ladybird/Tests/AK/TestCircularBuffer.cpp

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/*
* Copyright (c) 2022, Lucas Chollet <lucas.chollet@free.fr>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibTest/TestCase.h>
#include <AK/CircularBuffer.h>
namespace {
CircularBuffer create_circular_buffer(size_t size)
{
return MUST(CircularBuffer::create_empty(size));
}
void safe_write(CircularBuffer& buffer, u8 i)
{
Bytes b { &i, 1 };
auto written_bytes = buffer.write(b);
EXPECT_EQ(written_bytes, 1ul);
};
void safe_read(CircularBuffer& buffer, u8 supposed_result)
{
u8 read_value {};
Bytes b { &read_value, 1 };
b = buffer.read(b);
EXPECT_EQ(b.size(), 1ul);
EXPECT_EQ(*b.data(), supposed_result);
};
void safe_discard(CircularBuffer& buffer, size_t size)
{
TRY_OR_FAIL(buffer.discard(size));
};
}
TEST_CASE(simple_write_read)
{
auto buffer = create_circular_buffer(1);
safe_write(buffer, 42);
safe_read(buffer, 42);
}
TEST_CASE(writing_above_limits)
{
auto buffer = create_circular_buffer(1);
safe_write(buffer, 1);
u8 value = 42;
Bytes b { &value, 1 };
auto written_bytes = buffer.write(b);
EXPECT_EQ(written_bytes, 0ul);
}
TEST_CASE(usage_with_wrapping_around)
{
constexpr size_t capacity = 3;
auto buffer = create_circular_buffer(capacity);
for (unsigned i {}; i < capacity; ++i)
safe_write(buffer, i + 8);
EXPECT_EQ(buffer.used_space(), capacity);
EXPECT_EQ(buffer.empty_space(), 0ul);
safe_read(buffer, 0 + 8);
safe_read(buffer, 1 + 8);
EXPECT_EQ(buffer.used_space(), capacity - 2);
safe_write(buffer, 5);
safe_write(buffer, 6);
EXPECT_EQ(buffer.used_space(), capacity);
safe_read(buffer, 10);
safe_read(buffer, 5);
safe_read(buffer, 6);
EXPECT_EQ(buffer.used_space(), 0ul);
}
TEST_CASE(full_read_aligned)
{
constexpr size_t capacity = 3;
auto buffer = create_circular_buffer(capacity);
for (unsigned i {}; i < capacity; ++i)
safe_write(buffer, i);
EXPECT_EQ(buffer.used_space(), capacity);
EXPECT_EQ(buffer.empty_space(), 0ul);
u8 const source[] = { 0, 1, 2 };
u8 result[] = { 0, 0, 0 };
auto const bytes_or_error = buffer.read({ result, 3 });
EXPECT_EQ(bytes_or_error.size(), 3ul);
EXPECT_EQ(memcmp(source, result, 3), 0);
}
TEST_CASE(full_read_non_aligned)
{
constexpr size_t capacity = 3;
auto buffer = create_circular_buffer(capacity);
for (unsigned i {}; i < capacity; ++i)
safe_write(buffer, i + 5);
safe_read(buffer, 5);
safe_write(buffer, 42);
EXPECT_EQ(buffer.used_space(), capacity);
EXPECT_EQ(buffer.empty_space(), 0ul);
u8 result[] = { 0, 0, 0 };
auto const bytes = buffer.read({ result, 3 });
EXPECT_EQ(bytes.size(), 3ul);
u8 const source[] = { 6, 7, 42 };
EXPECT_EQ(memcmp(source, result, 3), 0);
}
TEST_CASE(full_write_aligned)
{
constexpr size_t capacity = 3;
auto buffer = create_circular_buffer(capacity);
u8 const source[] = { 12, 13, 14 };
auto written_bytes = buffer.write({ source, 3 });
EXPECT_EQ(written_bytes, 3ul);
EXPECT_EQ(buffer.used_space(), capacity);
