Projekt_Grafika/dependencies/physx-4.1/source/foundation/include/PsVecQuat.h
Jakub Adamski f5087ee7b6 new repo
2021-01-29 17:02:11 +01:00

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//
// 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) 2008-2019 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 PSFOUNDATION_PSVECQUAT_H
#define PSFOUNDATION_PSVECQUAT_H
//#include "PsInlineAoS.h"
namespace physx
{
namespace shdfnd
{
namespace aos
{
#ifndef PX_PIDIV2
#define PX_PIDIV2 1.570796327f
#endif
//////////////////////////////////
// QuatV
//////////////////////////////////
PX_FORCE_INLINE QuatV QuatVLoadXYZW(const PxF32 x, const PxF32 y, const PxF32 z, const PxF32 w)
{
return V4LoadXYZW(x, y, z, w);
}
PX_FORCE_INLINE QuatV QuatVLoadU(const PxF32* v)
{
return V4LoadU(v);
}
PX_FORCE_INLINE QuatV QuatVLoadA(const PxF32* v)
{
return V4LoadA(v);
}
PX_FORCE_INLINE QuatV QuatV_From_RotationAxisAngle(const Vec3V u, const FloatV a)
{
// q = cos(a/2) + u*sin(a/2)
const FloatV half = FLoad(0.5f);
const FloatV hangle = FMul(a, half);
const FloatV piByTwo(FLoad(PX_PIDIV2));
const FloatV PiByTwoMinHangle(FSub(piByTwo, hangle));
const Vec4V hangle2(Vec4V_From_Vec3V(V3Merge(hangle, PiByTwoMinHangle, hangle)));
/*const FloatV sina = FSin(hangle);
const FloatV cosa = FCos(hangle);*/
const Vec4V _sina = V4Sin(hangle2);
const FloatV sina = V4GetX(_sina);
const FloatV cosa = V4GetY(_sina);
const Vec3V v = V3Scale(u, sina);
// return V4Sel(BTTTF(), Vec4V_From_Vec3V(v), V4Splat(cosa));
return V4SetW(Vec4V_From_Vec3V(v), cosa);
}
// Normalize
PX_FORCE_INLINE QuatV QuatNormalize(const QuatV q)
{
return V4Normalize(q);
}
PX_FORCE_INLINE FloatV QuatLength(const QuatV q)
{
return V4Length(q);
}
PX_FORCE_INLINE FloatV QuatLengthSq(const QuatV q)
{
return V4LengthSq(q);
}
PX_FORCE_INLINE FloatV QuatDot(const QuatV a, const QuatV b) // convert this PxQuat to a unit quaternion
{
return V4Dot(a, b);
}
PX_FORCE_INLINE QuatV QuatConjugate(const QuatV q)
{
return V4SetW(V4Neg(q), V4GetW(q));
}
PX_FORCE_INLINE Vec3V QuatGetImaginaryPart(const QuatV q)
{
return Vec3V_From_Vec4V(q);
}
/** brief computes rotation of x-axis */
PX_FORCE_INLINE Vec3V QuatGetBasisVector0(const QuatV q)
{
/*const PxF32 x2 = x*2.0f;
const PxF32 w2 = w*2.0f;
return PxVec3( (w * w2) - 1.0f + x*x2,
(z * w2) + y*x2,
(-y * w2) + z*x2);*/
const FloatV two = FLoad(2.f);
const FloatV w = V4GetW(q);
const Vec3V u = Vec3V_From_Vec4V(q);
const FloatV x2 = FMul(V3GetX(u), two);
const FloatV w2 = FMul(w, two);
const Vec3V a = V3Scale(u, x2);
const Vec3V tmp = V3Merge(w, V3GetZ(u), FNeg(V3GetY(u)));
// const Vec3V b = V3Scale(tmp, w2);
// const Vec3V ab = V3Add(a, b);
const Vec3V ab = V3ScaleAdd(tmp, w2, a);
return V3SetX(ab, FSub(V3GetX(ab), FOne()));
}
/** brief computes rotation of y-axis */
PX_FORCE_INLINE Vec3V QuatGetBasisVector1(const QuatV q)
{
/*const PxF32 y2 = y*2.0f;
const PxF32 w2 = w*2.0f;
return PxVec3( (-z * w2) + x*y2,
(w * w2) - 1.0f + y*y2,
(x * w2) + z*y2);*/
const FloatV two = FLoad(2.f);
