winamp/Src/external_dependencies/openmpt-trunk/test/test.cpp

3860 lines
147 KiB
C++

/*
* test.cpp
* --------
* Purpose: Unit tests for OpenMPT.
* Notes : We need FAAAAAAAR more unit tests!
* Authors: OpenMPT Devs
* The OpenMPT source code is released under the BSD license. Read LICENSE for more details.
*/
#include "stdafx.h"
#include "test.h"
#ifdef ENABLE_TESTS
#include "mpt/base/numbers.hpp"
#include "mpt/crc/crc.hpp"
#include "mpt/environment/environment.hpp"
#include "mpt/io/base.hpp"
#include "mpt/io/io.hpp"
#include "mpt/io/io_stdstream.hpp"
#include "mpt/io_read/filecursor_stdstream.hpp"
#include "mpt/test/test.hpp"
#include "mpt/test/test_macros.hpp"
#include "mpt/uuid/uuid.hpp"
#include "../common/version.h"
#include "../common/misc_util.h"
#include "../common/mptStringBuffer.h"
#include "../common/serialization_utils.h"
#include "../soundlib/Sndfile.h"
#include "../common/FileReader.h"
#include "../soundlib/mod_specifications.h"
#include "../soundlib/MIDIEvents.h"
#include "../soundlib/MIDIMacros.h"
#include "openmpt/soundbase/Copy.hpp"
#include "openmpt/soundbase/SampleConvert.hpp"
#include "openmpt/soundbase/SampleDecode.hpp"
#include "openmpt/soundbase/SampleEncode.hpp"
#include "openmpt/soundbase/SampleFormat.hpp"
#include "../soundlib/SampleCopy.h"
#include "../soundlib/SampleNormalize.h"
#include "../soundlib/ModSampleCopy.h"
#include "../soundlib/ITCompression.h"
#include "../soundlib/tuningcollection.h"
#include "../soundlib/tuning.h"
#include "openmpt/soundbase/Dither.hpp"
#include "../common/Dither.h"
#ifdef MODPLUG_TRACKER
#include "../mptrack/Mptrack.h"
#include "../mptrack/Moddoc.h"
#include "../mptrack/ModDocTemplate.h"
#include "../mptrack/Mainfrm.h"
#include "../mptrack/Settings.h"
#include "../mptrack/HTTP.h"
#endif // MODPLUG_TRACKER
#include "../common/mptFileIO.h"
#ifdef MODPLUG_TRACKER
#include "mpt/crypto/hash.hpp"
#include "mpt/crypto/jwk.hpp"
#include "mpt/uuid_namespace/uuid_namespace.hpp"
#endif // MODPLUG_TRACKER
#ifdef LIBOPENMPT_BUILD
#include "../libopenmpt/libopenmpt_version.h"
#endif // LIBOPENMPT_BUILD
#ifndef NO_PLUGINS
#include "../soundlib/plugins/PlugInterface.h"
#endif
#include <sstream>
#include <limits>
#ifdef LIBOPENMPT_BUILD
#include <iostream>
#endif // LIBOPENMPT_BUILD
#include <istream>
#include <ostream>
#include <stdexcept>
#if MPT_COMPILER_MSVC
#include <tchar.h>
#endif
#if MPT_OS_WINDOWS
#include <windows.h>
#endif
#if defined(MPT_WITH_ZLIB)
#include <zlib.h>
#elif defined(MPT_WITH_MINIZ)
#define MINIZ_NO_ZLIB_COMPATIBLE_NAMES
#include <miniz/miniz.h>
#endif
#define MPT_TEST_HAS_FILESYSTEM 1
#if MPT_OS_DJGPP
#undef MPT_TEST_HAS_FILESYSTEM
#define MPT_TEST_HAS_FILESYSTEM 0
#endif
#include "TestTools.h"
// enable tests which may fail spuriously
//#define FLAKY_TESTS
OPENMPT_NAMESPACE_BEGIN
namespace Test {
static MPT_NOINLINE void TestVersion();
static MPT_NOINLINE void TestTypes();
static MPT_NOINLINE void TestMisc1();
static MPT_NOINLINE void TestMisc2();
static MPT_NOINLINE void TestRandom();
static MPT_NOINLINE void TestCharsets();
static MPT_NOINLINE void TestStringFormatting();
static MPT_NOINLINE void TestSettings();
static MPT_NOINLINE void TestStringIO();
static MPT_NOINLINE void TestMIDIEvents();
static MPT_NOINLINE void TestSampleConversion();
static MPT_NOINLINE void TestITCompression();
static MPT_NOINLINE void TestPCnoteSerialization();
static MPT_NOINLINE void TestLoadSaveFile();
static MPT_NOINLINE void TestEditing();
static mpt::PathString *PathPrefix = nullptr;
static mpt::default_prng * s_PRNG = nullptr;
mpt::PathString GetPathPrefix()
{
if((*PathPrefix).empty())
{
return P_("");
}
return *PathPrefix + P_("/");
}
void DoTests()
{
#ifdef LIBOPENMPT_BUILD
std::cout << std::flush;
std::clog << std::flush;
std::cerr << std::flush;
std::cout << "libopenmpt test suite" << std::endl;
std::cout << "Version.: " << mpt::ToCharset(mpt::Charset::ASCII, Build::GetVersionString(Build::StringVersion | Build::StringRevision | Build::StringSourceInfo | Build::StringBuildFlags | Build::StringBuildFeatures)) << std::endl;
std::cout << "Compiler: " << mpt::ToCharset(mpt::Charset::ASCII, Build::GetBuildCompilerString()) << std::endl;
std::cout << std::flush;
#endif
#if MPT_OS_WINDOWS
// prefix for test suite
std::wstring pathprefix = std::wstring();
bool libopenmpt = false;
#ifdef LIBOPENMPT_BUILD
libopenmpt = true;
#endif
#if !MPT_OS_WINDOWS_WINRT
// set path prefix for test files (if provided)
std::vector<WCHAR> buf(GetEnvironmentVariableW(L"srcdir", NULL, 0) + 1);
if(GetEnvironmentVariableW(L"srcdir", buf.data(), static_cast<DWORD>(buf.size())) > 0)
{
pathprefix = buf.data();
} else
#endif
if(libopenmpt && IsDebuggerPresent())
{
pathprefix = L"../../";
}
PathPrefix = new mpt::PathString(mpt::PathString::FromWide(pathprefix));
#else
// prefix for test suite
mpt::ustring pathprefix = mpt::ustring();
// set path prefix for test files (if provided)
mpt::ustring env_srcdir = mpt::getenv( U_("srcdir") ).value_or( U_("") );
if ( !env_srcdir.empty() ) {
pathprefix = env_srcdir;
}
PathPrefix = new mpt::PathString(mpt::PathString::FromUnicode(pathprefix));
#endif
void (*do_mpt_test)(void) = []() {
mpt_test_reporter reporter{};
mpt::test::run_all(reporter);
};
DO_TEST(do_mpt_test);
mpt::random_device rd;
s_PRNG = new mpt::default_prng(mpt::make_prng<mpt::default_prng>(rd));
DO_TEST(TestVersion);
DO_TEST(TestTypes);
DO_TEST(TestMisc1);
DO_TEST(TestMisc2);
DO_TEST(TestRandom);
DO_TEST(TestCharsets);
DO_TEST(TestStringFormatting);
DO_TEST(TestSettings);
DO_TEST(TestStringIO);
DO_TEST(TestMIDIEvents);
DO_TEST(TestSampleConversion);
DO_TEST(TestITCompression);
// slower tests, require opening a CModDoc
DO_TEST(TestPCnoteSerialization);
DO_TEST(TestLoadSaveFile);
DO_TEST(TestEditing);
delete s_PRNG;
s_PRNG = nullptr;
delete PathPrefix;
PathPrefix = nullptr;
}
static mpt::PathString GetTempFilenameBase();
static void RemoveFile(const mpt::PathString &filename)
{
#if MPT_OS_WINDOWS
for(int retry=0; retry<10; retry++)
{
if(DeleteFile(filename.AsNative().c_str()) != FALSE)
{
break;
}
// wait for windows virus scanners
Sleep(10);
}
#else
remove(filename.AsNative().c_str());
#endif
}
// Test if functions related to program version data work
static MPT_NOINLINE void TestVersion()
{
//Verify that macros and functions work.
{
VERIFY_EQUAL( Version::Parse(Version::Current().ToUString()), Version::Current() );
VERIFY_EQUAL( Version::Parse(Version::Current().ToUString()).ToUString(), Version::Current().ToUString() );
VERIFY_EQUAL( Version(18285096).ToUString(), U_("1.17.02.28") );
VERIFY_EQUAL( Version::Parse(U_("1.17.02.28")), Version(18285096) );
VERIFY_EQUAL( Version::Parse(U_("1.fe.02.28")), Version(0x01fe0228) );
VERIFY_EQUAL( Version::Parse(U_("01.fe.02.28")), Version(0x01fe0228) );
VERIFY_EQUAL( Version::Parse(U_("1.22")), Version(0x01220000) );
VERIFY_EQUAL( MPT_V("1.17.02.28"), Version(18285096) );
VERIFY_EQUAL( MPT_V("1.fe.02.28"), Version(0x01fe0228) );
VERIFY_EQUAL( MPT_V("01.fe.02.28"), Version(0x01fe0228) );
VERIFY_EQUAL( MPT_V("1.22"), Version(0x01220000) );
VERIFY_EQUAL( MPT_V("1.19.02.00").WithoutTestNumber(), MPT_V("1.19.02.00"));
VERIFY_EQUAL( MPT_V("1.18.03.20").WithoutTestNumber(), MPT_V("1.18.03.00"));
VERIFY_EQUAL( MPT_V("1.18.01.13").IsTestVersion(), true);
VERIFY_EQUAL( MPT_V("1.19.01.00").IsTestVersion(), false);
VERIFY_EQUAL( MPT_V("1.17.02.54").IsTestVersion(), false);
VERIFY_EQUAL( MPT_V("1.18.00.00").IsTestVersion(), false);
VERIFY_EQUAL( MPT_V("1.18.02.00").IsTestVersion(), false);
VERIFY_EQUAL( MPT_V("1.18.02.01").IsTestVersion(), true);
// Ensure that versions ending in .00.00 (which are ambiguous to truncated version numbers in certain file formats (e.g. S3M and IT) do not get qualified as test builds.
VERIFY_EQUAL( MPT_V("1.23.00.00").IsTestVersion(), false);
static_assert( MPT_V("1.17.2.28").GetRawVersion() == 18285096 );
static_assert( MPT_V("1.17.02.48").GetRawVersion() == 18285128 );
static_assert( MPT_V("01.17.02.52").GetRawVersion() == 18285138 );
// Ensure that bit-shifting works (used in some mod loaders for example)
static_assert( MPT_V("01.17.00.00").GetRawVersion() == 0x0117 << 16 );
static_assert( MPT_V("01.17.03.00").GetRawVersion() >> 8 == 0x011703 );
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05-r13099")).IsNewerThan(VersionWithRevision::Parse(U_("1.30.00.05-r13100"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05-r13099")).IsNewerThan(VersionWithRevision::Parse(U_("1.30.00.05-r13099"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05-r13099")).IsNewerThan(VersionWithRevision::Parse(U_("1.30.00.05-r13098"))), true);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05-r13099")).IsNewerThan(VersionWithRevision::Parse(U_("1.30.00.05"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05-r13099")).IsOlderThan(VersionWithRevision::Parse(U_("1.30.00.05-r13100"))), true);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05-r13099")).IsOlderThan(VersionWithRevision::Parse(U_("1.30.00.05-r13099"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05-r13099")).IsOlderThan(VersionWithRevision::Parse(U_("1.30.00.05-r13098"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05-r13099")).IsOlderThan(VersionWithRevision::Parse(U_("1.30.00.05"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05")).IsNewerThan(VersionWithRevision::Parse(U_("1.30.00.05-r13100"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05")).IsNewerThan(VersionWithRevision::Parse(U_("1.30.00.05-r13099"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05")).IsNewerThan(VersionWithRevision::Parse(U_("1.30.00.05-r13098"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05")).IsNewerThan(VersionWithRevision::Parse(U_("1.30.00.05"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05")).IsOlderThan(VersionWithRevision::Parse(U_("1.30.00.05-r13100"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05")).IsOlderThan(VersionWithRevision::Parse(U_("1.30.00.05-r13099"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05")).IsOlderThan(VersionWithRevision::Parse(U_("1.30.00.05-r13098"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05")).IsOlderThan(VersionWithRevision::Parse(U_("1.30.00.05"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05-r13099")).IsEqualTo(VersionWithRevision::Parse(U_("1.30.00.05-r13100"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05-r13099")).IsEqualTo(VersionWithRevision::Parse(U_("1.30.00.05-r13099"))), true);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05-r13099")).IsEqualTo(VersionWithRevision::Parse(U_("1.30.00.05-r13098"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05-r13099")).IsEqualTo(VersionWithRevision::Parse(U_("1.30.00.05"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05-r13099")).IsEquivalentTo(VersionWithRevision::Parse(U_("1.30.00.05-r13100"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05-r13099")).IsEquivalentTo(VersionWithRevision::Parse(U_("1.30.00.05-r13099"))), true);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05-r13099")).IsEquivalentTo(VersionWithRevision::Parse(U_("1.30.00.05-r13098"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05-r13099")).IsEquivalentTo(VersionWithRevision::Parse(U_("1.30.00.05"))), true);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05")).IsEqualTo(VersionWithRevision::Parse(U_("1.30.00.05-r13100"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05")).IsEqualTo(VersionWithRevision::Parse(U_("1.30.00.05-r13099"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05")).IsEqualTo(VersionWithRevision::Parse(U_("1.30.00.05-r13098"))), false);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05")).IsEqualTo(VersionWithRevision::Parse(U_("1.30.00.05"))), true);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05")).IsEquivalentTo(VersionWithRevision::Parse(U_("1.30.00.05-r13100"))), true);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05")).IsEquivalentTo(VersionWithRevision::Parse(U_("1.30.00.05-r13099"))), true);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05")).IsEquivalentTo(VersionWithRevision::Parse(U_("1.30.00.05-r13098"))), true);
VERIFY_EQUAL(VersionWithRevision::Parse(U_("1.30.00.05")).IsEquivalentTo(VersionWithRevision::Parse(U_("1.30.00.05"))), true);
}
#ifdef MODPLUG_TRACKER
//Verify that the version obtained from the executable file is the same as
//defined in Version.
{
WCHAR szFullPath[MAX_PATH];
DWORD dwVerHnd;
DWORD dwVerInfoSize;
// Get version information from the application
::GetModuleFileNameW(NULL, szFullPath, mpt::saturate_cast<DWORD>(std::size(szFullPath)));
dwVerInfoSize = ::GetFileVersionInfoSizeW(szFullPath, &dwVerHnd);
if (!dwVerInfoSize)
throw std::runtime_error("!dwVerInfoSize is true");
std::vector<TCHAR> pVersionInfo(dwVerInfoSize);
WCHAR *szVer = nullptr;
UINT uVerLength;
if (!(::GetFileVersionInfoW(szFullPath, (DWORD)dwVerHnd,
(DWORD)dwVerInfoSize, pVersionInfo.data())))
{
throw std::runtime_error("GetFileVersionInfo() returned false");
}
if (!(::VerQueryValueW(pVersionInfo.data(), L"\\StringFileInfo\\040904b0\\FileVersion",
(LPVOID*)&szVer, &uVerLength))) {
throw std::runtime_error("VerQueryValue() returned false");
}
mpt::ustring version = mpt::ToUnicode(szVer);
VERIFY_EQUAL( version, mpt::ufmt::val(Version::Current()) );
VERIFY_EQUAL( Version::Parse(version), Version::Current() );
}
#endif
#ifdef LIBOPENMPT_BUILD
#if MPT_TEST_HAS_FILESYSTEM
#if !MPT_OS_DJGPP
mpt::PathString version_mk = GetPathPrefix() + P_("libopenmpt/libopenmpt_version.mk");
mpt::ifstream f(version_mk, std::ios::in);
VERIFY_EQUAL(f ? true : false, true);
std::map<std::string, std::string> fields;
std::string line;
while(std::getline(f, line))
{
line = mpt::trim(line);
if(line.empty())
{
continue;
}
std::vector<std::string> line_fields = mpt::String::Split<std::string>(line, std::string("="));
VERIFY_EQUAL_NONCONT(line_fields.size(), 2u);
line_fields[0] = mpt::trim(line_fields[0]);
line_fields[1] = mpt::trim(line_fields[1]);
VERIFY_EQUAL_NONCONT(line_fields[0].length() > 0, true);
fields[line_fields[0]] = line_fields[1];
}
VERIFY_EQUAL(fields["LIBOPENMPT_VERSION_MAJOR"], mpt::afmt::val(OPENMPT_API_VERSION_MAJOR));
VERIFY_EQUAL(fields["LIBOPENMPT_VERSION_MINOR"], mpt::afmt::val(OPENMPT_API_VERSION_MINOR));
VERIFY_EQUAL(fields["LIBOPENMPT_VERSION_PATCH"], mpt::afmt::val(OPENMPT_API_VERSION_PATCH));
VERIFY_EQUAL(fields["LIBOPENMPT_VERSION_PREREL"], mpt::afmt::val(OPENMPT_API_VERSION_PREREL));
if(std::string(OPENMPT_API_VERSION_PREREL).length() > 0)
{
VERIFY_EQUAL(std::string(OPENMPT_API_VERSION_PREREL).substr(0, 1), "-");
}
VERIFY_EQUAL(OPENMPT_API_VERSION_IS_PREREL, (std::string(OPENMPT_API_VERSION_PREREL).length() > 0) ? 1 : 0);
VERIFY_EQUAL(fields["LIBOPENMPT_LTVER_CURRENT"].length() > 0, true);
VERIFY_EQUAL(fields["LIBOPENMPT_LTVER_REVISION"].length() > 0, true);
VERIFY_EQUAL(fields["LIBOPENMPT_LTVER_AGE"].length() > 0, true);
#endif // !MPT_OS_DJGPP
#endif // MPT_TEST_HAS_FILESYSTEM
#endif // LIBOPENMPT_BUILD
}
// Test if data types are interpreted correctly
static MPT_NOINLINE void TestTypes()
{
static_assert(sizeof(std::uintptr_t) == sizeof(void*));
#if defined(__SIZEOF_POINTER__)
static_assert(__SIZEOF_POINTER__ == mpt::pointer_size);
static_assert(__SIZEOF_POINTER__ == sizeof(void*));
#endif
VERIFY_EQUAL(int8_min, std::numeric_limits<int8>::min());
VERIFY_EQUAL(int8_max, std::numeric_limits<int8>::max());
VERIFY_EQUAL(uint8_max, std::numeric_limits<uint8>::max());
VERIFY_EQUAL(int16_min, std::numeric_limits<int16>::min());
VERIFY_EQUAL(int16_max, std::numeric_limits<int16>::max());
VERIFY_EQUAL(uint16_max, std::numeric_limits<uint16>::max());
VERIFY_EQUAL(int32_min, std::numeric_limits<int32>::min());
VERIFY_EQUAL(int32_max, std::numeric_limits<int32>::max());
VERIFY_EQUAL(uint32_max, std::numeric_limits<uint32>::max());
VERIFY_EQUAL(int64_min, std::numeric_limits<int64>::min());
VERIFY_EQUAL(int64_max, std::numeric_limits<int64>::max());
VERIFY_EQUAL(uint64_max, std::numeric_limits<uint64>::max());
static_assert(int8_max == std::numeric_limits<int8>::max());
static_assert(uint8_max == std::numeric_limits<uint8>::max());
static_assert(int16_max == std::numeric_limits<int16>::max());
static_assert(uint16_max == std::numeric_limits<uint16>::max());
static_assert(int32_max == std::numeric_limits<int32>::max());
static_assert(uint32_max == std::numeric_limits<uint32>::max());
static_assert(int64_max == std::numeric_limits<int64>::max());
static_assert(uint64_max == std::numeric_limits<uint64>::max());
}
#ifdef MODPLUG_TRACKER
// In tracker debug builds, the sprintf-like function is retained in order to be able to validate our own formatting against sprintf.
// There are 4 reasons why this is not available for library code:
// 1. printf-like functionality is not type-safe.
// 2. There are portability problems with char/wchar_t and the semantics of %s/%ls/%S .
// 3. There are portability problems with specifying format for 64bit integers.
// 4. Formatting of floating point values depends on the currently set C locale.
// A library is not allowed to mock with that and thus cannot influence the behavior in this case.
template <typename T>
static std::string StringFormat(std::string format, T x)
{
#if MPT_COMPILER_MSVC
// Count the needed array size.
const size_t nCount = _scprintf(format.c_str(), x); // null character not included.
std::vector<char> buf(nCount + 1); // + 1 is for null terminator.
