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OpenGL Mathematics (GLM)
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glm/test/ext/ext_vector_integer.cpp

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#include <glm/ext/vector_integer.hpp>
#include <glm/ext/scalar_int_sized.hpp>
#include <glm/ext/scalar_uint_sized.hpp>
#include <vector>
#include <ctime>
#include <cstdio>
namespace isPowerOfTwo
{
template<typename genType>
struct type
{
genType Value;
bool Return;
};
int test_int16()
{
type<glm::int16> const Data[] =
{
{ 0x0001, true },
{ 0x0002, true },
{ 0x0004, true },
{ 0x0080, true },
{ 0x0000, true },
{ 0x0003, false }
};
int Error = 0;
for (std::size_t i = 0, n = sizeof(Data) / sizeof(type<glm::int16>); i < n; ++i)
{
bool Result = glm::isPowerOfTwo(Data[i].Value);
Error += Data[i].Return == Result ? 0 : 1;
}
return Error;
}
int test_uint16()
{
type<glm::uint16> const Data[] =
{
{ 0x0001, true },
{ 0x0002, true },
{ 0x0004, true },
{ 0x0000, true },
{ 0x0000, true },
{ 0x0003, false }
};
int Error = 0;
for (std::size_t i = 0, n = sizeof(Data) / sizeof(type<glm::uint16>); i < n; ++i)
{
bool Result = glm::isPowerOfTwo(Data[i].Value);
Error += Data[i].Return == Result ? 0 : 1;
}
return Error;
}
int test_int32()
{
type<int> const Data[] =
{
{ 0x00000001, true },
{ 0x00000002, true },
{ 0x00000004, true },
{ 0x0000000f, false },
{ 0x00000000, true },
{ 0x00000003, false }
};
int Error = 0;
for (std::size_t i = 0, n = sizeof(Data) / sizeof(type<int>); i < n; ++i)
{
bool Result = glm::isPowerOfTwo(Data[i].Value);
Error += Data[i].Return == Result ? 0 : 1;
}
return Error;
}
int test_uint32()
{
type<glm::uint> const Data[] =
{
{ 0x00000001, true },
{ 0x00000002, true },
{ 0x00000004, true },
{ 0x80000000, true },
{ 0x00000000, true },
{ 0x00000003, false }
};
int Error = 0;
for (std::size_t i = 0, n = sizeof(Data) / sizeof(type<glm::uint>); i < n; ++i)
{
bool Result = glm::isPowerOfTwo(Data[i].Value);
Error += Data[i].Return == Result ? 0 : 1;
}
return Error;
}
int test()
{
int Error = 0;
Error += test_int16();
Error += test_uint16();
Error += test_int32();
Error += test_uint32();
return Error;
}
}//isPowerOfTwo
namespace prevPowerOfTwo
{
template <typename T>
int run()
{
int Error = 0;
T const A = glm::prevPowerOfTwo(static_cast<T>(7));
Error += A == static_cast<T>(4) ? 0 : 1;
T const B = glm::prevPowerOfTwo(static_cast<T>(15));
Error += B == static_cast<T>(8) ? 0 : 1;
T const C = glm::prevPowerOfTwo(static_cast<T>(31));
Error += C == static_cast<T>(16) ? 0 : 1;
T const D = glm::prevPowerOfTwo(static_cast<T>(32));
Error += D == static_cast<T>(32) ? 0 : 1;
return Error;
}
int test()
{
int Error = 0;
Error += run<glm::int8>();
Error += run<glm::int16>();
Error += run<glm::int32>();
Error += run<glm::int64>();
Error += run<glm::uint8>();
Error += run<glm::uint16>();
Error += run<glm::uint32>();
Error += run<glm::uint64>();
return Error;
}
}//namespace prevPowerOfTwo
namespace nextPowerOfTwo
{
template <typename T>
int run()
{
int Error = 0;
T const A = glm::nextPowerOfTwo(static_cast<T>(7));
Error += A == static_cast<T>(8) ? 0 : 1;
T const B = glm::nextPowerOfTwo(static_cast<T>(15));
Error += B == static_cast<T>(16) ? 0 : 1;
T const C = glm::nextPowerOfTwo(static_cast<T>(31));
Error += C == static_cast<T>(32) ? 0 : 1;
T const D = glm::nextPowerOfTwo(static_cast<T>(32));
Error += D == static_cast<T>(32) ? 0 : 1;
return Error;
}
int test()
{
int Error = 0;
Error += run<glm::int8>();
Error += run<glm::int16>();
Error += run<glm::int32>();
Error += run<glm::int64>();
Error += run<glm::uint8>();
Error += run<glm::uint16>();
Error += run<glm::uint32>();
Error += run<glm::uint64>();
return Error;
}
}//namespace nextPowerOfTwo
namespace prevMultiple
{
template<typename genIUType>
struct type
{
genIUType Source;
genIUType Multiple;
genIUType Return;
};
template <typename T>
int run()
{
type<T> const Data[] =
{
{ 8, 3, 6 },
{ 7, 7, 7 }
};
int Error = 0;
for (std::size_t i = 0, n = sizeof(Data) / sizeof(type<T>); i < n; ++i)
{
glm::vec<4, T> const Result = glm::prevMultiple(glm::vec<4, T>(Data[i].Source), Data[i].Multiple);
Error += glm::vec<4, T>(Data[i].Return) == Result ? 0 : 1;
}
return Error;
}
int test()
{
int Error = 0;
Error += run<glm::int8>();
Error += run<glm::int16>();
Error += run<glm::int32>();
Error += run<glm::int64>();
Error += run<glm::uint8>();
Error += run<glm::uint16>();
Error += run<glm::uint32>();
Error += run<glm::uint64>();
return Error;
}
}//namespace prevMultiple
namespace nextMultiple
{
template<typename genIUType>
struct type
{
genIUType Source;
genIUType Multiple;
genIUType Return;
};
template <typename T>
int run()
{
type<T> const Data[] =
{
{ 8, 3, 6 },
{ 7, 7, 7 }
};
int Error = 0;
for (std::size_t i = 0, n = sizeof(Data) / sizeof(type<T>); i < n; ++i)
{
glm::vec<4, T> const Result = glm::nextMultiple(glm::vec<4, T>(Data[i].Source), Data[i].Multiple);
Error += glm::vec<4, T>(Data[i].Return) == Result ? 0 : 1;
}
return Error;
}
int test()
{
int Error = 0;
Error += run<glm::int8>();
Error += run<glm::int16>();
Error += run<glm::int32>();
Error += run<glm::int64>();
Error += run<glm::uint8>();
Error += run<glm::uint16>();
Error += run<glm::uint32>();
Error += run<glm::uint64>();
return Error;
}
}//namespace nextMultiple
int main()
{
int Error = 0;
Error += isPowerOfTwo::test();
Error += prevPowerOfTwo::test();
Error += nextPowerOfTwo::test();
Error += prevMultiple::test();
Error += nextMultiple::test();
return Error;
}