/* AUTOMATICALLY GENERATED FILE - DO NOT EDIT! Please change MatrixNxN.py and re-run it */ /* Generated with ./MatrixNxN.py n = 2, TYPE = unsigned int */ #include #include #include #include /* for sqrt functions */ #include /* for the abs/labs functions */ #include #include #include void SST_Math_Mat22uAdd(const SST_Mat22u* RESTRICT _A, const SST_Mat22u* RESTRICT _B, SST_Mat22u* 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]; } /******************************************************************************/ void SST_Math_Mat22uAddLocal(SST_Mat22u* RESTRICT _A, const SST_Mat22u* 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]; } /******************************************************************************/ void SST_Math_Mat22uSubtract(const SST_Mat22u* RESTRICT _A, const SST_Mat22u* RESTRICT _B, SST_Mat22u* 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]; } /******************************************************************************/ void SST_Math_Mat22uSubtractLocal(SST_Mat22u* RESTRICT _A, const SST_Mat22u* 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]; } /******************************************************************************/ void SST_Math_Mat22uMultiplyElementwise(const SST_Mat22u* RESTRICT _A, const SST_Mat22u* RESTRICT _B, SST_Mat22u* 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]; } /******************************************************************************/ void SST_Math_Mat22uMultiplyElementwiseLocal(SST_Mat22u* RESTRICT _A, const SST_Mat22u* 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]; } /******************************************************************************/ void SST_Math_Mat22uMultiplyScalar(const SST_Mat22u* RESTRICT _A, const unsigned int k, SST_Mat22u* 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; } /******************************************************************************/ void SST_Math_Mat22uMultiplyScalarLocal(SST_Mat22u* RESTRICT _A, const unsigned int k) { SST_ASSUME_ALIGNED(_A,16); _A->v[0] *= k; _A->v[1] *= k; _A->v[2] *= k; _A->v[3] *= k; } /******************************************************************************/ void SST_Math_Mat22uMultiplyMatrix(const SST_Mat22u* _A, const SST_Mat22u* RESTRICT _B, SST_Mat22u* 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[ 2]*_B->v[ 1]; _out->v[ 2] = _A->v[ 0]*_B->v[ 2]+_A->v[ 2]*_B->v[ 3]; _out->v[ 1] = _A->v[ 1]*_B->v[ 0]+_A->v[ 3]*_B->v[ 1]; _out->v[ 3] = _A->v[ 1]*_B->v[ 2]+_A->v[ 3]*_B->v[ 3]; } void SST_Math_Mat22uMultiplyMatrixLocal(SST_Mat22u* RESTRICT _A, const SST_Mat22u* RESTRICT _B) { unsigned int tmp[4]; SST_ASSUME_ALIGNED(_A,16); SST_ASSUME_ALIGNED(_B,16); tmp[ 0] = _A->v[ 0]*_B->v[ 0]+_A->v[ 2]*_B->v[ 1]; tmp[ 2] = _A->v[ 0]*_B->v[ 2]+_A->v[ 2]*_B->v[ 3]; _A->v[0] = tmp[0]; _A->v[2] = tmp[2]; tmp[ 1] = _A->v[ 1]*_B->v[ 0]+_A->v[ 3]*_B->v[ 1]; tmp[ 3] = _A->v[ 1]*_B->v[ 2]+_A->v[ 3]*_B->v[ 3]; _A->v[1] = tmp[1]; _A->v[3] = tmp[3]; } void SST_Math_Mat22uMultiplyVector(const SST_Mat22u* RESTRICT _A, const SST_Vec2u* RESTRICT _v, SST_Vec2u* 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[ 2]*_v->v[1]; _out->v[ 1] = _A->v[ 1]*_v->v[0]+_A->v[ 3]*_v->v[1]; } void SST_Math_Mat22uMultiplyVectorLocal(const SST_Mat22u* RESTRICT _A, SST_Vec2u* RESTRICT _v) { unsigned int tmp[2]; SST_ASSUME_ALIGNED(_A,16); SST_ASSUME_ALIGNED(_v,16); tmp[ 0] = _A->v[ 0]*_v->v[0]+_A->v[ 2]*_v->v[1]; tmp[ 1] = _A->v[ 1]*_v->v[0]+_A->v[ 3]*_v->v[1]; _v->v[0] = tmp[0]; _v->v[1] = tmp[1]; } void SST_Math_Mat22uTranspose(const SST_Mat22u* RESTRICT _A, SST_Mat22u* RESTRICT _out) { SST_ASSUME_ALIGNED(_A,16); SST_ASSUME_ALIGNED(_out,16); _out->v[ 0] = _A->v[ 0]; _out->v[ 1] = _A->v[ 2]; _out->v[ 2] = _A->v[ 1]; _out->v[ 3] = _A->v[ 3]; } void SST_Math_Mat22uTransposeLocal(SST_Mat22u* RESTRICT _A) { unsigned int tmp[2]; SST_ASSUME_ALIGNED(_A,16); tmp[1] = _A->v[ 2]; _A->v[ 2] = _A->v[ 1]; _A->v[ 1] = tmp[1]; }