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/*
Minetest
Copyright (C) 2013 celeron55, Perttu Ahola <celeron55@gmail.com>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2.1 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include "test.h"
#include "util/string.h"
#include "util/serialize.h"
#include <cmath>
class TestSerialization : public TestBase {
public:
TestSerialization() { TestManager::registerTestModule(this); }
const char *getName() { return "TestSerialization"; }
void runTests(IGameDef *gamedef);
void buildTestStrings();
void testSerializeString();
void testSerializeLongString();
void testSerializeJsonString();
void testDeSerializeString();
void testDeSerializeLongString();
void testStreamRead();
void testStreamWrite();
void testFloatFormat();
std::string teststring2;
std::wstring teststring2_w;
std::string teststring2_w_encoded;
static const u8 test_serialized_data[12 * 11 - 2];
};
static TestSerialization g_test_instance;
void TestSerialization::runTests(IGameDef *gamedef)
{
buildTestStrings();
TEST(testSerializeString);
TEST(testDeSerializeString);
TEST(testSerializeLongString);
TEST(testDeSerializeLongString);
TEST(testSerializeJsonString);
TEST(testStreamRead);
TEST(testStreamWrite);
TEST(testFloatFormat);
}
////////////////////////////////////////////////////////////////////////////////
// To be used like this:
// mkstr("Some\0string\0with\0embedded\0nuls")
// since std::string("...") doesn't work as expected in that case.
template<size_t N> std::string mkstr(const char (&s)[N])
{
return std::string(s, N - 1);
}
void TestSerialization::buildTestStrings()
{
std::ostringstream tmp_os;
std::wostringstream tmp_os_w;
std::ostringstream tmp_os_w_encoded;
for (int i = 0; i < 256; i++) {
tmp_os << (char)i;
tmp_os_w << (wchar_t)i;
tmp_os_w_encoded << (char)0 << (char)i;
}
teststring2 = tmp_os.str();
teststring2_w = tmp_os_w.str();
teststring2_w_encoded = tmp_os_w_encoded.str();
}
void TestSerialization::testSerializeString()
{
// Test blank string
UASSERT(serializeString16("") == mkstr("\0\0"));
// Test basic string
UASSERT(serializeString16("Hello world!") == mkstr("\0\14Hello world!"));
// Test character range
UASSERT(serializeString16(teststring2) == mkstr("\1\0") + teststring2);
}
void TestSerialization::testDeSerializeString()
{
// Test deserialize
{
std::istringstream is(serializeString16(teststring2), std::ios::binary);
UASSERT(deSerializeString16(is) == teststring2);
UASSERT(!is.eof());
is.get();
UASSERT(is.eof());
}
// Test deserialize an incomplete length specifier
{
std::istringstream is(mkstr("\x53"), std::ios::binary);
EXCEPTION_CHECK(SerializationError, deSerializeString16(is));
}
// Test deserialize a string with incomplete data
{
std::istringstream is(mkstr("\x00\x55 abcdefg"), std::ios::binary);
EXCEPTION_CHECK(SerializationError, deSerializeString16(is));
}
}
void TestSerialization::testSerializeLongString()
{
// Test blank string
UASSERT(serializeString32("") == mkstr("\0\0\0\0"));
// Test basic string
UASSERT(serializeString32("Hello world!") == mkstr("\0\0\0\14Hello world!"));