sprintf_s(&(buf[0]), buf.size(), format.c_str(), x);
return &(buf[0]);
#else
int size = snprintf(NULL, 0, format.c_str(), x); // get required size, requires c99 compliant snprintf which msvc does not have
std::vector<char> temp(size + 1);
snprintf(&(temp[0]), size + 1, format.c_str(), x);
return &(temp[0]);
#endif
}
#endif
template <typename Tfloat>
static void TestFloatFormat(Tfloat x, std::string format, mpt::FormatFlags f, std::size_t width = 0, int precision = -1)
{
#ifdef MODPLUG_TRACKER
std::string str_sprintf = StringFormat(format, x);
#endif
std::string str_iostreams = mpt::afmt::fmt(x, mpt::FormatSpec().SetFlags(f).SetWidth(width).SetPrecision(precision));
#ifdef MODPLUG_TRACKER
//MPT_LOG_GLOBAL(LogDebug, "test", mpt::ToUnicode(mpt::Charset::ASCII, str_sprintf));
#endif
//MPT_LOG_GLOBAL(LogDebug, "test", mpt::ToUnicode(mpt::Charset::ASCII, str_iostreams));
#ifdef MODPLUG_TRACKER
#if MPT_MSVC_AT_LEAST(2019,4) || MPT_GCC_AT_LEAST(11,1,0)
// to_chars generates shortest form instead of 0-padded precision
if(precision != -1)
#endif
{
VERIFY_EQUAL(str_iostreams, str_sprintf); // this will fail with a set c locale (and there is nothing that can be done about that in libopenmpt)
}
#else
MPT_UNREFERENCED_PARAMETER(format);
MPT_UNUSED_VARIABLE(str_iostreams);
#endif
}
template <typename Tfloat>
static void TestFloatFormats(Tfloat x)
{
TestFloatFormat(x, "%.8g", mpt::afmt::NotaNrm | mpt::afmt::FillOff, 0, 8);
TestFloatFormat(x, MPT_AFORMAT("%.{}g")(std::numeric_limits<Tfloat>::max_digits10), mpt::afmt::NotaNrm | mpt::afmt::FillOff);
TestFloatFormat(x, MPT_AFORMAT("%.{}f")(std::numeric_limits<Tfloat>::digits10), mpt::afmt::NotaFix | mpt::afmt::FillOff);
TestFloatFormat(x, MPT_AFORMAT("%.{}e")(std::numeric_limits<Tfloat>::max_digits10 - 1), mpt::afmt::NotaSci | mpt::afmt::FillOff);
TestFloatFormat(x, "%.0f", mpt::afmt::NotaFix | mpt::afmt::FillOff, 0, 0);
TestFloatFormat(x, "%.1f", mpt::afmt::NotaFix | mpt::afmt::FillOff, 0, 1);
TestFloatFormat(x, "%.2f", mpt::afmt::NotaFix | mpt::afmt::FillOff, 0, 2);
TestFloatFormat(x, "%.3f", mpt::afmt::NotaFix | mpt::afmt::FillOff, 0, 3);
TestFloatFormat(x, "%0.1f", mpt::afmt::NotaFix | mpt::afmt::FillNul, 0, 1);
TestFloatFormat(x, "%02.0f", mpt::afmt::NotaFix | mpt::afmt::FillNul, 2, 0);
}
static MPT_NOINLINE void TestStringFormatting()
{
VERIFY_EQUAL(mpt::afmt::val(1.5f), "1.5");
VERIFY_EQUAL(mpt::afmt::val(true), "1");
VERIFY_EQUAL(mpt::afmt::val(false), "0");
//VERIFY_EQUAL(mpt::afmt::val('A'), "A"); // deprecated
//VERIFY_EQUAL(mpt::afmt::val(L'A'), "A"); // deprecated
VERIFY_EQUAL(mpt::afmt::val(0), "0");
VERIFY_EQUAL(mpt::afmt::val(-23), "-23");
VERIFY_EQUAL(mpt::afmt::val(42), "42");
VERIFY_EQUAL(mpt::afmt::hex0<3>((int32)-1), "-001");
VERIFY_EQUAL(mpt::afmt::hex((int32)-1), "-1");
VERIFY_EQUAL(mpt::afmt::hex(-0xabcde), "-abcde");
VERIFY_EQUAL(mpt::afmt::hex(int32_min), "-80000000");
VERIFY_EQUAL(mpt::afmt::hex(int32_min + 1), "-7fffffff");
VERIFY_EQUAL(mpt::afmt::hex(0x123e), "123e");
VERIFY_EQUAL(mpt::afmt::hex0<6>(0x123e), "00123e");
VERIFY_EQUAL(mpt::afmt::hex0<2>(0x123e), "123e");
VERIFY_EQUAL(mpt::afmt::dec0<0>(1), "1");
VERIFY_EQUAL(mpt::afmt::dec0<1>(1), "1");
VERIFY_EQUAL(mpt::afmt::dec0<2>(1), "01");
VERIFY_EQUAL(mpt::afmt::dec0<3>(1), "001");
VERIFY_EQUAL(mpt::afmt::dec0<0>(11), "11");
VERIFY_EQUAL(mpt::afmt::dec0<1>(11), "11");
VERIFY_EQUAL(mpt::afmt::dec0<2>(11), "11");
VERIFY_EQUAL(mpt::afmt::dec0<3>(11), "011");
VERIFY_EQUAL(mpt::afmt::dec0<0>(-1), "-1");
VERIFY_EQUAL(mpt::afmt::dec0<1>(-1), "-1");
VERIFY_EQUAL(mpt::afmt::dec0<2>(-1), "-01");
VERIFY_EQUAL(mpt::afmt::dec0<3>(-1), "-001");
VERIFY_EQUAL(mpt::ufmt::HEX0<7>(0xa2345678), U_("A2345678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<8>(0xa2345678), U_("A2345678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<9>(0xa2345678), U_("0A2345678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<10>(0xa2345678), U_("00A2345678"));
#if MPT_WSTRING_FORMAT
VERIFY_EQUAL(mpt::wfmt::hex(0x123e), L"123e");
VERIFY_EQUAL(mpt::wfmt::hex0<6>(0x123e), L"00123e");
VERIFY_EQUAL(mpt::wfmt::hex0<2>(0x123e), L"123e");
#endif
VERIFY_EQUAL(mpt::afmt::val(-87.0f), "-87");
if(mpt::afmt::val(-0.5e-6) != "-5e-007"
&& mpt::afmt::val(-0.5e-6) != "-5e-07"
&& mpt::afmt::val(-0.5e-6) != "-5e-7"
&& mpt::afmt::val(-0.5e-6) != "-4.9999999999999998e-7"
&& mpt::afmt::val(-0.5e-6) != "-4.9999999999999998e-07"
&& mpt::afmt::val(-0.5e-6) != "-4.9999999999999998e-007"
)
{
VERIFY_EQUAL(true, false);
}
if(mpt::afmt::val(-1.0 / 65536.0) != "-1.52587890625e-005"
&& mpt::afmt::val(-1.0 / 65536.0) != "-1.52587890625e-05"
&& mpt::afmt::val(-1.0 / 65536.0) != "-1.52587890625e-5"
)
{
VERIFY_EQUAL(true, false);
}
if(mpt::afmt::val(-1.0f / 65536.0f) != "-1.52587891e-005"
&& mpt::afmt::val(-1.0f / 65536.0f) != "-1.52587891e-05"
&& mpt::afmt::val(-1.0f / 65536.0f) != "-1.52587891e-5"
&& mpt::afmt::val(-1.0f / 65536.0f) != "-1.5258789e-005"
&& mpt::afmt::val(-1.0f / 65536.0f) != "-1.5258789e-05"
&& mpt::afmt::val(-1.0f / 65536.0f) != "-1.5258789e-5"
)
{
VERIFY_EQUAL(true, false);
}
if(mpt::afmt::val(58.65403492763) != "58.654034927630001"
&& mpt::afmt::val(58.65403492763) != "58.65403492763"
)
{
VERIFY_EQUAL(true, false);
}
VERIFY_EQUAL(mpt::afmt::flt(58.65403492763, 6), "58.654");
VERIFY_EQUAL(mpt::afmt::fix(23.42, 1), "23.4");
VERIFY_EQUAL(mpt::afmt::fix(234.2, 1), "234.2");
VERIFY_EQUAL(mpt::afmt::fix(2342.0, 1), "2342.0");
VERIFY_EQUAL(mpt::afmt::dec(2, ';', 2345678), std::string("2;34;56;78"));
VERIFY_EQUAL(mpt::afmt::dec(2, ';', 12345678), std::string("12;34;56;78"));
VERIFY_EQUAL(mpt::afmt::hex(3, ':', 0xa2345678), std::string("a2:345:678"));
VERIFY_EQUAL(mpt::ufmt::dec(2, ';', 12345678), U_("12;34;56;78"));
VERIFY_EQUAL(mpt::ufmt::hex(3, ':', 0xa2345678), U_("a2:345:678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<7>(3, ':', 0xa2345678), U_("A2:345:678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<8>(3, ':', 0xa2345678), U_("A2:345:678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<9>(3, ':', 0xa2345678), U_("0A2:345:678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<10>(3, ':', 0xa2345678), U_("0:0A2:345:678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<11>(3, ':', 0xa2345678), U_("00:0A2:345:678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<12>(3, ':', 0xa2345678), U_("000:0A2:345:678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<7>(3, ':', -0x12345678), U_("-12:345:678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<8>(3, ':', -0x12345678), U_("-12:345:678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<9>(3, ':', -0x12345678), U_("-012:345:678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<10>(3, ':', -0x12345678), U_("-0:012:345:678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<11>(3, ':', -0x12345678), U_("-00:012:345:678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<12>(3, ':', -0x12345678), U_("-000:012:345:678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<5>(3, ':', 0x345678), U_("345:678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<6>(3, ':', 0x345678), U_("345:678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<7>(3, ':', 0x345678), U_("0:345:678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<5>(3, ':', -0x345678), U_("-345:678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<6>(3, ':', -0x345678), U_("-345:678"));
VERIFY_EQUAL(mpt::ufmt::HEX0<7>(3, ':', -0x345678), U_("-0:345:678"));
VERIFY_EQUAL(mpt::afmt::left(3, "a"), "a ");
VERIFY_EQUAL(mpt::afmt::right(3, "a"), " a");
VERIFY_EQUAL(mpt::afmt::center(3, "a"), " a ");
VERIFY_EQUAL(mpt::afmt::center(4, "a"), " a ");
#if defined(MPT_WITH_MFC)
VERIFY_EQUAL(mpt::cfmt::left(3, CString(_T("a"))), CString(_T("a ")));
VERIFY_EQUAL(mpt::cfmt::right(3, CString(_T("a"))), CString(_T(" a")));
VERIFY_EQUAL(mpt::cfmt::center(3, CString(_T("a"))), CString(_T(" a ")));
VERIFY_EQUAL(mpt::cfmt::center(4, CString(_T("a"))), CString(_T(" a ")));
#endif // MPT_WITH_MFC
VERIFY_EQUAL(ConvertStrTo<uint32>("586"), 586u);
VERIFY_EQUAL(ConvertStrTo<uint32>("2147483647"), (uint32)int32_max);
VERIFY_EQUAL(ConvertStrTo<uint32>("4294967295"), uint32_max);
VERIFY_EQUAL(ConvertStrTo<int64>("-9223372036854775808"), int64_min);
VERIFY_EQUAL(ConvertStrTo<int64>("-159"), -159);
VERIFY_EQUAL(ConvertStrTo<int64>("9223372036854775807"), int64_max);
VERIFY_EQUAL(ConvertStrTo<uint64>("85059"), 85059u);
VERIFY_EQUAL(ConvertStrTo<uint64>("9223372036854775807"), (uint64)int64_max);
VERIFY_EQUAL(ConvertStrTo<uint64>("18446744073709551615"), uint64_max);
VERIFY_EQUAL(ConvertStrTo<float>("-87.0"), -87.0f);
#if !MPT_OS_DJGPP
VERIFY_EQUAL(ConvertStrTo<double>("-0.5e-6"), -0.5e-6);
#endif
#if !MPT_OS_DJGPP
VERIFY_EQUAL(ConvertStrTo<double>("58.65403492763"), 58.65403492763);
#else
VERIFY_EQUAL_EPS(ConvertStrTo<double>("58.65403492763"), 58.65403492763, 0.0001);
#endif
VERIFY_EQUAL(ConvertStrTo<float>(mpt::afmt::val(-87.0)), -87.0f);
#if !MPT_OS_DJGPP
VERIFY_EQUAL(ConvertStrTo<double>(mpt::afmt::val(-0.5e-6)), -0.5e-6);
#endif
VERIFY_EQUAL(mpt::String::Parse::Hex<unsigned char>("fe"), 254);
#if MPT_WSTRING_FORMAT
VERIFY_EQUAL(mpt::String::Parse::Hex<unsigned char>(L"fe"), 254);
#endif
VERIFY_EQUAL(mpt::String::Parse::Hex<unsigned int>(U_("ffff")), 65535);
TestFloatFormats(0.0f);
TestFloatFormats(-0.0f);
TestFloatFormats(1.0f);
TestFloatFormats(-1.0f);
TestFloatFormats(0.1f);
TestFloatFormats(-0.1f);
TestFloatFormats(1000000000.0f);
TestFloatFormats(-1000000000.0f);
TestFloatFormats(0.0000000001f);
TestFloatFormats(-0.0000000001f);
TestFloatFormats(6.12345f);
TestFloatFormats(0.0);
TestFloatFormats(-0.0);
TestFloatFormats(1.0);
TestFloatFormats(-1.0);
TestFloatFormats(0.1);
TestFloatFormats(-0.1);
TestFloatFormats(1000000000.0);
TestFloatFormats(-1000000000.0);
TestFloatFormats(0.0000000001);
TestFloatFormats(-0.0000000001);
TestFloatFormats(6.12345);
TestFloatFormats(42.1234567890);
TestFloatFormats(0.1234567890);
TestFloatFormats(1234567890000000.0);
TestFloatFormats(0.0000001234567890);
TestFloatFormats(mpt::numbers::pi);
TestFloatFormats(3.14159265358979323846);
TestFloatFormats(3.14159265358979323846f);
VERIFY_EQUAL(mpt::afmt::flt(6.12345, 3), "6.12");
VERIFY_EQUAL(mpt::afmt::fix(6.12345, 3), "6.123");
VERIFY_EQUAL(mpt::afmt::flt(6.12345, 4), "6.123");
VERIFY_EQUAL(mpt::afmt::fix(6.12345, 4), "6.1235");
#if MPT_WSTRING_FORMAT
VERIFY_EQUAL(mpt::wfmt::flt(6.12345, 3), L"6.12");
VERIFY_EQUAL(mpt::wfmt::fix(6.12345, 3), L"6.123");
VERIFY_EQUAL(mpt::wfmt::flt(6.12345, 4), L"6.123");
#endif
static_assert(mpt::parse_format_string_argument_count("") == 0);
static_assert(mpt::parse_format_string_argument_count("{{") == 0);
static_assert(mpt::parse_format_string_argument_count("}}") == 0);
static_assert(mpt::parse_format_string_argument_count("{}") == 1);
static_assert(mpt::parse_format_string_argument_count("{}{}") == 2);
static_assert(mpt::parse_format_string_argument_count("{0}{1}") == 2);
// basic
VERIFY_EQUAL(MPT_AFORMAT("{}{}{}")(1,2,3), "123");
VERIFY_EQUAL(MPT_AFORMAT("{2}{1}{0}")(1,2,3), "321");
VERIFY_EQUAL(MPT_AFORMAT("{2}{1}{0}{4}{3}{6}{5}{7}{10}{9}{8}")(0,1,2,3,4,5,6,7,8,9,"a"), "21043657a98");
//VERIFY_EQUAL(MPT_AFORMAT("{2}{1}{0}{2}{1}{0}{10}{9}{8}")(0,1,2,3,4,5,6,7,8,9,"a"), "210210a98");
#if MPT_WSTRING_FORMAT
VERIFY_EQUAL(MPT_WFORMAT("{}{}{}")(1,2,3), L"123");
#endif
// escaping behviour
VERIFY_EQUAL(MPT_AFORMAT("%")(), "%");
VERIFY_EQUAL(MPT_AFORMAT("%")(), "%");
VERIFY_EQUAL(MPT_AFORMAT("%%")(), "%%");
VERIFY_EQUAL(MPT_AFORMAT("{}")("a"), "a");
VERIFY_EQUAL(MPT_AFORMAT("{}%")("a"), "a%");
VERIFY_EQUAL(MPT_AFORMAT("{}%")("a"), "a%");
VERIFY_EQUAL(MPT_AFORMAT("{}%%")("a"), "a%%");
VERIFY_EQUAL(MPT_AFORMAT("%1")(), "%1");
VERIFY_EQUAL(MPT_AFORMAT("%{}")("a"), "%a");
VERIFY_EQUAL(MPT_AFORMAT("%b")(), "%b");
VERIFY_EQUAL(MPT_AFORMAT("{{}}")(), "{}");
VERIFY_EQUAL(MPT_AFORMAT("{{{}}}")("a"), "{a}");
#if defined(MPT_WITH_MFC)
VERIFY_EQUAL(mpt::ufmt::val(CString(_T("foobar"))), U_("foobar"));
VERIFY_EQUAL(mpt::ufmt::val(CString(_T("foobar"))), U_("foobar"));
VERIFY_EQUAL(MPT_CFORMAT("{}{}{}")(1,2,3), _T("123"));
VERIFY_EQUAL(MPT_CFORMAT("{}{}{}")(1,mpt::cfmt::dec0<3>(2),3), _T("10023"));
#endif // MPT_WITH_MFC
FlagSet<MODTYPE> foo;
foo.set(MOD_TYPE_MOD, true);
VERIFY_EQUAL(MPT_UFORMAT("{}")(foo), U_("00000000000000000000000000000001"));
}
namespace {
struct Gregorian {
int Y,M,D,h,m,s;
static Gregorian FromTM(tm t) {
Gregorian g;
g.Y = t.tm_year + 1900;
g.M = t.tm_mon + 1;
g.D = t.tm_mday;
g.h = t.tm_hour;
g.m = t.tm_min;
g.s = t.tm_sec;
return g;
}
static tm ToTM(Gregorian g) {
tm t;
MemsetZero(t);
t.tm_year = g.Y - 1900;
t.tm_mon = g.M - 1;
t.tm_mday = g.D;
t.tm_hour = g.h;
t.tm_min = g.m;
t.tm_sec = g.s;
return t;
}
};
inline bool operator ==(Gregorian a, Gregorian b) {
return a.Y == b.Y && a.M == b.M && a.D == b.D && a.h == b.h && a.m == b.m && a.s == b.s;
}
}
static int64 TestDate1(int s, int m, int h, int D, int M, int Y) {
return mpt::Date::Unix::FromUTC(Gregorian::ToTM(Gregorian{Y,M,D,h,m,s}));
}
static Gregorian TestDate2(int s, int m, int h, int D, int M, int Y) {
return Gregorian{Y,M,D,h,m,s};
}
static MPT_NOINLINE void TestMisc1()
{
VERIFY_EQUAL(ModCommand::IsPcNote(NOTE_MAX), false);
VERIFY_EQUAL(ModCommand::IsPcNote(NOTE_PC), true);
VERIFY_EQUAL(ModCommand::IsPcNote(NOTE_PCS), true);
VERIFY_EQUAL(CModSpecifications::ExtensionToType(".mod"), MOD_TYPE_MOD);
VERIFY_EQUAL(CModSpecifications::ExtensionToType("mod"), MOD_TYPE_MOD);
VERIFY_EQUAL(CModSpecifications::ExtensionToType(".s3m"), MOD_TYPE_S3M);
VERIFY_EQUAL(CModSpecifications::ExtensionToType("s3m"), MOD_TYPE_S3M);
VERIFY_EQUAL(CModSpecifications::ExtensionToType(".xm"), MOD_TYPE_XM);
VERIFY_EQUAL(CModSpecifications::ExtensionToType("xm"), MOD_TYPE_XM);
VERIFY_EQUAL(CModSpecifications::ExtensionToType(".it"), MOD_TYPE_IT);
VERIFY_EQUAL(CModSpecifications::ExtensionToType("it"), MOD_TYPE_IT);
VERIFY_EQUAL(CModSpecifications::ExtensionToType(".itp"), MOD_TYPE_NONE);
VERIFY_EQUAL(CModSpecifications::ExtensionToType("itp"), MOD_TYPE_NONE);
VERIFY_EQUAL(CModSpecifications::ExtensionToType("mptm"), MOD_TYPE_MPT);
VERIFY_EQUAL(CModSpecifications::ExtensionToType("invalidExtension"), MOD_TYPE_NONE);
VERIFY_EQUAL(CModSpecifications::ExtensionToType("ita"), MOD_TYPE_NONE);
VERIFY_EQUAL(CModSpecifications::ExtensionToType("s2m"), MOD_TYPE_NONE);
VERIFY_EQUAL(CModSpecifications::ExtensionToType(""), MOD_TYPE_NONE);
// invalid
VERIFY_EQUAL(SampleFormat::FromInt(0), SampleFormat::Invalid);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0000'11'0), SampleFormat::Invalid);
// correct
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0001'00'1), SampleFormat::Unsigned8);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0001'00'0), SampleFormat::Int8);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0010'00'0), SampleFormat::Int16);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0011'00'0), SampleFormat::Int24);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0100'00'0), SampleFormat::Int32);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0100'00'0), SampleFormat::Float32);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'1000'00'0), SampleFormat::Float64);
// no size
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0000'00'0), SampleFormat::Invalid);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0000'00'1), SampleFormat::Unsigned8);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0000'00'0), SampleFormat::Float32);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0000'00'1), SampleFormat::Invalid);
// invalid unsigned
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0010'00'1), SampleFormat::Int16);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0011'00'1), SampleFormat::Int24);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0100'00'1), SampleFormat::Int32);
// invalid float
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0001'00'0), SampleFormat::Int8);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0010'00'0), SampleFormat::Int16);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0011'00'0), SampleFormat::Int24);
// bogus size
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0001'00'0), SampleFormat::Int8);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0010'00'0), SampleFormat::Int16);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0011'00'0), SampleFormat::Int24);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0100'00'0), SampleFormat::Int32);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0101'00'0), SampleFormat::Int32);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0110'00'0), SampleFormat::Int16);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0111'00'0), SampleFormat::Int24);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'1000'00'0), SampleFormat::Float64);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'1001'00'0), SampleFormat::Float64);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'1010'00'0), SampleFormat::Int16);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'1011'00'0), SampleFormat::Int24);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'1100'00'0), SampleFormat::Int32);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'1101'00'0), SampleFormat::Int32);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'1110'00'0), SampleFormat::Int16);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'1111'00'0), SampleFormat::Int24);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0001'00'1), SampleFormat::Unsigned8);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0010'00'1), SampleFormat::Int16);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0011'00'1), SampleFormat::Int24);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0100'00'1), SampleFormat::Int32);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0101'00'1), SampleFormat::Int32);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0110'00'1), SampleFormat::Int16);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'0111'00'1), SampleFormat::Int24);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'1000'00'1), SampleFormat::Float64);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'1001'00'1), SampleFormat::Float64);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'1010'00'1), SampleFormat::Int16);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'1011'00'1), SampleFormat::Int24);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'1100'00'1), SampleFormat::Int32);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'1101'00'1), SampleFormat::Int32);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'1110'00'1), SampleFormat::Int16);
