/******************************************************************* Copyright (C) 2017, 2018. 2020 AMPL Optimization, Inc.; written by David M. Gay. Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that the copyright notice and this permission notice and warranty disclaimer appear in supporting documentation. The author and AMPL Optimization, Inc. disclaim all warranties with regard to this software, including all implied warranties of merchantability and fitness. In no event shall the author be liable for any special, indirect or consequential damages or any damages whatsoever resulting from loss of use, data or profits, whether in an action of contract, negligence or other tortious action, arising out of or in connection with the use or performance of this software. *******************************************************************/ #include "jac2dim.h" #ifdef __cplusplus extern "C" { extern real con2ival_nomap_ASL(ASL *a, int i, real *X, fint *nerror); extern void con2grd_nomap_ASL(ASL *a, int i, real *X, real *G, fint *nerror); } #endif static void INchk(ASL *asl, const char *who, int i, int ix) { ASL_CHECK(asl, ASL_read_fgh, who); if (i < 0 || i >= ix) { fprintf(Stderr, "%s: got I = %d; expected 0 <= I < %d\n", who, i, ix); exit(1); } } static real c2ival(ASL_fgh *asl, int i, real *X, fint *nerror) { Jmp_buf err_jmp0; expr *e; int ij, nc; real f; if (nerror && *nerror >= 0) { err_jmp = &err_jmp0; ij = setjmp(err_jmp0.jb); if ((*nerror = ij)) return 0.; } want_deriv = want_derivs; errno = 0; /* in case f77 set errno opening files */ co_index = i; if (!asl->i.x_known) x2_check_ASL(asl,X); if (!asl->i.ncxval) asl->i.ncxval = (int*)M1zapalloc(nclcon*sizeof(int)); if (!(x0kind & ASL_have_concom)) { if (comb < combc) comeval(asl, comb, combc); if (comc1) com1eval(asl, 0, comc1); x0kind |= ASL_have_concom; } if (i >= (nc = asl->i.n_con0)) e = lcon_de[i-nc].e; else e = con_de[i].e; f = (*e->op)(e C_ASL); asl->i.ncxval[i] = asl->i.nxval; err_jmp = 0; return f; } static real Conival2(ASL_fgh *asl, int i, real *X, fint *nerror) { cgrad *gr; int j1, kv, *vmi; real f, *vscale; if (i < asl->i.n_con0) f = c2ival(asl, i, X, nerror); else f = 0.; kv = 0; vmi = 0; if ((vscale = asl->i.vscale)) kv = 2; if (asl->i.vmap) { vmi = get_vminv_ASL((ASL*)asl); ++kv; } gr = asl->i.Cgrad0[i]; switch(kv) { case 3: for(; gr; gr = gr->next) { j1 = vmi[gr->varno]; f += X[j1] * vscale[j1] * gr->coef; } break; case 2: for(; gr; gr = gr->next) { j1 = gr->varno; f += X[j1] * vscale[j1] * gr->coef; } break; case 1: for(; gr; gr = gr->next) f += X[vmi[gr->varno]] * gr->coef; break; case 0: for(; gr; gr = gr->next) f += X[gr->varno] * gr->coef; } return f; } real con2ival_nomap_ASL(ASL *a, int i, real *X, fint *nerror) { INchk(a, "con2ival_nomap", i, a->i.n_con0); return Conival2((ASL_fgh*)a, i, X, nerror); } real con2ival_ASL(ASL *a, int i, real *X, fint *nerror) { int *cm; INchk(a, "con2ival", i, a->i.n_con_); if ((cm = a->i.cmap)) i = cm[i]; return Conival2((ASL_fgh*)a, i, X, nerror); } int lcon2val_ASL(ASL *a, int i, real *X, fint *nerror) { real f; INchk(a, "lcon2val", i, a->i.n_lcon_); f = c2ival((ASL_fgh*)a, i + a->i.n_con0, X, nerror); return f != 0.; } static void Congrd2(ASL_fgh *asl, int i, real *X, real *G, fint *nerror) { Jmp_buf err_jmp0; cde *d; cgrad *gr, *gr1; int i0, ij, j, *vmi, xksave; real *Adjoints, *vscale; size_t L; if (nerror && *nerror >= 0) { err_jmp = &err_jmp0; ij = setjmp(err_jmp0.jb); if ((*nerror = ij)) return; } errno = 0; /* in case f77 set errno opening files */ if (!asl->i.x_known) { co_index = i; x2_check_ASL(asl,X); } if ((!asl->i.ncxval || asl->i.ncxval[i] != asl->i.nxval) && (!(x0kind & ASL_have_conval) || i < n_conjac[0] || i >= n_conjac[1])) { xksave = asl->i.x_known; asl->i.x_known = 1; con2ival_nomap_ASL((ASL*)asl,i,X,nerror); asl->i.x_known = xksave; if (nerror && *nerror) return; } if (asl->i.Derrs) deriv_errchk_ASL((ASL*)asl, i, 1, 2); if (!(x0kind & ASL_have_funnel)) { if (f_b) funnelset(asl, f_b); if (f_c) funnelset(asl, f_c); x0kind |= ASL_have_funnel; } Adjoints = adjoints; d = con_de + i; gr1 = asl->i.Cgrad0[i]; for(gr = gr1; gr; gr = gr->next) Adjoints[gr->varno] = gr->coef; if ((L = d->zaplen)) { memset(adjoints_nv1, 0, L); derprop(d->d); } vmi = 0; if (asl->i.vmap) vmi = get_vminv_ASL((ASL*)asl); if ((vscale = asl->i.vscale)) { if (vmi) for(gr = gr1; gr; gr = gr->next) { i0 = gr->varno; Adjoints[i0] *= vscale[vmi[i0]]; } else for(gr = gr1; gr; gr = gr->next) { i0 = gr->varno; Adjoints[i0] *= vscale[i0]; } } gr = gr1; i0 = 0; switch(asl->i.congrd_mode) { case 1: for(; gr; gr = gr->next) G[i0++] = Adjoints[gr->varno]; break; case 2: for(; gr; gr = gr->next) G[gr->goff] = Adjoints[gr->varno]; break; default: if (vmi) { for(; gr; gr = gr->next) { i = vmi[j = gr->varno]; while(i0 < i) G[i0++] = 0; G[i] = Adjoints[j]; i0 = i + 1; } } else for(; gr; gr = gr->next) { i = gr->varno; while(i0 < i) G[i0++] = 0; G[i] = Adjoints[i]; i0 = i + 1; } i = n_var; while(i0 < i) G[i0++] = 0; } err_jmp = 0; } void con2grd_nomap_ASL(ASL *a, int i, real *X, real *G, fint *nerror) { ASL_fgh *asl; static char who[] = "con2grd_nomap"; INchk(a, who, i, a->i.n_con0); asl = (ASL_fgh*)a; if (!want_derivs) No_derivs_ASL(who); Congrd2(asl, i, X, G, nerror); } void con2grd_ASL(ASL *a, int i, real *X, real *G, fint *nerror) { ASL_fgh *asl; int *cm; static char who[] = "con2grd"; INchk(a, who, i, a->i.n_con_); asl = (ASL_fgh*)a; if (!want_derivs) No_derivs_ASL(who); if ((cm = asl->i.cmap)) i = cm[i]; Congrd2(asl, i, X, G, nerror); }