// Test character range
UASSERT(serializeString32(teststring2) == mkstr("\0\0\1\0") + teststring2);
}
void TestSerialization::testDeSerializeLongString()
{
// Test deserialize
{
std::istringstream is(serializeString32(teststring2), std::ios::binary);
UASSERT(deSerializeString32(is) == teststring2);
UASSERT(!is.eof());
is.get();
UASSERT(is.eof());
}
// Test deserialize an incomplete length specifier
{
std::istringstream is(mkstr("\x53"), std::ios::binary);
EXCEPTION_CHECK(SerializationError, deSerializeString32(is));
}
// Test deserialize a string with incomplete data
{
std::istringstream is(mkstr("\x00\x00\x00\x05 abc"), std::ios::binary);
EXCEPTION_CHECK(SerializationError, deSerializeString32(is));
}
// Test deserialize a string with a length too large
{
std::istringstream is(mkstr("\xFF\xFF\xFF\xFF blah"), std::ios::binary);
EXCEPTION_CHECK(SerializationError, deSerializeString32(is));
}
}
void TestSerialization::testSerializeJsonString()
{
// Test blank string
UASSERT(serializeJsonString("") == "\"\"");
// Test basic string
UASSERT(serializeJsonString("Hello world!") == "\"Hello world!\"");
// MSVC fails when directly using "\\\\"
std::string backslash = "\\";
UASSERT(serializeJsonString(teststring2) ==
mkstr("\"") +
"\\u0000\\u0001\\u0002\\u0003\\u0004\\u0005\\u0006\\u0007" +
"\\b\\t\\n\\u000b\\f\\r\\u000e\\u000f" +
"\\u0010\\u0011\\u0012\\u0013\\u0014\\u0015\\u0016\\u0017" +
"\\u0018\\u0019\\u001a\\u001b\\u001c\\u001d\\u001e\\u001f" +
" !\\\"" + teststring2.substr(0x23, 0x2f-0x23) +
"\\/" + teststring2.substr(0x30, 0x5c-0x30) +
backslash + backslash + teststring2.substr(0x5d, 0x7f-0x5d) + "\\u007f" +
"\\u0080\\u0081\\u0082\\u0083\\u0084\\u0085\\u0086\\u0087" +
"\\u0088\\u0089\\u008a\\u008b\\u008c\\u008d\\u008e\\u008f" +
"\\u0090\\u0091\\u0092\\u0093\\u0094\\u0095\\u0096\\u0097" +
"\\u0098\\u0099\\u009a\\u009b\\u009c\\u009d\\u009e\\u009f" +
"\\u00a0\\u00a1\\u00a2\\u00a3\\u00a4\\u00a5\\u00a6\\u00a7" +
"\\u00a8\\u00a9\\u00aa\\u00ab\\u00ac\\u00ad\\u00ae\\u00af" +
"\\u00b0\\u00b1\\u00b2\\u00b3\\u00b4\\u00b5\\u00b6\\u00b7" +
"\\u00b8\\u00b9\\u00ba\\u00bb\\u00bc\\u00bd\\u00be\\u00bf" +
"\\u00c0\\u00c1\\u00c2\\u00c3\\u00c4\\u00c5\\u00c6\\u00c7" +
"\\u00c8\\u00c9\\u00ca\\u00cb\\u00cc\\u00cd\\u00ce\\u00cf" +
"\\u00d0\\u00d1\\u00d2\\u00d3\\u00d4\\u00d5\\u00d6\\u00d7" +
"\\u00d8\\u00d9\\u00da\\u00db\\u00dc\\u00dd\\u00de\\u00df" +
"\\u00e0\\u00e1\\u00e2\\u00e3\\u00e4\\u00e5\\u00e6\\u00e7" +
"\\u00e8\\u00e9\\u00ea\\u00eb\\u00ec\\u00ed\\u00ee\\u00ef" +
"\\u00f0\\u00f1\\u00f2\\u00f3\\u00f4\\u00f5\\u00f6\\u00f7" +
"\\u00f8\\u00f9\\u00fa\\u00fb\\u00fc\\u00fd\\u00fe\\u00ff" +
"\"");
// Test deserialize
std::istringstream is(serializeJsonString(teststring2), std::ios::binary);
UASSERT(deSerializeJsonString(is) == teststring2);
UASSERT(!is.eof());
is.get();
UASSERT(is.eof());
}
void TestSerialization::testStreamRead()
{
std::string datastr(
(const char *)test_serialized_data,
sizeof(test_serialized_data));
std::istringstream is(datastr, std::ios_base::binary);
UASSERT(readU8(is) == 0x11);
UASSERT(readU16(is) == 0x2233);
UASSERT(readU32(is) == 0x44556677);