VERIFY_EQUAL(SampleFormat::FromInt(0b0'1111'00'1), SampleFormat::Int24);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0001'00'0), SampleFormat::Int8);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0010'00'0), SampleFormat::Int16);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0011'00'0), SampleFormat::Int24);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0100'00'0), SampleFormat::Float32);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0101'00'0), SampleFormat::Float32);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0110'00'0), SampleFormat::Int16);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0111'00'0), SampleFormat::Int24);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'1000'00'0), SampleFormat::Float64);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'1001'00'0), SampleFormat::Float64);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'1010'00'0), SampleFormat::Int16);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'1011'00'0), SampleFormat::Int24);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'1100'00'0), SampleFormat::Float32);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'1101'00'0), SampleFormat::Float32);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'1110'00'0), SampleFormat::Int16);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'1111'00'0), SampleFormat::Int24);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0001'00'1), SampleFormat::Unsigned8);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0010'00'1), SampleFormat::Int16);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0011'00'1), SampleFormat::Int24);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0100'00'1), SampleFormat::Float32);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0101'00'1), SampleFormat::Float32);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0110'00'1), SampleFormat::Int16);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'0111'00'1), SampleFormat::Int24);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'1000'00'1), SampleFormat::Float64);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'1001'00'1), SampleFormat::Float64);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'1010'00'1), SampleFormat::Int16);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'1011'00'1), SampleFormat::Int24);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'1100'00'1), SampleFormat::Float32);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'1101'00'1), SampleFormat::Float32);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'1110'00'1), SampleFormat::Int16);
VERIFY_EQUAL(SampleFormat::FromInt(0b1'1111'00'1), SampleFormat::Int24);
}
static MPT_NOINLINE void TestMisc2()
{
// Check for completeness of supported effect list in mod specifications
for(const auto &spec : ModSpecs::Collection)
{
VERIFY_EQUAL(strlen(spec->commands), (size_t)MAX_EFFECTS);
VERIFY_EQUAL(strlen(spec->volcommands), (size_t)MAX_VOLCMDS);
}
#ifdef MODPLUG_TRACKER
#ifdef MPT_ENABLE_FILEIO
{
std::vector<std::byte> data;
data.push_back(mpt::as_byte(0));
data.push_back(mpt::as_byte(255));
data.push_back(mpt::as_byte(1));
data.push_back(mpt::as_byte(2));
mpt::PathString fn = GetTempFilenameBase() + P_("lazy");
RemoveFile(fn);
mpt::LazyFileRef f(fn);
f = data;
std::vector<std::byte> data2;
data2 = f;
VERIFY_EQUAL(data.size(), data2.size());
for(std::size_t i = 0; i < data.size() && i < data2.size(); ++i)
{
VERIFY_EQUAL(data[i], data2[i]);
}
RemoveFile(fn);
}
#endif
#endif // MODPLUG_TRACKER
#ifdef MPT_WITH_ZLIB
VERIFY_EQUAL(crc32(0, mpt::byte_cast<const unsigned char*>(std::string("123456789").c_str()), 9), 0xCBF43926u);
#endif
#ifdef MPT_WITH_MINIZ
VERIFY_EQUAL(mz_crc32(0, mpt::byte_cast<const unsigned char*>(std::string("123456789").c_str()), 9), 0xCBF43926u);
#endif
// Check floating-point accuracy in TransposeToFrequency
static constexpr int32 transposeToFrequency[] =
{
5, 5, 5, 5,
31, 32, 33, 34,
196, 202, 207, 214,
1243, 1280, 1317, 1356,
7894, 8125, 8363, 8608,
50121, 51590, 53102, 54658,
318251, 327576, 337175, 347055,
2020767, 2079980, 2140928, 2203663,
};
int freqIndex = 0;
for(int32 transpose = -128; transpose < 128; transpose += 32)
{
for(int32 finetune = -128; finetune < 128; finetune += 64, freqIndex++)
{
const auto freq = ModSample::TransposeToFrequency(transpose, finetune);
VERIFY_EQUAL_EPS(transposeToFrequency[freqIndex], static_cast<int32>(freq), 1);
if(transpose >= -96)
{
// Verify transpose+finetune <-> frequency roundtrip
// (not for transpose = -128 because it would require fractional precision that we don't have here)
ModSample smp;
smp.nC5Speed = freq;
smp.FrequencyToTranspose();
smp.TransposeToFrequency();
VERIFY_EQUAL(freq, smp.nC5Speed);
}
}
}
{
ModSample smp;
smp.nC5Speed = 9999;
smp.Transpose(1.5);
VERIFY_EQUAL_EPS(28281, static_cast<int32>(smp.nC5Speed), 1);
smp.Transpose(-1.3);
VERIFY_EQUAL_EPS(11486, static_cast<int32>(smp.nC5Speed), 1);
}
// Check SamplePosition fixed-point type
VERIFY_EQUAL(SamplePosition(1).GetRaw(), 1);
VERIFY_EQUAL(SamplePosition(2).Set(1), SamplePosition(1, 0));
VERIFY_EQUAL(SamplePosition(2).SetInt(1), SamplePosition(1, 2));
VERIFY_EQUAL(SamplePosition(1).IsPositive(), true);
VERIFY_EQUAL(SamplePosition(0).IsZero(), true);
VERIFY_EQUAL(SamplePosition(1, 0).IsUnity(), true);
VERIFY_EQUAL(SamplePosition(1, 1).IsUnity(), false);
VERIFY_EQUAL(SamplePosition(-1).IsNegative(), true);
VERIFY_EQUAL(SamplePosition(int64_max).GetRaw(), int64_max);
VERIFY_EQUAL(SamplePosition(2, SamplePosition::fractMax).GetInt(), 2);
VERIFY_EQUAL(SamplePosition(2, SamplePosition::fractMax).GetFract(), SamplePosition::fractMax);
VERIFY_EQUAL(SamplePosition(1, SamplePosition::fractMax).GetInvertedFract(), SamplePosition(0, 1));
VERIFY_EQUAL(SamplePosition(1, 0).GetInvertedFract(), SamplePosition(1, 0));
VERIFY_EQUAL(SamplePosition(2, 0).Negate(), SamplePosition(-2, 0));
VERIFY_EQUAL(SamplePosition::Ratio(10, 5), SamplePosition(2, 0));
VERIFY_EQUAL(SamplePosition(1, 1) + SamplePosition(2, 2), SamplePosition(3, 3));
VERIFY_EQUAL(SamplePosition(1, 0) * 3, SamplePosition(3, 0));
VERIFY_EQUAL((SamplePosition(6, 0) / SamplePosition(2, 0)), 3);
VERIFY_EQUAL(srlztn::ID::FromInt(static_cast<uint32>(0x87654321u)).AsString(), srlztn::ID("\x21\x43\x65\x87").AsString());
#if defined(MODPLUG_TRACKER)
VERIFY_EQUAL(mpt::OS::Wine::Version(U_("1.1.44" )).AsString() , U_("1.1.44"));
VERIFY_EQUAL(mpt::OS::Wine::Version(U_("1.6.2" )).AsString() , U_("1.6.2" ));
VERIFY_EQUAL(mpt::OS::Wine::Version(U_("1.8" )).AsString() , U_("1.8.0" ));
VERIFY_EQUAL(mpt::OS::Wine::Version(U_("2.0-rc" )).AsString() , U_("2.0.0" ));
VERIFY_EQUAL(mpt::OS::Wine::Version(U_("2.0-rc4")).AsString() , U_("2.0.0" ));
VERIFY_EQUAL(mpt::OS::Wine::Version(U_("2.0" )).AsString() , U_("2.0.0" ));
VERIFY_EQUAL(mpt::OS::Wine::Version(U_("2.4" )).AsString() , U_("2.4.0" ));
#endif // MODPLUG_TRACKER
// date
VERIFY_EQUAL( 0, TestDate1( 0, 0, 0, 1, 1, 1970 ));
VERIFY_EQUAL( 3600, TestDate1( 0, 0, 1, 1, 1, 1970 ));
VERIFY_EQUAL( 86400, TestDate1( 0, 0, 0, 2, 1, 1970 ));
VERIFY_EQUAL( 31536000, TestDate1( 0, 0, 0, 1, 1, 1971 ));
VERIFY_EQUAL( 100000000, TestDate1( 40, 46, 9, 3, 3, 1973 ));
VERIFY_EQUAL( 951782400, TestDate1( 0, 0, 0, 29, 2, 2000 ));
VERIFY_EQUAL( 1000000000, TestDate1( 40, 46, 1, 9, 9, 2001 ));
VERIFY_EQUAL( 1044057600, TestDate1( 0, 0, 0, 1, 2, 2003 ));
VERIFY_EQUAL( 1044144000, TestDate1( 0, 0, 0, 2, 2, 2003 ));
VERIFY_EQUAL( 1046476800, TestDate1( 0, 0, 0, 1, 3, 2003 ));
VERIFY_EQUAL( 1064966400, TestDate1( 0, 0, 0, 1, 10, 2003 ));
VERIFY_EQUAL( 1077926399, TestDate1( 59, 59, 23, 27, 2, 2004 ));
VERIFY_EQUAL( 1077926400, TestDate1( 0, 0, 0, 28, 2, 2004 ));
VERIFY_EQUAL( 1077926410, TestDate1( 10, 0, 0, 28, 2, 2004 ));
VERIFY_EQUAL( 1078012799, TestDate1( 59, 59, 23, 28, 2, 2004 ));
VERIFY_EQUAL( 1078012800, TestDate1( 0, 0, 0, 29, 2, 2004 ));
VERIFY_EQUAL( 1078012820, TestDate1( 20, 0, 0, 29, 2, 2004 ));
VERIFY_EQUAL( 1078099199, TestDate1( 59, 59, 23, 29, 2, 2004 ));
VERIFY_EQUAL( 1078099200, TestDate1( 0, 0, 0, 1, 3, 2004 ));
VERIFY_EQUAL( 1078099230, TestDate1( 30, 0, 0, 1, 3, 2004 ));
VERIFY_EQUAL( 1078185599, TestDate1( 59, 59, 23, 1, 3, 2004 ));
VERIFY_EQUAL( 1096588800, TestDate1( 0, 0, 0, 1, 10, 2004 ));
VERIFY_EQUAL( 1413064016, TestDate1( 56, 46, 21, 11, 10, 2014 ));
VERIFY_EQUAL( 1413064100, TestDate1( 20, 48, 21, 11, 10, 2014 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 0).AsUTC()), TestDate2( 0, 0, 0, 1, 1, 1970 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 3600).AsUTC()), TestDate2( 0, 0, 1, 1, 1, 1970 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 86400).AsUTC()), TestDate2( 0, 0, 0, 2, 1, 1970 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 31536000).AsUTC()), TestDate2( 0, 0, 0, 1, 1, 1971 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 100000000).AsUTC()), TestDate2( 40, 46, 9, 3, 3, 1973 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 951782400).AsUTC()), TestDate2( 0, 0, 0, 29, 2, 2000 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 1000000000).AsUTC()), TestDate2( 40, 46, 1, 9, 9, 2001 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 1044057600).AsUTC()), TestDate2( 0, 0, 0, 1, 2, 2003 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 1044144000).AsUTC()), TestDate2( 0, 0, 0, 2, 2, 2003 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 1046476800).AsUTC()), TestDate2( 0, 0, 0, 1, 3, 2003 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 1064966400).AsUTC()), TestDate2( 0, 0, 0, 1, 10, 2003 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 1077926399).AsUTC()), TestDate2( 59, 59, 23, 27, 2, 2004 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 1077926400).AsUTC()), TestDate2( 0, 0, 0, 28, 2, 2004 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 1077926410).AsUTC()), TestDate2( 10, 0, 0, 28, 2, 2004 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 1078012799).AsUTC()), TestDate2( 59, 59, 23, 28, 2, 2004 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 1078012800).AsUTC()), TestDate2( 0, 0, 0, 29, 2, 2004 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 1078012820).AsUTC()), TestDate2( 20, 0, 0, 29, 2, 2004 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 1078099199).AsUTC()), TestDate2( 59, 59, 23, 29, 2, 2004 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 1078099200).AsUTC()), TestDate2( 0, 0, 0, 1, 3, 2004 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 1078099230).AsUTC()), TestDate2( 30, 0, 0, 1, 3, 2004 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 1078185599).AsUTC()), TestDate2( 59, 59, 23, 1, 3, 2004 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 1096588800).AsUTC()), TestDate2( 0, 0, 0, 1, 10, 2004 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 1413064016).AsUTC()), TestDate2( 56, 46, 21, 11, 10, 2014 ));
VERIFY_EQUAL(Gregorian::FromTM(mpt::Date::Unix( 1413064100).AsUTC()), TestDate2( 20, 48, 21, 11, 10, 2014 ));
#ifdef MODPLUG_TRACKER
// URI & HTTP
{
URI uri = ParseURI(U_("scheme://username:password@host:port/path?query#fragment"));
VERIFY_EQUAL(uri.scheme, U_("scheme"));
VERIFY_EQUAL(uri.username, U_("username"));
VERIFY_EQUAL(uri.password, U_("password"));
VERIFY_EQUAL(uri.host, U_("host"));
VERIFY_EQUAL(uri.port, U_("port"));
VERIFY_EQUAL(uri.path, U_("/path"));
VERIFY_EQUAL(uri.query, U_("query"));
VERIFY_EQUAL(uri.fragment, U_("fragment"));
}
{
URI uri = ParseURI(U_("scheme://host/path"));
VERIFY_EQUAL(uri.scheme, U_("scheme"));
VERIFY_EQUAL(uri.username, U_(""));
VERIFY_EQUAL(uri.password, U_(""));
VERIFY_EQUAL(uri.host, U_("host"));
VERIFY_EQUAL(uri.port, U_(""));
VERIFY_EQUAL(uri.path, U_("/path"));
VERIFY_EQUAL(uri.query, U_(""));
VERIFY_EQUAL(uri.fragment, U_(""));
}
{
URI uri = ParseURI(U_("scheme://host"));
VERIFY_EQUAL(uri.scheme, U_("scheme"));
VERIFY_EQUAL(uri.username, U_(""));
VERIFY_EQUAL(uri.password, U_(""));
VERIFY_EQUAL(uri.host, U_("host"));
VERIFY_EQUAL(uri.port, U_(""));
VERIFY_EQUAL(uri.path, U_(""));
VERIFY_EQUAL(uri.query, U_(""));
VERIFY_EQUAL(uri.fragment, U_(""));
}
{
URI uri = ParseURI(U_("scheme://host?query"));
VERIFY_EQUAL(uri.scheme, U_("scheme"));
VERIFY_EQUAL(uri.username, U_(""));
VERIFY_EQUAL(uri.password, U_(""));
VERIFY_EQUAL(uri.host, U_("host"));
VERIFY_EQUAL(uri.port, U_(""));
VERIFY_EQUAL(uri.path, U_(""));
VERIFY_EQUAL(uri.query, U_("query"));
VERIFY_EQUAL(uri.fragment, U_(""));
}
{
URI uri = ParseURI(U_("scheme://host#fragment"));
VERIFY_EQUAL(uri.scheme, U_("scheme"));
VERIFY_EQUAL(uri.username, U_(""));
VERIFY_EQUAL(uri.password, U_(""));
VERIFY_EQUAL(uri.host, U_("host"));
VERIFY_EQUAL(uri.port, U_(""));
VERIFY_EQUAL(uri.path, U_(""));
VERIFY_EQUAL(uri.query, U_(""));
VERIFY_EQUAL(uri.fragment, U_("fragment"));
}
{
URI uri = ParseURI(U_("scheme://host?#"));
VERIFY_EQUAL(uri.scheme, U_("scheme"));
VERIFY_EQUAL(uri.username, U_(""));
VERIFY_EQUAL(uri.password, U_(""));
VERIFY_EQUAL(uri.host, U_("host"));
VERIFY_EQUAL(uri.port, U_(""));
VERIFY_EQUAL(uri.path, U_(""));
VERIFY_EQUAL(uri.query, U_(""));
VERIFY_EQUAL(uri.fragment, U_(""));
}
{
URI uri = ParseURI(U_("scheme://host#?"));
VERIFY_EQUAL(uri.scheme, U_("scheme"));
VERIFY_EQUAL(uri.username, U_(""));
VERIFY_EQUAL(uri.password, U_(""));
VERIFY_EQUAL(uri.host, U_("host"));
VERIFY_EQUAL(uri.port, U_(""));
VERIFY_EQUAL(uri.path, U_(""));
VERIFY_EQUAL(uri.query, U_(""));
VERIFY_EQUAL(uri.fragment, U_("?"));
}
{
URI uri = ParseURI(U_("scheme://username:password@[2001:db8::1]:port/path?query#fragment"));
VERIFY_EQUAL(uri.scheme, U_("scheme"));
VERIFY_EQUAL(uri.username, U_("username"));
VERIFY_EQUAL(uri.password, U_("password"));
VERIFY_EQUAL(uri.host, U_("[2001:db8::1]"));
VERIFY_EQUAL(uri.port, U_("port"));
VERIFY_EQUAL(uri.path, U_("/path"));
VERIFY_EQUAL(uri.query, U_("query"));
VERIFY_EQUAL(uri.fragment, U_("fragment"));
}
{
URI uri = ParseURI(U_("https://john.doe@www.example.com:123/forum/questions/?tag=networking&order=newest#top"));
VERIFY_EQUAL(uri.scheme, U_("https"));
VERIFY_EQUAL(uri.username, U_("john.doe"));
VERIFY_EQUAL(uri.password, U_(""));
VERIFY_EQUAL(uri.host, U_("www.example.com"));
VERIFY_EQUAL(uri.port, U_("123"));
VERIFY_EQUAL(uri.path, U_("/forum/questions/"));
VERIFY_EQUAL(uri.query, U_("tag=networking&order=newest"));
VERIFY_EQUAL(uri.fragment, U_("top"));
}
{
URI uri = ParseURI(U_("ldap://[2001:db8::7]/c=GB?objectClass?one"));
VERIFY_EQUAL(uri.scheme, U_("ldap"));
VERIFY_EQUAL(uri.username, U_(""));
VERIFY_EQUAL(uri.password, U_(""));
VERIFY_EQUAL(uri.host, U_("[2001:db8::7]"));
VERIFY_EQUAL(uri.port, U_(""));
VERIFY_EQUAL(uri.path, U_("/c=GB"));
VERIFY_EQUAL(uri.query, U_("objectClass?one"));
VERIFY_EQUAL(uri.fragment, U_(""));
}
{
URI uri = ParseURI(U_("mailto:John.Doe@example.com"));
VERIFY_EQUAL(uri.scheme, U_("mailto"));
VERIFY_EQUAL(uri.username, U_(""));
VERIFY_EQUAL(uri.password, U_(""));
VERIFY_EQUAL(uri.host, U_(""));
VERIFY_EQUAL(uri.port, U_(""));
VERIFY_EQUAL(uri.path, U_("John.Doe@example.com"));
VERIFY_EQUAL(uri.query, U_(""));
VERIFY_EQUAL(uri.fragment, U_(""));
}
{
URI uri = ParseURI(U_("news:comp.infosystems.www.servers.unix"));
VERIFY_EQUAL(uri.scheme, U_("news"));
VERIFY_EQUAL(uri.username, U_(""));
VERIFY_EQUAL(uri.password, U_(""));
VERIFY_EQUAL(uri.host, U_(""));
VERIFY_EQUAL(uri.port, U_(""));
VERIFY_EQUAL(uri.path, U_("comp.infosystems.www.servers.unix"));
VERIFY_EQUAL(uri.query, U_(""));
VERIFY_EQUAL(uri.fragment, U_(""));
}
{
URI uri = ParseURI(U_("tel:+1-816-555-1212"));
VERIFY_EQUAL(uri.scheme, U_("tel"));
VERIFY_EQUAL(uri.username, U_(""));
VERIFY_EQUAL(uri.password, U_(""));
VERIFY_EQUAL(uri.host, U_(""));
VERIFY_EQUAL(uri.port, U_(""));
VERIFY_EQUAL(uri.path, U_("+1-816-555-1212"));
VERIFY_EQUAL(uri.query, U_(""));
VERIFY_EQUAL(uri.fragment, U_(""));
}
{
URI uri = ParseURI(U_("telnet://192.0.2.16:80/"));
VERIFY_EQUAL(uri.scheme, U_("telnet"));
VERIFY_EQUAL(uri.username, U_(""));
VERIFY_EQUAL(uri.password, U_(""));
VERIFY_EQUAL(uri.host, U_("192.0.2.16"));
VERIFY_EQUAL(uri.port, U_("80"));
VERIFY_EQUAL(uri.path, U_("/"));
VERIFY_EQUAL(uri.query, U_(""));
VERIFY_EQUAL(uri.fragment, U_(""));
}
{
URI uri = ParseURI(U_("urn:oasis:names:specification:docbook:dtd:xml:4.1.2"));
VERIFY_EQUAL(uri.scheme, U_("urn"));
VERIFY_EQUAL(uri.username, U_(""));
VERIFY_EQUAL(uri.password, U_(""));
VERIFY_EQUAL(uri.host, U_(""));
VERIFY_EQUAL(uri.port, U_(""));
VERIFY_EQUAL(uri.path, U_("oasis:names:specification:docbook:dtd:xml:4.1.2"));
VERIFY_EQUAL(uri.query, U_(""));
VERIFY_EQUAL(uri.fragment, U_(""));
}
{
HTTP::Request req;
req.SetURI(ParseURI(U_("https://host/path?a1=a&a2=b")));
VERIFY_EQUAL(req.protocol, HTTP::Protocol::HTTPS);
VERIFY_EQUAL(req.host, U_("host"));
VERIFY_EQUAL(req.path, U_("/path"));
VERIFY_EQUAL(req.query.size(), 2u);
if(req.query.size() == 2)
{
VERIFY_EQUAL(req.query[0], std::make_pair(U_("a1"), U_("a")));
VERIFY_EQUAL(req.query[1], std::make_pair(U_("a2"), U_("b")));
}
}
{
HTTP::Request req;
req.SetURI(ParseURI(U_("https://host/")));
VERIFY_EQUAL(req.protocol, HTTP::Protocol::HTTPS);
VERIFY_EQUAL(req.host, U_("host"));
VERIFY_EQUAL(req.path, U_("/"));
}
#endif // MODPLUG_TRACKER
// https://github.com/kripken/emscripten/issues/4251
#if MPT_OS_EMSCRIPTEN
volatile int transpose = 32;
volatile int finetune = 0;
float exp = (transpose * 128.0f + finetune) * (1.0f / (12.0f * 128.0f));
float f = ::powf(2.0f, exp);
double d = ::pow (2.0 , (double)exp);
VERIFY_EQUAL_EPS(d, 6.349605, 0.00001);
VERIFY_EQUAL_EPS(f, 6.349605, 0.00001);
#endif
}
static MPT_NOINLINE void TestRandom()
{
#ifdef FLAKY_TESTS
mpt::default_prng& prng = *s_PRNG;
{
std::vector<std::size_t> hist(256);
for(std::size_t i = 0; i < 256*256; ++i)
{
uint8 value = mpt::random<uint8>(prng);
hist[value] += 1;
}
for(std::size_t i = 0; i < 256; ++i)
{
VERIFY_EQUAL_QUIET_NONCONT(mpt::is_in_range(hist[i], 16u, 65520u), true);
}
}
{
std::vector<std::size_t> hist(256);
for(std::size_t i = 0; i < 256*256; ++i)
{
int8 value = mpt::random<int8>(prng);
hist[static_cast<int>(value) + 0x80] += 1;
}
for(std::size_t i = 0; i < 256; ++i)
{
VERIFY_EQUAL_QUIET_NONCONT(mpt::is_in_range(hist[i], 16u, 65520u), true);
}
}
{
std::vector<std::size_t> hist(256);
for(std::size_t i = 0; i < 256*256; ++i)
{
uint8 value = mpt::random<uint8>(prng, 1);
hist[value] += 1;
}
for(std::size_t i = 0; i < 256; ++i)
{
if(i < 2)
{
VERIFY_EQUAL_QUIET_NONCONT(mpt::is_in_range(hist[i], 16u, 65520u), true);
} else
{
VERIFY_EQUAL_QUIET_NONCONT(hist[i], 0u);
}
}
}
#endif
}
static MPT_NOINLINE void TestCharsets()
{
// Path splitting
#if defined(MODPLUG_TRACKER) && MPT_OS_WINDOWS
VERIFY_EQUAL(P_("").GetDrive(), P_(""));
VERIFY_EQUAL(P_("").GetDir(), P_(""));
VERIFY_EQUAL(P_("").GetPath(), P_(""));
VERIFY_EQUAL(P_("").GetFileName(), P_(""));
VERIFY_EQUAL(P_("").GetFileExt(), P_(""));
VERIFY_EQUAL(P_("").GetFullFileName(), P_(""));
VERIFY_EQUAL(P_("C:\\").GetDrive(), P_("C:"));
VERIFY_EQUAL(P_("C:\\").GetDir(), P_("\\"));