EXPECT_EQ(buffer.empty_space(), 0ul);
for (unsigned i {}; i < capacity; ++i)
safe_read(buffer, i + 12);
EXPECT_EQ(buffer.used_space(), 0ul);
}
TEST_CASE(full_write_non_aligned)
{
constexpr size_t capacity = 3;
auto buffer = create_circular_buffer(capacity);
safe_write(buffer, 10);
safe_read(buffer, 10);
u8 const source[] = { 12, 13, 14 };
auto written_bytes = buffer.write({ source, 3 });
EXPECT_EQ(written_bytes, 3ul);
EXPECT_EQ(buffer.used_space(), capacity);
EXPECT_EQ(buffer.empty_space(), 0ul);
for (unsigned i {}; i < capacity; ++i)
safe_read(buffer, i + 12);
EXPECT_EQ(buffer.used_space(), 0ul);
}
TEST_CASE(create_from_bytebuffer)
{
u8 const source[] = { 2, 4, 6 };
auto byte_buffer = TRY_OR_FAIL(ByteBuffer::copy(source, AK::array_size(source)));
auto circular_buffer = TRY_OR_FAIL(CircularBuffer::create_initialized(move(byte_buffer)));
EXPECT_EQ(circular_buffer.used_space(), circular_buffer.capacity());
EXPECT_EQ(circular_buffer.used_space(), 3ul);
safe_read(circular_buffer, 2);
safe_read(circular_buffer, 4);
safe_read(circular_buffer, 6);
}
TEST_CASE(discard)
{
constexpr size_t capacity = 3;
auto buffer = create_circular_buffer(capacity);
safe_write(buffer, 11);
safe_write(buffer, 12);
safe_discard(buffer, 1);
safe_read(buffer, 12);
EXPECT_EQ(buffer.used_space(), 0ul);
EXPECT_EQ(buffer.empty_space(), capacity);
}
TEST_CASE(discard_on_edge)
{
constexpr size_t capacity = 3;
auto buffer = create_circular_buffer(capacity);
safe_write(buffer, 11);
safe_write(buffer, 12);
safe_write(buffer, 13);
safe_discard(buffer, 2);
safe_write(buffer, 14);
safe_write(buffer, 15);
safe_discard(buffer, 2);
safe_read(buffer, 15);
EXPECT_EQ(buffer.used_space(), 0ul);
EXPECT_EQ(buffer.empty_space(), capacity);
}
TEST_CASE(discard_too_much)
{
constexpr size_t capacity = 3;
auto buffer = create_circular_buffer(capacity);
safe_write(buffer, 11);
safe_write(buffer, 12);
safe_discard(buffer, 2);
auto result = buffer.discard(2);
EXPECT(result.is_error());
}
TEST_CASE(offset_of)
{
auto const source = "Well Hello Friends!"sv;
auto byte_buffer = TRY_OR_FAIL(ByteBuffer::copy(source.bytes()));
auto circular_buffer = TRY_OR_FAIL(CircularBuffer::create_initialized(byte_buffer));
auto result = circular_buffer.offset_of("Well"sv);
EXPECT(result.has_value());
EXPECT_EQ(result.value(), 0ul);
result = circular_buffer.offset_of("Hello"sv);
EXPECT(result.has_value());
EXPECT_EQ(result.value(), 5ul);
safe_discard(circular_buffer, 5);
auto written_bytes = circular_buffer.write(byte_buffer.span().trim(5));
EXPECT_EQ(written_bytes, 5ul);
result = circular_buffer.offset_of("!Well"sv);
EXPECT(result.has_value());
EXPECT_EQ(result.value(), 13ul);
result = circular_buffer.offset_of("!Well"sv, {}, 12);
EXPECT(!result.has_value());
result = circular_buffer.offset_of("e"sv, 2);
EXPECT(result.has_value());
EXPECT_EQ(result.value(), 9ul);
}
TEST_CASE(offset_of_with_until_and_after)
{
