klimi
/
Platformer


								#include <glm/ext/vector_int1.hpp>

								#include <glm/ext/vector_int1_precision.hpp>

								#include <glm/ext/vector_int2.hpp>

								#include <glm/ext/vector_int3.hpp>

								#include <glm/ext/vector_int4.hpp>

								#include <glm/ext/vector_uint1.hpp>

								#include <glm/ext/vector_uint1_precision.hpp>

								#include <glm/ext/vector_uint2.hpp>

								#include <glm/ext/vector_uint3.hpp>

								#include <glm/ext/vector_uint4.hpp>

								#include <glm/vector_relational.hpp>


								template <typename genType>

								static int test_operators()

								{

									int Error = 0;


									{

										genType const A(1);

										genType const B(1);


										bool const R = A != B;

										bool const S = A == B;

										Error += (S && !R) ? 0 : 1;

									}


									{

										genType const A(1);

										genType const B(1);


										genType const C = A + B;

										Error += C == genType(2) ? 0 : 1;


										genType const D = A - B;

										Error += D == genType(0) ? 0 : 1;


										genType const E = A * B;

										Error += E == genType(1) ? 0 : 1;


										genType const F = A / B;

										Error += F == genType(1) ? 0 : 1;

									}


									{

										genType const A(3);

										genType const B(2);


										genType const C = A % B;

										Error += C == genType(1) ? 0 : 1;

									}


									{

										genType const A(1);

										genType const B(1);

										genType const C(0);


										genType const I = A & B;

										Error += I == genType(1) ? 0 : 1;

										genType const D = A & C;

										Error += D == genType(0) ? 0 : 1;


										genType const E = A | B;

										Error += E == genType(1) ? 0 : 1;

										genType const F = A | C;

										Error += F == genType(1) ? 0 : 1;


										genType const G = A ^ B;

										Error += G == genType(0) ? 0 : 1;

										genType const H = A ^ C;

										Error += H == genType(1) ? 0 : 1;

									}


									{

										genType const A(0);

										genType const B(1);

										genType const C(2);


										genType const D = B << B;

										Error += D == genType(2) ? 0 : 1;

										genType const E = C >> B;

										Error += E == genType(1) ? 0 : 1;

									}


									return Error;

								}


								template <typename genType>

								static int test_ctor()

								{

									typedef typename genType::value_type T;


									int Error = 0;


									genType const A = genType(1);


									genType const E(genType(1));

									Error += A == E ? 0 : 1;


									genType const F(E);

									Error += A == F ? 0 : 1;


									genType const B = genType(1);

									genType const G(glm::vec<2, T>(1));

									Error += B == G ? 0 : 1;


									genType const H(glm::vec<3, T>(1));

									Error += B == H ? 0 : 1;


									genType const I(glm::vec<4, T>(1));

									Error += B == I ? 0 : 1;


									return Error;

								}


								template <typename genType>

								static int test_size()

								{

									int Error = 0;


									Error += sizeof(typename genType::value_type) == sizeof(genType) ? 0 : 1;

									Error += genType().length() == 1 ? 0 : 1;

									Error += genType::length() == 1 ? 0 : 1;


									return Error;

								}


								template <typename genType>

								static int test_relational()

								{

									int Error = 0;


									genType const A(1);

									genType const B(1);

									genType const C(0);


									Error += A == B ? 0 : 1;

									Error += A != C ? 0 : 1;

									Error += all(equal(A, B)) ? 0 : 1;

									Error += any(notEqual(A, C)) ? 0 : 1;


									return Error;

								}


								template <typename genType>

								static int test_constexpr()

								{

								#	if GLM_CONFIG_CONSTEXP == GLM_ENABLE

										static_assert(genType::length() == 1, "GLM: Failed constexpr");

										static_assert(genType(1)[0] == 1, "GLM: Failed constexpr");

										static_assert(genType(1) == genType(1), "GLM: Failed constexpr");

										static_assert(genType(1) != genType(0), "GLM: Failed constexpr");

								#	endif


									return 0;

								}


								int main()

								{

									int Error = 0;


									Error += test_operators<glm::ivec1>();

									Error += test_operators<glm::lowp_ivec1>();

									Error += test_operators<glm::mediump_ivec1>();

									Error += test_operators<glm::highp_ivec1>();


									Error += test_ctor<glm::ivec1>();

									Error += test_ctor<glm::lowp_ivec1>();

									Error += test_ctor<glm::mediump_ivec1>();

									Error += test_ctor<glm::highp_ivec1>();


									Error += test_size<glm::ivec1>();

									Error += test_size<glm::lowp_ivec1>();

									Error += test_size<glm::mediump_ivec1>();

									Error += test_size<glm::highp_ivec1>();


									Error += test_relational<glm::ivec1>();

									Error += test_relational<glm::lowp_ivec1>();

									Error += test_relational<glm::mediump_ivec1>();

									Error += test_relational<glm::highp_ivec1>();


									Error += test_constexpr<glm::ivec1>();

									Error += test_constexpr<glm::lowp_ivec1>();

									Error += test_constexpr<glm::mediump_ivec1>();

									Error += test_constexpr<glm::highp_ivec1>();


									Error += test_operators<glm::uvec1>();

									Error += test_operators<glm::lowp_uvec1>();

									Error += test_operators<glm::mediump_uvec1>();

									Error += test_operators<glm::highp_uvec1>();


									Error += test_ctor<glm::uvec1>();

									Error += test_ctor<glm::lowp_uvec1>();

									Error += test_ctor<glm::mediump_uvec1>();

									Error += test_ctor<glm::highp_uvec1>();


									Error += test_size<glm::uvec1>();

									Error += test_size<glm::lowp_uvec1>();

									Error += test_size<glm::mediump_uvec1>();

									Error += test_size<glm::highp_uvec1>();


									Error += test_relational<glm::uvec1>();

									Error += test_relational<glm::lowp_uvec1>();

									Error += test_relational<glm::mediump_uvec1>();

									Error += test_relational<glm::highp_uvec1>();


									Error += test_constexpr<glm::uvec1>();

									Error += test_constexpr<glm::lowp_uvec1>();

									Error += test_constexpr<glm::mediump_uvec1>();

									Error += test_constexpr<glm::highp_uvec1>();


									return Error;

								}