198 lines
6.5 KiB
C++
198 lines
6.5 KiB
C++
/// @ref core
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/// @file glm/gtc/quaternion_simd.inl
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#if GLM_ARCH & GLM_ARCH_SSE2_BIT
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namespace glm{
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namespace detail
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{
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/*
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template <precision P>
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struct compute_quat_mul<float, P, true>
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{
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static tquat<float, P> call(tquat<float, P> const& q1, tquat<float, P> const& q2)
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{
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// SSE2 STATS: 11 shuffle, 8 mul, 8 add
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// SSE4 STATS: 3 shuffle, 4 mul, 4 dpps
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__m128 const mul0 = _mm_mul_ps(q1.Data, _mm_shuffle_ps(q2.Data, q2.Data, _MM_SHUFFLE(0, 1, 2, 3)));
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__m128 const mul1 = _mm_mul_ps(q1.Data, _mm_shuffle_ps(q2.Data, q2.Data, _MM_SHUFFLE(1, 0, 3, 2)));
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__m128 const mul2 = _mm_mul_ps(q1.Data, _mm_shuffle_ps(q2.Data, q2.Data, _MM_SHUFFLE(2, 3, 0, 1)));
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__m128 const mul3 = _mm_mul_ps(q1.Data, q2.Data);
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# if GLM_ARCH & GLM_ARCH_SSE41_BIT
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__m128 const add0 = _mm_dp_ps(mul0, _mm_set_ps(1.0f, -1.0f, 1.0f, 1.0f), 0xff);
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__m128 const add1 = _mm_dp_ps(mul1, _mm_set_ps(1.0f, 1.0f, 1.0f, -1.0f), 0xff);
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__m128 const add2 = _mm_dp_ps(mul2, _mm_set_ps(1.0f, 1.0f, -1.0f, 1.0f), 0xff);
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__m128 const add3 = _mm_dp_ps(mul3, _mm_set_ps(1.0f, -1.0f, -1.0f, -1.0f), 0xff);
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# else
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__m128 const mul4 = _mm_mul_ps(mul0, _mm_set_ps(1.0f, -1.0f, 1.0f, 1.0f));
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__m128 const add0 = _mm_add_ps(mul0, _mm_movehl_ps(mul4, mul4));
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__m128 const add4 = _mm_add_ss(add0, _mm_shuffle_ps(add0, add0, 1));
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__m128 const mul5 = _mm_mul_ps(mul1, _mm_set_ps(1.0f, 1.0f, 1.0f, -1.0f));
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__m128 const add1 = _mm_add_ps(mul1, _mm_movehl_ps(mul5, mul5));
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__m128 const add5 = _mm_add_ss(add1, _mm_shuffle_ps(add1, add1, 1));
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__m128 const mul6 = _mm_mul_ps(mul2, _mm_set_ps(1.0f, 1.0f, -1.0f, 1.0f));
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__m128 const add2 = _mm_add_ps(mul6, _mm_movehl_ps(mul6, mul6));
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__m128 const add6 = _mm_add_ss(add2, _mm_shuffle_ps(add2, add2, 1));
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__m128 const mul7 = _mm_mul_ps(mul3, _mm_set_ps(1.0f, -1.0f, -1.0f, -1.0f));
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__m128 const add3 = _mm_add_ps(mul3, _mm_movehl_ps(mul7, mul7));
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__m128 const add7 = _mm_add_ss(add3, _mm_shuffle_ps(add3, add3, 1));
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#endif
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// This SIMD code is a politically correct way of doing this, but in every test I've tried it has been slower than
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// the final code below. I'll keep this here for reference - maybe somebody else can do something better...