VERIFY_EQUAL(P_("C:\\").GetPath(), P_("C:\\"));
VERIFY_EQUAL(P_("C:\\").GetFileName(), P_(""));
VERIFY_EQUAL(P_("C:\\").GetFileExt(), P_(""));
VERIFY_EQUAL(P_("C:\\").GetFullFileName(), P_(""));
VERIFY_EQUAL(P_("\\directory\\").GetDrive(), P_(""));
VERIFY_EQUAL(P_("\\directory\\").GetDir(), P_("\\directory\\"));
VERIFY_EQUAL(P_("\\directory\\").GetPath(), P_("\\directory\\"));
VERIFY_EQUAL(P_("\\directory\\").GetFileName(), P_(""));
VERIFY_EQUAL(P_("\\directory\\").GetFileExt(), P_(""));
VERIFY_EQUAL(P_("\\directory\\").GetFullFileName(), P_(""));
VERIFY_EQUAL(P_("\\directory\\file.txt").GetDrive(), P_(""));
VERIFY_EQUAL(P_("\\directory\\file.txt").GetDir(), P_("\\directory\\"));
VERIFY_EQUAL(P_("\\directory\\file.txt").GetPath(), P_("\\directory\\"));
VERIFY_EQUAL(P_("\\directory\\file.txt").GetFileName(), P_("file"));
VERIFY_EQUAL(P_("\\directory\\file.txt").GetFileExt(), P_(".txt"));
VERIFY_EQUAL(P_("\\directory\\file.txt").GetFullFileName(), P_("file.txt"));
VERIFY_EQUAL(P_(".").GetDrive(), P_(""));
VERIFY_EQUAL(P_(".").GetDir(), P_(""));
VERIFY_EQUAL(P_(".").GetPath(), P_(""));
VERIFY_EQUAL(P_(".").GetFileName(), P_("."));
VERIFY_EQUAL(P_(".").GetFileExt(), P_(""));
VERIFY_EQUAL(P_(".").GetFullFileName(), P_("."));
VERIFY_EQUAL(P_("..").GetDrive(), P_(""));
VERIFY_EQUAL(P_("..").GetDir(), P_(""));
VERIFY_EQUAL(P_("..").GetPath(), P_(""));
VERIFY_EQUAL(P_("..").GetFileName(), P_(".."));
VERIFY_EQUAL(P_("..").GetFileExt(), P_(""));
VERIFY_EQUAL(P_("..").GetFullFileName(), P_(".."));
VERIFY_EQUAL(P_("dir\\.").GetDrive(), P_(""));
VERIFY_EQUAL(P_("dir\\.").GetDir(), P_("dir\\"));
VERIFY_EQUAL(P_("dir\\.").GetPath(), P_("dir\\"));
VERIFY_EQUAL(P_("dir\\.").GetFileName(), P_("."));
VERIFY_EQUAL(P_("dir\\.").GetFileExt(), P_(""));
VERIFY_EQUAL(P_("dir\\.").GetFullFileName(), P_("."));
VERIFY_EQUAL(P_("dir\\..").GetDrive(), P_(""));
VERIFY_EQUAL(P_("dir\\..").GetDir(), P_("dir\\"));
VERIFY_EQUAL(P_("dir\\..").GetPath(), P_("dir\\"));
VERIFY_EQUAL(P_("dir\\..").GetFileName(), P_(".."));
VERIFY_EQUAL(P_("dir\\..").GetFileExt(), P_(""));
VERIFY_EQUAL(P_("dir\\..").GetFullFileName(), P_(".."));
VERIFY_EQUAL(P_(".txt").GetDrive(), P_(""));
VERIFY_EQUAL(P_(".txt").GetDir(), P_(""));
VERIFY_EQUAL(P_(".txt").GetPath(), P_(""));
VERIFY_EQUAL(P_(".txt").GetFileName(), P_(".txt"));
VERIFY_EQUAL(P_(".txt").GetFileExt(), P_(""));
VERIFY_EQUAL(P_(".txt").GetFullFileName(), P_(".txt"));
VERIFY_EQUAL(P_("C:tmp.txt").GetDrive(), P_("C:"));
VERIFY_EQUAL(P_("C:tmp.txt").GetDir(), P_(""));
VERIFY_EQUAL(P_("C:tmp.txt").GetPath(), P_("C:"));
VERIFY_EQUAL(P_("C:tmp.txt").GetFileName(), P_("tmp"));
VERIFY_EQUAL(P_("C:tmp.txt").GetFileExt(), P_(".txt"));
VERIFY_EQUAL(P_("C:tmp.txt").GetFullFileName(), P_("tmp.txt"));
VERIFY_EQUAL(P_("C:tempdir\\tmp.txt").GetDrive(), P_("C:"));
VERIFY_EQUAL(P_("C:tempdir\\tmp.txt").GetDir(), P_("tempdir\\"));
VERIFY_EQUAL(P_("C:tempdir\\tmp.txt").GetPath(), P_("C:tempdir\\"));
VERIFY_EQUAL(P_("C:tempdir\\tmp.txt").GetFileName(), P_("tmp"));
VERIFY_EQUAL(P_("C:tempdir\\tmp.txt").GetFileExt(), P_(".txt"));
VERIFY_EQUAL(P_("C:tempdir\\tmp.txt").GetFullFileName(), P_("tmp.txt"));
VERIFY_EQUAL(P_("C:\\tempdir\\tmp.txt").GetDrive(), P_("C:"));
VERIFY_EQUAL(P_("C:\\tempdir\\tmp.txt").GetDir(), P_("\\tempdir\\"));
VERIFY_EQUAL(P_("C:\\tempdir\\tmp.txt").GetPath(), P_("C:\\tempdir\\"));
VERIFY_EQUAL(P_("C:\\tempdir\\tmp.txt").GetFileName(), P_("tmp"));
VERIFY_EQUAL(P_("C:\\tempdir\\tmp.txt").GetFileExt(), P_(".txt"));
VERIFY_EQUAL(P_("C:\\tempdir\\tmp.txt").GetFullFileName(), P_("tmp.txt"));
VERIFY_EQUAL(P_("C:\\tempdir\\tmp.foo.txt").GetFileName(), P_("tmp.foo"));
VERIFY_EQUAL(P_("C:\\tempdir\\tmp.foo.txt").GetFileExt(), P_(".txt"));
VERIFY_EQUAL(P_("\\\\server").GetDrive(), P_("\\\\server"));
VERIFY_EQUAL(P_("\\\\server").GetDir(), P_(""));
VERIFY_EQUAL(P_("\\\\server").GetPath(), P_("\\\\server"));
VERIFY_EQUAL(P_("\\\\server").GetFileName(), P_(""));
VERIFY_EQUAL(P_("\\\\server").GetFileExt(), P_(""));
VERIFY_EQUAL(P_("\\\\server").GetFullFileName(), P_(""));
VERIFY_EQUAL(P_("\\\\server\\").GetDrive(), P_("\\\\server\\"));
VERIFY_EQUAL(P_("\\\\server\\").GetDir(), P_(""));
VERIFY_EQUAL(P_("\\\\server\\").GetPath(), P_("\\\\server\\"));
VERIFY_EQUAL(P_("\\\\server\\").GetFileName(), P_(""));
VERIFY_EQUAL(P_("\\\\server\\").GetFileExt(), P_(""));
VERIFY_EQUAL(P_("\\\\server\\").GetFullFileName(), P_(""));
VERIFY_EQUAL(P_("\\\\server\\share").GetDrive(), P_("\\\\server\\share"));
VERIFY_EQUAL(P_("\\\\server\\share").GetDir(), P_(""));
VERIFY_EQUAL(P_("\\\\server\\share").GetPath(), P_("\\\\server\\share"));
VERIFY_EQUAL(P_("\\\\server\\share").GetFileName(), P_(""));
VERIFY_EQUAL(P_("\\\\server\\share").GetFileExt(), P_(""));
VERIFY_EQUAL(P_("\\\\server\\share").GetFullFileName(), P_(""));
VERIFY_EQUAL(P_("\\\\server\\share\\").GetDrive(), P_("\\\\server\\share"));
VERIFY_EQUAL(P_("\\\\server\\share\\").GetDir(), P_("\\"));
VERIFY_EQUAL(P_("\\\\server\\share\\").GetPath(), P_("\\\\server\\share\\"));
VERIFY_EQUAL(P_("\\\\server\\share\\").GetFileName(), P_(""));
VERIFY_EQUAL(P_("\\\\server\\share\\").GetFileExt(), P_(""));
VERIFY_EQUAL(P_("\\\\server\\share\\").GetFullFileName(), P_(""));
VERIFY_EQUAL(P_("\\\\server\\share\\dir1\\dir2\\name.foo.ext").GetDrive(), P_("\\\\server\\share"));
VERIFY_EQUAL(P_("\\\\server\\share\\dir1\\dir2\\name.foo.ext").GetDir(), P_("\\dir1\\dir2\\"));
VERIFY_EQUAL(P_("\\\\server\\share\\dir1\\dir2\\name.foo.ext").GetPath(), P_("\\\\server\\share\\dir1\\dir2\\"));
VERIFY_EQUAL(P_("\\\\server\\share\\dir1\\dir2\\name.foo.ext").GetFileName(), P_("name.foo"));
VERIFY_EQUAL(P_("\\\\server\\share\\dir1\\dir2\\name.foo.ext").GetFileExt(), P_(".ext"));
VERIFY_EQUAL(P_("\\\\server\\share\\dir1\\dir2\\name.foo.ext").GetFullFileName(), P_("name.foo.ext"));
VERIFY_EQUAL(P_("\\\\?\\C:\\tempdir\\dir.2\\tmp.foo.txt").GetDrive(), P_("C:"));
VERIFY_EQUAL(P_("\\\\?\\C:\\tempdir\\dir.2\\tmp.foo.txt").GetDir(), P_("\\tempdir\\dir.2\\"));
VERIFY_EQUAL(P_("\\\\?\\C:\\tempdir\\dir.2\\tmp.foo.txt").GetPath(), P_("C:\\tempdir\\dir.2\\"));
VERIFY_EQUAL(P_("\\\\?\\C:\\tempdir\\dir.2\\tmp.foo.txt").GetFileName(), P_("tmp.foo"));
VERIFY_EQUAL(P_("\\\\?\\C:\\tempdir\\dir.2\\tmp.foo.txt").GetFileExt(), P_(".txt"));
VERIFY_EQUAL(P_("\\\\?\\C:\\tempdir\\dir.2\\tmp.foo.txt").GetFullFileName(), P_("tmp.foo.txt"));
VERIFY_EQUAL(P_("\\\\?\\UNC\\server\\share\\dir1\\dir2\\name.foo.ext").GetDrive(), P_("\\\\server\\share"));
VERIFY_EQUAL(P_("\\\\?\\UNC\\server\\share\\dir1\\dir2\\name.foo.ext").GetDir(), P_("\\dir1\\dir2\\"));
VERIFY_EQUAL(P_("\\\\?\\UNC\\server\\share\\dir1\\dir2\\name.foo.ext").GetPath(), P_("\\\\server\\share\\dir1\\dir2\\"));
VERIFY_EQUAL(P_("\\\\?\\UNC\\server\\share\\dir1\\dir2\\name.foo.ext").GetFileName(), P_("name.foo"));
VERIFY_EQUAL(P_("\\\\?\\UNC\\server\\share\\dir1\\dir2\\name.foo.ext").GetFileExt(), P_(".ext"));
VERIFY_EQUAL(P_("\\\\?\\UNC\\server\\share\\dir1\\dir2\\name.foo.ext").GetFullFileName(), P_("name.foo.ext"));
#endif
// Path conversions
#ifdef MODPLUG_TRACKER
const mpt::PathString exePath = P_("C:\\OpenMPT\\");
VERIFY_EQUAL(P_("C:\\OpenMPT\\").AbsolutePathToRelative(exePath), P_(".\\"));
VERIFY_EQUAL(P_("c:\\OpenMPT\\foo").AbsolutePathToRelative(exePath), P_(".\\foo"));
VERIFY_EQUAL(P_("C:\\foo").AbsolutePathToRelative(exePath), P_("\\foo"));
VERIFY_EQUAL(P_(".\\").RelativePathToAbsolute(exePath), P_("C:\\OpenMPT\\"));
VERIFY_EQUAL(P_(".\\foo").RelativePathToAbsolute(exePath), P_("C:\\OpenMPT\\foo"));
VERIFY_EQUAL(P_("\\foo").RelativePathToAbsolute(exePath), P_("C:\\foo"));
VERIFY_EQUAL(P_("\\\\server\\path\\file").AbsolutePathToRelative(exePath), P_("\\\\server\\path\\file"));
VERIFY_EQUAL(P_("\\\\server\\path\\file").RelativePathToAbsolute(exePath), P_("\\\\server\\path\\file"));
VERIFY_EQUAL(P_("").Simplify(), P_(""));
VERIFY_EQUAL(P_(" ").Simplify(), P_(" "));
VERIFY_EQUAL(P_("foo\\bar").Simplify(), P_("foo\\bar"));
VERIFY_EQUAL(P_(".\\foo\\bar").Simplify(), P_(".\\foo\\bar"));
VERIFY_EQUAL(P_(".\\\\foo\\bar").Simplify(), P_(".\\foo\\bar"));
VERIFY_EQUAL(P_("./\\foo\\bar").Simplify(), P_(".\\foo\\bar"));
VERIFY_EQUAL(P_("\\foo\\bar").Simplify(), P_("\\foo\\bar"));
VERIFY_EQUAL(P_("A:\\name_1\\.\\name_2\\..\\name_3\\").Simplify(), P_("A:\\name_1\\name_3"));
VERIFY_EQUAL(P_("A:\\name_1\\..\\name_2\\./name_3").Simplify(), P_("A:\\name_2\\name_3"));
VERIFY_EQUAL(P_("A:\\name_1\\.\\name_2\\.\\name_3\\..\\name_4\\..").Simplify(), P_("A:\\name_1\\name_2"));
VERIFY_EQUAL(P_("A:foo\\\\bar").Simplify(), P_("A:\\foo\\bar"));
VERIFY_EQUAL(P_("C:\\..").Simplify(), P_("C:\\"));
VERIFY_EQUAL(P_("C:\\.").Simplify(), P_("C:\\"));
VERIFY_EQUAL(P_("\\\\foo\\..\\.bar").Simplify(), P_("\\\\.bar"));
VERIFY_EQUAL(P_("\\\\foo\\..\\..\\bar").Simplify(), P_("\\\\bar"));
#endif
#ifdef MODPLUG_TRACKER
#if MPT_COMPILER_MSVC
// Tracker code currently relies on BROKEN MSVC behaviour with respect to %s
// handling in printf functions when the target is a wide string.
// Ensure that Microsoft KEEPS this BROKEN behavour (it conflicts with C99 and
// C++11 demanded semantics.
// Additionally, the tracker code makes use of %hs and %ls which are the only
// way to unconditionally expect narrow or wide string parameters
// respectively; %ls is standard conforming, %hs is a Microsoft extension.
// We check all possible combinations and expect Microsoft-style behaviour
// here.
char src_char[256];
wchar_t src_wchar_t[256];
TCHAR src_TCHAR[256];
char dst_char[256];
wchar_t dst_wchar_t[256];
TCHAR dst_TCHAR[256];
MemsetZero(src_char);
MemsetZero(src_wchar_t);
MemsetZero(src_TCHAR);
strcpy(src_char, "ab");
wcscpy(src_wchar_t, L"ab");
_tcscpy(src_TCHAR, _T("ab"));
#define MPT_TEST_PRINTF(dst_type, function, format, src_type) \
do { \
MemsetZero(dst_ ## dst_type); \
function(dst_ ## dst_type, format, src_ ## src_type); \
VERIFY_EQUAL(std::char_traits< dst_type >::compare(dst_ ## dst_type, src_ ## dst_type, std::char_traits< dst_type >::length( src_ ## dst_type ) + 1), 0); \
} while(0) \
/**/
#define MPT_TEST_PRINTF_N(dst_type, function, format, src_type) \
do { \
MemsetZero(dst_ ## dst_type); \
function(dst_ ## dst_type, 255, format, src_ ## src_type); \
VERIFY_EQUAL(std::char_traits< dst_type >::compare(dst_ ## dst_type, src_ ## dst_type, std::char_traits< dst_type >::length( src_ ## dst_type ) + 1), 0); \
} while(0) \
/**/
// CRT narrow
MPT_TEST_PRINTF(char, sprintf, "%s", char);
MPT_TEST_PRINTF(char, sprintf, "%S", wchar_t);
MPT_TEST_PRINTF(char, sprintf, "%hs", char);
MPT_TEST_PRINTF(char, sprintf, "%hS", char);
MPT_TEST_PRINTF(char, sprintf, "%ls", wchar_t);
MPT_TEST_PRINTF(char, sprintf, "%lS", wchar_t);
MPT_TEST_PRINTF(char, sprintf, "%ws", wchar_t);
MPT_TEST_PRINTF(char, sprintf, "%wS", wchar_t);
// CRT wide
MPT_TEST_PRINTF_N(wchar_t, swprintf, L"%s", wchar_t);
MPT_TEST_PRINTF_N(wchar_t, swprintf, L"%S", char);
MPT_TEST_PRINTF_N(wchar_t, swprintf, L"%hs", char);
MPT_TEST_PRINTF_N(wchar_t, swprintf, L"%hS", char);
MPT_TEST_PRINTF_N(wchar_t, swprintf, L"%ls", wchar_t);
MPT_TEST_PRINTF_N(wchar_t, swprintf, L"%lS", wchar_t);
MPT_TEST_PRINTF_N(wchar_t, swprintf, L"%ws", wchar_t);
MPT_TEST_PRINTF_N(wchar_t, swprintf, L"%wS", wchar_t);
// WinAPI TCHAR
MPT_TEST_PRINTF(TCHAR, wsprintf, _T("%s"), TCHAR);
MPT_TEST_PRINTF(TCHAR, wsprintf, _T("%hs"), char);
MPT_TEST_PRINTF(TCHAR, wsprintf, _T("%hS"), char);
MPT_TEST_PRINTF(TCHAR, wsprintf, _T("%ls"), wchar_t);
MPT_TEST_PRINTF(TCHAR, wsprintf, _T("%lS"), wchar_t);
// WinAPI CHAR
MPT_TEST_PRINTF(char, wsprintfA, "%s", char);
MPT_TEST_PRINTF(char, wsprintfA, "%S", wchar_t);
MPT_TEST_PRINTF(char, wsprintfA, "%hs", char);
MPT_TEST_PRINTF(char, wsprintfA, "%hS", char);
MPT_TEST_PRINTF(char, wsprintfA, "%ls", wchar_t);
MPT_TEST_PRINTF(char, wsprintfA, "%lS", wchar_t);
// WinAPI WCHAR
MPT_TEST_PRINTF(wchar_t, wsprintfW, L"%s", wchar_t);
MPT_TEST_PRINTF(wchar_t, wsprintfW, L"%S", char);
MPT_TEST_PRINTF(wchar_t, wsprintfW, L"%hs", char);
MPT_TEST_PRINTF(wchar_t, wsprintfW, L"%hS", char);
MPT_TEST_PRINTF(wchar_t, wsprintfW, L"%ls", wchar_t);
MPT_TEST_PRINTF(wchar_t, wsprintfW, L"%lS", wchar_t);
#undef MPT_TEST_PRINTF
#undef MPT_TEST_PRINTF_n
#endif
#endif
VERIFY_EQUAL(mpt::CompareNoCaseAscii("f", "f", 6) == 0, true);
VERIFY_EQUAL(mpt::CompareNoCaseAscii("f", "F", 6) == 0, true);
VERIFY_EQUAL(mpt::CompareNoCaseAscii("F", "f", 6) == 0, true);
VERIFY_EQUAL(mpt::CompareNoCaseAscii("f", "g", 6) < 0, true);
VERIFY_EQUAL(mpt::CompareNoCaseAscii("h", "g", 6) > 0, true);
VERIFY_EQUAL(mpt::CompareNoCaseAscii("fgh", "FgH", 6) == 0, true);
VERIFY_EQUAL(mpt::CompareNoCaseAscii("012345678", "012345678", 9) == 0, true);
VERIFY_EQUAL(mpt::CompareNoCaseAscii("", "012345678", 9) < 0, true);
VERIFY_EQUAL(mpt::CompareNoCaseAscii("FgH", "", 6) > 0, true);
VERIFY_EQUAL(mpt::CompareNoCaseAscii("FgH", "F", 6) > 0, true);
VERIFY_EQUAL(mpt::CompareNoCaseAscii("FgH", "Fg", 6) > 0, true);
VERIFY_EQUAL(mpt::CompareNoCaseAscii("FgH", "fg", 6) > 0, true);
VERIFY_EQUAL(mpt::CompareNoCaseAscii("0123456789", "FgH", 0) == 0, true);
VERIFY_EQUAL(mpt::CompareNoCaseAscii("FgH", "fgh", 1) == 0, true);
VERIFY_EQUAL(mpt::CompareNoCaseAscii("FgH", "fgh", 2) == 0, true);
VERIFY_EQUAL(mpt::CompareNoCaseAscii("FgH", "fgh", 3) == 0, true);
VERIFY_EQUAL(mpt::CompareNoCaseAscii("FgH", "fghi", 3) == 0, true);
VERIFY_EQUAL(mpt::CompareNoCaseAscii("FgH", "fghi", 4) < 0, true);
VERIFY_EQUAL(mpt::CompareNoCaseAscii("FIH", "fghi", 1) == 0, true);
VERIFY_EQUAL(mpt::CompareNoCaseAscii("FIH", "fghi", 2) > 0, true);
}
#ifdef MODPLUG_TRACKER
struct CustomSettingsTestType
{
float x;
float y;
CustomSettingsTestType(float x_ = 0.0f, float y_ = 0.0f) : x(x_), y(y_) { }
};
} // namespace Test
template <>
inline Test::CustomSettingsTestType FromSettingValue(const SettingValue &val)
{
MPT_ASSERT(val.GetTypeTag() == "myType");
mpt::ustring xy = val.as<mpt::ustring>();
if(xy.empty())
{
return Test::CustomSettingsTestType(0.0f, 0.0f);
}
std::size_t pos = xy.find(U_("|"));
mpt::ustring x = xy.substr(0, pos);
mpt::ustring y = xy.substr(pos + 1);
return Test::CustomSettingsTestType(ConvertStrTo<float>(x), ConvertStrTo<float>(y));
}
template <>
inline SettingValue ToSettingValue(const Test::CustomSettingsTestType &val)
{
return SettingValue(mpt::ufmt::val(val.x) + U_("|") + mpt::ufmt::val(val.y), "myType");
}
namespace Test {
#endif // MODPLUG_TRACKER
static MPT_NOINLINE void TestSettings()
{
#ifdef MODPLUG_TRACKER
VERIFY_EQUAL(SettingPath(U_("a"),U_("b")) < SettingPath(U_("a"),U_("c")), true);
VERIFY_EQUAL(!(SettingPath(U_("c"),U_("b")) < SettingPath(U_("a"),U_("c"))), true);
{
DefaultSettingsContainer conf;
int32 foobar = conf.Read(U_("Test"), U_("bar"), 23);
conf.Write(U_("Test"), U_("bar"), 64);
conf.Write(U_("Test"), U_("bar"), 42);
conf.Read(U_("Test"), U_("baz"), 4711);
foobar = conf.Read(U_("Test"), U_("bar"), 28);
}
{
DefaultSettingsContainer conf;
int32 foobar = conf.Read(U_("Test"), U_("bar"), 28);
VERIFY_EQUAL(foobar, 42);
conf.Write(U_("Test"), U_("bar"), 43);
}
{
DefaultSettingsContainer conf;
int32 foobar = conf.Read(U_("Test"), U_("bar"), 123);
VERIFY_EQUAL(foobar, 43);
conf.Write(U_("Test"), U_("bar"), 88);
}
{
DefaultSettingsContainer conf;
Setting<int> foo(conf, U_("Test"), U_("bar"), 99);
VERIFY_EQUAL(foo, 88);
foo = 7;
}
{
DefaultSettingsContainer conf;
Setting<int> foo(conf, U_("Test"), U_("bar"), 99);
VERIFY_EQUAL(foo, 7);
}
{
DefaultSettingsContainer conf;
conf.Read(U_("Test"), U_("struct"), std::string(""));
conf.Write(U_("Test"), U_("struct"), std::string(""));
}
{
DefaultSettingsContainer conf;
CustomSettingsTestType dummy = conf.Read(U_("Test"), U_("struct"), CustomSettingsTestType(1.0f, 1.0f));
dummy = CustomSettingsTestType(0.125f, 32.0f);
conf.Write(U_("Test"), U_("struct"), dummy);
}
{
DefaultSettingsContainer conf;
Setting<CustomSettingsTestType> dummyVar(conf, U_("Test"), U_("struct"), CustomSettingsTestType(1.0f, 1.0f));
CustomSettingsTestType dummy = dummyVar;
VERIFY_EQUAL(dummy.x, 0.125f);
VERIFY_EQUAL(dummy.y, 32.0f);
}
#endif // MODPLUG_TRACKER
}
// Test MIDI Event generating / reading
static MPT_NOINLINE void TestMIDIEvents()
{
uint32 midiEvent;
midiEvent = MIDIEvents::CC(MIDIEvents::MIDICC_Balance_Coarse, 13, 40);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetTypeFromEvent(midiEvent), MIDIEvents::evControllerChange);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetChannelFromEvent(midiEvent), 13);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetDataByte1FromEvent(midiEvent), MIDIEvents::MIDICC_Balance_Coarse);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetDataByte2FromEvent(midiEvent), 40);
midiEvent = MIDIEvents::NoteOn(10, 50, 120);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetTypeFromEvent(midiEvent), MIDIEvents::evNoteOn);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetChannelFromEvent(midiEvent), 10);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetDataByte1FromEvent(midiEvent), 50);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetDataByte2FromEvent(midiEvent), 120);
midiEvent = MIDIEvents::NoteOff(15, 127, 42);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetTypeFromEvent(midiEvent), MIDIEvents::evNoteOff);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetChannelFromEvent(midiEvent), 15);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetDataByte1FromEvent(midiEvent), 127);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetDataByte2FromEvent(midiEvent), 42);
midiEvent = MIDIEvents::ProgramChange(1, 127);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetTypeFromEvent(midiEvent), MIDIEvents::evProgramChange);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetChannelFromEvent(midiEvent), 1);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetDataByte1FromEvent(midiEvent), 127);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetDataByte2FromEvent(midiEvent), 0);
midiEvent = MIDIEvents::PitchBend(2, MIDIEvents::pitchBendCentre);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetTypeFromEvent(midiEvent), MIDIEvents::evPitchBend);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetChannelFromEvent(midiEvent), 2);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetDataByte1FromEvent(midiEvent), 0x00);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetDataByte2FromEvent(midiEvent), 0x40);
midiEvent = MIDIEvents::System(MIDIEvents::sysStart);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetTypeFromEvent(midiEvent), MIDIEvents::evSystem);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetChannelFromEvent(midiEvent), MIDIEvents::sysStart);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetDataByte1FromEvent(midiEvent), 0);
VERIFY_EQUAL_NONCONT(MIDIEvents::GetDataByte2FromEvent(midiEvent), 0);
}
// Check if our test file was loaded correctly.
