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/**
* @file llsingleton_test.cpp
* @date 2011-08-11
* @brief Unit test for the LLSingleton class
*
* $LicenseInfo:firstyear=2011&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2011, Linden Research, Inc.
*
* This library 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;
* version 2.1 of the License only.
*
* This library 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 library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
#include "linden_common.h"
#include "llunit.h"
#include "../test/lltut.h"
namespace LLUnits
{
// using powers of 2 to allow strict floating point equality
LL_DECLARE_BASE_UNIT(Quatloos, "Quat");
LL_DECLARE_DERIVED_UNIT(4, Quatloos, Latinum, "Lat");
LL_DECLARE_DERIVED_UNIT((1.0 / 4.0), Quatloos, Solari, "Sol");
}
namespace tut
{
using namespace LLUnits;
struct units
{
};
typedef test_group<units> units_t;
typedef units_t::object units_object_t;
tut::units_t tut_singleton("LLUnit");
// storage type conversions
template<> template<>
void units_object_t::test<1>()
{
LLUnit<Quatloos, F32> float_quatloos;
ensure(float_quatloos.value() == 0.f);
LLUnit<Quatloos, S32> int_quatloos;
ensure(int_quatloos.value() == 0);
int_quatloos = 42;
ensure(int_quatloos.value() == 42);
float_quatloos = int_quatloos;
ensure(float_quatloos.value() == 42.f);
int_quatloos = float_quatloos;
ensure(int_quatloos.value() == 42);
float_quatloos = 42.1f;
ensure(float_quatloos.value() == 42.1f);
int_quatloos = float_quatloos;
ensure(int_quatloos.value() == 42);
LLUnit<Quatloos, U32> unsigned_int_quatloos(float_quatloos);
ensure(unsigned_int_quatloos.value() == 42);
}
// conversions to/from base unit
template<> template<>
void units_object_t::test<2>()
{
LLUnit<Quatloos, F32> quatloos(1.f);
ensure(quatloos.value() == 1.f);
LLUnit<Latinum, F32> latinum_bars(quatloos);
ensure(latinum_bars.value() == 1.f / 4.f);
latinum_bars = 256;
quatloos = latinum_bars;
ensure(quatloos.value() == 1024);
LLUnit<Solari, F32> solari(quatloos);
ensure(solari.value() == 4096);
}
// conversions across non-base units
template<> template<>
void units_object_t::test<3>()
{
LLUnit<Solari, F32> solari = 4.f;
LLUnit<Latinum, F32> latinum_bars = solari;
ensure(latinum_bars.value() == 0.25f);
}
// math operations
template<> template<>
void units_object_t::test<4>()
{
LLUnit<Quatloos, F32> quatloos = 1.f;
quatloos *= 4.f;
ensure(quatloos.value() == 4);
quatloos = quatloos * 2;
ensure(quatloos.value() == 8);
quatloos = 2.f * quatloos;
ensure(quatloos.value() == 16);
quatloos += 4.f;
ensure(quatloos.value() == 20);
quatloos += 4;
ensure(quatloos.value() == 24);
quatloos = quatloos + 4;
ensure(quatloos.value() == 28);
quatloos = 4 + quatloos;
ensure(quatloos.value() == 32);
quatloos += quatloos * 3;
ensure(quatloos.value() == 128);
quatloos -= quatloos / 4 * 3;
ensure(quatloos.value() == 32);
quatloos = quatloos - 8;
ensure(quatloos.value() == 24);
quatloos -= 4;
ensure(quatloos.value() == 20);
quatloos -= 4.f;
ensure(quatloos.value() == 16);
quatloos *= 2.f;
ensure(quatloos.value() == 32);
quatloos = quatloos * 2.f;
ensure(quatloos.value() == 64);
quatloos = 0.5f * quatloos;
ensure(quatloos.value() == 32);
quatloos /= 2.f;
ensure(quatloos.value() == 16);
quatloos = quatloos / 4;
ensure(quatloos.value() == 4);
F32 ratio = quatloos / LLUnit<Quatloos, F32>(4.f);
ensure(ratio == 1);
quatloos += LLUnit<Solari, F32>(4.f);
ensure(quatloos.value() == 5);
quatloos -= LLUnit<Latinum, F32>(1.f);
ensure(quatloos.value() == 1);
}
// implicit units
template<> template<>
void units_object_t::test<5>()
{
// 0-initialized
LLUnit<Quatloos, F32> quatloos(0);
// initialize implicit unit from explicit
LLUnitImplicit<Quatloos, F32> quatloos_implicit = quatloos + 1;
ensure(quatloos_implicit.value() == 1);
// assign implicit to explicit, or perform math operations
quatloos = quatloos_implicit;
ensure(quatloos.value() == 1);
quatloos += quatloos_implicit;
ensure(quatloos.value() == 2);
// math operations on implicits
quatloos_implicit = 1;
ensure(quatloos_implicit == 1);
quatloos_implicit += 2;
ensure(quatloos_implicit == 3);
quatloos_implicit *= 2;
ensure(quatloos_implicit == 6);
quatloos_implicit -= 1;
ensure(quatloos_implicit == 5);
quatloos_implicit /= 5;
ensure(quatloos_implicit == 1);
quatloos_implicit = quatloos_implicit + 3 + quatloos_implicit;
ensure(quatloos_implicit == 5);
quatloos_implicit = 10 - quatloos_implicit - 1;
ensure(quatloos_implicit == 4);
quatloos_implicit = 2 * quatloos_implicit * 2;
ensure(quatloos_implicit == 16);
F32 one_half = quatloos_implicit / (quatloos_implicit * 2);
ensure(one_half == 0.5f);
// implicit conversion to POD
F32 float_val = quatloos_implicit;
ensure(float_val == 16);
S32 int_val = quatloos_implicit;
ensure(int_val == 16);
}
}
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