auto const source = "Well Hello Friends!"sv;
auto byte_buffer = TRY_OR_FAIL(ByteBuffer::copy(source.bytes()));
auto circular_buffer = TRY_OR_FAIL(CircularBuffer::create_initialized(byte_buffer));
auto result = circular_buffer.offset_of("Well Hello Friends!"sv, 0, 19);
EXPECT_EQ(result.value_or(42), 0ul);
result = circular_buffer.offset_of(" Hello"sv, 4, 10);
EXPECT_EQ(result.value_or(42), 4ul);
result = circular_buffer.offset_of("el"sv, 3, 10);
EXPECT_EQ(result.value_or(42), 6ul);
safe_discard(circular_buffer, 5);
auto written_bytes = circular_buffer.write(byte_buffer.span().trim(5));
EXPECT_EQ(written_bytes, 5ul);
result = circular_buffer.offset_of("Hello Friends!Well "sv, 0, 19);
EXPECT_EQ(result.value_or(42), 0ul);
result = circular_buffer.offset_of("o Frie"sv, 4, 10);
EXPECT_EQ(result.value_or(42), 4ul);
result = circular_buffer.offset_of("el"sv, 3, 17);
EXPECT_EQ(result.value_or(42), 15ul);
}
TEST_CASE(offset_of_with_until_and_after_wrapping_around)
{
auto const source = "Well Hello Friends!"sv;
auto byte_buffer = TRY_OR_FAIL(ByteBuffer::copy(source.bytes()));
auto circular_buffer = TRY_OR_FAIL(CircularBuffer::create_empty(19));
auto written_bytes = circular_buffer.write(byte_buffer.span().trim(5));
EXPECT_EQ(written_bytes, 5ul);
auto result = circular_buffer.offset_of("Well "sv, 0, 5);
EXPECT_EQ(result.value_or(42), 0ul);
written_bytes = circular_buffer.write(byte_buffer.span().slice(5));
EXPECT_EQ(written_bytes, 14ul);
result = circular_buffer.offset_of("Hello Friends!"sv, 5, 19);
EXPECT_EQ(result.value_or(42), 5ul);
safe_discard(circular_buffer, 5);
result = circular_buffer.offset_of("Hello Friends!"sv, 0, 14);
EXPECT_EQ(result.value_or(42), 0ul);
written_bytes = circular_buffer.write(byte_buffer.span().trim(5));
EXPECT_EQ(written_bytes, 5ul);
result = circular_buffer.offset_of("Well "sv, 14, 19);
EXPECT_EQ(result.value_or(42), 14ul);
}
TEST_CASE(find_copy_in_seekback)
{
auto haystack = "ABABCABCDAB"sv.bytes();
auto needle = "ABCD"sv.bytes();
// Set up the buffer for testing.
auto buffer = MUST(CircularBuffer::create_empty(haystack.size() + needle.size()));
auto written_haystack_bytes = buffer.write(haystack);
VERIFY(written_haystack_bytes == haystack.size());
MUST(buffer.discard(haystack.size()));
auto written_needle_bytes = buffer.write(needle);
VERIFY(written_needle_bytes == needle.size());
{
// Find the largest matches with a length between 1 and 1 (all "A").
auto matches = MUST(buffer.find_copy_in_seekback(1, 1));
EXPECT_EQ(matches.size(), 4ul);
EXPECT_EQ(matches[0].distance, 11ul);
EXPECT_EQ(matches[0].length, 1ul);
EXPECT_EQ(matches[1].distance, 9ul);
EXPECT_EQ(matches[1].length, 1ul);
EXPECT_EQ(matches[2].distance, 6ul);
EXPECT_EQ(matches[2].length, 1ul);
EXPECT_EQ(matches[3].distance, 2ul);
EXPECT_EQ(matches[3].length, 1ul);
}
{
// Find the largest matches with a length between 1 and 2 (all "AB", everything smaller gets eliminated).