static void TestLoadXMFile(const CSoundFile &sndFile)
{
#ifdef MODPLUG_TRACKER
const CModDoc *pModDoc = sndFile.GetpModDoc();
VERIFY_EQUAL_NONCONT(pModDoc->IsChannelUnused(0), true);
VERIFY_EQUAL_NONCONT(pModDoc->IsChannelUnused(1), false);
#endif // MODPLUG_TRACKER
// Global Variables
VERIFY_EQUAL_NONCONT(sndFile.GetTitle(), "Test Module");
VERIFY_EQUAL_NONCONT(sndFile.m_songMessage.substr(0, 32), "OpenMPT Module Loader Test Suite");
VERIFY_EQUAL_NONCONT(sndFile.m_nDefaultTempo, TEMPO(139, 0));
VERIFY_EQUAL_NONCONT(sndFile.m_nDefaultSpeed, 5);
VERIFY_EQUAL_NONCONT(sndFile.m_nDefaultGlobalVolume, 128);
VERIFY_EQUAL_NONCONT(sndFile.m_nVSTiVolume, 42);
VERIFY_EQUAL_NONCONT(sndFile.m_nSamplePreAmp, 23);
VERIFY_EQUAL_NONCONT((sndFile.m_SongFlags & SONG_FILE_FLAGS), SONG_LINEARSLIDES | SONG_EXFILTERRANGE);
VERIFY_EQUAL_NONCONT(sndFile.m_playBehaviour[MSF_COMPATIBLE_PLAY], true);
VERIFY_EQUAL_NONCONT(sndFile.m_playBehaviour[kMIDICCBugEmulation], false);
VERIFY_EQUAL_NONCONT(sndFile.m_playBehaviour[kMPTOldSwingBehaviour], false);
VERIFY_EQUAL_NONCONT(sndFile.m_playBehaviour[kOldMIDIPitchBends], false);
VERIFY_EQUAL_NONCONT(sndFile.GetMixLevels(), MixLevels::Compatible);
VERIFY_EQUAL_NONCONT(sndFile.m_nTempoMode, TempoMode::Modern);
VERIFY_EQUAL_NONCONT(sndFile.m_nDefaultRowsPerBeat, 6);
VERIFY_EQUAL_NONCONT(sndFile.m_nDefaultRowsPerMeasure, 12);
VERIFY_EQUAL_NONCONT(sndFile.m_dwCreatedWithVersion, MPT_V("1.19.02.05"));
VERIFY_EQUAL_NONCONT(sndFile.Order().GetRestartPos(), 1);
// Macros
VERIFY_EQUAL_NONCONT(sndFile.m_MidiCfg.GetParameteredMacroType(0), kSFxReso);
VERIFY_EQUAL_NONCONT(sndFile.m_MidiCfg.GetParameteredMacroType(1), kSFxDryWet);
VERIFY_EQUAL_NONCONT(sndFile.m_MidiCfg.GetFixedMacroType(), kZxxResoFltMode);
// Channels
VERIFY_EQUAL_NONCONT(sndFile.GetNumChannels(), 2);
VERIFY_EQUAL_NONCONT((sndFile.ChnSettings[0].szName == "First Channel"), true);
#ifndef NO_PLUGINS
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[0].nMixPlugin, 0);
#endif // NO_PLUGINS
VERIFY_EQUAL_NONCONT((sndFile.ChnSettings[1].szName == "Second Channel"), true);
#ifndef NO_PLUGINS
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[1].nMixPlugin, 1);
#endif // NO_PLUGINS
// Samples
VERIFY_EQUAL_NONCONT(sndFile.GetNumSamples(), 3);
VERIFY_EQUAL_NONCONT((sndFile.m_szNames[1] == "Pulse Sample"), true);
VERIFY_EQUAL_NONCONT((sndFile.m_szNames[2] == "Empty Sample"), true);
VERIFY_EQUAL_NONCONT((sndFile.m_szNames[3] == "Unassigned Sample"), true);
#ifdef MODPLUG_TRACKER
VERIFY_EQUAL_NONCONT(pModDoc->FindSampleParent(1), 1);
VERIFY_EQUAL_NONCONT(pModDoc->FindSampleParent(2), 1);
VERIFY_EQUAL_NONCONT(pModDoc->FindSampleParent(3), INSTRUMENTINDEX_INVALID);
#endif // MODPLUG_TRACKER
const ModSample &sample = sndFile.GetSample(1);
VERIFY_EQUAL_NONCONT(sample.GetBytesPerSample(), 1);
VERIFY_EQUAL_NONCONT(sample.GetNumChannels(), 1);
VERIFY_EQUAL_NONCONT(sample.GetElementarySampleSize(), 1);
VERIFY_EQUAL_NONCONT(sample.GetSampleSizeInBytes(), 16);
VERIFY_EQUAL_NONCONT(sample.nFineTune, 35);
VERIFY_EQUAL_NONCONT(sample.RelativeTone, 1);
VERIFY_EQUAL_NONCONT(sample.nVolume, 32 * 4);
VERIFY_EQUAL_NONCONT(sample.nGlobalVol, 64);
VERIFY_EQUAL_NONCONT(sample.nPan, 160);
VERIFY_EQUAL_NONCONT(sample.uFlags, CHN_PANNING | CHN_LOOP | CHN_PINGPONGLOOP);
VERIFY_EQUAL_NONCONT(sample.nLoopStart, 1);
VERIFY_EQUAL_NONCONT(sample.nLoopEnd, 8);
VERIFY_EQUAL_NONCONT(sample.nVibType, VIB_SQUARE);
VERIFY_EQUAL_NONCONT(sample.nVibSweep, 3);
VERIFY_EQUAL_NONCONT(sample.nVibRate, 4);
VERIFY_EQUAL_NONCONT(sample.nVibDepth, 5);
// Sample Data
for(size_t i = 0; i < 6; i++)
{
VERIFY_EQUAL_NONCONT(sample.sample8()[i], 18);
}
for(size_t i = 6; i < 16; i++)
{
VERIFY_EQUAL_NONCONT(sample.sample8()[i], 0);
}
// Instruments
VERIFY_EQUAL_NONCONT(sndFile.GetNumInstruments(), 1);
const ModInstrument *pIns = sndFile.Instruments[1];
VERIFY_EQUAL_NONCONT(pIns->nFadeOut, 1024);
VERIFY_EQUAL_NONCONT(pIns->nPan, 128);
VERIFY_EQUAL_NONCONT(pIns->dwFlags, InstrumentFlags(0));
VERIFY_EQUAL_NONCONT(pIns->nPPS, 0);
VERIFY_EQUAL_NONCONT(pIns->nPPC, NOTE_MIDDLEC - 1);
VERIFY_EQUAL_NONCONT(pIns->nVolRampUp, 1200);
VERIFY_EQUAL_NONCONT(pIns->resampling, SRCMODE_SINC8LP);
VERIFY_EQUAL_NONCONT(pIns->IsCutoffEnabled(), false);
VERIFY_EQUAL_NONCONT(pIns->GetCutoff(), 0);
VERIFY_EQUAL_NONCONT(pIns->IsResonanceEnabled(), false);
VERIFY_EQUAL_NONCONT(pIns->GetResonance(), 0);
VERIFY_EQUAL_NONCONT(pIns->filterMode, FilterMode::Unchanged);
VERIFY_EQUAL_NONCONT(pIns->nVolSwing, 0);
VERIFY_EQUAL_NONCONT(pIns->nPanSwing, 0);
VERIFY_EQUAL_NONCONT(pIns->nCutSwing, 0);
VERIFY_EQUAL_NONCONT(pIns->nResSwing, 0);
VERIFY_EQUAL_NONCONT(pIns->nNNA, NewNoteAction::NoteCut);
VERIFY_EQUAL_NONCONT(pIns->nDCT, DuplicateCheckType::None);
VERIFY_EQUAL_NONCONT(pIns->nMixPlug, 1);
VERIFY_EQUAL_NONCONT(pIns->nMidiChannel, 16);
VERIFY_EQUAL_NONCONT(pIns->nMidiProgram, 64);
VERIFY_EQUAL_NONCONT(pIns->wMidiBank, 2);
VERIFY_EQUAL_NONCONT(pIns->midiPWD, 8);
VERIFY_EQUAL_NONCONT(pIns->pTuning, sndFile.GetDefaultTuning());
VERIFY_EQUAL_NONCONT(pIns->pitchToTempoLock, TEMPO(0, 0));
VERIFY_EQUAL_NONCONT(pIns->pluginVelocityHandling, PLUGIN_VELOCITYHANDLING_VOLUME);
VERIFY_EQUAL_NONCONT(pIns->pluginVolumeHandling, PLUGIN_VOLUMEHANDLING_MIDI);
for(size_t i = sndFile.GetModSpecifications().noteMin; i < sndFile.GetModSpecifications().noteMax; i++)
{
VERIFY_EQUAL_NONCONT(pIns->Keyboard[i], (i == NOTE_MIDDLEC - 1) ? 2 : 1);
}
VERIFY_EQUAL_NONCONT(pIns->VolEnv.dwFlags, ENV_ENABLED | ENV_SUSTAIN);
VERIFY_EQUAL_NONCONT(pIns->VolEnv.size(), 3);
VERIFY_EQUAL_NONCONT(pIns->VolEnv.nReleaseNode, ENV_RELEASE_NODE_UNSET);
VERIFY_EQUAL_NONCONT(pIns->VolEnv[2].tick, 96);
VERIFY_EQUAL_NONCONT(pIns->VolEnv[2].value, 0);
VERIFY_EQUAL_NONCONT(pIns->VolEnv.nSustainStart, 1);
VERIFY_EQUAL_NONCONT(pIns->VolEnv.nSustainEnd, 1);
VERIFY_EQUAL_NONCONT(pIns->PanEnv.dwFlags, ENV_LOOP);
VERIFY_EQUAL_NONCONT(pIns->PanEnv.size(), 12);
VERIFY_EQUAL_NONCONT(pIns->PanEnv.nLoopStart, 9);
VERIFY_EQUAL_NONCONT(pIns->PanEnv.nLoopEnd, 11);
VERIFY_EQUAL_NONCONT(pIns->PanEnv.nReleaseNode, ENV_RELEASE_NODE_UNSET);
VERIFY_EQUAL_NONCONT(pIns->PanEnv[9].tick, 46);
VERIFY_EQUAL_NONCONT(pIns->PanEnv[9].value, 23);
VERIFY_EQUAL_NONCONT(pIns->PitchEnv.dwFlags, EnvelopeFlags(0));
VERIFY_EQUAL_NONCONT(pIns->PitchEnv.size(), 0);
// Sequences
VERIFY_EQUAL_NONCONT(sndFile.Order.GetNumSequences(), 1);
VERIFY_EQUAL_NONCONT(sndFile.Order()[0], 0);
VERIFY_EQUAL_NONCONT(sndFile.Order()[1], 1);
// Patterns
VERIFY_EQUAL_NONCONT(sndFile.Patterns.GetNumPatterns(), 2);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetName(), "First Pattern");
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetNumRows(), 64);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetNumChannels(), 2);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetOverrideSignature(), false);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetRowsPerBeat(), 0);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetRowsPerMeasure(), 0);
VERIFY_EQUAL_NONCONT(sndFile.Patterns.IsPatternEmpty(0), true);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetName(), "Second Pattern");
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetNumRows(), 32);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetNumChannels(), 2);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetOverrideSignature(), false);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetRowsPerBeat(), 0);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetRowsPerMeasure(), 0);
VERIFY_EQUAL_NONCONT(sndFile.Patterns.IsPatternEmpty(1), false);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(0, 0)->IsPcNote(), false);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(0, 0)->note, NOTE_NONE);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(0, 0)->instr, 0);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(0, 0)->volcmd, VOLCMD_VIBRATOSPEED);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(0, 0)->vol, 15);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(31, 0)->IsEmpty(), true);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(31, 1)->IsEmpty(), false);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(31, 1)->IsPcNote(), false);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(31, 1)->note, NOTE_MIDDLEC + 12);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(31, 1)->instr, 45);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(31, 1)->volcmd, VOLCMD_VOLSLIDEDOWN);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(31, 1)->vol, 5);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(31, 1)->command, CMD_PANNING8);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(31, 1)->param, 0xFF);
// Test 4-Bit Panning conversion
for(int i = 0; i < 16; i++)
{
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(10 + i, 0)->vol, i * 4);
}
// Plugins
#ifndef NO_PLUGINS
const SNDMIXPLUGIN &plug = sndFile.m_MixPlugins[0];
VERIFY_EQUAL_NONCONT(plug.GetName(), U_("First Plugin"));
VERIFY_EQUAL_NONCONT(plug.fDryRatio, 0.26f);
VERIFY_EQUAL_NONCONT(plug.IsMasterEffect(), true);
VERIFY_EQUAL_NONCONT(plug.GetGain(), 11);
#endif // NO_PLUGINS
}
// Check if our test file was loaded correctly.
static void TestLoadMPTMFile(const CSoundFile &sndFile)
{
// Global Variables
VERIFY_EQUAL_NONCONT(sndFile.GetTitle(), "Test Module_____________X");
VERIFY_EQUAL_NONCONT(sndFile.m_songMessage.substr(0, 32), "OpenMPT Module Loader Test Suite");
VERIFY_EQUAL_NONCONT(sndFile.m_nDefaultTempo, TEMPO(139, 999));
VERIFY_EQUAL_NONCONT(sndFile.m_nDefaultSpeed, 5);
VERIFY_EQUAL_NONCONT(sndFile.m_nDefaultGlobalVolume, 128);
VERIFY_EQUAL_NONCONT(sndFile.m_nVSTiVolume, 42);
VERIFY_EQUAL_NONCONT(sndFile.m_nSamplePreAmp, 23);
VERIFY_EQUAL_NONCONT((sndFile.m_SongFlags & SONG_FILE_FLAGS), SONG_LINEARSLIDES | SONG_EXFILTERRANGE | SONG_ITCOMPATGXX | SONG_ITOLDEFFECTS);
VERIFY_EQUAL_NONCONT(sndFile.m_playBehaviour[MSF_COMPATIBLE_PLAY], true);
VERIFY_EQUAL_NONCONT(sndFile.m_playBehaviour[kMIDICCBugEmulation], false);
VERIFY_EQUAL_NONCONT(sndFile.m_playBehaviour[kMPTOldSwingBehaviour], false);
VERIFY_EQUAL_NONCONT(sndFile.m_playBehaviour[kOldMIDIPitchBends], false);
VERIFY_EQUAL_NONCONT(sndFile.GetMixLevels(), MixLevels::Compatible);
VERIFY_EQUAL_NONCONT(sndFile.m_nTempoMode, TempoMode::Modern);
VERIFY_EQUAL_NONCONT(sndFile.m_nDefaultRowsPerBeat, 6);
VERIFY_EQUAL_NONCONT(sndFile.m_nDefaultRowsPerMeasure, 12);
VERIFY_EQUAL_NONCONT(sndFile.m_dwCreatedWithVersion, MPT_V("1.19.02.05"));
VERIFY_EQUAL_NONCONT(sndFile.m_nResampling, SRCMODE_SINC8LP);
VERIFY_EQUAL_NONCONT(sndFile.m_songArtist, U_("Tester"));
VERIFY_EQUAL_NONCONT(sndFile.m_tempoSwing.size(), 6);
VERIFY_EQUAL_NONCONT(sndFile.m_tempoSwing[0], 29360125);
VERIFY_EQUAL_NONCONT(sndFile.m_tempoSwing[1], 4194305);
VERIFY_EQUAL_NONCONT(sndFile.m_tempoSwing[2], 29360128);
VERIFY_EQUAL_NONCONT(sndFile.m_tempoSwing[3], 4194305);
VERIFY_EQUAL_NONCONT(sndFile.m_tempoSwing[4], 29360128);
VERIFY_EQUAL_NONCONT(sndFile.m_tempoSwing[5], 4194305);
// Edit history
VERIFY_EQUAL_NONCONT(sndFile.GetFileHistory().size() > 15, true);
const FileHistory &fh = sndFile.GetFileHistory().front();
VERIFY_EQUAL_NONCONT(fh.loadDate.tm_year, 111);
VERIFY_EQUAL_NONCONT(fh.loadDate.tm_mon, 5);
VERIFY_EQUAL_NONCONT(fh.loadDate.tm_mday, 14);
VERIFY_EQUAL_NONCONT(fh.loadDate.tm_hour, 21);
VERIFY_EQUAL_NONCONT(fh.loadDate.tm_min, 8);
VERIFY_EQUAL_NONCONT(fh.loadDate.tm_sec, 32);
VERIFY_EQUAL_NONCONT((uint32)((double)fh.openTime / HISTORY_TIMER_PRECISION), 31);
// Macros
VERIFY_EQUAL_NONCONT(sndFile.m_MidiCfg.GetParameteredMacroType(0), kSFxReso);
VERIFY_EQUAL_NONCONT(sndFile.m_MidiCfg.GetParameteredMacroType(1), kSFxDryWet);
VERIFY_EQUAL_NONCONT(sndFile.m_MidiCfg.GetParameteredMacroType(2), kSFxPolyAT);
VERIFY_EQUAL_NONCONT(sndFile.m_MidiCfg.GetFixedMacroType(), kZxxResoFltMode);
// Channels
VERIFY_EQUAL_NONCONT(sndFile.GetNumChannels(), 70);
VERIFY_EQUAL_NONCONT((sndFile.ChnSettings[0].szName == "First Channel"), true);
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[0].nPan, 32);
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[0].nVolume, 32);
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[0].dwFlags, CHN_MUTE);
#ifndef NO_PLUGINS
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[0].nMixPlugin, 0);
#endif // NO_PLUGINS
VERIFY_EQUAL_NONCONT((sndFile.ChnSettings[1].szName == "Second Channel"), true);
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[1].nPan, 128);
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[1].nVolume, 16);
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[1].dwFlags, CHN_SURROUND);
#ifndef NO_PLUGINS
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[1].nMixPlugin, 1);
#endif // NO_PLUGINS
VERIFY_EQUAL_NONCONT((sndFile.ChnSettings[69].szName == "Last Channel______X"), true);
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[69].nPan, 256);
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[69].nVolume, 7);
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[69].dwFlags, ChannelFlags(0));
#ifndef NO_PLUGINS
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[69].nMixPlugin, 1);
#endif // NO_PLUGINS
// Samples
VERIFY_EQUAL_NONCONT(sndFile.GetNumSamples(), 4);
{
const ModSample &sample = sndFile.GetSample(1);
VERIFY_EQUAL_NONCONT(sample.GetBytesPerSample(), 1);
VERIFY_EQUAL_NONCONT(sample.GetNumChannels(), 1);
VERIFY_EQUAL_NONCONT(sample.GetElementarySampleSize(), 1);
VERIFY_EQUAL_NONCONT(sample.GetSampleSizeInBytes(), 16);
VERIFY_EQUAL_NONCONT(sample.GetSampleRate(MOD_TYPE_MPT), 9001);
VERIFY_EQUAL_NONCONT(sample.nVolume, 32 * 4);
VERIFY_EQUAL_NONCONT(sample.nGlobalVol, 16);
VERIFY_EQUAL_NONCONT(sample.nPan, 160);
VERIFY_EQUAL_NONCONT(sample.uFlags, CHN_PANNING | CHN_LOOP | CHN_SUSTAINLOOP | CHN_PINGPONGSUSTAIN);
VERIFY_EQUAL_NONCONT(sample.nLoopStart, 1);
VERIFY_EQUAL_NONCONT(sample.nLoopEnd, 8);
VERIFY_EQUAL_NONCONT(sample.nSustainStart, 1);
VERIFY_EQUAL_NONCONT(sample.nSustainEnd, 7);
VERIFY_EQUAL_NONCONT(sample.nVibType, VIB_SQUARE);
VERIFY_EQUAL_NONCONT(sample.nVibSweep, 3);
VERIFY_EQUAL_NONCONT(sample.nVibRate, 4);
VERIFY_EQUAL_NONCONT(sample.nVibDepth, 5);
// Sample Data
for(size_t i = 0; i < 6; i++)
{
VERIFY_EQUAL_NONCONT(sample.sample8()[i], 18);
}
for(size_t i = 6; i < 16; i++)
{
VERIFY_EQUAL_NONCONT(sample.sample8()[i], 0);
}
VERIFY_EQUAL_NONCONT(sample.cues[0], 2);
VERIFY_EQUAL_NONCONT(sample.cues[8], 9);
}
{
const ModSample &sample = sndFile.GetSample(2);
VERIFY_EQUAL_NONCONT((sndFile.m_szNames[2] == "Stereo / 16-Bit"), true);
VERIFY_EQUAL_NONCONT(sample.GetBytesPerSample(), 4);
VERIFY_EQUAL_NONCONT(sample.GetNumChannels(), 2);
VERIFY_EQUAL_NONCONT(sample.GetElementarySampleSize(), 2);
VERIFY_EQUAL_NONCONT(sample.GetSampleSizeInBytes(), 16 * 4);
VERIFY_EQUAL_NONCONT(sample.GetSampleRate(MOD_TYPE_MPT), 16000);
VERIFY_EQUAL_NONCONT(sample.uFlags, CHN_16BIT | CHN_STEREO | CHN_LOOP);
// Sample Data (Stereo Interleaved)
for(size_t i = 0; i < 7; i++)
{
VERIFY_EQUAL_NONCONT(sample.sample16()[4 + i], int16(-32768));
}
VERIFY_EQUAL_NONCONT(sample.cues[0], 3);
VERIFY_EQUAL_NONCONT(sample.cues[8], 14);
}
// External sample
{
const ModSample &sample = sndFile.GetSample(4);
VERIFY_EQUAL_NONCONT((sndFile.m_szNames[4] == "Overridden Name"), true);
VERIFY_EQUAL_NONCONT((sample.filename == "External"), true);
#ifdef MPT_EXTERNAL_SAMPLES
VERIFY_EQUAL_NONCONT(sample.GetBytesPerSample(), 1);
VERIFY_EQUAL_NONCONT(sample.GetNumChannels(), 1);
VERIFY_EQUAL_NONCONT(sample.GetElementarySampleSize(), 1);
VERIFY_EQUAL_NONCONT(sample.GetSampleSizeInBytes(), 64);
VERIFY_EQUAL_NONCONT(sample.nLoopStart, 42);
VERIFY_EQUAL_NONCONT(sample.nLoopEnd, 55);
VERIFY_EQUAL_NONCONT(sample.nSustainStart, 42);
VERIFY_EQUAL_NONCONT(sample.nSustainEnd, 55);
VERIFY_EQUAL_NONCONT(sample.uFlags, CHN_LOOP | CHN_SUSTAINLOOP | CHN_PINGPONGSUSTAIN | SMP_KEEPONDISK);
#endif // MPT_EXTERNAL_SAMPLES
VERIFY_EQUAL_NONCONT(sample.GetSampleRate(MOD_TYPE_MPT), 10101);
VERIFY_EQUAL_NONCONT(sample.nVolume, 26 * 4);
VERIFY_EQUAL_NONCONT(sample.nGlobalVol, 26);
VERIFY_EQUAL_NONCONT(sample.nPan, 26 * 4);
VERIFY_EQUAL_NONCONT(sample.nVibType, VIB_SINE);
VERIFY_EQUAL_NONCONT(sample.nVibSweep, 37);
VERIFY_EQUAL_NONCONT(sample.nVibRate, 42);
VERIFY_EQUAL_NONCONT(sample.nVibDepth, 23);
// Sample Data
#ifdef MPT_EXTERNAL_SAMPLES
for(size_t i = 0; i < 16; i++)
{
VERIFY_EQUAL_NONCONT(sample.sample8()[i], int8(45));
}
#endif // MPT_EXTERNAL_SAMPLES
VERIFY_EQUAL_NONCONT(sample.cues[0], 10);
VERIFY_EQUAL_NONCONT(sample.cues[8], 50);
}
// Instruments
VERIFY_EQUAL_NONCONT(sndFile.GetNumInstruments(), 2);
for(INSTRUMENTINDEX ins = 1; ins <= 2; ins++)
{
const ModInstrument *pIns = sndFile.Instruments[ins];
VERIFY_EQUAL_NONCONT(pIns->nGlobalVol, 32);
VERIFY_EQUAL_NONCONT(pIns->nFadeOut, 1024);
VERIFY_EQUAL_NONCONT(pIns->nPan, 64);
VERIFY_EQUAL_NONCONT(pIns->dwFlags, INS_SETPANNING);
VERIFY_EQUAL_NONCONT(pIns->nPPS, 8);
VERIFY_EQUAL_NONCONT(pIns->nPPC, (NOTE_MIDDLEC - NOTE_MIN) + 6); // F#5
VERIFY_EQUAL_NONCONT(pIns->nVolRampUp, 1200);
VERIFY_EQUAL_NONCONT(pIns->resampling, SRCMODE_SINC8LP);
VERIFY_EQUAL_NONCONT(pIns->IsCutoffEnabled(), true);
VERIFY_EQUAL_NONCONT(pIns->GetCutoff(), 0x32);
VERIFY_EQUAL_NONCONT(pIns->IsResonanceEnabled(), true);
VERIFY_EQUAL_NONCONT(pIns->GetResonance(), 0x64);
VERIFY_EQUAL_NONCONT(pIns->filterMode, FilterMode::HighPass);
VERIFY_EQUAL_NONCONT(pIns->nVolSwing, 0x30);
VERIFY_EQUAL_NONCONT(pIns->nPanSwing, 0x18);
VERIFY_EQUAL_NONCONT(pIns->nCutSwing, 0x0C);
VERIFY_EQUAL_NONCONT(pIns->nResSwing, 0x3C);
VERIFY_EQUAL_NONCONT(pIns->nNNA, NewNoteAction::Continue);
VERIFY_EQUAL_NONCONT(pIns->nDCT, DuplicateCheckType::Note);
VERIFY_EQUAL_NONCONT(pIns->nDNA, DuplicateNoteAction::NoteFade);
VERIFY_EQUAL_NONCONT(pIns->nMixPlug, 1);
VERIFY_EQUAL_NONCONT(pIns->nMidiChannel, 16);
VERIFY_EQUAL_NONCONT(pIns->nMidiProgram, 64);
VERIFY_EQUAL_NONCONT(pIns->wMidiBank, 2);
VERIFY_EQUAL_NONCONT(pIns->midiPWD, ins);
VERIFY_EQUAL_NONCONT(pIns->pTuning, sndFile.GetDefaultTuning());
VERIFY_EQUAL_NONCONT(pIns->pitchToTempoLock, TEMPO(130, 2000));
VERIFY_EQUAL_NONCONT(pIns->pluginVelocityHandling, PLUGIN_VELOCITYHANDLING_VOLUME);
VERIFY_EQUAL_NONCONT(pIns->pluginVolumeHandling, PLUGIN_VOLUMEHANDLING_MIDI);
for(size_t i = 0; i < NOTE_MAX; i++)
{
VERIFY_EQUAL_NONCONT(pIns->Keyboard[i], (i == NOTE_MIDDLEC - 1) ? 99 : 1);
VERIFY_EQUAL_NONCONT(pIns->NoteMap[i], (i == NOTE_MIDDLEC - 1) ? (i + 13) : (i + 1));
}
VERIFY_EQUAL_NONCONT(pIns->VolEnv.dwFlags, ENV_ENABLED | ENV_CARRY);
VERIFY_EQUAL_NONCONT(pIns->VolEnv.size(), 3);
VERIFY_EQUAL_NONCONT(pIns->VolEnv.nReleaseNode, 1);
VERIFY_EQUAL_NONCONT(pIns->VolEnv[2].tick, 96);
VERIFY_EQUAL_NONCONT(pIns->VolEnv[2].value, 0);
VERIFY_EQUAL_NONCONT(pIns->PanEnv.dwFlags, ENV_LOOP);
VERIFY_EQUAL_NONCONT(pIns->PanEnv.size(), 76);
VERIFY_EQUAL_NONCONT(pIns->PanEnv.nLoopStart, 22);
VERIFY_EQUAL_NONCONT(pIns->PanEnv.nLoopEnd, 29);
VERIFY_EQUAL_NONCONT(pIns->PanEnv.nReleaseNode, ENV_RELEASE_NODE_UNSET);
VERIFY_EQUAL_NONCONT(pIns->PanEnv[75].tick, 427);
VERIFY_EQUAL_NONCONT(pIns->PanEnv[75].value, 27);
VERIFY_EQUAL_NONCONT(pIns->PitchEnv.dwFlags, ENV_ENABLED | ENV_CARRY | ENV_SUSTAIN | ENV_FILTER);