const FloatV w = V4GetW(q);
const Vec3V u = Vec3V_From_Vec4V(q);
const FloatV y2 = FMul(V3GetY(u), two);
const FloatV w2 = FMul(w, two);
const Vec3V a = V3Scale(u, y2);
const Vec3V tmp = V3Merge(FNeg(V3GetZ(u)), w, V3GetX(u));
// const Vec3V b = V3Scale(tmp, w2);
// const Vec3V ab = V3Add(a, b);
const Vec3V ab = V3ScaleAdd(tmp, w2, a);
return V3SetY(ab, FSub(V3GetY(ab), FOne()));
}
/** brief computes rotation of z-axis */
PX_FORCE_INLINE Vec3V QuatGetBasisVector2(const QuatV q)
{
/*const PxF32 z2 = z*2.0f;
const PxF32 w2 = w*2.0f;
return PxVec3( (y * w2) + x*z2,
(-x * w2) + y*z2,
(w * w2) - 1.0f + z*z2);*/
const FloatV two = FLoad(2.f);
const FloatV w = V4GetW(q);
const Vec3V u = Vec3V_From_Vec4V(q);
const FloatV z2 = FMul(V3GetZ(u), two);
const FloatV w2 = FMul(w, two);
const Vec3V a = V3Scale(u, z2);
const Vec3V tmp = V3Merge(V3GetY(u), FNeg(V3GetX(u)), w);
/*const Vec3V b = V3Scale(tmp, w2);
const Vec3V ab = V3Add(a, b);*/
const Vec3V ab = V3ScaleAdd(tmp, w2, a);
return V3SetZ(ab, FSub(V3GetZ(ab), FOne()));
}
PX_FORCE_INLINE Vec3V QuatRotate(const QuatV q, const Vec3V v)
{
/*
const PxVec3 qv(x,y,z);
return (v*(w*w-0.5f) + (qv.cross(v))*w + qv*(qv.dot(v)))*2;
*/
const FloatV two = FLoad(2.f);
// const FloatV half = FloatV_From_F32(0.5f);
const FloatV nhalf = FLoad(-0.5f);
const Vec3V u = Vec3V_From_Vec4V(q);
const FloatV w = V4GetW(q);
// const FloatV w2 = FSub(FMul(w, w), half);
const FloatV w2 = FScaleAdd(w, w, nhalf);
const Vec3V a = V3Scale(v, w2);
// const Vec3V b = V3Scale(V3Cross(u, v), w);
// const Vec3V c = V3Scale(u, V3Dot(u, v));
// return V3Scale(V3Add(V3Add(a, b), c), two);
const Vec3V temp = V3ScaleAdd(V3Cross(u, v), w, a);
return V3Scale(V3ScaleAdd(u, V3Dot(u, v), temp), two);
}
PX_FORCE_INLINE Vec3V QuatTransform(const QuatV q, const Vec3V p, const Vec3V v)
{
// p + q.rotate(v)
const FloatV two = FLoad(2.f);
// const FloatV half = FloatV_From_F32(0.5f);
const FloatV nhalf = FLoad(-0.5f);
const Vec3V u = Vec3V_From_Vec4V(q);
const FloatV w = V4GetW(q);
// const FloatV w2 = FSub(FMul(w, w), half);
const FloatV w2 = FScaleAdd(w, w, nhalf);
const Vec3V a = V3Scale(v, w2);
/*const Vec3V b = V3Scale(V3Cross(u, v), w);
const Vec3V c = V3Scale(u, V3Dot(u, v));
return V3ScaleAdd(V3Add(V3Add(a, b), c), two, p);*/
const Vec3V temp = V3ScaleAdd(V3Cross(u, v), w, a);
const Vec3V z = V3ScaleAdd(u, V3Dot(u, v), temp);
return V3ScaleAdd(z, two, p);
}
PX_FORCE_INLINE Vec3V QuatRotateInv(const QuatV q, const Vec3V v)
{
// const PxVec3 qv(x,y,z);
// return (v*(w*w-0.5f) - (qv.cross(v))*w + qv*(qv.dot(v)))*2;
const FloatV two = FLoad(2.f);
const FloatV nhalf = FLoad(-0.5f);
const Vec3V u = Vec3V_From_Vec4V(q);
const FloatV w = V4GetW(q);
const FloatV w2 = FScaleAdd(w, w, nhalf);
const Vec3V a = V3Scale(v, w2);
/*const Vec3V b = V3Scale(V3Cross(u, v), w);
const Vec3V c = V3Scale(u, V3Dot(u, v));
return V3Scale(V3Add(V3Sub(a, b), c), two);*/
const Vec3V temp = V3NegScaleSub(V3Cross(u, v), w, a);
return V3Scale(V3ScaleAdd(u, V3Dot(u, v), temp), two);
}
