int32 dw_lin_strain_fib( FMField *out, FMField *mtxD, FMField *mat, Mapping *vg ) { int32 ii, dim, sym, nQP, nEP, ret = RET_OK; FMField *aux1 = 0, *aux2 = 0; nQP = vg->bfGM->nLev; nEP = vg->bfGM->nCol; dim = vg->bfGM->nRow; sym = (dim + 1) * dim / 2; fmf_createAlloc( &aux1, 1, nQP, nEP * dim, sym ); fmf_createAlloc( &aux2, 1, nQP, nEP * dim, 1 ); for (ii = 0; ii < out->nCell; ii++) { FMF_SetCell( out, ii ); FMF_SetCell( mtxD, ii ); FMF_SetCell( mat, ii ); FMF_SetCell( vg->bfGM, ii ); FMF_SetCell( vg->det, ii ); form_sdcc_actOpGT_M3( aux1, vg->bfGM, mtxD ); fmf_mulAB_nn( aux2, aux1, mat ); fmf_sumLevelsMulF( out, aux2, vg->det->val ); ERR_CheckGo( ret ); } end_label: fmf_freeDestroy( &aux1 ); fmf_freeDestroy( &aux2 ); return( ret ); }
/*! @par Revision history: - 03.08.2006, c - 01.12.2006 */ int32 dw_biot_grad( FMField *out, float64 coef, FMField *pressure_qp, FMField *mtxD, Mapping *svg, Mapping *vvg, int32 isDiff ) { int32 ii, nEPU, nEP, dim, nQP, ret = RET_OK; FMField *dfp = 0, *gtdfp = 0, *gtd = 0, *gtdf = 0; nQP = vvg->bfGM->nLev; dim = vvg->bfGM->nRow; nEPU = vvg->bfGM->nCol; nEP = svg->bf->nCol; /* fmf_print( mtxD, stdout, 0 ); */ if (isDiff == 1) { fmf_createAlloc( >d, 1, nQP, dim * nEPU, 1 ); fmf_createAlloc( >df, 1, nQP, dim * nEPU, nEP ); } else { int32 sym = (dim + 1) * dim / 2; fmf_createAlloc( &dfp, 1, nQP, sym, 1 ); fmf_createAlloc( >dfp, 1, nQP, dim * nEPU, 1 ); } for (ii = 0; ii < out->nCell; ii++) { FMF_SetCell( out, ii ); FMF_SetCell( mtxD, ii ); FMF_SetCell( vvg->bfGM, ii ); FMF_SetCell( vvg->det, ii ); if (isDiff == 1) { FMF_SetCellX1( svg->bf, ii ); form_sdcc_actOpGT_M3( gtd, vvg->bfGM, mtxD ); fmf_mulAB_nn( gtdf, gtd, svg->bf ); fmf_sumLevelsMulF( out, gtdf, vvg->det->val ); } else { FMF_SetCell( pressure_qp, ii ); fmf_mulAB_nn( dfp, mtxD, pressure_qp ); form_sdcc_actOpGT_VS3( gtdfp, vvg->bfGM, dfp ); fmf_sumLevelsMulF( out, gtdfp, vvg->det->val ); } ERR_CheckGo( ret ); } // E.g. 1/dt. fmfc_mulC( out, coef ); end_label: if (isDiff) { fmf_freeDestroy( >d ); fmf_freeDestroy( >df ); } else { fmf_freeDestroy( &dfp ); fmf_freeDestroy( >dfp ); } return( ret ); }
/*! @par Revision history: - 03.08.2006, c - 29.11.2006 */ int32 dw_lin_elastic( FMField *out, float64 coef, FMField *strain, FMField *mtxD, VolumeGeometry *vg, int32 isDiff ) { int32 ii, dim, sym, nQP, nEP, ret = RET_OK; FMField *stress = 0; FMField *res = 0, *gtd = 0, *gtdg = 0; nQP = vg->bfGM->nLev; nEP = vg->bfGM->nCol; dim = vg->bfGM->nRow; sym = (dim + 1) * dim / 2; /* fmf_print( mtxD, stdout, 0 ); */ /* output( "%d %d %d %d %d %d\n", offset, nEl, nEP, nQP, dim, elList_nRow ); */ if (isDiff) { fmf_createAlloc( >d, 1, nQP, nEP * dim, sym ); fmf_createAlloc( >dg, 1, nQP, nEP * dim, nEP * dim ); for (ii = 0; ii < out->nCell; ii++) { FMF_SetCell( out, ii ); FMF_SetCell( mtxD, ii ); FMF_SetCell( vg->bfGM, ii ); FMF_SetCell( vg->det, ii ); form_sdcc_actOpGT_M3( gtd, vg->bfGM, mtxD ); form_sdcc_actOpG_RM3( gtdg, gtd, vg->bfGM ); fmf_sumLevelsMulF( out, gtdg, vg->det->val ); ERR_CheckGo( ret ); } } else { fmf_createAlloc( &stress, 1, nQP, sym, 1 ); fmf_createAlloc( &res, 1, nQP, dim * nEP, 1 ); for (ii = 0; ii < out->nCell; ii++) { FMF_SetCell( out, ii ); FMF_SetCell( mtxD, ii ); FMF_SetCell( vg->bfGM, ii ); FMF_SetCell( vg->det, ii ); FMF_SetCell( strain, ii ); fmf_mulAB_nn( stress, mtxD, strain ); form_sdcc_actOpGT_VS3( res, vg->bfGM, stress ); fmf_sumLevelsMulF( out, res, vg->det->val ); ERR_CheckGo( ret ); } } // E.g. 1/dt. fmfc_mulC( out, coef ); end_label: if (isDiff) { fmf_freeDestroy( >d ); fmf_freeDestroy( >dg ); } else { fmf_freeDestroy( &res ); fmf_freeDestroy( &stress ); } return( ret ); }
/*! @par Revision history: - 07.03.2006, c */ int32 dw_lin_elastic_iso( FMField *out, FMField *strain, FMField *lam, FMField *mu, VolumeGeometry *vg, int32 isDiff ) { int32 ii, dim, sym, nQP, nEP, ret = RET_OK; FMField *stress = 0; FMField *res = 0, *d11 = 0, *gtd11 = 0, *gtd11g = 0; nQP = vg->bfGM->nLev; nEP = vg->bfGM->nCol; dim = vg->bfGM->nRow; sym = (dim + 1) * dim / 2; if (isDiff) { fmf_createAlloc( &d11, 1, nQP, sym, sym ); fmf_createAlloc( >d11, 1, nQP, nEP * dim, sym ); fmf_createAlloc( >d11g, 1, nQP, nEP * dim, nEP * dim ); for (ii = 0; ii < out->nCell; ii++) { FMF_SetCell( out, ii ); FMF_SetCell( lam, ii ); FMF_SetCell( mu, ii ); FMF_SetCell( vg->bfGM, ii ); FMF_SetCell( vg->det, ii ); mat_le_tanModuli11( d11, lam, mu, 0 ); /* fmf_print( d11, stdout, 0 ); */ /* sys_pause(); */ form_sdcc_actOpGT_M3( gtd11, vg->bfGM, d11 ); form_sdcc_actOpG_RM3( gtd11g, gtd11, vg->bfGM ); fmf_sumLevelsMulF( out, gtd11g, vg->det->val ); ERR_CheckGo( ret ); } } else { fmf_createAlloc( &stress, strain->nCell, nQP, sym, 1 ); fmf_createAlloc( &res, 1, nQP, dim * nEP, 1 ); mat_le_stress( stress, strain, lam, mu ); for (ii = 0; ii < out->nCell; ii++) { FMF_SetCell( out, ii ); FMF_SetCell( stress, ii ); FMF_SetCell( vg->bfGM, ii ); FMF_SetCell( vg->det, ii ); form_sdcc_actOpGT_VS3( res, vg->bfGM, stress ); fmf_sumLevelsMulF( out, res, vg->det->val ); ERR_CheckGo( ret ); } } end_label: if (isDiff) { fmf_freeDestroy( &d11 ); fmf_freeDestroy( >d11 ); fmf_freeDestroy( >d11g ); } else { fmf_freeDestroy( &res ); fmf_freeDestroy( &stress ); } return( ret ); }