/* AUTOMATICALLY GENERATED FILE - DO NOT EDIT! Please change MatrixNxN.py and re-run it */ /* Generated with ./MatrixNxN.py n = 3, TYPE = int */ #include #include #include #include /* for sqrt functions */ #include /* for the abs/labs functions */ #include #include #include void SST_Math_Mat33iAdd(const SST_Mat33i* RESTRICT _A, const SST_Mat33i* RESTRICT _B, SST_Mat33i* RESTRICT _out) { SST_ASSUME_ALIGNED(_A,16); SST_ASSUME_ALIGNED(_B,16); SST_ASSUME_ALIGNED(_out,16); _out->v[0] = _A->v[0] + _B->v[0]; _out->v[1] = _A->v[1] + _B->v[1]; _out->v[2] = _A->v[2] + _B->v[2]; _out->v[3] = _A->v[3] + _B->v[3]; _out->v[4] = _A->v[4] + _B->v[4]; _out->v[5] = _A->v[5] + _B->v[5]; _out->v[6] = _A->v[6] + _B->v[6]; _out->v[7] = _A->v[7] + _B->v[7]; _out->v[8] = _A->v[8] + _B->v[8]; } /******************************************************************************/ void SST_Math_Mat33iAddLocal(SST_Mat33i* RESTRICT _A, const SST_Mat33i* RESTRICT _B) { SST_ASSUME_ALIGNED(_A,16); SST_ASSUME_ALIGNED(_B,16); _A->v[0] += _B->v[0]; _A->v[1] += _B->v[1]; _A->v[2] += _B->v[2]; _A->v[3] += _B->v[3]; _A->v[4] += _B->v[4]; _A->v[5] += _B->v[5]; _A->v[6] += _B->v[6]; _A->v[7] += _B->v[7]; _A->v[8] += _B->v[8]; } /******************************************************************************/ void SST_Math_Mat33iSubtract(const SST_Mat33i* RESTRICT _A, const SST_Mat33i* RESTRICT _B, SST_Mat33i* RESTRICT _out) { SST_ASSUME_ALIGNED(_A,16); SST_ASSUME_ALIGNED(_B,16); SST_ASSUME_ALIGNED(_out,16); _out->v[0] = _A->v[0] - _B->v[0]; _out->v[1] = _A->v[1] - _B->v[1]; _out->v[2] = _A->v[2] - _B->v[2]; _out->v[3] = _A->v[3] - _B->v[3]; _out->v[4] = _A->v[4] - _B->v[4]; _out->v[5] = _A->v[5] - _B->v[5]; _out->v[6] = _A->v[6] - _B->v[6]; _out->v[7] = _A->v[7] - _B->v[7]; _out->v[8] = _A->v[8] - _B->v[8]; } /******************************************************************************/ void SST_Math_Mat33iSubtractLocal(SST_Mat33i* RESTRICT _A, const SST_Mat33i* RESTRICT _B) { SST_ASSUME_ALIGNED(_A,16); SST_ASSUME_ALIGNED(_B,16); _A->v[0] -= _B->v[0]; _A->v[1] -= _B->v[1]; _A->v[2] -= _B->v[2]; _A->v[3] -= _B->v[3]; _A->v[4] -= _B->v[4]; _A->v[5] -= _B->v[5]; _A->v[6] -= _B->v[6]; _A->v[7] -= _B->v[7]; _A->v[8] -= _B->v[8]; } /******************************************************************************/ void SST_Math_Mat33iMultiplyElementwise(const SST_Mat33i* RESTRICT _A, const SST_Mat33i* RESTRICT _B, SST_Mat33i* RESTRICT _out) { SST_ASSUME_ALIGNED(_A,16); SST_ASSUME_ALIGNED(_B,16); SST_ASSUME_ALIGNED(_out,16); _out->v[0] = _A->v[0] * _B->v[0]; _out->v[1] = _A->v[1] * _B->v[1]; _out->v[2] = _A->v[2] * _B->v[2]; _out->v[3] = _A->v[3] * _B->v[3]; _out->v[4] = _A->v[4] * _B->v[4]; _out->v[5] = _A->v[5] * _B->v[5]; _out->v[6] = _A->v[6] * _B->v[6]; _out->v[7] = _A->v[7] * _B->v[7]; _out->v[8] = _A->v[8] * _B->v[8]; } /******************************************************************************/ void SST_Math_Mat33iMultiplyElementwiseLocal(SST_Mat33i* RESTRICT _A, const SST_Mat33i* RESTRICT _B) { SST_ASSUME_ALIGNED(_A,16); SST_ASSUME_ALIGNED(_B,16); _A->v[0] *= _B->v[0]; _A->v[1] *= _B->v[1]; _A->v[2] *= _B->v[2]; _A->v[3] *= _B->v[3]; _A->v[4] *= _B->v[4]; _A->v[5] *= _B->v[5]; _A->v[6] *= _B->v[6]; _A->v[7] *= _B->v[7]; _A->v[8] *= _B->v[8]; } /******************************************************************************/ void SST_Math_Mat33iMultiplyScalar(const SST_Mat33i* RESTRICT _A, const int k, SST_Mat33i* RESTRICT _out) { SST_ASSUME_ALIGNED(_A,16); SST_ASSUME_ALIGNED(_out,16); _out->v[0] = _A->v[0] * k; _out->v[1] = _A->v[1] * k; _out->v[2] = _A->v[2] * k; _out->v[3] = _A->v[3] * k; _out->v[4] = _A->v[4] * k; _out->v[5] = _A->v[5] * k; _out->v[6] = _A->v[6] * k; _out->v[7] = _A->v[7] * k; _out->v[8] = _A->v[8] * k; } /******************************************************************************/ void SST_Math_Mat33iMultiplyScalarLocal(SST_Mat33i* RESTRICT _A, const int k) { SST_ASSUME_ALIGNED(_A,16); _A->v[0] *= k; _A->v[1] *= k; _A->v[2] *= k; _A->v[3] *= k; _A->v[4] *= k; _A->v[5] *= k; _A->v[6] *= k; _A->v[7] *= k; _A->v[8] *= k; } /******************************************************************************/ void SST_Math_Mat33iMultiplyMatrix(const SST_Mat33i* _A, const SST_Mat33i* RESTRICT _B, SST_Mat33i* RESTRICT _out) { SST_ASSUME_ALIGNED(_A,16); SST_ASSUME_ALIGNED(_B,16); SST_ASSUME_ALIGNED(_out,16); _out->v[ 0] = _A->v[ 0]*_B->v[ 0]+_A->v[ 3]*_B->v[ 1]+_A->v[ 6]*_B->v[ 2]; _out->v[ 3] = _A->v[ 0]*_B->v[ 3]+_A->v[ 3]*_B->v[ 4]+_A->v[ 6]*_B->v[ 5]; _out->v[ 6] = _A->v[ 0]*_B->v[ 6]+_A->v[ 3]*_B->v[ 7]+_A->v[ 6]*_B->v[ 8]; _out->v[ 1] = _A->v[ 1]*_B->v[ 0]+_A->v[ 4]*_B->v[ 1]+_A->v[ 7]*_B->v[ 2]; _out->v[ 4] = _A->v[ 1]*_B->v[ 3]+_A->v[ 4]*_B->v[ 4]+_A->v[ 7]*_B->v[ 5]; _out->v[ 7] = _A->v[ 1]*_B->v[ 6]+_A->v[ 4]*_B->v[ 7]+_A->v[ 7]*_B->v[ 8]; _out->v[ 2] = _A->v[ 2]*_B->v[ 0]+_A->v[ 5]*_B->v[ 1]+_A->v[ 8]*_B->v[ 2]; _out->v[ 5] = _A->v[ 2]*_B->v[ 3]+_A->v[ 5]*_B->v[ 4]+_A->v[ 8]*_B->v[ 5]; _out->v[ 8] = _A->v[ 2]*_B->v[ 6]+_A->v[ 5]*_B->v[ 7]+_A->v[ 8]*_B->v[ 8]; } void SST_Math_Mat33iMultiplyMatrixLocal(SST_Mat33i* RESTRICT _A, const SST_Mat33i* RESTRICT _B) { int tmp[9]; SST_ASSUME_ALIGNED(_A,16); SST_ASSUME_ALIGNED(_B,16); tmp[ 0] = _A->v[ 0]*_B->v[ 0]+_A->v[ 3]*_B->v[ 1]+_A->v[ 6]*_B->v[ 2]; tmp[ 3] = _A->v[ 0]*_B->v[ 3]+_A->v[ 3]*_B->v[ 4]+_A->v[ 6]*_B->v[ 5]; tmp[ 6] = _A->v[ 0]*_B->v[ 6]+_A->v[ 3]*_B->v[ 7]+_A->v[ 6]*_B->v[ 8]; _A->v[0] = tmp[0]; _A->v[3] = tmp[3]; _A->v[6] = tmp[6]; tmp[ 1] = _A->v[ 1]*_B->v[ 0]+_A->v[ 4]*_B->v[ 1]+_A->v[ 7]*_B->v[ 2]; tmp[ 4] = _A->v[ 1]*_B->v[ 3]+_A->v[ 4]*_B->v[ 4]+_A->v[ 7]*_B->v[ 5]; tmp[ 7] = _A->v[ 1]*_B->v[ 6]+_A->v[ 4]*_B->v[ 