VERIFY_EQUAL_NONCONT(pIns->PitchEnv.size(), 3);
VERIFY_EQUAL_NONCONT(pIns->PitchEnv.nSustainStart, 1);
VERIFY_EQUAL_NONCONT(pIns->PitchEnv.nSustainEnd, 2);
VERIFY_EQUAL_NONCONT(pIns->PitchEnv[1].tick, 96);
VERIFY_EQUAL_NONCONT(pIns->PitchEnv[1].value, 64);
}
// Sequences
VERIFY_EQUAL_NONCONT(sndFile.Order.GetNumSequences(), 2);
VERIFY_EQUAL_NONCONT(sndFile.Order(0).GetLengthTailTrimmed(), 3);
VERIFY_EQUAL_NONCONT(sndFile.Order(0).GetName(), U_("First Sequence"));
VERIFY_EQUAL_NONCONT(sndFile.Order(0)[0], sndFile.Order.GetIgnoreIndex());
VERIFY_EQUAL_NONCONT(sndFile.Order(0)[1], 0);
VERIFY_EQUAL_NONCONT(sndFile.Order(0)[2], sndFile.Order.GetIgnoreIndex());
VERIFY_EQUAL_NONCONT(sndFile.Order(0).GetRestartPos(), 1);
VERIFY_EQUAL_NONCONT(sndFile.Order(1).GetLengthTailTrimmed(), 3);
VERIFY_EQUAL_NONCONT(sndFile.Order(1).GetName(), U_("Second Sequence"));
VERIFY_EQUAL_NONCONT(sndFile.Order(1)[0], 1);
VERIFY_EQUAL_NONCONT(sndFile.Order(1)[1], 2);
VERIFY_EQUAL_NONCONT(sndFile.Order(1)[2], 3);
VERIFY_EQUAL_NONCONT(sndFile.Order(1).GetRestartPos(), 2);
// Patterns
VERIFY_EQUAL_NONCONT(sndFile.Patterns.GetNumPatterns(), 2);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetName(), "First Pattern");
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetNumRows(), 70);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetNumChannels(), 70);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetOverrideSignature(), true);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetRowsPerBeat(), 5);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetRowsPerMeasure(), 10);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].HasTempoSwing(), true);
VERIFY_EQUAL_NONCONT(sndFile.Patterns.IsPatternEmpty(0), true);
{
TempoSwing swing = sndFile.Patterns[0].GetTempoSwing();
VERIFY_EQUAL_NONCONT(swing.size(), 5);
VERIFY_EQUAL_NONCONT(swing[0], 16770149);
VERIFY_EQUAL_NONCONT(swing[1], 16803696);
VERIFY_EQUAL_NONCONT(swing[2], 16770157);
VERIFY_EQUAL_NONCONT(swing[3], 29347774);
VERIFY_EQUAL_NONCONT(swing[4], 4194304);
}
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetName(), "Second Pattern");
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetNumRows(), 32);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetNumChannels(), 70);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetOverrideSignature(), false);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetRowsPerBeat(), 0);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetRowsPerMeasure(), 0);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].HasTempoSwing(), false);
VERIFY_EQUAL_NONCONT(sndFile.Patterns.IsPatternEmpty(1), false);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(0, 0)->IsPcNote(), true);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(0, 0)->note, NOTE_PC);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(0, 0)->instr, 99);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(0, 0)->GetValueVolCol(), 1);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(0, 0)->GetValueEffectCol(), 200);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(31, 0)->IsEmpty(), true);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(31, 1)->IsEmpty(), false);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(31, 1)->IsPcNote(), false);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(31, 1)->note, NOTE_MIDDLEC + 12);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(31, 1)->instr, 45);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(31, 1)->volcmd, VOLCMD_VOLSLIDEDOWN);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(31, 1)->vol, 5);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(31, 1)->command, CMD_PANNING8);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(31, 1)->param, 0xFF);
// Plugins
#ifndef NO_PLUGINS
const SNDMIXPLUGIN &plug = sndFile.m_MixPlugins[0];
VERIFY_EQUAL_NONCONT(plug.GetName(), U_("First Plugin"));
VERIFY_EQUAL_NONCONT(plug.fDryRatio, 0.26f);
VERIFY_EQUAL_NONCONT(plug.IsMasterEffect(), true);
VERIFY_EQUAL_NONCONT(plug.GetGain(), 11);
VERIFY_EQUAL_NONCONT(plug.pMixPlugin != nullptr, true);
if(plug.pMixPlugin)
{
VERIFY_EQUAL_NONCONT(plug.pMixPlugin->GetParameter(1), 0.5f);
VERIFY_EQUAL_NONCONT(plug.pMixPlugin->IsInstrument(), false);
}
#endif // NO_PLUGINS
#ifdef MODPLUG_TRACKER
// MIDI Mapping
VERIFY_EQUAL_NONCONT(sndFile.GetMIDIMapper().GetCount(), 1);
const CMIDIMappingDirective &mapping = sndFile.GetMIDIMapper().GetDirective(0);
VERIFY_EQUAL_NONCONT(mapping.GetAllowPatternEdit(), true);
VERIFY_EQUAL_NONCONT(mapping.GetCaptureMIDI(), false);
VERIFY_EQUAL_NONCONT(mapping.IsActive(), true);
VERIFY_EQUAL_NONCONT(mapping.GetAnyChannel(), false);
VERIFY_EQUAL_NONCONT(mapping.GetChannel(), 5);
VERIFY_EQUAL_NONCONT(mapping.GetPlugIndex(), 1);
VERIFY_EQUAL_NONCONT(mapping.GetParamIndex(), 0);
VERIFY_EQUAL_NONCONT(mapping.GetEvent(), MIDIEvents::evControllerChange);
VERIFY_EQUAL_NONCONT(mapping.GetController(), MIDIEvents::MIDICC_ModulationWheel_Coarse);
// Channel colors
const auto &chns = sndFile.ChnSettings;
VERIFY_EQUAL_NONCONT(chns[0].color, RGB(255, 0, 0));
VERIFY_EQUAL_NONCONT(chns[1].color, RGB(0, 255, 0));
VERIFY_EQUAL_NONCONT(chns[2].color, RGB(0, 0, 255));
VERIFY_EQUAL_NONCONT(chns[3].color, ModChannelSettings::INVALID_COLOR);
VERIFY_EQUAL_NONCONT(chns[67].color, RGB(255, 0, 255));
VERIFY_EQUAL_NONCONT(chns[68].color, RGB(255, 255, 0));
VERIFY_EQUAL_NONCONT(chns[69].color, ModChannelSettings::INVALID_COLOR);
#endif
VERIFY_EQUAL_NONCONT(sndFile.FrequencyToCutOff(sndFile.CutOffToFrequency(0)), 0);
VERIFY_EQUAL_NONCONT(sndFile.FrequencyToCutOff(sndFile.CutOffToFrequency(80)), 80);
VERIFY_EQUAL_NONCONT(sndFile.FrequencyToCutOff(sndFile.CutOffToFrequency(127)), 127);
}
// Check if our test file was loaded correctly.
static void TestLoadS3MFile(const CSoundFile &sndFile, bool resaved)
{
// Global Variables
VERIFY_EQUAL_NONCONT(sndFile.GetTitle(), "S3M_Test__________________X");
VERIFY_EQUAL_NONCONT(sndFile.m_nDefaultTempo, TEMPO(33, 0));
VERIFY_EQUAL_NONCONT(sndFile.m_nDefaultSpeed, 254);
VERIFY_EQUAL_NONCONT(sndFile.m_nDefaultGlobalVolume, 32 * 4);
VERIFY_EQUAL_NONCONT(sndFile.m_nVSTiVolume, 36);
VERIFY_EQUAL_NONCONT(sndFile.m_nSamplePreAmp, 16);
VERIFY_EQUAL_NONCONT((sndFile.m_SongFlags & SONG_FILE_FLAGS), SONG_FASTVOLSLIDES);
VERIFY_EQUAL_NONCONT(sndFile.GetMixLevels(), MixLevels::Compatible);
VERIFY_EQUAL_NONCONT(sndFile.m_nTempoMode, TempoMode::Classic);
VERIFY_EQUAL_NONCONT(sndFile.m_dwLastSavedWithVersion, resaved ? Version::Current() : MPT_V("1.27.00.00"));
// Channels
VERIFY_EQUAL_NONCONT(sndFile.GetNumChannels(), 4);
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[0].nPan, 0);
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[0].dwFlags, ChannelFlags(0));
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[1].nPan, 256);
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[1].dwFlags, CHN_MUTE);
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[2].nPan, 85);
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[2].dwFlags, ChannelFlags(0));
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[3].nPan, 171);
VERIFY_EQUAL_NONCONT(sndFile.ChnSettings[3].dwFlags, CHN_MUTE);
// Samples
VERIFY_EQUAL_NONCONT(sndFile.GetNumSamples(), 4);
{
const ModSample &sample = sndFile.GetSample(1);
VERIFY_EQUAL_NONCONT(sndFile.m_szNames[1], "Sample_1__________________X");
VERIFY_EQUAL_NONCONT(sample.filename, "Filename_1_X");
VERIFY_EQUAL_NONCONT(sample.GetBytesPerSample(), 1);
VERIFY_EQUAL_NONCONT(sample.GetNumChannels(), 1);
VERIFY_EQUAL_NONCONT(sample.GetElementarySampleSize(), 1);
VERIFY_EQUAL_NONCONT(sample.GetSampleSizeInBytes(), 60);
VERIFY_EQUAL_NONCONT(sample.GetSampleRate(MOD_TYPE_S3M), 9001);
VERIFY_EQUAL_NONCONT(sample.nVolume, 32 * 4);
VERIFY_EQUAL_NONCONT(sample.nGlobalVol, 64);
VERIFY_EQUAL_NONCONT(sample.uFlags, CHN_LOOP);
VERIFY_EQUAL_NONCONT(sample.nLoopStart, 16);
VERIFY_EQUAL_NONCONT(sample.nLoopEnd, 60);
// Sample Data
for(size_t i = 0; i < 30; i++)
{
VERIFY_EQUAL_NONCONT(sample.sample8()[i], 127);
}
for(size_t i = 31; i < 60; i++)
{
VERIFY_EQUAL_NONCONT(sample.sample8()[i], -128);
}
}
{
const ModSample &sample = sndFile.GetSample(2);
VERIFY_EQUAL_NONCONT(sndFile.m_szNames[2], "Empty");
VERIFY_EQUAL_NONCONT(sample.GetSampleRate(MOD_TYPE_S3M), 16384);
VERIFY_EQUAL_NONCONT(sample.nVolume, 2 * 4);
}
{
const ModSample &sample = sndFile.GetSample(3);
VERIFY_EQUAL_NONCONT(sndFile.m_szNames[3], "Stereo / 16-Bit");
VERIFY_EQUAL_NONCONT(sample.filename, "Filename_3_X");
VERIFY_EQUAL_NONCONT(sample.GetBytesPerSample(), 4);
VERIFY_EQUAL_NONCONT(sample.GetNumChannels(), 2);
VERIFY_EQUAL_NONCONT(sample.GetElementarySampleSize(), 2);
VERIFY_EQUAL_NONCONT(sample.GetSampleSizeInBytes(), 64);
VERIFY_EQUAL_NONCONT(sample.GetSampleRate(MOD_TYPE_S3M), 16000);
VERIFY_EQUAL_NONCONT(sample.nVolume, 0);
VERIFY_EQUAL_NONCONT(sample.uFlags, CHN_LOOP | CHN_16BIT | CHN_STEREO);
VERIFY_EQUAL_NONCONT(sample.nLoopStart, 0);
VERIFY_EQUAL_NONCONT(sample.nLoopEnd, 16);
// Sample Data (Stereo Interleaved)
for(size_t i = 0; i < 7; i++)
{
VERIFY_EQUAL_NONCONT(sample.sample16()[4 + i], int16(-32768));
}
}
{
const ModSample &sample = sndFile.GetSample(4);
VERIFY_EQUAL_NONCONT(sndFile.m_szNames[4], "adlib");
VERIFY_EQUAL_NONCONT((sample.filename == ""), true);
VERIFY_EQUAL_NONCONT(sample.GetSampleRate(MOD_TYPE_S3M), 8363);
VERIFY_EQUAL_NONCONT(sample.nVolume, 58 * 4);
VERIFY_EQUAL_NONCONT(sample.uFlags, CHN_ADLIB);
VERIFY_EQUAL_NONCONT(sample.adlib, (OPLPatch{ { 0x00, 0x00, 0xC0, 0x00, 0xF0, 0xD2, 0x05, 0xB3, 0x01, 0x00, 0x00, 0x00 } }));
}
// Orders
VERIFY_EQUAL_NONCONT(sndFile.Order().GetRestartPos(), 0);
VERIFY_EQUAL_NONCONT(sndFile.Order().GetLengthTailTrimmed(), 5);
VERIFY_EQUAL_NONCONT(sndFile.Order()[0], 0);
VERIFY_EQUAL_NONCONT(sndFile.Order()[1], sndFile.Order.GetIgnoreIndex());
VERIFY_EQUAL_NONCONT(sndFile.Order()[2], sndFile.Order.GetInvalidPatIndex());
VERIFY_EQUAL_NONCONT(sndFile.Order()[3], 1);
VERIFY_EQUAL_NONCONT(sndFile.Order()[4], 0);
// Patterns
VERIFY_EQUAL_NONCONT(sndFile.Patterns.GetNumPatterns(), 2);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetNumRows(), 64);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetNumChannels(), 4);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetOverrideSignature(), false);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetpModCommand(0, 0)->note, NOTE_MIN + 12);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetpModCommand(1, 0)->note, NOTE_MIN + 107);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetpModCommand(0, 1)->volcmd, VOLCMD_VOLUME);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetpModCommand(0, 1)->vol, 0);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetpModCommand(1, 1)->volcmd, VOLCMD_VOLUME);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetpModCommand(1, 1)->vol, 64);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetpModCommand(2, 1)->volcmd, VOLCMD_PANNING);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetpModCommand(2, 1)->vol, 0);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetpModCommand(3, 1)->volcmd, VOLCMD_PANNING);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetpModCommand(3, 1)->vol, 64);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetpModCommand(0, 3)->command, CMD_SPEED);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[0].GetpModCommand(0, 3)->param, 0x11);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetNumRows(), 64);
VERIFY_EQUAL_NONCONT(sndFile.Patterns.IsPatternEmpty(1), false);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(63, 3)->param, 0x04);
}
// Check if our test file was loaded correctly.
static void TestLoadMODFile(CSoundFile &sndFile)
{
// Global Variables
VERIFY_EQUAL_NONCONT(sndFile.GetTitle(), "MOD_Test___________X");
VERIFY_EQUAL_NONCONT((sndFile.m_SongFlags & SONG_FILE_FLAGS), SONG_PT_MODE | SONG_AMIGALIMITS | SONG_ISAMIGA);
VERIFY_EQUAL_NONCONT(sndFile.GetMixLevels(), MixLevels::Compatible);
VERIFY_EQUAL_NONCONT(sndFile.m_nTempoMode, TempoMode::Classic);
VERIFY_EQUAL_NONCONT(sndFile.GetNumChannels(), 4);
VERIFY_EQUAL_NONCONT(sndFile.m_playBehaviour[kMODOneShotLoops], true);
VERIFY_EQUAL_NONCONT(sndFile.m_playBehaviour[kMODSampleSwap], true);
VERIFY_EQUAL_NONCONT(sndFile.m_playBehaviour[kMODIgnorePanning], true);
VERIFY_EQUAL_NONCONT(sndFile.m_playBehaviour[kMODVBlankTiming], false);
// Test GetLength code, in particular with subsongs
VERIFY_EQUAL_NONCONT(sndFile.GetLength(eNoAdjust, GetLengthTarget(0, 4)).back().targetReached, false);
const auto allSubSongs = sndFile.GetLength(eNoAdjust, GetLengthTarget(true));
VERIFY_EQUAL_NONCONT(allSubSongs.size(), 2);
VERIFY_EQUAL_EPS(allSubSongs[0].duration, 2.04, 0.1);
VERIFY_EQUAL_EPS(allSubSongs[1].duration, 118.84, 0.1);
VERIFY_EQUAL_NONCONT(allSubSongs[0].lastOrder, 0);
VERIFY_EQUAL_NONCONT(allSubSongs[0].lastRow, 1);
VERIFY_EQUAL_NONCONT(allSubSongs[1].lastOrder, 2);
VERIFY_EQUAL_NONCONT(allSubSongs[1].lastRow, 61);
VERIFY_EQUAL_NONCONT(allSubSongs[1].startOrder, 2);
VERIFY_EQUAL_NONCONT(allSubSongs[1].startRow, 0);
// Samples
VERIFY_EQUAL_NONCONT(sndFile.GetNumSamples(), 31);
{
const ModSample &sample = sndFile.GetSample(1);
VERIFY_EQUAL_NONCONT(sndFile.m_szNames[1], "Sample_1_____________X");
VERIFY_EQUAL_NONCONT(sample.GetBytesPerSample(), 1);
VERIFY_EQUAL_NONCONT(sample.GetNumChannels(), 1);
VERIFY_EQUAL_NONCONT(sample.GetElementarySampleSize(), 1);
VERIFY_EQUAL_NONCONT(sample.GetSampleSizeInBytes(), 1244);
VERIFY_EQUAL_NONCONT(sample.nFineTune, 0x70);
VERIFY_EQUAL_NONCONT(sample.RelativeTone, 0);
VERIFY_EQUAL_NONCONT(sample.nVolume, 256);
VERIFY_EQUAL_NONCONT(sample.nGlobalVol, 64);
VERIFY_EQUAL_NONCONT(sample.uFlags, CHN_LOOP);
VERIFY_EQUAL_NONCONT(sample.nLoopStart, 0);
VERIFY_EQUAL_NONCONT(sample.nLoopEnd, 128);
// Sample Data
VERIFY_EQUAL_NONCONT(sample.sample8()[0], 0);
VERIFY_EQUAL_NONCONT(sample.sample8()[1], 0);
VERIFY_EQUAL_NONCONT(sample.sample8()[2], -29);
}
{
const ModSample &sample = sndFile.GetSample(3);
VERIFY_EQUAL_NONCONT(sndFile.m_szNames[3], "OpenMPT Module Loader");
VERIFY_EQUAL_NONCONT(sample.GetSampleSizeInBytes(), 0);
VERIFY_EQUAL_NONCONT(sample.nFineTune, -0x80);
VERIFY_EQUAL_NONCONT(sample.RelativeTone, 0);
VERIFY_EQUAL_NONCONT(sample.nVolume, 4);
VERIFY_EQUAL_NONCONT(sample.nGlobalVol, 64);
}
// Orders
VERIFY_EQUAL_NONCONT(sndFile.Order().GetRestartPos(), 0);
VERIFY_EQUAL_NONCONT(sndFile.Order().GetLengthTailTrimmed(), 4);
VERIFY_EQUAL_NONCONT(sndFile.Order()[0], 0);
VERIFY_EQUAL_NONCONT(sndFile.Order()[1], 1);
VERIFY_EQUAL_NONCONT(sndFile.Order()[2], 2);
VERIFY_EQUAL_NONCONT(sndFile.Order()[3], 0);
// Patterns
VERIFY_EQUAL_NONCONT(sndFile.Patterns.GetNumPatterns(), 3);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[2].GetNumRows(), 64);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[2].GetpModCommand(1, 0)->note, NOTE_MIDDLEC + 12);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[2].GetpModCommand(16, 3)->instr, 1);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[2].GetpModCommand(19, 3)->command, CMD_PANNING8);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[2].GetpModCommand(19, 3)->param, 0x28);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[2].GetpModCommand(20, 0)->command, CMD_TEMPO);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[2].GetpModCommand(20, 1)->command, CMD_SPEED);
}
#ifdef MODPLUG_TRACKER
static bool ShouldRunTests()
{
mpt::PathString theFile = theApp.GetInstallPath();
if(theFile.IsDirectory() && (theFile + P_("test")).IsDirectory())
{
if((theFile + P_("test\\test.mptm")).IsFile())
{
return true;
}
}
return false;
}
static mpt::PathString GetTestFilenameBase()
{
mpt::PathString theFile = theApp.GetInstallPath();
theFile += P_("test/test.");
return theFile;
}
static mpt::PathString GetTempFilenameBase()
{
return GetTestFilenameBase();
}
typedef CModDoc *TSoundFileContainer;
static CSoundFile &GetSoundFile(TSoundFileContainer &sndFile)
{
return sndFile->GetSoundFile();
}
static TSoundFileContainer CreateSoundFileContainer(const mpt::PathString &filename)
{
CModDoc *pModDoc = static_cast<CModDoc *>(theApp.OpenDocumentFile(filename.ToCString(), FALSE));
return pModDoc;
}
static void DestroySoundFileContainer(TSoundFileContainer &sndFile)
{
sndFile->OnCloseDocument();
}
static void SaveTestFile(const TSoundFileContainer &sndFile, const mpt::PathString &filename)
{
sndFile->DoSave(filename);
// Saving the file puts it in the MRU list...
theApp.RemoveMruItem(0);
}
const auto SaveIT = SaveTestFile;
const auto SaveXM = SaveTestFile;
const auto SaveS3M = SaveTestFile;
const auto SaveMOD = SaveTestFile;
#else // !MODPLUG_TRACKER
static bool ShouldRunTests()
{
#if MPT_TEST_HAS_FILESYSTEM
return true;
#else
return false;
#endif
}
static mpt::PathString GetTestFilenameBase()
{
return Test::GetPathPrefix() + P_("./test/test.");
}
static mpt::PathString GetTempFilenameBase()
{
return P_("./test.");
}
typedef std::shared_ptr<CSoundFile> TSoundFileContainer;
static CSoundFile &GetSoundFile(TSoundFileContainer &sndFile)
{
return *sndFile.get();
}
static TSoundFileContainer CreateSoundFileContainer(const mpt::PathString &filename)
{
mpt::ifstream stream(filename, std::ios::binary);
FileReader file = mpt::IO::make_FileCursor<mpt::PathString>(stream);
std::shared_ptr<CSoundFile> pSndFile = std::make_shared<CSoundFile>();
pSndFile->Create(file, CSoundFile::loadCompleteModule);
return pSndFile;
}
static void DestroySoundFileContainer(TSoundFileContainer & /* sndFile */ )
{
return;
}
#ifndef MODPLUG_NO_FILESAVE
static void SaveIT(const TSoundFileContainer &sndFile, const mpt::PathString &filename)
{
mpt::ofstream f(filename, std::ios::binary);
sndFile->SaveIT(f, filename, false);
}
static void SaveXM(const TSoundFileContainer &sndFile, const mpt::PathString &filename)
{
mpt::ofstream f(filename, std::ios::binary);
sndFile->SaveXM(f, false);
}
static void SaveS3M(const TSoundFileContainer &sndFile, const mpt::PathString &filename)
{
mpt::ofstream f(filename, std::ios::binary);
sndFile->SaveS3M(f);
}
static void SaveMOD(const TSoundFileContainer &sndFile, const mpt::PathString &filename)
{
mpt::ofstream f(filename, std::ios::binary);
sndFile->SaveMod(f);
}
#endif // !MODPLUG_NO_FILESAVE
#endif // MODPLUG_TRACKER
// Test file loading and saving
static MPT_NOINLINE void TestLoadSaveFile()
{
if(!ShouldRunTests())
{
return;
}
#ifdef MODPLUG_TRACKER
bool saveMutedChannels = TrackerSettings::Instance().MiscSaveChannelMuteStatus;
TrackerSettings::Instance().MiscSaveChannelMuteStatus = true;
#endif
mpt::PathString filenameBaseSrc = GetTestFilenameBase();
mpt::PathString filenameBase = GetTempFilenameBase();
// Test MPTM file loading
{
TSoundFileContainer sndFileContainer = CreateSoundFileContainer(filenameBaseSrc + P_("mptm"));
TestLoadMPTMFile(GetSoundFile(sndFileContainer));
#ifndef MODPLUG_NO_FILESAVE
// Test file saving
GetSoundFile(sndFileContainer).m_dwLastSavedWithVersion = Version::Current();
SaveIT(sndFileContainer, filenameBase + P_("saved.mptm"));
#endif
DestroySoundFileContainer(sndFileContainer);
}
// Reload the saved file and test if everything is still working correctly.