UASSERT(readU64(is) == 0x8899AABBCCDDEEFFLL);
UASSERT(readS8(is) == -128);
UASSERT(readS16(is) == 30000);
UASSERT(readS32(is) == -6);
UASSERT(readS64(is) == -43);
UASSERT(readF1000(is) == 53.534f);
UASSERT(readF1000(is) == -300000.32f);
UASSERT(readF1000(is) == F1000_MIN);
UASSERT(readF1000(is) == F1000_MAX);
UASSERT(deSerializeString16(is) == "foobar!");
UASSERT(readV2S16(is) == v2s16(500, 500));
UASSERT(readV3S16(is) == v3s16(4207, 604, -30));
UASSERT(readV2S32(is) == v2s32(1920, 1080));
UASSERT(readV3S32(is) == v3s32(-400, 6400054, 290549855));
UASSERT(readV3F1000(is) == v3f(500, 10024.2f, -192.54f));
UASSERT(readARGB8(is) == video::SColor(255, 128, 50, 128));
UASSERT(deSerializeString32(is) == "some longer string here");
UASSERT(is.rdbuf()->in_avail() == 2);
UASSERT(readU16(is) == 0xF00D);
UASSERT(is.rdbuf()->in_avail() == 0);
}
void TestSerialization::testStreamWrite()
{
std::ostringstream os(std::ios_base::binary);
std::string data;
writeU8(os, 0x11);
writeU16(os, 0x2233);
writeU32(os, 0x44556677);
writeU64(os, 0x8899AABBCCDDEEFFLL);
writeS8(os, -128);
writeS16(os, 30000);
writeS32(os, -6);
writeS64(os, -43);
writeF1000(os, 53.53467f);
writeF1000(os, -300000.32f);
writeF1000(os, F1000_MIN);
writeF1000(os, F1000_MAX);
os << serializeString16("foobar!");
data = os.str();
UASSERT(data.size() < sizeof(test_serialized_data));
UASSERT(!memcmp(&data[0], test_serialized_data, data.size()));
writeV2S16(os, v2s16(500, 500));
writeV3S16(os, v3s16(4207, 604, -30));
writeV2S32(os, v2s32(1920, 1080));
writeV3S32(os, v3s32(-400, 6400054, 290549855));
writeV3F1000(os, v3f(500, 10024.2f, -192.54f));
writeARGB8(os, video::SColor(255, 128, 50, 128));
os << serializeString32("some longer string here");
writeU16(os, 0xF00D);
data = os.str();
UASSERT(data.size() == sizeof(test_serialized_data));
UASSERT(!memcmp(&data[0], test_serialized_data, sizeof(test_serialized_data)));
}
void TestSerialization::testFloatFormat()
{
FloatType type = getFloatSerializationType();
u32 i;
f32 fs, fm;
// Check precision of float calculations on this platform
const std::unordered_map<f32, u32> float_results = {
{ 0.0f, 0x00000000UL },
{ 1.0f, 0x3F800000UL },
{ -1.0f, 0xBF800000UL },
{ 0.1f, 0x3DCCCCCDUL },
{ -0.1f, 0xBDCCCCCDUL },
{ 1945329.25f, 0x49ED778AUL },
{ -23298764.f, 0xCBB1C166UL },
{ 0.5f, 0x3F000000UL },
{ -0.5f, 0xBF000000UL }
};
for (const auto &v : float_results) {
i = f32Tou32Slow(v.first);
if (std::abs((s64)v.second - i) > 32) {
printf("Inaccurate float values on %.9g, expected 0x%X, actual 0x%X\n",
v.first, v.second, i);
UASSERT(false);
}
fs = u32Tof32Slow(v.second);
if (std::fabs(v.first - fs) > std::fabs(v.first * 0.000005f)) {
printf("Inaccurate float values on 0x%X, expected %.9g, actual 0x%.9g\n",
v.second, v.first, fs);
UASSERT(false);
}
}
if (type == FLOATTYPE_SLOW) {
// conversion using memcpy is not possible
// Skip exact float comparison checks below
return;
}
// The code below compares the IEEE conversion functions with a
// known good IEC559/IEEE754 implementation. This test neeeds
// IEC559 compliance in the compiler.
