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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"

class TestSerialization : public TestBase {
public:
	TestSerialization() { TestManager::registerTestModule(this); }
	const char *getName() { return "TestSerialization"; }

	void runTests(IGameDef *gamedef);
	void buildTestStrings();

	void testSerializeString();
	void testSerializeWideString();
	void testSerializeLongString();
	void testSerializeJsonString();

	std::string teststring2;
	std::wstring teststring2_w;
	std::string teststring2_w_encoded;
};

static TestSerialization g_test_instance;

void TestSerialization::runTests(IGameDef *gamedef)
{
	buildTestStrings();

	TEST(testSerializeString);
	TEST(testSerializeWideString);
	TEST(testSerializeLongString);
	TEST(testSerializeJsonString);
}

////////////////////////////////////////////////////////////////////////////////

// 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(serializeString("Hello world!") == mkstr("\0\14Hello world!"));

	// Test basic string
	UASSERT(serializeString("") == mkstr("\0\0"));

	// Test character range
	UASSERT(serializeString(teststring2) == mkstr("\1\0") + teststring2);

	// Test deserialize
	std::istringstream is(serializeString(teststring2), std::ios::binary);
	UASSERT(deSerializeString(is) == teststring2);
	UASSERT(!is.eof());
	is.get();
	UASSERT(is.eof());
}

void TestSerialization::testSerializeWideString()
{
	// Test blank string
	UASSERT(serializeWideString(L"") == mkstr("\0\0"));

	// Test basic string
	UASSERT(serializeWideString(narrow_to_wide("Hello world!")) ==
		mkstr("\0\14\0H\0e\0l\0l\0o\0 \0w\0o\0r\0l\0d\0!"));

	// Test character range
	UASSERT(serializeWideString(teststring2_w) ==
		mkstr("\1\0") + teststring2_w_encoded);

	// Test deserialize
	std::istringstream is(serializeWideString(teststring2_w), std::ios::binary);
	UASSERT(deSerializeWideString(is) == teststring2_w);
	UASSERT(!is.eof());
	is.get();
	UASSERT(is.eof());
}

void TestSerialization::testSerializeLongString()
{
	// Test blank string
	UASSERT(serializeLongString("") == mkstr("\0\0\0\0"));

	// Test basic string
	UASSERT(serializeLongString("Hello world!") == mkstr("\0\0\0\14Hello world!"));

	// Test character range
	UASSERT(serializeLongString(teststring2) == mkstr("\0\0\1\0") + teststring2);

	// Test deserialize
	std::istringstream is(serializeLongString(teststring2), std::ios::binary);
	UASSERT(deSerializeLongString(is) == teststring2);
	UASSERT(!is.eof());
	is.get();
	UASSERT(is.eof());
}

