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constexpr simd vec: perf tuning for packed vec3
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@ -109,15 +109,20 @@ namespace detail
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# if GLM_ARCH & GLM_ARCH_SSE2_BIT
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#if defined(__clang__) || defined(__GNUC__)
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#if __x86_64__
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#define ATTR(size) __attribute__((packed,aligned(size)))
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#else
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#define ATTR(size)
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#endif
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template<typename T>
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struct storage<2, T, false>
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struct ATTR(sizeof(T)/2) storage<2, T, false>
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{
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typedef T type __attribute__((aligned(sizeof(T)),vector_size(2*sizeof(T))));
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typedef T type __attribute__((aligned(sizeof(T)/2),vector_size(2*sizeof(T))));
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};
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template<typename T>
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struct storage<1, T, false>
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struct ATTR(1) storage<1, T, false>
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{
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typedef T type __attribute__((aligned(1),vector_size(sizeof(T))));
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typedef T type;
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};
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template<typename T>
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struct storage<2, T, true>
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@ -129,6 +134,7 @@ namespace detail
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{
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typedef T type __attribute__((aligned(sizeof(T)),vector_size(sizeof(T))));
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};
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#undef ATTR
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#endif
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template<>
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struct storage<4, float, true>
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@ -9,47 +9,53 @@ namespace glm::detail
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using FirstTx = Tx0;
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};
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template <length_t Lx, typename Tx, qualifier Qx>
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using PaddedVec = PaddedGccVec<Lx, Tx, Qx, detail::BVecNeedsPadding<Lx, Tx, Qx>()>;
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using gcc_vec_t = PaddedVec<L, T, Q>::GccV;
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using GccVec = typename detail::GccVExt<Lx, Tx, Qx>::GccV;
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using gcc_vec_t = GccVec<L, T, Q>;
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using data_t = typename detail::storage<L, T, detail::is_aligned<Q>::value>::type;
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static inline auto __attribute__((always_inline)) gcc_vec_to_data(PaddedVec<L, T, Q> v) {
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if constexpr (L == 3 && !BIsAlignedQ<Q>()) {
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data_t d;
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std::memcpy(&d, &v, sizeof(d));
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return d;
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} else {
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static inline auto __attribute__((always_inline)) gcc_vec_to_data(auto v) {
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static constexpr auto size = std::min(sizeof(v), sizeof(data_t));
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static constexpr auto biggerSize = std::max(sizeof(v), sizeof(data_t));
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if constexpr (size == biggerSize) {
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return std::bit_cast<data_t>(v);
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} else {
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data_t d;
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std::memcpy(&d, &v, size);
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return d;
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}
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}
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static inline auto __attribute__((always_inline)) simd_ctor_scalar(arithmetic auto scalar) {
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PaddedVec<L, T, Q> v = {};
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v.gcc_vec = v.gcc_vec + ( (T)scalar );
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gcc_vec_t v = gcc_vec_t{} + ( (T)scalar );
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using Tx = decltype(scalar);
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scalar.Tx::~Tx();
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return gcc_vec_to_data(v);
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}
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template <length_t Lx, typename Tx, qualifier Qx> requires (Lx == L)
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static inline auto __attribute__((always_inline)) simd_ctor(::glm::vec<Lx, Tx, Qx> v)
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{
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using OtherPaddedVec = PaddedVec<Lx, Tx, Qx>;
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OtherPaddedVec o = std::bit_cast<OtherPaddedVec>(v.data);
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PaddedVec<L, T, Q> converted = {.gcc_vec=__builtin_convertvector(o.gcc_vec, gcc_vec_t)};
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using OtherVec = GccVec<Lx, Tx, Qx>;
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OtherVec o;
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static constexpr auto size = std::min(sizeof(v.data), sizeof(o));
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std::memcpy(&o, &(v.data), size);
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using o_vec_t = decltype(v);
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v.o_vec_t::~o_vec_t();
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gcc_vec_t converted = __builtin_convertvector(o, gcc_vec_t);
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return gcc_vec_to_data(converted);
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}
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template <length_t Lx, typename Tx, qualifier Qx> requires (Lx != L && Lx < L)
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static inline auto __attribute__((always_inline)) simd_ctor(::glm::vec<Lx, Tx, Qx> v)
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{
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using OtherPaddedVec = PaddedVec<Lx, Tx, Qx>;
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using OurSizeTheirType = PaddedVec<L, Tx, Qx>;
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OtherPaddedVec o = std::bit_cast<OtherPaddedVec>(v.data);
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OurSizeTheirType oExpanded = {};
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for (length_t i = 0; i < Lx; i++) {
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oExpanded.gcc_vec[i] = o.gcc_vec[i];
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}
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using OurSizeTheirType = GccVec<L, Tx, Qx>;
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static constexpr auto size = std::min(sizeof(OurSizeTheirType), sizeof(v.data));
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OurSizeTheirType oExpanded;
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std::memcpy(&oExpanded, &(v.data), size);
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using o_vec_t = decltype(v);
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v.o_vec_t::~o_vec_t();