7]+_A->v[ 7]*_B->v[ 8]; _A->v[1] = tmp[1]; _A->v[4] = tmp[4]; _A->v[7] = tmp[7]; tmp[ 2] = _A->v[ 2]*_B->v[ 0]+_A->v[ 5]*_B->v[ 1]+_A->v[ 8]*_B->v[ 2]; tmp[ 5] = _A->v[ 2]*_B->v[ 3]+_A->v[ 5]*_B->v[ 4]+_A->v[ 8]*_B->v[ 5]; tmp[ 8] = _A->v[ 2]*_B->v[ 6]+_A->v[ 5]*_B->v[ 7]+_A->v[ 8]*_B->v[ 8]; _A->v[2] = tmp[2]; _A->v[5] = tmp[5]; _A->v[8] = tmp[8]; } void SST_Math_Mat33iMultiplyVector(const SST_Mat33i* RESTRICT _A, const SST_Vec3i* RESTRICT _v, SST_Vec3i* RESTRICT _out) { SST_ASSUME_ALIGNED(_A,16); SST_ASSUME_ALIGNED(_v,16); SST_ASSUME_ALIGNED(_out,16); _out->v[ 0] = _A->v[ 0]*_v->v[0]+_A->v[ 3]*_v->v[1]+_A->v[ 6]*_v->v[2]; _out->v[ 1] = _A->v[ 1]*_v->v[0]+_A->v[ 4]*_v->v[1]+_A->v[ 7]*_v->v[2]; _out->v[ 2] = _A->v[ 2]*_v->v[0]+_A->v[ 5]*_v->v[1]+_A->v[ 8]*_v->v[2]; } void SST_Math_Mat33iMultiplyVectorLocal(const SST_Mat33i* RESTRICT _A, SST_Vec3i* RESTRICT _v) { int tmp[3]; SST_ASSUME_ALIGNED(_A,16); SST_ASSUME_ALIGNED(_v,16); tmp[ 0] = _A->v[ 0]*_v->v[0]+_A->v[ 3]*_v->v[1]+_A->v[ 6]*_v->v[2]; tmp[ 1] = _A->v[ 1]*_v->v[0]+_A->v[ 4]*_v->v[1]+_A->v[ 7]*_v->v[2]; tmp[ 2] = _A->v[ 2]*_v->v[0]+_A->v[ 5]*_v->v[1]+_A->v[ 8]*_v->v[2]; _v->v[0] = tmp[0]; _v->v[1] = tmp[1]; _v->v[2] = tmp[2]; } void SST_Math_Mat33iTranspose(const SST_Mat33i* RESTRICT _A, SST_Mat33i* RESTRICT _out) { SST_ASSUME_ALIGNED(_A,16); SST_ASSUME_ALIGNED(_out,16); _out->v[ 0] = _A->v[ 0]; _out->v[ 1] = _A->v[ 3]; _out->v[ 2] = _A->v[ 6]; _out->v[ 3] = _A->v[ 1]; _out->v[ 4] = _A->v[ 4]; _out->v[ 5] = _A->v[ 7]; _out->v[ 6] = _A->v[ 2]; _out->v[ 7] = _A->v[ 5]; _out->v[ 8] = _A->v[ 8]; } void SST_Math_Mat33iTransposeLocal(SST_Mat33i* RESTRICT _A) { int tmp[3]; SST_ASSUME_ALIGNED(_A,16); tmp[1] = _A->v[ 3]; _A->v[ 3] = _A->v[ 1]; _A->v[ 1] = tmp[1]; tmp[2] = _A->v[ 6]; _A->v[ 6] = _A->v[ 2]; _A->v[ 2] = tmp[2]; tmp[2] = _A->v[ 7]; _A->v[ 7] = _A->v[ 5]; _A->v[ 5] = tmp[2]; } bool SST_Math_Mat33iCheckOrthonormal(const SST_Mat33i* _A) { const int diag = -_A->v[0]*_A->v[0] -_A->v[1]*_A->v[1] -_A->v[2]*_A->v[2] -_A->v[3]*_A->v[3] -_A->v[4]*_A->v[4] -_A->v[5]*_A->v[5] -_A->v[6]*_A->v[6] -_A->v[7]*_A->v[7] -_A->v[8]*_A->v[8]; const int odiag = _A->v[0]*_A->v[3]+ _A->v[1]*_A->v[4]+ _A->v[2]*_A->v[5]+ _A->v[0]*_A->v[6]+ _A->v[1]*_A->v[7]+ _A->v[2]*_A->v[8]+ _A->v[3]*_A->v[0]+ _A->v[4]*_A->v[1]+ _A->v[5]*_A->v[2]+ _A->v[3]*_A->v[6]+ _A->v[4]*_A->v[7]+ _A->v[5]*_A->v[8]+ _A->v[6]*_A->v[0]+ _A->v[7]*_A->v[1]+ _A->v[8]*_A->v[2]+ _A->v[6]*_A->v[3]+ _A->v[7]*_A->v[4]+ _A->v[8]*_A->v[5]; SST_ASSUME_ALIGNED(_A,16); return ((abs(3+diag)) <= 100*0) & ((abs(odiag)) <= 100*0); } int SST_Math_Mat33iDeterminant(const SST_Mat33i* _A) { const int result = _A->v[0]*(_A->v[4]*_A->v[8]-_A->v[5]*_A->v[7])-_A->v[1]*(_A->v[3]*_A->v[8]-_A->v[6]*_A->v[5])+_A->v[2]*(_A->v[3]*_A->v[7]-_A->v[6]*_A->v[4]); SST_ASSUME_ALIGNED(_A,16); return result; }