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());
}
> 0.0 ? (int)z : (int)z - 1); // Calculate the remaining part of the coordinates double xl = x - (double)x0; double yl = y - (double)y0; double zl = z - (double)z0; // Get values for corners of cube double v000 = noise3d(x0, y0, z0, seed); double v100 = noise3d(x0+1, y0, z0, seed); double v010 = noise3d(x0, y0+1, z0, seed); double v110 = noise3d(x0+1, y0+1, z0, seed); double v001 = noise3d(x0, y0, z0+1, seed); double v101 = noise3d(x0+1, y0, z0+1, seed); double v011 = noise3d(x0, y0+1, z0+1, seed); double v111 = noise3d(x0+1, y0+1, z0+1, seed); // Interpolate return triLinearInterpolation(v000,v100,v010,v110,v001,v101,v011,v111,xl,yl,zl); } double noise2d_perlin(double x, double y, int seed, int octaves, double persistence) { double a = 0; double f = 1.0; double g = 1.0; for(int i=0; i<octaves; i++) { a += g * noise2d_gradient(x*f, y*f, seed+i); f *= 2.0; g *= persistence; } return a; } double noise2d_perlin_abs(double x, double y, int seed, int octaves, double persistence) { double a = 0; double f = 1.0; double g = 1.0; for(int i=0; i<octaves; i++) { a += g * fabs(noise2d_gradient(x*f, y*f, seed+i)); f *= 2.0; g *= persistence; } return a; } double noise3d_perlin(double x, double y, double z, int seed, int octaves, double persistence) { double a = 0; double f = 1.0; double g = 1.0; for(int i=0; i<octaves; i++) { a += g * noise3d_gradient(x*f, y*f, z*f, seed+i); f *= 2.0; g *= persistence; } return a; } double noise3d_perlin_abs(double x, double y, double z, int seed, int octaves, double persistence) { double a = 0; double f = 1.0; double g = 1.0; for(int i=0; i<octaves; i++) { a += g * fabs(noise3d_gradient(x*f, y*f, z*f, seed+i)); f *= 2.0; g *= persistence; } return a; } // -1->0, 0->1, 1->0 double contour(double v) { v = fabs(v); if(v >= 1.0) return 0.0; return (1.0-v); } double noise3d_param(const NoiseParams &param, double x, double y, double z) { double s = param.pos_scale; x /= s; y /= s; z /= s; if(param.type == NOISE_PERLIN) { return param.noise_scale*noise3d_perlin(x,y,z, param.seed, param.octaves, param.persistence); } else if(param.type == NOISE_PERLIN_ABS) { return param.noise_scale*noise3d_perlin_abs(x,y,z, param.seed, param.octaves, param.persistence); } else if(param.type == NOISE_PERLIN_CONTOUR) { return contour(param.noise_scale*noise3d_perlin(x,y,z, param.seed, param.octaves, param.persistence)); } else if(param.type == NOISE_PERLIN_CONTOUR_FLIP_YZ) { return contour(param.noise_scale*noise3d_perlin(x,z,y, param.seed, param.octaves, param.persistence)); } else assert(0); } /* NoiseBuffer */ NoiseBuffer::NoiseBuffer(): m_data(NULL) { } NoiseBuffer::~NoiseBuffer() { clear(); } void NoiseBuffer::clear() { if(m_data) delete[] m_data; m_data = NULL; m_size_x = 0; m_size_y = 0; m_size_z = 0; } void NoiseBuffer::create(const NoiseParams &param, double first_x, double first_y, double first_z, double last_x, double last_y, double last_z, double samplelength_x, double samplelength_y, double samplelength_z) { clear(); m_start_x = first_x - samplelength_x; m_start_y = first_y - samplelength_y; m_start_z = first_z - samplelength_z; m_samplelength_x = samplelength_x; m_samplelength_y = samplelength_y; m_samplelength_z = samplelength_z; m_size_x = (last_x - m_start_x)/samplelength_x + 2; m_size_y = (last_y - m_start_y)/samplelength_y + 2; m_size_z = (last_z - m_start_z)/samplelength_z + 2; m_data = new double[m_size_x*m_size_y*m_size_z]; for(int x=0; x<m_size_x; x++) for(int y=0; y<m_size_y; y++) for(int z=0; z<m_size_z; z++) { double xd = (m_start_x + (double)x*m_samplelength_x); double yd = (m_start_y + (double)y*m_samplelength_y); double zd = (m_start_z + (double)z*m_samplelength_z); double a = noise3d_param(param, xd,yd,zd); intSet(x,y,z, a); } } void NoiseBuffer::multiply(const NoiseParams &param) { assert(m_data != NULL); for(int x=0; x<m_size_x; x++) for(int y=0; y<m_size_y; y++) for(int z=0; z<m_size_z; z++) { double xd = (m_start_x + (double)x*m_samplelength_x); double yd = (m_start_y + (double)y*m_samplelength_y); double zd = (m_start_z + (double)z*m_samplelength_z); double a = noise3d_param(param, xd,yd,zd); intMultiply(x,y,z, a); } } // Deprecated void NoiseBuffer::create(int seed, int octaves, double persistence, bool abs, double first_x, double first_y, double first_z, double last_x, double last_y, double last_z, double samplelength_x, double samplelength_y, double samplelength_z) { NoiseParams param; param.type = abs ? NOISE_PERLIN_ABS : NOISE_PERLIN; param.seed = seed; param.octaves = octaves; param.persistence = persistence; create(param, first_x, first_y, first_z, last_x, last_y, last_z, samplelength_x, samplelength_y, samplelength_z); } void NoiseBuffer::intSet(int x, int y, int z, double d) { int i = m_size_x*m_size_y*z + m_size_x*y + x; assert(i >= 0); assert(i < m_size_x*m_size_y*m_size_z); m_data[i] = d; } void NoiseBuffer::intMultiply(int x, int y, int z, double d) { int i = m_size_x*m_size_y*z + m_size_x*y + x; assert(i >= 0); assert(i < m_size_x*m_size_y*m_size_z); m_data[i] = m_data[i] * d; } double NoiseBuffer::intGet(int x, int y, int z) { int i = m_size_x*m_size_y*z + m_size_x*y + x; assert(i >= 0); assert(i < m_size_x*m_size_y*m_size_z); return m_data[i]; } double NoiseBuffer::get(double x, double y, double z) { x -= m_start_x; y -= m_start_y; z -= m_start_z; x /= m_samplelength_x; y /= m_samplelength_y; z /= m_samplelength_z; // Calculate the integer coordinates int x0 = (x > 0.0 ? (int)x : (int)x - 1); int y0 = (y > 0.0 ? (int)y : (int)y - 1); int z0 = (z > 0.0 ? (int)z : (int)z - 1); // Calculate the remaining part of the coordinates double xl = x - (double)x0; double yl = y - (double)y0; double zl = z - (double)z0; // Get values for corners of cube double v000 = intGet(x0, y0, z0); double v100 = intGet(x0+1, y0, z0); double v010 = intGet(x0, y0+1, z0); double v110 = intGet(x0+1, y0+1, z0); double v001 = intGet(x0, y0, z0+1); double v101 = intGet(x0+1, y0, z0+1); double v011 = intGet(x0, y0+1, z0+1); double v111 = intGet(x0+1, y0+1, z0+1); // Interpolate return triLinearInterpolation(v000,v100,v010,v110,v001,v101,v011,v111,xl,yl,zl); }