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PaddedVec<L, T, Q> converted = {.gcc_vec=__builtin_convertvector(oExpanded.gcc_vec, gcc_vec_t)};
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gcc_vec_t converted = __builtin_convertvector(oExpanded, gcc_vec_t);
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return gcc_vec_to_data(converted);
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}
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@ -62,11 +68,13 @@ namespace glm::detail
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static inline auto __attribute__((always_inline)) simd_ctor_multi_scalars(A... scalars) requires ( isLengthOfVector<A...>() && SameArithmeticTypes<A...>())
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{
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//assuming that number of scalars is always the same as the length of the to-be-constructed vector
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using Tx = typename GetFirstType<A...>::FirstTx;
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using OtherPaddedVec = PaddedVec<L, Tx, Q>;
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typename OtherPaddedVec::GccV o = {Tx(scalars)...};
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PaddedVec<L, T, Q> converted = {.gcc_vec=__builtin_convertvector(o, gcc_vec_t)};
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return gcc_vec_to_data(converted);
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gcc_vec_t v;
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std::array<T, sizeof...(scalars)> pack{scalars...};
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for (int i = 0; i != sizeof...(scalars); i++ ) {
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v[i] = pack[i];
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pack[i].T::~T();
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}
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return gcc_vec_to_data(v);
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}
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};
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}
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@ -94,9 +94,10 @@ namespace glm
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};
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}
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/*template <length_t L, typename T, qualifier Q>
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using PaddedGccVec = detail::PaddedGccVec<L, T, Q, detail::BVecNeedsPadding<L, T, Q>()>;*/
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template <length_t L, typename T, qualifier Q>
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using PaddedGccVec = detail::PaddedGccVec<L, T, Q, detail::BVecNeedsPadding<L, T, Q>()>;
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using GccVec = typename detail::GccVExt<L, T, Q>::GccV;
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template <length_t L, typename T, qualifier Q>
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using VecDataArray = detail::VecDataArray<L, T, Q, detail::BDataNeedsPadding<L, T, Q>()>;
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@ -161,6 +162,7 @@ namespace glm
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switch (i)
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{
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default:
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__builtin_unreachable();
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case 0:
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return x;
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case 1: {
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@ -192,6 +194,7 @@ namespace glm
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switch (i)
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{
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default:
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__builtin_unreachable();
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case 0:
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return x;
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case 1: {
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@ -296,7 +299,7 @@ namespace glm
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{
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using VTX = decltype(vs0);
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if constexpr ( std::is_integral_v<VTX> || std::is_floating_point_v<VTX> ) {
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return RetArr<1>{vs0};
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return RetArr<1>{(T)vs0};
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} else if constexpr ( ( requires { VTX::k_len; }) ) {
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using Tx = VTX::value_type;
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using ArrX = VecDataArray<VTX::k_len, Tx, VTX::k_qual>;
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@ -323,7 +326,7 @@ namespace glm
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: EC<L, T, Q>
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{.data= [scalar...]() -> data_t
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{
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if (std::is_constant_evaluated()) {
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if (std::is_constant_evaluated() || (L == 3 && !BIsAlignedQ<Q>())) {
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DataArray a = {.p={ T(scalar)... }};
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return std::bit_cast<data_t>(a);
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} else {
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@ -454,7 +457,7 @@ namespace glm
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}
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template<typename Tx>
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inline GLM_CONSTEXPR vec<L, T, Q> & operator*=(vec<L, Tx, Q> v)
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inline GLM_CONSTEXPR vec<L, T, Q> & operator*=(vec<L, Tx, Q> const& __restrict__ v) __restrict__
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{
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if constexpr (L < 3) {
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this->data *= v.data;
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@ -788,9 +791,12 @@ namespace glm
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}
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friend inline GLM_CONSTEXPR vec<L, T, Q> operator*(vec<L, T, Q> v1, vec<L, T, Q> v2)
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friend inline GLM_CONSTEXPR vec<L, T, Q> __attribute__((const, always_inline, nothrow, no_stack_protector)) operator*(vec<L, T, Q> v1, vec<L, T, Q> const& __restrict__ v2)
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{
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return vec<L, T, Q>(v1) *= v2;
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if constexpr (L == 3 && !BIsAlignedQ<Q>())
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return *(new (&v1) vec<L, T, Q>(v1.x*v2.x, v1.y*v2.y, v1.z*v2.z));
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else
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return v1 *= v2;
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}
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@ -813,9 +819,12 @@ namespace glm
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}
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template <length_t Lx>
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friend inline GLM_CONSTEXPR vec<L, T, Q> operator/(vec<Lx, T, Q> v1, vec<L, T, Q> v2) requires (!NotVec1<Lx> && NotVec1<L>)
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friend inline GLM_CONSTEXPR vec<L, T, Q> operator/(vec<Lx, T, Q> v1, vec<L, T, Q> && __restrict__ v2) requires (!NotVec1<Lx> && NotVec1<L>)
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{
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return vec<L, T, Q>(v1.x) /= v2;
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if constexpr (L == 3 && !BIsAlignedQ<Q>())
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return *(new (&v2) vec<L, T, Q>( v1.data / v2.x, v1.data/v2.y, v1.data/v2.z ));
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else
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return vec<L, T, Q>(v1.x) /= v2;
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}
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