#if defined(__GNUC__) && (!defined(__STDC_IEC_559__) || defined(__FAST_MATH__))
// GNU C++ lies about its IEC559 support when -ffast-math is active.
// https://gcc.gnu.org/bugzilla//show_bug.cgi?id=84949
bool is_iec559 = false;
#else
bool is_iec559 = std::numeric_limits<f32>::is_iec559;
#endif
if (!is_iec559)
return;
auto test_single = [&fs, &fm](const u32 &i) -> bool {
memcpy(&fm, &i, 4);
fs = u32Tof32Slow(i);
if (fm != fs) {
printf("u32Tof32Slow failed on 0x%X, expected %.9g, actual %.9g\n",
i, fm, fs);
return false;
}
if (f32Tou32Slow(fs) != i) {
printf("f32Tou32Slow failed on %.9g, expected 0x%X, actual 0x%X\n",
fs, i, f32Tou32Slow(fs));
return false;
}
return true;
};
// Use step of prime 277 to speed things up from 3 minutes to a few seconds
// Test from 0 to 0xFF800000UL (positive)
for (i = 0x00000000UL; i <= 0x7F800000UL; i += 277)
UASSERT(test_single(i));
// Ensure +inf and -inf are tested
UASSERT(test_single(0x7F800000UL));
UASSERT(test_single(0xFF800000UL));
// Test from 0x80000000UL to 0xFF800000UL (negative)
for (i = 0x80000000UL; i <= 0xFF800000UL; i += 277)
UASSERT(test_single(i));
}
const u8 TestSerialization::test_serialized_data[12 * 11 - 2] = {
0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77, 0x88, 0x99, 0xaa, 0xbb, 0xcc,
0xdd, 0xee, 0xff, 0x80, 0x75, 0x30, 0xff, 0xff, 0xff, 0xfa, 0xff, 0xff,
0xff, 0xff, 0xff, 0xff, 0xff, 0xd5, 0x00, 0x00, 0xd1, 0x1e, 0xee, 0x1e,
0x5b, 0xc0, 0x80, 0x00, 0x02, 0x80, 0x7F, 0xFF, 0xFD, 0x80, 0x00, 0x07,
0x66, 0x6f, 0x6f, 0x62, 0x61, 0x72, 0x21, 0x01, 0xf4, 0x01, 0xf4, 0x10,
0x6f, 0x02, 0x5c, 0xff, 0xe2, 0x00, 0x00, 0x07, 0x80, 0x00, 0x00, 0x04,
0x38, 0xff, 0xff, 0xfe, 0x70, 0x00, 0x61, 0xa8, 0x36, 0x11, 0x51, 0x70,
0x5f, 0x00, 0x07, 0xa1, 0x20, 0x00, 0x98, 0xf5, 0x08, 0xff,
0xfd, 0x0f, 0xe4, 0xff, 0x80, 0x32, 0x80, 0x00, 0x00, 0x00, 0x17, 0x73,
0x6f, 0x6d, 0x65, 0x20, 0x6c, 0x6f, 0x6e, 0x67, 0x65, 0x72, 0x20, 0x73,
0x74, 0x72, 0x69, 0x6e, 0x67, 0x20, 0x68, 0x65, 0x72, 0x65, 0xF0, 0x0D,
};
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