PX_FORCE_INLINE QuatV QuatMul(const QuatV a, const QuatV b)
{
const Vec3V imagA = Vec3V_From_Vec4V(a);
const Vec3V imagB = Vec3V_From_Vec4V(b);
const FloatV rA = V4GetW(a);
const FloatV rB = V4GetW(b);
const FloatV real = FSub(FMul(rA, rB), V3Dot(imagA, imagB));
const Vec3V v0 = V3Scale(imagA, rB);
const Vec3V v1 = V3Scale(imagB, rA);
const Vec3V v2 = V3Cross(imagA, imagB);
const Vec3V imag = V3Add(V3Add(v0, v1), v2);
return V4SetW(Vec4V_From_Vec3V(imag), real);
}
PX_FORCE_INLINE QuatV QuatAdd(const QuatV a, const QuatV b)
{
return V4Add(a, b);
}
PX_FORCE_INLINE QuatV QuatNeg(const QuatV q)
{
return V4Neg(q);
}
PX_FORCE_INLINE QuatV QuatSub(const QuatV a, const QuatV b)
{
return V4Sub(a, b);
}
PX_FORCE_INLINE QuatV QuatScale(const QuatV a, const FloatV b)
{
return V4Scale(a, b);
}
PX_FORCE_INLINE QuatV QuatMerge(const FloatV* const floatVArray)
{
return V4Merge(floatVArray);
}
PX_FORCE_INLINE QuatV QuatMerge(const FloatVArg x, const FloatVArg y, const FloatVArg z, const FloatVArg w)
{
return V4Merge(x, y, z, w);
}
PX_FORCE_INLINE QuatV QuatIdentity()
{
return V4SetW(V4Zero(), FOne());
}
PX_FORCE_INLINE bool isFiniteQuatV(const QuatV q)
{
return isFiniteVec4V(q);
}
PX_FORCE_INLINE bool isValidQuatV(const QuatV q)
{
const FloatV unitTolerance = FLoad(1e-4f);
const FloatV tmp = FAbs(FSub(QuatLength(q), FOne()));
const BoolV con = FIsGrtr(unitTolerance, tmp);
return isFiniteVec4V(q) & (BAllEqTTTT(con) == 1);
}
PX_FORCE_INLINE bool isSaneQuatV(const QuatV q)
{
const FloatV unitTolerance = FLoad(1e-2f);
const FloatV tmp = FAbs(FSub(QuatLength(q), FOne()));
const BoolV con = FIsGrtr(unitTolerance, tmp);
return isFiniteVec4V(q) & (BAllEqTTTT(con) == 1);
}
PX_FORCE_INLINE Mat33V QuatGetMat33V(const QuatVArg q)
{
// const FloatV two = FloatV_From_F32(2.f);
// const FloatV one = FOne();
// const FloatV x = V4GetX(q);
// const FloatV y = V4GetY(q);
// const FloatV z = V4GetZ(q);
// const Vec4V _q = V4Mul(q, two);
//
////const FloatV w = V4GetW(q);
// const Vec4V t0 = V4Mul(_q, x); // 2xx, 2xy, 2xz, 2xw
// const Vec4V t1 = V4Mul(_q, y); // 2xy, 2yy, 2yz, 2yw
// const Vec4V t2 = V4Mul(_q, z); // 2xz, 2yz, 2zz, 2zw
////const Vec4V t3 = V4Mul(_q, w); // 2xw, 2yw, 2zw, 2ww
// const FloatV xx2 = V4GetX(t0);
// const FloatV xy2 = V4GetY(t0);
// const FloatV xz2 = V4GetZ(t0);
// const FloatV xw2 = V4GetW(t0);
// const FloatV yy2 = V4GetY(t1);
// const FloatV yz2 = V4GetZ(t1);
// const FloatV yw2 = V4GetW(t1);
// const FloatV zz2 = V4GetZ(t2);
// const FloatV zw2 = V4GetW(t2);
////const FloatV ww2 = V4GetW(t3);
// const FloatV c00 = FSub(one, FAdd(yy2, zz2));
// const FloatV c01 = FSub(xy2, zw2);
// const FloatV c02 = FAdd(xz2, yw2);
// const FloatV c10 = FAdd(xy2, zw2);
// const FloatV c11 = FSub(one, FAdd(xx2, zz2));
// const FloatV c12 = FSub(yz2, xw2);
// const FloatV c20 = FSub(xz2, yw2);
// const FloatV c21 = FAdd(yz2, xw2);
// const FloatV c22 = FSub(one, FAdd(xx2, yy2));
// const Vec3V c0 = V3Merge(c00, c10, c20);
// const Vec3V c1 = V3Merge(c01, c11, c21);
