types)
{
Optional<u8> opt0;
EXPECT_NE(opt0, 0);
Optional<u8> opt1 = 7;
EXPECT_EQ(opt1, 7);
EXPECT_EQ(opt1, 7.0);
EXPECT_EQ(opt1, 7u);
EXPECT_NE(opt1, -2);
}
TEST_CASE(test_copy_ctor_and_dtor_called)
{
#ifdef AK_HAVE_CONDITIONALLY_TRIVIAL
static_assert(IsTriviallyDestructible<Optional<u8>>);
static_assert(IsTriviallyCopyable<Optional<u8>>);
static_assert(IsTriviallyCopyConstructible<Optional<u8>>);
static_assert(IsTriviallyCopyAssignable<Optional<u8>>);
// These can't be trivial as we have to clear the original object.
static_assert(!IsTriviallyMoveConstructible<Optional<u8>>);
static_assert(!IsTriviallyMoveAssignable<Optional<u8>>);
#endif
struct DestructionChecker {
explicit DestructionChecker(bool& was_destroyed)
: m_was_destroyed(was_destroyed)
{
}
~DestructionChecker()
{
m_was_destroyed = true;
}
bool& m_was_destroyed;
};
static_assert(!IsTriviallyDestructible<Optional<DestructionChecker>>);
bool was_destroyed = false;
{
Optional<DestructionChecker> test_optional = DestructionChecker { was_destroyed };
}
EXPECT(was_destroyed);
struct CopyChecker {
explicit CopyChecker(bool& was_copy_constructed)
: m_was_copy_constructed(was_copy_constructed)
{
}
CopyChecker(CopyChecker const& other)
: m_was_copy_constructed(other.m_was_copy_constructed)
{
m_was_copy_constructed = true;
}
bool& m_was_copy_constructed;
};
static_assert(IsCopyConstructible<Optional<CopyChecker>>);
static_assert(!IsTriviallyCopyConstructible<Optional<CopyChecker>>);
bool was_copy_constructed = false;
Optional<CopyChecker> copy1 = CopyChecker { was_copy_constructed };
Optional<CopyChecker> copy2 = copy1;
EXPECT(was_copy_constructed);
struct MoveChecker {
explicit MoveChecker(bool& was_move_constructed)
: m_was_move_constructed(was_move_constructed)
{
}
MoveChecker(MoveChecker const& other)
: m_was_move_constructed(other.m_was_move_constructed)
{
EXPECT(false);
}
MoveChecker(MoveChecker&& other)
: m_was_move_constructed(other.m_was_move_constructed)
{
m_was_move_constructed = true;
}
bool& m_was_move_constructed;
};
static_assert(IsMoveConstructible<Optional<MoveChecker>>);
static_assert(!IsTriviallyMoveConstructible<Optional<MoveChecker>>);
bool was_moved = false;
Optional<MoveChecker> move1 = MoveChecker { was_moved };
Optional<MoveChecker> move2 = move(move1);
EXPECT(was_moved);
#ifdef AK_HAVE_CONDITIONALLY_TRIVIAL
struct NonDestructible {
~NonDestructible() = delete;
};
static_assert(!IsDestructible<Optional<NonDestructible>>);
#endif
}
TEST_CASE(basic_optional_reference)
{
Optional<int&> x;
EXPECT_EQ(x.has_value(), false);
int a = 3;
x = a;
EXPECT_EQ(x.has_value(), true);
EXPECT_EQ(x.value(), 3);
EXPECT_EQ(&x.value(), &a);
Optional<int const&> y;
EXPECT_EQ(y.has_value(), false);
int b = 3;
y = b;
EXPECT_EQ(y.has_value(), true);
EXPECT_EQ(y.value(), 3);
EXPECT_EQ(&y.value(), &b);
static_assert(IsConst<RemoveReference<decltype(y.value())>>);
}
TEST_CASE(move_optional_reference)
{
Optional<int&> x;
EXPECT_EQ(x.has_value(), false);
int b = 3;
x = b;
EXPECT_EQ(x.has_value(), true);
EXPECT_EQ(x.value(), 3);
Optional<int&> y;
y = move(x);
EXPECT_EQ(y.has_value(), true);
EXPECT_EQ(y.value(), 3);
EXPECT_EQ(x.has_value(), false);
}
TEST_CASE(short_notation_reference)
{
StringView test = "foo"sv;
Optional<StringView&> value = test;
EXPECT_EQ(value->length(), 3u);
EXPECT_EQ(*value, "foo");
}
TEST_CASE(comparison_reference)
{
StringView test = "foo"sv;
Optional<StringView&> opt0;
Optional<StringView const&> opt1 = test;
Optional<ByteString> opt2 = "foo"sv;
Optional<StringView> opt3 = "bar"sv;
EXPECT_NE(opt0, opt1);
EXPECT_EQ(opt1, opt2);
EXPECT_NE(opt1, opt3);
}