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ladybird/Tests/LibAudio/TestWav.cpp
Lee Hanken 7e3249ad4c LibAudio: Test reading and writing of wav files 
Includes a set of wav files of different frequencies, these are
each loaded and then written to a temporary file, checking that
the meta-data is correctly read and that the output matches the input.
2024-01-08 07:20:11 -07:00

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/*
* Copyright (c) 2024, Lee Hanken <github-12-2017-ds8@leehanken.uk>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/ByteString.h>
#include <AK/LexicalPath.h>
#include <LibAudio/WavLoader.h>
#include <LibAudio/WavWriter.h>
#include <LibCore/Directory.h>
#include <LibCore/File.h>
#include <LibFileSystem/FileSystem.h>
#include <LibFileSystem/TempFile.h>
#include <LibTest/TestCase.h>
static void compare_files(StringView const& in_path, StringView const& out_path)
{
Array<u8, 4096> buffer1;
Array<u8, 4096> buffer2;
auto original_file = MUST(Core::File::open(in_path, Core::File::OpenMode::Read));
auto copied_file = MUST(Core::File::open(out_path, Core::File::OpenMode::Read));
while (!original_file->is_eof() && !copied_file->is_eof()) {
auto original_bytes = TRY_OR_FAIL(original_file->read_some(buffer1));
auto copied_bytes = TRY_OR_FAIL(copied_file->read_some(buffer2));
EXPECT_EQ(original_bytes, copied_bytes);
}
}
static void run_test(StringView file_name, int const num_samples, int const channels, u32 const rate)
{
constexpr auto format = "RIFF WAVE (.wav)";
constexpr int bits = 16;
auto out_file = TRY_OR_FAIL(FileSystem::TempFile::create_temp_file());
auto out_path = out_file->path();
// This makes sure that the tests will run both on target and in Lagom.
#ifdef AK_OS_SERENITY
ByteString in_path = ByteString::formatted("/usr/Tests/LibAudio/WAV/{}", file_name);
#else
ByteString in_path = ByteString::formatted("WAV/{}", file_name);
#endif
auto loader = TRY_OR_FAIL(Audio::Loader::create(in_path));
EXPECT_EQ(loader->format_name(), format);
EXPECT_EQ(loader->sample_rate(), rate);
EXPECT_EQ(loader->num_channels(), channels);
EXPECT_EQ(loader->bits_per_sample(), bits);
EXPECT_EQ(loader->total_samples(), num_samples);
auto writer = TRY_OR_FAIL(Audio::WavWriter::create_from_file(out_path, rate, channels));
int samples_read = 0;
int size = 0;
do {
auto samples = TRY_OR_FAIL(loader->get_more_samples());
TRY_OR_FAIL(writer->write_samples(samples.span()));
size = samples.size();
samples_read += size;
} while (size);
TRY_OR_FAIL(writer->finalize());
EXPECT_EQ(samples_read, num_samples);
compare_files(in_path, out_path);
}
// 5 seconds, 16-bit audio samples
TEST_CASE(mono_8khz)
{
run_test("tone_8000_mono.wav"sv, 40000, 1, 8000);
}
TEST_CASE(stereo_8khz)
{
run_test("tone_8000_stereo.wav"sv, 40000, 2, 8000);
}
TEST_CASE(mono_11khz)
{
run_test("tone_11025_mono.wav"sv, 55125, 1, 11025);
}
TEST_CASE(stereo_11khz)
{
run_test("tone_11025_stereo.wav"sv, 55125, 2, 11025);
}
TEST_CASE(mono_16khz)
{
run_test("tone_16000_mono.wav"sv, 80000, 1, 16000);
}
TEST_CASE(stereo_16khz)
{
run_test("tone_16000_stereo.wav"sv, 80000, 2, 16000);
}
TEST_CASE(mono_22khz)
{
run_test("tone_22050_mono.wav"sv, 110250, 1, 22050);
}
TEST_CASE(stereo_22khz)
{
run_test("tone_22050_stereo.wav"sv, 110250, 2, 22050);
}
TEST_CASE(mono_44khz)
{
run_test("tone_44100_mono.wav"sv, 220500, 1, 44100);
}
TEST_CASE(stereo_44khz)
{
run_test("tone_44100_stereo.wav"sv, 220500, 2, 44100);
}
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