// Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions // are met: // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the distribution. // * Neither the name of NVIDIA CORPORATION nor the names of its // contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ''AS IS'' AND ANY // EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR // PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR // CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, // EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, // PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR // PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY // OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Copyright (c) 2008-2023 NVIDIA Corporation. All rights reserved. // Copyright (c) 2004-2008 AGEIA Technologies, Inc. All rights reserved. // Copyright (c) 2001-2004 NovodeX AG. All rights reserved. #ifndef PX_VEC_MATH_AOS_SCALAR_H #define PX_VEC_MATH_AOS_SCALAR_H #if COMPILE_VECTOR_INTRINSICS #error Scalar version should not be included when using vector intrinsics. #endif #if !PX_DOXYGEN namespace physx { #endif namespace aos { struct VecI16V; struct VecU16V; struct VecI32V; struct VecU32V; struct Vec4V; typedef Vec4V QuatV; PX_ALIGN_PREFIX(16) struct FloatV { PxF32 x; PxF32 pad[3]; FloatV() { } FloatV(const PxF32 _x) : x(_x) { } } PX_ALIGN_SUFFIX(16); PX_ALIGN_PREFIX(16) struct Vec4V { PxF32 x, y, z, w; Vec4V() { } Vec4V(const PxF32 _x, const PxF32 _y, const PxF32 _z, const PxF32 _w) : x(_x), y(_y), z(_z), w(_w) { } } PX_ALIGN_SUFFIX(16); PX_ALIGN_PREFIX(16) struct Vec3V { PxF32 x, y, z; PxF32 pad; Vec3V() { } Vec3V(const PxF32 _x, const PxF32 _y, const PxF32 _z) : x(_x), y(_y), z(_z), pad(0.0f) { } } PX_ALIGN_SUFFIX(16); PX_ALIGN_PREFIX(16) struct BoolV { PxU32 ux, uy, uz, uw; BoolV() { } BoolV(const PxU32 _x, const PxU32 _y, const PxU32 _z, const PxU32 _w) : ux(_x), uy(_y), uz(_z), uw(_w) { } } PX_ALIGN_SUFFIX(16); struct Mat33V { Mat33V() { } Mat33V(const Vec3V& c0, const Vec3V& c1, const Vec3V& c2) : col0(c0), col1(c1), col2(c2) { } Vec3V col0; Vec3V col1; Vec3V col2; }; struct Mat34V { Mat34V() { } Mat34V(const Vec3V& c0, const Vec3V& c1, const Vec3V& c2, const Vec3V& c3) : col0(c0), col1(c1), col2(c2), col3(c3) { } Vec3V col0; Vec3V col1; Vec3V col2; Vec3V col3; }; struct Mat43V { Mat43V() { } Mat43V(const Vec4V& c0, const Vec4V& c1, const Vec4V& c2) : col0(c0), col1(c1), col2(c2) { } Vec4V col0; Vec4V col1; Vec4V col2; }; struct Mat44V { Mat44V() { } Mat44V(const Vec4V& c0, const Vec4V& c1, const Vec4V& c2, const Vec4V& c3) : col0(c0), col1(c1), col2(c2), col3(c3) { } Vec4V col0; Vec4V col1; Vec4V col2; Vec4V col3; }; PX_ALIGN_PREFIX(16) struct VecU32V { PxU32 u32[4]; PX_FORCE_INLINE VecU32V() { } PX_FORCE_INLINE VecU32V(PxU32 a, PxU32 b, PxU32 c, PxU32 d) { u32[0] = a; u32[1] = b; u32[2] = c; u32[3] = d; } } PX_ALIGN_SUFFIX(16); PX_ALIGN_PREFIX(16) struct VecI32V { PxI32 i32[4]; PX_FORCE_INLINE VecI32V() { } PX_FORCE_INLINE VecI32V(PxI32 a, PxI32 b, PxI32 c, PxI32 d) { i32[0] = a; i32[1] = b; i32[2] = c; i32[3] = d; } } PX_ALIGN_SUFFIX(16); PX_ALIGN_PREFIX(16) struct VecI16V { PxI16 i16[8]; PX_FORCE_INLINE VecI16V() { } PX_FORCE_INLINE VecI16V(PxI16 a, PxI16 b, PxI16 c, PxI16 d, PxI16 e, PxI16 f, PxI16 g, PxI16 h) { i16[0] = a; i16[1] = b; i16[2] = c; i16[3] = d; i16[4] = e; i16[5] = f; i16[6] = g; i16[7] = h; } } PX_ALIGN_SUFFIX(16); PX_ALIGN_PREFIX(16) struct VecU16V { union { PxU16 u16[8]; PxI16 i16[8]; }; PX_FORCE_INLINE VecU16V() { } PX_FORCE_INLINE VecU16V(PxU16 a, PxU16 b, PxU16 c, PxU16 d, PxU16 e, PxU16 f, PxU16 g, PxU16 h) { u16[0] = a; u16[1] = b; u16[2] = c; u16[3] = d; u16[4] = e; u16[5] = f; u16[6] = g; u16[7] = h; } } PX_ALIGN_SUFFIX(16); #define FloatVArg FloatV & #define Vec3VArg Vec3V & #define Vec4VArg Vec4V & #define BoolVArg BoolV & #define VecU32VArg VecU32V & #define VecI32VArg VecI32V & #define VecU16VArg VecU16V & #define VecI16VArg VecI16V & #define QuatVArg QuatV & #define VecCrossV Vec3V typedef VecI32V VecShiftV; #define VecShiftVArg VecShiftV & } // namespace aos #if !PX_DOXYGEN } // namespace physx #endif #endif