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//
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//__m128 xxyy = _mm_shuffle_ps(add4, add5, _MM_SHUFFLE(0, 0, 0, 0));
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//__m128 zzww = _mm_shuffle_ps(add6, add7, _MM_SHUFFLE(0, 0, 0, 0));
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//
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//return _mm_shuffle_ps(xxyy, zzww, _MM_SHUFFLE(2, 0, 2, 0));
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tquat<float, P> Result(uninitialize);
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_mm_store_ss(&Result.x, add4);
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_mm_store_ss(&Result.y, add5);
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_mm_store_ss(&Result.z, add6);
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_mm_store_ss(&Result.w, add7);
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return Result;
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}
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};
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*/
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template <precision P>
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struct compute_dot<tquat, float, P, true>
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{
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static GLM_FUNC_QUALIFIER float call(tquat<float, P> const& x, tquat<float, P> const& y)
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{
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return _mm_cvtss_f32(glm_vec1_dot(x.data, y.data));
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}
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};
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template <precision P>
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struct compute_quat_add<float, P, true>
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{
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static tquat<float, P> call(tquat<float, P> const& q, tquat<float, P> const& p)
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{
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tquat<float, P> Result(uninitialize);
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Result.data = _mm_add_ps(q.data, p.data);
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return Result;
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}
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};
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# if GLM_ARCH & GLM_ARCH_AVX_BIT
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template <precision P>
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struct compute_quat_add<double, P, true>
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{
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static tquat<double, P> call(tquat<double, P> const & a, tquat<double, P> const & b)
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{
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tquat<double, P> Result(uninitialize);
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Result.data = _mm256_add_pd(a.data, b.data);
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return Result;
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}
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};
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# endif
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template <precision P>
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struct compute_quat_sub<float, P, true>
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{
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static tquat<float, P> call(tquat<float, P> const& q, tquat<float, P> const& p)
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{
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tvec4<float, P> Result(uninitialize);
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Result.data = _mm_sub_ps(q.data, p.data);
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return Result;
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}
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};
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# if GLM_ARCH & GLM_ARCH_AVX_BIT
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template <precision P>
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struct compute_quat_sub<double, P, true>
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{
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static tquat<double, P> call(tquat<double, P> const & a, tquat<double, P> const & b)
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{
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tquat<double, P> Result(uninitialize);
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Result.data = _mm256_sub_pd(a.data, b.data);
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return Result;
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}
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};
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# endif
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template <precision P>
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struct compute_quat_mul_scalar<float, P, true>
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{
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static tquat<float, P> call(tquat<float, P> const& q, float s)
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{
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tvec4<float, P> Result(uninitialize);
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Result.data = _mm_mul_ps(q.data, _mm_set_ps1(s));
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return Result;
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}
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};
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# if GLM_ARCH & GLM_ARCH_AVX_BIT
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template <precision P>
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struct compute_quat_mul_scalar<double, P, true>
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{
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static tquat<double, P> call(tquat<double, P> const& q, double s)
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{
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tquat<double, P> Result(uninitialize);
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Result.data = _mm256_mul_pd(q.data, _mm_set_ps1(s));
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return Result;
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}
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};
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# endif
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template <precision P>
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struct compute_quat_div_scalar<float, P, true>
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{
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static tquat<float, P> call(tquat<float, P> const& q, float s)
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{
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tvec4<float, P> Result(uninitialize);
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Result.data = _mm_div_ps(q.data, _mm_set_ps1(s));
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return Result;
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}
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};
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# if GLM_ARCH & GLM_ARCH_AVX_BIT
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template <precision P>
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struct compute_quat_div_scalar<double, P, true>
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{
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static tquat<double, P> call(tquat<double, P> const& q, double s)
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{
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tquat<double, P> Result(uninitialize);
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Result.data = _mm256_div_pd(q.data, _mm_set_ps1(s));
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return Result;
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}
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};
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# endif
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template <precision P>
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struct compute_quat_mul_vec4<float, P, true>
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{
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static tvec4<float, P> call(tquat<float, P> const& q, tvec4<float, P> const& v)
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{
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__m128 const q_wwww = _mm_shuffle_ps(q.data, q.data, _MM_SHUFFLE(3, 3, 3, 3));
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__m128 const q_swp0 = _mm_shuffle_ps(q.data, q.data, _MM_SHUFFLE(3, 0, 2, 1));
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__m128 const q_swp1 = _mm_shuffle_ps(q.data, q.data, _MM_SHUFFLE(3, 1, 0, 2));
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__m128 const v_swp0 = _mm_shuffle_ps(v.data, v.data, _MM_SHUFFLE(3, 0, 2, 1));
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__m128 const v_swp1 = _mm_shuffle_ps(v.data, v.data, _MM_SHUFFLE(3, 1, 0, 2));
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__m128 uv = _mm_sub_ps(_mm_mul_ps(q_swp0, v_swp1), _mm_mul_ps(q_swp1, v_swp0));
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__m128 uv_swp0 = _mm_shuffle_ps(uv, uv, _MM_SHUFFLE(3, 0, 2, 1));
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__m128 uv_swp1 = _mm_shuffle_ps(uv, uv, _MM_SHUFFLE(3, 1, 0, 2));
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__m128 uuv = _mm_sub_ps(_mm_mul_ps(q_swp0, uv_swp1), _mm_mul_ps(q_swp1, uv_swp0));
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__m128 const two = _mm_set1_ps(2.0f);
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uv = _mm_mul_ps(uv, _mm_mul_ps(q_wwww, two));
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uuv = _mm_mul_ps(uuv, two);
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tvec4<float, P> Result(uninitialize);
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Result.data = _mm_add_ps(v.Data, _mm_add_ps(uv, uuv));
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return Result;
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}
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};
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}//namespace detail
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}//namespace glm
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#endif//GLM_ARCH & GLM_ARCH_SSE2_BIT
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