#ifndef MODPLUG_NO_FILESAVE
{
TSoundFileContainer sndFileContainer = CreateSoundFileContainer(filenameBase + P_("saved.mptm"));
TestLoadMPTMFile(GetSoundFile(sndFileContainer));
DestroySoundFileContainer(sndFileContainer);
RemoveFile(filenameBase + P_("saved.mptm"));
}
#endif
// Test XM file loading
{
TSoundFileContainer sndFileContainer = CreateSoundFileContainer(filenameBaseSrc + P_("xm"));
TestLoadXMFile(GetSoundFile(sndFileContainer));
// In OpenMPT 1.20 (up to revision 1459), there was a bug in the XM saver
// that would create broken XMs if the sample map contained samples that
// were only referenced below C-1 or above B-8 (such samples should not
// be written). Let's insert a sample there and check if re-loading the
// file still works.
GetSoundFile(sndFileContainer).m_nSamples++;
GetSoundFile(sndFileContainer).Instruments[1]->Keyboard[110] = GetSoundFile(sndFileContainer).GetNumSamples();
#ifndef MODPLUG_NO_FILESAVE
// Test file saving
GetSoundFile(sndFileContainer).m_dwLastSavedWithVersion = Version::Current();
SaveXM(sndFileContainer, filenameBase + P_("saved.xm"));
#endif
DestroySoundFileContainer(sndFileContainer);
}
// Reload the saved file and test if everything is still working correctly.
#ifndef MODPLUG_NO_FILESAVE
{
TSoundFileContainer sndFileContainer = CreateSoundFileContainer(filenameBase + P_("saved.xm"));
TestLoadXMFile(GetSoundFile(sndFileContainer));
DestroySoundFileContainer(sndFileContainer);
RemoveFile(filenameBase + P_("saved.xm"));
}
#endif
// Test S3M file loading
{
TSoundFileContainer sndFileContainer = CreateSoundFileContainer(filenameBaseSrc + P_("s3m"));
auto &sndFile = GetSoundFile(sndFileContainer);
TestLoadS3MFile(sndFile, false);
// Test GetLength code, in particular with subsongs
sndFile.ChnSettings[1].dwFlags.reset(CHN_MUTE);
VERIFY_EQUAL_EPS(sndFile.GetLength(eAdjustSamplePositions, GetLengthTarget(3, 1)).back().duration, 19.237, 0.01);
VERIFY_EQUAL_NONCONT(sndFile.GetLength(eAdjustSamplePositions, GetLengthTarget(2, 0).StartPos(0, 1, 0)).back().targetReached, false);
auto allSubSongs = sndFile.GetLength(eNoAdjust, GetLengthTarget(true));
VERIFY_EQUAL_NONCONT(allSubSongs.size(), 3);
double totalDuration = 0.0;
for(const auto &subSong : allSubSongs)
{
totalDuration += subSong.duration;
}
VERIFY_EQUAL_EPS(totalDuration, 3674.38, 1.0);
#ifndef MODPLUG_NO_FILESAVE
// Test file saving
sndFile.ChnSettings[1].dwFlags.set(CHN_MUTE);
sndFile.m_dwLastSavedWithVersion = Version::Current();
SaveS3M(sndFileContainer, filenameBase + P_("saved.s3m"));
#endif
DestroySoundFileContainer(sndFileContainer);
}
// Reload the saved file and test if everything is still working correctly.
#ifndef MODPLUG_NO_FILESAVE
{
TSoundFileContainer sndFileContainer = CreateSoundFileContainer(filenameBase + P_("saved.s3m"));
TestLoadS3MFile(GetSoundFile(sndFileContainer), true);
DestroySoundFileContainer(sndFileContainer);
RemoveFile(filenameBase + P_("saved.s3m"));
}
#endif
// Test MOD file loading
{
TSoundFileContainer sndFileContainer = CreateSoundFileContainer(filenameBaseSrc + P_("mod"));
auto &sndFile = GetSoundFile(sndFileContainer);
TestLoadMODFile(sndFile);
#ifndef MODPLUG_NO_FILESAVE
// Test file saving
SaveMOD(sndFileContainer, filenameBase + P_("saved.mod"));
#endif
DestroySoundFileContainer(sndFileContainer);
}
// Reload the saved file and test if everything is still working correctly.
#ifndef MODPLUG_NO_FILESAVE
{
TSoundFileContainer sndFileContainer = CreateSoundFileContainer(filenameBase + P_("saved.mod"));
TestLoadMODFile(GetSoundFile(sndFileContainer));
DestroySoundFileContainer(sndFileContainer);
RemoveFile(filenameBase + P_("saved.mod"));
}
#endif
// General file I/O tests
{
std::ostringstream f;
size_t bytesWritten;
mpt::IO::WriteVarInt(f, uint16(0), &bytesWritten); VERIFY_EQUAL_NONCONT(bytesWritten, 1);
mpt::IO::WriteVarInt(f, uint16(127), &bytesWritten); VERIFY_EQUAL_NONCONT(bytesWritten, 1);
mpt::IO::WriteVarInt(f, uint16(128), &bytesWritten); VERIFY_EQUAL_NONCONT(bytesWritten, 2);
mpt::IO::WriteVarInt(f, uint16(16383), &bytesWritten); VERIFY_EQUAL_NONCONT(bytesWritten, 2);
mpt::IO::WriteVarInt(f, uint16(16384), &bytesWritten); VERIFY_EQUAL_NONCONT(bytesWritten, 3);
mpt::IO::WriteVarInt(f, uint16(65535), &bytesWritten); VERIFY_EQUAL_NONCONT(bytesWritten, 3);
mpt::IO::WriteVarInt(f, uint64(0xFFFFFFFFFFFFFFFFull), &bytesWritten); VERIFY_EQUAL_NONCONT(bytesWritten, 10);
std::string data = f.str();
FileReader file(mpt::byte_cast<mpt::const_byte_span>(mpt::as_span(data)));
uint64 v;
file.ReadVarInt(v); VERIFY_EQUAL_NONCONT(v, 0);
file.ReadVarInt(v); VERIFY_EQUAL_NONCONT(v, 127);
file.ReadVarInt(v); VERIFY_EQUAL_NONCONT(v, 128);
file.ReadVarInt(v); VERIFY_EQUAL_NONCONT(v, 16383);
file.ReadVarInt(v); VERIFY_EQUAL_NONCONT(v, 16384);
file.ReadVarInt(v); VERIFY_EQUAL_NONCONT(v, 65535);
file.ReadVarInt(v); VERIFY_EQUAL_NONCONT(v, 0xFFFFFFFFFFFFFFFFull);
}
#ifdef MODPLUG_TRACKER
TrackerSettings::Instance().MiscSaveChannelMuteStatus = saveMutedChannels;
#endif
}
// Test various editing features
static MPT_NOINLINE void TestEditing()
{
#ifdef MODPLUG_TRACKER
auto modDoc = static_cast<CModDoc *>(theApp.GetModDocTemplate()->CreateNewDocument());
auto &sndFile = modDoc->GetSoundFile();
sndFile.Create(FileReader(), CSoundFile::loadCompleteModule, modDoc);
sndFile.m_nChannels = 4;
sndFile.ChangeModTypeTo(MOD_TYPE_MPT);
// Rearrange channels
sndFile.Patterns.ResizeArray(2);
sndFile.Patterns.Insert(0, 32);
sndFile.Patterns.Insert(1, 48);
sndFile.Patterns[1].SetName("Pattern");
sndFile.Patterns[1].SetSignature(2, 4);
TempoSwing swing;
swing.resize(2);
sndFile.Patterns[1].SetTempoSwing(swing);
sndFile.Patterns[1].GetpModCommand(37, 0)->instr = 1;
sndFile.Patterns[1].GetpModCommand(37, 1)->instr = 2;
sndFile.Patterns[1].GetpModCommand(37, 2)->instr = 3;
sndFile.Patterns[1].GetpModCommand(37, 3)->instr = 4;
modDoc->ReArrangeChannels({ 3, 2, CHANNELINDEX_INVALID, 0 });
modDoc->ReArrangeChannels({ 0, 1, 1, CHANNELINDEX_INVALID, 3 });
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetName(), "Pattern");
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetRowsPerBeat(), 2);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetRowsPerMeasure(), 4);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetTempoSwing(), swing);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(37, 0)->instr, 4);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(37, 1)->instr, 3);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(37, 2)->instr, 3);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(37, 3)->instr, 0);
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(37, 4)->instr, 1);
// Rearrange samples
sndFile.m_nSamples = 2;
sndFile.GetSample(1).filename = "1";
sndFile.m_szNames[1] = "1";
sndFile.GetSample(2).filename = "2";
sndFile.m_szNames[2] = "2";
sndFile.GetSample(2).nLength = 16;
sndFile.GetSample(2).AllocateSample();
modDoc->ReArrangeSamples({ 2, SAMPLEINDEX_INVALID, 1 });
VERIFY_EQUAL_NONCONT(sndFile.GetSample(1).HasSampleData(), true);
VERIFY_EQUAL_NONCONT(sndFile.GetSample(1).filename, "2");
VERIFY_EQUAL_NONCONT(sndFile.m_szNames[1], "2");
VERIFY_EQUAL_NONCONT(sndFile.GetSample(2).filename, "");
VERIFY_EQUAL_NONCONT(sndFile.m_szNames[2], "");
VERIFY_EQUAL_NONCONT(sndFile.GetSample(3).filename, "1");
VERIFY_EQUAL_NONCONT(sndFile.m_szNames[3], "1");
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(37, 4)->instr, 3);
// Convert / rearrange instruments
modDoc->ConvertSamplesToInstruments();
modDoc->ReArrangeInstruments({ INSTRUMENTINDEX_INVALID, 2, 1, 3 });
VERIFY_EQUAL_NONCONT(sndFile.Instruments[1]->name, "");
VERIFY_EQUAL_NONCONT(sndFile.Instruments[2]->name, "");
VERIFY_EQUAL_NONCONT(sndFile.Instruments[3]->name, "2");
VERIFY_EQUAL_NONCONT(sndFile.Instruments[4]->name, "1");
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(37, 4)->instr, 4);
modDoc->ConvertInstrumentsToSamples();
VERIFY_EQUAL_NONCONT(sndFile.Patterns[1].GetpModCommand(37, 4)->instr, 3);
modDoc->SetModified();
VERIFY_EQUAL_NONCONT(modDoc->IsModified(), true);
VERIFY_EQUAL_NONCONT(modDoc->ModifiedSinceLastAutosave(), true);
VERIFY_EQUAL_NONCONT(modDoc->ModifiedSinceLastAutosave(), false);
sndFile.Destroy();
modDoc->OnCloseDocument();
#endif
}
static void RunITCompressionTest(const std::vector<int8> &sampleData, FlagSet<ChannelFlags> smpFormat, bool it215)
{
ModSample smp;
smp.uFlags = smpFormat;
smp.pData.pSample = const_cast<int8 *>(sampleData.data());
smp.nLength = mpt::saturate_cast<SmpLength>(sampleData.size() / smp.GetBytesPerSample());
std::string data;
{
std::ostringstream f;
ITCompression compression(smp, it215, &f);
data = f.str();
}
{
FileReader file(mpt::byte_cast<mpt::const_byte_span>(mpt::as_span(data)));
std::vector<int8> sampleDataNew(sampleData.size(), 0);
smp.pData.pSample = sampleDataNew.data();
ITDecompression decompression(file, smp, it215);
VERIFY_EQUAL_NONCONT(memcmp(sampleData.data(), sampleDataNew.data(), sampleData.size()), 0);
}
}
static MPT_NOINLINE void TestITCompression()
{
// Test loading / saving of IT-compressed samples
const int sampleDataSize = 65536;
std::vector<int8> sampleData(sampleDataSize, 0);
std::srand(0);
for(int i = 0; i < sampleDataSize; i++)
{
sampleData[i] = mpt::random<int8>(*s_PRNG);
}
// Run each compression test with IT215 compression and without.
for(int i = 0; i < 2; i++)
{
RunITCompressionTest(sampleData, ChannelFlags(0), i == 0);
RunITCompressionTest(sampleData, CHN_16BIT, i == 0);
RunITCompressionTest(sampleData, CHN_STEREO, i == 0);
RunITCompressionTest(sampleData, CHN_16BIT | CHN_STEREO, i == 0);
}
}
#if 0
static bool RatioEqual(CTuningBase::RATIOTYPE a, CTuningBase::RATIOTYPE b)
{
if(a == CTuningBase::RATIOTYPE(0) && b == CTuningBase::RATIOTYPE(0))
{
return true;
}
if(a == CTuningBase::RATIOTYPE(0) || b == CTuningBase::RATIOTYPE(0))
{
return false;
}
return (std::fabs(CTuningBase::RATIOTYPE(1) - (a/b)) < CTuningBase::RATIOTYPE(0.0001));
}
static void CheckEqualTuningCollections(const CTuningCollection &a, const CTuningCollection &b)
{
VERIFY_EQUAL(a.GetName(), b.GetName());
VERIFY_EQUAL(a.GetNumTunings(), b.GetNumTunings());
for(std::size_t tuning = 0; tuning < std::min(a.GetNumTunings(), b.GetNumTunings()); ++tuning)
{
VERIFY_EQUAL(a.GetTuning(tuning).GetName(), b.GetTuning(tuning).GetName());
VERIFY_EQUAL(a.GetTuning(tuning).GetType(), b.GetTuning(tuning).GetType());
VERIFY_EQUAL(a.GetTuning(tuning).GetGroupSize(), b.GetTuning(tuning).GetGroupSize());
VERIFY_EQUAL(a.GetTuning(tuning).GetFineStepCount(), b.GetTuning(tuning).GetFineStepCount());
VERIFY_EQUAL(RatioEqual(a.GetTuning(tuning).GetGroupRatio(), b.GetTuning(tuning).GetGroupRatio()), true);
VERIFY_EQUAL(a.GetTuning(tuning).GetValidityRange(), b.GetTuning(tuning).GetValidityRange());
for(ModCommand::NOTE note = NOTE_MIN; note <= NOTE_MAX; ++note)
{
VERIFY_EQUAL(a.GetTuning(tuning).GetNoteName(note - NOTE_MIDDLEC), b.GetTuning(tuning).GetNoteName(note - NOTE_MIDDLEC));
VERIFY_EQUAL(RatioEqual(a.GetTuning(tuning).GetRatio(note - NOTE_MIDDLEC), b.GetTuning(tuning).GetRatio(note - NOTE_MIDDLEC)), true);
}
}
}
#endif
static double Rand01()
{
return mpt::random(*s_PRNG, 0.0, 1.0);
}
template <class T>
T Rand(const T min, const T max)
{
return mpt::saturate_round<T>(min + Rand01() * (max - min));
}
static void GenerateCommands(CPattern& pat, const double dProbPcs, const double dProbPc)
{
const double dPcxProb = dProbPcs + dProbPc;
for(auto &m : pat)
{
const double rand = Rand01();
if(rand < dPcxProb)
{
if(rand < dProbPcs)
m.note = NOTE_PCS;
else
m.note = NOTE_PC;
m.instr = Rand<ModCommand::INSTR>(0, MAX_MIXPLUGINS);
m.SetValueVolCol(Rand<uint16>(0, ModCommand::maxColumnValue));
m.SetValueEffectCol(Rand<uint16>(0, ModCommand::maxColumnValue));
}
else
m.Clear();
}
}
// Test PC note serialization
static MPT_NOINLINE void TestPCnoteSerialization()
{
FileReader file;
std::unique_ptr<CSoundFile> pSndFile = std::make_unique<CSoundFile>();
CSoundFile &sndFile = *pSndFile.get();
sndFile.m_nType = MOD_TYPE_MPT;
sndFile.Patterns.DestroyPatterns();
sndFile.m_nChannels = ModSpecs::mptm.channelsMax;
sndFile.Patterns.Insert(0, ModSpecs::mptm.patternRowsMin);
sndFile.Patterns.Insert(1, 64);
GenerateCommands(sndFile.Patterns[1], 0.3, 0.3);
sndFile.Patterns.Insert(2, ModSpecs::mptm.patternRowsMax);
GenerateCommands(sndFile.Patterns[2], 0.5, 0.5);
// Copy pattern data for comparison.
CPatternContainer patterns{ sndFile.Patterns };
std::stringstream mem;
WriteModPatterns(mem, sndFile.Patterns);
VERIFY_EQUAL_NONCONT( mem.good(), true );
// Clear patterns.
sndFile.Patterns[0].ClearCommands();
sndFile.Patterns[1].ClearCommands();
sndFile.Patterns[2].ClearCommands();
// Read data back.
ReadModPatterns(mem, sndFile.Patterns);
// Compare.
VERIFY_EQUAL_NONCONT( sndFile.Patterns[0].GetNumRows(), ModSpecs::mptm.patternRowsMin);
VERIFY_EQUAL_NONCONT( sndFile.Patterns[1].GetNumRows(), 64);
VERIFY_EQUAL_NONCONT( sndFile.Patterns[2].GetNumRows(), ModSpecs::mptm.patternRowsMax);
for(int i = 0; i < 3; i++)
{
VERIFY_EQUAL(sndFile.Patterns[i], patterns[i]);
}
}
static inline std::size_t strnlen(const char *str, std::size_t n)
{
#if MPT_COMPILER_MSVC
return ::strnlen(str, n);
#else
if(n >= std::numeric_limits<std::size_t>::max())
{
return std::strlen(str);
}
for(std::size_t i = 0; i < n; ++i)
{
if(str[i] == '\0')
{
return i;
}
}
return n;
#endif
}
// Test String I/O functionality
static MPT_NOINLINE void TestStringIO()
{
char src0[4] = { '\0', 'X', ' ', 'X' }; // Weird empty buffer
char src1[4] = { 'X', ' ', '\0', 'X' }; // Weird buffer (hello Impulse Tracker)
char src2[4] = { 'X', 'Y', 'Z', ' ' }; // Full buffer, last character space
char src3[4] = { 'X', 'Y', 'Z', '!' }; // Full buffer, last character non-space
char src4[4] = { 'x', 'y', '\t', '\n' }; // Full buffer containing non-space whitespace
char dst1[6]; // Destination buffer, larger than source buffer
char dst2[3]; // Destination buffer, smaller than source buffer
#define ReadTest(mode, dst, src, expectedResult) \
std::memset(dst, 0x7f, sizeof(dst)); \
mpt::String::WriteAutoBuf(dst) = mpt::String::ReadBuf(mpt::String:: mode , src); \
VERIFY_EQUAL_NONCONT(strncmp(dst, expectedResult, std::size(dst)), 0); /* Ensure that the strings are identical */ \
for(size_t i = strlen(dst); i < std::size(dst); i++) \
VERIFY_EQUAL_NONCONT(dst[i], '\0'); /* Ensure that rest of the buffer is completely nulled */ \
/**/
#define WriteTest(mode, dst, src, expectedResult) \
std::memset(dst, 0x7f, sizeof(dst)); \
mpt::String::WriteBuf(mpt::String:: mode , dst) = mpt::String::ReadAutoBuf(src); \
VERIFY_EQUAL_NONCONT(strncmp(dst, expectedResult, std::size(dst)), 0); /* Ensure that the strings are identical */ \
for(size_t i = Test::strnlen(dst, std::size(dst)); i < std::size(dst); i++) \
VERIFY_EQUAL_NONCONT(dst[i], '\0'); /* Ensure that rest of the buffer is completely nulled */ \
/**/
// Check reading of null-terminated string into larger buffer
ReadTest(nullTerminated, dst1, src0, "");
ReadTest(nullTerminated, dst1, src1, "X ");
ReadTest(nullTerminated, dst1, src2, "XYZ");
ReadTest(nullTerminated, dst1, src3, "XYZ");
ReadTest(nullTerminated, dst1, src4, "xy\t");
// Check reading of string that should be null-terminated, but is maybe too long to still hold the null character.
ReadTest(maybeNullTerminated, dst1, src0, "");
ReadTest(maybeNullTerminated, dst1, src1, "X ");
ReadTest(maybeNullTerminated, dst1, src2, "XYZ ");
ReadTest(maybeNullTerminated, dst1, src3, "XYZ!");
ReadTest(maybeNullTerminated, dst1, src4, "xy\t\n");
// Check reading of space-padded strings with ignored last character
ReadTest(spacePaddedNull, dst1, src0, " X");
ReadTest(spacePaddedNull, dst1, src1, "X");
ReadTest(spacePaddedNull, dst1, src2, "XYZ");
ReadTest(spacePaddedNull, dst1, src3, "XYZ");
ReadTest(spacePaddedNull, dst1, src4, "xy\t");
// Check reading of space-padded strings
ReadTest(spacePadded, dst1, src0, " X X");
ReadTest(spacePadded, dst1, src1, "X X");
ReadTest(spacePadded, dst1, src2, "XYZ");
ReadTest(spacePadded, dst1, src3, "XYZ!");
ReadTest(spacePadded, dst1, src4, "xy\t\n");
///////////////////////////////
// Check reading of null-terminated string into smaller buffer
ReadTest(nullTerminated, dst2, src0, "");
ReadTest(nullTerminated, dst2, src1, "X ");
ReadTest(nullTerminated, dst2, src2, "XY");
ReadTest(nullTerminated, dst2, src3, "XY");
ReadTest(nullTerminated, dst2, src4, "xy");
// Check reading of string that should be null-terminated, but is maybe too long to still hold the null character.
ReadTest(maybeNullTerminated, dst2, src0, "");
ReadTest(maybeNullTerminated, dst2, src1, "X ");
ReadTest(maybeNullTerminated, dst2, src2, "XY");
ReadTest(maybeNullTerminated, dst2, src3, "XY");
ReadTest(maybeNullTerminated, dst2, src4, "xy");
// Check reading of space-padded strings with ignored last character
ReadTest(spacePaddedNull, dst2, src0, " X");
ReadTest(spacePaddedNull, dst2, src1, "X");
ReadTest(spacePaddedNull, dst2, src2, "XY");
ReadTest(spacePaddedNull, dst2, src3, "XY");
ReadTest(spacePaddedNull, dst2, src4, "xy");
// Check reading of space-padded strings
ReadTest(spacePadded, dst2, src0, " X");
ReadTest(spacePadded, dst2, src1, "X ");
ReadTest(spacePadded, dst2, src2, "XY");
ReadTest(spacePadded, dst2, src3, "XY");
ReadTest(spacePadded, dst2, src4, "xy");
///////////////////////////////
// Check writing of null-terminated string into larger buffer
WriteTest(nullTerminated, dst1, src0, "");
WriteTest(nullTerminated, dst1, src1, "X ");
WriteTest(nullTerminated, dst1, src2, "XYZ ");
WriteTest(nullTerminated, dst1, src3, "XYZ!");
// Check writing of string that should be null-terminated, but is maybe too long to still hold the null character.