auto matches = MUST(buffer.find_copy_in_seekback(2, 1));
EXPECT_EQ(matches.size(), 4ul);
EXPECT_EQ(matches[0].distance, 11ul);
EXPECT_EQ(matches[0].length, 2ul);
EXPECT_EQ(matches[1].distance, 9ul);
EXPECT_EQ(matches[1].length, 2ul);
EXPECT_EQ(matches[2].distance, 6ul);
EXPECT_EQ(matches[2].length, 2ul);
EXPECT_EQ(matches[3].distance, 2ul);
EXPECT_EQ(matches[3].length, 2ul);
}
{
// Find the largest matches with a length between 1 and 3 (all "ABC", everything smaller gets eliminated).
auto matches = MUST(buffer.find_copy_in_seekback(3, 1));
EXPECT_EQ(matches.size(), 2ul);
EXPECT_EQ(matches[0].distance, 9ul);
EXPECT_EQ(matches[0].length, 3ul);
EXPECT_EQ(matches[1].distance, 6ul);
EXPECT_EQ(matches[1].length, 3ul);
}
{
// Find the largest matches with a length between 1 and 4 (all "ABCD", everything smaller gets eliminated).
auto matches = MUST(buffer.find_copy_in_seekback(4, 1));
EXPECT_EQ(matches.size(), 1ul);
EXPECT_EQ(matches[0].distance, 6ul);
EXPECT_EQ(matches[0].length, 4ul);
}
{
// Find the largest matches with a length between 1 and 5 (all "ABCD", everything smaller gets eliminated, and nothing larger exists).
auto matches = MUST(buffer.find_copy_in_seekback(5, 1));
EXPECT_EQ(matches.size(), 1ul);
EXPECT_EQ(matches[0].distance, 6ul);
EXPECT_EQ(matches[0].length, 4ul);
}
{
// Find the largest matches with a length between 4 and 5 (all "ABCD", everything smaller never gets found, nothing larger exists).
auto matches = MUST(buffer.find_copy_in_seekback(5, 4));
EXPECT_EQ(matches.size(), 1ul);
EXPECT_EQ(matches[0].distance, 6ul);
EXPECT_EQ(matches[0].length, 4ul);
}
{
// Find the largest matches with a length between 5 and 5 (nothing is found).
auto matches = MUST(buffer.find_copy_in_seekback(5, 5));
EXPECT_EQ(matches.size(), 0ul);
}
{
// Find the largest matches with a length between 1 and 2 (selected "AB", everything smaller gets eliminated).
auto matches = MUST(buffer.find_copy_in_seekback(2, 1, Vector<size_t> { 6ul, 9ul }));
EXPECT_EQ(matches.size(), 2ul);
EXPECT_EQ(matches[0].distance, 6ul);
EXPECT_EQ(matches[0].length, 2ul);
EXPECT_EQ(matches[1].distance, 9ul);
EXPECT_EQ(matches[1].length, 2ul);
}
{
// Check that we don't find anything for hints before the valid range.
auto matches = MUST(buffer.find_copy_in_seekback(2, 1, Vector<size_t> { 0ul }));
EXPECT_EQ(matches.size(), 0ul);
}
{
// Check that we don't find anything for hints after the valid range.
auto matches = MUST(buffer.find_copy_in_seekback(2, 1, Vector<size_t> { 12ul }));
EXPECT_EQ(matches.size(), 0ul);
}
{
// Check that we don't find anything for a minimum length beyond the whole buffer size.
auto matches = MUST(buffer.find_copy_in_seekback(12, 13));
EXPECT_EQ(matches.size(), 0ul);
}
}
BENCHMARK_CASE(looping_copy_from_seekback)
{
auto circular_buffer = MUST(CircularBuffer::create_empty(16 * MiB));
{
auto written_bytes = circular_buffer.write("\0"sv.bytes());
EXPECT_EQ(written_bytes, 1ul);
}
{
auto copied_bytes = TRY_OR_FAIL(circular_buffer.copy_from_seekback(1, 15 * MiB));
EXPECT_EQ(copied_bytes, 15 * MiB);
}
}