// const Vec3V c2 = V3Merge(c02, c12, c22);
// return Mat33V(c0, c1, c2);
const FloatV one = FOne();
const FloatV x = V4GetX(q);
const FloatV y = V4GetY(q);
const FloatV z = V4GetZ(q);
const FloatV w = V4GetW(q);
const FloatV x2 = FAdd(x, x);
const FloatV y2 = FAdd(y, y);
const FloatV z2 = FAdd(z, z);
const FloatV xx = FMul(x2, x);
const FloatV yy = FMul(y2, y);
const FloatV zz = FMul(z2, z);
const FloatV xy = FMul(x2, y);
const FloatV xz = FMul(x2, z);
const FloatV xw = FMul(x2, w);
const FloatV yz = FMul(y2, z);
const FloatV yw = FMul(y2, w);
const FloatV zw = FMul(z2, w);
const FloatV v = FSub(one, xx);
const Vec3V column0 = V3Merge(FSub(FSub(one, yy), zz), FAdd(xy, zw), FSub(xz, yw));
const Vec3V column1 = V3Merge(FSub(xy, zw), FSub(v, zz), FAdd(yz, xw));
const Vec3V column2 = V3Merge(FAdd(xz, yw), FSub(yz, xw), FSub(v, yy));
return Mat33V(column0, column1, column2);
}
PX_FORCE_INLINE QuatV Mat33GetQuatV(const Mat33V& a)
{
const FloatV one = FOne();
const FloatV zero = FZero();
const FloatV half = FLoad(0.5f);
const FloatV two = FLoad(2.f);
const FloatV scale = FLoad(0.25f);
const FloatV a00 = V3GetX(a.col0);
const FloatV a11 = V3GetY(a.col1);
const FloatV a22 = V3GetZ(a.col2);
const FloatV a21 = V3GetZ(a.col1); // row=2, col=1;
const FloatV a12 = V3GetY(a.col2); // row=1, col=2;
const FloatV a02 = V3GetX(a.col2); // row=0, col=2;
const FloatV a20 = V3GetZ(a.col0); // row=2, col=0;
const FloatV a10 = V3GetY(a.col0); // row=1, col=0;
const FloatV a01 = V3GetX(a.col1); // row=0, col=1;
const Vec3V vec0 = V3Merge(a21, a02, a10);
const Vec3V vec1 = V3Merge(a12, a20, a01);
const Vec3V v = V3Sub(vec0, vec1);
const Vec3V g = V3Add(vec0, vec1);
const FloatV trace = FAdd(a00, FAdd(a11, a22));
if(FAllGrtrOrEq(trace, zero))
{
const FloatV h = FSqrt(FAdd(trace, one));
const FloatV w = FMul(half, h);
const FloatV s = FMul(half, FRecip(h));
const Vec3V u = V3Scale(v, s);
return V4SetW(Vec4V_From_Vec3V(u), w);
}
else
{
const FloatV ntrace = FNeg(trace);
const Vec3V d = V3Merge(a00, a11, a22);
const BoolV con0 = BAllTrue3(V3IsGrtrOrEq(V3Splat(a00), d));
const BoolV con1 = BAllTrue3(V3IsGrtrOrEq(V3Splat(a11), d));
const FloatV t0 = FAdd(one, FScaleAdd(a00, two, ntrace));
const FloatV t1 = FAdd(one, FScaleAdd(a11, two, ntrace));
const FloatV t2 = FAdd(one, FScaleAdd(a22, two, ntrace));
const FloatV t = FSel(con0, t0, FSel(con1, t1, t2));
const FloatV h = FMul(two, FSqrt(t));
const FloatV s = FRecip(h);
const FloatV g0 = FMul(scale, h);
const Vec3V vs = V3Scale(v, s);
const Vec3V gs = V3Scale(g, s);
const FloatV gsx = V3GetX(gs);
const FloatV gsy = V3GetY(gs);
const FloatV gsz = V3GetZ(gs);
// vs.x= (a21 - a12)*s; vs.y=(a02 - a20)*s; vs.z=(a10 - a01)*s;
// gs.x= (a21 + a12)*s; gs.y=(a02 + a20)*s; gs.z=(a10 + a01)*s;
const Vec4V v0 = V4Merge(g0, gsz, gsy, V3GetX(vs));
const Vec4V v1 = V4Merge(gsz, g0, gsx, V3GetY(vs));
const Vec4V v2 = V4Merge(gsy, gsx, g0, V3GetZ(vs));
return V4Sel(con0, v0, V4Sel(con1, v1, v2));
}
}
} // namespace aos
} // namespace shdfnd
} // namespace physx
#endif