WriteTest(maybeNullTerminated, dst1, src0, "");
WriteTest(maybeNullTerminated, dst1, src1, "X ");
WriteTest(maybeNullTerminated, dst1, src2, "XYZ ");
WriteTest(maybeNullTerminated, dst1, src3, "XYZ!");
// Check writing of space-padded strings with last character set to null
WriteTest(spacePaddedNull, dst1, src0, " ");
WriteTest(spacePaddedNull, dst1, src1, "X ");
WriteTest(spacePaddedNull, dst1, src2, "XYZ ");
WriteTest(spacePaddedNull, dst1, src3, "XYZ! ");
// Check writing of space-padded strings
WriteTest(spacePadded, dst1, src0, " ");
WriteTest(spacePadded, dst1, src1, "X ");
WriteTest(spacePadded, dst1, src2, "XYZ ");
WriteTest(spacePadded, dst1, src3, "XYZ! ");
///////////////////////////////
// Check writing of null-terminated string into smaller buffer
WriteTest(nullTerminated, dst2, src0, "");
WriteTest(nullTerminated, dst2, src1, "X ");
WriteTest(nullTerminated, dst2, src2, "XY");
WriteTest(nullTerminated, dst2, src3, "XY");
// Check writing of string that should be null-terminated, but is maybe too long to still hold the null character.
WriteTest(maybeNullTerminated, dst2, src0, "");
WriteTest(maybeNullTerminated, dst2, src1, "X ");
WriteTest(maybeNullTerminated, dst2, src2, "XYZ");
WriteTest(maybeNullTerminated, dst2, src3, "XYZ");
// Check writing of space-padded strings with last character set to null
WriteTest(spacePaddedNull, dst2, src0, " ");
WriteTest(spacePaddedNull, dst2, src1, "X ");
WriteTest(spacePaddedNull, dst2, src2, "XY");
WriteTest(spacePaddedNull, dst2, src3, "XY");
// Check writing of space-padded strings
WriteTest(spacePadded, dst2, src0, " ");
WriteTest(spacePadded, dst2, src1, "X ");
WriteTest(spacePadded, dst2, src2, "XYZ");
WriteTest(spacePadded, dst2, src3, "XYZ");
#undef ReadTest
#undef WriteTest
{
std::string dststring;
std::string src0string = std::string(src0, std::size(src0));
std::string src1string = std::string(src1, std::size(src1));
std::string src2string = std::string(src2, std::size(src2));
std::string src3string = std::string(src3, std::size(src3));
#define ReadTest(mode, dst, src, expectedResult) \
dst = mpt::String::ReadBuf(mpt::String:: mode , src); \
VERIFY_EQUAL_NONCONT(dst, expectedResult); /* Ensure that the strings are identical */ \
/**/
#define WriteTest(mode, dst, src, expectedResult) \
std::memset(dst, 0x7f, sizeof(dst)); \
mpt::String::WriteBuf(mpt::String:: mode , dst) = src; \
VERIFY_EQUAL_NONCONT(strncmp(dst, expectedResult, std::size(dst)), 0); /* Ensure that the strings are identical */ \
for(size_t i = Test::strnlen(dst, std::size(dst)); i < std::size(dst); i++) \
VERIFY_EQUAL_NONCONT(dst[i], '\0'); /* Ensure that rest of the buffer is completely nulled */ \
/**/
// Check reading of null-terminated string into std::string
ReadTest(nullTerminated, dststring, src0, "");
ReadTest(nullTerminated, dststring, src1, "X ");
ReadTest(nullTerminated, dststring, src2, "XYZ");
ReadTest(nullTerminated, dststring, src3, "XYZ");
ReadTest(nullTerminated, dststring, src4, "xy\t");
// Check reading of string that should be null-terminated, but is maybe too long to still hold the null character.
ReadTest(maybeNullTerminated, dststring, src0, "");
ReadTest(maybeNullTerminated, dststring, src1, "X ");
ReadTest(maybeNullTerminated, dststring, src2, "XYZ ");
ReadTest(maybeNullTerminated, dststring, src3, "XYZ!");
ReadTest(maybeNullTerminated, dststring, src4, "xy\t\n");
// Check reading of space-padded strings with ignored last character
ReadTest(spacePaddedNull, dststring, src0, " X");
ReadTest(spacePaddedNull, dststring, src1, "X");
ReadTest(spacePaddedNull, dststring, src2, "XYZ");
ReadTest(spacePaddedNull, dststring, src3, "XYZ");
ReadTest(spacePaddedNull, dststring, src4, "xy\t");
// Check reading of space-padded strings
ReadTest(spacePadded, dststring, src0, " X X");
ReadTest(spacePadded, dststring, src1, "X X");
ReadTest(spacePadded, dststring, src2, "XYZ");
ReadTest(spacePadded, dststring, src3, "XYZ!");
ReadTest(spacePadded, dststring, src4, "xy\t\n");
///////////////////////////////
// Check writing of null-terminated string into larger buffer
WriteTest(nullTerminated, dst1, src0string, "");
WriteTest(nullTerminated, dst1, src1string, "X ");
WriteTest(nullTerminated, dst1, src2string, "XYZ ");
WriteTest(nullTerminated, dst1, src3string, "XYZ!");
// Check writing of string that should be null-terminated, but is maybe too long to still hold the null character.
WriteTest(maybeNullTerminated, dst1, src0string, "");
WriteTest(maybeNullTerminated, dst1, src1string, "X ");
WriteTest(maybeNullTerminated, dst1, src2string, "XYZ ");
WriteTest(maybeNullTerminated, dst1, src3string, "XYZ!");
// Check writing of space-padded strings with last character set to null
WriteTest(spacePaddedNull, dst1, src0string, " ");
WriteTest(spacePaddedNull, dst1, src1string, "X ");
WriteTest(spacePaddedNull, dst1, src2string, "XYZ ");
WriteTest(spacePaddedNull, dst1, src3string, "XYZ! ");
// Check writing of space-padded strings
WriteTest(spacePadded, dst1, src0string, " ");
WriteTest(spacePadded, dst1, src1string, "X ");
WriteTest(spacePadded, dst1, src2string, "XYZ ");
WriteTest(spacePadded, dst1, src3string, "XYZ! ");
///////////////////////////////
// Check writing of null-terminated string into smaller buffer
WriteTest(nullTerminated, dst2, src0string, "");
WriteTest(nullTerminated, dst2, src1string, "X ");
WriteTest(nullTerminated, dst2, src2string, "XY");
WriteTest(nullTerminated, dst2, src3string, "XY");
// Check writing of string that should be null-terminated, but is maybe too long to still hold the null character.
WriteTest(maybeNullTerminated, dst2, src0string, "");
WriteTest(maybeNullTerminated, dst2, src1string, "X ");
WriteTest(maybeNullTerminated, dst2, src2string, "XYZ");
WriteTest(maybeNullTerminated, dst2, src3string, "XYZ");
// Check writing of space-padded strings with last character set to null
WriteTest(spacePaddedNull, dst2, src0string, " ");
WriteTest(spacePaddedNull, dst2, src1string, "X ");
WriteTest(spacePaddedNull, dst2, src2string, "XY");
WriteTest(spacePaddedNull, dst2, src3string, "XY");
// Check writing of space-padded strings
WriteTest(spacePadded, dst2, src0string, " ");
WriteTest(spacePadded, dst2, src1string, "X ");
WriteTest(spacePadded, dst2, src2string, "XYZ");
WriteTest(spacePadded, dst2, src3string, "XYZ");
///////////////////////////////
#undef ReadTest
#undef WriteTest
}
{
char s0[4] = {'\0', 'X', ' ', 'X' };
char s2[4] = { 'X', ' ','\0', 'X' };
char s4[4] = { 'X', 'Y', 'Z', ' ' };
char d2[2] = {'\0','\0'};
char d3[3] = {'\0','\0','\0'};
char d4[4] = {'\0','\0','\0','\0'};
char d5[5] = {'\0','\0','\0','\0','\0'};
#define CopyTest(dst, src, expectedResult) \
std::memset(dst, 0x7f, sizeof(dst)); \
mpt::String::WriteAutoBuf(dst) = mpt::String::ReadAutoBuf(src); \
VERIFY_EQUAL_NONCONT(strncmp(dst, expectedResult, std::size(dst)), 0); /* Ensure that the strings are identical */ \
for(size_t i = strlen(dst); i < std::size(dst); i++) \
VERIFY_EQUAL_NONCONT(dst[i], '\0'); /* Ensure that rest of the buffer is completely nulled */ \
/**/
CopyTest(d2, s0, "");
CopyTest(d2, s2, "X");
CopyTest(d2, s4, "X");
CopyTest(d3, s0, "");
CopyTest(d3, s2, "X ");
CopyTest(d3, s4, "XY");
CopyTest(d4, s0, "");
CopyTest(d4, s2, "X ");
CopyTest(d4, s4, "XYZ");
CopyTest(d5, s0, "");
CopyTest(d5, s2, "X ");
CopyTest(d5, s4, "XYZ ");
#undef CopyTest
#define CopyTestN(dst, src, len, expectedResult) \
std::memset(dst, 0x7f, sizeof(dst)); \
mpt::String::WriteAutoBuf(dst) = mpt::String::ReadAutoBuf(src, std::min(std::size(src), static_cast<std::size_t>(len))); \
VERIFY_EQUAL_NONCONT(strncmp(dst, expectedResult, std::size(dst)), 0); /* Ensure that the strings are identical */ \
for(size_t i = strlen(dst); i < std::size(dst); i++) \
VERIFY_EQUAL_NONCONT(dst[i], '\0'); /* Ensure that rest of the buffer is completely nulled */ \
/**/
CopyTestN(d2, s0, 1, "");
CopyTestN(d2, s2, 1, "X");
CopyTestN(d2, s4, 1, "X");
CopyTestN(d3, s0, 1, "");
CopyTestN(d3, s2, 1, "X");
CopyTestN(d3, s4, 1, "X");
CopyTestN(d4, s0, 1, "");
CopyTestN(d4, s2, 1, "X");
CopyTestN(d4, s4, 1, "X");
CopyTestN(d5, s0, 1, "");
CopyTestN(d5, s2, 1, "X");
CopyTestN(d5, s4, 1, "X");
CopyTestN(d2, s0, 2, "");
CopyTestN(d2, s2, 2, "X");
CopyTestN(d2, s4, 2, "X");
CopyTestN(d3, s0, 2, "");
CopyTestN(d3, s2, 2, "X ");
CopyTestN(d3, s4, 2, "XY");
CopyTestN(d4, s0, 2, "");
CopyTestN(d4, s2, 2, "X ");
CopyTestN(d4, s4, 2, "XY");
CopyTestN(d5, s0, 2, "");
CopyTestN(d5, s2, 2, "X ");
CopyTestN(d5, s4, 2, "XY");
CopyTestN(d2, s0, 3, "");
CopyTestN(d2, s2, 3, "X");
CopyTestN(d2, s4, 3, "X");
CopyTestN(d3, s0, 3, "");
CopyTestN(d3, s2, 3, "X ");
CopyTestN(d3, s4, 3, "XY");
CopyTestN(d4, s0, 3, "");
CopyTestN(d4, s2, 3, "X ");
CopyTestN(d4, s4, 3, "XYZ");
CopyTestN(d5, s0, 3, "");
CopyTestN(d5, s2, 3, "X ");
CopyTestN(d5, s4, 3, "XYZ");
CopyTestN(d2, s0, 4, "");
CopyTestN(d2, s2, 4, "X");
CopyTestN(d2, s4, 4, "X");
CopyTestN(d3, s0, 4, "");
CopyTestN(d3, s2, 4, "X ");
CopyTestN(d3, s4, 4, "XY");
CopyTestN(d4, s0, 4, "");
CopyTestN(d4, s2, 4, "X ");
CopyTestN(d4, s4, 4, "XYZ");
CopyTestN(d5, s0, 4, "");
CopyTestN(d5, s2, 4, "X ");
CopyTestN(d5, s4, 4, "XYZ ");
CopyTestN(d2, s0, 5, "");
CopyTestN(d2, s2, 5, "X");
CopyTestN(d2, s4, 5, "X");
CopyTestN(d3, s0, 5, "");
CopyTestN(d3, s2, 5, "X ");
CopyTestN(d3, s4, 5, "XY");
CopyTestN(d4, s0, 5, "");
CopyTestN(d4, s2, 5, "X ");
CopyTestN(d4, s4, 5, "XYZ");
CopyTestN(d5, s0, 5, "");
CopyTestN(d5, s2, 5, "X ");
CopyTestN(d5, s4, 5, "XYZ ");
#undef CopyTest
}
}
static MPT_NOINLINE void TestSampleConversion()
{
std::vector<uint8> sourceBufContainer(65536 * 4);
std::vector<uint8> targetBufContainer(65536 * 6);
uint8 *sourceBuf = &(sourceBufContainer[0]);
void *targetBuf = &(targetBufContainer[0]);
// Signed 8-Bit Integer PCM
// Unsigned 8-Bit Integer PCM
// Delta 8-Bit Integer PCM
{
uint8 *source8 = sourceBuf;
for(size_t i = 0; i < 256; i++)
{
source8[i] = static_cast<uint8>(i);
}
int8 *signed8 = static_cast<int8 *>(targetBuf);
uint8 *unsigned8 = static_cast<uint8 *>(targetBuf) + 256;
int8 *delta8 = static_cast<int8 *>(targetBuf) + 512;
int8 delta = 0;
CopySample<SC::DecodeInt8>(signed8, 256, 1, mpt::byte_cast<const std::byte *>(source8), 256, 1);
CopySample<SC::DecodeUint8>(reinterpret_cast<int8 *>(unsigned8), 256, 1, mpt::byte_cast<const std::byte *>(source8), 256, 1);
CopySample<SC::DecodeInt8Delta>(delta8, 256, 1, mpt::byte_cast<const std::byte *>(source8), 256, 1);
for(size_t i = 0; i < 256; i++)
{
delta += static_cast<int8>(i);
VERIFY_EQUAL_QUIET_NONCONT(signed8[i], static_cast<int8>(i));
VERIFY_EQUAL_QUIET_NONCONT(unsigned8[i], static_cast<uint8>(i + 0x80u));
VERIFY_EQUAL_QUIET_NONCONT(delta8[i], static_cast<int8>(delta));
}
}
// Signed 16-Bit Integer PCM
// Unsigned 16-Bit Integer PCM
// Delta 16-Bit Integer PCM
{
// Little Endian
uint8 *source16 = sourceBuf;
for(size_t i = 0; i < 65536; i++)
{
source16[i * 2 + 0] = static_cast<uint8>(i & 0xFF);
source16[i * 2 + 1] = static_cast<uint8>(i >> 8);
}
int16 *signed16 = static_cast<int16 *>(targetBuf);
uint16 *unsigned16 = static_cast<uint16 *>(targetBuf) + 65536;
int16 *delta16 = static_cast<int16 *>(targetBuf) + 65536 * 2;
int16 delta = 0;
CopySample<SC::DecodeInt16<0, littleEndian16> >(signed16, 65536, 1, mpt::byte_cast<const std::byte *>(source16), 65536 * 2, 1);
CopySample<SC::DecodeInt16<0x8000u, littleEndian16> >(reinterpret_cast<int16*>(unsigned16), 65536, 1, mpt::byte_cast<const std::byte *>(source16), 65536 * 2, 1);
CopySample<SC::DecodeInt16Delta<littleEndian16> >(delta16, 65536, 1, mpt::byte_cast<const std::byte *>(source16), 65536 * 2, 1);
for(size_t i = 0; i < 65536; i++)
{
delta += static_cast<int16>(i);
VERIFY_EQUAL_QUIET_NONCONT(signed16[i], static_cast<int16>(i));
VERIFY_EQUAL_QUIET_NONCONT(unsigned16[i], static_cast<uint16>(i + 0x8000u));
VERIFY_EQUAL_QUIET_NONCONT(delta16[i], static_cast<int16>(delta));
}
// Big Endian
for(size_t i = 0; i < 65536; i++)
{
source16[i * 2 + 0] = static_cast<uint8>(i >> 8);
source16[i * 2 + 1] = static_cast<uint8>(i & 0xFF);
}
CopySample<SC::DecodeInt16<0, bigEndian16> >(signed16, 65536, 1, mpt::byte_cast<const std::byte *>(source16), 65536 * 2, 1);
CopySample<SC::DecodeInt16<0x8000u, bigEndian16> >(reinterpret_cast<int16*>(unsigned16), 65536, 1, mpt::byte_cast<const std::byte *>(source16), 65536 * 2, 1);
CopySample<SC::DecodeInt16Delta<bigEndian16> >(delta16, 65536, 1, mpt::byte_cast<const std::byte *>(source16), 65536 * 2, 1);
delta = 0;
for(size_t i = 0; i < 65536; i++)
{
delta += static_cast<int16>(i);
VERIFY_EQUAL_QUIET_NONCONT(signed16[i], static_cast<int16>(i));
VERIFY_EQUAL_QUIET_NONCONT(unsigned16[i], static_cast<uint16>(i + 0x8000u));
VERIFY_EQUAL_QUIET_NONCONT(delta16[i], static_cast<int16>(delta));
}
}
// Signed 24-Bit Integer PCM
{
uint8 *source24 = sourceBuf;
for(size_t i = 0; i < 65536; i++)
{
source24[i * 3 + 0] = 0;
source24[i * 3 + 1] = static_cast<uint8>(i & 0xFF);
source24[i * 3 + 2] = static_cast<uint8>(i >> 8);
}
int16 *truncated16 = static_cast<int16 *>(targetBuf);
ModSample sample;
sample.Initialize();
sample.nLength = 65536;
sample.uFlags.set(CHN_16BIT);
sample.pData.pSample = (static_cast<int16 *>(targetBuf) + 65536);
CopyAndNormalizeSample<SC::NormalizationChain<SC::Convert<int16, int32>, SC::DecodeInt24<0, littleEndian24> > >(sample, mpt::byte_cast<const std::byte *>(source24), 3*65536);
CopySample<SC::ConversionChain<SC::ConvertShift<int16, int32, 16>, SC::DecodeInt24<0, littleEndian24> > >(truncated16, 65536, 1, mpt::byte_cast<const std::byte *>(source24), 65536 * 3, 1);
for(size_t i = 0; i < 65536; i++)
{
VERIFY_EQUAL_QUIET_NONCONT(sample.sample16()[i], static_cast<int16>(i));
VERIFY_EQUAL_QUIET_NONCONT(truncated16[i], static_cast<int16>(i));
}
}
// Float 32-Bit
{
uint8 *source32 = sourceBuf;
for(size_t i = 0; i < 65536; i++)
{
IEEE754binary32BE floatbits = IEEE754binary32BE((static_cast<float>(i) / 65536.0f) - 0.5f);
source32[i * 4 + 0] = mpt::byte_cast<uint8>(floatbits.GetByte(0));
source32[i * 4 + 1] = mpt::byte_cast<uint8>(floatbits.GetByte(1));
source32[i * 4 + 2] = mpt::byte_cast<uint8>(floatbits.GetByte(2));
source32[i * 4 + 3] = mpt::byte_cast<uint8>(floatbits.GetByte(3));
}
int16 *truncated16 = static_cast<int16 *>(targetBuf);
ModSample sample;
sample.Initialize();
sample.nLength = 65536;
sample.uFlags.set(CHN_16BIT);
sample.pData.pSample = static_cast<int16 *>(targetBuf) + 65536;
CopyAndNormalizeSample<SC::NormalizationChain<SC::Convert<int16, float32>, SC::DecodeFloat32<bigEndian32> > >(sample, mpt::byte_cast<const std::byte *>(source32), 4*65536);
CopySample<SC::ConversionChain<SC::Convert<int16, float32>, SC::DecodeFloat32<bigEndian32> > >(truncated16, 65536, 1, mpt::byte_cast<const std::byte *>(source32), 65536 * 4, 1);
for(size_t i = 0; i < 65536; i++)
{
VERIFY_EQUAL_QUIET_NONCONT(sample.sample16()[i], static_cast<int16>(i - 0x8000u));
VERIFY_EQUAL_QUIET_NONCONT(std::abs(truncated16[i] - static_cast<int16>((i - 0x8000u) / 2)) <= 1, true);
}
}
// ALaw
{
for(unsigned int i = 0; i < 256; ++i)
{
std::byte in = mpt::byte_cast<std::byte>(static_cast<uint8>(i));
std::byte out = SC::EncodeALaw{}(SC::DecodeInt16ALaw{}(&in));
VERIFY_EQUAL_NONCONT(in, out);
}
VERIFY_EQUAL_NONCONT(SC::EncodeALaw{}(-32768), SC::EncodeALaw{}(-32256));
VERIFY_EQUAL_NONCONT(SC::EncodeALaw{}(-32767), SC::EncodeALaw{}(-32256));
VERIFY_EQUAL_NONCONT(SC::EncodeALaw{}(-1), SC::EncodeALaw{}(-8));
VERIFY_EQUAL_NONCONT(SC::EncodeALaw{}(0), SC::EncodeALaw{}(8));
VERIFY_EQUAL_NONCONT(SC::EncodeALaw{}(1), SC::EncodeALaw{}(8));
VERIFY_EQUAL_NONCONT(SC::EncodeALaw{}(32766), SC::EncodeALaw{}(32256));
VERIFY_EQUAL_NONCONT(SC::EncodeALaw{}(32767), SC::EncodeALaw{}(32256));
#if 0
// compare with reference impl
for (int i = -32768; i <= 32767; ++i)
{
VERIFY_EQUAL_NONCONT(SC::EncodeALaw{}(i), mpt::byte_cast<std::byte>(alaw_encode(i)));
}
#endif
}
// uLaw
{
for(unsigned int i = 0; i < 256; ++i)
{
std::byte in = mpt::byte_cast<std::byte>(static_cast<uint8>(i));
std::byte out = SC::EncodeuLaw{}(SC::DecodeInt16uLaw{}(&in));
VERIFY_EQUAL_NONCONT(in, out);
}
#if 0
// compare with reference impl
/*
bool lastMatch = true;
*/
for(int i = -32768; i <= 32767; ++i)
{
/*
uint8 mine = mpt::byte_cast<uint8>(SC::EncodeuLaw{}(i));
uint8 ref = ulaw_encode(i);
if(lastMatch)
{
if(mine == ref)
{
VERIFY_EQUAL_NONCONT(mine, ref);
lastMatch = true;
} else
{
VERIFY_EQUAL_NONCONT(std::abs(static_cast<int>(mine) - static_cast<int>(ref)) <= 1, true);
lastMatch = false;
}
} else
{
VERIFY_EQUAL_NONCONT(mine, ref);
lastMatch = true;
}
*/
//MPT_LOG_GLOBAL(LogNotification, "test", MPT_UFORMAT("{} {} {}")(i, ulaw_encode(i), mpt::byte_cast<uint8>(SC::EncodeuLaw{}(i))));
VERIFY_EQUAL_NONCONT(SC::EncodeuLaw{}(i), mpt::byte_cast<std::byte>(ulaw_encode(i)));
}
#endif
}
// Range checks
{
int8 oneSample = 1;
char *signed8 = reinterpret_cast<char *>(targetBuf);
memset(signed8, 0, 4);
CopySample<SC::DecodeInt8>(reinterpret_cast<int8*>(targetBuf), 4, 1, reinterpret_cast<const std::byte*>(&oneSample), sizeof(oneSample), 1);
VERIFY_EQUAL_NONCONT(signed8[0], 1);
VERIFY_EQUAL_NONCONT(signed8[1], 0);
VERIFY_EQUAL_NONCONT(signed8[2], 0);
VERIFY_EQUAL_NONCONT(signed8[3], 0);
}
// Dither
{
std::vector<MixSampleInt> buffer(64);
DithersOpenMPT dithers(mpt::global_random_device(), 2 /* DitherModPlug */ , 2);
for(std::size_t i = 0; i < 64; ++i)
{
std::visit(
[&](auto &dither)
{
buffer[i] = dither.template process<16>(0, buffer[i]);
},
dithers.Variant()
);
}
std::vector<MixSampleInt> expected = {
727,
-557,
-552,
-727,
439,
405,
703,
-337,
235,
-776,
-458,
905,
-110,
158,
374,
-362,
283,
306,
710,
304,
-608,
536,
-501,
-593,
-349,
812,
916,
53,
-953,
881,
-236,
-20,
-623,
-895,
-302,
-415,
899,
-948,
-766,
-186,
-390,
-169,
253,
-622,
-769,
-1001,
1019,
787,
-239,
718,
-423,
988,
-91,
763,
-933,
-510,
484,
794,
-340,
552,
866,
-608,
35,
395};
for(std::size_t i = 0; i < 64; ++i)
{
VERIFY_EQUAL_QUIET_NONCONT(buffer[i], expected[i]);
}
}
}
} // namespace Test
OPENMPT_NAMESPACE_END
#else //Case: ENABLE_TESTS is not defined.
OPENMPT_NAMESPACE_BEGIN
namespace Test {
void DoTests()
{
return;
}
} // namespace Test
OPENMPT_NAMESPACE_END
#endif