ajz = ajy + STRIDE;
#ifdef CHECK_EXCLS
- gmx_load_simd_2xnn_interactions(static_cast<int>(l_cj[cjind].excl), filter_S0, filter_S2,
- &interact_S0, &interact_S2);
+ gmx_load_simd_2xnn_interactions(
+ static_cast<int>(l_cj[cjind].excl), filter_S0, filter_S2, &interact_S0, &interact_S2);
#endif /* CHECK_EXCLS */
/* load j atom coordinates */
c6_S2 * fma(sixth_S, rinvsix_S2, v_fswitch_pr(rsw_S2, rsw2_S2, p6_6cpot_S, p6_vc3_S, p6_vc4_S));
# endif
SimdReal VLJ12_S0 = c12_S0
- * fma(twelveth_S, rinvsix_S0 * rinvsix_S0,
+ * fma(twelveth_S,
+ rinvsix_S0 * rinvsix_S0,
v_fswitch_pr(rsw_S0, rsw2_S0, p12_12cpot_S, p12_vc3_S, p12_vc4_S));
# ifndef HALF_LJ
SimdReal VLJ12_S2 = c12_S2
- * fma(twelveth_S, rinvsix_S2 * rinvsix_S2,
+ * fma(twelveth_S,
+ rinvsix_S2 * rinvsix_S2,
v_fswitch_pr(rsw_S2, rsw2_S2, p12_12cpot_S, p12_vc3_S, p12_vc4_S));
# endif
# undef v_fswitch_pr
* r^-6*cexp*(1 + cr2 + cr2^2/2 + cr2^3/6) = cexp*(r^-6*poly + c^6/6)
*/
frLJ_S0 = fma(c6grid_S0,
- fnma(expmcr2_S0, fma(rinvsix_nm_S0, poly_S0, lje_c6_6_S), rinvsix_nm_S0), frLJ_S0);
+ fnma(expmcr2_S0, fma(rinvsix_nm_S0, poly_S0, lje_c6_6_S), rinvsix_nm_S0),
+ frLJ_S0);
# ifndef HALF_LJ
frLJ_S2 = fma(c6grid_S2,
- fnma(expmcr2_S2, fma(rinvsix_nm_S2, poly_S2, lje_c6_6_S), rinvsix_nm_S2), frLJ_S2);
+ fnma(expmcr2_S2, fma(rinvsix_nm_S2, poly_S2, lje_c6_6_S), rinvsix_nm_S2),
+ frLJ_S2);
# endif
# ifdef CALC_ENERGIES
# endif
VLJ_S0 = fma(sixth_S * c6grid_S0,
- fma(rinvsix_nm_S0, fnma(expmcr2_S0, poly_S0, one_S), sh_mask_S0), VLJ_S0);
+ fma(rinvsix_nm_S0, fnma(expmcr2_S0, poly_S0, one_S), sh_mask_S0),
+ VLJ_S0);
# ifndef HALF_LJ
VLJ_S2 = fma(sixth_S * c6grid_S2,
- fma(rinvsix_nm_S2, fnma(expmcr2_S2, poly_S2, one_S), sh_mask_S2), VLJ_S2);
+ fma(rinvsix_nm_S2, fnma(expmcr2_S2, poly_S2, one_S), sh_mask_S2),
+ VLJ_S2);
# endif
# endif /* CALC_ENERGIES */
}